From: Horst Beepmanh <> Subject: Source --- diff --git a/DeclData/DeclData.make b/DeclData/DeclData.make --- a/DeclData/DeclData.make +++ b/DeclData/DeclData.make @@ -30,14 +30,6 @@ PDMMaceDir = {MaceDir}PDMMaceEnet: #include {PDMMaceDir}PDMEnet.Make DeclResources = "{RsrcDir}DeclData.rsrc" ∂ - "{RsrcDir}PrimaryInit.rsrc" ∂ - "{RsrcDir}SecondaryInit.rsrc" ∂ - "{RsrcDir}SuperInit.rsrc" ∂ - "{RsrcDir}DeclDataMace.rsrc" ∂ - "{RsrcDir}DeclDataPDMMace.rsrc" ∂ - "{RsrcDir}DeclDataSonic.rsrc" ∂ - "{RsrcDir}DeclDataVideo.rsrc" ∂ - "{RsrcDir}Gamma.rsrc" DeclHeaders = "{SonicDir}SonicEqu.a" diff --git a/DeclData/DeclData.r b/DeclData/DeclData.r --- a/DeclData/DeclData.r +++ b/DeclData/DeclData.r @@ -765,6 +765,24 @@ resource 'sdir' (160, "_sRsrcBFBasedDir") {{ }}; +//------------------------------------------------------------- +// TNT sRsrc Directory +//------------------------------------------------------------- + +resource 'sdir' (170, "_sRsrcTNTDir") {{ + $3E, l{"_sRsrc_TNT"}; // Minimal board sRsrc directory. + $FD, l{"_sRsrc_OpenTxpt"}; // Open Transport functional sRsrc +}}; + + +resource 'boar' (150, "_sRsrc_TNT") {{ + sRsrcType, l{"_BoardType"}; // Minimal board sRsrc. + sRsrcName, c{"Macintosh 4A"}; + BoardId, d{$670}; + VendorInfo, l{"_VendorInfo"}; +}}; + + //------------------------------------------------------------- // // sRsrc_Board Lists @@ -1121,9 +1139,9 @@ resource 'styp' (535, "_BoardType") {CatBoard, TypBoard, 0, 0}; //------------------------------------------------------------- resource 'vend' (540, "_VendorInfo") {{ - VendorId, c{"Copyright © 1986-1993 by Apple Computer, Inc. All Rights Reserved."}; - RevLevel, c{"Macintosh CPU Family 5.1"}; // offset to revision - PartNum, c{"Universal DeclROM"}; // offset to part number descriptor + VendorId, c{"Copyright © 1986-1998 by Apple Computer, Inc. All Rights Reserved."}; + RevLevel, c{"Macintosh CPU Family 6.0"}; // offset to revision + PartNum, c{"DeclROM for OpenTxpt"}; // offset to part number descriptor Date, c{$$Date}; // offset to ROM build date descriptor }}; @@ -2899,6 +2917,14 @@ resource 'srsc' (1575, "_sRsrc_Mace") {{ }}; +resource 'srsc' (1576, "_sRsrc_OpenTxpt") {{ + sRsrcType, l{"_NetOpenTxpt"}; // Network type descriptor + sRsrcName, l{"_NetOpenTxptName"}; // offset to name string + sRsrcFlags, d{0}; // don't open this device at start + sRsrcHWDevId, d{2}; // the second of many onboard Ethernet chips +}}; + + //---------------------------------- resource 'srsc' (1580, "_sRsrc_DoubleExposure") {{ @@ -2927,6 +2953,7 @@ resource 'styp' (1605, "_VideoTypeApollo") {CatDisplay, TypVideo, DrSwApple, Dr resource 'styp' (1610, "_VideoTypeGSC") {CatDisplay, TypVideo, DrSwApple, DrHwGSC}; resource 'styp' (1625, "_NetSonic") {CatNetwork, TypEthernet, DrSwApple, DrHwSonic}; resource 'styp' (1630, "_NetMace") {CatNetwork, TypEthernet, DrSwApple, DrHwMace}; +resource 'styp' (1631, "_NetOpenTxpt") {CatNetwork, TypEthernet, DrSwApple, 4}; resource 'styp' (1635, "_CPUDblExp") {CatCPU, TypAppleII, DrSwAppleIIe, DrHwDblExp}; resource 'styp' (1636, "_SCSITransport") {CatIntBus, TypXPT, DrSwApple, sRsrc_BdCyclone}; @@ -2945,6 +2972,7 @@ resource 'cstr' (1660, "_VideoNameApollo") {"Display_Video_Apple_Apollo"}; resource 'cstr' (1665, "_VideoNameGSC") {"Display_Video_Apple_DBLite"}; resource 'cstr' (1680, "_NetSonicName") {"Network_Ethernet_Apple_Sonic"}; resource 'cstr' (1685, "_NetMaceName") {"Network_Ethernet_Apple_Mace"}; +resource 'cstr' (1686, "_NetOpenTxptName") {"Network_Ethernet_Apple_OpenTransport"}; #endif @@ -9483,10 +9511,8 @@ resource 'long' (2657, "_timingApple16") {timingApple16}; // Extended Format/Header Block //------------------------------------------------------------- -resource 'xfrm' (6000, "Root") { - l{"_sSuperInitRec"}, - l{"_sRsrcSuperDir"}, - l{"_sRsrcUnknownDir"}, +resource 'form' (6000, "Root") { + l{"_sRsrcTNTDir"}, 1, // RomRevision appleFormat, 0, diff --git a/Drivers/Backlight/PWM.c b/Drivers/Backlight/PWM.c --- a/Drivers/Backlight/PWM.c +++ b/Drivers/Backlight/PWM.c @@ -65,7 +65,6 @@ /*** INCLUDE FILES DECLARATIONS ***/ -#include #include #include #include diff --git a/Drivers/Backlight/backlightGenRout.c b/Drivers/Backlight/backlightGenRout.c --- a/Drivers/Backlight/backlightGenRout.c +++ b/Drivers/Backlight/backlightGenRout.c @@ -22,10 +22,9 @@ /*** INCLUDE FILES DECLARATIONS ***/ -#include #include #include -#include +#include #include #include #include diff --git a/Drivers/Backlight/backlightcpu.c b/Drivers/Backlight/backlightcpu.c --- a/Drivers/Backlight/backlightcpu.c +++ b/Drivers/Backlight/backlightcpu.c @@ -21,7 +21,6 @@ /*** INCLUDE FILES DECLARATIONS ***/ -#include #include #include diff --git a/Drivers/Backlight/backlightinput.c b/Drivers/Backlight/backlightinput.c --- a/Drivers/Backlight/backlightinput.c +++ b/Drivers/Backlight/backlightinput.c @@ -20,7 +20,6 @@ /*** INCLUDE FILES DECLARATIONS ***/ -#include #include #include diff --git a/Drivers/EDisk/EDiskDriver.a b/Drivers/EDisk/EDiskDriver.a --- a/Drivers/EDisk/EDiskDriver.a +++ b/Drivers/EDisk/EDiskDriver.a @@ -113,8 +113,6 @@ MACHINE MC68020 -NewEdiskProt EQU 1 - _TestManager OPWORD $A06B macro @@ -138,7 +136,7 @@ EDiskDRVRflags SET EDiskDRVRflags!1< - IF newEdiskProt THEN - cmpi.b #EMMU1,MMUType ; check for an emulated MMU - bne.s @NoEMMU - lea InitTablePPC,a6 ; a6 := pointer to PowerPC initial values -@NoEMMU - ENDIF - move.l BootGlobPtr,a2 ; get ptr to BootGlobs - move.l sgRamDiskBase(a2),d2 ; base of RAM disk - move.l d2,d3 ; get a copy in d3 + move.l sgRamDiskBase(a2),d1 ; base of RAM disk + move.l d1,d3 ; get a copy in d3 add.l sgRamDiskSize(a2),d3 ; end of ram disk in d3 suba.l a2,a2 ; a2 := HeaderInfoPtr (none for RamDisk) <2> - move.l d2,d1 ; get start addr in d2 moveq.l #0,d2 ; DataStartPtr := 0 <2> cmp.l d1,d3 ; see if it has any bytes bsr CreateEDrive ; create the RAM disk @noDisk ; ENDIF -; search for, and install ROM disks - - movea.l RomBase,a2 ; start searching at the base of ROM -@RomDiskLoop ; - bsr.w CheckForRomDisk ; see if it is a ROM disk - bne.s @NextRomDisk ; if not, try the next block - - moveq.l #0,d1 ; assume no checksums unless header says otherwise - move.l a2,d2 ; DataStartPtr := base of rom disk for now - move.l a2,d3 ; DataEndPtr := base of rom disk for now - bsr.s CreateEDrive ; create the RAM disk - lea SecondaryROMdisk,a6 ; all future ROM disks are secondary - -@NextRomDisk ; - adda.l #RomDiskAlign,a2 ; point to next block to check - cmpa.l #RomSpaceEnd,a2 ; see if end reached - blo.s @RomDiskLoop ; search the entire space - ; see if we have any EDisks to drive, abort OPEN if none. moveq.l #OpenErr,d0 ; if no drives found, return OpenErr @@ -362,20 +294,6 @@ EDiskOpen ; all regs saved by Device Manager move.w @RTS,FindDqePatch(a2) ; initialize FindDQE patch routine move.w @RTS,PrimePatch(a2) ; initialize Prime patch routine -; Install the VBL task to look for SLIM insertions and removals - - lea EDiskPollTask,a4 ; get the task address - moveq.l #8-1,d4 ; loop counter (8 times) -@InitPolling - lea VTask(a2),a0 ; a0 := pointer to VTask - jsr (a4) ; poll 8 times to init inserted status - dbra d4,@InitPolling ; and mount drives, and compute sizes - - lea VTask(a2),a0 ; a0 <- VBL task - addq.w #vType,qType(a0) ; initialize qType field - move.l a4,vblAddr(a0) ; initialize vblAddr field - _VInstall ; install the VBL task - moveq.l #NoErr,d0 ; no error @OpenDone movea.l (sp)+,a0 ; restore pointer to I/O param block @@ -413,7 +331,7 @@ CreateEDrive _NewPtr ,Sys,Clear ; allocate the drive info bne.s @Done ; if can't allocate, don't create drive - add.l #DQE-SLIMRegPtr,a0 ; point to the drive queue entry + lea DQE-SLIMRegPtr(a0),a0 ; point to the drive queue entry movea.l a6,a3 ; a3 := running pointer to init table entry move.l (a3)+,SLIMRegPtr(a0) ; initialize the SLIMRegPtr @@ -443,7 +361,7 @@ CreateEDrive move.l d3,RamDiskSize(a0) ; store it in globals addq.w #1,qType(a0) ; use long drive size format - addq.w #1,Installed(a0) ; mark the drive as installed + addq.b #1,Installed(a0) ; mark the drive as installed move.l d7,d0 ; get disk drive number, and refNum swap d0 ; move to high word, refNum to low word move.l a0,a3 ; make a copy of ptr to info @@ -452,82 +370,12 @@ CreateEDrive move.l d1,a0 ; get ptr to base of Edisk data move.l d3,d1 ; get RamDiskSize moveq.l #DisableEDiskWrites,d0 ; always disable writes at startup - bsr.w HWDependent ; disable writing to the EDisk + bsr HWDependent ; disable writing to the EDisk + bsr EDiskPollTask @Done addq.w #1,d7 ; update drive number adda.w #InitEntrySize,a6 ; point to next drive init entry rts ; EDisk drive is installed - title 'EDisk Driver - Check for ROM Disk' - -;_______________________________________________________________________ -; -; Routine: CheckForRomDisk -; Inputs: A2 - HeaderInfoPtr -; D7.hi - EDisk Driver RefNum -; Outputs: D0 - zero if valid ROM disk header, else non-zero -; ccr.z - bne if invalid header -; Destroys: D0, D1, A0, A3, A4 -; Calls: none -; Called by: EDiskOpen -; -; Function: Checks the EDisk header to see if it exists (no bus error), -; and has a valid signature. If it is valid, compares it -; against all other ROM Disks found, and if it's header block -; is not identical to any other ROM Disk (in case address -; wrap around causes repeated images), returns a result -; indicating that it should be created. -; -;_______________________________________________________________________ - - with EDiskHeader -CheckForRomDisk - move.w sr,-(sp) ; save old interrupt mask - ori.w #HiIntMask,sr ; disable interrupts (stealing BusErrVct) - move.l BusErrVct,-(sp) ; save old bus error vector - lea @NotFound,a0 ; new handler address - move.l a0,BusErrVct ; setup bus error handler - movea.l sp,a4 ; mark the stack - - lea HeaderTemplate,a3 ; point to expected values - lea HdrBlockSize(a2),a0 ; point to header data - moveq.l #(HdrDeviceSize-HdrBlockSize)/4-1,d0 ; loop counter -@SigCmpLoop - cmpm.l (a0)+,(a3)+ ; compare the values - dbne d0,@SigCmpLoop ; compare the blocks -@NotFound - movea.l a4,sp ; pop stack in case of bus error - move.l (sp)+,BusErrVct ; restore bus error vector - move.w (sp)+,sr ; restore interrupt mask - addq.w #1,d0 ; see if we had a match - bne.s @Done ; exit if not - -; valid header found, now let's see if it's unique. - - move.l d7,d1 ; get driver ref num - swap d1 ; d1.low := driver ref num - lea DrvQHdr+QHead-QLink,a0 ; point to the drive queue head -@CheckNeXTDrive - move.l QLink(a0),d0 ; check next drive queue element - beq.s @Done ; if not found, it's unique (d0=0) - movea.l d0,a0 ; a0 := drive queue element - cmp.w dQRefNum(a0),d1 ; is this one of ours - bne.s @CheckNeXTDrive ; if not, check the NeXT one - cmpi.b #romDiskType,\ ; it's one of ours - DriveInfo+3(a0) ; is it a ROM disk - bne.s @CheckNeXTDrive ; if not, check the NeXT one - - - moveq.l #EDiskHeaderSize/4-1,d0 ; compare the entire header - movea.l a2,a3 ; point to our header - movea.l HeaderInfoPtr(a0),a4 ; point to existing drive's header -@HdrCmpLoop - cmpm.l (a3)+,(a4)+ ; compare the values - dbne d0,@HdrCmpLoop ; compare the blocks - bne.s @CheckNeXTDrive ; if not the same, check the NeXT one - -@Done tst.l d0 ; set ccr based on D0 - rts ; all done - endwith title 'EDisk Driver - Close processing' ;_______________________________________________________________________ @@ -667,7 +515,7 @@ EDiskPrime ; all regs saved by Device Manager @ReadWrite move.l d1,d0 ; get the byte count - _BlockMove ; move the data + _BlockMoveData ; move the data move.l d1,d4 ; indicate all bytes moved bra.s @PrimeDone ; return with success title 'EDisk Driver - Read processing' @@ -857,11 +705,10 @@ HandleControlStatus swap d0 ; get offset of routine pea (a2,d0.w) ; push address of the routine - bra.w FindDQE ; find the DQE before calling routine + bra FindDQE ; find the DQE before calling routine @exit movea.l dCtlStorage(a1),a2 ; a2 := pointer to EDiskVars - addq.l #4,sp ; - bra.w EDiskDone2 ; return through EDiskDone2 + rts ctlKillIO @@ -875,17 +722,15 @@ ctlEject move.l d1,d0 ; get found status, ignore offline bne.s @EjectErr ; return error if not found bclr.b #MountedFlag,Flags(a3) ; mark it as not mounted - move.b DiskInPlace(a3),d0 ; see if any disk - ble.s @EjectDone ; if no disk, just ignore it - - subq.b #8,d0 ; see if ejectable + cmp.b #8,-3(a3) beq.s @EjectDone ; if not ejectable, just ignore it ; if disk in place was $48 (non-ejectable, but call driver anyway) we will force a ; disk in place event to be posted by the polling task, to re-mount the volume. moveq.l #EjectEDisk,d0 ; hardware dependent function code - bsr.w HWDependent ; start the eject, update DiskInPlace + bsr HWDependent ; start the eject, update DiskInPlace + bset.b #5,dCtlFlags(a1) ; flag DNeedTime @EjectDone moveq.l #noErr,d0 ; return with success @EjectErr @@ -958,12 +803,10 @@ ctlFormat cmpa.l a1,a4 ; see if all blocks cleared bhi.s @NextBlock ; loop through all of the blocks @done move.l d0,d2 ; save error code - IF newEdiskProt THEN ; d1 := byte count ; a0 := source address ; a3 := ptr to drive queue element movem.l (sp)+,a0/d1 ; restore size, length for disabling the disk - ENDIF moveq.l #DisableEDiskWrites,d0 ; hardware dependent function code bsr.w HWDependent ; disable writing to the EDisk move.l d2,d0 ; restore error code @@ -1026,7 +869,7 @@ statDrvSts clr.w (a1)+ ; return zero for track lea WriteProtected(a3),a0 ; start copy with write protected flag moveq.l #(DQE-WriteProtected)+dQDrvSz2+2,d0 ; number of bytes to copy - _BlockMove ; copy the drive info, and return noErr + _BlockMoveData ; copy the drive info, and return noErr @Done rts ; all done @@ -1070,7 +913,7 @@ IconCommon lea IconBuffer(a2),a1 ; get buffer address (dest address) move.l a1,(a4) ; return buffer pointer move.l #IconAndMaskSize,d0 ; setup byte count for icon and mask - _BlockMove ; copy the icon into the buffer + _BlockMoveData ; copy the icon into the buffer ; copy the "Where String" into the buffer @@ -1085,9 +928,39 @@ IconCommon bls.s @CopyString ; if in range just copy it moveq.l #WhereStringSize,d0 ; otherwise truncate to max size @CopyString - _BlockMove ; copy the string into the buffer + _BlockMoveData ; copy the string into the buffer @Done rts ; all done (d0 is noErr from _BlockMove) + title 'EDisk Driver - ctlPeriodic' + +;_______________________________________________________________________ +; +; Routine: ctlPeriodic +; +;_______________________________________________________________________ + +ctlPeriodic + bclr.b #5,dCtlFlags(a1) ; test & clear DNeedTime + bz.s @return ; probable spurious call? + + move dCtlRefNum(a1),d1 ; search the File Manager's + lea DrvQHdr+QHead,a3 ; drive queue for this EDisk +@search move.l (a3),d2 + beq.s @return ; (end of queue) + move.l d2,a3 + cmp dQRefNum(a3),d1 + bne.s @search + btst.b #0,-12(a3) ; crazy meddling with + bne.s @search ; private structures!! + bsr Mount + btst.b #0,-12(a3) + bne.s @search + bset.b #5, dCtlFlags(a1) ; re-flag DNeedTime + bra.s @search + +@return moveq.l #0,d0 + rts + title 'EDisk Driver - FindDQE - Find Drive Queue Element' ;_______________________________________________________________________ @@ -1111,8 +984,8 @@ IconCommon FindDQE ; find the drive queue element movea.l dCtlStorage(a1),a2 ; a2 := pointer to EDiskVars - addq.b #1,Active(a2) ; request in progress, exclude polling <1.2> jsr FindDqePatch(a2) ; allow patching here + lea csParam(a0),a4 ; point to param area lea DrvQHdr+QHead-QLink,a3 ; get the drive queue head move.w IODrvNum(a0),d2 ; d2 := drive number bpl.s @search ; start searching if drivenum is positive @@ -1131,29 +1004,12 @@ FindDQE ; find the drive queue element bne.s @search ; if not for our driver moveq.l #noErr,d1 ; indicate drive is found - -; now check to see if it is really present (onLine) - - tst.b DiskInPlace(a3) ; is there a disk - ble.s @offLine ; return off line error if not - - moveq.l #CheckEDiskInserted,d0 ; hardware dependent function code - bsr.s HWDependent ; see if disk is inserted - beq.s @offLine ; if not, return offline error - moveq.l #noErr,d0 ; indicate no disk-in-place - -@Done lea csParam(a0),a4 ; point to param area rts ; return with success (d0 = 0 = noErr) -@offLine - moveq.l #offLinErr,d0 ; indicate no disk-in-place - bra.s @Done ; return with error - - @notFound moveq.l #NSDrvErr,d1 ; indicate no such drive error moveq.l #NSDrvErr,d0 ; indicate no such drive error - bra.s @Done ; return with error + rts title 'EDisk Driver - EDiskDone - Command Completion' ;_______________________________________________________________________ @@ -1171,8 +1027,6 @@ FindDQE ; find the drive queue element ;_______________________________________________________________________ EDiskDone - subq.b #1,Active(a2) ; request complete, allow polling <1.2> -EDiskDone2 ;
movea.l DCEpointer(a2),a1 ; setup DCE pointer in a1 for JIODone btst.b #NoQueueBit-8,(sp)+ ; check for immediate request <1.2> bne.s @immed ; if immediate, don't use jIODone <1.2> @@ -1201,54 +1055,10 @@ HWDependent move.l HWDepProcPtr(a3),-(sp) ; get the handler address rts ; jump to it -RAMDiskHandler - move.b @decode(pc,d0.w),d0 ; get the routine offset - jmp @decode(pc,d0.w) ; jump to it -@decode - assert (*-@decode)=CheckEDiskInserted - dc.b @checkInserted-@decode - assert (*-@decode)=CheckEDiskReadOnly - dc.b @checkReadOnly-@decode - assert (*-@decode)=EnableEDiskWrites - dc.b @enableWrites-@decode - assert (*-@decode)=DisableEDiskWrites - dc.b @disableWrites-@decode - assert (*-@decode)=EjectEDisk - dc.b @eject-@decode - align 2 - -@checkInserted - moveq.l #-1,d0 ; always inserted - rts -@checkReadOnly - moveq.l #0,d0 ; never read only -@enableWrites - movem.l a0-a1/d1,-(sp) ; save registers - moveq #8,d0 ; _EDiskProtect selector | - move.l CheckSumPtr(a3),a0 ; put base addr of ram disk in a0 v - move.l #0,a1 ; indicate we want to unprotect edisk - _HwPriv ; unprotect the disk - movem.l (sp)+,a0-a1/d1 - bclr #EDiskProtect,Flags(a3) ; indicate the disk is not protected - rts -@disableWrites - movem.l a0-a1/d1,-(sp) ; save registers - moveq #8,d0 ; _EDiskProtect selector - move.l CheckSumPtr(a3),a0 ; put base addr of ram disk in a0 - move.l #1,a1 ; indicate we want to protect edisk - _HwPriv ; write-protect the disk ^ - movem.l (sp)+,a0-a1/d1 ; restore registers | - bset #EDiskProtect,Flags(a3) ; indicate the disk is protected - rts ; -@eject clr.b DiskInPlace(a3) ; mark it as offline -@done rts - - - IF newEdiskProt THEN ;————————————————————————— ; PowerPC Edisk Routines ;————————————————————————— -RAMDiskHandlerPPC +RAMDiskHandler move.b @decode(pc,d0.w),d0 ; get the routine offset jmp @decode(pc,d0.w) ; jump to it @decode @@ -1269,6 +1079,7 @@ RAMDiskHandlerPPC rts @checkReadOnly moveq.l #0,d0 ; never read only + rts @enableWrites ; a3 = ptr to driveQElement ; d1 = transfer length @@ -1305,36 +1116,7 @@ RAMDiskHandlerPPC bset #EDiskProtect,Flags(a3) ; indicate the disk is protected rts ; -@eject clr.b DiskInPlace(a3) ; mark it as offline -@done rts - - ENDIF - -ROMDiskHandler - move.b @decode(pc,d0.w),d0 ; get the routine offset - jmp @decode(pc,d0.w) ; jump to it -@decode - assert (*-@decode)=CheckEDiskInserted - dc.b @checkInserted-@decode - assert (*-@decode)=CheckEDiskReadOnly - dc.b @checkReadOnly-@decode - assert (*-@decode)=EnableEDiskWrites - dc.b @enableWrites-@decode - assert (*-@decode)=DisableEDiskWrites - dc.b @disableWrites-@decode - assert (*-@decode)=EjectEDisk - dc.b @eject-@decode - align 2 - -@checkInserted -@checkReadOnly - moveq.l #-1,d0 ; always inserted, always read only -@enableWrites -@disableWrites - rts - -@eject clr.b DiskInPlace(a3) ; mark it as offline -@done rts +@eject rts title 'EDisk Driver - EDiskPollTask - Drive Polling Task' ;_______________________________________________________________________ @@ -1352,98 +1134,9 @@ ROMDiskHandler ;_______________________________________________________________________ EDiskPollTask ; a0-a3/d0-d3 saved by int handler - lea EDiskVars-VTask(a0),a2 ; a2 := pointer to EDiskVars - lea DrvQHdr+QHead-QLink,a3 ; get the drive queue head - movea.l DCEpointer(a2),a1 ; get DCE pointer - move.w dCtlRefNum(a1),d3 ; d3 := driver refnum - - tst.b Active(a2) ; see if request in progress - beq.s @next ; if not, start searching the drive queue - - addq.w #1,VTask+vblCount(a2) ; if active, try again real soon - rts ; return - -@search movea.l d2,a3 ; a3 := DriveQElement - cmp.w dQRefNum(a3),d3 ; see if we are the driver - beq.s @CheckDrive ; check our drives -@next move.l QLink(a3),d2 ; check next drive queue element - bne.s @search ; search until end of drive queue - - move.w #EDiskPollRate,VTask+vblCount(a2) ; re-initialize the VBL count - rts ; return - - -@CheckDrive - moveq.l #CheckEDiskInserted,d0 ; hardware dependent function code - bsr.w HWDependent ; see if disk is inserted - addq.w #1,d0 ; ccr.x := 1 if EDisk inserted - move.b InsertedStatus(a3),d1 ; prepare to shift in new inserted status - addx.b d1,d1 ; shift in new inserted status - move.b d1,InsertedStatus(a3) ; update inserted status - moveq.l #InsertedMask,d0 ; prepare to de-bounce, and test inserted - - and.b d0,d1 ; see if offline, without bounce - bne.s @CheckOnLine ; if not offline, check online or bounce - -@OffLine - tst.b DiskInPlace(a3) ; check online status - bpl.s @next ; if not ejecting, do nothing - clr.b DiskInPlace(a3) ; now mark it offline (ejected) - bra.s @next ; eject complete, check next drive - - -@CheckOnLine - cmp.b d0,d1 ; see if online, without bounce - bne.s @next ; if bouncing, ignore it until it stops - tst.b DiskInPlace(a3) ; check online status - bmi.s @next ; if ejecting, do nothing - beq.s @OnLine ; if was offline, and just went online - -@mount btst.b #MountedFlag,Flags(a3) ; see if it was mounted - bne.s @next ; if already mounted, don't do it again - moveq.l #DiskInsertEvt,d0 ; disk inserted event (zero high word) - movea.l d0,a0 ; disk inserted event passed in a0 - move.w DQDrive(a3),d0 ; disk drive number in low word - _PostEvent ; post the disk inserted event - bne.s @next ; if error, don't mark as mounted - bset.b #MountedFlag,Flags(a3) ; mark it as mounted -@toNext bra.s @next ; check the next drive - -@OnLine -@SetupDriveInfo move.b DiskInPlaceInit(a3),\ DiskInPlace(a3) ; mark it as inserted clr.b WriteProtected(a3) ; mark it as writeable (assume RAM) - move.l HeaderInfoPtr(a3),d0 ; see if it supports headers - beq.s @SetupRAMDisk ; if no headers, must be a RAM based disk - - with EDiskHeader - movea.l d0,a0 ; a0 points to device header - move.l HdrFormatTime(a0),\ - FormatTime(a3) ; get the unique ID from the header - move.l HdrFormatTicks(a0),\ - FormatTicks(a3) ; get the unique ID from the header - -; see if device is ROM or RAM - - moveq.l #CheckEDiskReadOnly,d0 ; hardware dependent function code - bsr.w HWDependent ; see if disk is read only - move.b d0,WriteProtected(a3) ; setup the RAM=$00 / ROM=$FF flag - bne.s @SetupROMDisk ; if ROM disk, all info comes from header - - tst.l SLIMRegPtr(a3) ; see if this is a SLIM (which needs to be sized) - beq.s @SetupRAMDisk ; if not, base and end must already be valid - - moveq.l #EnableEDiskWrites,d0 ; hardware dependent function code - bsr.w HWDependent ; allow writes while sizing - bsr.w ComputeSLIMSize ; see how big the SLIM card is - add.l a0,d0 ; compute end ptr - move.l d0,DataEndPtr(a3) ; setup pointer to end of device data - adda.w #EDiskHeaderSize,a0 ; point past the header - move.l a0,CheckSumPtr(a3) ; checksums start just after the header - moveq.l #DisableEDiskWrites,d0 ; hardware dependent function code - bsr.w HWDependent ; no writes now - endwith @SetupRAMDisk movem.l CheckSumPtr(a3),d0/d1/d2; get checksum/start/end ptrs @@ -1475,133 +1168,17 @@ EDiskPollTask ; a0-a3/d0-d3 saved by int handler @DriveSizeOK rol.l #16-9,d2 ; convert to blocks, and swap halves move.l d2,dqDrvSz(a3) ; fill in the drive size (in blocks) - bra.w @mount ; now mount the drive +Mount btst.b #MountedFlag,Flags(a3) ; see if it was mounted + bne.s @done ; if already mounted, don't do it again + moveq.l #DiskInsertEvt,d0 ; disk inserted event (zero high word) + movea.l d0,a0 ; disk inserted event passed in a0 + move.w DQDrive(a3),d0 ; disk drive number in low word + _PostEvent ; post the disk inserted event + bne.s @done ; if error, don't mark as mounted + bset.b #MountedFlag,Flags(a3) ; mark it as mounted -@SetupROMDisk - move.l a0,d0 ; remember header address - lea HeaderTemplate,a1 ; point to expected values - with EDiskHeader - lea HdrBlockSize(a0),a0 ; point to header data - moveq.l #(HdrDeviceSize-HdrBlockSize)/4-1,d2 ; loop counter -@cmpLoop - cmpm.l (a0)+,(a1)+ ; compare the values - dbne d2,@cmpLoop ; compare the blocks - beq.s @SigOK ; get header info if signature valid - - move.l d0,d1 ; start ptr is header ptr - move.l d1,d2 ; end ptr is start ptr - bra.s @UpdateBasePtrs ; create an empty ROM disk (pretty useless) - -@SigOK move.l (a0)+,d0 ; get device size - addq.w #HdrCheckSumOff-HdrFormatTime,a0 ; point to checksum offset in header - lea CheckSumPtr(a3),a1 ; point to checksum ptr in drive info - - moveq.l #(HdrMediaIconOff-\ - HdrCheckSumOff)/4-1,d2 ; loop for next 3 fields - - tst.l SLIMRegPtr(a3) ; see if this is a SLIM (which is ejectable) - bne.s @offsetLoop ; if ejectable, don't get the icon info - - moveq.l #(HdrDriveInfo-\ - HdrCheckSumOff)/4-1,d2 ; loop for next 6 fields - - move.l HdrDriveInfo-HdrCheckSumOff(a0),d1 ; get drive info - beq.s @offsetLoop ; if none specified, use default - move.l d1,DriveInfo(a3) ; setup new drive info -@offsetLoop - addq.l #4,a1 ; leave pointer alone, assume default - move.l (a0)+,d1 ; get the offset - beq.s @nextOffset ; if none, ignore it - cmp.l d0,d1 ; see if offset is reasonable - bhi.s @nextOffset ; if offset past end of device, ignore it - add.l HeaderInfoPtr(a3),d1 ; add device base to offset - move.l d1,-4(a1) ; update the pointer -@nextOffset - dbra d2,@offsetLoop ; loop through all of the fields - - movem.l DataStartPtr(a3),d1/d2 ; get start/end ptrs - bra.s @SetupDriveSize ; setup the drive queue size info - endwith - title 'EDisk Driver - ComputeSLIMSize - Get Signature Information' - -;_______________________________________________________________________ -; -; Routine: ComputeSLIMSize -; Inputs: A0 - pointer to base of SLIM address space for this card -; Outputs: D0 - Device Size in bytes -; Destroys: A1, D1, D2 -; Calls: none -; Called by: -; -; Function: Returns the device size for the specified SLIM card. -; -;_______________________________________________________________________ - -SegmentSize equ 512*1024 ; slims have up to 4 512K byte segments - -ComputeSLIMSize - adda.l #4*SegmentSize,a0 ; point past end of last segment - movea.l a0,a1 ; save copy of end address - moveq.l #%0000,d0 ; assume all 4 segments are missing - move.l #'Gary',d1 ; rotating pattern - moveq.l #4-1,d2 ; loop counter -@FillLoop - suba.l #SegmentSize,a0 ; point to base of previous segment - move.l (a0),-(sp) ; save the old contents - rol.l #8,d1 ; change the pattern - move.l d1,(a0) ; write to the ram - cmp.l (a0),d1 ; see if we can read it back - bne.s @NotRAM1 ; if not, it's not RAM - not.l d1 ; complement the pattern - move.l d1,(a0) ; write to the ram - cmp.l (a0),d1 ; see if we can read it back - bne.s @NotRAM2 ; if not, it's not RAM - bset.l d2,d0 ; indicate that the segment is RAM -@NotRAM2 - not.l d1 ; restore pattern -@NotRAM1 - dbra d2,@FillLoop ; loop through all 4 segments - - not.l d1 ; get expected pattern - moveq.l #4-1,d2 ; loop counter -@CheckLoop - suba.l #SegmentSize,a1 ; point to base of previous segment - rol.l #8,d1 ; change the pattern - cmp.l (a1),d1 ; see if we can read it back - beq.s @IsRAM ; if so, it's RAM that didn't wrap around - bclr.l d2,d0 ; indicate that the segment isn't RAM -@IsRAM - dbra d2,@CheckLoop ; loop through all 4 segments - - moveq.l #4-1,d2 ; loop counter -@RestoreLoop - move.l (sp)+,(a1) ; restore the old contents - adda.l #SegmentSize,a1 ; point to base of next segment - dbra d2,@RestoreLoop ; loop through all 4 segments - - move.b @SizesTable(d0.w),d0 ; encode the segment present bits - moveq.l #19,d1 ; shift amount - lsl.l d1,d0 ; convert segment count to byte count - rts ; all done - -@SizesTable - dc.b 0 ; 0000 - RAM, 0.0MB, 0 segments - dc.b 1 ; 0001 - RAM, 0.5MB, 1 segment - dc.b 0 ; 0010 - RAM, illegal configuration - dc.b 2 ; 0011 - RAM, 1.0MB, 2 segments - dc.b 0 ; 0100 - RAM, illegal configuration - dc.b 0 ; 0101 - RAM, illegal configuration - dc.b 0 ; 0110 - RAM, illegal configuration - dc.b 3 ; 0111 - RAM, 1.5MB, 3 segments - dc.b 0 ; 1000 - RAM, illegal configuration - dc.b 0 ; 1001 - RAM, illegal configuration - dc.b 0 ; 1010 - RAM, illegal configuration - dc.b 0 ; 1011 - RAM, illegal configuration - dc.b 0 ; 1100 - RAM, illegal configuration - dc.b 0 ; 1101 - RAM, illegal configuration - dc.b 0 ; 1110 - RAM, illegal configuration - dc.b 4 ; 1111 - RAM, 2.0MB, 4 segments +@done rts title 'EDisk Driver - CreateEDiskHeader - Create Header Information' ;_______________________________________________________________________ @@ -1671,29 +1248,12 @@ HeaderTemplate string pascal ; name strings have leading length byte - IF not padForOverPatch THEN ; removing string to adjust for mods

- align 2 -SlimDrive0Name - dc.b 'Upper SLIM Drive' - ENDIF - - align 2 -SlimDrive1Name - dc.b 'Lower SLIM Drive' - - align 2 -ROMDiskName - dc.b 'Internal ROM Disk' - align 2 RAMDiskName dc.b 'Internal RAM Disk' align 2 - title 'EDisk Driver - RAM / ROM Disk Icons' - -ROMDiskMediaIcon -ROMDiskDriveIcon + title 'EDisk Driver - RAM Disk Icons' RAMDiskMediaIcon RAMDiskDriveIcon diff --git a/Interfaces/AIncludes/Devices.a b/Interfaces/AIncludes/Devices.a --- a/Interfaces/AIncludes/Devices.a +++ b/Interfaces/AIncludes/Devices.a @@ -93,6 +93,25 @@ size EQU * ENDR +XIOParam RECORD 0 ; Large volume and file support + ParamBlockHeader +ioRefNum DS.W 1 +ioVersNum DS.B 1 +ioPermssn DS.B 1 +ioMisc DS.L 1 +ioBuffer DS.L 1 +ioReqCount DS.L 1 +ioActCount DS.L 1 +ioPosMode DS.W 1 ; must have kUseWidePositioning bit set +ioWPosOffset DS.D 1 ; wide positioning offset +size EQU * + ENDR + +kWidePosOffsetBit EQU 8 +kUseWidePositioning EQU $0100 +kMaximumBlocksIn4GB EQU $007FFFFF + + CntrlParam RECORD 0 ParamBlockHeader ioCRefNum DS.W 1 ; short: refNum for I/O operation diff --git a/Interfaces/AIncludes/Displays.a b/Interfaces/AIncludes/Displays.a --- a/Interfaces/AIncludes/Displays.a +++ b/Interfaces/AIncludes/Displays.a @@ -113,7 +113,7 @@ selectResolveDisplayComponents Equ 0 paramWordsGetFirstScreenDevice EQU 1 paramWordsGetNextScreenDevice EQU 3 paramWordsDrawDesktopRect EQU 2 -paramWordsDrawDesktopRgn EQU 2 +paramWordsDrawDesktopRgn EQU 0 paramWordsGetGDeviceTablecloth EQU 4 paramWordsSetGDeviceTablecloth EQU 4 paramWordsBeginConfigureDisplays EQU 2 diff --git a/Interfaces/AIncludes/FSEqu.a b/Interfaces/AIncludes/FSEqu.a --- a/Interfaces/AIncludes/FSEqu.a +++ b/Interfaces/AIncludes/FSEqu.a @@ -206,6 +206,39 @@ ioVFndrInfo DS.L 8 HVolumeParamSize EQU * ENDR +;;; +;;; XVolumeParam Record +;;; +XVolumeParam RECORD 24 ; Large volume support +ioXVersion DS.L 1 ; this XVolumeParam version (0) +ioVolIndex DS.W 1 +ioVCrDate DS.L 1 +ioVLsMod DS.L 1 +ioVAtrb DS.W 1 +ioVNmFls DS.W 1 +ioVBitMap DS.W 1 +ioAllocPtr DS.W 1 +ioVNmAlBlks DS.W 1 +ioVAlBlkSiz DS.L 1 +ioVClpSiz DS.L 1 +ioAlBlSt DS.W 1 +ioVNxtCNID DS.L 1 +ioVFrBlk DS.W 1 +ioVSigWord DS.W 1 +ioVDrvInfo DS.W 1 +ioVDRefNum DS.W 1 +ioVFSID DS.W 1 +ioVBkUp DS.L 1 +ioVSeqNum DS.W 1 +ioVWrCnt DS.L 1 +ioVFilCnt DS.L 1 +ioVDirCnt DS.L 1 +ioVFndrInfo DS.L 8 +ioVTotalBytes DS.D 1 ; total number of bytes on volume +ioVFreeBytes DS.D 1 ; number of free bytes on volume +XVolumeParamSize EQU * + ENDR + ; ; The VolumeMount trap equates ; diff --git a/Interfaces/AIncludes/FSPrivate.a b/Interfaces/AIncludes/FSPrivate.a --- a/Interfaces/AIncludes/FSPrivate.a +++ b/Interfaces/AIncludes/FSPrivate.a @@ -522,8 +522,8 @@ RegRsrc EQU $347 ; (1) flag used by OpenRF, FileOpen FLckUnlck EQU $348 ; (1) flag used by SetFilLock,RstFilLock FrcSync EQU $349 ; (1) when set, all fs calls are sync'ed RgSvArea EQU $36A ; reg save during async calls. -Params EQU $3A4 ; 50 bytes long. For I/O parameter blocks. -FSTemp8 EQU $3D6 ; used by rename +Params EQU $3A4 ; 54 bytes long. For extended I/O parameter blocks. +FSTemp8 EQU $3DA ; used by rename FSTemp4 EQU $3DE ; used by rename, ckfilmod fsVrsn EQU '1.2A' ; Current file system version diff --git a/Interfaces/AIncludes/GestaltEqu.a b/Interfaces/AIncludes/GestaltEqu.a --- a/Interfaces/AIncludes/GestaltEqu.a +++ b/Interfaces/AIncludes/GestaltEqu.a @@ -606,4 +606,14 @@ gestaltInternalDisplay EQU 'idsp' ; slot number of internal display location +gestaltPowerPCProcessorFeatures EQU 'ppcf' ; Optional PowerPC processor features +gestaltPowerPCHasGraphicsInstructions EQU 0 ; has fres, frsqrte, and fsel instructions +gestaltPowerPCHasSTFIWXInstruction EQU 1 ; has stfiwx instruction +gestaltPowerPCHasSquareRootInstructions EQU 2 ; has fsqrt and fsqrts instructions +gestaltPowerPCHasDCBAInstruction EQU 3 ; has dcba instruction +gestaltPowerPCHasVectorInstructions EQU 4 ; has vector instructions +gestaltPowerPCHasDataStreams EQU 5 ; has dst, dstt, dstst, dss, and dssall instructions + + + ENDIF ; ...already included \ No newline at end of file diff --git a/Interfaces/AIncludes/Processes.a b/Interfaces/AIncludes/Processes.a --- a/Interfaces/AIncludes/Processes.a +++ b/Interfaces/AIncludes/Processes.a @@ -202,7 +202,8 @@ processAppSpec EQU 56 MACRO _GetFrontProcess - PEA $FFFFFFFF + MOVEQ.L #$FFFFFFFF,D0 + MOVE.L D0,-(SP) MOVE.W #$39,-(SP) _OSDispatch ENDM diff --git a/Interfaces/AIncludes/SysEqu.a b/Interfaces/AIncludes/SysEqu.a --- a/Interfaces/AIncludes/SysEqu.a +++ b/Interfaces/AIncludes/SysEqu.a @@ -674,7 +674,7 @@ btQType EQU 21 ; B*Tree Manager ; Device Control Entry Definition ;dCtlEntrySize used to be only 40 bytes! -dCtlEntrySize EQU $34 ; length of a DCE [52 bytes] +dCtlEntrySize EQU $38 ; length of a DCE [56 bytes] dCtlDriver EQU 0 ; driver [handle] dCtlFlags EQU 4 ; flags [word] dCtlQueue EQU 6 ; queue header diff --git a/Interfaces/AIncludes/SysErr.a b/Interfaces/AIncludes/SysErr.a --- a/Interfaces/AIncludes/SysErr.a +++ b/Interfaces/AIncludes/SysErr.a @@ -229,6 +229,10 @@ badFidErr EQU -1307 ; file id is dangling or doesn't <20 KST> ; match with the file number notARemountErr EQU -1308 ; when _Mount allows only remounts and doesn't ; get one. <27> +fileBoundsErr EQU -1309 ; file's EOF, offset, mark or size is too big +fsDataTooBigErr EQU -1310 ; file or volume is too big for system +volVMBusyErr EQU -1311 ; can't eject because volume is in use by VM +badFCBErr EQU -1327 ; FCBRecPtr is not valid ;__________________________________________________ ; Dictionary Manager errors <37><36> diff --git a/Interfaces/AIncludes/Traps.a b/Interfaces/AIncludes/Traps.a --- a/Interfaces/AIncludes/Traps.a +++ b/Interfaces/AIncludes/Traps.a @@ -2236,7 +2236,7 @@ _TEStyleNew OPWORD $A83E _OpenCPort OPWORD $AA00 _InitCPort OPWORD $AA01 -_CloseCPort OPWORD $A87D ; CloseCPort is actually $AA02, but should never be used +_CloseCPort OPWORD $AA02 _NewPixMap OPWORD $AA03 _DisposPixMap OPWORD $AA04 _DisposePixMap OPWORD $AA04 diff --git a/Internal/Asm/AppleDeskBusPriv.a b/Internal/Asm/AppleDeskBusPriv.a --- a/Internal/Asm/AppleDeskBusPriv.a +++ b/Internal/Asm/AppleDeskBusPriv.a @@ -53,7 +53,7 @@ resetCmd EQU $00 ; Command for Bus Reset kbdAddr EQU $02 ; keyboard type device mouseAddr EQU $03 ; mouse type device numFDBAdr EQU 16 ; number of avaiblae FDB address -moveTime EQU 50 ; number of times to move device +moveTime EQU 10 ; number of times to move device IF IopADB THEN @@ -127,7 +127,7 @@ hasDev ds.w 1 ; every bit corresponds to an device address ; 1 = device is present in address (2 bytes) devMap ds.w 1 ; device address map (2 bytes) - ds.l 1 ; unused space <6> +DeviceBase ds.l 1 ; unused space <6> ds.l 1 ; •• Now Used! •• Pointer to Extended ADB Data (4 bytes) <6> ds.l 1 ; unused space <6> diff --git a/Internal/Asm/ColorEqu.a b/Internal/Asm/ColorEqu.a --- a/Internal/Asm/ColorEqu.a +++ b/Internal/Asm/ColorEqu.a @@ -266,7 +266,7 @@ PMFlag EQU $8000 ; flag to say it's a new pixMap cPortFlag EQU $C000 ; isPixMap+isCPort pixVersion EQU $0000 ; isPixMap -qdStackXtra EQU $0640 ; stack space left for interrupts <1.4> BAL +qdStackXtra EQU $0800 ; stack space left for interrupts <1.4> BAL isPixMap EQU 15 ; for testing high bit of pRowbytes isCPort EQU 14 ; indicates that "bitmap" belongs to port @@ -376,7 +376,7 @@ CCSTATEREGS EQU CCDEPTH+2 ;[16 BYTES] STATE INFO OF SAVED DATA CCBYTES EQU CCSTATEREGS+16 ;[WORD] ROWBYTES OF EXPANDED DATA CCMAXDEPTH EQU CCBYTES+2 ;[WORD] MAXIMUM SCREEN DEPTH -CCSAVEREC EQU CCMAXDEPTH+2 ;SIZE OF CURSOR SAVE AREA +CCSAVEREC EQU CCMAXDEPTH+2+8 ;SIZE OF CURSOR SAVE AREA ; Font Manager low mem ; diff --git a/Internal/Asm/CrsrDevEqu.a b/Internal/Asm/CrsrDevEqu.a --- a/Internal/Asm/CrsrDevEqu.a +++ b/Internal/Asm/CrsrDevEqu.a @@ -90,6 +90,8 @@ denom ds.w 1 ; Private: fraction of the errors to use next time spread ds.w 1 ; Private: Number of samples to spread errors over newData ds.b 1 ; Private: set when deltas are new ds.b 1 ; align + + ds.b 4 ; new CrsrDevSize EQU * ENDR diff --git a/Internal/Asm/DialogsPriv.a b/Internal/Asm/DialogsPriv.a --- a/Internal/Asm/DialogsPriv.a +++ b/Internal/Asm/DialogsPriv.a @@ -67,10 +67,10 @@ selectDMgrCite4 EQU -5 paramWordsDMgrCite4 EQU 10 selectDMgrCitationsSH EQU -4 -paramWordsDMgrCitationsSH EQU 7 +paramWordsDMgrCitationsSH EQU 5 selectDMgrCitationsCH EQU -3 -paramWordsDMgrCitationsCH EQU 5 +paramWordsDMgrCitationsCH EQU 7 selectDMgrPopMenuState EQU -2 paramWordsDMgrPopMenuState EQU 0 diff --git a/Internal/Asm/DiskCachePriv.a b/Internal/Asm/DiskCachePriv.a --- a/Internal/Asm/DiskCachePriv.a +++ b/Internal/Asm/DiskCachePriv.a @@ -117,7 +117,8 @@ LcGBinDHTable EQU $3B ; (byte) set if the block is found in free queue LcXCacheKey EQU $3C ; (long) translation cache key (buffer) LcXCacheData EQU $40 ; (long) translation cache data (header) LcFreeMemSize EQU $44 ; (word) free memory above OldBufPtr -CacheLclLen EQU LcFreeMemSize+2 ; end of locals +CacheSize EQU $56 ; (long) subtracted from BufPtr +CacheLclLen EQU CacheSize+4 ; end of locals ; The story w.r.t. BufPtr, NewBufPtr, and OldBufPtr is as follows: ; diff --git a/Internal/Asm/EDiskEqu.a b/Internal/Asm/EDiskEqu.a --- a/Internal/Asm/EDiskEqu.a +++ b/Internal/Asm/EDiskEqu.a @@ -219,7 +219,7 @@ slimNoWrites equ 3 ; bit 3 = 1 if software write protected bRamDisk EQU $70000000 ; base of Ram Disk area (32 bit mode) -MinRamDiskSize EQU $00030000 ; minimum disk size is 192k +MinRamDiskSize EQU $00068000 ; minimum disk size is 416k MaxRamDiskSize EQU $0FF00000 ; maximum disk size is 255MB MinHeapSize EQU $00260000 ; must have at least ≈2.5 megs free for heap diff --git a/Internal/Asm/FileMgrPrivate.a b/Internal/Asm/FileMgrPrivate.a --- a/Internal/Asm/FileMgrPrivate.a +++ b/Internal/Asm/FileMgrPrivate.a @@ -86,7 +86,7 @@ size equ *-FSVars ; so we know how long FSVars is endr ; private bit for ioPosMode -fsCacheAdvise equ 4 ; set in ioPosMode indicates request for extra caching +fsCacheAdvise equ 32 ; set in ioPosMode indicates request for extra caching ; fsFlags bit values fsNoAllocate equ 0 ; true when allocating memory is a very bad idea diff --git a/Internal/Asm/InternalOnlyEqu.a b/Internal/Asm/InternalOnlyEqu.a --- a/Internal/Asm/InternalOnlyEqu.a +++ b/Internal/Asm/InternalOnlyEqu.a @@ -237,35 +237,71 @@ DockingGlobals EQU $1FF8 ; pointer to docking globals ; software. ;_______________________________________________________________________ -ProcessorInfoPtr equ $5FFFEFD8 ; logical address of ProcessorInfo record -ProcessorInfoVer equ $5FFFEFDC ; version number of ProcessorInfo record -ProcessorInfoLen equ $5FFFEFDE ; length of ProcessorInfo record +ProcessorInfoPtr equ $68FFEFD8 ; logical address of ProcessorInfo record +ProcessorInfoVer equ $68FFEFDC ; version number of ProcessorInfo record +ProcessorInfoLen equ $68FFEFDE ; length of ProcessorInfo record ProcessorInfo record 0,increment -ProcessorVersionReg ds.l 1 ; contents of the PVR special purpose register -CpuClockRateHz ds.l 1 ; CPU Clock frequency -BusClockRateHz ds.l 1 ; Bus Clock frequency -DecClockRateHz ds.l 1 ; Decrementer Clock frequency -PageSize ds.l 1 ; number of bytes in a memory page -DataCacheTotalSize ds.l 1 ; number of bytes in the Data Cache -InstCacheTotalSize ds.l 1 ; number of bytes in the Instruction Cache -CoherencyBlockSize ds.w 1 ; number of bytes in a Coherency Block -ReservationGranuleSize ds.w 1 ; number of bytes in a Reservation Granule -CombinedCaches ds.w 1 ; 1 <- combined or no cache, 0 <- split cache -InstCacheLineSize ds.w 1 ; number of bytes in a Line of the Instruction Cache -DataCacheLineSize ds.w 1 ; number of bytes in a Line of the Data Cache -DataCacheBlockSizeTouch ds.w 1 ; number of bytes in a Block for DCBT DCBTST -InstCacheBlockSize ds.w 1 ; number of bytes in a Block of the Instruction Cache -DataCacheBlockSize ds.w 1 ; number of bytes in a Block of the Data Cache -InstCacheAssociativity ds.w 1 ; Associativity of the Instruction Cache -DataCacheAssociativity ds.w 1 ; Associativity of the Data Cache - -TransCacheTotalSize ds.w 1 ; number of entries in the Translation Cache -TransCacheAssociativity ds.w 1 ; Associativity of the Translation Cache - align 32 ; pad to nice cache block alignment -Size equ *-ProcessorInfo +ProcessorVersionReg ds.l 1 ; 000 ; contents of the PVR special purpose register +CpuClockRateHz ds.l 1 ; 004 ; CPU Clock frequency +BusClockRateHz ds.l 1 ; 008 ; Bus Clock frequency +DecClockRateHz ds.l 1 ; 00c ; Decrementer Clock frequency + +Ovr +PageSize ds.l 1 ; 010 ; number of bytes in a memory page +DataCacheTotalSize ds.l 1 ; 014 ; number of bytes in the Data Cache +InstCacheTotalSize ds.l 1 ; 018 ; number of bytes in the Instruction Cache +CoherencyBlockSize ds.w 1 ; 01c ; number of bytes in a Coherency Block +ReservationGranuleSize ds.w 1 ; 01e ; number of bytes in a Reservation Granule +CombinedCaches ds.w 1 ; 020 ; 1 <- combined or no cache, 0 <- split cache +InstCacheLineSize ds.w 1 ; 022 ; number of bytes in a Line of the Instruction Cache +DataCacheLineSize ds.w 1 ; 024 ; number of bytes in a Line of the Data Cache +DataCacheBlockSizeTouch ds.w 1 ; 026 ; number of bytes in a Block for DCBT DCBTST +InstCacheBlockSize ds.w 1 ; 028 ; number of bytes in a Block of the Instruction Cache +DataCacheBlockSize ds.w 1 ; 02a ; number of bytes in a Block of the Data Cache +InstCacheAssociativity ds.w 1 ; 02c ; Associativity of the Instruction Cache +DataCacheAssociativity ds.w 1 ; 02e ; Associativity of the Data Cache + +TransCacheTotalSize ds.w 1 ; 030 ; number of entries in the Translation Cache +TransCacheAssociativity ds.w 1 ; 032 ; Associativity of the Translation Cache +OvrEnd + +; These fields were added to report information about back-side L2 caches + +ProcessorL2DSize ds.l 1 ; 034 ; Size of back-side L2 Dcache +ProcessorL2ISize ds.l 1 ; 038 ; Size of back-side L2 Icache +ProcessorL2Combined ds.w 1 ; 03c ; 1 <- combined or no cache, 0 <- split cache +ProcessorL2IBlockSize ds.w 1 ; 03e ; Block size of back-side I L2 cache +ProcessorL2DBlockSize ds.w 1 ; 040 ; Block size of back-side D L2 cache +ProcessorL2IAssoc ds.w 1 ; 042 ; Associativity of L2 I +ProcessorL2DAssoc ds.w 1 ; 044 ; Associativity of L2 D + +filler1 ds.w 1 ; 046 ; align to long + +; ProcessorFlags - Definitions for the processor flags field. These are bit positions, +; as in 1 << hasVMX, and not masks. +hasL2CR equ 0 +hasPLRUL1 equ 1 +hasTAU equ 2 +hasVMX equ 3 +unknownFlag equ 4 +hasExtraBATs equ 5 +ProcessorFlags ds.l 1 ; 048 ; flags to specify processor features + + align 5 ; pad to nice cache block alignment + + org $05e +SetToZero ds.w 1 ; 05e ; by same code that sets below +CpuClockRateHzCopy ds.l 1 ; 060 ; copies by Init.s +BusClockRateHzCopy ds.l 1 ; 064 ; copies by Init.s +DecClockRateHzCopy ds.l 1 ; 068 ; copies by Init.s + + ds.b $34 +Size equ * endr + + ;_______________________________________________________________________ ; System Info Record ; @@ -273,70 +309,112 @@ Size equ *-ProcessorInfo ; software. ;_______________________________________________________________________ -NKSystemInfoPtr equ $5FFFEFF0 ; logical address of NKSystemInfo record -NKSystemInfoVer equ $5FFFEFF4 ; version number of NKSystemInfo record -NKSystemInfoLen equ $5FFFEFF6 ; length of NKSystemInfo record +NKSystemInfoPtr equ $68FFEFF0 ; logical address of NKSystemInfo record +NKSystemInfoVer equ $68FFEFF4 ; version number of NKSystemInfo record +NKSystemInfoLen equ $68FFEFF6 ; length of NKSystemInfo record NKSystemInfo record 0,increment -PhysicalMemorySize ds.l 1 ; Number of bytes in Physical RAM -UsableMemorySize ds.l 1 ; Number of bytes in Usable RAM -LogicalMemorySize ds.l 1 ; Number of bytes in Logical RAM -HashTableSize ds.l 1 ; Number of bytes in Memory Hash Table - -L2DataCacheTotalSize ds.l 1 ; number of bytes in the L2 Data Cache -L2InstCacheTotalSize ds.l 1 ; number of bytes in the L2 Instruction Cache -L2CombinedCaches ds.w 1 ; 1 <- combined or no cache, 0 <- split cache -L2InstCacheBlockSize ds.w 1 ; number of bytes in a Block of the L2 Instruction Cache -L2DataCacheBlockSize ds.w 1 ; number of bytes in a Block of the L2 Data Cache -L2InstCacheAssociativity ds.w 1 ; Associativity of the L2 Instruction Cache -L2DataCacheAssociativity ds.w 1 ; Associativity of the L2 Data Cache - ds.b 2 ; unused - - ds.b 2 ; unused -FlashManufacturerCode ds.b 1 ; Flash ROM Manufacturer code -FlashDeviceCode ds.b 1 ; Flash ROM Device code -FlashStart ds.l 1 ; Starting address of Flash ROM -FlashSize ds.l 1 ; Number of bytes in Flash ROM - - align 16 -Bank0Start ds.l 1 ; Starting address of RAM bank 0 -Bank0Size ds.l 1 ; Number of bytes in RAM bank 0 -Bank1Start ds.l 1 ; Starting address of RAM bank 1 -Bank1Size ds.l 1 ; Number of bytes in RAM bank 1 -Bank2Start ds.l 1 ; Starting address of RAM bank 2 -Bank2Size ds.l 1 ; Number of bytes in RAM bank 2 -Bank3Start ds.l 1 ; Starting address of RAM bank 3 -Bank3Size ds.l 1 ; Number of bytes in RAM bank 3 -Bank4Start ds.l 1 ; Starting address of RAM bank 4 -Bank4Size ds.l 1 ; Number of bytes in RAM bank 4 -Bank5Start ds.l 1 ; Starting address of RAM bank 5 -Bank5Size ds.l 1 ; Number of bytes in RAM bank 5 -Bank6Start ds.l 1 ; Starting address of RAM bank 6 -Bank6Size ds.l 1 ; Number of bytes in RAM bank 6 -Bank7Start ds.l 1 ; Starting address of RAM bank 7 -Bank7Size ds.l 1 ; Number of bytes in RAM bank 7 -Bank8Start ds.l 1 ; Starting address of RAM bank 8 -Bank8Size ds.l 1 ; Number of bytes in RAM bank 8 -Bank9Start ds.l 1 ; Starting address of RAM bank 9 -Bank9Size ds.l 1 ; Number of bytes in RAM bank 9 -Bank10Start ds.l 1 ; Starting address of RAM bank 10 -Bank10Size ds.l 1 ; Number of bytes in RAM bank 10 -Bank11Start ds.l 1 ; Starting address of RAM bank 11 -Bank11Size ds.l 1 ; Number of bytes in RAM bank 11 -Bank12Start ds.l 1 ; Starting address of RAM bank 12 -Bank12Size ds.l 1 ; Number of bytes in RAM bank 12 -Bank13Start ds.l 1 ; Starting address of RAM bank 13 -Bank13Size ds.l 1 ; Number of bytes in RAM bank 13 -Bank14Start ds.l 1 ; Starting address of RAM bank 14 -Bank14Size ds.l 1 ; Number of bytes in RAM bank 14 -Bank15Start ds.l 1 ; Starting address of RAM bank 15 -Bank15Size ds.l 1 ; Number of bytes in RAM bank 15 - align 32 ; pad to nice cache block alignment -MaxBanks equ 16 ; 16 banks, 0…15 -Size equ *-SystemInfo +PhysicalMemorySize ds.l 1 ; 000 ; Number of bytes in Physical RAM +UsableMemorySize ds.l 1 ; 004 ; Number of bytes in Usable RAM +LogicalMemorySize ds.l 1 ; 008 ; Number of bytes in Logical RAM +HashTableSize ds.l 1 ; 00c ; Number of bytes in Memory Hash Table + +L2DataCacheTotalSize ds.l 1 ; 010 ; number of bytes in the L2 Data Cache +L2InstCacheTotalSize ds.l 1 ; 014 ; number of bytes in the L2 Instruction Cache +L2CombinedCaches ds.w 1 ; 018 ; 1 <- combined or no cache, 0 <- split cache +L2InstCacheBlockSize ds.w 1 ; 01a ; number of bytes in a Block of the L2 Instruction Cache +L2DataCacheBlockSize ds.w 1 ; 01c ; number of bytes in a Block of the L2 Data Cache +L2InstCacheAssociativity ds.w 1 ; 01e ; Associativity of the L2 Instruction Cache +L2DataCacheAssociativity ds.w 1 ; 020 ; Associativity of the L2 Data Cache + ds.b 2 ; 022 ; unused + + ds.b 2 ; 024 ; unused +FlashManufacturerCode ds.b 1 ; 026 ; Flash ROM Manufacturer code +FlashDeviceCode ds.b 1 ; 027 ; Flash ROM Device code +FlashStart ds.l 1 ; 028 ; Starting address of Flash ROM +FlashSize ds.l 1 ; 02c ; Number of bytes in Flash ROM + +Bank0Start ds.l 1 ; 030 ; Starting address of RAM bank 0 +Bank0Size ds.l 1 ; 034 ; Number of bytes in RAM bank 0 +Bank1Start ds.l 1 ; 038 ; Starting address of RAM bank 1 +Bank1Size ds.l 1 ; 03c ; Number of bytes in RAM bank 1 +Bank2Start ds.l 1 ; 040 ; Starting address of RAM bank 2 +Bank2Size ds.l 1 ; 044 ; Number of bytes in RAM bank 2 +Bank3Start ds.l 1 ; 048 ; Starting address of RAM bank 3 +Bank3Size ds.l 1 ; 04c ; Number of bytes in RAM bank 3 +Bank4Start ds.l 1 ; 050 ; Starting address of RAM bank 4 +Bank4Size ds.l 1 ; 054 ; Number of bytes in RAM bank 4 +Bank5Start ds.l 1 ; 058 ; Starting address of RAM bank 5 +Bank5Size ds.l 1 ; 05c ; Number of bytes in RAM bank 5 +Bank6Start ds.l 1 ; 060 ; Starting address of RAM bank 6 +Bank6Size ds.l 1 ; 064 ; Number of bytes in RAM bank 6 +Bank7Start ds.l 1 ; 068 ; Starting address of RAM bank 7 +Bank7Size ds.l 1 ; 06c ; Number of bytes in RAM bank 7 +Bank8Start ds.l 1 ; 070 ; Starting address of RAM bank 8 +Bank8Size ds.l 1 ; 074 ; Number of bytes in RAM bank 8 +Bank9Start ds.l 1 ; 078 ; Starting address of RAM bank 9 +Bank9Size ds.l 1 ; 07c ; Number of bytes in RAM bank 9 +Bank10Start ds.l 1 ; 080 ; Starting address of RAM bank 10 +Bank10Size ds.l 1 ; 084 ; Number of bytes in RAM bank 10 +Bank11Start ds.l 1 ; 088 ; Starting address of RAM bank 11 +Bank11Size ds.l 1 ; 08c ; Number of bytes in RAM bank 11 +Bank12Start ds.l 1 ; 090 ; Starting address of RAM bank 12 +Bank12Size ds.l 1 ; 094 ; Number of bytes in RAM bank 12 +Bank13Start ds.l 1 ; 098 ; Starting address of RAM bank 13 +Bank13Size ds.l 1 ; 09c ; Number of bytes in RAM bank 13 +Bank14Start ds.l 1 ; 0a0 ; Starting address of RAM bank 14 +Bank14Size ds.l 1 ; 0a4 ; Number of bytes in RAM bank 14 +Bank15Start ds.l 1 ; 0a8 ; Starting address of RAM bank 15 +Bank15Size ds.l 1 ; 0ac ; Number of bytes in RAM bank 15 +Bank16Start ds.l 1 ; 0b0 ; Starting address of RAM bank 16 +Bank16Size ds.l 1 ; 0b4 ; Number of bytes in RAM bank 16 +Bank17Start ds.l 1 ; 0b8 ; Starting address of RAM bank 17 +Bank17Size ds.l 1 ; 0bc ; Number of bytes in RAM bank 17 +Bank18Start ds.l 1 ; 0c0 ; Starting address of RAM bank 18 +Bank18Size ds.l 1 ; 0c4 ; Number of bytes in RAM bank 18 +Bank19Start ds.l 1 ; 0c8 ; Starting address of RAM bank 19 +Bank19Size ds.l 1 ; 0cc ; Number of bytes in RAM bank 19 +Bank20Start ds.l 1 ; 0d0 ; Starting address of RAM bank 20 +Bank20Size ds.l 1 ; 0d4 ; Number of bytes in RAM bank 20 +Bank21Start ds.l 1 ; 0d8 ; Starting address of RAM bank 21 +Bank21Size ds.l 1 ; 0dc ; Number of bytes in RAM bank 21 +Bank22Start ds.l 1 ; 0e0 ; Starting address of RAM bank 22 +Bank22Size ds.l 1 ; 0e4 ; Number of bytes in RAM bank 22 +Bank23Start ds.l 1 ; 0e8 ; Starting address of RAM bank 23 +Bank23Size ds.l 1 ; 0ec ; Number of bytes in RAM bank 23 +Bank24Start ds.l 1 ; 0f0 ; Starting address of RAM bank 24 +Bank24Size ds.l 1 ; 0f4 ; Number of bytes in RAM bank 24 +Bank25Start ds.l 1 ; 0f8 ; Starting address of RAM bank 25 +Bank25Size ds.l 1 ; 0fc ; Number of bytes in RAM bank 25 +EndOfBanks +MaxBanks equ 26 ; Pads out to old struct len (cache block), more to come... + + ; Interrupt Support Data +IntCntrBaseAddr ds.l 1 ; 100 ; Interrupt Controller Base Address (variable is used since this is a PCI Dev and address is relocatable) +IntPendingReg ds.l 2 ; 104 ; Data of current interrupts pending register + + ; These fields were added to report information about tightly-coupled L2 caches. + ; The inline L2 information should be used in situations where there is a CPU + ; card L2 cache that can coexist with a motherboard L2. + +InlineL2DSize ds.l 1 ; 10c ; Size of in-line L2 Dcache +InlineL2ISize ds.l 1 ; 110 ; Size of in-line L2 Icache +InlineL2Combined ds.w 1 ; 114 ; 1 <- combined or no cache, 0 <- split cache +InlineL2IBlockSize ds.w 1 ; 116 ; Block size of in-line I L2 cache +InlineL2DBlockSize ds.w 1 ; 118 ; Block size of in-line D L2 cache +InlineL2IAssoc ds.w 1 ; 11a ; Associativity of L2 I +InlineL2DAssoc ds.w 1 ; 11c ; Associativity of L2 D + ds.w 1 ; 11e ; pad + + ; More Interrupt Support Data +IntsCompleted ds.l 2 ; 120 ; completed interrupts + + ds.b $18 +Size equ * endr + ;_______________________________________________________________________ ; Diagnostic Info Record ; @@ -344,19 +422,52 @@ Size equ *-SystemInfo ; the NanoKernel, and from the NanoKernel to user mode software. ;_______________________________________________________________________ -nkDiagInfoPtr equ $5FFFEFE8 ; logical address of DiagnosticInfo record -nkDiagInfoVer equ $5FFFEFEC ; version number of DiagnosticInfo record -nkDiagInfoLen equ $5FFFEFEE ; length of DiagnosticInfo record - -nkDiagInfo record 0,increment - ds.b 236 ; it WILL all fit in 256 bytes -DiagPOSTResult2 ds.l 1 ; POST results -DiagPOSTResult1 ds.l 1 ; POST results -DiagEmoRestart ds.l 1 ; Burn in restart flag -DiagWarmStartHigh ds.l 1 ; First long of native warm start (WLSC) -DiagWarmStartLow ds.l 1 ; Second long of native warm start (SamB) - align 32 ; pad to nice cache block alignment -Size equ *-nkDiagInfo +NKDiagInfoPtr equ $68FFEFE8 ; logical address of DiagnosticInfo record +NKDiagInfoVer equ $68FFEFEC ; version number of DiagnosticInfo record +NKDiagInfoLen equ $68FFEFEE ; length of DiagnosticInfo record + +NKDiagInfo record 0,increment +BankMBFailOffset ds.l 1 ; 000 ; Mother Board RAM failure code +BankAFailOffset ds.l 1 ; 004 ; Bank A RAM failure code +BankBFailOffset ds.l 1 ; 008 ; Bank B RAM failure code +BankCFailOffset ds.l 1 ; 00c ; Bank C RAM failure code + +BankDFailOffset ds.l 1 ; 010 ; Bank D RAM failure code +BankEFailOffset ds.l 1 ; 014 ; Bank E RAM failure code +BankFFailOffset ds.l 1 ; 018 ; Bank F RAM failure code +BankGFailOffset ds.l 1 ; 01c ; Bank G RAM failure code + +BankHFailOffset ds.l 1 ; 020 ; Bank H RAM failure code +CacheFailOffset ds.l 1 ; 024 ; cache failure code +LongBootParamOffset ds.l 1 ; 028 ; on longBoot this is where the params will be +POSTTraceOffset ds.l 1 ; 02c ; this tells us what route the POST took + +POSTOldWarmOffset ds.l 1 ; 030 ; logged address of old warmstart flag +POSTOldLongOffset ds.l 1 ; 034 ; logged address of old long boot flag +POSTOldGlobbOffset ds.l 1 ; 038 ; logged address of old Diagnostic Info Record +POSTOldParamOffset ds.l 1 ; 03c ; the params from the old diag globb + +POSTStartRTCUOffset ds.l 1 ; 040 ; PPC Real Time Clock Upper at start of POST +POSTStartRTCLOffset ds.l 1 ; 044 ; PPC Real Time Clock Lower at start of POST +POSTEndRTCUOffset ds.l 1 ; 048 ; PPC Real Time Clock Upper at end of POST +POSTEndRTCLOffset ds.l 1 ; 04c ; PPC Real Time Clock Lower at end of POST + +POSTTestTypeOffset ds.l 1 ; 050 ; when long RAM tests fail test type which failed is put here +POSTError2Offset ds.l 1 ; 054 ; result codes from tests +POSTError3Offset ds.l 1 ; 058 ; result codes from tests +POSTError4Offset ds.l 1 ; 05c ; result codes from tests + +RegistersStore ds.b 140 ; 060 ; store all 60x registers here, still fit into 256 bytes size. + +; Everything BEFORE here is new (hence the funny-sized register store) + +DiagPOSTResult2 ds.l 1 ; 0ec ; POST results +DiagPOSTResult1 ds.l 1 ; 0f0 ; POST results +DiagLongBootSig ds.l 1 ; 0f4 ; Burn in restart flag +DiagWarmStartHigh ds.l 1 ; 0f8 ; First long of native warm start (WLSC) +DiagWarmStartLow ds.l 1 ; 0fc ; Second long of native warm start (SamB) + +Size equ * endr @@ -368,30 +479,206 @@ Size equ *-nkDiagInfo ; software. ;_______________________________________________________________________ -nkNanoKernelInfoPtr equ $5FFFEFE0 ; logical address of NanoKernelInfo record -nkNanoKernelInfoVer equ $5FFFEFE4 ; version number of NanoKernelInfo record -nkNanoKernelInfoLen equ $5FFFEFE6 ; length of NanoKernelInfo record - -nkNanoKernelInfo record 0,increment -ExceptionCauseCounts ds.l 32 ; counters per exception cause -NanoKernelCallCounts ds.l 16 ; counters per NanoKernel call -ExternalIntCount ds.l 1 ; count of External Interrupts -MisalignmentCount ds.l 1 ; count of Misalignment Interrupts -FPUReloadCount ds.l 1 ; count of FPU reloads on demand -DecrementerIntCount ds.l 1 ; count of Decrementer Interrupts -QuietWriteCount ds.l 1 ; count of Writes to Quiet Read-Only memory -HashTableCreateCount ds.l 1 ; count of Hash Table Entry creations -HashTableDeleteCount ds.l 1 ; count of Hash Table Entry deletions -HashTableOverflowCount ds.l 1 ; count of Hash Table Entry overflows -EmulatedUnimpInstCount ds.l 1 ; count of Emulated unimplemented instructions -NCBPtrCacheMissCount ds.l 1 ; count of NCB Pointer cache misses -ExceptionPropagateCount ds.l 1 ; count of Exceptions propagated to system -ExceptionForcedCount ds.l 1 ; count of Exceptions forced to system - align 8 ; align for 64 bit time base counters -SysContextCpuTime ds.l 2 ; CPU Time used by System Context -AltContextCpuTime ds.l 2 ; CPU Time used by Alternate Context - align 32 ; pad to nice cache block alignment -Size equ *-nkNanoKernelInfo +NKNanoKernelInfoPtr equ $68FFEFE0 ; logical address of NanoKernelInfo record +NKNanoKernelInfoVer equ $68FFEFE4 ; version number of NanoKernelInfo record +NKNanoKernelInfoLen equ $68FFEFE6 ; length of NanoKernelInfo record + +NKNanoKernelInfo record 0,increment +ExceptionCauseCounts ds.l 32 ; 000 ; counters per exception cause +NanoKernelCallCounts ds.l 16 ; 080 ; counters per NanoKernel call +ExternalIntCount ds.l 1 ; 0c0 ; count of External Interrupts +MisalignmentCount ds.l 1 ; 0c4 ; count of Misalignment Interrupts +FPUReloadCount ds.l 1 ; 0c8 ; count of FPU reloads on demand +DecrementerIntCount ds.l 1 ; 0cc ; count of Decrementer Interrupts +QuietWriteCount ds.l 1 ; 0d0 ; count of Writes to Quiet Read-Only memory +HashTableCreateCount ds.l 1 ; 0d4 ; count of Hash Table Entry creations +HashTableDeleteCount ds.l 1 ; 0d8 ; count of Hash Table Entry deletions +HashTableOverflowCount ds.l 1 ; 0dc ; count of Hash Table Entry overflows +EmulatedUnimpInstCount ds.l 1 ; 0e0 ; count of Emulated unimplemented instructions +NCBPtrCacheMissCount ds.l 1 ; 0e4 ; count of NCB Pointer cache misses +ExceptionPropagateCount ds.l 1 ; 0e8 ; count of Exceptions propagated to system +ExceptionForcedCount ds.l 1 ; 0ec ; count of Exceptions forced to system +SysContextCpuTime ds.l 2 ; 0f0 ; CPU Time used by System Context +AltContextCpuTime ds.l 2 ; 0f8 ; CPU Time used by Alternate Context + +; This stuff is new (starts at 0x100) + +blueProcessID ds.l 1 ; 100 ; ID of the blue process. +blueTaskID ds.l 1 ; 104 ; ID of the blue task. +pageQueueID ds.l 1 ; 108 ; ID of the page fault queue. +TaskCount ds.l 1 ; 10c ; Number of tasks. +FreePoolExtendCount ds.l 1 ; 110 ; Number of pages given to the nanokernel. + +;rsrv1 ds.l 3 ; 114 ; reserved??? + +; My additions + + org $11c +ConfigFlags ds.l 1 ; 11c ; includes ScreenConsole ... TODO put flag equs here +NanodbgrFlagShift equ 1 +NanodbgrFlagBit equ 31 - NanodbgrFlagShift +LogFlagShift equ 3 +LogFlagBit equ 31 - LogFlagShift +; bit 31 always set on replacement, bit 27 set on replacement with ROM 2.7f3 or later + + org $128 +VMDispatchCountTblPtr ds.l 1 ; 128 + ds.l 1 + ds.l 1 +MPDispatchCountTblPtr ds.l 1 ; 134 ; ??????? +AddrSpcSetCtr ds.l 1 ; 138 ; incremented by SetAddrSpcRegisters +IDCtr ds.l 1 ; 13c + + ds.b $20 +Size equ * + endr + + + +;_______________________________________________________________________ +; Hardware Info Record +; +; Used to pass hardware information from the NanoKernel to user mode +; software. +;_______________________________________________________________________ + +NKHWInfoPtr equ $68FFEFD0 ; logical address of HWInfo record +NKHWInfoVer equ $68FFEFD4 ; version number of HWInfo record +NKHWInfoLen equ $68FFEFD6 ; length of HWInfo record + +NKHWInfo record 0,increment +MacROM_Base ds.l 1 ; 000 ; base address (physical) of Mac ROM +DeviceTreeBase ds.l 1 ; 004 ; base address of the copied device tree properties +UniversalInfoTableBase ds.l 1 ; 008 ; base address of the Universal Info Table +ConfigInfoTableBase ds.l 1 ; 00c ; base address of the Config Info Table +VectorLookupTable ds.l 1 ; 010 ; base address of the interrupt vector lookup table (short *) +VectorMaskTable ds.l 1 ; 014 ; base address of the interrupt vector mask table (long *) + +OpenPICBaseAddr ds.l 1 ; 018 ; OpenPIC base address + +ISAMaster8259 ds.l 1 ; 01c ; ISA Master 8259 ports (char *) +ISASlave8259 ds.l 1 ; 020 ; ISA Slave 8259 ports (char *) +InterruptAck8259 ds.l 1 ; 024 ; address to read to ack 8259 interrupt (long *) + + ; interrupt pending bits (actively changing) + +PendingInts ds.l 2 ; 028 ; 64 bits of pending interrupts + + ; some Mac I/O device base addresses + +ADB_Base ds.l 1 ; 030 ; base address of ADB +SCSI_DMA_Base ds.l 1 ; 034 ; base address of SCSI DMA registers + + ; RTAS related stuff + +RTAS_PrivDataArea ds.l 1 ; 038 ; RTAS private data area +MacOS_NVRAM_Offset ds.l 1 ; 03c ; offset into nvram to MacOS data + +RTAS_NVRAM_Fetch ds.l 1 ; 040 ; token for RTAS NVRAM fetch +RTAS_NVRAM_Store ds.l 1 ; 044 ; token for RTAS NVRAM store +RTAS_Get_Clock ds.l 1 ; 048 ; token for RTAS clock get +RTAS_Set_Clock ds.l 1 ; 04c ; token for RTAS clock set +RTAS_Restart ds.l 1 ; 050 ; token for RTAS Restart +RTAS_Shutdown ds.l 1 ; 054 ; token for RTAS Shutdown +RTAS_Restart_At ds.l 1 ; 058 ; token for RTAS system startup at specified time +RTAS_EventScan ds.l 1 ; 05c ; token for RTAS event scan +RTAS_Check_Exception ds.l 1 ; 060 ; token for RTAS check exception +RTAS_Read_PCI_Config ds.l 1 ; 064 ; token for RTAS read PCI config +RTAS_Write_PCI_Config ds.l 1 ; 068 ; token for RTAS write PCI config + + ; SIO interrupt source numbers for the MPIC + +SIOIntVect ds.w 1 ; 06c ; SIO (8259 cascade vector) vector number +SIOIntBit ds.w 1 ; 06e ; SIO (8259 cascade vector) bit number + +Signature ds.l 1 ; 070 ; signature for this record ('Hnfo') + + ; more interrupt source numbers + +SpuriousIntVect ds.w 1 ; 074 ; spurious vector number + +CPU_ID ds.w 1 ; 076 ; the ID of this CPU (universal-tables-related) + +SCCAIntVect ds.w 1 ; 078 ; SCC A (non-DMA) vector number +SCCBIntVect ds.w 1 ; 07a ; SCC B (non-DMA) vector number +SCSIIntVect ds.w 1 ; 07c ; SCSI vector number +SCSIDMAIntVect ds.w 1 ; 07e ; SCSI DMA vector number +VIAIntVect ds.w 1 ; 080 ; VIA vector number +VIAIntBit ds.w 1 ; 082 ; VIA bit number +ADBIntVect ds.w 1 ; 084 ; vector number +NMIIntVect ds.w 1 ; 086 ; NMI vector number +NMIIntBit ds.w 1 ; 088 ; NMI bit number + + ; current (actively changing) interrupt handling variables + +ISAPendingInt ds.w 1 ; 08a ; currently pending ISA/8259 interrupt +CompletedInts ds.b 8 ; 08c ; completed interrupts + +nkHWInfoFlagSlowMESH equ 1 ; set if fast MESH doesn't work on this box +nkHWInfoFlagAsynchMESH equ 2 ; set if Synchronous MESH doesn't work on this box +nkHWInfoFlagNoCopySWTLB equ 4 ; set if the software TLB walk code for 603 should NOT be copied +HardwareInfoFlags ds.l 1 ; 094 ; 32 bits of flags (see enum above) + +RTAS_Get_PowerOn_Time ds.l 1 ; 098 ; token for RTAS getting time for system startup + + ds.b $24 +Size equ * + endr + + + +;_______________________________________________________________________ +; Processor State Record +; +; Used to save the state of the processor across sleep. +;_______________________________________________________________________ + +NKProcessorStatePtr equ $68FFEFC8 ; logical address of ProcessorState record +NKProcessorStateVer equ $68FFEFCC ; version number of ProcessorState record +NKProcessorStateLen equ $68FFEFCE ; length of ProcessorState record + +NKProcessorState record 0,increment +saveDBAT0u ds.l 1 ; 000 ; place to store DBAT0U +saveDBAT0l ds.l 1 ; 004 ; place to store DBAT0L +saveDBAT1u ds.l 1 ; 008 ; place to store DBAT1U +saveDBAT1l ds.l 1 ; 00c ; place to store DBAT1L +saveDBAT2u ds.l 1 ; 010 ; place to store DBAT2U +saveDBAT2l ds.l 1 ; 014 ; place to store DBAT2L +saveDBAT3u ds.l 1 ; 018 ; place to store DBAT3U +saveDBAT3l ds.l 1 ; 01c ; place to store DBAT3L + +saveIBAT0u ds.l 1 ; 020 ; place to store IBAT0U +saveIBAT0l ds.l 1 ; 024 ; place to store IBAT0L +saveIBAT1u ds.l 1 ; 028 ; place to store IBAT1U +saveIBAT1l ds.l 1 ; 02c ; place to store IBAT1L +saveIBAT2u ds.l 1 ; 030 ; place to store IBAT2U +saveIBAT2l ds.l 1 ; 034 ; place to store IBAT2L +saveIBAT3u ds.l 1 ; 038 ; place to store IBAT3U +saveIBAT3l ds.l 1 ; 03c ; place to store IBAT3L + +saveSPRG0 ds.l 1 ; 040 ; place to store SPRG0 +saveSPRG1 ds.l 1 ; 044 ; place to store SPRG1 +saveSPRG2 ds.l 1 ; 048 ; place to store SPRG2 +saveSPRG3 ds.l 1 ; 04c ; place to store SPRG3 + +saveL2CR ds.l 1 ; 050 ; place to store Arthur's L2CR + +saveSRR0 ds.l 1 ; 054 ; place to store SRR0 +saveSRR1 ds.l 1 ; 058 ; place to store SRR1 +saveTBU ds.l 1 ; 05c ; place to store TBU +saveTBL ds.l 1 ; 060 ; place to store TBL +saveHID0 ds.l 1 ; 064 ; place to store HID0 +saveDEC ds.l 1 ; 068 ; place to store DEC +saveMSR ds.l 1 ; 06c ; place to store MSR +saveSDR1 ds.l 1 ; 070 ; place to store SDR1 + + ; saveKernelDataPtr needs to always be right after saveReturnAddr + ; because of how the code works. DO NOT CHANGE THIS ORDERING! + +saveReturnAddr ds.l 1 ; 074 ; place to store the addr to jump to. +saveKernelDataPtr ds.l 1 ; 078 ; place to store the KernelDataPtr +saveContextPtr ds.l 1 ; 07c ; place to store the ContextPtr +Size equ * endr diff --git a/Internal/Asm/LayerEqu.a b/Internal/Asm/LayerEqu.a --- a/Internal/Asm/LayerEqu.a +++ b/Internal/Asm/LayerEqu.a @@ -59,7 +59,7 @@ LayerRecord RECORD 0 port DS.B $6C ; GrafPort windowKind DS.W 1 visible DS.B 1 -reserved1 DS.B 1 +cleanFlag DS.B 1 neverActive DS.B 1 reserved2 DS.B 1 strucRgn DS.L 1 diff --git a/Internal/Asm/ResourceMgrPriv.a b/Internal/Asm/ResourceMgrPriv.a --- a/Internal/Asm/ResourceMgrPriv.a +++ b/Internal/Asm/ResourceMgrPriv.a @@ -104,7 +104,7 @@ kPreventFileFromBeingClosedMask equ 16 kAllOverrideAttributesMask equ kOverrideNextMapMask + \ kDontCountOrIndexDuplicatesMask + \ kTwoDeepMask + \ - kPreventFileFromBeingClosedMask + kPreventFileFromBeingClosedMask + 32 + 64 + 128 kAllButOverrideAttributesMask equ 255 - kAllOverrideAttributesMask selectMakeOverrideMap equ 4 diff --git a/Internal/Asm/ScriptPriv.a b/Internal/Asm/ScriptPriv.a --- a/Internal/Asm/ScriptPriv.a +++ b/Internal/Asm/ScriptPriv.a @@ -802,9 +802,9 @@ smKeySynchKbdMenuState EQU -18 ; synchronize kbd menu state to current proce ; private one byte SetScript/GetScript verbs - used by TextEdit in Cube-E <59> -smScriptSysBase EQU -26 ; Roman font to use with the system font -smScriptAppBase EQU -28 ; Roman font to use with the application font -smScriptFntBase EQU -30 ; Roman font to use with all other fonts +smScriptSysBase EQU -281 ; Roman font to use with the system font +smScriptAppBase EQU -283 ; Roman font to use with the application font +smScriptFntBase EQU -285 ; Roman font to use with all other fonts ; ----------------------------------------------------------------------------- ; Script Manager Global record ; ----------------------------------------------------------------------------- diff --git a/Internal/Asm/SysPrivateEqu.a b/Internal/Asm/SysPrivateEqu.a --- a/Internal/Asm/SysPrivateEqu.a +++ b/Internal/Asm/SysPrivateEqu.a @@ -214,233 +214,302 @@ IntRegsSize equ 8*4 ; size of IntRegs in bytes - must change if IntRegs cha ; Extended Low Memory area available on all machines ExpandMemRec RECORD 0 -emVersion DS.W 1 ; version of expanded memory -emSize DS.L 1 ; length of em -emIntlGlobals DS.L 1 ; international globals pointer -emKeyDeadState DS.L 1 ; Key1Trans, Key2Trans dead state -emKeyCache DS.L 1 ; KCHR keyboard cache -emIntlDef DS.L 1 ; Reserved for Intl -emFirstKeyboard ds.b 1 ; flag byte -emAlign ds.b 1 ; long-align until we need this storage +emVersion DS.W 1 ; 000 ; version of expanded memory +emSize DS.L 1 ; 002 ; length of em +emIntlGlobals DS.L 1 ; 006 ; international globals pointer +emKeyDeadState DS.L 1 ; 00a ; Key1Trans, Key2Trans dead state +emKeyCache DS.L 1 ; 00e ; KCHR keyboard cache +emIntlDef DS.L 1 ; 012 ; Reserved for Intl +emFirstKeyboard ds.b 1 ; 016 ; flag byte +emAlign ds.b 1 ; 017 ; long-align until we need this storage emItlCacheSize equ 16 ; bytes in cache -emItlCache ds.b emItlCacheSize ; reserve room for cache -emItlNeedUnlock ds.b 1 ; for pack6 -emItlDontUnlockYet ds.b 1 ; for pack6 <56> -emItlFiller ds.b 2 ; Reserved room -emScriptsInstalled ds.b 1 ; number of installed scripts -emTwoCursorsFlag ds.w 1 ; indicates split cursor and if emCursor2Rect is high cursor -emCursor2Rect ds.w 4 ; top, left, bottom, right edges of split cursor: initialized to 0 -emFmtOrderHFlag ds.b 1 ; flag to indicate a handle was allocated -emDirection ds.l 1 ; direction param for C2P for both offsets -emMeasureLine ds.b 1 ; flag that says to measure the whole line -emCleanWordBrk ds.l 1 ; storage for 32-bit clean defWordBrk address -emNewFont ds.b 1 ; textStyle.tsFont: the only field I fill in -emNewStyle ds.w 4 ; SetRsrved params: flag.b, textStylePtr.l, mode.w -emBufferHandle ds.l 1 ; handle for text buffering -emUnsynchedFlag ds.b 1 ; indicates unsynched keyboard and font -emTExtra ds.b 3 ; extra TE bytes -emBufferLen ds.w 1 ; length of text in buffer -emSERDVars ds.l 1 ; Serial Driver Globals -emGestalt ds.l 1 ; Gestalt Globals -emLayoutGlobals ds.l 1 ; Layout Mgr Globals -emTSMGlobals ds.l 1 ; Text-Service Mgr Globals -emSplineKey ds.l 1 ; Bass Fonts Globals -emSnarfGlobals ds.l 1 ; Snarf Man -emLAPGlobals ds.l 1 ; AppleTalk globals -emLMgrGlobals ds.l 1 ; LAP Mgr globals -emHelpGlobals ds.l 1 ; Help Mgr Globals -emPPCGlobals ds.l 1 ; PPC Mgr globals -emDataPub ds.l 1 ; Data Publications globals -emReliability ds.l 1 ; Reliability manager globals -emjRunSlotHandlrs ds.l 1 ; for slot mgrs -emFolderCache ds.l 1 ; used by Folder Manager - -vDoErase ds.l 1 -vCaretDisplay ds.l 1 ; Used by TextEdit for vectors -vGetLRPosition ds.l 1 ; to patch Rom -vGetRLPosition ds.l 1 -vOnLineEnd ds.l 1 -vCaretInsideRun ds.l 1 -vSetDirection ds.l 1 -vGetDirection ds.l 1 -vGetStylesInOrder ds.l 1 -vteGetFormatOrder ds.l 1 -vGetWidth ds.l 1 -vGetCurScript ds.l 1 -vOnSameLine ds.l 1 -vMeasureWidth ds.l 1 -vMeasureWholeRun ds.l 1 -vHiliteLineEnds ds.l 1 -vInvrtRectangle ds.l 1 -vPixelWidths ds.l 1 -vTEBufferText ds.l 1 -vDumpBuffer ds.l 1 -vCursorMovement ds.l 1 -vTestRunDirection ds.l 1 -vBufferChar ds.l 1 -vSetFont2Keyboard ds.l 1 -vSetKeyboard2Font ds.l 1 -vStyleGuts ds.l 1 -vConcatRuns ds.l 1 - -resourceMgrDirID ds.l 1 ; dirID one-shot for Resource Mgr -emLAPAGlobals ds.l 1 ; LAP Mgr (router) globals -emMailGlobals ds.l 1 ; AppleMail globals -emADASGlobals ds.l 1 ; ADAS globals - -emELAPGlobals ds.l 1 ; EtherTalk LAP globals - -soundMgrGlobals ds.l 1 ; one global for ALL machines - -emWindowListGlobals ds.l 1 ; <52> globals for layerless windowing - -emDragGlobals ds.l 1 ; <64> globals for dragging stuff (in Finder, etc) - -emFSCommon ds.l 1 ; <68> globals for FSCommon Library Modules -emButtonMgrGlobals ds.l 1 ; <52> <70> globals for Button Manager (Not enUnused1 anymore) - -emPack8Globals ds.w 1 ; <52> globals for Apple Event Manager package -emPack9Globals ds.w 1 ; <52> globals for PPC Browser package - -emProcessMgrExists ds.w 1 ; <58> true when Process Mgr is running - -emPack11Globals ds.w 1 ; <52> globals for Edition Manager package - -emWindowMgrFlags ds.w 1 ; <77> flags to speed CheckUpdateIn (previously emUnused2) - -emPack13Globals ds.w 1 ; <52> globals for Data Access Manager package -emPack14Globals ds.w 1 ; <52> globals for Balloon Help package - -emResrvMemSemaphore ds.l 1 ; Semaphore for ResrvMem moved to here. Used to be emUnused4. <57> - -emPack15Globals ds.w 1 ; <52> globals for Picture Utilities package - -emSerialMgrGlobals ds.l 1 ; <70> globals for Serial Manager (one long out of emUnused3) -emLanguagePackGlobals ds.l 1 ; <71> globals for LanguagePackExtension (one long out of emUnused3) - -emStartTicks ds.l 1 ; PN global used by ListMgrPack - -emRectRgn ds.l 1 ; global used by WindowMgr routine - -emPPCPromptForUserGlobals ds.l 1 ; <59> global used by PPC’s PromptForUser routine - -emScrollSpeedGlobals ds.l 1 ; <58> global used by scroll speed throttling - -emDialogGlobals ds.l 1 ; <53> FM Dialog Manager Globals - -emAppleEvents ds.l 1 ; Apple Events (switched for each application) - -sysErrorUpdateRect ds.w 4 ; rectangle for updating after SysError box goes away - -emItlSysCachePtr ds.l 1 ; pointer to system itl cache <7><20> -emScriptMapPtr ds.l 1 ; pointer to script mapping/sorting data <8> -emLangMapPtr ds.l 1 ; pointer to language mapping/sorting data <8> - - ds.l 1 ; was emNumer (obsolete), now unused <11><84> - ds.l 1 ; was emDenom (obsolete), now unused <11><84> -emIconCluts ds.l 1 ; Ptr to global icon info <13> -emScriptAppGlobals ds.l 1 ; Handle to application-specific script globals <16><20><21> -emAppleEventsGlobal ds.l 1 ; Apple Events/Apple Scripts global pointer (not switched) <22> -emEditionMgrPerApp ds.l 1 ; EditionMgr global (switched) <22> +emItlCache ds.b emItlCacheSize ; 018 ; reserve room for cache +emItlNeedUnlock ds.b 1 ; 028 ; for pack6 +emItlDontUnlockYet ds.b 1 ; 029 ; for pack6 <56> +emItlFiller ds.b 2 ; 02a ; Reserved room +emScriptsInstalled ds.b 1 ; 02c ; number of installed scripts +emTwoCursorsFlag ds.w 1 ; 02e ; indicates split cursor and if emCursor2Rect is high cursor +emCursor2Rect ds.w 4 ; 030 ; top, left, bottom, right edges of split cursor: initialized to 0 +emFmtOrderHFlag ds.b 1 ; 038 ; flag to indicate a handle was allocated +emDirection ds.l 1 ; 03a ; direction param for C2P for both offsets +emMeasureLine ds.b 1 ; 03e ; flag that says to measure the whole line +emCleanWordBrk ds.l 1 ; 040 ; storage for 32-bit clean defWordBrk address +emNewFont ds.b 1 ; 044 ; textStyle.tsFont: the only field I fill in +emNewStyle ds.w 4 ; 046 ; SetRsrved params: flag.b, textStylePtr.l, mode.w +emBufferHandle ds.l 1 ; 04e ; handle for text buffering +emUnsynchedFlag ds.b 1 ; 052 ; indicates unsynched keyboard and font +emTExtra ds.b 3 ; 053 ; extra TE bytes +emBufferLen ds.w 1 ; 056 ; length of text in buffer +emSERDVars ds.l 1 ; 058 ; Serial Driver Globals +emGestalt ds.l 1 ; 05c ; Gestalt Globals +emLayoutGlobals ds.l 1 ; 060 ; Layout Mgr Globals +emTSMGlobals ds.l 1 ; 064 ; Text-Service Mgr Globals +emSplineKey ds.l 1 ; 068 ; Bass Fonts Globals +emSnarfGlobals ds.l 1 ; 06c ; Snarf Man +emLAPGlobals ds.l 1 ; 070 ; AppleTalk globals +emLMgrGlobals ds.l 1 ; 074 ; LAP Mgr globals +emHelpGlobals ds.l 1 ; 078 ; Help Mgr Globals +emPPCGlobals ds.l 1 ; 07c ; PPC Mgr globals +emDataPub ds.l 1 ; 080 ; Data Publications globals +emReliability ds.l 1 ; 084 ; Reliability manager globals +emjRunSlotHandlrs ds.l 1 ; 088 ; for slot mgrs +emFolderCache ds.l 1 ; 08c ; used by Folder Manager + +vDoErase ds.l 1 ; 090 +vCaretDisplay ds.l 1 ; 094 ; Used by TextEdit for vectors +vGetLRPosition ds.l 1 ; 098 ; to patch Rom +vGetRLPosition ds.l 1 ; 09c +vOnLineEnd ds.l 1 ; 0a0 +vCaretInsideRun ds.l 1 ; 0a4 +vSetDirection ds.l 1 ; 0a8 +vGetDirection ds.l 1 ; 0ac +vGetStylesInOrder ds.l 1 ; 0b0 +vteGetFormatOrder ds.l 1 ; 0b4 +vGetWidth ds.l 1 ; 0b8 +vGetCurScript ds.l 1 ; 0bc +vOnSameLine ds.l 1 ; 0c0 +vMeasureWidth ds.l 1 ; 0c4 +vMeasureWholeRun ds.l 1 ; 0c8 +vHiliteLineEnds ds.l 1 ; 0cc +vInvrtRectangle ds.l 1 ; 0d0 +vPixelWidths ds.l 1 ; 0d4 +vTEBufferText ds.l 1 ; 0d8 +vDumpBuffer ds.l 1 ; 0dc +vCursorMovement ds.l 1 ; 0e0 +vTestRunDirection ds.l 1 ; 0e4 +vBufferChar ds.l 1 ; 0e8 +vSetFont2Keyboard ds.l 1 ; 0ec +vSetKeyboard2Font ds.l 1 ; 0f0 +vStyleGuts ds.l 1 ; 0f4 +vConcatRuns ds.l 1 ; 0f8 + +resourceMgrDirID ds.l 1 ; 0fc ; dirID one-shot for Resource Mgr +emLAPAGlobals ds.l 1 ; 100 ; LAP Mgr (router) globals +emMailGlobals ds.l 1 ; 104 ; AppleMail globals +emADASGlobals ds.l 1 ; 108 ; ADAS globals + +emELAPGlobals ds.l 1 ; 10c ; EtherTalk LAP globals + +soundMgrGlobals ds.l 1 ; 110 ; one global for ALL machines + +emWindowListGlobals ds.l 1 ; 114 ; <52> globals for layerless windowing + +emDragGlobals ds.l 1 ; 118 ; <64> globals for dragging stuff (in Finder, etc) + +emFSCommon ds.l 1 ; 11c ; <68> globals for FSCommon Library Modules +emButtonMgrGlobals ds.l 1 ; 120 ; <52> <70> globals for Button Manager (Not enUnused1 anymore) + +emPack8Globals ds.w 1 ; 124 ; <52> globals for Apple Event Manager package +emPack9Globals ds.w 1 ; 126 ; <52> globals for PPC Browser package + +emProcessMgrExists ds.w 1 ; 128 ; <58> true when Process Mgr is running + +emPack11Globals ds.w 1 ; 12a ; <52> globals for Edition Manager package + +emWindowMgrFlags ds.w 1 ; 12c ; <77> flags to speed CheckUpdateIn (previously emUnused2) + +emPack13Globals ds.w 1 ; 12e ; <52> globals for Data Access Manager package +emPack14Globals ds.w 1 ; 130 ; <52> globals for Balloon Help package + +emResrvMemSemaphore ds.l 1 ; 132 ; Semaphore for ResrvMem moved to here. Used to be emUnused4. <57> + +emPack15Globals ds.w 1 ; 136 ; <52> globals for Picture Utilities package + +emSerialMgrGlobals ds.l 1 ; 138 ; <70> globals for Serial Manager (one long out of emUnused3) +emLanguagePackGlobals ds.l 1 ; 13c ; <71> globals for LanguagePackExtension (one long out of emUnused3) + +emStartTicks ds.l 1 ; 140 ; PN global used by ListMgrPack + +emRectRgn ds.l 1 ; 144 ; global used by WindowMgr routine + +emPPCPromptForUserGlobals ds.l 1 ; 148 ; <59> global used by PPC’s PromptForUser routine + +emScrollSpeedGlobals ds.l 1 ; 14c ; <58> global used by scroll speed throttling + +emDialogGlobals ds.l 1 ; 150 ; <53> FM Dialog Manager Globals + +emAppleEvents ds.l 1 ; 154 ; Apple Events (switched for each application) + +sysErrorUpdateRect ds.w 4 ; 158 ; rectangle for updating after SysError box goes away + +emItlSysCachePtr ds.l 1 ; 160 ; pointer to system itl cache <7><20> +emScriptMapPtr ds.l 1 ; 164 ; pointer to script mapping/sorting data <8> +emLangMapPtr ds.l 1 ; 168 ; pointer to language mapping/sorting data <8> + + ds.l 1 ; 16c ; was emNumer (obsolete), now unused <11><84> + ds.l 1 ; 170 ; was emDenom (obsolete), now unused <11><84> +emIconCluts ds.l 1 ; 174 ; Ptr to global icon info <13> +emScriptAppGlobals ds.l 1 ; 178 ; Handle to application-specific script globals <16><20><21> +emAppleEventsGlobal ds.l 1 ; 17c ; Apple Events/Apple Scripts global pointer (not switched) <22> +emEditionMgrPerApp ds.l 1 ; 180 ; EditionMgr global (switched) <22> ; Note: These vectors are not used by the local file system. They exist to provide a cleaner interface ; to AppleShare and FileShare. Thus, you can't change these vectors and assume that you're patching ; the file system. (This may change, however, so don't patch them expecting to only affect AppleShare and ; FileShare, either). -jSyncWait ds.l 1 ; points to the top of the HFS sync call spin loop <23> -jAfterFSQHook ds.l 1 ; points into FSQueue just after return from calling fsQueueHook <23> -jCmdDone ds.l 1 ; points to the top of File System Command Done processing <23> -jDispatchNext ds.l 1 ; point into code where the FS checks for another call to process <23> -jSCSIFreeHook ds.l 1 ; vector called by SCSI Mgr every time it frees the bus +jSyncWait ds.l 1 ; 184 ; points to the top of the HFS sync call spin loop <23> +jAfterFSQHook ds.l 1 ; 188 ; points into FSQueue just after return from calling fsQueueHook <23> +jCmdDone ds.l 1 ; 18c ; points to the top of File System Command Done processing <23> +jDispatchNext ds.l 1 ; 190 ; point into code where the FS checks for another call to process <23> +jSCSIFreeHook ds.l 1 ; 194 ; vector called by SCSI Mgr every time it frees the bus ; this vector is used by the File System to complete SCSI Busy deferrals ; routines to manage the sound interrupt source -jSetupSoundInterrupt ds.l 1 -jSuspendSoundInterrupt ds.l 1 -jResumeSoundInterrupt ds.l 1 -jAcknowledgeSoundInterrupt ds.l 1 +jSetupSoundInterrupt ds.l 1 ; 198 +jSuspendSoundInterrupt ds.l 1 ; 19c +jResumeSoundInterrupt ds.l 1 ; 1a0 +jAcknowledgeSoundInterrupt ds.l 1 ; 1a4 ; lomem for PaintOne and PaintBehind flag -ancestorRgnsCalced ds.w 1 +ancestorRgnsCalced ds.w 1 ; 1a8 -emSndPrimitives ds.l 1 ; points to a vector table of sound primitive routines <30> +emSndPrimitives ds.l 1 ; 1aa ; points to a vector table of sound primitive routines <30> -emMinSysHeapFreeSpace ds.l 1 ; contains a minimum memory value for sysheap free after allocations <31> +emMinSysHeapFreeSpace ds.l 1 ; 1ae ; contains a minimum memory value for sysheap free after allocations <31> -emHwPrivTable ds.l 1 ; Ptr to a jump table for HwPriv's selectors <36> -emKeyTMTaskPtr ds.l 1 ; Ptr to a TimeMgr task that Eclipse Keyswitch uses to shut down <36> +emHwPrivTable ds.l 1 ; 1b2 ; Ptr to a jump table for HwPriv's selectors <36> +emKeyTMTaskPtr ds.l 1 ; 1b6 ; Ptr to a TimeMgr task that Eclipse Keyswitch uses to shut down <36> -emMessageManagerGlobals ds.l 3 ; Globals for the new message manager <32> +emMessageManagerGlobals ds.l 3 ; 1ba ; Globals for the new message manager <32> -emDictionaryMgrPackHandle ds.l 1 ; handle to the package code <37> -emDictionaryMgrUseCount ds.w 1 ; pack use count for ProcHelper +emDictionaryMgrPackHandle ds.l 1 ; 1c6 ; handle to the package code <37> +emDictionaryMgrUseCount ds.w 1 ; 1ca ; pack use count for ProcHelper -emWorldScriptIIPrintingGlobals ds.l 1 ; <66> it is now used by WS II printing stuff, so don't use it -emHasMultiScript ds.w 1 ; true when non-Roman script system is installed. (but false until the Process Mgr is initialized) +emWorldScriptIIPrintingGlobals ds.l 1 ; 1cc ; <66> it is now used by WS II printing stuff, so don't use it +emHasMultiScript ds.w 1 ; 1d0 ; true when non-Roman script system is installed. (but false until the Process Mgr is initialized) -emResourceCache ds.l 1 ; Information for calls to _CountResources and _GetIndResource -emLastMapOverridden ds.w 1 ; Reference number of last resource map that was overriden -emOverrideMapRefNum ds.w 1 ; Reference number of override map -emScanOverrideMaps ds.w 1 ; Boolean determining whether or not override maps are scanned for resources +emResourceCache ds.l 1 ; 1d2 ; Information for calls to _CountResources and _GetIndResource +emLastMapOverridden ds.w 1 ; 1d6 ; Reference number of last resource map that was overriden +emOverrideMapRefNum ds.w 1 ; 1d8 ; Reference number of override map +emScanOverrideMaps ds.w 1 ; 1da ; Boolean determining whether or not override maps are scanned for resources -emPrintingGlobals ds.l 1 ; Tsunami Printing Manager non-swapped printing globals <41> +emPrintingGlobals ds.l 1 ; 1dc ; Tsunami Printing Manager non-swapped printing globals <41> -emCursorGlobals ds.l 1 ; Ptr to CursorDev globals <46> +emCursorGlobals ds.l 1 ; 1e0 ; Ptr to CursorDev globals <46> -emButtonIntGlobals ds.l 1 ; Ptr to Button Interrupt globals. previously Ptr to "real" SwapMMUMode routine CSS +emButtonIntGlobals ds.l 1 ; 1e4 ; Ptr to Button Interrupt globals. previously Ptr to "real" SwapMMUMode routine CSS -emAppleTalkInactiveOnBoot ds.w 1 ; True if AppleTalk was inactive on boot <48> +emAppleTalkInactiveOnBoot ds.w 1 ; 1e8 ; True if AppleTalk was inactive on boot <48> -emOpenFontFiles ds.w 1 ; Count of open font files in the Fonts folder. <49> +emOpenFontFiles ds.w 1 ; 1ea ; Count of open font files in the Fonts folder. <49> -emLowMemoryPrintingGlobals ds.l 1 ; Handle to globals used by LowMemoryPrintingPatches <50> +emLowMemoryPrintingGlobals ds.l 1 ; 1ec ; Handle to globals used by LowMemoryPrintingPatches <50> -emNetBootGlobals ds.l 1 ; Handle to globals used by emNetBootGlobals for Network Booting and Appletalk stuff. <65> - -emFndrDeskRgn ds.l 1 ; Handle to region maintained by Bungee Finder if fndrDeskRgnTracking is true <67> <69> - -emFndrDeskRgnTracking ds.w 1 ; If true, the Bungee Finder will keep an up-to-date region handle in fndrDeskRgn of the icons on the desktop <67> <69> - -emFndrDeskRgnChange ds.w 1 ; Always incremented by the Bungee Finder for every change made to the desktop <67> <69> - -emDisplayManagerGlobals ds.l 1 ; Pointer to globals used by Display Manager - -emTranslationMgrGlobals ds.l 1 ; Pointer to globals used by Translation Manager (Macintosh Easy Open) <73> - -emTingeInfo ds.l 1 ; Handle to color information kept by the Tinge Manager - -emIsDragging ds.b 1 ; Set within DragTheRgn and cleared before exiting; if true, HelpMgr -emIsDraggingSlop ds.b 3 ; patch in OSEventAvail is bypassed. - -emRenoGlobals ds.l 1 ; Ptr to Reno Globals - -emDMADispatchGlobals ds.l 1 ; DMA dispatch globals ptr - -emInternalModemMgrGlobals ds.l 1 ; Internal modem manager globals <78> - -emGadgetPixMap ds.l 1 ; PixMapHandle used by defprocs to draw gadgets - -emAuxiliaryWindowHashTable ds.l 1 ; Pointer to auxiliary window record hash table -emAuxiliaryControlHashTable ds.l 1 ; Pointer to auxiliary control record hash table - -emIDEGlobals ds.l 1 ; IDE driver globals - -emSpeechRecognitionGlobals ds.l 1 ; Speech Recognition Globals <85> - -emControlHandle ds.l 1 ; control handle used in _DragTheRgn when the thumb is being dragged so we can send a draw thumb outline message. CSS - -emHeapUtilsGlobals ds.l 1 ; Heap Utilities globals - -emExpansionBusGlobals ds.l 1 ; Pointer to Expansion Bus Manager Globals - -jSWModemSoundVector ds.l 1 ; Vector to control routine for software modem sound +emNetBootGlobals ds.l 1 ; 1f0 ; Handle to globals used by emNetBootGlobals for Network Booting and Appletalk stuff. <65> + +emFndrDeskRgn ds.l 1 ; 1f4 ; Handle to region maintained by Bungee Finder if fndrDeskRgnTracking is true <67> <69> + +emFndrDeskRgnTracking ds.w 1 ; 1f8 ; If true, the Bungee Finder will keep an up-to-date region handle in fndrDeskRgn of the icons on the desktop <67> <69> + +emFndrDeskRgnChange ds.w 1 ; 1fa ; Always incremented by the Bungee Finder for every change made to the desktop <67> <69> + +emDisplayManagerGlobals ds.l 1 ; 1fc ; Pointer to globals used by Display Manager + +emTranslationMgrGlobals ds.l 1 ; 200 ; Pointer to globals used by Translation Manager (Macintosh Easy Open) <73> + +emTingeInfo ds.l 1 ; 204 ; Handle to color information kept by the Tinge Manager + +emIsDragging ds.b 1 ; 208 ; Set within DragTheRgn and cleared before exiting; if true, HelpMgr +emIsDraggingSlop ds.b 3 ; 209 ; patch in OSEventAvail is bypassed. + +emRenoGlobals ds.l 1 ; 20c ; Ptr to Reno Globals + +emDMADispatchGlobals ds.l 1 ; 210 ; DMA dispatch globals ptr + +emInternalModemMgrGlobals ds.l 1 ; 214 ; Internal modem manager globals <78> + +emGadgetPixMap ds.l 1 ; 218 ; PixMapHandle used by defprocs to draw gadgets + +emAuxiliaryWindowHashTable ds.l 1 ; 21c ; Pointer to auxiliary window record hash table +emAuxiliaryControlHashTable ds.l 1 ; 220 ; Pointer to auxiliary control record hash table + +emIDEGlobals ds.l 1 ; 224 ; IDE driver globals + +emSpeechRecognitionGlobals ds.l 1 ; 228 ; Speech Recognition Globals <85> + +emControlHandle ds.l 1 ; 22c ; control handle used in _DragTheRgn when the thumb is being dragged so we can send a draw thumb outline message. CSS + +emHeapUtilsGlobals ds.l 1 ; 230 ; Heap Utilities globals + +emExpansionBusGlobals ds.l 1 ; 234 ; Pointer to Expansion Bus Manager Globals + +jSWModemSoundVector ds.l 1 ; 238 ; Vector to control routine for software modem sound + + ds.l 1 ; 23c + ds.l 1 ; 240 + ds.l 1 ; 244 + ds.l 1 ; 248 + ds.l 1 ; 24c + ds.l 1 ; 250 + ds.l 1 ; 254 + ds.l 1 ; 258 + ds.l 1 ; 25c + ds.l 1 ; 260 + ds.l 1 ; 264 + ds.l 1 ; 268 + ds.l 1 ; 26c + ds.l 1 ; 270 + ds.l 1 ; 274 + ds.l 1 ; 278 + ds.l 1 ; 27c + ds.l 1 ; 280 + ds.l 1 ; 284 + ds.l 1 ; 288 + ds.l 1 ; 28c + ds.l 1 ; 290 + ds.l 1 ; 294 + ds.l 1 ; 298 + ds.l 1 ; 29c + ds.l 1 ; 2a0 + ds.l 1 ; 2a4 + ds.l 1 ; 2a8 + ds.l 1 ; 2ac + ds.l 1 ; 2b0 + ds.l 1 ; 2b4 + ds.l 1 ; 2b8 + ds.l 1 ; 2bc + ds.l 1 ; 2c0 + ds.l 1 ; 2c4 + ds.l 1 ; 2c8 + ds.l 1 ; 2cc + ds.l 1 ; 2d0 + ds.l 1 ; 2d4 + ds.l 1 ; 2d8 + ds.l 1 ; 2dc + ds.l 1 ; 2e0 + ds.l 1 ; 2e4 + ds.l 1 ; 2e8 + ds.l 1 ; 2ec + ds.l 1 ; 2f0 + ds.l 1 ; 2f4 + ds.l 1 ; 2f8 + ds.l 1 ; 2fc + ds.l 1 ; 300 + ds.l 1 ; 304 + ds.l 1 ; 308 + ds.l 1 ; 30c + ds.l 1 ; 310 + ds.l 1 ; 314 + ds.l 1 ; 318 + ds.l 1 ; 31c + ds.l 1 ; 320 + ds.l 1 ; 324 + ds.l 1 ; 328 + ds.l 1 ; 32c + ds.l 1 ; 330 + ds.l 1 ; 334 + ds.l 1 ; 338 + ds.l 1 ; 33c + ds.l 1 ; 340 + ds.l 1 ; 344 + ds.w 1 ; 348 ; NOTE: When adding new fields here, be sure to update the high-level language header files as well ; (currently {CInternal}ExpandMemPriv.h is the one) ; Be sure to update the Reality sources when you change this file (and the version number) -emCurVersion EQU $0133 ; version +emCurVersion EQU $016b ; version emRecSize equ * ; size for this version size equ * diff --git a/Internal/Asm/UniversalEqu.a b/Internal/Asm/UniversalEqu.a --- a/Internal/Asm/UniversalEqu.a +++ b/Internal/Asm/UniversalEqu.a @@ -514,7 +514,7 @@ SlotF ds.b 1 ; info for Slot F ; If you change the ProductInfo record, bump the version up by 1. ; ;-------------------------------------------------------------------------------------------- -ProductInfoVersion equ 1 ; Version of the ProductInfo record +ProductInfoVersion equ 0 ; Version of the ProductInfo record ProductInfo record 0,increment ; data structure describing product dependent features diff --git a/Internal/Asm/VectorTableInit.a b/Internal/Asm/VectorTableInit.a --- a/Internal/Asm/VectorTableInit.a +++ b/Internal/Asm/VectorTableInit.a @@ -118,13 +118,13 @@ InitVec&TVec proc export ; initialize the vector table vector Endif - ; fill in the unused "holes" with the address of UNIMPLEMENTED + ; fill in the unused "holes" with the address of BADTRAP If (&thisCVect - &lastCVect) > 4 Then - import UNIMPLEMENTED + import BADTRAP - dcb.l (&thisCVect - &lastCVect - 4)/4 ,UNIMPLEMENTED-BASEOFROM+ROMBASE + dcb.l (&thisCVect - &lastCVect - 4)/4 ,BADTRAP-BASEOFROM+ROMBASE Endif diff --git a/Internal/Asm/egretequ.a b/Internal/Asm/egretequ.a --- a/Internal/Asm/egretequ.a +++ b/Internal/Asm/egretequ.a @@ -109,6 +109,7 @@ ContinueComp ds.l 1 ; vector to power message continue procedure deferredPDM ds.l 1 ; pointer to PDM deferred task to post alert prevPollStack ds.l 1 ; keep address of any other poll stack SpareComp3 ds.l 1 ; spare vector #3 + ds.b $178-$64 ; new EgretGlobSize EQU * ENDR @@ -273,7 +274,8 @@ EnDisPDM equ $21 ; Enable/Disable PowerDown Message RdWrIIC equ $22 ; Read or Write IIC (I sqared C) [rbm]<3> WakeUpMode equ $23 ; Enable/Disable WakeUpMode TimerTickle equ $24 ; ShutDown Timer Tickle -MaxPseudoCmd equ TimerTickle ; largest possible pseudo command number +; more commands apparently added +MaxPseudoCmd equ $2A ; largest possible pseudo command number ; ;__________________________________________________________________________________________________ diff --git a/Internal/Asm/fontPrivate.a b/Internal/Asm/fontPrivate.a --- a/Internal/Asm/fontPrivate.a +++ b/Internal/Asm/fontPrivate.a @@ -265,70 +265,110 @@ selectInitializediskCache equ $0010 ; <24> MACRO _sbIsOutline IMPORT SplineMgr - MOVEQ #sbIsOutline,D0 + LCLC &OLDOPT +&OLDOPT SETC &Setting('OPT') + OPT NONE + MOVE #sbIsOutline,D0 + OPT &OLDOPT _SplineMgr ENDM MACRO _sbRetrieveGlyph IMPORT SplineMgr - MOVEQ #sbRetrieveGlyph,D0 + LCLC &OLDOPT +&OLDOPT SETC &Setting('OPT') + OPT NONE + MOVE #sbRetrieveGlyph,D0 + OPT &OLDOPT _SplineMgr ENDM MACRO _sbKillSomeCaches IMPORT SplineMgr - MOVEQ #sbKillSomeCaches,D0 + LCLC &OLDOPT +&OLDOPT SETC &Setting('OPT') + OPT NONE + MOVE #sbKillSomeCaches,D0 + OPT &OLDOPT _SplineMgr ENDM MACRO _sbFillWidthTab IMPORT SplineMgr - MOVEQ #sbFillWidthTab,D0 + LCLC &OLDOPT +&OLDOPT SETC &Setting('OPT') + OPT NONE + MOVE #sbFillWidthTab,D0 + OPT &OLDOPT _SplineMgr ENDM MACRO _sbResetWorkSpace IMPORT SplineMgr - MOVEQ #sbResetWorkSpace,D0 + LCLC &OLDOPT +&OLDOPT SETC &Setting('OPT') + OPT NONE + MOVE #sbResetWorkSpace,D0 + OPT &OLDOPT _SplineMgr ENDM MACRO _sbInitMemory IMPORT SplineMgr - MOVEQ #sbInitMemory,D0 + LCLC &OLDOPT +&OLDOPT SETC &Setting('OPT') + OPT NONE + MOVE #sbInitMemory,D0 + OPT &OLDOPT _SplineMgr ENDM MACRO _sbSetFontState IMPORT SplineMgr - MOVEQ #sbSetFontState,D0 + LCLC &OLDOPT +&OLDOPT SETC &Setting('OPT') + OPT NONE + MOVE #sbSetFontState,D0 + OPT &OLDOPT _SplineMgr ENDM MACRO _sbSearchForCache IMPORT SplineMgr - MOVEQ #sbSearchForCache,D0 + LCLC &OLDOPT +&OLDOPT SETC &Setting('OPT') + OPT NONE + MOVE #sbSearchForCache,D0 + OPT &OLDOPT _SplineMgr ENDM MACRO _sbPreFlightFontMem IMPORT SplineMgr - MOVEQ #sbPreFlightFontMem,D0 + LCLC &OLDOPT +&OLDOPT SETC &Setting('OPT') + OPT NONE + MOVE #sbPreFlightFontMem,D0 + OPT &OLDOPT _SplineMgr ENDM MACRO _fsLowestPPEM IMPORT SplineMgr - MOVEQ #fsLowestPPEM,D0 + LCLC &OLDOPT +&OLDOPT SETC &Setting('OPT') + OPT NONE + MOVE #fsLowestPPEM,D0 + OPT &OLDOPT _SplineMgr ENDM @@ -341,19 +381,31 @@ selectInitializediskCache equ $0010 ; <24> MACRO _sbFlushFonts IMPORT SplineMgr - MOVEQ #sbFlushFonts,D0 + LCLC &OLDOPT +&OLDOPT SETC &Setting('OPT') + OPT NONE + MOVE #sbFlushFonts,D0 + OPT &OLDOPT _SplineMgr ENDM Macro ; <24> _InitializePartialFonts ; <24> - moveq #selectInitializePartialFonts,d0 ; <24> + LCLC &OLDOPT +&OLDOPT SETC &Setting('OPT') + OPT NONE + MOVE #selectInitializePartialFonts,d0 ; <24> + OPT &OLDOPT _SplineMgr ; <24> EndM ; <24> Macro ; <24> _InitializeDiskCache ; <24> - moveq #selectInitializeDiskCache,d0 ; <24> + LCLC &OLDOPT +&OLDOPT SETC &Setting('OPT') + OPT NONE + MOVE #selectInitializeDiskCache,d0 ; <24> + OPT &OLDOPT _SplineMgr ; <24> EndM ; <24> diff --git a/Internal/C/CodeFragments.h b/Internal/C/CodeFragments.h deleted file mode 100644 --- a/Internal/C/CodeFragments.h +++ /dev/null @@ -1,316 +0,0 @@ -/* - File: CodeFragments.h - - Contains: Code Fragment Manager: - System Programmer's Interface - - Written by: Erik L Eidt - - Copyright: © 1992 by Apple Computer, Inc., all rights reserved. - - Change History (most recent first): - - <1> 12/7/92 DRF first checked in - <7> 11/11/92 ELE char ==> unsigned char - <6> 11/3/92 NL Added back #include , because it is definitely needed! - Specifically, for the THz typedef, as well as for prototypes for - functions (eg: GetZone()). - <5> 10/28/92 WSK Remove "#include " (not needed). - Bracket "#include"s with "#ifndefs" so native debugger can - be compiled using this file (by #defining the symbols and - substituting its own definitions as required). - <4> 10/22/92 DRF Get rid of inline glue from <3>. Moved it to a new file, - CodeFragmentsTrap.h. This way we can still build GoNative, and - only those folks who need to use the trap interface will have it - defined. - <3> 10/22/92 DRF Added inline glue for 68K to call FragCreateContext, - FragPrepare, FragRelease, and FragRegister. - <2> 10/6/92 jrc Changed "typedef struct" syntax to agree with Sean's - InterfaceTool. Also changed "typedef enum". - <7> 9/30/92 ELE change TCFLProcs from typedef to struct so CFLoader.h still not - required - <6> 9/30/92 ELE add TVersionNum type - <5> 9/29/92 ELE make Dave F. happy! - <4> 9/29/92 ELE remove include of CFLoader.h - <3> 9/23/92 ELE change tab settings - <2> 9/23/92 ELE had to add blank line onto end of file - MPW C was complaining about illegal character - <1> 9/18/92 ELE first checked in - -*/ - - -#ifndef __CODEFRAGMENTS__ - -#define __CODEFRAGMENTS__ 1 - -#ifndef __TYPES__ -#include -#endif - -#ifndef __FILES__ -#include -#endif - -#ifndef __PROCESSES__ -#include -#endif - -#ifndef __MEMORY__ -#include -#endif - -// typedefs that probably should be in some other system header -typedef long TaskID; -typedef long TeamID; -typedef long AddressSpaceID; -typedef unsigned long LogicalAddress; // the type used for addresses in address spaces -typedef unsigned long TVersionNum; /* Version number */ - - -typedef long FragContextID; // ID’s to identify the app, agent, task or team - // to which a module should attached -typedef LogicalAddress FragConnectionID; // the value interpreted only by the Frag -typedef unsigned long Mask; // for flags -typedef unsigned char SymClass; // for symbol class of export symbols - -typedef OSErr FragErr; - - -// system & boot context value -#define kSystemFragContext 1 - - -// default values for creating contexts -#define kDefaultTaskID (long) (GetZone ()) // unique to an app -#define kDefaultTeamID 1 // the BLUE world -#define kDefaultAddrSpaceID 1 // the Mac address space - -enum { kDefaultContext = 0, kFragDebugApp = 1, - kFragDebugAll = 2, kFragInSystem = 4 }; - - -// values for preparing objects -enum { kDefaultPlacement, kUseMemInPlace }; -enum { kAttachStatic, kAttachDynamic }; -#define kNoLibName ((unsigned char *) 0) -#define kNoLocator ((FragmentLocatorPtr) 0) -#define kPowerPC 'pwpc' - - -// values for releasing contexts -#define kAllConnections ((FragConnectionID) 0) -enum { kTaskID = 1, kTeamID = 2, kAddressSpace = 4, kDefaultRelease = kTaskID }; -enum { kAbnormalTerm, kNormalTerm }; - - -// for registering libraries with Frag -enum { kAfterPMSP, kBeforePMSP }; -enum { kFullLib, kUpdateLib }; -enum { kRegister, kUnregister }; - - -// fragment locator description types -enum { kOnDiskFlat, kInMem, kOnDiskSegmented }; - -struct MemFragment { - Ptr address; - long length; - Boolean inPlace; -}; -typedef struct MemFragment MemFragment; - - -struct DiskFragment { - FSSpecPtr fileSpec; - long offset; - long length; -}; -typedef struct DiskFragment DiskFragment; - - -struct SegmentedFragment { - FSSpecPtr fileSpec; - OSType rsrcType; - short rsrcID; -}; -typedef struct SegmentedFragment SegmentedFragment; - -struct FragmentLocator{ - long where; - union { - MemFragment inMem; - DiskFragment onDisk; - SegmentedFragment inSegs; - } u; -}; -typedef struct FragmentLocator FragmentLocator, *FragmentLocatorPtr; - - -// search function types -enum { kAfterOthers, kBeforeOthers }; - -typedef FragErr (*FragSearchProcPtr) ( Str63 pNamePtr, - long updateLevel, - short vRefNum, - long parID, - TVersionNum linkedVersion, - TVersionNum oldDefVersion, - OSType architecure, - FragmentLocator *fragLoc, - Boolean *isPrivate, - long *position ); - - -// -// System Programmer's Interface -// -// Functions that do actions -// - -FragErr FragCreateContext ( FragContextID *contextID, - THz heapZone, - AddressSpaceID addressSpace, - TaskID taskID, - TeamID teamID, - Mask contextFlags ); - -FragErr FragPrepare ( FragContextID contextID, - FragmentLocatorPtr fragLocator, - Str63 libName, - Boolean attachDynamic, - OSType architecture, - FragConnectionID *connectionID, - LogicalAddress *entryAddress, - Str63 errName ); - -FragErr FragRelease ( FragContextID contextID, - FragConnectionID connectionID, - Mask releaseWhich, - Boolean normalTerm ); - - -FragErr FragRegister ( FragmentLocatorPtr fragLocator, - Boolean beforePMSP, - long updateLevel, - Str63 libName, - Boolean unregister ); - -FragErr FragAddSearchFcn ( FragSearchProcPtr SearchFcn, - Boolean callFirst ); - -// -// System Programmer's Interface -// -// Functions that return information -// - -struct RegisteredInfo{ - Str63 libName; - FragmentLocator fragLocator; -}; -typedef struct RegisteredInfo RegisteredInfo; - - -FragErr FragGetRegisterInfo ( long libIndex, - RegisteredInfo *registerInfo ); - - -FragErr FragResolveSymbol ( FragContextID contextID, - FragConnectionID connectionID, - Str255 symbolName, - SymClass *symbolClass, - long *symbolIndex, - LogicalAddress *symbolAddress ); - - -struct ContextInfo { - FragContextID contextID; - THz heapZone; - AddressSpaceID addressSpace; - TaskID taskID; - TeamID teamID; -}; -typedef struct ContextInfo ContextInfo; - -FragErr FragGetContextInfo ( FragContextID contextID, - Boolean nextContext, - ContextInfo *contextInfo ); - - -struct ConnectionInfo { - FragConnectionID connectionID; - OSType loaderType; - FragmentLocator fragLocator; - long sectionCount; - long symbolCount; - struct TCFLProcs *theProcs; - struct TCFLPrivateInfo *containerInfo; -}; -typedef struct ConnectionInfo ConnectionInfo; - -FragErr FragGetConnectionInfo( FragContextID contextID, - FragConnectionID connectionID, - Boolean nextConnection, - ConnectionInfo *connectionInfo ); - - -struct SectionInfo { - LogicalAddress sectionAddress; - long sectionLength; - Boolean executable; - Boolean writeable; - long shareCount; -}; -typedef struct SectionInfo SectionInfo; - -FragErr FragGetSectionInfo ( FragContextID contextID, - FragConnectionID connectionID, - long sectionIndex, - long sectionCount, - SectionInfo *sectionInfo ); - - - -#define kUnresolvedSymbolAddress 0x0 - -// -// Error codes and other constants -// - -enum { - fragNoErr = 0, - fragContextNotFound // contextID was not valid - = -10000, - fragConnectionIDNotFound, // connecionID was not valid - fragSymbolNotFound, // symbol was not found in connection - fragSectionNotFound, // section was not found - fragLibNotFound, // library name not found in Frag registry - fragHadUnresolveds, // loaded fragment had unacceptable unresolveds - fragHadSoftUnresolveds, // loaded fragment has acceptable unresolveds - fragNoMem, // out of memory for interal bookkeeping - fragNoAddrSpace, // out of memory in user's address space for loadable section - fragNoContextIDs, // no more context id’s - fragObjectInitSeqErr, // order error during user initialization function invocation - fragImportTooOld, // import library was too old and therefore incompatible - fragImportTooNew, // import library was too new and therefore incompatible - fragInitLoop, // circularity detected in mandatory initialization order - fragInitRtnUsageErr, // boot library has initialization routine - fragMgrInitErr // error in initailization of this manager -}; -typedef long FragErrors; - - -#define kFirstOrLastInTask 1 -#define kFirstOrLastInTeam 2 -#define kFirstOrLastInGroup 4 - -typedef OSErr ConnectionInitializationRoutine ( Mask flags, - FragConnectionID connectionID ); -typedef void ConnectionTerminationRoutine ( Mask flags, - FragConnectionID connectionID ); - - -#endif /* __CODEFRAGMENTS__ */ - - - diff --git a/Internal/C/CodeFragments.h.rdump b/Internal/C/CodeFragments.h.rdump deleted file mode 100644 --- a/Internal/C/CodeFragments.h.rdump +++ /dev/null @@ -1,25 +0,0 @@ -data 'MPSR' (1005) { - $"0009 4D6F 6E61 636F 002A 2A2A 2A2A 2A2A" /* ..Monaco.******* */ - $"2A2A 2A2A 2A2A 2A2A 2A2A 2A2A 2A2A 0D2A" /* **************.* */ - $"2A0D 0006 0008 005A 0081 0265 0395 005A" /* *......Z...e...Z */ - $"0081 0265 0395 A74A 3D51 0000 0108 0000" /* ...e...J=Q...... */ - $"015A 0000 0000 0100" /* .Z...... */ -}; - -data 'MPSR' (1008) { - $"005A 0081 0265 0395 005A 0081 0265 0395" /* .Z...e...Z...e.. */ - $"0000 0000 0000 0000 0000 0000 0000" /* .............. */ -}; - -data 'ckid' (128, "Projector") { - $"9F3D 6E4E 3FE5 3230 0004 0000 0000 0000" /* .=nN?.20........ */ - $"0000 A933 760A A933 760A A5B5 F4BB 0008" /* ...3v..3v....... */ - $"5062 0000 0033 0001 1A53 7570 6572 4D61" /* Pb...3...SuperMa */ - $"7269 6F50 726F 6ABA 496E 7465 726E 616C" /* rioProj.Internal */ - $"BA43 BA00 0E43 6872 6973 2050 6574 6572" /* .C...Chris Peter */ - $"7365 6E00 0131 000F 436F 6465 4672 6167" /* sen..1..CodeFrag */ - $"6D65 6E74 732E 6800 1455 7064 6174 6520" /* ments.h..Update */ - $"6672 6F6D 2052 6561 6C69 7479 2E00 0000" /* from Reality.... */ - $"00" /* . */ -}; - diff --git a/Internal/C/CodeFragmentsTrap.h b/Internal/C/CodeFragmentsTrap.h deleted file mode 100644 --- a/Internal/C/CodeFragmentsTrap.h +++ /dev/null @@ -1,118 +0,0 @@ -/* - File: CodeFragmentsTrap.h - - Contains: Inline glue for Code Fragment Manager - - Written by: Dave Falkenburg - - Copyright: © 1992 by Apple Computer, Inc., all rights reserved. - - Change History (most recent first): - - <1> 12/7/92 DRF first checked in - <5> 12/3/92 HSC Added the rest of the CFM functions defs - <4> 11/2/92 DRF InterfaceTool has changed, so redo <3> the new way. - <3> 10/30/92 DRF Added “#ifdef applec” so we don’t put glue for this into - PrivateInterfaceLib! - <2> 10/26/92 DRF Added prerequisite #includes so that InterfaceTool doesn’t choke - <1> 10/22/92 DRF first checked in - -*/ - -#ifndef __CODEFRAGMENTSTRAP__ -#define __CODEFRAGMENTSTRAP__ - -#pragma push -#pragma skipping on -#ifndef interface_glue - -/* <3>,<4> Don’t generate glue for this stuff!!! */ - -#include -#include -#include -#include -#include - -// -// System Programmer's Interface -// -// Functions that do actions -// - -FragErr FragCreateContext ( FragContextID *contextID, - THz heapZone, - AddressSpaceID addressSpace, - TaskID taskID, - TeamID teamID, - Mask contextFlags ) - = {0x303C,0x0000,0xAA5A}; - -FragErr FragPrepare ( FragContextID contextID, - FragmentLocatorPtr fragLocator, - Str63 libName, - Boolean attachDynamic, - OSType architecture, - FragConnectionID *connectionID, - LogicalAddress *entryAddress, - Str63 errName ) - = {0x303C,0x0001,0xAA5A}; - -FragErr FragRelease ( FragContextID contextID, - FragConnectionID connectionID, - Mask releaseWhich, - Boolean normalTerm ) - = {0x303C,0x0002,0xAA5A}; - - -FragErr FragRegister ( FragmentLocatorPtr fragLocator, - Boolean beforePMSP, - long updateLevel, - Str63 libName, - Boolean unregister ) - = {0x303C,0x0003,0xAA5A}; - -FragErr FragAddSearchFcn ( FragSearchProcPtr SearchFcn, - Boolean callFirst ) - = {0x303C,0x0004,0xAA5A}; - - -FragErr FragGetRegisterInfo ( long libIndex, - RegisteredInfo *registerInfo ) - = {0x303C,0x0005,0xAA5A}; - - -FragErr FragResolveSymbol ( FragContextID contextID, - FragConnectionID connectionID, - Str255 symbolName, - SymClass *symbolClass, - long *symbolIndex, - LogicalAddress *symbolAddress ) - = {0x303C,0x0006,0xAA5A}; - - -FragErr FragGetContextInfo ( FragContextID contextID, - Boolean nextContext, - ContextInfo *contextInfo ) - = {0x303C,0x0007,0xAA5A}; - - -FragErr FragGetConnectionInfo( FragContextID contextID, - FragConnectionID connectionID, - Boolean nextConnection, - ConnectionInfo *connectionInfo ) - = {0x303C,0x0008,0xAA5A}; - - -FragErr FragGetSectionInfo ( FragContextID contextID, - FragConnectionID connectionID, - long sectionIndex, - long sectionCount, - SectionInfo *sectionInfo ) - = {0x303C,0x0009,0xAA5A}; - - -#endif /* interface_glue */ -#pragma pop - -#endif diff --git a/Internal/C/CodeFragmentsTrap.h.rdump b/Internal/C/CodeFragmentsTrap.h.rdump deleted file mode 100644 --- a/Internal/C/CodeFragmentsTrap.h.rdump +++ /dev/null @@ -1,25 +0,0 @@ -data 'MPSR' (1005) { - $"0009 4D6F 6E61 636F 0041 505F 5F0D 0D2F" /* ..Monaco.AP__../ */ - $"2F0D 2F2F 2053 7973 7465 6D20 5072 6F67" /* /.// System Prog */ - $"7261 0006 0004 0050 0020 026D 02FD 0050" /* ra.....P. .m...P */ - $"0020 026D 02FD A748 DFA8 0000 013B 0000" /* . .m...H.....;.. */ - $"013B 0000 0000 0100" /* .;...... */ -}; - -data 'MPSR' (1008) { - $"0050 0020 026D 02FD 0050 0020 026D 02FD" /* .P. .m...P. .m.. */ - $"0000 0000 0000 0000 0000 0000 0000" /* .............. */ -}; - -data 'ckid' (128, "Projector") { - $"0F92 E0B3 3FE5 3230 0004 0000 0000 0000" /* ....?.20........ */ - $"0000 A933 760A A933 760A A5B5 F4BB 0008" /* ...3v..3v....... */ - $"5062 0000 0034 0001 1A53 7570 6572 4D61" /* Pb...4...SuperMa */ - $"7269 6F50 726F 6ABA 496E 7465 726E 616C" /* rioProj.Internal */ - $"BA43 BA00 0E43 6872 6973 2050 6574 6572" /* .C...Chris Peter */ - $"7365 6E00 0131 0013 436F 6465 4672 6167" /* sen..1..CodeFrag */ - $"6D65 6E74 7354 7261 702E 6800 1455 7064" /* mentsTrap.h..Upd */ - $"6174 6520 6672 6F6D 2052 6561 6C69 7479" /* ate from Reality */ - $"2E00 0000 00" /* ..... */ -}; - diff --git a/Internal/C/DialogsPriv.h b/Internal/C/DialogsPriv.h --- a/Internal/C/DialogsPriv.h +++ b/Internal/C/DialogsPriv.h @@ -67,9 +67,9 @@ pascal OSErr Cite4(StringHandle baseString,ConstStr255Param p0,ConstStr255Param = { 0x303C, 0x0AFB, 0xAA68 }; pascal OSErr CitationsSH(StringHandle baseString,short numCitations,CiteListPtr citations) - = { 0x303C, 0x07FC, 0xAA68 }; + = { 0x303C, 0x05FC, 0xAA68 }; pascal OSErr CitationsCH(CharsHandle baseString,long offset,short numCitations,CiteListPtr citations) - = { 0x303C, 0x05FD, 0xAA68 }; + = { 0x303C, 0x07FD, 0xAA68 }; #endif /* __DIALOGSPRIV__ */ diff --git a/Internal/C/ExpandMemPriv.h b/Internal/C/ExpandMemPriv.h --- a/Internal/C/ExpandMemPriv.h +++ b/Internal/C/ExpandMemPriv.h @@ -174,15 +174,11 @@ #include #endif -#ifndef __SYSEQU__ -#include -#endif - #ifndef __QUICKDRAW__ #include #endif -#define GetExpandMem() (*((ExpandMemPtr *)ExpandMem)) +#define GetExpandMem() (*((ExpandMemPtr *)0x2B6)) #define emCurVersion 0x0133 // version <62> #define emItlCacheSize 16 // bytes in cache. WARNING, you cann’t change this // without distroying all fixed offsets from diff --git a/Internal/C/GestaltPrivateEqu.h b/Internal/C/GestaltPrivateEqu.h --- a/Internal/C/GestaltPrivateEqu.h +++ b/Internal/C/GestaltPrivateEqu.h @@ -126,10 +126,7 @@ typedef struct GestaltGlobals *GestaltGlobalsPtr; // Private Gestalt selectors -#define gestaltLongHandle 'tabl' /* returns handle to proc table */ -#define gestaltATalkVersion 'atkv' /* Returns 4-byte AppleTalk version even if AppleTalk is off. */ #define gestaltAtlkIntLevel 'aint' /* Returns desired AppleTalk interrupt mask level in a long */ -#define gestaltGraphicsVersion 'grfx' /* Skia’s Gestalt selector */ //---------------------------------------------------------------------------------- // gestaltBugFixAttrs diff --git a/Internal/C/IconUtilsPriv.h b/Internal/C/IconUtilsPriv.h --- a/Internal/C/IconUtilsPriv.h +++ b/Internal/C/IconUtilsPriv.h @@ -103,6 +103,7 @@ typedef struct unsigned short type; unsigned short label; Handle table[IconSpace]; + char padding[36]; /* struct enlarged, says notification manager */ } IconSuite; typedef IconSuite *IconSuitePtr; diff --git a/Internal/C/Layers.h b/Internal/C/Layers.h --- a/Internal/C/Layers.h +++ b/Internal/C/Layers.h @@ -49,6 +49,10 @@ #include #endif +#ifndef __CONTROLS__ +#include +#endif + enum { applicationFloatKind = 6, /* floating window created by applications */ systemFloatKind = 7 /* floating window belongs to text services */ @@ -84,7 +88,7 @@ struct LayerRecord { GrafPort port; short windowKind; Boolean visible; - Boolean reserved1; + Boolean cleanFlag; Boolean neverActive; Boolean reserved2; RgnHandle strucRgn; diff --git a/Internal/C/MFPrivate.h b/Internal/C/MFPrivate.h --- a/Internal/C/MFPrivate.h +++ b/Internal/C/MFPrivate.h @@ -83,12 +83,6 @@ #include #endif -/************************************************************************* - * Other junk - *************************************************************************/ - -#define gestaltGraphicsVersion 'grfx' - /************************************************************************* * Application Menu. *************************************************************************/ diff --git a/Internal/C/NameRegistryPriv.h b/Internal/C/NameRegistryPriv.h new file mode 100644 --- /dev/null +++ b/Internal/C/NameRegistryPriv.h @@ -0,0 +1,54 @@ +#ifndef __NAMEREGISTRYPRIV__ +#define __NAMEREGISTRYPRIV__ + +#ifndef __MACTYPES__ +#include +#endif + +#ifndef __NAMEREGISTRY__ +#include +#endif + + +/* Private trap selectors gleaned from NameRegistryTraps PEF */ + +EXTERN_API_C( OSStatus ) +RegistryPropertyGetPtr( + const RegEntryID * entryID, + const RegPropertyName * propertyName, + Ptr * propertyPtr, + RegPropertyValueSize * propertySize) TWOWORDINLINE(0x70FA, 0xABE9); + +/* ??? */ +EXTERN_API_C( OSStatus ) +RegistryEntryToOFPathSize( + void) TWOWORDINLINE(0x70FB, 0xABE9); + +/* ??? */ +EXTERN_API_C( OSStatus ) +RegistryCStrEntryToOFPath( + void) TWOWORDINLINE(0x70FC, 0xABE9); + +/* Rough guess */ +EXTERN_API_C( OSStatus ) +RegistryDeviceSearch( + RegEntryIter * cookie, + RegEntryIterationOp relationship, + RegEntryID * foundEntry, + Boolean * done, + const RegPropertyName * propertyName, + const void * propertyValue, + RegPropertyValueSize propertySize) TWOWORDINLINE(0x70FD, 0xABE9); + +EXTERN_API_C( OSStatus ) +RegistryDeviceNodeIDToEntryID( + long nodeID, + RegEntryID * entryID) TWOWORDINLINE(0x70FE, 0xABE9); + +EXTERN_API_C( OSStatus ) +RegistryEntryIDToDeviceNodeID( + RegEntryID * entryID, + long * nodeID) TWOWORDINLINE(0x70FF, 0xABE9); + + +#endif \ No newline at end of file diff --git a/Internal/C/CodeFragments.h.idump b/Internal/C/NameRegistryPriv.h.idump similarity index 100% rename from Internal/C/CodeFragments.h.idump rename to Internal/C/NameRegistryPriv.h.idump diff --git a/Internal/C/ScriptPriv.h b/Internal/C/ScriptPriv.h --- a/Internal/C/ScriptPriv.h +++ b/Internal/C/ScriptPriv.h @@ -463,9 +463,6 @@ pascal OSErr SetKbdMenuInfo(MenuHandle, short menuItem, AuxMenuItemRecPtr) /*<5 pascal OSErr RebuildKeybdMenu(void) /*<6>*/ = {0x2F3C,0x8200,0xFFD2,0xA8B5}; -pascal Boolean IsCmdChar(const EventRecord *, short test) /*<7>*/ - = {0x2F3C,0x8206,0xFFD0,0xA8B5}; - pascal OSErr InitScriptApp(void) /*<9>*/ = {0x2F3C,0x8200,0xFFCE,0xA8B5}; diff --git a/Internal/C/StdIncludes.h b/Internal/C/StdIncludes.h --- a/Internal/C/StdIncludes.h +++ b/Internal/C/StdIncludes.h @@ -34,7 +34,7 @@ #include #include #include -#include +#include #include #include #include diff --git a/Internal/Pascal/DialogsPriv.p b/Internal/Pascal/DialogsPriv.p --- a/Internal/Pascal/DialogsPriv.p +++ b/Internal/Pascal/DialogsPriv.p @@ -94,11 +94,11 @@ TYPE FUNCTION CitationsSH(baseString: StringHandle; numCitations: INTEGER; citations: CiteListPtr): OSErr; - INLINE $303C, $07FC, $AA68; + INLINE $303C, $05FC, $AA68; FUNCTION CitationsCH(baseString: CharsHandle;offset: LONGINT; numCitations: INTEGER; citations: CiteListPtr): OSErr; - INLINE $303C, $05FD, $AA68; + INLINE $303C, $07FD, $AA68; {$IFC NOT UsingIncludes} diff --git a/Internal/Pascal/Layers.p b/Internal/Pascal/Layers.p --- a/Internal/Pascal/Layers.p +++ b/Internal/Pascal/Layers.p @@ -75,7 +75,7 @@ TYPE port: GrafPort; windowKind: INTEGER; visible: BOOLEAN; - reserved1: BOOLEAN; + cleanFlag: BOOLEAN; neverActive: BOOLEAN; reserved2: BOOLEAN; strucRgn: RgnHandle; diff --git a/Libs/InterfaceSrcs/DuplicateModules.rom b/Libs/InterfaceSrcs/DuplicateModules.rom --- a/Libs/InterfaceSrcs/DuplicateModules.rom +++ b/Libs/InterfaceSrcs/DuplicateModules.rom @@ -226,7 +226,6 @@ fsdelete p2cstr clock getpid -strlen fclose dec2str str2dec diff --git a/Libs/InterfaceSrcs/FoldersGlue.c b/Libs/InterfaceSrcs/FoldersGlue.c --- a/Libs/InterfaceSrcs/FoldersGlue.c +++ b/Libs/InterfaceSrcs/FoldersGlue.c @@ -24,8 +24,7 @@ #include -#include -#include +#include #include #include diff --git a/Libs/InterfaceSrcs/HFSGlue.c b/Libs/InterfaceSrcs/HFSGlue.c --- a/Libs/InterfaceSrcs/HFSGlue.c +++ b/Libs/InterfaceSrcs/HFSGlue.c @@ -37,7 +37,6 @@ #include #include #include -#include #include @@ -48,11 +47,11 @@ /* this is needed for Resource Manager glue */ -#define RESERR (* (OSErr *) ResErr) +#define RESERR (* (OSErr *) 0xA60) /* this is needed to check if the new Resource Manager traps exist */ -#define SYSVERSION (* (short *) SysVersion) +#define SYSVERSION (* (short *) 0x15A) /* File Manager routines */ diff --git a/Libs/InterfaceSrcs/Interface.Make b/Libs/InterfaceSrcs/Interface.Make --- a/Libs/InterfaceSrcs/Interface.Make +++ b/Libs/InterfaceSrcs/Interface.Make @@ -28,21 +28,21 @@ CTTermDir = {CTDir}TerminalMgr: InterfaceObjs = "{IfObjDir}"Copyright.a.o ∂ "{IfObjDir}"OSTraps.a.o ∂ - "{IfObjDir}"BitMapToRegion.a.o ∂ + "{IfObjDir}"Strings.a.o ∂ + "{IfObjDir}"PackTraps.a.o ∂ "{IfObjDir}"HFSGlue.c.o ∂ - "{IfObjDir}"FoldersGlue.c.o ∂ "{IfObjDir}"ToolTraps.a.o ∂ + "{IfObjDir}"nAppleTalk.a.o ∂ + "{IfObjDir}"ENet.a.o ∂ + "{IfObjDir}"piMAIN.a.o ∂ + "{IfObjDir}"BitMapToRegion.a.o ∂ + "{IfObjDir}"FoldersGlue.c.o ∂ "{IfObjDir}"EnvironsGlue.a.o ∂ "{IfObjDir}"GestaltGlue.a.o ∂ - "{IfObjDir}"PackTraps.a.o ∂ "{IfObjDir}"ListTraps.a.o ∂ "{IfObjDir}"PrintCalls.a.o ∂ "{IfObjDir}"Graf3DAsm.a.o ∂ "{IfObjDir}"SlotTraps.a.o ∂ - "{IfObjDir}"Strings.a.o ∂ - "{IfObjDir}"nAppleTalk.a.o ∂ - "{IfObjDir}"ENet.a.o ∂ - "{IfObjDir}"piMAIN.a.o ∂ "{IfObjDir}"controls.a.o ∂ "{IfObjDir}"desk.a.o ∂ "{IfObjDir}"devices.a.o ∂ diff --git a/Libs/InterfaceSrcs/OSTraps.a b/Libs/InterfaceSrcs/OSTraps.a --- a/Libs/InterfaceSrcs/OSTraps.a +++ b/Libs/InterfaceSrcs/OSTraps.a @@ -579,21 +579,25 @@ BlockMoveData PROC EXPORT ; OpenDriver FUNC EXPORT - MOVEQ #(ioQElSize/2)-1,D0 -@1 CLR.W -(SP) + MOVE.L (SP)+,D2 ;return address + MOVE.L (SP)+,A1 ;ptr to refNum return + MOVE.L (SP)+,D1 ;driver name + LINK.W A6,#0 ;we like A6 chains + + MOVEQ #(ioQElSize/4)-1,D0 +@1 CLR.L -(SP) DBRA D0,@1 - MOVE.L ioQElSize+8(sp),ioFileName(SP) ;set up name MOVE.L SP,A0 ;point to it + MOVE.L D1,ioFileName(A0) ;set up name _Open ;open the driver - MOVE.L ioQElSize+4(SP),a0 ;get place to put result - MOVE.W ioRefNum(SP),(a0) ;store result + MOVE.W ioRefNum(a0),(a1) ;store result - MOVE.L ioQElSize(SP),A0 ;get return address - LEA ioQElSize+12(SP),SP ;get rid of param. block and parameters + UNLK A6 MOVE.W D0,(SP) ;store error code - JMP (A0) ;return + MOVE.L D2,A1 ;use return addr to... + JMP (A1) ;return ; ; PROCEDURE CloseDriver(refNum: INTEGER):OsErr; @@ -807,7 +811,7 @@ DriveStatus FUNC EXPORT MOVE.L 8(A6),A1 ; ptr to where to put the status bytes LEA csParam(A0),A0 ;ptr from where to get status bytes MOVEQ #22,D0 ;number of bytes to move - _BlockMove + _BlockMoveData UNLK A6 MOVE.L (SP)+,A1 ; return address @@ -1360,15 +1364,16 @@ OpenDF FSClose FUNC EXPORT + MOVE.L (SP)+,A1 ; pop return address + MOVE (SP)+,D0 ; and argument before linking + LINK A6,#-ioQElSize ; make room on stack for cmd block MOVE.L SP,A0 ; address of cmd block - MOVE 8(A6),ioRefNum(A0) ; get the refnum param + MOVE D0,ioRefNum(A0) ; get the refnum param _Close - MOVE D0,10(A6) ; return the result code UNLK A6 - MOVE.L (SP)+,A0 ; return address - ADDQ.L #2,SP ; fix up stack - JMP (A0) + MOVE D0,(SP) ; return the result code + JMP (A1) ;FUNCTION FSRead(refNum: INTEGER; VAR count: LongInt; buffPtr: Ptr): OsErr; ;FUNCTION FSWrite(refNum: INTEGER; VAR count: LongInt; buffPtr: Ptr): OsErr; @@ -1423,7 +1428,7 @@ Control FUNC EXPORT LEA csParam(A0),A1 ; dest address of op specific params MOVE.L 8(A6),A0 ; src address of op specific params MOVEQ #22,D0 ; max number of bytes to be moved - _BlockMove ; copy the op specific params + _BlockMoveData ; copy the op specific params LEA -ioQElSize(A6),A0 ; put cmd block addr back into A0 @1 _CONTROL @@ -1449,7 +1454,7 @@ Status FUNC EXPORT ;analogous to MacControl but returns LEA csParam-ioQElSize(A6),A0 ;ptr to the status information MOVE.L 8(A6),A1 ; ptr to where to put this information MOVEQ #22,D0 ; max number of bytes to be moved - _BlockMove ; copy the op specific params + _BlockMoveData ; copy the op specific params UNLK A6 MOVE.L (SP)+,A1 ; return address @@ -1523,7 +1528,7 @@ GetFInfo FUNC EXPORT LEA ioFlUsrWds(A0),A0 ;where to copy from MOVE.L 8(A6),A1 ;where to copy to MOVEQ #16,D0 ; 16 bytes of information - _BlockMove + _BlockMoveData UNLK A6 MOVE.L (SP)+,A1 ; return address @@ -1723,7 +1728,7 @@ SetFInfo FUNC EXPORT LEA ioFlUsrWds(A0),A1 ;where to copy user words MOVE.L 8(A6),A0 ;where the user words are now MOVEQ #16,D0 ; 16 bytes of information - _BlockMove + _BlockMoveData MOVE.L SP,A0 ;restore A0 _SetFileInfo @@ -2311,7 +2316,7 @@ notIntrupt MOVEQ #12,D0 ;number of bytes to copy SUB D0,A1 LEA 4(SP),A0 ;ptr to the args - _BlockMove + _BlockMoveData BRA.S quit ;done queueing up, exit ; Index off of ioResult(A1) instead of A0, bug called in to @@ -2432,7 +2437,7 @@ more MOVE.L A0,A1 ;make a copy of it EXT.L D0 ;clear top half for block move MOVE.L A0,A1 ;A0 points to next queue entry SUB #12,A1 ;A1 points to first queue entry - _BlockMove ;shift the bytes up in the queue + _BlockMoveData ;shift the bytes up in the queue ADD #blkSize,D1 ;get back the new size BRA.S setSize @@ -2540,7 +2545,7 @@ getLoop BLT.S getEnd ;are we done? AND #$FFFE,D0 ;evenize it ADDQ #8,D0 ;also move refnum,type,versNum ADD D0,A2 ;move to next - _BlockMove + _BlockMoveData SUBQ #1,D1 BRA.S getLoop diff --git a/Libs/InterfaceSrcs/PackTraps.a b/Libs/InterfaceSrcs/PackTraps.a --- a/Libs/InterfaceSrcs/PackTraps.a +++ b/Libs/InterfaceSrcs/PackTraps.a @@ -458,13 +458,16 @@ IUStringOrder ; convert a string into a number using Jerome's routine ; StringToNum PROC EXPORT - IMPORT Exit8 + EXPORT Exit8 MOVE.L 8(SP),A0 PackCall #1,_Pack7 ;LDec2Bin MOVE.L 4(SP),A0 MOVE.L D0,(A0) - JMP Exit8 + +Exit8 MOVE.L (SP)+,A0 + ADDQ #8,SP + JMP (A0) ; @@ -473,15 +476,14 @@ StringToNum PROC EXPORT ; convert a number to a string using anonymous routine ; NumToString PROC EXPORT - EXPORT Exit8 - MOVE.L 4(SP),A0 - MOVE.L 8(SP),D0 + MOVE.L (SP)+,A1 + MOVE.L (SP)+,A0 + MOVE.L (SP)+,D0 + MOVE.L A1,-(SP) PackCall #0,_Pack7 ;LBin2Dec -Exit8 MOVE.L (SP)+,A0 - ADDQ #8,SP - JMP (A0) + RTS END diff --git a/Libs/InterfaceSrcs/Strings.a b/Libs/InterfaceSrcs/Strings.a --- a/Libs/InterfaceSrcs/Strings.a +++ b/Libs/InterfaceSrcs/Strings.a @@ -39,7 +39,7 @@ C2PStr proc EXPORT cmpi.l #255,d0 ble.s @2 - move.l #255,d0 + moveq #-1,d0 @2 move.b d0,(a0) ; Pascal string length @4 MOVE.L (SP)+,A1 ; return address @@ -69,7 +69,7 @@ C2PStrProc proc EXPORT cmpi.l #255,d0 ble.s @2 - move.l #255,d0 + moveq #-1,d0 @2 move.b d0,(a0) ; Pascal string length @4 MOVE.L (SP)+,A1 ; return address diff --git a/Libs/InterfaceSrcs/ToolTraps.a b/Libs/InterfaceSrcs/ToolTraps.a --- a/Libs/InterfaceSrcs/ToolTraps.a +++ b/Libs/InterfaceSrcs/ToolTraps.a @@ -340,7 +340,7 @@ gsLoop SUBQ.W #1,D1 ;decrement the index gsCopy MOVE.B (A0),D0 ;get the length of this string ADDQ #1,D0 ;add one for the length byte - _BlockMove ;copy it into the string + _BlockMoveData ;copy it into the string gsret UNLK A6 MOVE.L (SP)+,A0 ;return addr diff --git a/Libs/InterfaceSrcs/nAppleTalk.a b/Libs/InterfaceSrcs/nAppleTalk.a --- a/Libs/InterfaceSrcs/nAppleTalk.a +++ b/Libs/InterfaceSrcs/nAppleTalk.a @@ -414,7 +414,7 @@ MoveAstring ADDQ.L #1,D0 ;adj for str len byte MOVEA.L 32(SP),A1 ;setup dest addr ADD.L D0,32(SP) ;update dest addr - _BlockMove + _BlockMoveData RTS ENDPROC diff --git a/Make/FeatureList b/Make/FeatureList --- a/Make/FeatureList +++ b/Make/FeatureList @@ -194,7 +194,8 @@ Set AvailableFeatures "hasROMGibbly ∂ hasPenFraction ∂ hasFullKerning ∂ hasGlyphState ∂ - useROMFonts " + useROMFonts ∂ + hasBCScreen " # Hacky replacement for the lost "ParseFeatures" @@ -226,6 +227,7 @@ Set AvailableFeatures "hasROMGibbly ∂ End End + Set Defines "-d OLDROUTINENAMES=1 {Defines}" # Hack for new Universal Interfaces Echo {Defines} Exit diff --git a/Make/MainCode.Make b/Make/MainCode.Make --- a/Make/MainCode.Make +++ b/Make/MainCode.Make @@ -54,30 +54,23 @@ MainCodeLibs = ∂ "{MiscDir}GoNativeROMLib.o" ∂ "{LibDir}SlotMgr.lib" ∂ "{LibDir}SCSI.lib" ∂ - "{LibDir}SCSI4pt3.lib" ∂ "{LibDir}HFS.lib" ∂ - "{LibDir}PPC.lib" ∂ "{LibDir}ADBMgr.lib" ∂ - "{LibDir}TimeMgr.lib" ∂ "{LibDir}Toolbox.lib" ∂ - "{LibDir}CommToolboxPatch.Lib" ∂ "{LibDir}MemoryMgr.lib" ∂ "{LibDir}AliasMgr.lib" ∂ "{LibDir}ComponentMgr.lib" ∂ "{LibDir}DataAccessMgr.lib" ∂ - "{LibDir}EditionMgr.lib" ∂ "{LibDir}ExpansionBusMgr.lib" ∂ - "{LibDir}HelpMgr.lib" ∂ - "{LibDir}SoundMgr.lib" ∂ "{LibDir}Gestalt.lib" ∂ - "{LibDir}IconUtils.lib" ∂ "{LibDir}NotificationMgr.lib" ∂ - "{LibDir}PictUtilities.lib" ∂ "{LibDir}ToolboxEventMgr.lib" ∂ "{LibDir}ControlMgr.lib" ∂ "{LibDir}DisplayMgr.lib" ∂ "{LibDir}WindowMgr.lib" ∂ "{LibDir}MenuMgr.lib" ∂ + "{LibDir}ATAMgr.lib" ∂ + "{ObjDir}DeviceMgr.a.o" ∂ # ∂ # DispatchHelper and DialogMgr.lib need to be colocated ∂ # ∂ @@ -89,15 +82,10 @@ MainCodeLibs = ∂ "{LibDir}ResourceMgr.lib" ∂ "{LibDir}ScriptMgr.lib" ∂ "{LibDir}CQD.lib" ∂ - "{LibDir}TextServicesMgr.lib" ∂ "{LibDir}FontMgr.lib" ∂ "{LibDir}RomInterface.Lib" ∂ "{LibDir}RomStandardLib.lib" ∂ "{LibDir}StartTest.lib" ∂ - "{LibDir}VideoDriver.lib" ∂ - "{ObjDir}WallyWorld.a.o" ∂ - "{ObjDir}FPEmulation.a.o" ∂ - "{LibDir}Beep.lib" ∂ # ∂ # Keep DispTable at end ∂ # ∂ diff --git a/Make/RISC.make b/Make/RISC.make --- a/Make/RISC.make +++ b/Make/RISC.make @@ -167,33 +167,25 @@ CLibraries = {Sources}Libs:CLibraries: PLibraries = {Sources}Libs:PLibraries: -MAOpts = -d TRUE=1 -d FALSE=0 -d Alignment=8 -d CPU=20 -d ROMRelease=$D4C1 -wb -d SubRelease=3 -blksize 62 -MCOpts = -d TRUE=1 -d FALSE=0 -d Alignment=8 -d CPU=20 -d ROMRelease=$D4C1 -b3 -mbg full -mc68020 -blksize 62 -opt full -MPOpts = -mbg full -mc68020 +MAOpts = -d TRUE=1 -d FALSE=0 -d Alignment=8 -d CPU=20 -d ROMRelease=$45F6 -wb -d SubRelease=1 -blksize 62 +MCOpts = -d TRUE=1 -d FALSE=0 -d Alignment=8 -d CPU=20 -d ROMRelease=$45F6 -b3 -mbg off -mc68020 -blksize 62 -opt full +MPOpts = -mbg off -mc68020 -RomBase = $40800000 +RomBase = $FFC00000 Features = hasRISCV0ResMgrPatches ∂ hasDoubleByte ∂ - hasAMIC ∂ SupportNativeComponents ∂ Script_Char_Extra ∂ hasPenFraction ∂ hasFullKerning ∂ hasGlyphState ∂ - hasNewHeapMgr ∂ hasPDMMaceEnet ∂ - hasAppleTalkInROM ∂ hasMixedMode ∂ nonSerializedIO ∂ hasSCSIDiskModeFeature ∂ - hasSysSevenResources ∂ - hasDataAccessPACK ∂ - hasYMCA ∂ hasCPUIDRegister ∂ - hasHMC ∂ has2MegROMOrMore ∂ - hasVideoIn ∂ hasAsyncSCSI ∂ BadBlockSparingEnabled ∂ CubeE ∂ @@ -202,63 +194,36 @@ Features = hasRISCV0ResMgrPatches ∂ PwrMgrADB ∂ SystemSevenOrLater ∂ SystemSixOrLater ∂ - ViaADB ∂ forADBKeyboards ∂ forAppleTalk20 ∂ forLocalizability ∂ - has040MMU ∂ + forSTPnop ∂ hasADBKeyLayouts ∂ - hasASC ∂ hasAliasMgr ∂ - hasApple2Fonts ∂ hasAppleEventMgr ∂ hasBalloonHelp ∂ hasBattery ∂ hasCommToolbox ∂ hasCQD ∂ - hasDAFB ∂ - hasDJMEMC ∂ - hasDataAccessMgr ∂ hasDisplayMgr ∂ hasDisplayMgrWindows ∂ hasEDisk ∂ - hasEclipseVIA2 ∂ - hasEditionMgr ∂ hasEgret ∂ hasExtendedCharacterSet ∂ - hasFMC ∂ hasGDU ∂ - hasGlue ∂ - hasGrandCentral ∂ hasIdle ∂ - hasIopScc ∂ - hasIopSwim ∂ - hasJaws ∂ - hasMDU ∂ - hasMMU ∂ - hasMSC ∂ - hasMac2VIA2 ∂ - hasNetBoot ∂ - hasNiagra ∂ - hasOrwell ∂ - hasOss ∂ - hasPratt ∂ hasProtectedPRAM ∂ hasSCSI96 ∂ hasSWIM2 ∂ - hasSwim3 ∂ hasSlotMgr ∂ - hasSonora ∂ hasSplineFonts ∂ hasVDAC ∂ hasVIAClock ∂ hasVISA2 ∂ - hasVISADecoder ∂ hasWaimeaVIA2 ∂ isUniversal ∂ hasPwrControls ∂ hasPwrMgrClock ∂ - hasRBV ∂ hasSplineFonts ∂ hasVIAClock ∂ hasWaimeaVIA2 ∂ @@ -267,52 +232,36 @@ Features = hasRISCV0ResMgrPatches ∂ onHafMac ∂ onMac32 ∂ onNuMac ∂ + hasBCScreen ∂ + hasMMU ∂ ForROM -ResourceFiles = "{RsrcDir}ATBoot.RSRC" ∂ - "{MiscDir}AppleTalk.ROM.rsrc" ∂ - "{RsrcDir}AppleEventMgr.rsrc" ∂ +ResourceFiles = "{MiscDir}ATAMgr.rsrc" ∂ + "{MiscDir}BCScreen.rsrc" ∂ "{RsrcDir}CQD.rsrc" ∂ - "{RsrcDir}ColorPicker.rsrc" ∂ - "{RsrcDir}CommToolbox.rsrc" ∂ - "{RsrcDir}ControlMgr.rsrc" ∂ - "{RsrcDir}DataAccessMgr.rsrc" ∂ - "{RsrcDir}DictionaryMgr.rsrc" ∂ "{RsrcDir}DeclData" ∂ + "{MiscDir}DriverServices.rsrc" ∂ "{RsrcDir}EDisk.rsrc" ∂ - "{RsrcDir}EditionMgr.rsrc" ∂ + "{MiscDir}FireWire.rsrc" ∂ "{RsrcDir}Gibbly.rsrc" ∂ "{MiscDir}GoNativeResources" ∂ "{MiscDir}EmulatorAccelerations.rsrc" ∂ - "{RsrcDir}HelpMgr.rsrc" ∂ - "{RsrcDir}InSane.rsrc" ∂ - "{RsrcDir}I2CC.rsrc" ∂ - "{RsrcDir}I2CT.rsrc" ∂ - "{RsrcDir}ListMgr.rsrc" ∂ + "{MiscDir}LANDisk.rsrc" ∂ "{RsrcDir}MainCode.Rsrc" ∂ - "{RsrcDir}MenuMgr.rsrc" ∂ + "{MiscDir}MediaBay.rsrc" ∂ "{RsrcDir}MiscROMRsrcs.rsrc" ∂ - "{RsrcDir}NetBoot.rsrc" ∂ - "{RsrcDir}PDMENET.rsrc" ∂ - "{RsrcDir}PPC.rsrc" ∂ - "{RsrcDir}PictUtilities.rsrc" ∂ - "{RsrcDir}ROMApple2Fonts.rsrc" ∂ + "{MiscDir}MultiprocessingServices.rsrc" ∂ + "{MiscDir}NativeItt.rsrc" ∂ + "{MiscDir}NativeNub.rsrc" ∂ + "{MiscDir}PCCard.rsrc" ∂ + "{MiscDir}PowerMgr.rsrc" ∂ "{RsrcDir}ROMFonts.rsrc" ∂ "{RsrcDir}RomLayout.Rsrc" ∂ - "{RsrcDir}SCCIOP.rsrc" ∂ - "{RsrcDir}SWIMIOP.rsrc" ∂ "{RsrcDir}InSaneNFPU.rsrc" ∂ - "{RsrcDir}Sane.rsrc" ∂ - "{RsrcDir}Serial.rsrc" ∂ - "{RsrcDir}SerialDMA.rsrc" ∂ - "{RsrcDir}Sony.rsrc" ∂ - "{RsrcDir}SoundMgr.rsrc" ∂ - "{RsrcDir}StandardFile.rsrc" ∂ - "{RsrcDir}VDigC.rsrc" ∂ - "{RsrcDir}VDigT.rsrc" ∂ - "{MiscDir}VM.RSRC" ∂ - "{RsrcDir}WindowMgr.rsrc" ∂ + "{RsrcDir}SANE.rsrc" ∂ + "{MiscDir}SerialDMA.rsrc" ∂ + "{MiscDir}USB.rsrc" ∂ "{RsrcDir}kbd.rsrc" diff --git a/Make/VectorTable.a b/Make/VectorTable.a --- a/Make/VectorTable.a +++ b/Make/VectorTable.a @@ -221,6 +221,7 @@ ; $2080 - Time Manager ; $2084 - Window Mananger ; $2088 - Figment Memory Manager +; $208c - Expansion Bus Manager ;Global Vector Table Code Dispatch Source ;Identifier Macro Vector Vector Register File @@ -330,21 +331,21 @@ SETRESPONSEPARAMS vIndirect $2010, $0040, A7 ; {sources}OS:EgretMgr.a TICKHANDLER vIndirect $2010, $0044, A7 ; {sources}OS:EgretMgr.a PSEUDOCNTTABLE vDataTable ; {sources}OS:EgretMgr.a ADBCNTTABLE vDataTable ; {sources}OS:EgretMgr.a -EGRETINIT vIndirect $2010, $0048, A7 ; {sources}OS:EgretMgr.a +EGRETINIT vNoVector ; {sources}OS:EgretMgr.a SENDEGRETCMD vNoVector ; {sources}OS:EgretMgr.a -ECLIPSEPDMPATCH vIndirect $2010, $004c, A7 ; {sources}OS:EgretMgr.a -KEYSWITCHHANDLER vIndirect $2010, $0050, A7 ; {sources}OS:EgretMgr.a -ECLIPSEDFACPATCH vIndirect $2010, $0054, A7 ; {sources}OS:EgretMgr.a -DEBUGUTILRUNKBDPATCH vIndirect $2010, $0058, A7 ; {sources}OS:EgretMgr.a +ECLIPSEPDMPATCH vNoVector ; {sources}OS:EgretMgr.a +KEYSWITCHHANDLER vNoVector ; {sources}OS:EgretMgr.a +ECLIPSEDFACPATCH vNoVector ; {sources}OS:EgretMgr.a +DEBUGUTILRUNKBDPATCH vNoVector ; {sources}OS:EgretMgr.a CUDAEGRETCODE vDataTable ; {sources}OS:EgretMgr.a -EGRETDFACANDPDM vIndirect $2010, $005c, A7 ; {sources}OS:EgretMgr.a -CACHEINSTALL vIndirect $2010, $0060, A7 ; {sources}OS:HFS:Cache:DiskCache.a +EGRETDFACANDPDM vNoVector ; {sources}OS:EgretMgr.a +CACHEINSTALL vNoVector ; {sources}OS:HFS:Cache:DiskCache.a CHKFIRMWARE vIndirect $2010, $0064, A7 ; {sources}OS:EgretMgr.a -INSTALLFPSP vIndirect $2010, $0068, A7, has040MMU ; {sources}OS:FPUEmulation:FPEmulation.a -NEWGESTALTSELECTORS vIndirect $2010, $006c, A7 ; {sources}OS:Gestalt:GestaltExtensions.a +INSTALLFPSP vNoVector ; {sources}OS:FPUEmulation:FPEmulation.a +NEWGESTALTSELECTORS vNoVector ; {sources}OS:Gestalt:GestaltExtensions.a GESTALTTRAP vATrap A??? ; {sources}OS:Gestalt:GestaltFunction.a -newGestalt vIndirect $2010, $0070, A7 ; {sources}OS:Gestalt:GestaltLookup.c -findLong vIndirect $2010, $0074, A7 ; {sources}OS:Gestalt:GestaltLookup.c +newGestalt vNoVector ; {sources}OS:Gestalt:GestaltLookup.c +findLong vNoVector ; {sources}OS:Gestalt:GestaltLookup.c HWPRIV vATrap A??? ; {sources}OS:HwPriv.a SWAPICACHE vIndirect $2010, $0078, A7 ; {sources}OS:HwPriv.a FLUSHICACHE vIndirect $2010, $007c, A7 ; {sources}OS:HwPriv.a @@ -355,7 +356,7 @@ FLUSHEXTCACHE vIndirect $2010, $008c, A7 ; {sources}OS:HwPriv.a SWAPSERIALCLOCK vIndirect $2010, $0090, A7 ; {sources}OS:HwPriv.a FLUSHCRANGEFORBM vNoVector ; {sources}OS:HwPriv.a FLUSHCRANGE vIndirect $2010, $0094, A7 ; {sources}OS:HwPriv.a -WAITFORSCSIDEVS vIndirect $2010, $0098, A7 ; {sources}OS:HwPriv.a +WAITFORSCSIDEVS vNoVector ; {sources}OS:HwPriv.a MEMORYDISPATCH vNoVector ; {sources}OS:HwPriv.a HOLDMEMORYPROC vNoVector ; {sources}OS:HwPriv.a UNHOLDMEMORYPROC vNoVector ; {sources}OS:HwPriv.a @@ -372,13 +373,13 @@ MMUSETWRITEPROTECT vNoVector ; {sources}OS:HwPriv.a MMUSETCACHEINHIBIT vNoVector ; {sources}OS:HwPriv.a MMUSETCACHEMODE vNoVector ; {sources}OS:HwPriv.a MMUFLUSHATC vNoVector ; {sources}OS:HwPriv.a -; UNUSED vIndirect $2010, $009C ; +MAKESOMETHINGWRITETHROUGH vIndirect $2010, $009C, A7 ; {sources}OS:HwPriv.a IOPMGR vNoVector ; {sources}OS:IOPMgr.a -IOPINFOACCESS vIndirect $2010, $00a0, A7 ; {sources}OS:IOPMgr.a -IOPMSGREQUEST vIndirect $2010, $00a4, A7 ; {sources}OS:IOPMgr.a -IOPMOVEDATA vIndirect $2010, $00a8, A7 ; {sources}OS:IOPMgr.a +IOPINFOACCESS vNoVector ; {sources}OS:IOPMgr.a +IOPMSGREQUEST vNoVector ; {sources}OS:IOPMgr.a +IOPMOVEDATA vNoVector ; {sources}OS:IOPMgr.a IOPINTERRUPT vDirect ???? ; {sources}OS:IOPMgr.a -MOVEREQHANDLER vIndirect $2010, $00ac, A7 ; {sources}OS:IOPMgr.a +MOVEREQHANDLER vNoVector ; {sources}OS:IOPMgr.a INITIOPMGR vNoVector ; {sources}OS:IOPMgr.a SCCIOPBYPASS vNoVector ; {sources}OS:IOPMgr.a SCCIOPHWINIT vNoVector ; {sources}OS:IOPMgr.a @@ -422,7 +423,7 @@ PMGROP vATrap A??? ; {sources}OS:PowerMgr:PowerMgr.a IDLEMIND vNoVector ; {sources}OS:PowerMgr:PowerMgr.a GOTOSLEEP vATrap A??? ; {sources}OS:PowerMgr:PowerMgr.a WAKEUP vNoVector ; {sources}OS:PowerMgr:PowerMgr.a -SETSUPERVISORMODE vIndirect $2010, $00b8, A7, hasPwrControls ; {sources}OS:PowerMgr:PowerMgr.a +SETSUPERVISORMODE vNoVector ; {sources}OS:PowerMgr:PowerMgr.a DISPATCHER vNoVector ; {sources}OS:TrapDispatcher:Dispatch.a GETTRAPADDRESSTRAP vATrap A??? ; {sources}OS:TrapDispatcher:Dispatch.a SETTRAPADDRESSTRAP vATrap A??? ; {sources}OS:TrapDispatcher:Dispatch.a @@ -430,7 +431,7 @@ CACHEFLUSH vDirect ???? ; {sources}OS:TrapDispatcher:Dispatch.a VCACHEFLUSH vDirect ???? ; {sources}OS:TrapDispatcher:Dispatch.a INITDISPATCHER vNoVector ; {sources}OS:TrapDispatcher:Dispatch.a BADTRAP vIndirect $2010, $00bc, A7 ; {sources}OS:TrapDispatcher:Dispatch.a -TRAPADDRESSBITS vIndirect $2010, $00c0, A7 ; {sources}OS:TrapDispatcher:Dispatch.a +TRAPADDRESSBITS vNoVector ; {sources}OS:TrapDispatcher:Dispatch.a UNIVERSAL vNoVector ; {sources}OS:Universal.a JUMPINTOROM vNoVector ; {sources}OS:Universal.a INITVIAS vNoVector ; {sources}OS:Universal.a @@ -483,7 +484,7 @@ RELTIMETASK vNoVector ; {sources}OS:sysUtil.a ; UNUSED vATrap A??? ; {sources}Patches:MiscPatches.a INITAPP vIndirect $2010, $00c8, A7 ; {sources}Patches:MiscPatches.a CLEANUPAPP vATrap A??? ; {sources}Patches:MiscPatches.a -MISCPATCHESINSTALL vIndirect $2010, $00cc, A7 ; {sources}Patches:MiscPatches.a +MISCPATCHESINSTALL vNoVector ; {sources}Patches:MiscPatches.a PACK8 vATrap A??? ; {sources}Toolbox:AppleEventMgr:AEPackEntry.a @@ -509,9 +510,9 @@ GETNEWCONTROL vATrap A??? ; {sources}Toolbox:GetMgr:GetMgr.a GETMENU vATrap A??? ; {sources}Toolbox:GetMgr:GetMgr.a GETNEWMBAR vATrap A??? ; {sources}Toolbox:GetMgr:GetMgr.a GETMGREND vNoVector ; {sources}Toolbox:GetMgr:GetMgr.a -INSTALLPRIVTRAP vIndirect $2010, $00d8, A7, has040MMU ; {sources}Toolbox:InSANE:FPPrivTrap.a -PRIVTRAP881 vIndirect $2010, $00dc, A7, has040MMU ; {sources}Toolbox:InSANE:FPPrivTrap.a -PRIVTRAP040 vIndirect $2010, $00e0, A7, has040MMU ; {sources}Toolbox:InSANE:FPPrivTrap.a +INSTALLPRIVTRAP vNoVector ; {sources}Toolbox:InSANE:FPPrivTrap.a +PRIVTRAP881 vNoVector ; {sources}Toolbox:InSANE:FPPrivTrap.a +PRIVTRAP040 vNoVector ; {sources}Toolbox:InSANE:FPPrivTrap.a PACKDISPATCHER vIndirect $2010, $00e4, A7 ; {sources}Toolbox:PackageMgr.a INITPACK vATrap A??? ; {sources}Toolbox:PackageMgr.a INITALLPACKS vATrap A??? ; {sources}Toolbox:PackageMgr.a @@ -540,6 +541,19 @@ EMT1010 vDirect ???? ; {sources}Objects:ROM:Dispatch.a.o BASEOFROM vDataTable ; {sources}Objects:ROM:StartTop.a.o ; UNUSED vIndirect $2010, $00ec, A7 ; {sources} +MISCELLANEOUS_VEC00F0 vIndirect $2010, $00f0, A7 +MISCELLANEOUS_VEC00F4 vIndirect $2010, $00f4, A7 +MISCELLANEOUS_VEC00F8 vIndirect $2010, $00f8, A7 +MISCELLANEOUS_VEC00FC vIndirect $2010, $00fc, A7 +MISCELLANEOUS_VEC0100 vIndirect $2010, $0100, A7 +MISCELLANEOUS_VEC0104 vIndirect $2010, $0104, A7 +MISCELLANEOUS_VEC0108 vIndirect $2010, $0108, A7 +MISCELLANEOUS_VEC010C vIndirect $2010, $010c, A7 +MISCELLANEOUS_VEC0110 vIndirect $2010, $0110, A7 +MISCELLANEOUS_VEC0114 vIndirect $2010, $0114, A7 +MISCELLANEOUS_VEC0118 vIndirect $2010, $0118, A7 +MISCELLANEOUS_VEC011C vIndirect $2010, $011c, A7 + ;============================== End Misc. Vectors ;============================== Public Vectors @@ -552,13 +566,13 @@ PICKWDCB vIndirect $2014, $002C, A7 ; {sources}OS:HFS:TFSVol.a ### PC Exch ALIASMGRINSTALL vIndirect $2018, $0004, A7 ; {sources}Toolbox:AliasMgr:AliasMgr.a ALIAS vATrap A??? ; {sources}Toolbox:AliasMgr:AliasMgr.a -gestaltAliasMgr vIndirect $2018, $0008, A7 ; {sources}Toolbox:AliasMgr:AliasMgr.a +gestaltAliasMgr vNoVector ; {sources}Toolbox:AliasMgr:AliasMgr.a GETEXPORTEDFOLDERINFO vIndirect $2018, $000c, A7 ; {sources}Toolbox:AliasMgr:AliasMgr.a -GETVOLMOUNTINFOSIZE vIndirect $2018, $0010, A7 ; {sources}Toolbox:AliasMgr:AliasMgr.a -GETVOLMOUNTINFO vIndirect $2018, $0014, A7 ; {sources}Toolbox:AliasMgr:AliasMgr.a -VOLUMEMOUNT vIndirect $2018, $0018, A7 ; {sources}Toolbox:AliasMgr:AliasMgr.a +GETVOLMOUNTINFOSIZE vNoVector ; {sources}Toolbox:AliasMgr:AliasMgr.a +GETVOLMOUNTINFO vNoVector ; {sources}Toolbox:AliasMgr:AliasMgr.a +VOLUMEMOUNT vNoVector ; {sources}Toolbox:AliasMgr:AliasMgr.a InitFolderManager vIndirect $2018, $001c, A7 ; {sources}Toolbox:AliasMgr:FolderMgr.a -gestaltFolderMgr vIndirect $2018, $0020, A7 ; {sources}Toolbox:AliasMgr:FolderMgr.a +gestaltFolderMgr vNoVector ; {sources}Toolbox:AliasMgr:FolderMgr.a FindFolder vIndirect $2018, $0024, A7 ; {sources}Toolbox:AliasMgr:FolderMgr.a GetFolderName vIndirect $2018, $0028, A7 ; {sources}Toolbox:AliasMgr:FolderMgr.a FindFolderInternal vIndirect $2018, $002c, A7 ; {sources}Toolbox:AliasMgr:FolderMgr.a @@ -631,29 +645,6 @@ AL_mountVolume vIndirect $2018, $0134, A1 ; {sources}Toolbox:AliasMgr:alUti ;============================== End Alias Manager Vectors -;============================== Commtoolbox Vectors - -MyGetString vIndirect $201C, $0004, A1 ; {sources}Toolbox:CommToolbox:CommToolboxStartup:CRMBuiltInSerial.c -REGISTERBUILTINPORTS vIndirect $201C, $0008, A1 ; {sources}Toolbox:CommToolbox:CommToolboxStartup:CRMBuiltInSerial.c -COMMTOOLBOXDISPATCHER vATrap A??? ; {sources}Toolbox:CommToolbox:CommToolboxStartup:CommToolboxDispatcher.a -SETUPGLOBALS vIndirect $201C, $000c, A7 ; {sources}Toolbox:CommToolbox:CommToolboxStartup:CommToolboxPatches.a -SETUPGESTALT vIndirect $201C, $0010, A7 ; {sources}Toolbox:CommToolbox:CommToolboxStartup:CommToolboxPatches.a -GETCTBVERSION vIndirect $201C, $0014, A7 ; {sources}Toolbox:CommToolbox:CommToolboxStartup:CommToolboxPatches.a -GETCMATTR vIndirect $201C, $0018, A7 ; {sources}Toolbox:CommToolbox:CommToolboxStartup:CommToolboxPatches.a -GETFTATTR vIndirect $201C, $001c, A7 ; {sources}Toolbox:CommToolbox:CommToolboxStartup:CommToolboxPatches.a -GETTMATTR vIndirect $201C, $0020, A7 ; {sources}Toolbox:CommToolbox:CommToolboxStartup:CommToolboxPatches.a -GETCRMATTR vIndirect $201C, $0024, A7 ; {sources}Toolbox:CommToolbox:CommToolboxStartup:CommToolboxPatches.a -GETDITLATTR vIndirect $201C, $0028, A7 ; {sources}Toolbox:CommToolbox:CommToolboxStartup:CommToolboxPatches.a -GETPOPUPATTR vIndirect $201C, $002c, A7 ; {sources}Toolbox:CommToolbox:CommToolboxStartup:CommToolboxPatches.a -GETSTDNBPATTR vIndirect $201C, $0030, A7 ; {sources}Toolbox:CommToolbox:CommToolboxStartup:CommToolboxPatches.a -CLEANUPCOMMTOOLBOX vIndirect $201C, $0034, A1 ; {sources}Toolbox:CommToolbox:CommToolboxStartup:CommToolboxPatches.c -TRACKMANAGERS vIndirect $201C, $0038, A1 ; {sources}Toolbox:CommToolbox:CommToolboxStartup:CommToolboxPatches.c -FindApp vIndirect $201C, $003c, A1 ; {sources}Toolbox:CommToolbox:CommToolboxStartup:CommToolboxPatches.c -AddApp vIndirect $201C, $0040, A1 ; {sources}Toolbox:CommToolbox:CommToolboxStartup:CommToolboxPatches.c -RemoveApp vIndirect $201C, $0044, A1 ; {sources}Toolbox:CommToolbox:CommToolboxStartup:CommToolboxPatches.c - -;============================== End Commtoolbox Vectors - ;============================== Component Manager Vectors ;COMPONENTMGRINSTALL vIndirect $2020, $0004, A7 ; {sources}Toolbox:ComponentMgr:ComponentExtensions.a @@ -712,7 +703,7 @@ __OPENCOMPONENT vIndirect $2020, $00d4, A1 ; {sources}Toolbox:ComponentMgr: __CLOSECOMPONENT vIndirect $2020, $00d8, A1 ; {sources}Toolbox:ComponentMgr:ThingManager.c __OPENDEFAULTCOMPONENT vIndirect $2020, $00dc, A1 ; {sources}Toolbox:ComponentMgr:ThingManager.c __CALLCOMPONENT vIndirect $2020, $00e0, A1 ; {sources}Toolbox:ComponentMgr:ThingManager.c -REGISTERCOMPONENTROMRESOURCE vIndirect $2020, $00e4, A1 ; {sources}Toolbox:ComponentMgr:ThingManager.c +REGISTERCOMPONENTROMRESOURCE vNoVector ; {sources}Toolbox:ComponentMgr:ThingManager.c __REGISTERROMCOMPONENTS vIndirect $2020, $00e8, A1 ; {sources}Toolbox:ComponentMgr:ThingManager.c __MAINCOMPONENT vATrap A??? ; {sources}Toolbox:ComponentMgr:ThingManagerDisp.a COMPONENTBUMMER vIndirect $2020, $00ec, A7 ; {sources}Toolbox:ComponentMgr:ThingManagerDisp.a @@ -1431,234 +1422,11 @@ VBLKDEALLOC vDirect ???? ; {sources}OS:HFS:vsm.a BLKCHK vIndirect $2030, $0370, A7 ; {sources}OS:HFS:vsm.a UPDATEFREE vIndirect $2030, $0374, A7 ; {sources}OS:HFS:vsm.a VREADBM vDirect ???? ; {sources}OS:HFS:vsm.a +XGETVOLINFO vIndirect $2030, $0378, A7 ; {sources}OS:HFS:TFSVol.a +CHECKDTICON vIndirect $2030, $037c, A7 ; {sources}OS:HFS:Extensions:DTDBMgr.a ;============================== End HFS Vectors -;============================== Help Manager Vectors - -HELPMGRINSTALL vIndirect $2034, $0004, A7 ; {sources}Toolbox:HelpMgr:BalloonExtensions.a -PACK14ENTRY vATrap A??? ; {sources}Toolbox:HelpMgr:BalloonExtensions.a -PTCHHMUPDATEHELPMENU vIndirect $2034, $0008, A7 ; {sources}Toolbox:HelpMgr:BalloonExtensions.a -PTCHHMGETHELPGLOBAL vIndirect $2034, $000c, A7 ; {sources}Toolbox:HelpMgr:BalloonExtensions.a -PTCHHMGETBALLOONS vIndirect $2034, $0010, A7 ; {sources}Toolbox:HelpMgr:BalloonExtensions.a -PTCHHMSETHELPGLOBAL vIndirect $2034, $0014, A7 ; {sources}Toolbox:HelpMgr:BalloonExtensions.a -PTCHHMPASCALGETBALLOONS vIndirect $2034, $0018, A1 ; {sources}Toolbox:HelpMgr:Balloonptch28.p -PTCHHMGESTALTISTHEREHELP vIndirect $2034, $001c, A1 ; {sources}Toolbox:HelpMgr:Balloonptch28.p -PTCHHMBOOTINITHELPMANAGER vIndirect $2034, $0020, A1 ; {sources}Toolbox:HelpMgr:Balloonptch28.p -PTCHHMTOGGLEWHATIS vIndirect $2034, $0024, A1 ; {sources}Toolbox:HelpMgr:Balloonptch28.p -PTCHHMCALLTRACKERINCONTEXT vIndirect $2034, $0028, A1 ; {sources}Toolbox:HelpMgr:Balloonptch28.p -PTCHHMSHOWHELPABOUTDIALOG vIndirect $2034, $002c, A1 ; {sources}Toolbox:HelpMgr:Balloonptch28.p - -;============================== End Help Manager Vectors - -;============================== Icon Utils Vectors - -ICONDISPATCH vATrap A??? ; {sources}Toolbox:IconUtils:IconUtils.a -typeTable vDataTable ; {sources}Toolbox:IconUtils:IconUtils.a -GetGlobalPtr vIndirect $2038, $0004, A7 ; {sources}Toolbox:IconUtils:IconUtils.a -GetGlobalHandle vIndirect $2038, $0008, A7 ; {sources}Toolbox:IconUtils:IconUtils.a -FromResource vIndirect $2038, $000c, A7 ; {sources}Toolbox:IconUtils:IconUtils.a -__PLOTICONID vIndirect $2038, $0010, A7 ; {sources}Toolbox:IconUtils:IconUtils.a -__LOADICONCACHE vIndirect $2038, $0014, A7 ; {sources}Toolbox:IconUtils:IconUtils.a -__PLOTICONSUITE vIndirect $2038, $0018, A7 ; {sources}Toolbox:IconUtils:IconUtils.a -__ICONIDTORGN vIndirect $2038, $001c, A7 ; {sources}Toolbox:IconUtils:IconUtils.a -__ICONSUITETORGN vIndirect $2038, $0020, A7 ; {sources}Toolbox:IconUtils:IconUtils.a -__RECTINICONID vIndirect $2038, $0024, A7 ; {sources}Toolbox:IconUtils:IconUtils.a -__PTINICONID vIndirect $2038, $0028, A7 ; {sources}Toolbox:IconUtils:IconUtils.a -__RECTINICONSUITE vIndirect $2038, $002c, A7 ; {sources}Toolbox:IconUtils:IconUtils.a -__PTINICONSUITE vIndirect $2038, $0030, A7 ; {sources}Toolbox:IconUtils:IconUtils.a -FromMethod vIndirect $2038, $0034, A7 ; {sources}Toolbox:IconUtils:IconUtils.a -__PLOTICONMETHOD vIndirect $2038, $0038, A7 ; {sources}Toolbox:IconUtils:IconUtils.a -__ICONMETHODTORGN vIndirect $2038, $003c, A7 ; {sources}Toolbox:IconUtils:IconUtils.a -__RECTINICONMETHOD vIndirect $2038, $0040, A7 ; {sources}Toolbox:IconUtils:IconUtils.a -__PTINICONMETHOD vIndirect $2038, $0044, A7 ; {sources}Toolbox:IconUtils:IconUtils.a -__ADDICONTOSUITE vIndirect $2038, $0048, A7 ; {sources}Toolbox:IconUtils:IconUtils.a -__GETICONFROMSUITE vIndirect $2038, $004c, A7 ; {sources}Toolbox:IconUtils:IconUtils.a -ADJUSTRGN vIndirect $2038, $0050, A7 ; {sources}Toolbox:IconUtils:IconUtils.a -__GETICONCACHEDATA vIndirect $2038, $0054, A7 ; {sources}Toolbox:IconUtils:IconUtils.a -__SETICONCACHEDATA vIndirect $2038, $0058, A7 ; {sources}Toolbox:IconUtils:IconUtils.a -__GETICONCACHEPROC vIndirect $2038, $005c, A7 ; {sources}Toolbox:IconUtils:IconUtils.a -__SETICONCACHEPROC vIndirect $2038, $0060, A7 ; {sources}Toolbox:IconUtils:IconUtils.a -__GETICONDEVICE vIndirect $2038, $0064, A7 ; {sources}Toolbox:IconUtils:IconUtils.a -__SETICONDEVICE vIndirect $2038, $0068, A7 ; {sources}Toolbox:IconUtils:IconUtils.a -PERFORMALIGNMENT vIndirect $2038, $006c, A1 ; {sources}Toolbox:IconUtils:IconUtils.c -ADDBUFFERTORGN vIndirect $2038, $0070, A1 ; {sources}Toolbox:IconUtils:IconUtils.c -MASKRGN vIndirect $2038, $0074, A1 ; {sources}Toolbox:IconUtils:IconUtils.c -GETBESTDATA vIndirect $2038, $0078, A1 ; {sources}Toolbox:IconUtils:IconUtils.c -ChooseBestSize vIndirect $2038, $007c, A1 ; {sources}Toolbox:IconUtils:IconUtils.c -SETUPPIXMAP vIndirect $2038, $0080, A1 ; {sources}Toolbox:IconUtils:IconUtils.c -__NEWICONSUITE vIndirect $2038, $0084, A1 ; {sources}Toolbox:IconUtils:IconUtils.c -__MAKEICONCACHE vIndirect $2038, $0088, A1 ; {sources}Toolbox:IconUtils:IconUtils.c -EDITICONSUITE vIndirect $2038, $008c, A1 ; {sources}Toolbox:IconUtils:IconUtils.c -__FOREACHICONDO vIndirect $2038, $0090, A1 ; {sources}Toolbox:IconUtils:IconUtils.c -GETICONFROMRESOURCE vIndirect $2038, $0094, A1 ; {sources}Toolbox:IconUtils:IconUtils.c -__GETICONSUITE vIndirect $2038, $0098, A1 ; {sources}Toolbox:IconUtils:IconUtils.c -__SETSUITELABEL vIndirect $2038, $009c, A1 ; {sources}Toolbox:IconUtils:IconUtils.c -__GETSUITELABEL vIndirect $2038, $00a0, A1 ; {sources}Toolbox:IconUtils:IconUtils.c -DISPOSER vIndirect $2038, $00a4, A1 ; {sources}Toolbox:IconUtils:IconUtils.c -__DISPOSEICONSUITE vIndirect $2038, $00a8, A1 ; {sources}Toolbox:IconUtils:IconUtils.c -FromSuite vIndirect $2038, $00ac, A1 ; {sources}Toolbox:IconUtils:IconUtils.c -DOREGIONTRANSFORM vIndirect $2038, $00b0, A1 ; {sources}Toolbox:IconUtils:IconUtils.c -DoOutline vIndirect $2038, $00b4, A1 ; {sources}Toolbox:IconUtils:IconUtils.c -APPLYPATTERN vIndirect $2038, $00b8, A1 ; {sources}Toolbox:IconUtils:IconUtils.c -DOBITMAPTRANSFORM vIndirect $2038, $00bc, A1 ; {sources}Toolbox:IconUtils:IconUtils.c -RENDER vIndirect $2038, $00c0, A1 ; {sources}Toolbox:IconUtils:IconUtils.c -PLOTDEEP vIndirect $2038, $00c4, A1 ; {sources}Toolbox:IconUtils:IconUtils.c -PLOTSHALLOWBLACKANDWHITE vIndirect $2038, $00c8, A1 ; {sources}Toolbox:IconUtils:IconUtils.c -PLOTSHALLOWCOLOR vIndirect $2038, $00cc, A1 ; {sources}Toolbox:IconUtils:IconUtils.c -PLOTSHALLOW vIndirect $2038, $00d0, A1 ; {sources}Toolbox:IconUtils:IconUtils.c -PLOTTHEICON vIndirect $2038, $00d4, A1 ; {sources}Toolbox:IconUtils:IconUtils.c -MakeBoundary vIndirect $2038, $00d8, A1 ; {sources}Toolbox:IconUtils:IconUtils.c -CreateMask vIndirect $2038, $00dc, A1 ; {sources}Toolbox:IconUtils:IconUtils.c -SetupParamBlock vIndirect $2038, $00e0, A1 ; {sources}Toolbox:IconUtils:IconUtils.c -PRESCALEMASK vIndirect $2038, $00e4, A1 ; {sources}Toolbox:IconUtils:IconUtils.c -PLOTICONGENERIC vIndirect $2038, $00e8, A1 ; {sources}Toolbox:IconUtils:IconUtils.c -ICONTORGNGENERIC vIndirect $2038, $00ec, A1 ; {sources}Toolbox:IconUtils:IconUtils.c -HITTESTICONMASKGENERIC vIndirect $2038, $00f0, A1 ; {sources}Toolbox:IconUtils:IconUtils.c -HITTESTICONGENERIC vIndirect $2038, $00f4, A1 ; {sources}Toolbox:IconUtils:IconUtils.c -MAKEICONDATA vIndirect $2038, $00f8, A1 ; {sources}Toolbox:IconUtils:IconUtils.c -CompareComponent vIndirect $2038, $00fc, A1 ; {sources}Toolbox:IconUtils:IconUtils.c -Darken vIndirect $2038, $0100, A1 ; {sources}Toolbox:IconUtils:IconUtils.c -Luminance vIndirect $2038, $0104, A1 ; {sources}Toolbox:IconUtils:IconUtils.c -Brighten vIndirect $2038, $0108, A1 ; {sources}Toolbox:IconUtils:IconUtils.c -FindBlack vIndirect $2038, $010c, A1 ; {sources}Toolbox:IconUtils:IconUtils.c -MakeClut vIndirect $2038, $0110, A1 ; {sources}Toolbox:IconUtils:IconUtils.c -GetDeviceCheck vIndirect $2038, $0114, A1 ; {sources}Toolbox:IconUtils:IconUtils.c -CheckClut vIndirect $2038, $0118, A1 ; {sources}Toolbox:IconUtils:IconUtils.c -IconGetClut vIndirect $2038, $011c, A1 ; {sources}Toolbox:IconUtils:IconUtils.c -__GETLABEL vIndirect $2038, $0120, A1 ; {sources}Toolbox:IconUtils:IconUtils.c -INVALLABELCLUTS vIndirect $2038, $0124, A1 ; {sources}Toolbox:IconUtils:IconUtils.c -__SETLABEL vIndirect $2038, $0128, A1 ; {sources}Toolbox:IconUtils:IconUtils.c -FromICON vIndirect $2038, $012c, A1 ; {sources}Toolbox:IconUtils:IconUtils.c -FromSICN vIndirect $2038, $0130, A1 ; {sources}Toolbox:IconUtils:IconUtils.c -__PLOTICONHANDLE vIndirect $2038, $0134, A1 ; {sources}Toolbox:IconUtils:IconUtils.c -__PLOTSICNHANDLE vIndirect $2038, $0138, A1 ; {sources}Toolbox:IconUtils:IconUtils.c -SetupParamBlockForCIcon vIndirect $2038, $013c, A1 ; {sources}Toolbox:IconUtils:IconUtils.c -CopyClut vIndirect $2038, $0140, A1 ; {sources}Toolbox:IconUtils:IconUtils.c -GETCICONCLUT vIndirect $2038, $0144, A1 ; {sources}Toolbox:IconUtils:IconUtils.c -PLOTTHECICON vIndirect $2038, $0148, A1 ; {sources}Toolbox:IconUtils:IconUtils.c -__PLOTCICONHANDLE vIndirect $2038, $014c, A1 ; {sources}Toolbox:IconUtils:IconUtils.c - -;============================== End Icon Utils Vectors - -;============================== MMU Vectors - -GETREALPROC vNoVector ; {sources}OS:MMU:GetReal.a -GETPAGEDESCPROC vNoVector ; {sources}OS:MMU:GetReal.a -GETMMUINFO vNoVector ; {sources}OS:MMU:GetReal.a -CHECKTTREGS vNoVector ; {sources}OS:MMU:GetReal.a -EDISKPROTECT vNoVector ; {sources}OS:MMU:GetReal.a -INITMMUTRAP vNoVector ; {sources}OS:MMU:MMU.a -INITMMUGLOBALS vNoVector ; {sources}OS:MMU:MMU.a -MMUCLEANUPFOR8MB vNoVector ; {sources}OS:MMU:MMU.a -INITMMU vNoVector ; {sources}OS:MMU:MMUTables.a -TRANS vNoVector ; {sources}OS:MMU:MMUTables.a - -;============================== End MMU Vectors - -;============================== Memory Manager Vectors - -__BLOCKMOVE vATrap A??? ; {sources}OS:MemoryMgr:BlockMove.a -BLOCKMOVE68020 vNoVector ; {sources}OS:MemoryMgr:BlockMove.a -BLOCKMOVE68040 vNoVector ; {sources}OS:MemoryMgr:BlockMove.a -HEAP vNoVector ; {sources}OS:MemoryMgr:MemoryMgr.a -INITMEMVECT vNoVector ; {sources}OS:MemoryMgr:MemoryMgr.a -SETAPPLBASE vATrap A??? ; {sources}OS:MemoryMgr:MemoryMgr.a -INITAPPLZONE vATrap A??? ; {sources}OS:MemoryMgr:MemoryMgr.a -VIAZINIT vATrap A??? ; {sources}OS:MemoryMgr:MemoryMgr.a -VIAZPOSTINIT vATrap A??? ; {sources}OS:MemoryMgr:MemoryMgr.a -INITZONETRAP vATrap A??? ; {sources}OS:MemoryMgr:MemoryMgr.a -GETZONE vATrap A??? ; {sources}OS:MemoryMgr:MemoryMgr.a -SETZONE vATrap A??? ; {sources}OS:MemoryMgr:MemoryMgr.a -MAXBLOCKTRAP vATrap A??? ; {sources}OS:MemoryMgr:MemoryMgr.a -COMPACTMEMTRAP vATrap A??? ; {sources}OS:MemoryMgr:MemoryMgr.a -PURGEMEM vATrap A??? ; {sources}OS:MemoryMgr:MemoryMgr.a -PURGESPACETRAP vATrap A??? ; {sources}OS:MemoryMgr:MemoryMgr.a -FREEMEM vATrap A??? ; {sources}OS:MemoryMgr:MemoryMgr.a -RESRVMEM vATrap A??? ; {sources}OS:MemoryMgr:MemoryMgr.a -MAXMEMTRAP vATrap A??? ; {sources}OS:MemoryMgr:MemoryMgr.a -SETGROWZONE vATrap A??? ; {sources}OS:MemoryMgr:MemoryMgr.a -SETAPPLLIMIT vATrap A??? ; {sources}OS:MemoryMgr:MemoryMgr.a -STACKSPACETRAP vATrap A??? ; {sources}OS:MemoryMgr:MemoryMgr.a -MAXAPPLZONE vATrap A??? ; {sources}OS:MemoryMgr:MemoryMgr.a -NEWPTRTRAP vATrap A??? ; {sources}OS:MemoryMgr:MemoryMgr.a -DISPOSEPTR vATrap A??? ; {sources}OS:MemoryMgr:MemoryMgr.a -GETPTRSIZETRAP vATrap A??? ; {sources}OS:MemoryMgr:MemoryMgr.a -SETPTRSIZETRAP vATrap A??? ; {sources}OS:MemoryMgr:MemoryMgr.a -PTRZONETRAP vATrap A??? ; {sources}OS:MemoryMgr:MemoryMgr.a -NEWEMPTYHANDLETRAP vATrap A??? ; {sources}OS:MemoryMgr:MemoryMgr.a -NWHANDLE vATrap A??? ; {sources}OS:MemoryMgr:MemoryMgr.a -DSPOSEHANDLE vATrap A??? ; {sources}OS:MemoryMgr:MemoryMgr.a -__GETHANDLESIZE vATrap A??? ; {sources}OS:MemoryMgr:MemoryMgr.a -SETHANDLESIZETRAP vATrap A??? ; {sources}OS:MemoryMgr:MemoryMgr.a -HANDLEZONETRAP vATrap A??? ; {sources}OS:MemoryMgr:MemoryMgr.a -RECOVERHANDLETRAP vATrap A??? ; {sources}OS:MemoryMgr:MemoryMgr.a -EMPTYHANDLE vATrap A??? ; {sources}OS:MemoryMgr:MemoryMgr.a -REALLOCHANDLETRAP vATrap A??? ; {sources}OS:MemoryMgr:MemoryMgr.a -HLOCK vATrap A??? ; {sources}OS:MemoryMgr:MemoryMgr.a -HUNLOCK vATrap A??? ; {sources}OS:MemoryMgr:MemoryMgr.a -HPURGE vATrap A??? ; {sources}OS:MemoryMgr:MemoryMgr.a -HNOPURGE vATrap A??? ; {sources}OS:MemoryMgr:MemoryMgr.a -HRSRC vATrap A??? ; {sources}OS:MemoryMgr:MemoryMgr.a -HNORSRC vATrap A??? ; {sources}OS:MemoryMgr:MemoryMgr.a -HGETFLAGS vATrap A??? ; {sources}OS:MemoryMgr:MemoryMgr.a -HSETFLAGS vATrap A??? ; {sources}OS:MemoryMgr:MemoryMgr.a -MOREMASTERS vATrap A??? ; {sources}OS:MemoryMgr:MemoryMgr.a -__STRIPADDRESS vATrap A??? ; {sources}OS:MemoryMgr:MemoryMgr.a -MOVEHHI vATrap A??? ; {sources}OS:MemoryMgr:MemoryMgr.a -MOVEHLOW vATrap A??? ; {sources}OS:MemoryMgr:MemoryMgrExtensions.a -HEAPGUTS vNoVector ; {sources}OS:MemoryMgr:MemoryMgrInternal.a -MMPPROLOGUE vDirect ???? ; {sources}OS:MemoryMgr:MemoryMgrInternal.a -MMHPROLOGUE vDirect ???? ; {sources}OS:MemoryMgr:MemoryMgrInternal.a -MMNOPROLOGUE vDirect ???? ; {sources}OS:MemoryMgr:MemoryMgrInternal.a -MMMMPROLOGUE vDirect ???? ; {sources}OS:MemoryMgr:MemoryMgrInternal.a -MMPROLOGUE vDirect ???? ; {sources}OS:MemoryMgr:MemoryMgrInternal.a -MMRHPROLOGUE vDirect ???? ; {sources}OS:MemoryMgr:MemoryMgrInternal.a -MMEPILOGUE vDirect ???? ; {sources}OS:MemoryMgr:MemoryMgrInternal.a -MMNOERREPILOGUE vDirect ???? ; {sources}OS:MemoryMgr:MemoryMgrInternal.a -A24MAKEBKF vIndirect $2040, $0004, A7 ; {sources}OS:MemoryMgr:MemoryMgrInternal.a -A32MAKEBKF vIndirect $2040, $0008, A7 ; {sources}OS:MemoryMgr:MemoryMgrInternal.a -A24EH vIndirect $2040, $000c, A7 ; {sources}OS:MemoryMgr:MemoryMgrInternal.a -A32EH vIndirect $2040, $0010, A7 ; {sources}OS:MemoryMgr:MemoryMgrInternal.a -A24PURGEHEAP vIndirect $2040, $0014, A7 ; {sources}OS:MemoryMgr:MemoryMgrInternal.a -A32PURGEHEAP vIndirect $2040, $0018, A7 ; {sources}OS:MemoryMgr:MemoryMgrInternal.a -A24TOTEPURGEABLES vIndirect $2040, $001c, A7 ; {sources}OS:MemoryMgr:MemoryMgrInternal.a -A32TOTEPURGEABLES vIndirect $2040, $0020, A7 ; {sources}OS:MemoryMgr:MemoryMgrInternal.a -A24BKCOMPACTS vIndirect $2040, $0024, A7 ; {sources}OS:MemoryMgr:MemoryMgrInternal.a -A32BKCOMPACTS vIndirect $2040, $0028, A7 ; {sources}OS:MemoryMgr:MemoryMgrInternal.a -A24ALLOCBK vIndirect $2040, $002c, A7 ; {sources}OS:MemoryMgr:MemoryMgrInternal.a -A32ALLOCBK vIndirect $2040, $0030, A7 ; {sources}OS:MemoryMgr:MemoryMgrInternal.a -A24COMPACTHP vIndirect $2040, $0034, A7 ; {sources}OS:MemoryMgr:MemoryMgrInternal.a -A32COMPACTHP vIndirect $2040, $0038, A7 ; {sources}OS:MemoryMgr:MemoryMgrInternal.a -TOMAXLIMIT vIndirect $2040, $003c, A7 ; {sources}OS:MemoryMgr:MemoryMgrInternal.a -A24MAXLIMIT vIndirect $2040, $0040, A7 ; {sources}OS:MemoryMgr:MemoryMgrInternal.a -A32MAXLIMIT vIndirect $2040, $0044, A7 ; {sources}OS:MemoryMgr:MemoryMgrInternal.a -A24ZONEADJUSTEND vIndirect $2040, $0048, A7 ; {sources}OS:MemoryMgr:MemoryMgrInternal.a -A32ZONEADJUSTEND vIndirect $2040, $004c, A7 ; {sources}OS:MemoryMgr:MemoryMgrInternal.a -A24ACTUALS vIndirect $2040, $0050, A7 ; {sources}OS:MemoryMgr:MemoryMgrInternal.a -A32ACTUALS vIndirect $2040, $0054, A7 ; {sources}OS:MemoryMgr:MemoryMgrInternal.a -A24GETSIZE vNoVector ; {sources}OS:MemoryMgr:MemoryMgrInternal.a -A32GETSIZE vNoVector ; {sources}OS:MemoryMgr:MemoryMgrInternal.a -CLEARGZSTUFF vIndirect $2040, $0058, A7 ; {sources}OS:MemoryMgr:MemoryMgrInternal.a -A24SETSIZE vNoVector ; {sources}OS:MemoryMgr:MemoryMgrInternal.a -A32SETSIZE vNoVector ; {sources}OS:MemoryMgr:MemoryMgrInternal.a -ADJUSTFREE vIndirect $2040, $005c, A7 ; {sources}OS:MemoryMgr:MemoryMgrInternal.a -A24NEXTMASTER vIndirect $2040, $0060, A7 ; {sources}OS:MemoryMgr:MemoryMgrInternal.a -A32NEXTMASTER vIndirect $2040, $0064, A7 ; {sources}OS:MemoryMgr:MemoryMgrInternal.a -A24HMAKEMOREMASTERS vIndirect $2040, $0068, A7 ; {sources}OS:MemoryMgr:MemoryMgrInternal.a -A32HMAKEMOREMASTERS vIndirect $2040, $006c, A7 ; {sources}OS:MemoryMgr:MemoryMgrInternal.a -RELEASEMP vIndirect $2040, $0070, A7 ; {sources}OS:MemoryMgr:MemoryMgrInternal.a -A24MAKEPTRSPC vIndirect $2040, $0074, A7 ; {sources}OS:MemoryMgr:MemoryMgrInternal.a -A32MAKEPTRSPC vIndirect $2040, $0078, A7 ; {sources}OS:MemoryMgr:MemoryMgrInternal.a -A24FREEBK vIndirect $2040, $007c, A7 ; {sources}OS:MemoryMgr:MemoryMgrInternal.a -A32FREEBK vIndirect $2040, $0080, A7 ; {sources}OS:MemoryMgr:MemoryMgrInternal.a -STDGZ vIndirect $2040, $0084, A7 ; {sources}OS:MemoryMgr:MemoryMgrInternal.a -MEMMGREND vNoVector ; {sources}OS:MemoryMgr:MemoryMgrInternal.a -INITMEMMGR vNoVector ; {sources}OS:MemoryMgr:MemoryMgrInternal.a -IAZ vIndirect $2040, $0088, A7 ; {sources}OS:MemoryMgr:MemoryMgrInternal.a - -;============================== End Memory Manager Vectors - ;============================== Menu Manager Vectors MENUMGRDISPATCH vATrap A??? ; {sources}Toolbox:MenuMgr:MenuDispatch.a @@ -1744,41 +1512,6 @@ FIND6BOFROMID vIndirect $2044, $007c, A7 ; {sources}Toolbox:MenuMgr:SystemM ;============================== End Menu Manager Vectors -;============================== Munger Vectors - -BYTES vIndirect $2048, $0004, A7 ; {sources}Toolbox:Munger:Munger.a -MUNGER vATrap A??? ; {sources}Toolbox:Munger:Munger.a -XMUNGER vATrap A??? ; {sources}Toolbox:Munger:Munger.a -HANDTOHANDTRAP vATrap A??? ; {sources}Toolbox:Munger:Munger.a -PTRTOXHANDTRAP vATrap A??? ; {sources}Toolbox:Munger:Munger.a -PTRTOHANDTRAP vATrap A??? ; {sources}Toolbox:Munger:Munger.a -HANDANDHANDTRAP vATrap A??? ; {sources}Toolbox:Munger:Munger.a -PTRANDHANDTRAP vATrap A??? ; {sources}Toolbox:Munger:Munger.a -METHODDISPATCH vATrap A??? ; {sources}Toolbox:Munger:Munger.a -LONGMUL vATrap A??? ; {sources}Toolbox:Munger:Munger.a -FRACMUL vATrap A??? ; {sources}Toolbox:Munger:Munger.a -FIXMUL vATrap A??? ; {sources}Toolbox:Munger:Munger.a -FRACDIV vATrap A??? ; {sources}Toolbox:Munger:Munger.a -FIXDIV vATrap A??? ; {sources}Toolbox:Munger:Munger.a -FRACSQRT vATrap A??? ; {sources}Toolbox:Munger:Munger.a -FIXRATIO vATrap A??? ; {sources}Toolbox:Munger:Munger.a -LOWORD vATrap A??? ; {sources}Toolbox:Munger:Munger.a -HIWORD vATrap A??? ; {sources}Toolbox:Munger:Munger.a -FIXROUND vATrap A??? ; {sources}Toolbox:Munger:Munger.a -FRACCOS vATrap A??? ; {sources}Toolbox:Munger:Munger.a -FRACSIN vATrap A??? ; {sources}Toolbox:Munger:Munger.a -FIXATAN2 vATrap A??? ; {sources}Toolbox:Munger:Munger.a -FIX2X vATrap A??? ; {sources}Toolbox:Munger:Munger.a -FRAC2X vATrap A??? ; {sources}Toolbox:Munger:Munger.a -X2FIX vATrap A??? ; {sources}Toolbox:Munger:Munger.a -X2FRAC vATrap A??? ; {sources}Toolbox:Munger:Munger.a -FIX2LONG vATrap A??? ; {sources}Toolbox:Munger:Munger.a -FRAC2FIX vATrap A??? ; {sources}Toolbox:Munger:Munger.a -LONG2FIX vATrap A??? ; {sources}Toolbox:Munger:Munger.a -FIX2FRAC vATrap A??? ; {sources}Toolbox:Munger:Munger.a - -;============================== End Munger Vectors - ;============================== Notification Manager Vectors __NMINSTALL vATrap A??? ; {sources}Toolbox:NotificationMgr:NotificationMgr.a @@ -1799,10 +1532,10 @@ ValidIconRec vIndirect $204C, $0034, A1 ; {sources}Toolbox:NotificationMgr: NMINIT vIndirect $204C, $0038, A1 ; {sources}Toolbox:NotificationMgr:NotificationMgr.c _NMInstall vIndirect $204C, $003c, A1 ; {sources}Toolbox:NotificationMgr:NotificationMgr.c _NMRemove vIndirect $204C, $0040, A1 ; {sources}Toolbox:NotificationMgr:NotificationMgr.c -COPYSTRING vIndirect $204C, $0044, A1 ; {sources}Toolbox:NotificationMgr:NotificationMgr.c +COPYSTRING vNoVector ; {sources}Toolbox:NotificationMgr:NotificationMgr.c FLUSHAPPLNM vIndirect $204C, $0048, A1 ; {sources}Toolbox:NotificationMgr:NotificationMgr.c NMFILTER vIndirect $204C, $004c, A1 ; {sources}Toolbox:NotificationMgr:NotificationMgr.c -DEFBUTPROC vIndirect $204C, $0050, A1 ; {sources}Toolbox:NotificationMgr:NotificationMgr.c +DEFBUTPROC vNoVector ; {sources}Toolbox:NotificationMgr:NotificationMgr.c NMCallMBarProc vIndirect $204C, $0054, A1 ; {sources}Toolbox:NotificationMgr:NotificationMgr.c SWAPITEMMARKS vIndirect $204C, $0058, A1 ; {sources}Toolbox:NotificationMgr:NotificationMgr.c ClearMarks vIndirect $204C, $005c, A1 ; {sources}Toolbox:NotificationMgr:NotificationMgr.c @@ -1812,223 +1545,13 @@ RotateIcon vIndirect $204C, $0068, A1 ; {sources}Toolbox:NotificationMgr:N DoSound vIndirect $204C, $006c, A1 ; {sources}Toolbox:NotificationMgr:NotificationMgr.c DoDialog vIndirect $204C, $0070, A1 ; {sources}Toolbox:NotificationMgr:NotificationMgr.c DoRespProc vIndirect $204C, $0074, A1 ; {sources}Toolbox:NotificationMgr:NotificationMgr.c -NMGNEFILTER vIndirect $204C, $0078, A1 ; {sources}Toolbox:NotificationMgr:NotificationMgr.c +NMGNEFILTER vNoVector ; {sources}Toolbox:NotificationMgr:NotificationMgr.c NMTASK vIndirect $204C, $007c, A1 ; {sources}Toolbox:NotificationMgr:NotificationMgr.c disable vIndirect $204C, $0080, A7 ; {sources}Toolbox:NotificationMgr:SetProcessorLevel.a spl vIndirect $204C, $0084, A7 ; {sources}Toolbox:NotificationMgr:SetProcessorLevel.a ;============================== End Notification Manager Vectors -;============================== PPC Vectors - -OPENUGBT vIndirect $2050, $0004, A7 ; {sources}OS:PPC:BTIntf.a -BLDFSKEY vIndirect $2050, $0008, A7 ; {sources}OS:PPC:BTIntf.a -BTINIT vIndirect $2050, $000c, A7 ; {sources}OS:PPC:BTreeCGlue.a -MYBTOPEN vIndirect $2050, $0010, A7 ; {sources}OS:PPC:BTreeCGlue.a -MYBTCLOSE vIndirect $2050, $0014, A7 ; {sources}OS:PPC:BTreeCGlue.a -BTINSREC vIndirect $2050, $0018, A7 ; {sources}OS:PPC:BTreeCGlue.a -BTSETREC vIndirect $2050, $001c, A7 ; {sources}OS:PPC:BTreeCGlue.a -BTREPLREC vIndirect $2050, $0020, A7 ; {sources}OS:PPC:BTreeCGlue.a -MYBTSEARCH vIndirect $2050, $0024, A7 ; {sources}OS:PPC:BTreeCGlue.a -BTSEARCHPPC vIndirect $2050, $0028, A7 ; {sources}OS:PPC:BTreeCGlue.a -BTGETREC vIndirect $2050, $002c, A7 ; {sources}OS:PPC:BTreeCGlue.a -MYBTDELETE vIndirect $2050, $0030, A7 ; {sources}OS:PPC:BTreeCGlue.a -BTGETINFO vIndirect $2050, $0034, A7 ; {sources}OS:PPC:BTreeCGlue.a -MYBTFLUSH vIndirect $2050, $0038, A7 ; {sources}OS:PPC:BTreeCGlue.a -mixupPswd vIndirect $2050, $003c, A1 ; {sources}OS:PPC:PPCAuth.c -getUserRec vIndirect $2050, $0040, A1 ; {sources}OS:PPC:PPCAuth.c -GetUserCompletion vIndirect $2050, $0044, A1 ; {sources}OS:PPC:PPCAuth.c -GetAuthInfo vIndirect $2050, $0048, A1 ; {sources}OS:PPC:PPCAuth.c -random vATrap A??? ; {sources}OS:PPC:PPCAuth.c -checkInit vIndirect $2050, $004c, A1 ; {sources}OS:PPC:PPCAuth.c -ppcStartSecure vIndirect $2050, $0050, A1 ; {sources}OS:PPC:PPCAuth.c -promptCallBack vIndirect $2050, $0054, A1 ; {sources}OS:PPC:PPCAuth.c -UserRefNumCompare vIndirect $2050, $0058, A1 ; {sources}OS:PPC:PPCAuth.c -ppcDeleteUser vIndirect $2050, $005c, A1 ; {sources}OS:PPC:PPCAuth.c -ppcGetDefaultUser vIndirect $2050, $0060, A1 ; {sources}OS:PPC:PPCAuth.c -FindUserByNameAndPassword vIndirect $2050, $0064, A1 ; {sources}OS:PPC:PPCAuth.c -findUserByRef vIndirect $2050, $0068, A1 ; {sources}OS:PPC:PPCAuth.c -GetFreeEntry vIndirect $2050, $006c, A1 ; {sources}OS:PPC:PPCAuth.c -scramble vIndirect $2050, $0070, A1 ; {sources}OS:PPC:PPCAuth.c -PACK9 vATrap A??? ; {sources}OS:PPC:PPCBrowserPackEntry.a -ppcDispatcher vIndirect $2050, $0074, A7 ; {sources}OS:PPC:PPCDispatcher.a -VPPCDISPATCHER vATrap A??? ; {sources}OS:PPC:PPCDispatcher.a -ppcBadSelector vIndirect $2050, $0078, A7 ; {sources}OS:PPC:PPCDispatcher.a -OpenADSPDriver vIndirect $2050, $007c, A1 ; {sources}OS:PPC:PPCDsp.c -CreateConnectionListener vIndirect $2050, $0080, A1 ; {sources}OS:PPC:PPCDsp.c -ListenConnectionRequest vIndirect $2050, $0084, A1 ; {sources}OS:PPC:PPCDsp.c -RejectConnectionRequest vIndirect $2050, $0088, A1 ; {sources}OS:PPC:PPCDsp.c -RemoveConnectionListener vIndirect $2050, $008c, A1 ; {sources}OS:PPC:PPCDsp.c -CreateConnectionEnd vIndirect $2050, $0090, A1 ; {sources}OS:PPC:PPCDsp.c -OpenConnectionEnd vIndirect $2050, $0094, A1 ; {sources}OS:PPC:PPCDsp.c -RemoveConnectionEnd vIndirect $2050, $0098, A1 ; {sources}OS:PPC:PPCDsp.c -WriteToConnection vIndirect $2050, $009c, A1 ; {sources}OS:PPC:PPCDsp.c -ReadFromConnection vIndirect $2050, $00a0, A1 ; {sources}OS:PPC:PPCDsp.c -ppcOpen vIndirect $2050, $00a4, A1 ; {sources}OS:PPC:PPCEntry.c -ppcStart vIndirect $2050, $00a8, A1 ; {sources}OS:PPC:PPCEntry.c -ppcInform vIndirect $2050, $00ac, A1 ; {sources}OS:PPC:PPCEntry.c -ppcAccept vIndirect $2050, $00b0, A1 ; {sources}OS:PPC:PPCEntry.c -ppcReject vIndirect $2050, $00b4, A1 ; {sources}OS:PPC:PPCEntry.c -ppcWrite vIndirect $2050, $00b8, A1 ; {sources}OS:PPC:PPCEntry.c -ppcRead vIndirect $2050, $00bc, A1 ; {sources}OS:PPC:PPCEntry.c -ppcEnd vIndirect $2050, $00c0, A1 ; {sources}OS:PPC:PPCEntry.c -ppcClose vIndirect $2050, $00c4, A1 ; {sources}OS:PPC:PPCEntry.c -ipcListPorts vIndirect $2050, $00c8, A1 ; {sources}OS:PPC:PPCEntry.c -PPCCommonPBEntry vIndirect $2050, $00cc, A1 ; {sources}OS:PPC:PPCEntry.c -PPCCommonPBExit vIndirect $2050, $00d0, A1 ; {sources}OS:PPC:PPCEntry.c -NetOpenCompletion vIndirect $2050, $00d4, A1 ; {sources}OS:PPC:PPCEntry.c -CallCompletionRoutine vIndirect $2050, $00d8, A1 ; {sources}OS:PPC:PPCEntry.c -CompleteWithResult vIndirect $2050, $00dc, A1 ; {sources}OS:PPC:PPCEntry.c -VerifyLocNameFormat vIndirect $2050, $00e0, A1 ; {sources}OS:PPC:PPCEntry.c -LocationNameLocal vIndirect $2050, $00e4, A1 ; {sources}OS:PPC:PPCEntry.c -LocNameTaken vIndirect $2050, $00e8, A1 ; {sources}OS:PPC:PPCEntry.c -BeginLocalOrRemote vIndirect $2050, $00ec, A1 ; {sources}OS:PPC:PPCEntry.c -LocalOrNot vIndirect $2050, $00f0, A1 ; {sources}OS:PPC:PPCEntry.c -DoGetMyZone vIndirect $2050, $00f4, A1 ; {sources}OS:PPC:PPCEntry.c -DMFix vIndirect $2050, $00f8, A1 ; {sources}OS:PPC:PPCEntry.c -PPCSetUp vIndirect $2050, $00fc, A1 ; {sources}OS:PPC:PPCInit.c -AtalkEvent vIndirect $2050, $0100, A1 ; {sources}OS:PPC:PPCInit.c -EnableIncoming vIndirect $2050, $0104, A1 ; {sources}OS:PPC:PPCInit.c -DisableIncoming vIndirect $2050, $0108, A1 ; {sources}OS:PPC:PPCInit.c -initUserGroupFile vIndirect $2050, $010c, A1 ; {sources}OS:PPC:PPCInit.c -RemoveConnectionListeners vIndirect $2050, $0110, A1 ; {sources}OS:PPC:PPCInit.c -SetUpToolBoxName vIndirect $2050, $0114, A1 ; {sources}OS:PPC:PPCInit.c -RemoveToolBoxName vIndirect $2050, $0118, A1 ; {sources}OS:PPC:PPCInit.c -SetUpConnectionListeners vIndirect $2050, $011c, A1 ; {sources}OS:PPC:PPCInit.c -PPCSleepEvent vIndirect $2050, $0120, A1 ; {sources}OS:PPC:PPCInit.c -EndAllNetworkSessions vIndirect $2050, $0124, A1 ; {sources}OS:PPC:PPCInit.c -KillUserSession vIndirect $2050, $0128, A1 ; {sources}OS:PPC:PPCInit.c -PPCCloseUserSessions vIndirect $2050, $012c, A1 ; {sources}OS:PPC:PPCInit.c -PPCCountAcceptedNetworkSessions vIndirect $2050, $0130, A1 ; {sources}OS:PPC:PPCInit.c -PPCCheckDupNBPName vIndirect $2050, $0134, A1 ; {sources}OS:PPC:PPCInit.c -PPCGESTALTFUNCTION vIndirect $2050, $0138, A1 ; {sources}OS:PPC:PPCInit.c -GetPPCGlobalFlag vIndirect $2050, $013c, A1 ; {sources}OS:PPC:PPCInit.c -PPCSHUTDOWN vIndirect $2050, $0140, A1 ; {sources}OS:PPC:PPCInit.c -PPCSystemTask vNoVector ; {sources}OS:PPC:PPCInit.c -UnRegisterAllNBPNames vIndirect $2050, $0144, A1 ; {sources}OS:PPC:PPCInit.c -ReRegisterAllNBPNames vIndirect $2050, $0148, A1 ; {sources}OS:PPC:PPCInit.c -PPCDEADGESTAULT vIndirect $2050, $014c, A1 ; {sources}OS:PPC:PPCInit.c -KillPPC vIndirect $2050, $0150, A1 ; {sources}OS:PPC:PPCInit.c -PPCINSTALL vIndirect $2050, $0154, A1 ; {sources}OS:PPC:PPCInstall.a -setupGlobal vIndirect $2050, $0158, A1 ; {sources}OS:PPC:PPCInstall.a -ppcLoader vIndirect $2050, $015c, A1 ; {sources}OS:PPC:PPCLoader.c -initAuth vIndirect $2050, $0160, A1 ; {sources}OS:PPC:PPCLoader.c -GetLocSess vIndirect $2050, $0164, A1 ; {sources}OS:PPC:PPCLocal.c -FreeLocSess vIndirect $2050, $0168, A1 ; {sources}OS:PPC:PPCLocal.c -StartLocalSession vIndirect $2050, $016c, A1 ; {sources}OS:PPC:PPCLocal.c -AcceptLocalSession vIndirect $2050, $0170, A1 ; {sources}OS:PPC:PPCLocal.c -RejectLocalSession vIndirect $2050, $0174, A1 ; {sources}OS:PPC:PPCLocal.c -WriteLocalData vIndirect $2050, $0178, A1 ; {sources}OS:PPC:PPCLocal.c -ReadLocalData vIndirect $2050, $017c, A1 ; {sources}OS:PPC:PPCLocal.c -EndLocalSession vIndirect $2050, $0180, A1 ; {sources}OS:PPC:PPCLocal.c -ListLocalPorts vIndirect $2050, $0184, A1 ; {sources}OS:PPC:PPCLocal.c -LocalTransfer vIndirect $2050, $0188, A1 ; {sources}OS:PPC:PPCLocal.c -RegisterName vIndirect $2050, $018c, A1 ; {sources}OS:PPC:PPCNbp.c -LookupName vIndirect $2050, $0190, A1 ; {sources}OS:PPC:PPCNbp.c -RemoveName vIndirect $2050, $0194, A1 ; {sources}OS:PPC:PPCNbp.c -GetRemSess vIndirect $2050, $0198, A1 ; {sources}OS:PPC:PPCNetwork.c -FreeRemSess vIndirect $2050, $019c, A1 ; {sources}OS:PPC:PPCNetwork.c -RemoveNetworkConnection vIndirect $2050, $01a0, A1 ; {sources}OS:PPC:PPCNetwork.c -RemoveCompletion vIndirect $2050, $01a4, A1 ; {sources}OS:PPC:PPCNetwork.c -StartNetworkSession vIndirect $2050, $01a8, A1 ; {sources}OS:PPC:PPCNetwork.c -AcceptNetworkSession vIndirect $2050, $01ac, A1 ; {sources}OS:PPC:PPCNetwork.c -RejectNetworkSession vIndirect $2050, $01b0, A1 ; {sources}OS:PPC:PPCNetwork.c -WriteNetworkData vIndirect $2050, $01b4, A1 ; {sources}OS:PPC:PPCNetwork.c -ReadNetworkData vIndirect $2050, $01b8, A1 ; {sources}OS:PPC:PPCNetwork.c -EndNetworkSession vIndirect $2050, $01bc, A1 ; {sources}OS:PPC:PPCNetwork.c -ListNetworkPorts vIndirect $2050, $01c0, A1 ; {sources}OS:PPC:PPCNetwork.c -BeginNetworkConnection vIndirect $2050, $01c4, A1 ; {sources}OS:PPC:PPCNetwork.c -AcceptNetworkConnection vIndirect $2050, $01c8, A1 ; {sources}OS:PPC:PPCNetwork.c -NetLookUpCompletion vIndirect $2050, $01cc, A1 ; {sources}OS:PPC:PPCNetwork.c -ConnectionEndCompletion vIndirect $2050, $01d0, A1 ; {sources}OS:PPC:PPCNetwork.c -OpenCompletion vIndirect $2050, $01d4, A1 ; {sources}OS:PPC:PPCNetwork.c -StartSendCompletion vIndirect $2050, $01d8, A1 ; {sources}OS:PPC:PPCNetwork.c -StartCommandCompletion vIndirect $2050, $01dc, A1 ; {sources}OS:PPC:PPCNetwork.c -ListSendCompletion vIndirect $2050, $01e0, A1 ; {sources}OS:PPC:PPCNetwork.c -ListReadCompletion vIndirect $2050, $01e4, A1 ; {sources}OS:PPC:PPCNetwork.c -ListCommandCompletion vIndirect $2050, $01e8, A1 ; {sources}OS:PPC:PPCNetwork.c -ConnectionRequestCompletion vIndirect $2050, $01ec, A1 ; {sources}OS:PPC:PPCNetwork.c -RespConnectionEndCompletion vIndirect $2050, $01f0, A1 ; {sources}OS:PPC:PPCNetwork.c -RespOpenCompletion vIndirect $2050, $01f4, A1 ; {sources}OS:PPC:PPCNetwork.c -RecvSessReqCompletion vIndirect $2050, $01f8, A1 ; {sources}OS:PPC:PPCNetwork.c -GuestRecCompletion vIndirect $2050, $01fc, A1 ; {sources}OS:PPC:PPCNetwork.c -UserRecCompletion vIndirect $2050, $0200, A1 ; {sources}OS:PPC:PPCNetwork.c -AuthSendCompletion vIndirect $2050, $0204, A1 ; {sources}OS:PPC:PPCNetwork.c -AuthRespCompletion vIndirect $2050, $0208, A1 ; {sources}OS:PPC:PPCNetwork.c -ProcessInform vIndirect $2050, $020c, A1 ; {sources}OS:PPC:PPCNetwork.c -RespSendCompletion vIndirect $2050, $0210, A1 ; {sources}OS:PPC:PPCNetwork.c -ARepostConnectionListener vIndirect $2050, $0214, A1 ; {sources}OS:PPC:PPCNetwork.c -RepostConnectionListener vIndirect $2050, $0218, A1 ; {sources}OS:PPC:PPCNetwork.c -ListWrite vIndirect $2050, $021c, A1 ; {sources}OS:PPC:PPCNetwork.c -ListWriteCompletion vIndirect $2050, $0220, A1 ; {sources}OS:PPC:PPCNetwork.c -ListRespCompletion vIndirect $2050, $0224, A1 ; {sources}OS:PPC:PPCNetwork.c -BeginWriteBlock vIndirect $2050, $0228, A1 ; {sources}OS:PPC:PPCNetwork.c -WriteHdrCompletion vIndirect $2050, $022c, A1 ; {sources}OS:PPC:PPCNetwork.c -WriteBlockData vIndirect $2050, $0230, A1 ; {sources}OS:PPC:PPCNetwork.c -WriteBlockDataCompletion vIndirect $2050, $0234, A1 ; {sources}OS:PPC:PPCNetwork.c -CompleteWriteRequest vIndirect $2050, $0238, A1 ; {sources}OS:PPC:PPCNetwork.c -BeginReadBlock vIndirect $2050, $023c, A1 ; {sources}OS:PPC:PPCNetwork.c -ReadHdrCompletion vIndirect $2050, $0240, A1 ; {sources}OS:PPC:PPCNetwork.c -ReadBlockData vIndirect $2050, $0244, A1 ; {sources}OS:PPC:PPCNetwork.c -ReadDataCompletion vIndirect $2050, $0248, A1 ; {sources}OS:PPC:PPCNetwork.c -CompleteReadRequest vIndirect $2050, $024c, A1 ; {sources}OS:PPC:PPCNetwork.c -CopyReadBlk vIndirect $2050, $0250, A1 ; {sources}OS:PPC:PPCNetwork.c -ClosePortTable vIndirect $2050, $0254, A1 ; {sources}OS:PPC:PPCPort.c -NBPRemoveCompletion vIndirect $2050, $0258, A1 ; {sources}OS:PPC:PPCPort.c -CompleteClosePort vIndirect $2050, $025c, A1 ; {sources}OS:PPC:PPCPort.c -CheckPortName vIndirect $2050, $0260, A1 ; {sources}OS:PPC:PPCPort.c -ValidPortName vIndirect $2050, $0264, A1 ; {sources}OS:PPC:PPCPort.c -ComparePortName vIndirect $2050, $0268, A1 ; {sources}OS:PPC:PPCPort.c -GetLocationName vIndirect $2050, $026c, A1 ; {sources}OS:PPC:PPCPort.c -PortRefNumCompare vIndirect $2050, $0270, A1 ; {sources}OS:PPC:PPCPort.c -DeletePortByRefNum vIndirect $2050, $0274, A1 ; {sources}OS:PPC:PPCPort.c -PortRefNumtoPtr vIndirect $2050, $0278, A1 ; {sources}OS:PPC:PPCPort.c -GetUniquePortRefNum vIndirect $2050, $027c, A1 ; {sources}OS:PPC:PPCPort.c -GetPortTable vIndirect $2050, $0280, A1 ; {sources}OS:PPC:PPCPort.c -FreePortTable vIndirect $2050, $0284, A1 ; {sources}OS:PPC:PPCPort.c -SetPortInformQue vIndirect $2050, $0288, A1 ; {sources}OS:PPC:PPCPort.c -GetPortNames vIndirect $2050, $028c, A1 ; {sources}OS:PPC:PPCPort.c -WildPortMatch vIndirect $2050, $0290, A1 ; {sources}OS:PPC:PPCPort.c -QueueFromSessRefNum vIndirect $2050, $0294, A1 ; {sources}OS:PPC:PPCSession.c -SessRefNumCompare vIndirect $2050, $0298, A1 ; {sources}OS:PPC:PPCSession.c -SessRefNumtoPtr vIndirect $2050, $029c, A1 ; {sources}OS:PPC:PPCSession.c -DeleteSessByRefNum vIndirect $2050, $02a0, A1 ; {sources}OS:PPC:PPCSession.c -GetSessionRefNum vIndirect $2050, $02a4, A1 ; {sources}OS:PPC:PPCSession.c -SetSessionTable vIndirect $2050, $02a8, A1 ; {sources}OS:PPC:PPCSession.c -PortSessCompare vIndirect $2050, $02ac, A1 ; {sources}OS:PPC:PPCSession.c -CleanSessions vIndirect $2050, $02b0, A1 ; {sources}OS:PPC:PPCSession.c -KillReadAndWrite vIndirect $2050, $02b4, A1 ; {sources}OS:PPC:PPCSession.c -getGlobal vNoVector ; {sources}OS:PPC:PPCUtil.a -callCompletion vIndirect $2050, $02b8, A1 ; {sources}OS:PPC:PPCUtil.a -AddtoAtalkQ vIndirect $2050, $02bc, A1 ; {sources}OS:PPC:PPCUtil.a -RmvfromAtalkQ vIndirect $2050, $02c0, A1 ; {sources}OS:PPC:PPCUtil.a -FakeCompletion vIndirect $2050, $02c4, A1 ; {sources}OS:PPC:PPCUtil.a -PointerCompare vIndirect $2050, $02c8, A1 ; {sources}OS:PPC:PPCUtilities.c -EnQueue vIndirect $2050, $02cc, A1 ; {sources}OS:PPC:PPCUtilities.c -ServeQueue vIndirect $2050, $02d0, A1 ; {sources}OS:PPC:PPCUtilities.c -SearchQueue vIndirect $2050, $02d4, A1 ; {sources}OS:PPC:PPCUtilities.c -DeleteFromQueue vIndirect $2050, $02d8, A1 ; {sources}OS:PPC:PPCUtilities.c -DeleteMultiple vIndirect $2050, $02dc, A1 ; {sources}OS:PPC:PPCUtilities.c -NewMem vIndirect $2050, $02e0, A1 ; {sources}OS:PPC:PPCUtilities.c -DisposeMem vIndirect $2050, $02e4, A1 ; {sources}OS:PPC:PPCUtilities.c -AddNew vIndirect $2050, $02e8, A1 ; {sources}OS:PPC:PPCUtilities.c -RemOld vIndirect $2050, $02ec, A1 ; {sources}OS:PPC:PPCUtilities.c -Replenish vNoVector ; {sources}OS:PPC:PPCUtilities.c -Excess vNoVector ; {sources}OS:PPC:PPCUtilities.c -PRMTFUSER vIndirect $2050, $02f0, A7 ; {sources}OS:PPC:PromptForUser.a -PROMPTFORUSER vIndirect $2050, $02f4, A7 ; {sources}OS:PPC:PromptForUser.a -GETPASSWORDBULLET vIndirect $2050, $02f8, A1 ; {sources}OS:PPC:PromptForUser.c -GetIntlTokenChar vIndirect $2050, $02fc, A1 ; {sources}OS:PPC:PromptForUser.c -FRK vDataTable ; {sources}Objects:ROM:PPC.lib -PERMUTE vDataTable ; {sources}Objects:ROM:PPC.lib -PTBL vDataTable ; {sources}Objects:ROM:PPC.lib -IPINVTBL vDataTable ; {sources}Objects:ROM:PPC.lib -IP vDataTable ; {sources}Objects:ROM:PPC.lib -KEYSCHED vIndirect $2050, $0300, A1 ; {sources}Objects:ROM:PPC.lib -ENCODE vIndirect $2050, $0304, A1 ; {sources}Objects:ROM:PPC.lib - -;============================== End PPC Vectors - ;============================== Quickdraw Vectors ANGLEFROMSLOPE vATrap A??? ; {sources}QuickDraw:ANGLES.a @@ -2699,8 +2222,8 @@ INITCRTABLE vDataTable ; {sources}QuickDraw:cCrsrCore.a CRSRVBLTASK vIndirect $2054, $0390, A7 ; {sources}QuickDraw:cCrsrCore.a PINRECT vATrap A??? ; {sources}QuickDraw:cCrsrCore.a CURSORSECT vIndirect $2054, $0394, A7 ; {sources}QuickDraw:cCrsrCore.a -ERASECURSOR vIndirect $2054, $0398, A7 ; {sources}QuickDraw:cCrsrCore.a -DRAWCURSOR vIndirect $2054, $039c, A7 ; {sources}QuickDraw:cCrsrCore.a +ERASECURSOR vNoVector ; {sources}QuickDraw:cCrsrCore.a +DRAWCURSOR vNoVector ; {sources}QuickDraw:cCrsrCore.a GETMAINCRSR vIndirect $2054, $03a0, A7 ; {sources}QuickDraw:cCrsrCore.a SETCRSRDATA vIndirect $2054, $03a4, A7 ; {sources}QuickDraw:cCrsrCore.a ALLOCCRSR vATrap A??? ; {sources}QuickDraw:cCrsrCore.a @@ -2842,513 +2365,6 @@ GETNEXTFOND vIndirect $2058, $0090, A7 ; {sources}Toolbox:ResourceMgr:Reso ;============================== End Resource Manager Vectors -;============================== SCSI Manager Vectors - -;————— Old SCSI Manager -SCSIDISPATCHCOMMON vATrap A??? ; {sources}OS:SCSIMgr:SCSILinkPatch.a -SCSIBUSYPLUS vIndirect $205C, $0004, A7 ; {sources}OS:SCSIMgr:SCSILinkPatch.a -SCSIBUSYOTHERS vIndirect $205C, $0008, A7 ; {sources}OS:SCSIMgr:SCSILinkPatch.a -SCSIBOOTS vIndirect $205C, $000c, A7 ; {sources}OS:SCSIMgr:scsiboot.a -SCSILOAD vIndirect $205C, $0010, A7 ; {sources}OS:SCSIMgr:scsiboot.a -SCSI96 vNoVector ; {sources}OS:SCSIMgr:scsimgr96.a -SCSIMGR_96 vIndirect $205C, $0014, A7 ; {sources}OS:SCSIMgr:scsimgr96.a -UNIMPLEMENTED_96 vIndirect $205C, $0018, A7 ; {sources}OS:SCSIMgr:scsimgr96.a -DOSCSISTAT_96 vIndirect $205C, $001c, A7 ; {sources}OS:SCSIMgr:scsimgr96.a -DOSCSIRESET_96 vIndirect $205C, $0020, A7 ; {sources}OS:SCSIMgr:scsimgr96.a -DOSCSIGET_96 vIndirect $205C, $0024, A7 ; {sources}OS:SCSIMgr:scsimgr96.a -DOSCSISELECT_D96 vIndirect $205C, $0028, A7 ; {sources}OS:SCSIMgr:scsimgr96.a -DOSCSISELATN_D96 vIndirect $205C, $002c, A7 ; {sources}OS:SCSIMgr:scsimgr96.a -DOSCSISELECT_S96 vIndirect $205C, $0030, A7 ; {sources}OS:SCSIMgr:scsimgr96.a -DOSCSISELATN_S96 vIndirect $205C, $0034, A7 ; {sources}OS:SCSIMgr:scsimgr96.a -DOSCSICMD_96 vIndirect $205C, $0038, A7 ; {sources}OS:SCSIMgr:scsimgr96.a -NEWSCSIWBLIND_96 vIndirect $205C, $003c, A7 ; {sources}OS:SCSIMgr:scsimgr96.a -NEWSCSIWRITE_96 vIndirect $205C, $0040, A7 ; {sources}OS:SCSIMgr:scsimgr96.a -NEWSCSIRBLIND_96 vIndirect $205C, $0044, A7 ; {sources}OS:SCSIMgr:scsimgr96.a -NEWSCSIREAD_96 vIndirect $205C, $0048, A7 ; {sources}OS:SCSIMgr:scsimgr96.a -DOSCSICOMPLETE_96 vIndirect $205C, $004c, A7 ; {sources}OS:SCSIMgr:scsimgr96.a -DOSCSIMSGIN_96 vIndirect $205C, $0050, A7 ; {sources}OS:SCSIMgr:scsimgr96.a -DOSCSIMSGOUT_96 vIndirect $205C, $0054, A7 ; {sources}OS:SCSIMgr:scsimgr96.a -CYCLEPHASE_96 vIndirect $205C, $0058, A7 ; {sources}OS:SCSIMgr:scsimgr96.a -SCSIPCTO32BIT vIndirect $205C, $005c, A7 ; {sources}OS:SCSIMgr:scsimgr96.a -ERROR vIndirect $205C, $0060, A7 ; {sources}OS:SCSIMgr:scsimgr96.a -SCSIERR_96 vIndirect $205C, $0064, A7 ; {sources}OS:SCSIMgr:scsimgr96.a -SWAPMMU vIndirect $205C, $0068, A7 ; {sources}OS:SCSIMgr:scsimgr96.a -SCSIHW vNoVector ; {sources}OS:SCSIMgr:scsimgrhw.a -DOSPINDOWN vNoVector ; {sources}OS:SCSIMgr:scsimgrhw.a -SLEEPTASK vNoVector ; {sources}OS:SCSIMgr:scsimgrhw.a -CLEARIRQ vIndirect $205C, $006c, A7 ; {sources}OS:SCSIMgr:scsimgrhw.a -DISENABLE vIndirect $205C, $0070, A7 ; {sources}OS:SCSIMgr:scsimgrhw.a -BUSERRHANDLER vIndirect $205C, $0074, A7 ; {sources}OS:SCSIMgr:scsimgrhw.a -ARB vIndirect $205C, $0078, A7 ; {sources}OS:SCSIMgr:scsimgrhw.a -SEL vIndirect $205C, $007c, A7 ; {sources}OS:SCSIMgr:scsimgrhw.a -DELAY22 vIndirect $205C, $0080, A7 ; {sources}OS:SCSIMgr:scsimgrhw.a -SCSIINTHND vIndirect $205C, $0084, A7 ; {sources}OS:SCSIMgr:scsimgrhw.a -TRANSFER vIndirect $205C, $0088, A7 ; {sources}OS:SCSIMgr:scsimgrhw.a -SLOWREAD vIndirect $205C, $008c, A7 ; {sources}OS:SCSIMgr:scsimgrhw.a -SLOWWRITE vIndirect $205C, $0090, A7 ; {sources}OS:SCSIMgr:scsimgrhw.a -VFASTWRITEOSS vIndirect $205C, $0094, A7 ; {sources}OS:SCSIMgr:scsimgrhw.a -PFASTWRITEOSS vIndirect $205C, $0098, A7 ; {sources}OS:SCSIMgr:scsimgrhw.a -PFASTWRITE vIndirect $205C, $009c, A7 ; {sources}OS:SCSIMgr:scsimgrhw.a -VFASTWRITE vIndirect $205C, $00a0, A7 ; {sources}OS:SCSIMgr:scsimgrhw.a -FASTWRITE vIndirect $205C, $00a4, A7 ; {sources}OS:SCSIMgr:scsimgrhw.a -FASTWRITEOSS vIndirect $205C, $00a8, A7 ; {sources}OS:SCSIMgr:scsimgrhw.a -VFASTREADOSS vIndirect $205C, $00ac, A7 ; {sources}OS:SCSIMgr:scsimgrhw.a -PFASTREADOSS vIndirect $205C, $00b0, A7 ; {sources}OS:SCSIMgr:scsimgrhw.a -PFASTREAD vIndirect $205C, $00b4, A7 ; {sources}OS:SCSIMgr:scsimgrhw.a -VFASTREAD vIndirect $205C, $00b8, A7 ; {sources}OS:SCSIMgr:scsimgrhw.a -FASTREAD vIndirect $205C, $00bc, A7 ; {sources}OS:SCSIMgr:scsimgrhw.a -FASTREADOSS vIndirect $205C, $00c0, A7 ; {sources}OS:SCSIMgr:scsimgrhw.a -SLOWCOMP vIndirect $205C, $00c4, A7 ; {sources}OS:SCSIMgr:scsimgrhw.a -FASTCOMP vIndirect $205C, $00c8, A7 ; {sources}OS:SCSIMgr:scsimgrhw.a -SCSIHW96 vNoVector ; {sources}OS:SCSIMgr:scsimgrhw96.a -INITHW_SCSI96 vNoVector ; {sources}OS:SCSIMgr:scsimgrhw96.a -INTHND_SCSI96 vIndirect $205C, $00cc, A7 ; {sources}OS:SCSIMgr:scsimgrhw96.a -TRANSFER_96 vIndirect $205C, $00d0, A7 ; {sources}OS:SCSIMgr:scsimgrhw96.a -XFER1BYTE vIndirect $205C, $00d4, A7 ; {sources}OS:SCSIMgr:scsimgrhw96.a -SLOWREAD_96 vIndirect $205C, $00d8, A7 ; {sources}OS:SCSIMgr:scsimgrhw96.a -SLOWWRITE_96 vIndirect $205C, $00dc, A7 ; {sources}OS:SCSIMgr:scsimgrhw96.a -FASTWRITE_96 vIndirect $205C, $00e0, A7 ; {sources}OS:SCSIMgr:scsimgrhw96.a -FASTREAD_96 vIndirect $205C, $00e4, A7 ; {sources}OS:SCSIMgr:scsimgrhw96.a -RESETBUS_96 vIndirect $205C, $00e8, A7 ; {sources}OS:SCSIMgr:scsimgrhw96.a -WAITFORINTNOTIME vIndirect $205C, $00ec, A7 ; {sources}OS:SCSIMgr:scsimgrhw96.a -HANDLESELINPROG vIndirect $205C, $00f0, A7 ; {sources}OS:SCSIMgr:scsimgrhw96.a -WT4DREQORINT vIndirect $205C, $00f4, A7 ; {sources}OS:SCSIMgr:scsimgrhw96.a -WAITFORSCSIINTRP vIndirect $205C, $00f8, A7 ; {sources}OS:SCSIMgr:scsimgrhw96.a -FASTCOMP_96 vIndirect $205C, $00fc, A7 ; {sources}OS:SCSIMgr:scsimgrhw96.a -SLOWCOMP_96 vIndirect $205C, $0100, A7 ; {sources}OS:SCSIMgr:scsimgrhw96.a -BUSERRHANDLER_96 vIndirect $205C, $0104, A7 ; {sources}OS:SCSIMgr:scsimgrhw96.a -SCSIINIT vNoVector ; {sources}OS:SCSIMgr:scsimgrinit.a -INITSCSIMGR vNoVector ; {sources}OS:SCSIMgr:scsimgrinit.a -INITSCSIHW vNoVector ; {sources}OS:SCSIMgr:scsimgrinit.a -SCSIINIT96 vNoVector ; {sources}OS:SCSIMgr:scsimgrinit96.a -INITMGR_SCSI96 vNoVector ; {sources}OS:SCSIMgr:scsimgrinit96.a -SCSISETFLAGS vIndirect $205C, $0108, A7 ; {sources}OS:SCSIMgr:scsimgrinitflags.a -SCSINEW vNoVector ; {sources}OS:SCSIMgr:scsimgrnew.a -NEWSCSITRAP vATrap A??? ; {sources}OS:SCSIMgr:scsimgrnew.a -ALTBUSCALL vIndirect $205C, $010c, A7 ; {sources}OS:SCSIMgr:scsimgrnew.a -DOREQUESTIO vIndirect $205C, $0110, A7 ; {sources}OS:SCSIMgr:scsimgrnew.a -DOKILLIO vIndirect $205C, $0114, A7 ; {sources}OS:SCSIMgr:scsimgrnew.a -DOBUSINFO vIndirect $205C, $0118, A7 ; {sources}OS:SCSIMgr:scsimgrnew.a -RESETBUS vIndirect $205C, $011c, A7 ; {sources}OS:SCSIMgr:scsimgrnew.a -ENDEQUEUE vIndirect $205C, $0120, A7 ; {sources}OS:SCSIMgr:scsimgrnew.a -LOGERROR vIndirect $205C, $0124, A7 ; {sources}OS:SCSIMgr:scsimgrnew.a -CLEARSTATE vIndirect $205C, $0128, A7 ; {sources}OS:SCSIMgr:scsimgrnew.a -CLEARBUS vIndirect $205C, $012c, A7 ; {sources}OS:SCSIMgr:scsimgrnew.a -MESSAGE vIndirect $205C, $0130, A7 ; {sources}OS:SCSIMgr:scsimgrnew.a -PREFLIGHT vIndirect $205C, $0134, A7 ; {sources}OS:SCSIMgr:scsimgrnew.a -SETUP vIndirect $205C, $0138, A7 ; {sources}OS:SCSIMgr:scsimgrnew.a -FIND vIndirect $205C, $013c, A7 ; {sources}OS:SCSIMgr:scsimgrnew.a -SETTIMER vIndirect $205C, $0140, A7 ; {sources}OS:SCSIMgr:scsimgrnew.a -TIMETASK vIndirect $205C, $0144, A7 ; {sources}OS:SCSIMgr:scsimgrnew.a -SCSIDT vIndirect $205C, $0148, A7 ; {sources}OS:SCSIMgr:scsimgrnew.a -COMMAND vIndirect $205C, $014c, A7 ; {sources}OS:SCSIMgr:scsimgrnew.a -STATUSPHASE vIndirect $205C, $0150, A7 ; {sources}OS:SCSIMgr:scsimgrnew.a -MSGIN vIndirect $205C, $0154, A7 ; {sources}OS:SCSIMgr:scsimgrnew.a -MSGINVALIDIN vIndirect $205C, $0158, A7 ; {sources}OS:SCSIMgr:scsimgrnew.a -MSGIDENTIFYIN vIndirect $205C, $015c, A7 ; {sources}OS:SCSIMgr:scsimgrnew.a -MSGCMDCOMPLETE vIndirect $205C, $0160, A7 ; {sources}OS:SCSIMgr:scsimgrnew.a -MSGSAVEDATAPTR vIndirect $205C, $0164, A7 ; {sources}OS:SCSIMgr:scsimgrnew.a -MSGRESTOREPTRS vIndirect $205C, $0168, A7 ; {sources}OS:SCSIMgr:scsimgrnew.a -MSGDISCONNECT vIndirect $205C, $016c, A7 ; {sources}OS:SCSIMgr:scsimgrnew.a -MSGMSGREJIN vIndirect $205C, $0170, A7 ; {sources}OS:SCSIMgr:scsimgrnew.a -MSGLCCF vIndirect $205C, $0174, A7 ; {sources}OS:SCSIMgr:scsimgrnew.a -MSGOUT vIndirect $205C, $0178, A7 ; {sources}OS:SCSIMgr:scsimgrnew.a -MSGIDENTIFYOUT vIndirect $205C, $017c, A7 ; {sources}OS:SCSIMgr:scsimgrnew.a -MSGBUSDEVRST vIndirect $205C, $0180, A7 ; {sources}OS:SCSIMgr:scsimgrnew.a -MSGMSGREJOUT vIndirect $205C, $0184, A7 ; {sources}OS:SCSIMgr:scsimgrnew.a -MSGINVALIDOUT vIndirect $205C, $0188, A7 ; {sources}OS:SCSIMgr:scsimgrnew.a -MSGKILLIO vIndirect $205C, $018c, A7 ; {sources}OS:SCSIMgr:scsimgrnew.a -MSGNOOP vIndirect $205C, $0190, A7 ; {sources}OS:SCSIMgr:scsimgrnew.a -DATAIO vIndirect $205C, $0194, A7 ; {sources}OS:SCSIMgr:scsimgrnew.a -DATADMA vIndirect $205C, $0198, A7 ; {sources}OS:SCSIMgr:scsimgrnew.a -SCSIOLD vNoVector ; {sources}OS:SCSIMgr:scsimgrold.a -SCSIMGR vATrap A??? ; {sources}OS:SCSIMgr:scsimgrold.a -UNIMPLEMENTED vIndirect $205C, $019c, A7 ; {sources}OS:SCSIMgr:scsimgrold.a -DOSCSISTAT vIndirect $205C, $01a0, A7 ; {sources}OS:SCSIMgr:scsimgrold.a -DOSCSIRESET vIndirect $205C, $01a4, A7 ; {sources}OS:SCSIMgr:scsimgrold.a -DOSCSIGET vIndirect $205C, $01a8, A7 ; {sources}OS:SCSIMgr:scsimgrold.a -DOSCSISELECT vIndirect $205C, $01ac, A7 ; {sources}OS:SCSIMgr:scsimgrold.a -DOSCSISELATN vIndirect $205C, $01b0, A7 ; {sources}OS:SCSIMgr:scsimgrold.a -DOSCSICMD vIndirect $205C, $01b4, A7 ; {sources}OS:SCSIMgr:scsimgrold.a -NEWSCSIWBLIND vIndirect $205C, $01b8, A7 ; {sources}OS:SCSIMgr:scsimgrold.a -NEWSCSIWRITE vIndirect $205C, $01bc, A7 ; {sources}OS:SCSIMgr:scsimgrold.a -NEWSCSIRBLIND vIndirect $205C, $01c0, A7 ; {sources}OS:SCSIMgr:scsimgrold.a -NEWSCSIREAD vIndirect $205C, $01c4, A7 ; {sources}OS:SCSIMgr:scsimgrold.a -DOSCSICOMPLETE vIndirect $205C, $01c8, A7 ; {sources}OS:SCSIMgr:scsimgrold.a -DOSCSIMSGIN vIndirect $205C, $01cc, A7 ; {sources}OS:SCSIMgr:scsimgrold.a -DOSCSIMSGOUT vIndirect $205C, $01d0, A7 ; {sources}OS:SCSIMgr:scsimgrold.a -LATELOAD vIndirect $205C, $01d4, A7 ; {sources}OS:SCSIMgr:scsiLateLoad.a - -SCSIDISKMODE vNoVector -SCSIDISKWAKEALERT vNoVector -TESTFORDISKMODE vNoVector -SCSICYC96 vNoVector -SCSIERR_PSC vNoVector -NEWSCSIRBLIND_PSC vNoVector -NEWSCSIWBLIND_PSC vNoVector -NEWSCSIWRITE_PSC vNoVector -NEWSCSIREAD_PSC vNoVector -DOSCSIMSGIN_PSC vNoVector -DOSCSIGET_PSC vNoVector -DOSCSIRESET_PSC vNoVector -UNIMPLEMENTED_PSC vNoVector -ERROR_PSC vNoVector -SCSIPCTO32BIT_PSC vNoVector -DOSCSIMSGOUT_PSC vNoVector -DOSCSISTAT_PSC vNoVector -CYCLEPHASE_PSC vNoVector -DOSCSISELATN_DPSC vNoVector -DOSCSISELATN_SPSC vNoVector -DOSCSISELECT_DPSC vNoVector -DOSCSISELECT_SPSC vNoVector -DOSCSICOMPLETE_PSC vNoVector -DOSCSICMD_PSC vNoVector -SCSIMGR_PSC vNoVector -SCSICYCHW96 vNoVector -WAITFORINTNOTIME_PSC vNoVector -FASTCOMP_PSC vNoVector -FASTWRITE_PSC vNoVector -FASTREAD_PSC vNoVector -SLOWCOMP_PSC vNoVector -SLOWWRITE_PSC vNoVector -INTHND_SCSI_PSC vNoVector -INITHW_SCSI_PSC vNoVector -BUSERRHANDLER_PSC vNoVector -WAITFORSCSIINTRP_PSC vNoVector -RESETBUS_PSC vNoVector -HANDLESELINPROGPSC vNoVector -WT4DREQORINTPSC vNoVector -XFER1BYTE_PSC vNoVector -TRANSFER_PSC vNoVector -SLOWREAD_PSC vNoVector -SCSIMGRINITPSC vNoVector -INITMGR_SCSI_PSC vNoVector -SCSIC96INSTALL vNoVector -PATCHSCSIDRIVERS vNoVector -SCSIPATCHTOBLOCKIOINDRIVER vNoVector - -;————— SCSI Manager 4.3 ; {sources}OS:SCSIMgr4pt3:≈ -SCSIAtomic vATrap A??? - -JmpToDrvr vIndirect $205C, $01d8, A7, hasAsyncSCSI ; BootItt.a -CheckSumDrvr vIndirect $205C, $01dc, A7, hasAsyncSCSI ; BootItt.a -; UNUSED vIndirect $205C, $01e0, A1, hasAsyncSCSI ; BootItt.c -; UNUSED vIndirect $205C, $01e4, A1, hasAsyncSCSI ; BootItt.c -; UNUSED vIndirect $205C, $01e8, A1, hasAsyncSCSI ; BootItt.c -ScanDrive vIndirect $205C, $01ec, A1, hasAsyncSCSI ; BootItt.c -LoadDriver vIndirect $205C, $01f0, A1, hasAsyncSCSI ; BootItt.c -ScRead vIndirect $205C, $01f4, A1, hasAsyncSCSI ; BootItt.c -; UNUSED vIndirect $205C, $01f8, Ax, hasAsyncSCSI ; HALc96.a -; UNUSED vIndirect $205C, $01fc, Ax, hasAsyncSCSI ; HALc96.a -RecordEvent vIndirect $205C, $0200, A7, hasAsyncSCSI ; Recorder.a -; UNUSED vIndirect $205C, $0204, Ax, hasAsyncSCSI ; HALc96.a -; UNUSED vIndirect $205C, $0208, Ax, hasAsyncSCSI ; HALc96.a -; UNUSED vIndirect $205C, $020c, Ax, hasAsyncSCSI ; HALc96.a -; UNUSED vIndirect $205C, $0210, Ax, hasAsyncSCSI ; HALc96.a -; UNUSED vIndirect $205C, $0214, Ax, hasAsyncSCSI ; HALc96.a -; UNUSED vIndirect $205C, $0218, Ax, hasAsyncSCSI ; HALc96.a -; UNUSED vIndirect $205C, $021c, Ax, hasAsyncSCSI ; HALc96.a -; UNUSED vIndirect $205C, $0220, Ax, hasAsyncSCSI ; HALc96.a -; UNUSED vIndirect $205C, $0224, Ax, hasAsyncSCSI ; HALc96.a -; UNUSED vIndirect $205C, $0228, Ax, hasAsyncSCSI ; HALc96.a -; UNUSED vIndirect $205C, $022c, Ax, hasAsyncSCSI ; HALc96.a -; UNUSED vIndirect $205C, $0230, Ax, hasAsyncSCSI ; HALc96.a -; UNUSED vIndirect $205C, $0234, Ax, hasAsyncSCSI ; HALc96.a -; UNUSED vIndirect $205C, $0238, Ax, hasAsyncSCSI ; HALc96.a -; UNUSED vIndirect $205C, $023c, Ax, hasAsyncSCSI ; HALc96.a -SIMRegisterHAL vIndirect $205C, $0240, A1, hasAsyncSCSI ; HALc96Data.a -SIMReregisterHAL vIndirect $205C, $0244, A1, hasAsyncSCSI ; HALc96Data.a -SIMRegisterCommon vIndirect $205C, $0248, A1, hasAsyncSCSI ; HALc96Data.a -EarlySwitchPhase vIndirect $205C, $024c, A1, hasAsyncSCSI ; HALc96Data.a -WastePhase vIndirect $205C, $0250, A1, hasAsyncSCSI ; HALc96Data.a -HandleInitWErr vIndirect $205C, $0254, A1, hasAsyncSCSI ; HALc96Data.a -HandleRejectedIdentify vIndirect $205C, $0258, A1, hasAsyncSCSI ; HALc96Data.a -HandleEarlyMsgIn vIndirect $205C, $025c, A1, hasAsyncSCSI ; SIMmachine.c -HandleNoIdentifyMsg vIndirect $205C, $0260, A1, hasAsyncSCSI ; HALc96Data.a -CallMachine vIndirect $205C, $0264, A1, hasAsyncSCSI ; HALc96Data.a -GetVirtualIDInfo vIndirect $205C, $0268, A1, hasAsyncSCSI ; HALc96Data.a -CheckInterrupts vIndirect $205C, $026c, A1, hasAsyncSCSI ; HALc96Data.a -XPTCallCompRoutine vIndirect $205C, $0270, A1, hasAsyncSCSI ; HALc96Data.a -SIMIntPoll vIndirect $205C, $0274, A1, hasAsyncSCSI ; HALc96Data.a -SetupResetPB vIndirect $205C, $0278, A1, hasAsyncSCSI ; HALc96Data.a -ValidateDeviceIdent vIndirect $205C, $027c, A1, hasAsyncSCSI ; HALc96HWInit.a -TryToRecover vIndirect $205C, $0280, A1, hasAsyncSCSI ; HALc96Init.a -XPTRegisterCommon vIndirect $205C, $0284, A1, hasAsyncSCSI ; HALc96HWInit.a -NewXPTioPB vIndirect $205C, $0288, A1, hasAsyncSCSI ; HALc96PSC.a -; UNUSED vIndirect $205C, $028c, Ax, hasAsyncSCSI ; HALc96DMA.a -; UNUSED vIndirect $205C, $0290, Ax, hasAsyncSCSI ; HALc96DMA.a -; UNUSED vIndirect $205C, $0294, Ax, hasAsyncSCSI ; HALc96DMA.a -COMPRESETDEVICE vIndirect $205C, $0298, A7, hasAsyncSCSI ; HALc96DMA.a -Disconnected vIndirect $205C, $029c, A1, hasAsyncSCSI ; HALc96Routines.a -ciDebuggerPatch vIndirect $205C, $02a0, A7, hasAsyncSCSI ; XPT.a -ReRegisterAllSIMs vIndirect $205C, $02a4, A1, hasAsyncSCSI ; XPT.c -; UNUSED vIndirect $205C, $02a8, Ax, hasAsyncSCSI ; HALc96Routines.a -; UNUSED vIndirect $205C, $02ac, Ax, hasAsyncSCSI ; HALc96Routines.a -; UNUSED vIndirect $205C, $02b0, Ax, hasAsyncSCSI ; HALc96Routines.a -; UNUSED vIndirect $205C, $02b4, Ax, hasAsyncSCSI ; HALc96Routines.a -Ck4SCSIInt vIndirect $205C, $02b8, A7, hasAsyncSCSI ; HALc96Routines.a -Wt4SCSIInt vIndirect $205C, $02bc, A7, hasAsyncSCSI ; InitItt.c -Ck4DREQ vIndirect $205C, $02c8, A7, hasAsyncSCSI ; HALc96Routines.a -; UNUSED vIndirect $205C, $02c0, Ax, hasAsyncSCSI ; HALc96Routines.a -; UNUSED vIndirect $205C, $02c4, Ax, hasAsyncSCSI ; HALc96Routines.a - -; UNUSED vIndirect $205C, $02cc, Ax, hasAsyncSCSI ; -; UNUSED vIndirect $205C, $02d0, Ax, hasAsyncSCSI ; -; UNUSED vIndirect $205C, $02d4, Ax, hasAsyncSCSI ; -; UNUSED vIndirect $205C, $02d8, Ax, hasAsyncSCSI ; -; UNUSED vIndirect $205C, $02dc, Ax, hasAsyncSCSI ; -; UNUSED vIndirect $205C, $02e0, Ax, hasAsyncSCSI ; Recorder.a -CallOldXPT vIndirect $205C, $02e4, A7, hasAsyncSCSI ; SCSIGlue.a -; UNUSED vIndirect $205C, $02e8, Ax, hasAsyncSCSI ; SCSIGlue.a -; UNUSED vIndirect $205C, $02ec, Ax, hasAsyncSCSI ; SCSIGlue.a -; UNUSED vIndirect $205C, $02f0, Ax, hasAsyncSCSI ; SCSIGlue.a -SIMaction vIndirect $205C, $02f4, A1, hasAsyncSCSI ; SIMCore.c -NewOldCall vIndirect $205C, $02f8, A1, hasAsyncSCSI ; SIMCore.c -SIMinit vIndirect $205C, $02fc, A1, hasAsyncSCSI ; SIMCore.c -SIM_ISR vIndirect $205C, $0300, A1, hasAsyncSCSI ; SIMCore.c -ResetSIM vIndirect $205C, $0304, A1, hasAsyncSCSI ; SIMCore.c -ResetDevice vIndirect $205C, $0308, A1, hasAsyncSCSI ; SIMCore.c -TerminateIO vIndirect $205C, $030c, A1, hasAsyncSCSI ; SIMCore.c -AbortCommand vIndirect $205C, $0310, A1, hasAsyncSCSI ; SIMCore.c -SetTempXPTg vIndirect $205C, $0314, A1, hasAsyncSCSI ; XPT.c -EnQIO vIndirect $205C, $0318, A1, hasAsyncSCSI ; SIMQ.c -DeQIO vIndirect $205C, $031c, A1, hasAsyncSCSI ; SIMQ.c -GetNextReadyIO vIndirect $205C, $0320, A1, hasAsyncSCSI ; SIMQ.c -ResetQueues vIndirect $205C, $0324, A1, hasAsyncSCSI ; SIMQ.c -GetNextAutoSense vIndirect $205C, $0328, A1, hasAsyncSCSI ; SIMQ.c -FindIO vIndirect $205C, $032c, A1, hasAsyncSCSI ; SIMQ.c -SwitchQ vIndirect $205C, $0330, A1, hasAsyncSCSI ; SIMQ.c -; UNUSED vIndirect $205C, $0334, Ax, hasAsyncSCSI ; SIMmachine.a -; UNUSED vIndirect $205C, $0338, Ax, hasAsyncSCSI ; SIMmachine.a -VMEnableUserCode vIndirect $205C, $033c, A7, hasAsyncSCSI ; SIMmachine.a -VMDisableUserCode vIndirect $205C, $0340, A7, hasAsyncSCSI ; SIMmachine.a -TheMachine vIndirect $205C, $0344, A1, hasAsyncSCSI ; SIMmachine.c -Reconnect vIndirect $205C, $0348, A1, hasAsyncSCSI ; SIMmachine.c -SwitchPhase vIndirect $205C, $034c, A1, hasAsyncSCSI ; SIMmachine.c -FreeMachine vIndirect $205C, $0350, A1, hasAsyncSCSI ; SIMmachine.c -StartMachine vIndirect $205C, $0354, A1, hasAsyncSCSI ; SIMmachine.c -NewIOStartMachine vIndirect $205C, $0358, A1, hasAsyncSCSI ; SIMmachine.c -; UNUSED vIndirect $205C, $035c, Ax, hasAsyncSCSI ; SIMmachine.c -CompleteIO vIndirect $205C, $0360, A1, hasAsyncSCSI ; SIMmachine.c -; UNUSED vIndirect $205C, $0364, Ax, hasAsyncSCSI ; SIMmachine.c -CheckErrors vIndirect $205C, $0368, A1, hasAsyncSCSI ; SIMmachine.c -SetupSensePB vIndirect $205C, $036c, A1, hasAsyncSCSI ; SIMmachine.c -COMPAUTOSENSE vIndirect $205C, $0370, A1, hasAsyncSCSI ; SIMmachine.c -ValidatePB vIndirect $205C, $0374, A1, hasAsyncSCSI ; SIMmachine.c -StartTimer vIndirect $205C, $0378, A1, hasAsyncSCSI ; Timeout.c -SIMTimerProc vIndirect $205C, $037c, A7, hasAsyncSCSI ; Timeout.c -; UNUSED vIndirect $205C, $0380, Ax, hasAsyncSCSI ; XPT.a -; UNUSED vIndirect $205C, $0384, Ax, hasAsyncSCSI ; XPT.a -; UNUSED vIndirect $205C, $0388, Ax, hasAsyncSCSI ; XPT.a -; UNUSED vIndirect $205C, $038c, Ax, hasAsyncSCSI ; XPT.a -; UNUSED vIndirect $205C, $0390, Ax, hasAsyncSCSI ; XPT.a -; UNUSED vIndirect $205C, $0394, Ax, hasAsyncSCSI ; XPT.c -; UNUSED vIndirect $205C, $0398, Ax, hasAsyncSCSI ; XPT.c -; UNUSED vIndirect $205C, $039c, Ax, hasAsyncSCSI ; XPT.c -XPTRegisterBus vIndirect $205C, $03a0, A1, hasAsyncSCSI ; XPT.c -XPTDeregisterBus vIndirect $205C, $03a4, A1, hasAsyncSCSI ; XPT.c -XPTAction vIndirect $205C, $03a8, A1, hasAsyncSCSI ; XPT.c -CallSIMaction vIndirect $205C, $03ac, A1, hasAsyncSCSI ; XPT.c -SyncWait vIndirect $205C, $03b0, A1, hasAsyncSCSI ; XPT.c -XPTKillXPT vIndirect $205C, $03b4, A1, hasAsyncSCSI ; XPT.c -DispatchISR vIndirect $205C, $03b8, A1, hasAsyncSCSI ; XPT.c -SetRefNum vIndirect $205C, $03bc, A1, hasAsyncSCSI ; XPT.c -GetRefNum vIndirect $205C, $03c0, A1, hasAsyncSCSI ; XPT.c -RemoveRefNum vIndirect $205C, $03c4, A1, hasAsyncSCSI ; XPT.c -CallCompRoutine vIndirect $205C, $03c8, A1, hasAsyncSCSI ; XPT.c -XPTReregisterBus vIndirect $205C, $03cc, A1, hasAsyncSCSI ; XPT.c -SCSIXLATE vIndirect $205C, $03d0, A7, hasAsyncSCSI ; XPTSCSIXlate.a -; UNUSED vIndirect $205C, $03d4, Ax, hasAsyncSCSI ; -Clear vIndirect $205C, $03d8, A1, hasAsyncSCSI ; XPTfunctions.c -; UNUSED vIndirect $205C, $03dc, Ax, hasAsyncSCSI ; -OldSCSICall vIndirect $205C, $03e0, A1, hasAsyncSCSI ; XPToldCall.c -EnumPhaseToSCSIStat vIndirect $205C, $03e4, A1, hasAsyncSCSI ; XPToldCall.c -CallSIMNewOldCall vIndirect $205C, $03e8, A1, hasAsyncSCSI ; XPToldCall.c -OldCallWait vIndirect $205C, $03ec, A1, hasAsyncSCSI ; XPToldCall.c -getTimerPB vIndirect $205C, $03f0, A7, hasAsyncSCSI ; timeout.a - - -SIMCoreRegisterHAL vNoVector -FindIOFromID vNoVector - -AttemptDriverLoad vNoVector - -InitXPT vNoVector -SetXPTg vNoVector -XlateOldSCSIGlobals vNoVector -Init_SCSIXlate vNoVector -InitRecorder vNoVector -InitItt vNoVector -TestFor_SCSI96_1Exists vNoVector -TestFor_SCSI96_2Exists vNoVector -TestFor_PSCExists vNoVector -WtForFIFOData vNoVector -Init53c9xSW vNoVector -OldSCSIExists vNoVector -SCSITrap vNoVector -getCurrentA5 vNoVector -restoreCurrentA5 vNoVector -InitSyncWait vNoVector -RemoveSyncWait vNoVector -ReconnectISR vNoVector -BlockInterrupts vNoVector -UnblockInterrupts vNoVector -Install_ISR vNoVector -OneByteRead vNoVector -OneByteWrite vNoVector -Xfer1Byte96 vNoVector -SlowRead96 vNoVector -FastRead96 vNoVector -SlowWrite96 vNoVector -FastWrite96 vNoVector -Init53c9xHW vNoVector -Initc96Asm vNoVector -AsmInit53c9xHW vNoVector -HALinit vNoVector -GetHalInfo vNoVector -HALSyncConfig vNoVector -HALTeardownIO vNoVector -HALAssertATN vNoVector -HALResetBus vNoVector -HALIntPoll vNoVector -CallBusInquiry vNoVector -HALaction vNoVector -CallCompRoutineGlue vNoVector -Ck4IgnoreCmdShOptDel vNoVector -Ck4OnlyLoadFromDefault vNoVector -AutoMsgIn vNoVector -HandleBusInt vNoVector -InitHW_SCSI96_BIOS vNoVector -DoWeHaveFastSCSI vNoVector -DataIn_DMA1x1 vNoVector -DataOut_DMA1x1 vNoVector -InitAMIC vNoVector -HALc96DataBIOS vNoVector -OneByteWrite_BIOS vNoVector -OneByteRead_BIOS vNoVector -FastWrite_96_BIOS vNoVector -FastRead_96_BIOS vNoVector -DeferAndWait vNoVector -DataDTask vNoVector -RemoveBEH96 vNoVector -InstallBEH96 vNoVector -CEnqueueHead vNoVector -TestFor_OrwellExists vNoVector -TestFor_djMEMCExists vNoVector -IllegalInstr vNoVector -UnimplementedATrap vNoVector -VMRunning vNoVector -InitXPTAsm vNoVector -Ck4EjectableVolume vNoVector -DummyOldCallRead vNoVector -ReInitHAL vNoVector -HALInitCommon vNoVector -InitHW_AMIC vNoVector -InitSW_AMIC vNoVector -SetupIOAMIC vNoVector -TeardownIOAMIC vNoVector -InitHW_PSC vNoVector -InitSW_PSC vNoVector -SetupIOPSC vNoVector -TeardownIOPSC vNoVector - -HALc96 vDataTable ; HALc96.a -HALc96Data vDataTable ; HALc96Data.a -HALc96Init vDataTable ; HALc96Init.a - -;——— Internally Dispatched Entry points -DoInitiate vNoVector -DoBitBucket vNoVector -DoDataIn vNoVector -DoDataOut vNoVector -DoAcceptMsg vNoVector -DoMsgIn vNoVector -DoMsgOut vNoVector -DoStatus vNoVector -DoComplete vNoVector -DoSaveDataPointer vNoVector -DoModifyDataPointer vNoVector -DoRestorePointers vNoVector -GetReconnectInfo vNoVector -GetSelectInfo vNoVector -DoSelect vNoVector -DoSelectWAtn vNoVector -DoCommand vNoVector -SetParity vNoVector -SetupIONoDMA vNoVector -DoReset vNoVector -DoAssertATN vNoVector -TeardownIONoDMA vNoVector -HandleSelected vNoVector - -;——— Internally Dispatched (Non-entry points) -InitDataBuffer vNoVector -InitDataTIB vNoVector -InitDataSG vNoVector -DoDataBuffer vNoVector -DoDataTIB vNoVector -DoDataSG vNoVector -DataIn_DMA vNoVector -DataOut_DMA vNoVector -CyclePhase vNoVector -BusErrHandler96 vNoVector - -;——— Internally Vectored (Non-entry points) -Wt4SelectComplete vNoVector -StartPSC vNoVector ; HALc96PSC.a -PausePSC vNoVector ; HALc96PSC.a -Wt4PSCComplete vNoVector ; HALc96PSC.a -StopPSCRead vNoVector ; HALc96PSC.a -StopPSCWrite vNoVector ; HALc96PSC.a -StartAMIC vNoVector ; HALc96AMIC.a -Wt4AMICComplete vNoVector ; HALc96AMIC.a -StopAMICRead vNoVector ; HALc96AMIC.a -StopAMICWrite vNoVector ; HALc96AMIC.a -DMAInitSW vNoVector ; HALc96PSC.c -HALc96Routines vNoVector ; HALc96Routines.a -SizeOfGlobals vNoVector ; HALc96Routines.a -HAL_SingleISR vNoVector ; HALc96Routines.a -InterruptLevel vNoVector ; XPT.a -DEFERREDCALL vNoVector ; XPT.a -InitDataStuff vNoVector -TeardownIO vNoVector -Init53x9xRegs vNoVector -HAL_DualISR vNoVector -TestFor_HMCDecoder vNoVector -SetLoadFlag vNoVector -SOpenDriver vNoVector -HAL_NoISR vNoVector -DMAInitHW vNoVector -SetupIOPB vNoVector -TeardownIOPB vNoVector -ITTGESTALT vNoVector -XPT_ISR0 vNoVector -XPT_ISR1 vNoVector -XPT_ISR2 vNoVector -XPT_ISR3 vNoVector -XPT_ISR4 vNoVector -XPT_ISR5 vNoVector -XPT_ISR6 vNoVector -XPT_ISR7 vNoVector -XPT_ISR8 vNoVector -XPT_ISR9 vNoVector -XPT_ISRa vNoVector -XPT_ISRb vNoVector -XPT_ISRc vNoVector -XPT_ISRd vNoVector -XPT_ISRe vNoVector -XPT_ISRf vNoVector -ReadInitiatorID vNoVector -GetInitiatorID vNoVector - -;——— Non-vectored but we don't want them vectored (debugging or init things) -ISITT vNoVector -INITSCSIBOOT vNoVector -ITTBOOT vNoVector -RecordError vNoVector - -;============================== End SCSI Manager Vectors - ;============================== Script Manager Vectors GETIDENTRY vIndirect $2060, $0004, A7 ; {sources}Toolbox:ScriptMgr:DblByteCompat.a @@ -3485,6 +2501,9 @@ INTLTOKENIZE vIndirect $2060, $01dc, A7 ; {sources}Toolbox:ScriptMgr:Script MAXOLDDATE vDataTable ; {sources}Objects:ROM:ScriptMgr.lib SECSINDAYX vDataTable ; {sources}Objects:ROM:ScriptMgr.lib +SCRIPTMGR_VEC01E0 vIndirect $2060, $01e0, A7 +SCRIPTMGR_VEC01E4 vIndirect $2060, $01e4, A7 + ;============================== End Script Manager Vectors ;============================== Segment Loader Vectors @@ -3525,8 +2544,8 @@ UPDATEEMUWARMSTART vIndirect $2068, $002C, A7 ; {sources}Toolbox:ShutDownMgr ;============================== Original SuperMario Team Names -MAGICNAME vIndirect $206C, $0004, A7 ; Ricardo's attempt to hide the name strings -MAGIC vIndirect $206C, $0008, A7 ; can be found in {Sources}OS:MagicData.a +MAGICNAME vNoVector ; Ricardo's attempt to hide the name strings +MAGIC vNoVector ; can be found in {Sources}OS:MagicData.a ;============================== Original SuperMario Team Names @@ -3563,8 +2582,8 @@ CARDCHANGED vIndirect $206C, $003c, A7 ; {sources}OS:SlotMgr:SlotMgr.a SLOTEXEC vIndirect $206C, $0040, A7 ; {sources}OS:SlotMgr:SlotMgr.a CALCSPOINTER vIndirect $206C, $0044, A7 ; {sources}OS:SlotMgr:SlotMgr.a GETSLOTDRVR vIndirect $206C, $0048, A7 ; {sources}OS:SlotMgr:SlotMgr.a -GETDRIVERPATCH vIndirect $206C, $004c, A7, has2MegROMOrMore ; {sources}OS:SlotMgr:SlotMgr.a -GETDEVINDEX vIndirect $206C, $0050, A7, has2MegROMOrMore ; {sources}OS:SlotMgr:SlotMgr.a +GETDRIVERPATCH vNoVector ; {sources}OS:SlotMgr:SlotMgr.a +GETDEVINDEX vNoVector ; {sources}OS:SlotMgr:SlotMgr.a JSRTBL vDataTable ; {sources}OS:SlotMgr:SlotMgr.a READSLOTPRAM vIndirect $206C, $0054, A7 ; {sources}OS:SlotMgr:SlotMgr.a PUTSLOTPRAM vIndirect $206C, $0058, A7 ; {sources}OS:SlotMgr:SlotMgr.a @@ -3623,124 +2642,6 @@ SECONDARYEND vNoVector ; {sources}OS:SlotMgr:SlotMgrInit.a ;============================== End Slot Manager Vectors -;============================== Sound Manager Vectors - -AcceptInitOptions vIndirect $2070, $0004, A7 ; {sources}Toolbox:SoundMgr: -AddToHead vIndirect $2070, $0008, A7 ; {sources}Toolbox:SoundMgr: -CancelWaitCallback vIndirect $2070, $000c, A7 ; {sources}Toolbox:SoundMgr: -ClearASCInt vIndirect $2070, $0010, A7 ; {sources}Toolbox:SoundMgr: -ClearStandardASCInterrupt vNoVector -CloseOutputDevice vIndirect $2070, $0018, A7 ; {sources}Toolbox:SoundMgr: -__Comp3to1 vIndirect $2070, $001c, A7 ; {sources}Toolbox:SoundMgr: -__Comp6to1 vIndirect $2070, $0020, A7 ; {sources}Toolbox:SoundMgr: -CountMatchingBits vIndirect $2070, $0024, A7 ; {sources}Toolbox:SoundMgr: -DisableASCInts vIndirect $2070, $0028, A7 ; {sources}Toolbox:SoundMgr: -DisableStandardASCInterrupt vNoVector -DispAddTool vIndirect $2070, $0030, A7 ; {sources}Toolbox:SoundMgr: -DispFuncDisp vIndirect $2070, $0034, A7 ; {sources}Toolbox:SoundMgr: -DispRemTool vNoVector -DispToolAddr vNoVector -DispVersion vNoVector -DoNothing vNoVector -DOUBLEBUFFERCOMPLETE vIndirect $2070, $0048, A7 ; {sources}Toolbox:SoundMgr: -EnableASCInts vIndirect $2070, $004c, A7 ; {sources}Toolbox:SoundMgr: -EnableStandardASCInterrupt vNoVector -__Exp1to3 vIndirect $2070, $0054, A7 ; {sources}Toolbox:SoundMgr: -__Exp1to6 vIndirect $2070, $0058, A7 ; {sources}Toolbox:SoundMgr: -GetBuiltInDevice vIndirect $2070, $005c, A7 ; {sources}Toolbox:SoundMgr: -GetHardwareVolume vIndirect $2070, $0060, A7 ; {sources}Toolbox:SoundMgr: -GetSoundAttributes vIndirect $2070, $0064, A7 ; {sources}Toolbox:SoundMgr: -GetThisComponent vIndirect $2070, $0068, A7 ; {sources}Toolbox:SoundMgr: -HGetFCBInfo vIndirect $2070, $006c, A7 ; {sources}Toolbox:SoundMgr: -InitSoundMgr vNoVector ; {sources}Toolbox:SoundMgr: -InitSndDispatch vIndirect $2070, $0074, A7 ; {sources}Toolbox:SoundMgr: -InitWaveBuffer vIndirect $2070, $0078, A7 ; {sources}Toolbox:SoundMgr: -InsertInQueue vIndirect $2070, $007c, A7 ; {sources}Toolbox:SoundMgr: -InstallNewGlobals vIndirect $2070, $0080, A7 ; {sources}Toolbox:SoundMgr: -InstallSoundIntHandler vIndirect $2070, $0084, A7 ; {sources}Toolbox:SoundMgr: -IsDeadProcess vIndirect $2070, $0088, A7 ; {sources}Toolbox:SoundMgr: -IsUnknownChannel vIndirect $2070, $008c, A7 ; {sources}Toolbox:SoundMgr: -LoadSoundInputDriver vIndirect $2070, $0090, A7 ; {sources}Toolbox:SoundMgr: -MACEDispatch vIndirect $2070, $0094, A7 ; {sources}Toolbox:SoundMgr: -MakeFlags vIndirect $2070, $0098, A7 ; {sources}Toolbox:SoundMgr: -NEXTDOUBLEBUFFER vIndirect $2070, $009c, A7 ; {sources}Toolbox:SoundMgr: -NextFromQueue vIndirect $2070, $00a0, A7 ; {sources}Toolbox:SoundMgr: -NEXTNOTEBUFFER vIndirect $2070, $00a4, A7 ; {sources}Toolbox:SoundMgr: -NEXTWAVEBUFFER vIndirect $2070, $00a8, A7 ; {sources}Toolbox:SoundMgr: -OpenOutputDevice vIndirect $2070, $00ac, A7 ; {sources}Toolbox:SoundMgr: -OpenPreferenceFile vIndirect $2070, $00b0, A7 ; {sources}Toolbox:SoundMgr: -PowerTable vDataTable ; {sources}Toolbox:SoundMgr: -PrepChannel vIndirect $2070, $00b8, A7 ; {sources}Toolbox:SoundMgr: -PrepDoubleBuffer vIndirect $2070, $00bc, A7 ; {sources}Toolbox:SoundMgr: -PrepNoteBuffer vIndirect $2070, $00c0, A7 ; {sources}Toolbox:SoundMgr: -PrepSoundParamBlock vIndirect $2070, $00c4, A7 ; {sources}Toolbox:SoundMgr: -PrepWaveBuffer vIndirect $2070, $00c8, A7 ; {sources}Toolbox:SoundMgr: -ProcessCmd vIndirect $2070, $00cc, A7 ; {sources}Toolbox:SoundMgr: -ProcessNextCmd vIndirect $2070, $00d0, A7 ; {sources}Toolbox:SoundMgr: -PumpSndResource vIndirect $2070, $00d4, A7 ; {sources}Toolbox:SoundMgr: -QuantizeSample vNoVector -SadismDispatch vIndirect $2070, $00dc, A7 ; {sources}Toolbox:SoundMgr: -SadismJmpTable vNoVector -SamplesToBytes vNoVector -ScheduleWaitCallback vIndirect $2070, $00e8, A7 ; {sources}Toolbox:SoundMgr: -SetChannelType vIndirect $2070, $00ec, A7 ; {sources}Toolbox:SoundMgr: -SetSoundHeader vIndirect $2070, $00f0, A7 ; {sources}Toolbox:SoundMgr: -SetTimbre vIndirect $2070, $00f4, A7 ; {sources}Toolbox:SoundMgr: -SetUpSifter vIndirect $2070, $00f8, A7 ; {sources}Toolbox:SoundMgr: -SetupSoundInterruptVectors vIndirect $2070, $00fc, A7 ; {sources}Toolbox:SoundMgr: -SetWaveTable vIndirect $2070, $0100, A7 ; {sources}Toolbox:SoundMgr: -SineTable vDataTable ; {sources}Toolbox:SoundMgr: -SndManagerDispatch vIndirect $2070, $0108, A7 ; {sources}Toolbox:SoundMgr: -SndManagerJmpTable vNoVector ; {sources}Toolbox:SoundMgr: -SOUNDCOMPLETE vIndirect $2070, $0110, A7 ; {sources}Toolbox:SoundMgr: -SoundDispatcher vIndirect $2070, $0114, A7 ; {sources}Toolbox:SoundMgr: -SoundInDispatch vIndirect $2070, $0118, A7 ; {sources}Toolbox:SoundMgr: -SoundIntHandler vIndirect $2070, $011c, A7 ; {sources}Toolbox:SoundMgr: -StartSyncedSounds vIndirect $2070, $0120, A7 ; {sources}Toolbox:SoundMgr: -TryRomBeep vIndirect $2070, $0124, A7 ; {sources}Toolbox:SoundMgr: -TwelthPower vIndirect $2070, $0128, A7 ; {sources}Toolbox:SoundMgr: -UnimplFunction vIndirect $2070, $012c, A7 ; {sources}Toolbox:SoundMgr: -WAITCOMPLETION vIndirect $2070, $0130, A7 ; {sources}Toolbox:SoundMgr: -__CLOSEMIXERCOMPONENT vIndirect $2070, $0134, A7 ; {sources}Toolbox:SoundMgr: -__DISPOSESOUNDGLOBALS vIndirect $2070, $0138, A7 ; {sources}Toolbox:SoundMgr: -__GETCOMPRESSIONINFO vIndirect $2070, $013c, A7 ; {sources}Toolbox:SoundMgr: -__GETDEFAULTOUTPUTVOLUME vIndirect $2070, $0140, A7 ; {sources}Toolbox:SoundMgr: -__GETDEFAULTSOUNDOUTPUT vIndirect $2070, $0144, A7 ; {sources}Toolbox:SoundMgr: -__GETSOUNDHEADEROFFSET vIndirect $2070, $0148, A7 ; {sources}Toolbox:SoundMgr: -__GETSOUNDPREFERENCE vIndirect $2070, $014c, A7 ; {sources}Toolbox:SoundMgr: -__GETSYSBEEPVOLUME vIndirect $2070, $0150, A7 ; {sources}Toolbox:SoundMgr: -__MAKESIFTERCHAIN vIndirect $2070, $0154, A7 ; {sources}Toolbox:SoundMgr: -__MulDivU vIndirect $2070, $0158, A7 ; {sources}Toolbox:SoundMgr: -__OPENMIXERCOMPONENT vIndirect $2070, $015c, A7 ; {sources}Toolbox:SoundMgr: -__SETDEFAULTOUTPUTVOLUME vIndirect $2070, $0160, A7 ; {sources}Toolbox:SoundMgr: -__SETDEFAULTSOUNDOUTPUT vIndirect $2070, $0164, A7 ; {sources}Toolbox:SoundMgr: -__SETSOUNDPREFERENCE vIndirect $2070, $0168, A7 ; {sources}Toolbox:SoundMgr: -__SETSOUNDVOL vNoVector -__SETSYSBEEPVOLUME vIndirect $2070, $0170, A7 ; {sources}Toolbox:SoundMgr: -__SNDADDMODIFIER vIndirect $2070, $0174, A7 ; {sources}Toolbox:SoundMgr: -__SNDAPPDEAD vIndirect $2070, $0178, A7 ; {sources}Toolbox:SoundMgr: -__SNDCHANNELSTATUS vIndirect $2070, $017c, A7 ; {sources}Toolbox:SoundMgr: -__SNDCONTROL vIndirect $2070, $0180, A7 ; {sources}Toolbox:SoundMgr: -__SNDDISPOSECHANNEL vIndirect $2070, $0184, A7 ; {sources}Toolbox:SoundMgr: -__SNDDOCOMMAND vIndirect $2070, $0188, A7 ; {sources}Toolbox:SoundMgr: -__SNDDOIMMEDIATE vIndirect $2070, $018c, A7 ; {sources}Toolbox:SoundMgr: -__SNDGETSYSBEEPSTATE vIndirect $2070, $0190, A7 ; {sources}Toolbox:SoundMgr: -__SNDMANAGERSTATUS vIndirect $2070, $0194, A7 ; {sources}Toolbox:SoundMgr: -__SNDNEWCHANNEL vIndirect $2070, $0198, A7 ; {sources}Toolbox:SoundMgr: -__SNDPLAY vIndirect $2070, $019c, A7 ; {sources}Toolbox:SoundMgr: -__SNDPLAYDOUBLEBUFFER vIndirect $2070, $01a0, A7 ; {sources}Toolbox:SoundMgr: -__SNDSETSYSBEEPSTATE vIndirect $2070, $01a4, A7 ; {sources}Toolbox:SoundMgr: -__SNDSOUNDMANAGERVERSION vIndirect $2070, $01a8, A7 ; {sources}Toolbox:SoundMgr: -__SYSBEEP vIndirect $2070, $01ac, A7 ; {sources}Toolbox:SoundMgr: - -DELTA_TABLE vDataTable ; {sources}Toolbox:SoundMgr:Tables.3.a -MIN2_TABLE vDataTable ; {sources}Toolbox:SoundMgr:Tables.3.a -MIN3_TABLE vDataTable ; {sources}Toolbox:SoundMgr:Tables.3.a -IQUADEL2_TABLE vDataTable ; {sources}Toolbox:SoundMgr:Tables.3.a -IQUADEL3_TABLE vDataTable ; {sources}Toolbox:SoundMgr:Tables.3.a - -;============================== End Sound Manager Vectors - ;============================== Start Manager Vectors SIZEMEMORY vNoVector ; {sources}OS:StartMgr:SizeMem.a ALLOCFAKERGNS vNoVector ; {sources}OS:StartMgr:StartAlert.a @@ -3904,101 +2805,6 @@ SONIC_Test vNoVector ; {sources}OS:StartMgr:UnivTestEnv:SONIC_Test.c ;============================== End Start Manager Vectors -;============================== Text Services Manager Vectors - -TSMDISPATCH vATrap A??? ; {sources}Toolbox:TextServicesMgr:TSMExtension.a -XINITTSMAWAREAPPLICATION vIndirect $2078, $0004, A7 ; {sources}Toolbox:TextServicesMgr:TSMExtension.a -xInitTSMAwareDriver vIndirect $2078, $0008, A7 ; {sources}Toolbox:TextServicesMgr:TSMExtension.a -utaRecordDocumentID vIndirect $2078, $000c, A7 ; {sources}Toolbox:TextServicesMgr:TSMExtension.a -utaRemoveDocumentID vIndirect $2078, $0010, A7 ; {sources}Toolbox:TextServicesMgr:TSMExtension.a -utaUpdateAppFlagInPSNTable vIndirect $2078, $0014, A7 ; {sources}Toolbox:TextServicesMgr:TSMExtension.a -utaUpdateDocFlagInPSNTable vIndirect $2078, $0018, A7 ; {sources}Toolbox:TextServicesMgr:TSMExtension.a -utaTSMAwareApplicationP vIndirect $2078, $001c, A7 ; {sources}Toolbox:TextServicesMgr:TSMExtension.a -XCLOSETSMAWAREAPPLICATION vIndirect $2078, $0020, A7 ; {sources}Toolbox:TextServicesMgr:TSMExtension.a -utCloseAppCommon vIndirect $2078, $0024, A7 ; {sources}Toolbox:TextServicesMgr:TSMExtension.a -UTAGETTSMAWAREDOCTABLE vIndirect $2078, $0028, A7 ; {sources}Toolbox:TextServicesMgr:TSMExtension.a -UTAGETTSMAPPRECORDPTR vIndirect $2078, $002c, A7 ; {sources}Toolbox:TextServicesMgr:TSMExtension.a -UTAGETAPPSUSEINPUTWINDOWFLAG vIndirect $2078, $0030, A7 ; {sources}Toolbox:TextServicesMgr:TSMExtension.a -UTAISAPPTSMAWAREANDNOTUSINGIW vIndirect $2078, $0034, A7 ; {sources}Toolbox:TextServicesMgr:TSMExtension.a -XINFORMTSM vIndirect $2078, $0038, A7 ; {sources}Toolbox:TextServicesMgr:TSMExtension.a -TSMGestalt vIndirect $2078, $003c, A7 ; {sources}Toolbox:TextServicesMgr:TSMExtension.a -TSMGRINSTALL vIndirect $2078, $0040, A7 ; {sources}Toolbox:TextServicesMgr:TSMExtension.a -OLDJAPANESEINPUTMETHODEXISTS vIndirect $2078, $0044, A7 ; {sources}Toolbox:TextServicesMgr:TSMExtension.a -utNewTSMDocument vIndirect $2078, $0048, A1 ; {sources}Toolbox:TextServicesMgr:TSMFunctions.c -XNEWTSMDOCUMENT4SWM vIndirect $2078, $004c, A1 ; {sources}Toolbox:TextServicesMgr:TSMFunctions.c -XNEWTSMDOCUMENT vIndirect $2078, $0050, A1 ; {sources}Toolbox:TextServicesMgr:TSMFunctions.c -XDELETETSMDOCUMENT vIndirect $2078, $0054, A1 ; {sources}Toolbox:TextServicesMgr:TSMFunctions.c -XDEACTIVATETSMDOCUMENT vIndirect $2078, $0058, A1 ; {sources}Toolbox:TextServicesMgr:TSMFunctions.c -XACTIVATETSMDOCUMENT vIndirect $2078, $005c, A1 ; {sources}Toolbox:TextServicesMgr:TSMFunctions.c -utTSMEvent2InputMethod vIndirect $2078, $0060, A1 ; {sources}Toolbox:TextServicesMgr:TSMFunctions.c -XTSMEVENTFROMSWM vIndirect $2078, $0064, A1 ; {sources}Toolbox:TextServicesMgr:TSMFunctions.c -XTSMEVENT vIndirect $2078, $0068, A1 ; {sources}Toolbox:TextServicesMgr:TSMFunctions.c -XTSMMENUSELECT vIndirect $2078, $006c, A1 ; {sources}Toolbox:TextServicesMgr:TSMFunctions.c -XFIXTSMDOCUMENT vIndirect $2078, $0070, A1 ; {sources}Toolbox:TextServicesMgr:TSMFunctions.c -XSETTSMCURSOR vIndirect $2078, $0074, A1 ; {sources}Toolbox:TextServicesMgr:TSMFunctions.c -XGETSERVICELIST vIndirect $2078, $0078, A1 ; {sources}Toolbox:TextServicesMgr:TSMFunctions.c -XOPENTEXTSERVICE vIndirect $2078, $007c, A1 ; {sources}Toolbox:TextServicesMgr:TSMFunctions.c -XCLOSETEXTSERVICE vIndirect $2078, $0080, A1 ; {sources}Toolbox:TextServicesMgr:TSMFunctions.c -utMapInstance2Refcon vIndirect $2078, $0084, A1 ; {sources}Toolbox:TextServicesMgr:TSMFunctions.c -XSENDAETOCLIENT vIndirect $2078, $0088, A1 ; {sources}Toolbox:TextServicesMgr:TSMFunctions.c -utJustDeactivateIM4Document vIndirect $2078, $008c, A1 ; {sources}Toolbox:TextServicesMgr:TSMInternalUtils.c -utBadSandL vIndirect $2078, $0090, A1 ; {sources}Toolbox:TextServicesMgr:TSMInternalUtils.c -utVerifyTSMDocID vIndirect $2078, $0094, A1 ; {sources}Toolbox:TextServicesMgr:TSMInternalUtils.c -utAppendTS2Document vIndirect $2078, $0098, A1 ; {sources}Toolbox:TextServicesMgr:TSMInternalUtils.c -utMakeRoom4SInfoHandle vIndirect $2078, $009c, A1 ; {sources}Toolbox:TextServicesMgr:TSMInternalUtils.c -utHidePaletteAndMenu vIndirect $2078, $00a0, A1 ; {sources}Toolbox:TextServicesMgr:TSMInternalUtils.c -utCleanUpPreviousDoc vIndirect $2078, $00a4, A1 ; {sources}Toolbox:TextServicesMgr:TSMInternalUtils.c -utCreateSystemVersionOfMenu vIndirect $2078, $00a8, A1 ; {sources}Toolbox:TextServicesMgr:TSMInternalUtils.c -utActivateIM4Document vIndirect $2078, $00ac, A1 ; {sources}Toolbox:TextServicesMgr:TSMInternalUtils.c -utDeactivateIMforDocument vIndirect $2078, $00b0, A1 ; {sources}Toolbox:TextServicesMgr:TSMInternalUtils.c -utDeleteCleanUpTSMDocument vIndirect $2078, $00b4, A1 ; {sources}Toolbox:TextServicesMgr:TSMInternalUtils.c -utCloseIM4Document vIndirect $2078, $00b8, A1 ; {sources}Toolbox:TextServicesMgr:TSMInternalUtils.c -utDeleteInputMethodsPreviousMenu vIndirect $2078, $00bc, A1 ; {sources}Toolbox:TextServicesMgr:TSMInternalUtils.c -utCheckSysHeapSlop vIndirect $2078, $00c0, A1 ; {sources}Toolbox:TextServicesMgr:TSMInternalUtils.c -utOpenIM4Document vIndirect $2078, $00c4, A1 ; {sources}Toolbox:TextServicesMgr:TSMInternalUtils.c -utOpenActivateDefaultIM vIndirect $2078, $00c8, A1 ; {sources}Toolbox:TextServicesMgr:TSMInternalUtils.c -utActivateThisDocsInputMethod vIndirect $2078, $00cc, A1 ; {sources}Toolbox:TextServicesMgr:TSMInternalUtils.c -utSupportedSL vIndirect $2078, $00d0, A1 ; {sources}Toolbox:TextServicesMgr:TSMInternalUtils.c -utScriptIsNotCCJK vIndirect $2078, $00d4, A1 ; {sources}Toolbox:TextServicesMgr:TSMInternalUtils.c -utScriptIsCCJKAndNeedsIM vIndirect $2078, $00d8, A1 ; {sources}Toolbox:TextServicesMgr:TSMInternalUtils.c -utInformPMgr vIndirect $2078, $00dc, A1 ; {sources}Toolbox:TextServicesMgr:TSMInternalUtils.c -utDocNeedsInputMethod vIndirect $2078, $00e0, A1 ; {sources}Toolbox:TextServicesMgr:TSMInternalUtils.c -utGetScriptIndex vIndirect $2078, $00e4, A1 ; {sources}Toolbox:TextServicesMgr:TSMInternalUtils.c -utGetTSMDefaultInputMethod vIndirect $2078, $00e8, A1 ; {sources}Toolbox:TextServicesMgr:TSMInternalUtils.c -utSLRec2CompFlag vIndirect $2078, $00ec, A1 ; {sources}Toolbox:TextServicesMgr:TSMInternalUtils.c -utChangeToOldJIM vIndirect $2078, $00f0, A1 ; {sources}Toolbox:TextServicesMgr:TSMInternalUtils.c -utSuspendResumeApp vIndirect $2078, $00f4, A1 ; {sources}Toolbox:TextServicesMgr:TSMInternalUtils.c -utAddTSMResource vIndirect $2078, $00f8, A1 ; {sources}Toolbox:TextServicesMgr:TSMInternalUtils.c -utUpdateDefaultInputMethodResource vIndirect $2078, $00fc, A1 ; {sources}Toolbox:TextServicesMgr:TSMInternalUtils.c -utFixDocumentAndCloseSWMWindow vIndirect $2078, $0100, A1 ; {sources}Toolbox:TextServicesMgr:TSMInternalUtils.c -utCloseSWMWindow vIndirect $2078, $0104, A1 ; {sources}Toolbox:TextServicesMgr:TSMInternalUtils.c -utDeleteMenu vIndirect $2078, $0108, A1 ; {sources}Toolbox:TextServicesMgr:TSMInternalUtils.c -utDeleteSysMenu vIndirect $2078, $010c, A1 ; {sources}Toolbox:TextServicesMgr:TSMInternalUtils.c -utSwapZone vIndirect $2078, $0110, A1 ; {sources}Toolbox:TextServicesMgr:TSMInternalUtils.c -XSETDEFAULTINPUTMETHOD vIndirect $2078, $0114, A1 ; {sources}Toolbox:TextServicesMgr:TSMUtility.c -XGETDEFAULTINPUTMETHOD vIndirect $2078, $0118, A1 ; {sources}Toolbox:TextServicesMgr:TSMUtility.c -XSETTEXTSERVICELANGUAGE vIndirect $2078, $011c, A1 ; {sources}Toolbox:TextServicesMgr:TSMUtility.c -XGETTEXTSERVICELANGUAGE vIndirect $2078, $0120, A1 ; {sources}Toolbox:TextServicesMgr:TSMUtility.c -XUSEINPUTWINDOW vIndirect $2078, $0124, A1 ; {sources}Toolbox:TextServicesMgr:TSMUtility.c -XNEWSERVICEWINDOW vIndirect $2078, $0128, A1 ; {sources}Toolbox:TextServicesMgr:TSMUtility.c -XCLOSESERVICEWINDOW vIndirect $2078, $012c, A1 ; {sources}Toolbox:TextServicesMgr:TSMUtility.c -XGETFRONTSERVICEWINDOW vIndirect $2078, $0130, A1 ; {sources}Toolbox:TextServicesMgr:TSMUtility.c -XFINDSERVICEWINDOW vIndirect $2078, $0134, A1 ; {sources}Toolbox:TextServicesMgr:TSMUtility.c -MISCMGR vNoVector ; {sources}Toolbox:ToolboxEventMgr:ToolboxEventMgr.a -GETKEYS vATrap A??? ; {sources}Toolbox:ToolboxEventMgr:ToolboxEventMgr.a -BUTTON vATrap A??? ; {sources}Toolbox:ToolboxEventMgr:ToolboxEventMgr.a -TICKCOUNT vATrap A??? ; {sources}Toolbox:ToolboxEventMgr:ToolboxEventMgr.a -GETMOUSE vATrap A??? ; {sources}Toolbox:ToolboxEventMgr:ToolboxEventMgr.a -STILLDOWN vATrap A??? ; {sources}Toolbox:ToolboxEventMgr:ToolboxEventMgr.a -WAITMOUSEUP vATrap A??? ; {sources}Toolbox:ToolboxEventMgr:ToolboxEventMgr.a -EVENTAVAIL vATrap A??? ; {sources}Toolbox:ToolboxEventMgr:ToolboxEventMgr.a -GETNEXTEVENT vATrap A??? ; {sources}Toolbox:ToolboxEventMgr:ToolboxEventMgr.a -WAITNEXTEVENT vATrap A??? ; {sources}Toolbox:ToolboxEventMgr:ToolboxEventMgr.a -DOSYSERRORUPDATES vATrap A??? ; {sources}Toolbox:ToolboxEventMgr:ToolboxEventMgrPatches.a -CLEARSYSERRORUPDATERECT vIndirect $2078, $0138, A7 ; {sources}Toolbox:ToolboxEventMgr:ToolboxEventMgrPatches.a - -;============================== End Text Services Manager Vectors - ;============================== TextEdit Vectors TEXTEDIT vNoVector ; {sources}Toolbox:TextEdit:TextEdit.a @@ -4084,14 +2890,14 @@ TEGETOFFSET vATrap A??? ; {sources}Toolbox:TextEdit:TextEdit.a TIMEMGR vNoVector ; {sources}OS:TimeMgr:TimeMgr.a __RMVTIME vATrap A??? ; {sources}OS:TimeMgr:TimeMgr.a -AFTERFREEZETIMEINRMVTIME vIndirect $2080, $0004, A7 ; {sources}OS:TimeMgr:TimeMgr.a +AFTERFREEZETIMEINRMVTIME vNoVector ; {sources}OS:TimeMgr:TimeMgr.a __INSTIME vATrap A??? ; {sources}OS:TimeMgr:TimeMgr.a -MULTANDMERGE vIndirect $2080, $0008, A7 ; {sources}OS:TimeMgr:TimeMgr.a +MULTANDMERGE vNoVector ; {sources}OS:TimeMgr:TimeMgr.a __PRIMETIME vATrap A??? ; {sources}OS:TimeMgr:TimeMgr.a -AFTERFREEZETIMEINPRIMETIME vIndirect $2080, $000c, A7 ; {sources}OS:TimeMgr:TimeMgr.a -AFTERFREEZETIMEINTIMER2INT vIndirect $2080, $0010, A7 ; {sources}OS:TimeMgr:TimeMgr.a +AFTERFREEZETIMEINPRIMETIME vNoVector ; {sources}OS:TimeMgr:TimeMgr.a +AFTERFREEZETIMEINTIMER2INT vNoVector ; {sources}OS:TimeMgr:TimeMgr.a __MICROSECONDS vATrap A??? ; {sources}OS:TimeMgr:TimeMgr.a -FREEZETIME vIndirect $2080, $0014, A7 ; {sources}OS:TimeMgr:TimeMgr.a +FREEZETIME vNoVector ; {sources}OS:TimeMgr:TimeMgr.a INITTIMEMGR vNoVector ; {sources}OS:TimeMgr:TimeMgr.a ;============================== End Time Manager Vectors @@ -4285,166 +3091,94 @@ FASTERVALIDRECT vATrap A??? ; {sources}Toolbox:WindowMgr:WindowMgrExte FASTERINVALRECT vATrap A??? ; {sources}Toolbox:WindowMgr:WindowMgrExtensions.a ACTIVATEPALETTELAYERBRACKET vATrap A??? ; {sources}Toolbox:WindowMgr:WindowMgrExtensions.a GETREARWINDOW vIndirect $2084, $01d0, A7 ; {sources}Toolbox:WindowMgr:WindowMgrExtensions.a +__MARKDIRTY vIndirect $2084, $01d4, A1 ; {sources}Toolbox:WindowMgr:LayerMgr.c ;============================== End Window Manager Vectors -;============================== Figment Memory Manager Vectors +;============================== Expansion Bus Manager Vectors +DevTreeRoot vIndirect $208c, $0004, A7 ; _ExpansionBusDispatch selector 4 +EXPANSIONBUSMGR_VEC0008 vIndirect $208c, $0008, A7 ; _ExpansionBusDispatch selector 21 +EXPANSIONBUSMGR_VEC000C vIndirect $208c, $000c, A7 ; _ExpansionBusDispatch selector 22 +EXPANSIONBUSMGR_VEC0010 vIndirect $208c, $0010, A7 ; _ExpansionBusDispatch selector 23 +EXPANSIONBUSMGR_VEC0014 vIndirect $208c, $0014, A7 ; _ExpansionBusDispatch selector 24 +EXPANSIONBUSMGR_VEC0018 vIndirect $208c, $0018, A7 ; _ExpansionBusDispatch selector 30 +EXPANSIONBUSMGR_VEC001C vIndirect $208c, $001c, A7 ; _ExpansionBusDispatch selector 31 +ExpVRemove vIndirect $208c, $0020, A7 ; _ExpansionBusDispatch selector 3 +DevTreeDelNode vIndirect $208c, $0024, A7 ; _ExpansionBusDispatch selector 7 +DevTreeSetProperty vIndirect $208c, $0028, A7 ; _ExpansionBusDispatch selector 8 +EXPANSIONBUSMGR_VEC002C vIndirect $208c, $002c, A7 ; _ExpansionBusDispatch selector 15 +EXPANSIONBUSMGR_VEC0030 vIndirect $208c, $0030, A7 ; _ExpansionBusDispatch selector 16 +DevTreeGetProperty vIndirect $208c, $0034, A7 ; _ExpansionBusDispatch selector 9 +EXPANSIONBUSMGR_VEC0038 vIndirect $208c, $0038, A7 ; _ExpansionBusDispatch selector 11 +EXPANSIONBUSMGR_VEC003C vIndirect $208c, $003c, A7 ; _ExpansionBusDispatch selector 10 +EXPANSIONBUSMGR_VEC0040 vIndirect $208c, $0040, A7 ; _ExpansionBusDispatch selector 12 +DevTreeAddNode vIndirect $208c, $0044, A7 ; _ExpansionBusDispatch selector 6 +DevTreeNodeInfo vIndirect $208c, $0048, A7 ; _ExpansionBusDispatch selector 5 +EXPANSIONBUSMGR_VEC004C vIndirect $208c, $004c, A7 ; _ExpansionBusDispatch selector 13 +EXPANSIONBUSMGR_VEC0050 vIndirect $208c, $0050, A7 ; _ExpansionBusDispatch selector 14 +ExpMgrConfigReadByte vIndirect $208c, $0054, A7 ; _ExpansionBusDispatch selector 32 +ExpMgrConfigReadWord vIndirect $208c, $0058, A7 ; _ExpansionBusDispatch selector 33 +ExpMgrConfigReadLong vIndirect $208c, $005c, A7 ; _ExpansionBusDispatch selector 34 +ExpMgrConfigWriteByte vIndirect $208c, $0060, A7 ; _ExpansionBusDispatch selector 35 +ExpMgrConfigWriteWord vIndirect $208c, $0064, A7 ; _ExpansionBusDispatch selector 36 +ExpMgrConfigWriteLong vIndirect $208c, $0068, A7 ; _ExpansionBusDispatch selector 37 +ExpMgrIOReadByte vIndirect $208c, $006c, A7 ; _ExpansionBusDispatch selector 38 +ExpMgrIOReadWord vIndirect $208c, $0070, A7 ; _ExpansionBusDispatch selector 39 +ExpMgrIOReadLong vIndirect $208c, $0074, A7 ; _ExpansionBusDispatch selector 40 +ExpMgrIOWriteByte vIndirect $208c, $0078, A7 ; _ExpansionBusDispatch selector 41 +ExpMgrIOWriteWord vIndirect $208c, $007c, A7 ; _ExpansionBusDispatch selector 42 +ExpMgrIOWriteLong vIndirect $208c, $0080, A7 ; _ExpansionBusDispatch selector 43 +ExpMgrInterruptAcknowledgeReadByte vIndirect $208c, $0084, A7 ; _ExpansionBusDispatch selector 17 +ExpMgrInterruptAcknowledgeReadWord vIndirect $208c, $0088, A7 ; _ExpansionBusDispatch selector 18 +ExpMgrInterruptAcknowledgeReadLong vIndirect $208c, $008c, A7 ; _ExpansionBusDispatch selector 19 +ExpMgrSpecialCycleWriteLong vIndirect $208c, $0090, A7 ; _ExpansionBusDispatch selector 25 +ExpMgrSpecialCycleBroadcastLong vIndirect $208c, $0094, A7 ; _ExpansionBusDispatch selector 26 +ExpMgrRestorePropsFromPrefFile vIndirect $208c, $0098, A7 ; _ExpansionBusDispatch selector 44 +ExpMgrLoadExptsFromExtnFolder vIndirect $208c, $0100, A7 ; _ExpansionBusDispatch selector 29 +EXPANSIONBUSMGR_VEC0104 vIndirect $208c, $0104, A7 +EXPANSIONBUSMGR_VEC0108 vIndirect $208c, $0108, A7 +EXPANSIONBUSMGR_VEC010C vIndirect $208c, $010c, A7 +EXPANSIONBUSMGR_VEC0110 vIndirect $208c, $0110, A7 +EXPANSIONBUSMGR_VEC0114 vIndirect $208c, $0114, A7 +EXPANSIONBUSMGR_VEC0118 vIndirect $208c, $0118, A7 +EXPANSIONBUSMGR_VEC011C vIndirect $208c, $011c, A7 ; _ExpansionBusDispatch selector 46 +EXPANSIONBUSMGR_VEC0120 vIndirect $208c, $0120, A7 ; _ExpansionBusDispatch selector 47 +EXPANSIONBUSMGR_VEC0124 vIndirect $208c, $0124, A7 ; _ExpansionBusDispatch selector 45 +EXPANSIONBUSMGR_VEC012C vIndirect $208c, $012c, A7 +EXPANSIONBUSMGR_VEC0130 vIndirect $208c, $0130, A7 ; _ExpansionBusDispatch selector 48 +EXPANSIONBUSMGR_VEC0134 vIndirect $208c, $0134, A7 ; _ExpansionBusDispatch selector 49 +EXPANSIONBUSMGR_VEC0138 vIndirect $208c, $0138, A7 ; _ExpansionBusDispatch selector 20 +EXPANSIONBUSMGR_VEC014C vIndirect $208c, $014c, A7 +EXPANSIONBUSMGR_VEC0150 vIndirect $208c, $0150, A7 +EXPANSIONBUSMGR_VEC0154 vIndirect $208c, $0154, A7 +EXPANSIONBUSMGR_VEC0158 vIndirect $208c, $0158, A7 +EXPANSIONBUSMGR_VEC015C vIndirect $208c, $015c, A7 +EXPANSIONBUSMGR_VEC0160 vIndirect $208c, $0160, A7 +EXPANSIONBUSMGR_VEC0164 vIndirect $208c, $0164, A7 +EXPANSIONBUSMGR_VEC0168 vIndirect $208c, $0168, A7 +EXPANSIONBUSMGR_VEC016C vIndirect $208c, $016c, A7 +EXPANSIONBUSMGR_VEC0170 vIndirect $208c, $0170, A7 +EXPANSIONBUSMGR_VEC0174 vIndirect $208c, $0174, A7 +EXPANSIONBUSMGR_VEC0178 vIndirect $208c, $0178, A7 +EXPANSIONBUSMGR_VEC017C vIndirect $208c, $017c, A7 +EXPANSIONBUSMGR_VEC0180 vIndirect $208c, $0180, A7 +EXPANSIONBUSMGR_VEC0184 vIndirect $208c, $0184, A7 +EXPANSIONBUSMGR_VEC0188 vIndirect $208c, $0188, A7 +EXPANSIONBUSMGR_VEC018C vIndirect $208c, $018c, A7 +EXPANSIONBUSMGR_VEC0190 vIndirect $208c, $0190, A7 +EXPANSIONBUSMGR_VEC0194 vIndirect $208c, $0194, A7 +EXPANSIONBUSMGR_VEC0198 vIndirect $208c, $0198, A7 +EXPANSIONBUSMGR_VEC019C vIndirect $208c, $019c, A7 +EXPANSIONBUSMGR_VEC01A0 vIndirect $208c, $01a0, A7 +EXPANSIONBUSMGR_VEC01A4 vIndirect $208c, $01a4, A7 +EXPANSIONBUSMGR_VEC01A8 vIndirect $208c, $01a8, A7 +EXPANSIONBUSMGR_VEC01AC vIndirect $208c, $01ac, A7 +EXPANSIONBUSMGR_VEC01B0 vIndirect $208c, $01b0, A7 +EXPANSIONBUSMGR_VEC01B4 vIndirect $208c, $01b4, A7 -HEAPDISPATCH vIndirect $2088, $0004, A7 ; Figment -FIG_HSETFLAGS vIndirect $2088, $0008, A7 ; Figment -FIG_HGETFLAGS vIndirect $2088, $000c, A7 ; Figment -FIG_HNORSRC vIndirect $2088, $0010, A7 ; Figment -FIG_HRSRC vIndirect $2088, $0014, A7 ; Figment -FIG_STACKSPACETRAP vIndirect $2088, $0018, A7 ; Figment -FIG_PURGESPACETRAP vIndirect $2088, $001c, A7 ; Figment -FIG_MAXBLOCKTRAP vIndirect $2088, $0020, A7 ; Figment -FIG_MOVEHLOW vIndirect $2088, $0024, A7 ; Figment -FIG_MOVEHHI vIndirect $2088, $0028, A7 ; Figment -FIG_SETGROWZONE vIndirect $2088, $002c, A7 ; Figment -FIG_HNOPURGE vIndirect $2088, $0030, A7 ; Figment -FIG_HPURGE vIndirect $2088, $0034, A7 ; Figment -FIG_HUNLOCK vIndirect $2088, $0038, A7 ; Figment -FIG_HLOCK vIndirect $2088, $003c, A7 ; Figment -FIG_EMPTYHANDLE vIndirect $2088, $0040, A7 ; Figment -FIG_PURGEMEM vIndirect $2088, $0044, A7 ; Figment -FIG_RESRVMEM vIndirect $2088, $0048, A7 ; Figment -FIG_COMPACTMEMTRAP vIndirect $2088, $004c, A7 ; Figment -FIG_MAXMEMTRAP vIndirect $2088, $0050, A7 ; Figment -FIG_FREEMEM vIndirect $2088, $0054, A7 ; Figment -FIG_PTRZONETRAP vIndirect $2088, $0058, A7 ; Figment -FIG_SETPTRSIZETRAP vIndirect $2088, $005c, A7 ; Figment -FIG_GETPTRSIZETRAP vIndirect $2088, $0060, A7 ; Figment -FIG_DISPOSEPTR vIndirect $2088, $0064, A7 ; Figment -FIG_NEWPTRTRAP vIndirect $2088, $0068, A7 ; Figment -FIG_REALLOCHANDLETRAP vIndirect $2088, $006c, A7 ; Figment -FIG_RECOVERHANDLETRAP vIndirect $2088, $0070, A7 ; Figment -FIG_HANDLEZONETRAP vIndirect $2088, $0074, A7 ; Figment -FIG_SETHANDLESIZETRAP vIndirect $2088, $0078, A7 ; Figment -FIG___GETHANDLESIZE vIndirect $2088, $007c, A7 ; Figment -FIG_DSPOSEHANDLE vIndirect $2088, $0080, A7 ; Figment -FIG_NEWEMPTYHANDLETRAP vIndirect $2088, $0084, A7 ; Figment -FIG_NWHANDLE vIndirect $2088, $0088, A7 ; Figment -FIG_SETZONE vIndirect $2088, $008c, A7 ; Figment -FIG_GETZONE vIndirect $2088, $0090, A7 ; Figment -FIG_MOREMASTERS vIndirect $2088, $0094, A7 ; Figment -FIG_MAXAPPLZONE vIndirect $2088, $0098, A7 ; Figment -FIG_SETAPPLLIMIT vIndirect $2088, $009c, A7 ; Figment -FIG_INITZONETRAP vIndirect $2088, $00a0, A7 ; Figment -c_InitZone vIndirect $2088, $00a4, A7 ; Figment -c_SetApplLimit vIndirect $2088, $00a8, A7 ; Figment -c_MaxApplZone vIndirect $2088, $00ac, A7 ; Figment -c_MoreMasters vIndirect $2088, $00b0, A7 ; Figment -c_GetZone vIndirect $2088, $00b4, A7 ; Figment -c_SetZone vIndirect $2088, $00b8, A7 ; Figment -c_NewHandle vIndirect $2088, $00bc, A7 ; Figment -c_NewEmptyHandle vIndirect $2088, $00c0, A7 ; Figment -c_NewHandleHi vIndirect $2088, $00c4, A7 ; Figment -c_DisposeHandle vIndirect $2088, $00c8, A7 ; Figment -c_GetHandleSize vIndirect $2088, $00cc, A7 ; Figment -c_SetHandleSize vIndirect $2088, $00d0, A7 ; Figment -c_HandleZone vIndirect $2088, $00d4, A7 ; Figment -c_RecoverHandle vIndirect $2088, $00d8, A7 ; Figment -c_ReallocHandle vIndirect $2088, $00dc, A7 ; Figment -c_NewPtr vIndirect $2088, $00e0, A7 ; Figment -c_DisposePtr vIndirect $2088, $00e4, A7 ; Figment -c_GetPtrSize vIndirect $2088, $00e8, A7 ; Figment -c_SetPtrSize vIndirect $2088, $00ec, A7 ; Figment -c_PtrZone vIndirect $2088, $00f0, A7 ; Figment -c_FreeMem vIndirect $2088, $00f4, A7 ; Figment -c_MaxMem vIndirect $2088, $00f8, A7 ; Figment -c_CompactMem vIndirect $2088, $00fc, A7 ; Figment -c_ReserveMem vIndirect $2088, $0100, A7 ; Figment -c_PurgeMem vIndirect $2088, $0104, A7 ; Figment -c_EmptyHandle vIndirect $2088, $0108, A7 ; Figment -c_HLock vIndirect $2088, $010c, A7 ; Figment -c_HUnlock vIndirect $2088, $0110, A7 ; Figment -c_HPurge vIndirect $2088, $0114, A7 ; Figment -c_HNoPurge vIndirect $2088, $0118, A7 ; Figment -c_SetGrowZone vIndirect $2088, $011c, A7 ; Figment -c_MoveHHi vIndirect $2088, $0120, A7 ; Figment -c_MoveHLow vIndirect $2088, $0124, A7 ; Figment -c_MaxBlock vIndirect $2088, $0128, A7 ; Figment -c_PurgeSpace vIndirect $2088, $012c, A7 ; Figment -c_StackSpace vIndirect $2088, $00130, A7 ; Figment -c_HSetRBit vIndirect $2088, $0134, A7 ; Figment -c_HClrRBit vIndirect $2088, $0138, A7 ; Figment -c_HGetState vIndirect $2088, $013c, A7 ; Figment -c_HSetState vIndirect $2088, $0140, A7 ; Figment -c_GetNextBlockInHeap vIndirect $2088, $0144, A7 ; Figment -c_DisposeZone vIndirect $2088, $0148, A7 ; Figment -c_SetZoneCompatibilityFlags vIndirect $2088, $014c, A7 ; Figment -c_GetZoneCompatibilityFlags vIndirect $2088, $0150, A7 ; Figment -c_RegisterDisposeProc vIndirect $2088, $0154, A7 ; Figment -GetZoneFromNilMP vIndirect $2088, $0158, A7 ; Figment -WalkUpFindNewLowRemoveable vIndirect $2088, $015c, A7 ; Figment -FixedBlockInRange vIndirect $2088, $0160, A7 ; Figment -CompactHeap vIndirect $2088, $0164, A7 ; Figment -CalcMaxBlockSize vIndirect $2088, $0168, A7 ; Figment -ExtendHeapLimit vIndirect $2088, $016c, A7 ; Figment -ExtendApplLimit vIndirect $2088, $0170, A7 ; Figment -MakeSpaceLow vIndirect $2088, $0174, A7 ; Figment -MakeSpaceHigh vIndirect $2088, $0178, A7 ; Figment -ShrinkHeapLimit vIndirect $2088, $017c, A7 ; Figment -NewBlock vIndirect $2088, $0180, A7 ; Figment -NewBlockFast vIndirect $2088, $0184, A7 ; Figment -MarkBlockAsPrivate vIndirect $2088, $0188, A7 ; Figment -AllocateMoreMasters vIndirect $2088, $018c, A7 ; Figment -KillBlock vIndirect $2088, $0190, A7 ; Figment -SetBlockSize vIndirect $2088, $0194, A7 ; Figment -CalcFreeSpaceAndFindRegionTop vIndirect $2088, $0198, A7 ; Figment -MoveBlockHigh vIndirect $2088, $019c, A7 ; Figment -MoveBlockLow vIndirect $2088, $01a0, A7 ; Figment -CalcLargestPurgeRegion vIndirect $2088, $01a4, A7 ; Figment -PurgeBlock vIndirect $2088, $01a8, A7 ; Figment -DoEmpty vIndirect $2088, $01ac, A7 ; Figment -LocatePurgePtr vIndirect $2088, $01b0, A7 ; Figment -PurgeAndMakeSpace vIndirect $2088, $01b4, A7 ; Figment -PurgeAndCompactHeap vIndirect $2088, $01b8, A7 ; Figment -FindHeap vIndirect $2088, $01bc, A7 ; Figment -FindBlockInHeap vIndirect $2088, $01c0, A7 ; Figment -IsValidBlockInHeap vIndirect $2088, $01c4, A7 ; Figment -CreateNewHeap vIndirect $2088, $01c8, A7 ; Figment -MoveHeapHeaderHigh vIndirect $2088, $01cc, A7 ; Figment -RemoveHeap vIndirect $2088, $01d0, A7 ; Figment -GrowHeap vIndirect $2088, $01d4, A7 ; Figment -ShrinkHeap vIndirect $2088, $01d8, A7 ; Figment -CLEARBYTES vIndirect $2088, $01dc, A7 ; Figment -FillBytes vIndirect $2088, $01e0, A7 ; Figment -c_InitProcessMgrHeap vIndirect $2088, $01e4, A7 ; Figment -c_ShrinkSysHeap vIndirect $2088, $01e8, A7 ; Figment -c_LowerProcessMgrZoneBottom vIndirect $2088, $01ec, A7 ; Figment -c_ShrinkProcessMgrZone vIndirect $2088, $01f0, A7 ; Figment -c_ExtendSystemZone vIndirect $2088, $01f4, A7 ; Figment -c_ReclaimSpaceIfSysHeapLow vIndirect $2088, $01f8, A7 ; Figment -c_StraddleBlockSize vIndirect $2088, $01fc, A7 ; Figment -c_ProcessMgrMaxBlock vIndirect $2088, $0200, A7 ; Figment -c_GetProcessMgrLoFreeBytes vIndirect $2088, $0204, A7 ; Figment -c_GetSystemHiFreeBytes vIndirect $2088, $0208, A7 ; Figment -GetSystemHiPurgeBytes vIndirect $2088, $020c, A7 ; Figment -FIG_VIAZPOSTINIT vIndirect $2088, $0210, A7 ; Figment -FIG_VIAZINIT vIndirect $2088, $0214, A7 ; Figment -FIG_INITAPPLZONE vIndirect $2088, $0218, A7 ; Figment -FIG_SETAPPLBASE vIndirect $2088, $021c, A7 ; Figment -FIG___STRIPADDRESS vIndirect $2088, $0220, A7 ; Figment -MOVEBYTES020 vIndirect $2088, $0224, A7 ; Figment -MOVEBYTES040 vIndirect $2088, $0228, A7 ; Figment -INITQTMEMORY vIndirect $2088, $022c, A7 ; Figment -addTrashMemoryProc vIndirect $2088, $0230, A7 ; Figment -removeTrashMemoryProc vIndirect $2088, $0234, A7 ; Figment -c_RegisterHandleTrashNotification vIndirect $2088, $0238, A7 ; Figment -c_UnregisterHandleTrashNotification vIndirect $2088, $023c, A7 ; Figment -c_TrashZone vIndirect $2088, $0240, A7 ; Figment -c_TrashProcess vIndirect $2088, $0244, A7 ; Figment -c_TrashMemoryArea vIndirect $2088, $0248, A7 ; Figment -c_NewHandleSystemSafe vIndirect $2088, $024c, A7 ; Figment -c_NewPtrSystemSafe vIndirect $2088, $0250, A7 ; Figment -c_EnoughSystemHeapSlop vIndirect $2088, $0254, A7 ; Figment -OLD_INITMEMMGR vIndirect $2088, $0258, A7 ; Figment -OLD_INITMEMVECT vIndirect $2088, $025c, A7 ; Figment -OLD_AFTERBOOTSETAPPLBASE vIndirect $2088, $0260, A7 ; Figment +;============================== End Expansion Bus Manager Vectors -;============================== End Figment Memory Manager Vectors ; ; The following list of entrypoints are not currently vectorized. diff --git a/OS/ADBMgr/ADBMgr.a b/OS/ADBMgr/ADBMgr.a --- a/OS/ADBMgr/ADBMgr.a +++ b/OS/ADBMgr/ADBMgr.a @@ -559,37 +559,74 @@ RequestDone move.l a0,-(sp) ; copy buffer address to A0 save area on stack TestFor SupportsIdle BEQ.S @notsupported - _IdleUpdate ; this is activity, stay at full speed + + MoveA.L (PmgrBase), A1 + CmpI.L #sleepConst, PmgrRec.SleepSaveFlag(A1) + BEQ.B @definitelyNot + BTst.B #$2, $129(A1) + BEQ.B @nearEnd +@definitelyNot + + Move.L (A7), D3 + Move.B D3, D0 + LsR.B #$4, D0 + Bsr FindFDBInfo + Move.B $1(A1), D0 + MoveA.L $4(A7), A1 + Move.L (A1), D3 + CmpI.B #$2, D0 + BNE.B @noTesting + BTst.L #$17, D3 + BNE.B @idleDone + Bra.B @nearEnd +@noTesting + MoveA.L (PmgrBase), A1 + CmpI.L #sleepConst, PmgrRec.SleepSaveFlag(A1) + BEQ.B @idleDone + CmpI.B #$3, D0 + BNE.B @idleDone +@nearEnd + Move.L D0, -(A7) + Move.L #$10001, D0 + _PowerDispatch + Move.L (A7)+, D0 +@idleDone @notsupported movem.l (sp)+,d0/a0/a1/a2 ; setup cmd, buffer, handler, data - ; (13).start - TestFor SupportsIdle - beq.s @continue - move.l d0,-(sp) ; save d0 temporarily on the stack ag - move.l #((UsrActivity<<16)|\ ; set for user activity - (IdleUpdateDisp<<0)),d0 ; idle update selector - _PowerDispatch ; call power manager - move.l (sp)+,d0 ; restore d0 ag -@continue move.l a1,d1 ; test to see if handler address is valid beq.s @noHandler ; if not, don't call it BTST #fDBInit,FDBFlag(A3) ; is ADB initialization in progress? BNE.S @JustDoIt ; -> yes, calling the handler now is allowed + MOVE.L D0,D2 + AND #$F,D2 + CMP.B #$C,D2 + BNE @justDoIt + ; jump thru the ProductInfo table to check if a keyswitch is in the secure position

MOVEA.L UnivInfoPtr,A1 ; point to the ProductInfo table

ADDA.L ProductInfo.ADBDebugUtilPtr(A1),A1 ; and get the address of its ADB table

MOVE.L 4*adbKeySwSecure(A1),D2 ; get the offset to the keyswitch code

- BEQ.S @JustDoIt ; -> no keyswitch check, so just call the handler

+ BEQ.S @MaybeDoIt ; -> no keyswitch check, so just call the handler

MOVEM.L D0/D1/A0/A2,-(SP) ;

ADDA.L D2,A1 ; calculate the routine's address

JSR (A1) ; and call it

MOVEM.L (SP)+,D0/D1/A0/A2 ;

BEQ.S @noHandler ; -> the keyswitch is secure, so don't call the handler +@MaybeDoIt BTST.B #3,$240A + BEQ.S @JustDoIt + + MOVE.L PmgrBase,A1 + CMP.L #sleepConst,PmgrRec.SleepSaveFlag(A1) + BEQ.S @noHandler + + BTST.B #2,PmgrRec.PmgrFlags2(A1) + BNE.B @noHandler + @JustDoIt MOVEA.L D1,A1 ; get the handler's address

jsr (a1) ; call the handler @@ -735,7 +772,7 @@ PostInit ; rb InitADBDrvr _CountADBs ; get the number of valid ADB entries Move D0,D3 ; save it in D3 - BEQ.S DoneSrv ; If none, nothing to do + BEQ DoneSrv ; If none, nothing to do MoveQ #1,D4 ; start at first entry Link A6,#iLocalData ; reserve stack frame FSrvLoop @@ -759,9 +796,7 @@ FSrvLoop _DetachResource ; detach it Move.L D1,A0 ; put handle in A0 - Move.L (A0),D0 ; dereference handle - _StripAddress ; make it a 24-bit address - Move.L D0,A0 ; put it in A0 + Move.L (A0),A0 ; dereference handle Move.B iADBAddr(A6),D0 ; put ADB Address in D0 Move.B iDeviceTy(A6),D1 ; put device type in D1 JSR (A0) ; execute the service routine @@ -796,6 +831,50 @@ InitADB MOVE.L #FDBDSize,D0 ; get local data area length LEA FDBTask,A0 ; setup the FDB VBL task MOVE.L A0,JKybdTask ; lomem vector + BTst.B #$2, ($2408) + BEQ.B @dontHitExpandMem + import BetaInitADB + Lea.L BetaInitADB, A0 + Move.L A0, ([ExpandMem],$294) +@dontHitExpandMem + + Move.L UnivROMFlags, D0 + + AndI.L #$E, D0 + BEQ.B @escape + + CmpI.L #$A, D0 + BEQ.B @escape + + CmpI.L #$C, D0 + BEQ.B @second + + CmpI.L #$8, D0 + BEQ.B @fourth + + CmpI.L #$2, D0 + BNE.B @third + +@first Lea.L ($FFFDB592).L, A0 + Lea.L @first(A0.L), A0 + Bra.B @done + +@second Lea.L ($FFFDB5A2).L, A0 + Lea.L @second(A0.L), A0 + Bra.B @done + +@third Lea.L ($FFFDB5CE).L, A0 + Lea.L @third(A0.L), A0 + Bra.B @done + +@fourth Lea.L ($FFFDB5DE).L, A0 + Lea.L @fourth(A0.L), A0 + +@done MoveA.L (UnivInfoPtr), A1 + SubA.L A1, A0 + Move.L A0, $48(A1) +@escape + ; jump thru the ProductInfo table to call the hardware-dependent initialization code MOVEA.L UnivInfoPtr,A0 ; point to the ProductInfo table

@@ -853,17 +932,19 @@ InitDevT bsr BusReset ; reset all devices on the bus @PollNext move.b d0,InitAddr(a3) ; save device address bsr TalkR3 ; issue a Talk R3 command (asynchronously) move.b InitAddr(a3),d0 ; restore poll address - tst.b (a0)+ ; test reply length, see if device returned data + tst.b (a0) ; test reply length, see if device returned data beq.s @NoDevice ; no, nothing to install ; there is a response from the device in the address, so update the ; device table according to the device +@whoaGoBack moveq.l #0,d1 ; zero extend for indexing move.b DevTOffset(a3),d1 ; get offset to devicetable - move.b 1(a0),FDBDevTy(a3,d1.w) ; copy device handler ID into table + move.b 2(a0),FDBDevTy(a3,d1.w) ; copy device handler ID into table move.b d0,FDBOAddr(a3,d1.w); save device address move.b d0,FDBAddr(a3,d1.w) ; save device address + move.b d0,FDBOAddr(a3,d1.w); save device address cmpi.b #KbdAddr,d0 ; is it a keyboard type device? bne.s @notKbd ; no, branch @@ -878,10 +959,29 @@ InitDevT bsr BusReset ; reset all devices on the bus move.w HasDev(a3),d2 ; get value in HasDev bset.l d0,d2 ; remember which address has device move.w d2,HasDev(A3) ; save it + Bra @skipNewNoDeviceCode @NoDevice + + BTst.B #$2, ($2408) + BEQ.B @skipNewNoDeviceCode + + Tst.L ([$2B6],$29C) + BEQ.B @skipNewNoDeviceCode + + MoveM.L D0/A0-A3, -(A7) + MoveA.L ([$2B6],$29C), A1 + MoveA.L A0, A2 + AndI #$FF, D0 + OrI #$200, D0 + Jsr (A1) + MoveM.L (A7)+, D0/A0-A3 + Tst.B (A0) + BNE.B @whoaGoBack +@skipNewNoDeviceCode + addq.b #1,d0 ; advance device address cmpi.b #NumFDBAdr,d0 ; has it polled all addresses yet? - bne.s @PollNext ; no, go to poll next device + bne @PollNext ; no, go to poll next device ; ChgAddr - check the device address to identify multiple devices on ; the same address @@ -922,7 +1022,7 @@ ChgNext ; to the old address by issuing a Listen R3. Move.B InitAddr(A3),D0 ; get address - BSR.s TalkR3 ; issue a Talk R3 command <1.6> + BSR TalkR3 ; issue a Talk R3 command <1.6> ; MovBack - A Talk R3 has just been issued, a timeout in S1 indicates no ; more device in original address, we want to move the device back to @@ -931,21 +1031,40 @@ ChgNext tst.b (a0) ; did the device return data beq.S @1 ; no, branch ; no timeout indication, - BSR.S CopyEntry ; copy entry into device table +@whoaGoBack + BSR CopyEntry ; copy entry into device table Move.B FDBByte1(A3),FDBDevTy(A3,D1.W) ; get new handle ID into table BRA.S ChgNext ; go to change next device ; there is timeout indication @1 + BTst.B #$2, ($2408) + BEQ.B @skipNewTimeoutCode + + Move.B $16F(A3), D0 + Tst.L ([$2B6],$29C) + BEQ.B @skipNewTimeoutCode + + MoveM.L D0/A1-A2, -(A7) + MoveA.L ([$2B6],$29C), A1 + MoveA.L A0, A2 + AndI #$FF, D0 + OrI #$300, D0 + Jsr (A1) + MoveM.L (A7)+, D0/A1-A2 + Tst.B (A0) + BNE.B @whoaGoBack +@skipNewTimeoutCode + Move.B InitAddr(A3),D1 ; get address to change back to Move.B NewAddr(A3),D0 ; get address to talk to - bsr.s ListenR3 ; send a listen R3 command <1.6> + bsr ListenR3 ; send a listen R3 command <1.6> ; CKNewAdr - check the new address by issuing a Talk R3, to see if ; there is still any device left. If yes, add entry into device ; table, but if not, just go to change next device address Move.B NewAddr(A3),D0 ; get address - BSR.S TalkR3 ; issue a talk R3 <1.6> + BSR TalkR3 ; issue a talk R3 <1.6> ; AddEntry - a Talk R3 command has just been issed to the new address, ; if there is no timeout in S1, one or more device is still in that @@ -1167,6 +1286,7 @@ waitForKeys equ (4+4) ; add 100% margin @type cmp.b #kbdAddr,origADBAddr(a0); is this a keyboard bne.s @next ; not a keyboard, next device bsr.s sendFlush ; send a flush command to kbd + bsr.s newAdbFunc bra.s @next ; next device @done movea.l #waitForKeys,a0 ; wait for keys @@ -1176,6 +1296,31 @@ waitForKeys equ (4+4) ; add 100% margin movem.l (sp)+,@saved ; restore registers rts + +;______________________________________________________________________ +; +; Routine: newAdbFunc +; Arguments: a0 +; Output: none +; Function: +; Note: +;______________________________________________________________________ + +newAdbFunc +@saved reg d0/d1/a0 + + movem.l @saved,-(sp) + + move.l 6(a0),a0 + addq.l #4,a0 + clr.l (a0)+ + clr.l (a0) + bsr RSetKmap + + movem.l (sp)+,@saved ; restore registers + rts + + ;______________________________________________________________________ ; ; Routine: sendFlush @@ -1606,6 +1751,13 @@ FirstInstall MOVE.L D0, A0 MOVE.L (A0), KCHRPtr(A2) ; Dereference and put away + MOVE.L A1, -(SP) + MOVE.L ExpandMem, A1 + TST.L ExpandMemRec.emKeyCache(A1) + BNE.S @no + MOVE.L (A0), ExpandMemRec.emKeyCache(A1) +@no MOVE.L (SP)+, A1 + SUBQ.L #4, SP ; Make room for result MOVE.L #'KMAP', -(SP) ; ResType = KCHR CLR.W -(SP) ; theID = 0 @@ -1909,7 +2061,7 @@ KeyTrans ; Macintosh keyboard mapping hook, which relies on the new KeyTrans trap. ; ----------------------------------------------------------------------------- -KeyHook PROC +KeyHook PROC EXPORT with ExpandMemRec bra.s SkipHeader ; skip the header. diff --git a/OS/Clock.a b/OS/Clock.a --- a/OS/Clock.a +++ b/OS/Clock.a @@ -151,7 +151,7 @@ Clock PROC EXPORT ;_______________________________________________________________________ OneSecInt MOVE.B #1< - ADDQ.L #1,Time ; count the second + NOP BCLR #5,AlarmState ; flag GNEFilter to flash if enabled TST.B SPVolCtl ; bit 7 is alarm enable @@ -322,14 +322,16 @@ ValidatePRAM (8<<0),D3 ; starting at PRAM address 8

BSR PramIO ; write out the last 4 bytes of original PRAM

+ LEA @other,A3 + MOVE.L #(1<<31)|\ ; write + (1<<16)|\ ; 1 byte + (16<<0),D3 ; starting at PRAM address 16 + BSR PramIO + @CheckXPRAM LEA @XPRAMSig,A3 ;

MOVE.L 12(SP),D3 ; are the extended PRAM signature bytes valid?

CMP.L (A3),D3 ;

BEQ.S @Done ; -> yes, we're done

- MOVE.L #(1<<31)|\ ; write

- (4<<16)|\ ; 4 bytes

- (12<<0),D3 ; starting at PRAM address 12

- BSR PramIO ; write out the correct extended PRAM signature bytes

MOVEA.L SP,A3 ; point to our stack buffer

MOVEQ #(256-32)/4-1,D3 ; and zero each byte

@@ -337,8 +339,11 @@ ValidatePRAM DBRA D3,@ClearBuf ;

BIGLEA PRAMInitTbl,A2 ; point to the table of default extended PRAM values

+ BIGLEA *+$373c,A3 + SUB.L A2,A3 + MOVE.L A3,D3 + SUB.L #1,D3 LEA $76-32(SP),A3 ; and where they'll go in the buffer

- MOVEQ #$89-$76,D3 ; copy them into the buffer

@CopyXDefs MOVE.B (A2)+,(A3)+ ;

DBRA D3,@CopyXDefs ;

@@ -348,11 +353,19 @@ ValidatePRAM (32<<0),D3 ; starting at PRAM address 32

BSR PramIO ;

+ LEA @XPRAMSig,A3 + MOVE.L #(1<<31)|\ ; write + (4<<16)|\ ; 4 bytes + (12<<0),D3 ; starting at PRAM address 12 + BSR PramIO + @Done LEA 256(SP),SP ; clean up the stack

MOVEM.L (SP)+,D0-D3/A0-A3 ; restore regs from StartINIT <8.6> RTS ;

+@other DC.W $A800 + @XPRAMSig DC.L 'NuMc' ; extended PRAM validity bytes (slot-based machines)

diff --git a/OS/CrsrDev.a b/OS/CrsrDev.a --- a/OS/CrsrDev.a +++ b/OS/CrsrDev.a @@ -100,7 +100,7 @@ _FixDiv OPWORD $A84D CrsrDev PROC EXPORT InitCrsrDev,CrsrDevDispatch - IMPORT CrsrVBLTask + IMPORT CrsrVBLTask,vDrawCursor,vEraseCursor WITH CrsrDevGlobals, CrsrDevRec, CrsrDevSegment, CrsrDataRec WITH ADBDeviceEntry, ADBVars, ExpandMemRec @@ -934,20 +934,20 @@ doDouble ;--------------------------------------------------------- doClickLock - tst.b buttonData(a2,d3.w) ; is this the 1st time? + tst.b buttonData(a2,d2.w) ; is this the 1st time? bne.s @secondHit ; no, skip btst.b d3,buttons(a2) ; are we down? beq.s @firstUp ; no, skip bsr.s CrsrDevButtonDown ; yes, generate button down event bra.s @done -@firstUp st.b buttonData(a2,d3.w) ; first up, mark it +@firstUp st.b buttonData(a2,d2.w) ; first up, mark it bra.s @done @secondHit btst.b d3,buttons(a2) ; are we up (2nd time)? bne.s @done ; no, do nothing... bsr.s CrsrDevButtonUp ; yes, post up event - clr.b buttonData(a2,d3.w) ; mark that we're really up + clr.b buttonData(a2,d2.w) ; mark that we're really up @done rts @@ -963,7 +963,7 @@ doAppleScript ;--------------------------------------------------------- doCustom - pea buttonData(a2) ; push our custom routine address + move.l buttonData(a2,d2.w),-(sp) ; push our custom routine address rts ; and call it. @@ -1102,7 +1102,21 @@ CrsrDevSetAccel ; first find the two tables which enclose the desired acceleration ;---------------------------------------------- -@foundIt move.l acceleration(a2),d3 ; get new acceleration in d3 +@foundIt Move.B $85(A2), D3 + BEQ.B @endofthing + Clr -(SP) + Move.L #'accl', -(A7) + Move #$FFFF, (ROMMapInsert) + _CountResources + Move (SP)+, D3 + Move.L #'USB*', D4 + Bsr FindResource + BEQ.B @endofthing + MoveQ.L #$0, D4 + Bsr FindResource +@endofthing + + move.l acceleration(a2),d3 ; get new acceleration in d3 move.w (a0)+,d2 ; get # of acceleration tables in resource move.l a0,a1 ; keep ptr to 'low' accel table in a1 @@ -1456,6 +1470,9 @@ CrsrDevHandleVBL movea.l ExpandMem,a3 ; get ptr to expandmem rec movea.l emCursorGlobals(a3),a3 ; get cursory global ptr + tst.l a3 + beq @exit + move.l firstCrsrDev(a3),d0 ; get ptr to 1st CrsrDevRec beq @exit ; if not even 1 device, just exit move.l d0,a2 ; ptr in a2 @@ -1691,6 +1708,7 @@ DrawCursor movea.l firstCrsrData(a3),a4 ; get ptr to main CrsrDataRec bne.s @exit ; yes… exit lea CrsrPin,a0 ; it's ok to update cursor, get bounding rect + move.l d0,-(sp) BSR.L CrsrVBLTask ; pin and draw the cursor move.l Mouse,d0 ; has cursor been pinned? @@ -1850,6 +1868,7 @@ CrsrDevDisposeDev @loop cmpa.l a1,a2 ; is this the linked list element we want? beq.s @gotIt ; yes, handle it move.l a1,d1 ; no, prev := next + beq.s @exit move.l nextCrsrDev(a1),d0 ; get next->nextCrsrDev beq.s @exit ; exit if NIL (we never found it) move.l d0,a1 ; next := next->nextCrsrDev @@ -1859,8 +1878,10 @@ CrsrDevDisposeDev tst.l d1 ; was it the first one? beq.s @firstOne ; yes, handle special case + move.l a2,d0 move.l d1,a2 move.l a1,nextCrsrDev(a2) ; else, delete our element from middle of list + move.l d0,a2 bra.s @dispose @firstOne move.l a1,firstCrsrDev(a0) @@ -1912,6 +1933,7 @@ CrsrDevReInit ; movem.l d0-d3/a0-a3,-(sp) link a6,#adbPBSize ; Make a stack frame for our param block + tst d0 bne.s @PostInit ; Skip if post-processing ;--------------------- @@ -2120,7 +2142,9 @@ CrsrDevReInit ; ;_______________________________________________________________________ syncADBTalk +@restart move.l a0,-(sp) ; save ptr to our buffer + move.l d0,-(sp) clr.w -(sp) ; our 'sync' flag move.l sp,a1 ; keep pointer to globals for later @@ -2129,14 +2153,19 @@ syncADBTalk move.l a0,-(sp) ; push pointer to our reply buffer move.l sp,a0 _ADBOp + bmi.s @weird @spin tst.b (a1) ; have we completed? beq.s @spin ; no, keep waiting - lea 14(sp),sp ; dump locals + lea 18(sp),sp ; dump locals move.l (sp)+,a0 ; restore a0 rts +@weird lea.l $e(sp),sp + move.l (sp)+,d0 + move.l (sp)+,a0 + bra.s @restart ;_______________________________________________________________________ ; @@ -2154,6 +2183,8 @@ syncADBTalk ;_______________________________________________________________________ syncADBListen +@restart + movem.l d0/a0,-(sp) clr.w -(sp) ; our 'sync' flag move.l sp,a1 ; keep pointer to data area for later move.l sp,-(sp) ; push pointer to data area @@ -2161,13 +2192,17 @@ syncADBListen move.l a0,-(sp) ; push ptr to data to send move.l sp,a0 _ADBOp + bmi.s @weird @spin tst.b (a1) ; have we completed? beq.s @spin ; no, keep waiting - lea 14(sp),sp ; dump locals + lea 22(sp),sp ; dump locals rts - + +@weird lea.l $e(sp),sp + movem.l (sp)+,d0/a0 + bra.s @restart ;_______________________________________________________________________ ; @@ -2296,6 +2331,21 @@ SetCrsrDelCore rts ; just a hook for now +NewCrsrFunction + Move.L (DeviceList), D0 +@loop BEQ.B @done + MoveA.L D0, A0 + CmpA.L D1, A0 + BNE.B @moredone + MoveA.L (A0), A0 + Move.L $1E(A0), D0 + Bra.B @loop +@done SubA.L A0, A0 +@moredone Move.L A0, D1 + Rts + + + ;_____________________________________________________________________________________________ ; VDrawCursor - default DrawCursor routine ; @@ -2304,23 +2354,10 @@ SetCrsrDelCore ; the routine InitCrsrVects. ; - EXPORT VDrawCursor - IMPORT BLITCURSOR ;from ccrsrcore.a -VDrawCursor - MOVE.B #1,CRSRBUSY ;MARK CHANGE IN PROGRESS - - TST CRSRSTATE - BMI.S DoneSho ;QUIT IF STILL HIDDEN - CLR CRSRSTATE ;DON'T LET CRSRSTATE GET > 0 - TST.B CRSRVIS ;IS CURSOR ALREADY VISIBLE? - BNE.S DoneSho ;YES, DON'T TRY TO REDRAW - TST.B CrsrObscure ;Skip if obscured - BNE.S DoneSho +VDrawCursor PROC EXPORT - BSR.L BLITCURSOR ;Do the real work: put pixels up - -DoneSho CLR.B CRSRBUSY ;CHANGE COMPLETE - RTS + IMPORT QD_DRAWCURSOR + BRA.L QD_DRAWCURSOR ;______________________________________________________________________________________________ @@ -2331,16 +2368,9 @@ DoneSho CLR.B CRSRBUSY ;CHANGE COMPLETE ; the routine InitCrsrVects. ; - EXPORT VEraseCursor - IMPORT UNBLITCURSOR ;from ccrsrcore.a -VEraseCursor - MOVE.B #1,CRSRBUSY ;MARK CHANGE IN PROGRESS - TST.B CRSRVIS ;IS CURSOR VISIBLE? - BEQ.S DoneHid ;NO, DON'T TRY TO REMOVE IT - - BSR.L UNBLITCURSOR ;Zap Pixels +VEraseCursor PROC EXPORT -DoneHid CLR.B CRSRBUSY ;CHANGE COMPLETE - RTS + IMPORT QD_ERASECURSOR + BRA.L QD_ERASECURSOR END \ No newline at end of file diff --git a/OS/CudaMgr.a b/OS/CudaMgr.a --- a/OS/CudaMgr.a +++ b/OS/CudaMgr.a @@ -271,12 +271,52 @@ CudaDispatch bra @done @CudaRestart + CmpI #$10C, (A0) + BEQ.B @L4 + CmpI #$107, (A0) + BNE.B @endChicanery + Tst.B $64(A2) + BEQ @endChicanery + +@L4 CmpI #$100, $2(A0) + BLT.B @L5 + Move #$FFCE, $E(A0) + Bra @done + +@L5 Lea.L $66(A2), A2 + Move $6(A0), D1 + BEQ @L9 + SubQ #$1, D1 + MoveQ.L #$0, D2 + Move $2(A0), D2 + MoveA.L $8(A0), A1 + +@L6 CmpI.B #$7, $1(A0) + BEQ.B @L7 + Move.B (A1)+, $0(A2,D2.W) + Bra.B @L8 + +@L7 Move.B $0(A2,D2.W), (A1)+ + +@L8 AddQ #$1, D2 + AndI #$FF, D2 + DBF D1, @L6 + +@L9 MoveA.L ($DE0), A2 + MoveA.L ($1D4), A1 + CmpI.B #$C, $1(A0) + BEQ.B @endChicanery + Tst.L $10(A0) + BEQ @done + MoveA.L $10(A0), A1 + Jsr (A1) + Bra @done + +@endChicanery move.w sr,-(sp) ; save SR ori.w #hiIntMask,sr ; mask interrupts - eieioSTP btst.b #TReq,vBufB(a1) ; does Cuda want to abort? - eieioSTP beq.s @abort ; yes, wait for it to go away btst.b #busy,flags(a2) ; has an idle acknowledge occured? bne.s @abort ; no, then wait for it! @@ -285,10 +325,9 @@ CudaDispatch @abort move.w (sp)+,sr ; we were busy, enable interrupts jsr pollByte ; poll shift reg, calling handler if interrupts masked - bra.s @CudaRestart ; and keep waiting for busy to go away... + bra.s @endChicanery ; and keep waiting for busy to go away... @sendPackType ; interrupts masked here - eieioSTP bset.b #SRdir,vACR(a1) ; switch to output, Define direction FROM System eieioSTP move.b pbCmdType(a0),vSR(a1) ; send command packet to shift reg @@ -303,7 +342,7 @@ CudaDispatch ; When the shift register irq comes in call the PollProc ; then process the shift register irq data ; - movem.l d0/d1/a0-a4/a6,-(sp) ; save some registers + movem.l d0-d3/a0-a4/a6,-(sp) ; save some registers move.l PollStack,-(sp) ; save previous poll stack lea @zero, a3 move.l sp,PollStack ; Pointer to buffer for polled bytes @@ -323,9 +362,8 @@ CudaDispatch beq.s @2 move.b (a6),-(sp) ; Push the data on the stack @2 - eieioSTP + bsr.l otherDelay btst.b #vShift,vIFR(a1) ; now wait for shift reg IRQ - eieioSTP beq.s @wait cmpa.l PollStack,SP ; Is there any poll data @@ -341,10 +379,8 @@ CudaDispatch @NoSCCData move.l (sp)+,PollStack ; restore previous poll stack - movem.l (sp)+,d0/d1/a0-a4/a6 ; restore work registers - eieioSTP + movem.l (sp)+,d0-d3/a0-a4/a6 ; restore work registers btst.b #TReq,vBufB(a1) ; did CUDA abort? - eieioSTP bne.s @accepted ; no, then it will accept our packet ;----------------------------------------------------------------------------------------------- ; Note that changing the VIA mode can generate an edge internal to the VIA which will @@ -353,14 +389,11 @@ CudaDispatch ; of CB1. Delay long enough for the edge to occur before acknowledging the shift ; register interrupt. (R. Montagne 1/11/93) ;________________________________________________________________________________________________ - moveq #10,d0 ; delay for 10µS min. + move $d00,d0 + divu #$50,d0 @mode7delay - eieioSTP - tst.b vBufB(a1) ; 1.2µS per access - eieioSTP dbra d0,@mode7delay - eieioSTP bclr.b #SRdir,vACR(a1) ; yes, switch back to input eieioSTP tst.b vSR(a1) ; clear pending shift register interrupt @@ -369,9 +402,8 @@ CudaDispatch (1< + + btst.b #vShift,vIFR(a1) + bne.s @output + + move.w d3,sr ; restore interrupts + rts + +;________________________________________________________________________________________________ +; When outputing from the VIA to Cuda, the interrupt will occur prior to the rising edge +; of CB1. Delay long enough for the edge to occur before acknowledging the shift +; register interrupt. (R. Montagne 1/11/93) +;________________________________________________________________________________________________ + +@output movea.l EgretBase,a2 ; get ptr to globals <13> bset.b #busy,flags(a2) ; make sure we're marked as busy - - eieioSTP - btst.b #SRdir,vACR(a1) ; see if VIA direction is output - eieioSTP - beq.s @input ; no, then we're receiving.. -;________________________________________________________________________________________________ -; When outputing from the VIA to Cuda, the interrupt will occur prior to the rising edge -; of CB1. Delay long enough for the edge to occur before acknowledging the shift -; register interrupt. (R. Montagne 1/11/93) -;________________________________________________________________________________________________ - moveq #10,d0 ; delay for 10µS min. + + btst.b #$4, $1600(A1) + beq.s * + $60 ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; + + move $d00,d0 + divu #$50,d0 @mode7delay - eieioSTP - tst.b vBufB(a1) ; 1.2µS per access - eieioSTP dbra d0,@mode7delay ; - eieioSTP tst.b vSR(a1) ; clear the shift reg interrupt eieioSTP tst.w sendHdrCnt(a2) ; any bytes left in header? @@ -533,7 +568,6 @@ CudaShiftRegIRQ subq.w #1,sendDataCnt(a2) ; count it bra @exit ; and exit @CmdFinished - eieioSTP bclr.b #SRdir,vACR(a1) ; now switch to input eieioSTP ;________________________________________________________________________________________________ @@ -541,18 +575,14 @@ CudaShiftRegIRQ ; access to the shift data register will keep the counter in sync with the communications ; protocol to Cuda. ;________________________________________________________________________________________________ - eieioSTP tst.b vSR(a1) ; make sure VIA counter is in sync - eieioSTP @sendCmd - eieioSTP ori.b #((1< move.b d0,(a0)+ ; store the data byte @zeroReq - eieioSTP btst.b #TREQ,vBufB(a1) ; was this the last byte? - eieioSTP bne @lastIrq ; yes, terminate response packet move.l a0,rcvDataPtr(a2) ; and update data ptr subq.w #1,rcvDataCnt(a2) ; count it @@ -612,7 +640,7 @@ CudaShiftRegIRQ cmp.b #((1< (rbm) ; (rbm) @waitIdleAck ; (rbm) - eieioSTP + bsr.l otherDelay btst.b #ifSR,vIFR(a1) ; wait for idle state acknowledgement (rbm) - eieioSTP beq.s @waitIdleAck ; (rbm) - eieioSTP tst.b vSR(a1) ; clear the shift reg interrupt (rbm) eieioSTP @@ -667,9 +690,7 @@ CudaShiftRegIRQ @done movea.l curPb(a2),a0 ; a0 points to current param block lea rcvHeader(a2),a1 ; a1 points to header buffer - eieioSTP cmp.b #ErrorPkt,1(a1) ; check for Error response packet - eieioSTP bne.s @NotError ; ; The current transaction generated an Error <11> @@ -850,7 +871,9 @@ SetTransferParams clr.l sendDataPtr(a2) ; no extended data ptr <12> bra @rcvParams -@notDFAC cmp.b #RdWrIIC,pbCmd(a0) ; check for IIC transaction +@notDFAC cmp.b #$25,pbCmd(a0) + beq @dontjump + cmp.b #RdWrIIC,pbCmd(a0) ; check for IIC transaction bne.s @notRdWrIIC ; use the table if not RdWrIIC * * Here is how the transfer globals are set up for IIC transactions… @@ -885,21 +908,30 @@ SetTransferParams * RespData • RespData • * curPB CudaPB curPB CudaPB * +@dontjump move.w pbByteCnt(a0),d1 ; RdWrIIC uses byte count for send portion addq.w #1,d1 ; include the packet byte already sent move.w d1,sendHdrCnt(a2) ; set up header byte count move.w #4,rcvHdrCnt(a2) ; 4 byte header default clr.w rcvHdrIndex(a2) ; reset index into header buffer move.l pbBufPtr(a0),a1 ; get address of data buffer - btst.b #0,pbParam(a0) ; is this a read or write IIC operation? - bne.s @doIICread ; + + cmp.b #RdWrIIC,pbCmd(a0) + beq.s @doIICwrite + + btst.b #0,4(a0) + bne.s @doIICread @doIICwrite ; + btst.b #0,pbParam(a0) + bne.s @doIICread + moveq #0,d1 ; data phase count must be 1 to 256 move.b (a1),d1 ; bne.s @wrCntOK ; move.w #$0100,d1 ; @wrCntOK ; move.w d1,sendDataCnt(a2) ; number of extended data bytes to send +@newlbl adda.l #1,a1 ; move.l a1,sendDataPtr(a2) ; extended data ptr clr.w rcvDataCnt(a2) ; no data to receive on IIC write @@ -1057,9 +1089,7 @@ CudaTickHandler @CallLVL1DT move.l VIA,a1 ; point to the VIA move.l LVL1DT,a0 ; get vector - eieioSTP jmp (a0) - eieioSTP ENDWITH ; } ;========================================================================= @@ -1115,74 +1145,54 @@ CudaTickHandler ;------------------------------------------------------------------------- CudaInit movea.l DecoderInfo.VIA1Addr(a0),a2 ; get VIA 1 base address - eieioSTP ori.b #((1< (1< eieioSTP move.l #hw4msDelay,d4 ; we want to delay 4 millisecs for ADB reset to complete @killtime - eieioSTP tst.b vBufB(a2) ; - eieioSTP dbra d4,@killtime ; - eieioSTP btst.b #TReq,vBufB(a2) ; is Cuda starting a transaction??? - eieioSTP bne.s @noX ; no, then continue with SyncAck move.l #hw4msDelay,d4 ; we want to delay 4 millisecs for ADB reset to complete @asyncByte - eieioSTP btst.b #ifSR,vIFR(a2) ; else, wait for that lil' interrupt to occur - eieioSTP bne.s @noX ; dbra d4,@asyncByte ; @noX - eieioSTP tst.b vSR(a2) ; clear the pending interrupt eieioSTP move.l #hw10msDelay,d4 ; Timeout values must exceed duration of maximum ADB auto poll. <7> - eieioSTP bclr.b #vByteAck,vBufB(a2) ; issue a sync state (TIP = negated, ByteAck = asserted) eieioSTP @waitSync - eieioSTP btst.b #TReq,vBufB(a2) ; wait for sync acknowledge - eieioSTP beq.s @syncAck ; dbra.w d4,@waitSync ; bra.l DeadCuda ; go play death chimes @syncAck move.l #hw10msDelay,d4 ; number of retries before giving up with Cuda @wSyncIrq - eieioSTP btst.b #ifSR,vIFR(a2) ; wait for sync acknowledge interrupt - eieioSTP bne.s @haveSync ; dbra.w d4,@wSyncIrq ; @haveSync move.l #hw10msDelay,d4 ; number of retries before giving up with Cuda - eieioSTP bset.b #vByteAck,vBufB(a2) ; terminate the sync cycle eieioSTP @syncTerm - eieioSTP btst.b #TReq,vBufB(a2) ; wait for sync termination acknowledge - eieioSTP bne.s @haveTerm ; dbra.w d4,@syncTerm ; bra.l DeadCuda ; go play death chimes @haveTerm - eieioSTP tst.b vSR(a2) ; clear the pending interrupt eieioSTP move.l #hw10msDelay,d4 ; number of retries before giving up with Cuda @waitIdle2 - eieioSTP btst.b #ifSR,vIFR(a2) ; wait for sync termination acknowledge - eieioSTP bne.w @haveIdle ; dbra.w d4,@waitIdle2 ; bra.l DeadCuda ; go play death chimes @haveIdle ; - eieioSTP ori.b #((1< eieioSTP @@ -1228,28 +1238,21 @@ CudaInit SendCudaCmd movea.l DecoderInfo.VIA1Addr(a0),a1 ; get VIA 1 base address move.l #((MaxTout<<16) OR MaxRetries),d4 ; number of retries before giving up with Cuda - eieioSTP btst.b #TIP,vBufB(a1) ; check for a transaction in progress - eieioSTP bne.s @AllOK @Timeout - eieioSTP ori.b #((1< move.l #0001,d6 ; d6.l must be nonzero - bigjmp Error1Handler,a3 ; Play death chimes + bra.s * VsrIrq - move.b #10,d4 ; mode 7 interrupt occurs at falling edge CB1 -@m7dly ; use d4 since retry count not required anymore - eieioSTP - tst.b vBufB(a1) ; hardware access is 1.2µS - eieioSTP - sub.b #1,d4 ; can only trash low byte - bne.s @m7dly ; wait long enough for CB1 to rise (10µS delay) - - eieioSTP + move.l d4,-(sp) + move $d00,d4 + divu #10,d4 + dbra.w d4,* + move.l (sp)+,d4 + tst.b vSR(a1) ; clear the interrupt eieioSTP btst.b #TReq,vBufB(a1) ; exit with abort status @@ -1381,14 +1373,13 @@ AbortReq rts5 Export RealAbort RealAbort - eieioSTP bclr.b #SRdir,vACR(a1) ; shift in eieioSTP ori.b #((1< -@m7dly - eieioSTP - tst.b vBufB(a1) ; hardware access is 1.2µS - eieioSTP - sub.b #1,d0 ; can only trash low byte - bne.s @m7dly ; wait long enough for CB1 to rise (10µS delay) - - eieioSTP + move.l d0,-(sp) + move $d00,d0 + divu #10,d0 + dbra.w d0,* + move.l (sp)+,d0 tst.b vSR(a1) ; clear the interrupt eieioSTP rts5 @@ -1498,11 +1474,9 @@ sendByte1 ;-------------------------------------------------------------------------- ; Export readByte readByte - eieioSTP + bsr.l otherDelay btst.b #ifSR,vIFR(a1) ; wait for shift to complete - eieioSTP beq.s readByte - eieioSTP move.b vSR(a1),d0 ; read the byte eieioSTP eori.b #1< BT: Second OS table macro for Figment. This is temporary -; until figment is fully approved. -;------------------------------------------------------------------------------ - macro - OS2 &num,&name,&cond - if (*-SecondOS)/4 <> &Eval(&num) then - aerror 'Trap Number out of sequence' - endif - if &name = '' then - dc.l 0 ; unused - elseif &cond = '' then - import &name - dc.l &name-BaseOfRom - elseif &Eval(&cond) then - import &name - dc.l &name-BaseOfRom - else - dc.l 0 ; not used in this configuration - endif - endm -;------------------------------------------------------------------------------ -; BT: End second OS table macro -;------------------------------------------------------------------------------ - endif - EXPORT DispTable IMPORT BaseofRom @@ -353,13 +326,13 @@ DispTable FirstTool ToolBox $000 ; toolbox trap $000 (ALWAYS LEAVE AS ZERO) rb - ToolBox $001,__SNDDISPOSECHANNEL ; toolbox trap $001 - ToolBox $002,__SNDADDMODIFIER ; toolbox trap $002 - ToolBox $003,__SNDDOCOMMAND ; toolbox trap $003 - ToolBox $004,__SNDDOIMMEDIATE ; toolbox trap $004 - ToolBox $005,__SNDPLAY ; toolbox trap $005 - ToolBox $006,__SNDCONTROL ; toolbox trap $006 - ToolBox $007,__SNDNEWCHANNEL ; toolbox trap $007 + ToolBox $001 ;,__SNDDISPOSECHANNEL ; toolbox trap $001 + ToolBox $002 ;,__SNDADDMODIFIER ; toolbox trap $002 + ToolBox $003 ;,__SNDDOCOMMAND ; toolbox trap $003 + ToolBox $004 ;,__SNDDOIMMEDIATE ; toolbox trap $004 + ToolBox $005 ;,__SNDPLAY ; toolbox trap $005 + ToolBox $006 ;,__SNDCONTROL ; toolbox trap $006 + ToolBox $007 ;,__SNDNEWCHANNEL ; toolbox trap $007 ToolBox $008,InitProcMenu ; toolbox trap $008 (new menu mgr) ToolBox $009,GetCVariant ; toolbox trap $009 ToolBox $00A,GetWVariant ; toolbox trap $00A @@ -374,8 +347,8 @@ FirstTool ToolBox $013,TEAutoView ; toolbox trap $013 ToolBox $014,SetFractEnable ; toolbox trap $014 (font mgr) ; ToolBox $015,SCSIMgr ; toolbox trap $015 - ToolBox $015,SCSIDispatchCommon ; toolbox trap $015 - ToolBox $016,Pack8 ; toolbox trap $016 + ToolBox $015, ;SCSIDispatchCommon ; toolbox trap $015 + ToolBox $016, ;Pack8 ; toolbox trap $016 ToolBox $017,CopyMask ; toolbox trap $017 ToolBox $018,FixAtan2 ; toolbox trap $018 ToolBox $019,XMunger ; toolbox trap $019 @@ -396,13 +369,13 @@ FirstTool ToolBox $028,ShowDItem ; toolbox trap $028 ToolBox $029,LayerDispatch ; toolbox trap $029 (LayerDispatch) (v1.1) ToolBox $02A,MainComponent ; toolbox trap $02A (ComponentDispatch) (v1.1) - ToolBox $02B,Pack9 ; toolbox trap $02B + ToolBox $02B ;,Pack9 ; toolbox trap $02B ToolBox $02C,Pack10 ; toolbox trap $02C - ToolBox $02D,Pack11 ; toolbox trap $02D + ToolBox $02D ;,Pack11 ; toolbox trap $02D ToolBox $02E,Pack12 ; toolbox trap $02E ToolBox $02F,Pack13 ; toolbox trap $02F - ToolBox $030,Pack14Entry ; toolbox trap $030 - ToolBox $031,Pack15 ; toolbox trap $031 + ToolBox $030 ;,Pack14Entry ; toolbox trap $030 + ToolBox $031 ;,Pack15 ; toolbox trap $031 ToolBox $032 ; toolbox trap $032 (unimplemented) (v1.1) ToolBox $033,ScrnBitMap ; toolbox trap $033 ToolBox $034,SetFScaleDisable ; toolbox trap $034 @@ -819,7 +792,7 @@ FirstTool ToolBox $1C5,RsrcMapEntry ; toolbox trap $1C5 ToolBox $1C6,Secs2Date ; toolbox trap $1C6 ToolBox $1C7,Date2Secs ; toolbox trap $1C7 - ToolBox $1C8,__SYSBEEP ; toolbox trap $1C8 + ToolBox $1C8 ;,__SYSBEEP ; toolbox trap $1C8 ToolBox $1C9,SystemError ; toolbox trap $1C9 ToolBox $1CA,PutIcon ; toolbox trap $1CA ToolBox $1CB,TEGetText ; toolbox trap $1CB @@ -958,11 +931,11 @@ FirstTool ToolBox $250,SeedCFill ; toolbox trap $250 <31Jan89 BAL> ToolBox $251,KopyMask ; toolbox trap $251 ToolBox $252,HighLevelFSDispatch ; toolbox trap $252 (unknown) - ToolBox $253,DictionaryDispatch ; toolbox trap $253 (DictionaryDispatch) CSS - ToolBox $254,TSMDispatch ; toolbox trap $254 (TMSDispatch) + ToolBox $253 ;,DictionaryDispatch ; toolbox trap $253 (DictionaryDispatch) CSS + ToolBox $254 ;,TSMDispatch ; toolbox trap $254 (TMSDispatch) ToolBox $255 ; toolbox trap $255 (unknown) ToolBox $256 ; toolbox trap $256 (unknown) - ToolBox $257,DockingDispatch ; toolbox trap $257 (unknown) + ToolBox $257 ;,DockingDispatch ; toolbox trap $257 (unknown) ToolBox $258 ; toolbox trap $258 (unknown) ToolBox $259 ; toolbox trap $259 (unknown) ToolBox $25A ; toolbox trap $25A (unknown) @@ -983,13 +956,14 @@ FirstTool ToolBox $268,DialogMgrDispatch ; toolbox trap $268 ToolBox $269 ; toolbox trap $269 (unknown) - ToolBox $26A ; toolbox trap $26A (unknown) + ToolBox $26A,DeviceDispatch ToolBox $26B ; toolbox trap $26B (unknown) ToolBox $26C ; toolbox trap $26C (unknown) ToolBox $26D ; toolbox trap $26D (unknown) ToolBox $26E ; toolbox trap $26E (unknown) ToolBox $26F ; toolbox trap $26F (unknown) - DCB.L 16,0 ; toolbox trap $270-$27F (unknown) + DCB.L 15,0 ; toolbox trap $270-$27E (unknown) + ToolBox $27F,MPDispatchStubTrap DCB.L 16,0 ; toolbox trap $280-$28F (unknown) ToolBox $290,InitPalettes ; toolbox trap $290 <02Jun87 DAF> ToolBox $291,NewPalette ; toolbox trap $291 <02Jun87 DAF> @@ -1045,7 +1019,7 @@ FirstTool DCB.L 16,0 ; toolbox trap $2E0-$2EF (unknown) ToolBox $2F0 ; toolbox trap $2AF (unknown) - ToolBox $2F1 ; toolbox trap $2AF (unknown) + ToolBox $2F1,ATAManager ToolBox $2F2 ; toolbox trap $2AF (unknown) ToolBox $2F3,ExpansionBusDispatch ; toolbox trap $2F3 (Expansion Bus Mgr) ToolBox $2F4 ; toolbox trap $2AF (unknown) @@ -1262,7 +1236,7 @@ FirstTool ToolBox $3C6 ; quickdraw hook $3C6 ToolBox $3C7 ; quickdraw hook $3C7 ToolBox $3C8 ; quickdraw2 hook $3C8 - ToolBox $3C9,IconDispatch ; quickdraw _IconDispatch $3C9 + ToolBox $3C9 ;,IconDispatch ; quickdraw _IconDispatch $3C9 ToolBox $3CA,DeviceLoop ; quickdraw _DeviceLoop <20> PN ToolBox $3CB ; quickdraw hook $3CB ToolBox $3CC ; quickdraw hook $3CC @@ -1270,7 +1244,8 @@ FirstTool ToolBox $3CE ; quickdraw hook $3CE ToolBox $3CF ; quickdraw hook $3CF DCB.L 16,0 ; toolbox trap $3D0-$3DF (unknown) - DCB.L 11,0 ; toolbox trap $3E0-$3EA (unknown) + ToolBox $3E0,QDExtensions2 + DCB.L 10,0 ; toolbox trap $3E1-$3EA (unknown) IF hasDisplayMgr THEN ; Only install if we have we are flagged ToolBox $3EB,DisplayDispatch ; toolbox trap $3EB (DisplayManager) (IH) ELSE @@ -1278,7 +1253,7 @@ FirstTool ENDIF DCB.L 4,0 ; toolbox trap $3EC-$3EF (unknown) ToolBox $3F0 ; toolbox trap $3F0 (unknown) - ToolBox $3F1 ; toolbox trap $3F1 (unknown) + ToolBox $3F1,GestaltValueDispatch ToolBox $3F2 ; toolbox trap $3F2 (unknown) ToolBox $3F3 ; toolbox trap $3F3 (unknown) ToolBox $3F4 ; toolbox trap $3F4 (unknown) @@ -1384,14 +1359,14 @@ FirstOS OS $50,RelStringTrap ; OS trap $50 OS $51,ReadXPRam ; OS trap $51 OS $52,WriteXPRam ; OS trap $52 - OS $53,ClkNoMem ; OS trap $53 + OS $53 ;,ClkNoMem ; OS trap $53 OS $54,UprStringTrap ; OS trap $54 OS $55,__StripAddress ; OS trap $55 (new memory mgr) OS $56,NewLwrString ; OS trap $56 ;in-ROM script manager OS $57,SetApplBase ; OS trap $57 - OS $58,__InsTime ; OS trap $58 - OS $59,__RmvTime ; OS trap $59 - OS $5A,__PrimeTime ; OS trap $5A + OS $58 ;,__InsTime ; OS trap $58 + OS $59 ;,__RmvTime ; OS trap $59 + OS $5A ;,__PrimeTime ; OS trap $5A OS $5B,PowerOff ; OS trap $5B (poweroff trap) <11apr86>/ OS $5C,MemoryDispatch,hasMMU ; OS trap $5C (MemoryDispatch trap) OS $5D ; OS trap $5D (MMU trap, set up later) <2.7> @@ -1408,7 +1383,7 @@ FirstOS OS $68,HNoRSRC ; OS trap $68 OS $69,HGetFlags ; OS trap $69 OS $6A,HSetFlags ; OS trap $6A - OS $6B,TestManager ; OS trap $6B (test trap) + OS $6B ;,TestManager ; OS trap $6B (test trap) OS $6C,InitFS ; OS trap $6C OS $6D,InitEvents ; OS trap $6D OS $6E,SlotManager,hasSlotMgr ; OS trap $6E @@ -1434,13 +1409,13 @@ FirstOS OS $82,DTInstallTrap ; OS trap $82 (deferred task) OS $83,SetOSDefault,hasSlotMgr ; OS trap $83 (which os to use) OS $84,GetOSDefault,hasSlotMgr ; OS trap $84 (which os to use) - OS $85,PmgrOp,hasPwrControls|PwrMgrADB|hasPwrMgrClock ; OS trap $85 + OS $85 ;,PmgrOp,hasPwrControls|PwrMgrADB|hasPwrMgrClock ; OS trap $85 OS $86,IOPInfoAccess,hasIopScc|hasIopSwim ; OS trap $086 <1.3> OS $87,IOPMsgRequest,hasIopScc|hasIopSwim ; OS trap $087 <1.3> OS $88,IOPMoveData,hasIopScc|hasIopSwim ; OS trap $088 <1.3> OS $89,NewSCSITrap,0 ; os trap $89 (async SCSI Mgr) <3.0> OS $8A,GoToSleep,hasPwrControls|PwrMgrADB|hasPwrMgrClock ; OS trap $8A - OS $8B,COMMTOOLBOXDISPATCHER ; os trap $8B (CommToolBoxTrap) + OS $8B ;,COMMTOOLBOXDISPATCHER ; os trap $8B (CommToolBoxTrap) OS $8C ; os trap $8C (unknown) <1.5> OS $8D,DebugUtil ; os trap $8D <1.5> OS $8E,ExtBTreeDispatch ; os trap $8E (BTreeDispatch) <2.0> @@ -1448,7 +1423,7 @@ FirstOS OS $90,SysEnvironsTrap ; OS trap $90 OS $91,Translate24To32 ; os trap $91 (unknown) <2.9> BAL OS $92,EgretDispatch,hasEgret ; os trap $92 <4> - OS $93,__Microseconds ; os trap $93 <9> + OS $93 ;,__Microseconds ; os trap $93 <9> OS $94 ; os trap $94 (unknown) OS $95 ; os trap $95 (unknown) OS $96 ; os trap $96 (unknown) @@ -1459,8 +1434,8 @@ FirstOS OS $9B ; os trap $9B (unknown) OS $9C ; os trap $9C (unknown) OS $9D,MoveHLow ; os trap $9D MoveHLow tcn - OS $9E,PowerMgrDispatch,hasPwrControls ; os trap $9E (PowerMgrDispatch Trap) - OS $9F,PowerDispatch,hasPwrControls ; os trap $9F (PwrControls Traps) <17> rb + OS $9E ;,PowerMgrDispatch,hasPwrControls ; os trap $9E (PowerMgrDispatch Trap) + OS $9F ;,PowerDispatch,hasPwrControls ; os trap $9F (PwrControls Traps) <17> rb OS $A0 ; os trap $A0 (unknown) OS $A1 ; os trap $A1 (unknown) OS $A2 ; os trap $A2 (unknown) @@ -1493,7 +1468,7 @@ FirstOS OS $B6,vWaitUntil ; vector $B6 (iocore) OS $B7,vSyncWait ; vector $B7 (iocore) - OS $B8,__SNDAPPDEAD ; vector $B8 + OS $B8 ;,__SNDAPPDEAD ; vector $B8 OS $B9,vDisPtch ; vector $B9 (deferred task) <2.2> OS $BA,vIAZInit ; vector $BA <16jun87 CSL> OS $BB,vIAZPostInit ; vector $BB <16jun87 CSL> @@ -1530,7 +1505,7 @@ FirstOS OS $DA,vExtendFile ; vector $DA OS $DB,vTruncateFile ; vector $DB OS $DC,vCMSetUp ; vector $DC - OS $DD,vppcDispatcher ; vector $DD (PPCDispatcher) + OS $DD ;,vppcDispatcher ; vector $DD (PPCDispatcher) OS $DE,vDtrmV1 ; vector $DE OS $DF,vBlkAlloc ; vector $DF OS $E0,vBlkDeAlloc ; vector $E0 @@ -1570,285 +1545,5 @@ FirstOS ; end of vectors ;------------------------------------------------------------------------------ - - if hasNewHeapMgr Then -;------------------------------------------------------------------------------ -; BT: Second OS table for Figment. This is temporary -; until figment is fully approved. -;------------------------------------------------------------------------------ -; WARNING -- DO NOT CHANGE THIS TABLE UNLESS YOU CHANGE THE CORRESPONDING OS TABLE! (ABOVE) -;------------------------------------------------------------------------------ - -SecondOS - OS2 $00,Open ; OS trap $00 - OS2 $01,Close ; OS trap $01 - OS2 $02,Read ; OS trap $02 - OS2 $03,Write ; OS trap $03 - OS2 $04,ControlTrap ; OS trap $04 - OS2 $05,StatusTrap ; OS trap $05 - OS2 $06,KillIOTrap ; OS trap $06 - OS2 $07,GetVolInfo ; OS trap $07 - OS2 $08,FileCreate ; OS trap $08 - OS2 $09,FileDelete ; OS trap $09 - OS2 $0A,OpenRFTrap ; OS trap $0A - OS2 $0B,RenameTrap ; OS trap $0B - OS2 $0C,GetFileInfo ; OS trap $0C - OS2 $0D,SetFileInfo ; OS trap $0D - OS2 $0E,UnmountVolTrap ; OS trap $0E - OS2 $0F,MountVol ; OS trap $0F - OS2 $10,FileAlloc ; OS trap $10 - OS2 $11,GetEOFTrap ; OS trap $11 - OS2 $12,SetEOFTrap ; OS trap $12 - OS2 $13,FlushVolTrap ; OS trap $13 - OS2 $14,GetVolTrap ; OS trap $14 - OS2 $15,SetVolTrap ; OS trap $15 - OS2 $16,FInitQueue ; OS trap $16 - OS2 $17,EjectTrap ; OS trap $17 - OS2 $18,GetFPosTrap ; OS trap $18 - OS2 $19,Fig_InitZoneTrap ; OS trap $19 - OS2 $1A,Fig_GetZone ; OS trap $1A - OS2 $1B,Fig_SetZone ; OS trap $1B - OS2 $1C,Fig_FreeMem ; OS trap $1C - OS2 $1D,Fig_MaxMemTrap ; OS trap $1D - OS2 $1E,Fig_NewPtrTrap ; OS trap $1E - OS2 $1F,Fig_DisposePtr ; OS trap $1F - OS2 $20,Fig_SetPtrSizeTrap ; OS trap $20 - OS2 $21,Fig_GetPtrSizeTrap ; OS trap $21 - OS2 $22,Fig_NwHandle ; OS trap $22 - OS2 $23,Fig_DsposeHandle ; OS trap $23 - OS2 $24,Fig_SetHandleSizeTrap ; OS trap $24 - OS2 $25,Fig___GetHandleSize ; OS trap $25 - OS2 $26,Fig_HandleZoneTrap ; OS trap $26 - OS2 $27,Fig_ReallocHandleTrap ; OS trap $27 - OS2 $28,Fig_RecoverHandleTrap ; OS trap $28 - OS2 $29,Fig_HLock ; OS trap $29 - OS2 $2A,Fig_HUnlock ; OS trap $2A - OS2 $2B,Fig_EmptyHandle ; OS trap $2B - OS2 $2C,Fig_InitApplZone ; OS trap $2C - OS2 $2D,Fig_SetApplLimit ; OS trap $2D - OS2 $2E,__BlockMove ; OS trap $2E - OS2 $2F,PostEventTrap ; OS trap $2F - OS2 $30,OSEventAvailTrap ; OS trap $30 rb - OS2 $31,GetOSEventTrap ; OS trap $31 - OS2 $32,FlushEvents ; OS trap $32 - OS2 $33,VInstall ; OS trap $33 - OS2 $34,VRemove ; OS trap $34 - OS2 $35,OffLine ; OS trap $35 - OS2 $36,Fig_MoreMasters ; OS trap $36 - OS2 $37,ReadParam ; OS trap $37 - OS2 $38,WriteParamTrap ; OS trap $38 - OS2 $39,ReadDateTimeTrap ; OS trap $39 - OS2 $3A,SetDateTimeTrap ; OS trap $3A - OS2 $3B,DelayTrap ; OS trap $3B - OS2 $3C,CmpString ; OS trap $3C - OS2 $3D,DrvrInstall ; OS trap $3D - OS2 $3E,DrvrRemove ; OS trap $3E - OS2 $3F,InitUtil ; OS trap $3F - OS2 $40,Fig_ResrvMem ; OS trap $40 - OS2 $41,SetFilLock ; OS trap $41 new from extensionHFS - OS2 $42,RstFilLock ; OS trap $42 new from extensionHFS - OS2 $43,SetFilType ; OS trap $43 - OS2 $44,SetFPosTrap ; OS trap $44 - OS2 $45,FlushFile ; OS trap $45 - OS2 $46,GetTrapAddressTrap ; OS trap $46 - OS2 $47,SetTrapAddressTrap ; OS trap $47 - OS2 $48,Fig_PtrZoneTrap ; OS trap $48 - OS2 $49,Fig_HPurge ; OS trap $49 - OS2 $4A,Fig_HNoPurge ; OS trap $4A - OS2 $4B,Fig_SetGrowZone ; OS trap $4B - OS2 $4C,Fig_CompactMemTrap ; OS trap $4C - OS2 $4D,Fig_PurgeMem ; OS trap $4D - OS2 $4E,AddDriveTrap ; OS trap $4E - OS2 $4F,InstallRDrivers ; OS trap $4F - OS2 $50,RelStringTrap ; OS trap $50 - OS2 $51,ReadXPRam ; OS trap $51 - OS2 $52,WriteXPRam ; OS trap $52 - OS2 $53,ClkNoMem ; OS trap $53 - OS2 $54,UprStringTrap ; OS trap $54 - OS2 $55,__StripAddress ; OS trap $55 (new memory mgr) - OS2 $56,NewLwrString ; OS trap $56 ;in-ROM script manager - OS2 $57,Fig_SetApplBase ; OS trap $57 - OS2 $58,__InsTime ; OS trap $58 - OS2 $59,__RmvTime ; OS trap $59 - OS2 $5A,__PrimeTime ; OS trap $5A - OS2 $5B,PowerOff ; OS trap $5B (poweroff trap) <11apr86>/ - OS2 $5C,MemoryDispatch,hasMMU ; OS trap $5C (MemoryDispatch trap) - OS2 $5D ; OS trap $5D (MMU trap, set up later) <2.7> - OS2 $5E,__NMINSTALL ; OS trap $5E (v1.1) tcn - OS2 $5F,__NMREMOVE ; OS trap $5F (v1.1) tcn - OS2 $60,TFSDispatch ; OS trap $60 - OS2 $61,Fig_MaxBlockTrap ; OS trap $61 - OS2 $62,Fig_PurgeSpaceTrap ; OS trap $62 - OS2 $63,Fig_MaxApplZone ; OS trap $63 - OS2 $64,Fig_MoveHHi ; OS trap $64 - OS2 $65,Fig_StackSpaceTrap ; OS trap $65 - OS2 $66,Fig_NewEmptyHandleTrap ; OS trap $66 - OS2 $67,Fig_HRSRC ; OS trap $67 - OS2 $68,Fig_HNoRSRC ; OS trap $68 - OS2 $69,Fig_HGetFlags ; OS trap $69 - OS2 $6A,Fig_HSetFlags ; OS trap $6A - OS2 $6B,TestManager ; OS trap $6B (test trap) - OS2 $6C,InitFS ; OS trap $6C - OS2 $6D,InitEvents ; OS trap $6D - OS2 $6E,SlotManager,hasSlotMgr ; OS trap $6E - OS2 $6F,SlotVInstall,hasSlotMgr ; os trap $6F (Slot Manager) - OS2 $70,SlotVRemove,hasSlotMgr ; os trap $70 (Slot Manager) - OS2 $71,AttachVBL,hasSlotMgr ; os trap $71 (VBL Manager) - OS2 $72,DoVBLTask,hasSlotMgr ; os trap $72 (VBL Manager) - OS2 $73 ; OS trap $73 (reserved for twitcher??) - OS2 $74,CacheTrap ; os trap $74 - OS2 $75,SIntInstall,hasSlotMgr ; OS trap $75 - OS2 $76,SIntRemove,hasSlotMgr ; OS trap $76 - OS2 $77,CountADBs ; OS trap $77 (fdb manager) - OS2 $78,GetIndADBTrap ; OS trap $78 (fdb manager) - OS2 $79,GetADBInfoTrap ; OS trap $79 (fdb manager) - OS2 $7A,SetADBInfoTrap ; OS trap $7A (fdb manager) - OS2 $7B,ADBReinit ; OS trap $7B (fdb manager) - OS2 $7C,ADBOpTrap ; OS trap $7C (fdb manager) - OS2 $7D,GetDefaultStartup ; OS trap $7D (start manager) - OS2 $7E,SetDefaultStartup ; OS trap $7E (start manager) - OS2 $7F,InternalWait ; os trap $7F (start manager) - OS2 $80,GetVideoDefault,hasSlotMgr ; OS trap $80 (start manager) - OS2 $81,SetVideoDefault,hasSlotMgr ; OS trap $81 (start manager) - OS2 $82,DTInstallTrap ; OS trap $82 (deferred task) - OS2 $83,SetOSDefault,hasSlotMgr ; OS trap $83 (which os to use) - OS2 $84,GetOSDefault,hasSlotMgr ; OS trap $84 (which os to use) - OS2 $85,PmgrOp,hasPwrControls|PwrMgrADB|hasPwrMgrClock ; OS trap $85 - OS2 $86,IOPInfoAccess,hasIopScc|hasIopSwim ; OS trap $086 <1.3> - OS2 $87,IOPMsgRequest,hasIopScc|hasIopSwim ; OS trap $087 <1.3> - OS2 $88,IOPMoveData,hasIopScc|hasIopSwim ; OS trap $088 <1.3> - OS2 $89,NewSCSITrap,0 ; os trap $89 (async SCSI Mgr) <3.0> - OS2 $8A,GoToSleep,hasPwrControls|PwrMgrADB|hasPwrMgrClock ; OS trap $8A - OS2 $8B,COMMTOOLBOXDISPATCHER ; os trap $8B (CommToolBoxTrap) - OS2 $8C ; os trap $8C (unknown) <1.5> - OS2 $8D,DebugUtil ; os trap $8D <1.5> - OS2 $8E,ExtBTreeDispatch ; os trap $8E (BTreeDispatch) <2.0> - OS2 $8F,NonVMDeferUserFn ; os trap $8F (DeferUserFn) PN - OS2 $90,SysEnvironsTrap ; OS trap $90 - OS2 $91,Translate24To32 ; os trap $91 (unknown) <2.9> BAL - OS2 $92,EgretDispatch,hasEgret ; os trap $92 <4> - OS2 $93,__Microseconds ; os trap $93 <9> - OS2 $94 ; os trap $94 (unknown) - OS2 $95 ; os trap $95 (unknown) - OS2 $96 ; os trap $96 (unknown) - OS2 $97 ; os trap $97 (unknown) - OS2 $98,HwPriv,Cpu≥020 ; OS trap $98 <1.6> - OS2 $99 ; os trap $99 (unknown) - OS2 $9A,ProcHelper ; os trap $9A ProcHelper <19> rb - OS2 $9B ; os trap $9B (unknown) - OS2 $9C ; os trap $9C (unknown) - OS2 $9D,Fig_MoveHLow ; os trap $9D MoveHLow tcn - OS2 $9E,PowerMgrDispatch,hasPwrControls ; os trap $9E (PowerMgrDispatch Trap) - OS2 $9F,PowerDispatch,hasPwrControls ; os trap $9F (PwrControls Traps) <17> rb - OS2 $A0 ; os trap $A0 (unknown) - OS2 $A1 ; os trap $A1 (unknown) - OS2 $A2 ; os trap $A2 (unknown) - OS2 $A3 ; os trap $A3 (unknown) - OS2 $A4,HeapDispatch ; os trap $A4 (unknown) - OS2 $A5,VisRgnChanged ; os trap $A5 <26MAR90 KON> - OS2 $A6,vRMgrStdEntry ; vector $A6 (StdEntry in rmgr)<3.2> - OS2 $A7,vRMgrStdExit ; vector $A7 (StdExit in rmgr) <3.2> - OS2 $A8 ; os trap $A8 (unknown) - OS2 $A9 ; os trap $A9 (unknown) - OS2 $AA ; os trap $AA (unknown) - OS2 $AB ; os trap $AB (unknown) - OS2 $AC ; os trap $AC (unknown) - OS2 $AD,GestaltTrap ; os trap $AD (Gestalt) <1.9> - OS2 $AE ; os trap $AE (unknown) - -;------------------------------------------------------------------------------ -; end of OS traps, start of vectors -;------------------------------------------------------------------------------ -; WARNING -- DO NOT CHANGE THIS TABLE UNLESS YOU CHANGE THE CORRESPONDING OS TABLE! (ABOVE) -;------------------------------------------------------------------------------ - - OS2 $AF,vMtCheck ; vector $AF (HFS) - OS2 $B0,vCheckReMount ; vector $B0 (HFS) - OS2 $B1,vDtrmV2 ; vector $B1 (HFS) - OS2 $B2,vFindDrive ; vector $B2 (HFS) - OS2 $B3,vFClose ; vector $B3 (HFS) - OS2 $B4,vFlushMDB ; vector $B4 (HFS) - OS2 $B5,vGoDriver ; vector $B5 (iocore) - OS2 $B6,vWaitUntil ; vector $B6 (iocore) - OS2 $B7,vSyncWait ; vector $B7 (iocore) - - OS2 $B8,__SNDAPPDEAD ; vector $B8 - OS2 $B9,vDisPtch ; vector $B9 (deferred task) <2.2> - OS2 $BA,vIAZInit ; vector $BA <16jun87 CSL> - OS2 $BB,vIAZPostInit ; vector $BB <16jun87 CSL> - OS2 $BC,vLaunchInit ; vector $BC <16jun87 CSL> - OS2 $BD,vCacheFlush ; vector $BD <1.2> - OS2 $BE,AsyncPatch ; vector $BE - OS2 $BF,vLg2Phys ; vector $BF - OS2 $C0,vFLushCache ; vector $C0 - OS2 $C1,vGetBlock ; vector $C1 - OS2 $C2,vMarkBlock ; vector $C2 - OS2 $C3,vRelBlock ; vector $C3 - OS2 $C4,vTrashBlocks ; vector $C4 - OS2 $C5,vTrashVBlks ; vector $C5 - OS2 $C6,vCacheWrIP ; vector $C6 - OS2 $C7,vCacheRdIP ; vector $C7 - OS2 $C8,vBasicIO ; vector $C8 - OS2 $C9,vRdBlocks ; vector $C9 - OS2 $CA,vWrBlocks ; vector $CA - OS2 $CB,vSetUpTags ; vector $CB - OS2 $CC,vBTClose ; vector $CC - OS2 $CD,vBTDelete ; vector $CD - OS2 $CE,vBTFlush ; vector $CE - OS2 $CF,vBTGetRecord ; vector $CF - OS2 $D0,VBTINSERT ; vector $D0 - OS2 $D1,vBTOpen ; vector $D1 - OS2 $D2,vBTSEARCH ; vector $D2 - OS2 $D3,vBTUpdate ; vector $D3 - OS2 $D4,vGetNode ; vector $D4 - OS2 $D5,vRelNode ; vector $D5 - OS2 $D6,vAllocNode ; vector $D6 - OS2 $D7,vFreeNode ; vector $D7 - OS2 $D8,vExtBTFile ; vector $D8 - OS2 $D9,vDeallocFile ; vector $D9 - OS2 $DA,vExtendFile ; vector $DA - OS2 $DB,vTruncateFile ; vector $DB - OS2 $DC,vCMSetUp ; vector $DC - OS2 $DD,vppcDispatcher ; vector $DD (PPCDispatcher) - OS2 $DE,vDtrmV1 ; vector $DE - OS2 $DF,vBlkAlloc ; vector $DF - OS2 $E0,vBlkDeAlloc ; vector $E0 - OS2 $E1,vFileOpen ; vector $E1 - OS2 $E2,vPermssnChk ; vector $E2 - OS2 $E3,vFndFilName ; vector $E3 - OS2 $E4,vRfNCall ; vector $E4 - OS2 $E5,vAdjEOF ; vector $E5 - OS2 $E6,vPixel2Char ; vector $E6 - OS2 $E7,vChar2Pixel ; vector $E7 - OS2 $E8 ; vector $E8 (unknown) - OS2 $E9,vFileClose ; vector $E9 (dnf v2.6) - OS2 $EA,vFileRead ; vector $EA (dnf v2.6) - OS2 $EB,vFileWrite ; vector $EB (dnf v2.6) - OS2 $EC,DispatchHelper ; OS Trap $EC DispatchHelper <19> rb - OS2 $ED,VUPDALTMDB ; vector $ED <3.1> - OS2 $EE,vCkExtFS ; vector $EE - OS2 $EF,vDTrmV3 ; vector $EF - OS2 $F0,vBMChk ; vector $F0 - OS2 $F1,vTstMod ; vector $F1 - OS2 $F2,vLocCRec ; vector $F2 - OS2 $F3,vTreeSearch ; vector $F3 - OS2 $F4,vMapFBlock ; vector $F4 - OS2 $F5,vXFSearch ; vector $F5 - OS2 $F6,vReadBM ; vector $F6 - OS2 $F7,vDoEject ; vector $F7 - OS2 $F8,vSegStack ; vector $F8 - OS2 $F9,vSuperLoad ; vector $F9 - OS2 $FA,vCmpFrm ; vector $FA - OS2 $FB,vNewMap ; vector $FB - OS2 $FC,vCheckLoad ; vector $FC - OS2 $FD,XTrimMeasure ; vector $FD - OS2 $FE,XFindWord ; vector $FE - OS2 $FF,XFindLine ; vector $FF - -;------------------------------------------------------------------------------ -; BT: End second OS table macro -;------------------------------------------------------------------------------ - endif - END diff --git a/OS/EgretMgr.a b/OS/EgretMgr.a --- a/OS/EgretMgr.a +++ b/OS/EgretMgr.a @@ -243,7 +243,7 @@ ErrEgretInit equ $0030 ; TEMPORARY definition of error equate defined in STEQ ; Destroys: a0-a2, d0-d2 ;________________________________________________________________________________________________ InitEgretOrCuda - moveq.l #EgretGlobSize,D0 ; get size of globals + move.l #EgretGlobSize,D0 ; get size of globals _NewPtr ,SYS,CLEAR ; allocate space on heap and clear move.l a0,EgretBase ; save ptr to it @@ -262,13 +262,13 @@ InitEgretOrCuda move.l a1,tickComp(a2) ; set up default tick packet handler movea.l VIA,a1 ; point to the VIA - eieioSTP bclr.b #SRdir,vACR(a1) ; shift reg direction = input eieioSTP move.b #(1< end of EgretDispatch SCC poll fix @@ -424,15 +409,12 @@ EgretDispatch jsr SetTransferParams ; setup globals for this packet bsr CallShiftRegIRQ ; transfer second byte (command) to start things move.w (sp)+,sr ; now enable interrupts - eieioSTP tst.l pbCompletion(a0) ; do we have a completion routine - eieioSTP bne.s @done ; yes, then return asynchronously @waitComplete btst.b #busy,flags(a2) ; otherwise, are we still busy? - eieioSTP beq.s @done ; no, then we're done... bsr.s pollByte ; yes, poll out a byte if necessary @@ -507,9 +489,7 @@ PollByte move.w sr,d0 ; get 68xxx interrupt mask andi.w #hiIntMask,d0 ; are we at interrupt level? beq.s @exit ; no, just exit - eieioSTP btst.b #vShift,vIFR(a1) ; yes, poll the shift reg - eieioSTP beq.s @exit ; no shift reg interrupt, return bsr.s CallShiftRegIRQ ; yes, handle it @exit rts @@ -529,11 +509,9 @@ PollByte ; Destroys: d1 ;________________________________________________________________________________________________ SendByte - eieioSTP bclr.b #viaFull,vBufB(a1) ; negate via full eieioSTP bsr.s Delay100 ; give Egret time to see it - eieioSTP move.b d0,vSR(a1) ; send the byte to the shift reg eieioSTP bset.b #viaFull,vBufB(a1) ; let Egret know it's there @@ -550,13 +528,35 @@ CallShiftRegIRQ ;________________________________________________________________________________________________ viaFullAck - eieioSTP bset.b #viaFull,vBufB(a1) ; acknowlege the byte eieioSTP bsr.s Delay100 ; give Egret time to see it - eieioSTP rts ; gets cleared on exit from IRQ handler +;________________________________________________________________________________________________ +DelayAndPollSCC + tst.l PollProc ; Check for a Poll Proc available + beq.s Delay100 ; If no Poll Proc then just wait 100us + btst.b #0,SccIopFlag ; Check if we are in IOP mode + beq.s Delay100 ; If IOP then just wait 100us + + movem.l d0-d3/a0-a4/a6,-(sp) ; do some hacky new stuff + move.l sp,PollStack ; save a stack ptr to detect pushes + move.l SccRd,a3 ; a3 is SCC base register + move TimeSCCDB, d1 ; num iters of (SCC access + DBRA) in 1ms + lsr #3,d1 ; x8 -> pull bytes from SCC for 8ms +@poll btst.b #RxCA, aCtl(a3) ; POLL: SCC data available? + beq.b @next + move.b aData(a3),-(sp) ; yes -> push it to stack +@next dbra d1,@poll + eieioSTP + cmp.l PollStack,sp ; done polling, any data on our stack? + beq.b @return ; no -> return + lea.l aData(a3), a6 + jsr ([PollProc]) ; yes -> call the PollProc +@return movem.l (sp)+,d0-d3/a0-a4/a6 + rts + ;________________________________________________________________________________________________ Delay100 move.l d1,-(sp) ; save d1 @@ -566,12 +566,9 @@ Delay100 ; bne.s @loop ; no ? then skip <60> rb add.w #EclipseDelay,d1 ; <60> rb, we need an extra 25 usecs on Eclipse @loop - eieioSTP tst.b (a1) ; access the VIA - eieioSTP dbra d1,@loop move.l (sp)+,d1 ; restore d1 - eieioSTP rts ;________________________________________________________________________________________________ @@ -595,7 +592,6 @@ ShiftRegIRQ ori.w #hiIntMask,sr ; mask interrupts <13> movea.l EgretBase,a2 ; get ptr to globals <13> bset.b #busy,flags(a2) ; make sure we're marked as busy - eieioSTP btst.b #SRdir,vACR(a1) ; see if VIA direction is output eieioSTP @@ -624,11 +620,10 @@ ShiftRegIRQ move.w d3,sr ; restore interrupts bra @exit ; and exit @CmdFinished - eieioSTP bclr.b #SRdir,vACR(a1) ; now switch to input + eieioSTP @sendCmd - eieioSTP andi.b #~((1< - eieioSTP btst.b #xcvrSes,vBufB(a1) ; is Egret done? - eieioSTP bne.s @done ; yes, we're through... bset.b #sysSes,vBufB(a1) ; make sure System Session is asserted <5> eieioSTP @@ -674,15 +664,12 @@ ShiftRegIRQ bgt.s @ack ; not last, normal acknowlege btst.b #openData,flags(a2) ; is this an open ended data packet? - eieioSTP beq.s @ack ; no, normal acknowlege bsr.s viaFullAck ; acknowlege the byte using via full <8> - eieioSTP bclr.b #sysSes,vBufB(a1) ; yes, let Egret know we don't want more <8> + eieioSTP @wait - eieioSTP btst.b #xcvrSes,vBufB(a1) ; wait for egret to acknowledge termination <8> - eieioSTP beq.s @wait ; branch until xcvr session goes high <8> bra.s @done ; and we're done @@ -706,26 +693,22 @@ ShiftRegIRQ ; @ack bsr.s viaFullAck ; normal byte, acknowlege it @checkDone - eieioSTP btst.b #xcvrSes,vBufB(a1) ; was that Egrets last byte? - eieioSTP bne.s @done ; yes, we're through... tst.w rcvDataCnt(a2) ; any receive data bytes to get? bgt @exitRd ; yes, then just exit ;--------------------------------------------------------------------------- @done - eieioSTP bclr.b #viaFull,vBufB(a1) ; make sure via full is low eieioSTP bclr.b #sysSes,vBufB(a1) ; let Egret know we're done eieioSTP - bsr delay100 ; Give Egret time to see transitions & Poll SCC <13> + bsr DelayAndPollSCC ; Give Egret time to see transitions & Poll SCC <13> movea.l curPb(a2),a0 ; a0 points to current param block lea rcvHeader(a2),a1 ; a1 points to header buffer <11> cmp.b #ErrorPkt,1(a1) ; check for Error response packet <11> - eieioSTP bne.s @NotError ; ; The current transaction generated an Error <11> @@ -744,12 +727,10 @@ ShiftRegIRQ cmpa.l adbPb(a2),a0 ; is this autopoll data bne.s @skip ; no, don't fix ray's flag bset.b #EgAutoPoll,2(a1) ; yes, fix em - eieioSTP @skip ENDIF btst.b #EgAutoPoll,2(a1) ; check status, is this AutoPoll data? - eieioSTP bne @ckAutoPollComp ; yes, handle if we have completion routine move.b 2(a1),pbFlags(a0) ; explicit ADB command, stuff flags byte @@ -761,7 +742,6 @@ ShiftRegIRQ addq.w #4,a1 ; point at the data bra.s @cnt @xfer move.b (a1)+,(a2)+ ; copy the byte - eieioSTP @cnt dbra d0,@xfer ; repeat for all bytes move.l EgretBase,a2 ; get globals ptr again @@ -862,7 +842,6 @@ ShiftRegIRQ bra.s @exit ; and exit @exitRd - eieioSTP bclr.b #viaFull,vBufB(a1) ; make sure via full is low eieioSTP move.w d3,sr ; restore interrupts @@ -887,7 +866,6 @@ SetTransferParams move.l a1,-(sp) ; save a1 lea pbCmd(a0),a1 move.l a1,sendHdrPtr(a2) ; point to 1st byte of header to send - eieioSTP moveq #0,d0 move.b pbCmd(a0),d0 ; get command @@ -910,13 +888,9 @@ SetTransferParams move.w pbByteCnt(a0),d1 ; was Write DFAC use the byte count in the pBlock <12> addq.w #1,d1 ; include the packet byte already sent <12> move.w d1,sendHdrCnt(a2) ; set up header byte count <12> - eieioSTP move.w #0,sendDataCnt(a2) ; do not send the bytes as data also <12> - eieioSTP clr.w sendDataCnt(a2) ; no extended data bytes <12> - eieioSTP clr.l sendDataPtr(a2) ; no extended data ptr <12> - eieioSTP bra.s @rcvParams @notDFAC lea PseudoCntTable,a1 ; get ptr to our pseudo command table @@ -930,27 +904,19 @@ SetTransferParams ext.w d0 ; extend to word addq.b #1,d0 ; data bytes + 1 = header byte count move.w d0,sendHdrCnt(a2) ; set up header byte count - eieioSTP clr.w sendDataCnt(a2) ; no extended data bytes - eieioSTP clr.l sendDataPtr(a2) ; no extended data ptr - eieioSTP bra.s @rcvParams ; now setup receive ptrs @sendExt moveq #$7F,d0 ; prepare to mask sign and.w d1,d0 ; get rid of sign addq.w #1,d0 ; + 1 for command (packet type already sent) move.w d0,sendHdrCnt(a2) ; set up header byte count - eieioSTP move.w pbByteCnt(a0),sendDataCnt(a2) ; set up data byte count - eieioSTP move.l pbBufPtr(a0),sendDataPtr(a2) ; set up send data ptr - eieioSTP @rcvParams clr.w rcvHdrIndex(a2) ; reset index into header buffer - eieioSTP move.w #4,rcvHdrCnt(a2) ; 4 byte header default - eieioSTP asr.w #8,d1 ; get receive data byte count bmi.s @rcvExt ; branch for open-ended reads @@ -958,28 +924,20 @@ SetTransferParams beq.s @rcvADB ; no, must be adb data lea pbParam(a0),a1 ; pseudo data will be received in pbParam - eieioSTP move.l a1,rcvDataPtr(a2) - eieioSTP move.w d1,rcvDataCnt(a2) ; get receive count from table - eieioSTP bra.s @exit ; and exit @rcvADB add.w d1,rcvHdrCnt(a2) ; total header bytes = 4 + ADB data - eieioSTP clr.w rcvDataCnt(a2) ; not used - eieioSTP bclr.b #openData,flags(a2) ; this is not an open ended data packet (readPram, read6805) bra.s @exit @rcvExt move.w pbByteCnt(a0),rcvDataCnt(a2) ; set up received data byte count - eieioSTP move.l pbBufPtr(a0),rcvDataPtr(a2) ; set up received data buffer ptr - eieioSTP bset.b #openData,flags(a2) ; this is an open ended data packet (readPram, read6805) @exit move.l a0,curPb(a2) ; set up current param block - eieioSTP movea.l (sp)+,a1 ; restore a1 rts @@ -1132,6 +1090,8 @@ PseudoCntTable dc.b $00, $00 ; 22 RdWrIIC send n bytes, receive n data bytes [rbm] dc.b $01, $00 ; 23 Set WakeUpMode send 1 bytes, receive 0 data bytes rb dc.b $01, $00 ; 24 Tickle PDM Timer send 1 bytes, receive 0 data bytes rb + dc.b $00, $00 + dc.b $01, $00 ADBCntTable @@ -1158,806 +1118,71 @@ ADBCntTable Eject -;========================================================================= -; Routines: EgretInit +;-------------------------------------------------------------------------- +;ChkFirmware ; -; This routine sends a NOP/WarmStart command to Egret. This routine is -; called early during rom Startup to stop autopoll and 1 sec irq. Also, -; the routine will issue a Send DFAC command to Egret to initialize the -; the DFAC hardware to a known state. The routine does not use ANY -; memory it is register driven only. -; -; NOTE: This routine actually sends a STOP AUTO POLL, SET ONE SECOND -; INTERRUPT MODE 0 call and a SEND DFAC command to Egret. -; The Stop Autopoll and set one second interrupt modes calls will -; be changed to a single NOP/WarmStart when Egret 3 becomes -; available (S/B 4/6/90). -; -; Inputs: NONE -; -; Outputs: NONE -; -; Destroys: D0, D1, D2, D3, A1, A5, A6, A4 (Egret 2 implementation) -; Destroys: D0, D3, A1, A5, A6 (Egret 3 implementation) -; -; NOTE: This routine is called via a BSR6 and returns via a RTS6 +; This routine will determine if the Egret Chip is using Egret 8 or Caboose +; firmware or the new Cuda firmware. Based on this result, the IRQ handler, +; Dispatcher, and Tick handler vectors are set up... +; Inputs: +; A2 -> EgretGlobals +; Outputs: +; A0 -> ShiftRegIRQ +; A1 -> TickHandler +; Trashes: +; A0,A1 + + +ChkFirmware ; + movem.l a2/d0-d2, -(sp) ; preserve used regs + +@haveCuda ; + biglea CudaDispatch, a0 ; Cuda FW dispatcher + move.l #$92,d0 ; set $92 trap + _SetTrapAddress ,NEWOS + + biglea CudaShiftRegIRQ,a0 ; stuff Cuda IRQ handler in + biglea CudaTickHandler,a1 ; stuff Cuda tick handler in + +@chkDone + movem.l (sp)+, a2/d0-d2 ; restore used regs + rts + + + ;------------------------------------------------------------------------- - EXPORT EgretInit - -EgretInit movea.l DecoderInfo.VIA1Addr(a0),a1 ; get VIA 1 base address - eieioSTP - bclr.b #vSyssesbit,vBufB(a1) ; kill any pending transactions <8> <13> - eieioSTP - bclr.b #vViafullbit,vBufB(a1) ; <8> <13> - eieioSTP - moveq #$28,d0 ; we want to delay 4 millisecs -@killtime bsr5 delay100us ; in 100 usec increments - dbra d0,@killtime - move.l a6,a4 ; save the return address - - if rayFix then -; -; Send the Stop autopoll pseudo command -; - move.l #(APoll << 16) + PseudoPkt,d0 ; first command to send is Stop Auto Poll - moveq #0,d1 ; sending one byte of data $00 = stop autopoll - moveq #1,d2 - bsr6 SendEgretCmd ; send the command to Egret - tst.w d0 ; check for an error - bne.s @exit ; failed to send the command (hang timeout expired) -; -; Send the mode 0 1 second interrupt pseudo command -; - move.l #(Wr1SecMode << 16) + PseudoPkt,d0 ; mode 0 1 sec interrupts (stop 1 second irq) - moveq #0,d1 ; sending one byte of data - moveq #1,d2 - bsr6 SendEgretCmd ; send the command to Egret - tst.w d0 ; negative if error - bne.s @exit ; failed to send the command (hang timeout expired) - - else -; -; Send the NOP/WarmStart command -; - move.w #NopCmd,d0 ; Nop/WarmStart stops autopoll and 1 sec irq - swap d0 ; packet type Pseudo - move.w #pseudopkt,d0 - moveq #0,d2 ; no data to send - bsr6 SendEgretCmd ; send the command to Egret - tst.w d0 ; nonzero if error - bne.s @exit ; failed to send the command (hang timeout expired) - - endif - -; -; Send Elsie/Erickson initial DFAC setting -; - with ProductInfo - - moveq #0,d2 ; force full scan of hardware features <10> - bsr6 GetHardwareInfo ; get the ProductInfo Record <9> - btst.b #v8chipbit,ExtValid+3(a1) ; See if system has a VISA chip (bit7)<9><10> - beq.s @Erickson ; 0 = No Visa (Erickson) 1 = Visa (Elsie) <9> - - move.l #ElsieDFAC,d1 ; Assume running on Erickson (Not Elsie) <9> - bra.s @sendit - -@Erickson move.l #EricksonDFAC,d1 ; Erickson DFAC setting <9> -@sendit move.l #(WrDFAC << 16) + PseudoPkt,d0 ; Send DFAC command - moveq #1,d2 ; One byte to send - bsr6 SendEgretCmd ; send the command to Egret - tst.w d0 ; negative if error -@exit move.l a4,a6 ; restore return address - rts6 ; return to the caller - - endwith - - eject -************************************************************************************************************ -* SendEgretCmd: This register based routine will send up to four bytes of data to Egret. The -* packet type, command, byte count and data are passed in registers. The routine -* will return with d0.w = $0000 if it sent the command successfully. A value of -* $FFFF signifies that the command did not get through. The system and Egret hung -* and the system aborted the transaction. -* -* WARNING: This routine will not error check the transaction requested. It is the responsibility of -* WARNING: the caller to make sure that the packet type, command, data and data byte count are valid -* WARNING: for the transaction requested. Failure to follow the rules will make this routine fail and -* WARNING: CRASH the system. -* -* Input: -* a0.l Pointer to Base address table -* -* d0.l = High word PACKET Command -* Low word PACKET Type -* -* d1.l = Up to four bytes of data to send -* Long word data byte assigment = byte 4, byte 3, byte 2, byte 1 -* Byte 1 sent out first -* -* d2.l = Byte count to send. (0-4 bytes) -* Byte count > 4 will send four bytes only -* -* Output: d0.w $0000 if call succeeded, Nonzero if failed -* -* d1.l high word = flags, low word packet type returned by Egret -* -* Destroys: D2.l, D3.l, D4.l, A5.l, A4.l, A1.l -* -************************************************************************************************************ - - Export SendEgretCmd -SendEgretCmd - movea.l DecoderInfo.VIA1Addr(a0),a1 ; get VIA 1 base address rb, start - move.l #((MaxTout<<16) OR MaxRetries),d4 ; number of retries before giving up with Egret <13> - bsr5 Delay100us - eieioSTP - btst.b #vsysSesBit,vBufB(a1) ; check for a transaction in progress - eieioSTP - beq.s @AllOK - -@Timeout - eieioSTP - bclr.b #vsysSesBit,vBufB(a1) ; kill the rest of the transaction <8> - eieioSTP - bclr.b #vViaFullBit,vBufB(a1) ; <8> - eieioSTP - bsr5 Delay100us ; in progretss <8> - bsr5 Delay100us ; <8> - -@AllOK swap.w d4 ; timeout in low word of d4 Retry count in high word <13> - eieioSTP - btst.b #vxcvrSesBit,vBufB(a1) ; check for abort pending - eieioSTP - beq IrqMissed ; MIssed Vsr Irq because of INITVIAS - bset #vsysSesBit,vBufB(a1) ; assert sysSesBit - eieioSTP - bsr5 @SendPtype ; send the packet type - beq RealAbort ; Discard Aborting transaction rb, end -; -; If not abort transaction in progress then send the command byte -; - swap d0 - bsr5 sendByte1 ; send the command byte - bsr5 delay100us ; give Egret time to see viaEmpty -; -; Now send number of bytes contained in d1 based on -; byte count contained in d2.w -; - move.l d1,d0 ; get the data to send - subq #1,d2 ; adjust for DBRA - cmp.w #3,d2 ; if count out of range quit - bhi.s @EndCmd ; if count valid then adjust for dbra -@sendloop bsr5 sendByte1 - bsr5 delay100us - lsr.l #8,d0 ; move data byte to low byte of register -@loopEntry dbra d2,@sendloop ; decrement byte count -; -; Wait for the response packet header -; -@EndCmd - eieioSTP - bclr.b #SRdir,vACR(a1) ; shift in - eieioSTP - bclr.b #vSyssesbit,vBufB(a1) ; negate vSyssesbit - eieioSTP - bsr5 Delay100us -; -; Now receive the Standard Response packet Header -; - bsr5 readAttn ; get the Attention byte - eieioSTP - bsr5 Delay100us - eieioSTP - bset.b #vSyssesbit,vBufB(a1) ; assert vSyssesbit - eieioSTP - bsr5 readByte ; get the packet type - and #$00FF,d0 ; keep low byte only - swap d0 ; save the packet type - bsr5 readByte ; get the flags byte - and.w #$00FF,d0 ; keep low byte only - swap d0 ; keep the flags byte as an error code - exg d0,d1 ; save the packet type and flags returned - bsr5 readByte ; get the command - eieioSTP - bclr.b #vSyssesbit,vBufB(a1) ; negate vSyssesbit - eieioSTP - bsr5 Delay100us -; -; Check for an error packet returned by Egret -; - move.l d1,d0 ; save the packet type and flags - cmp.b #errorpkt,d0 ; check for error packet - beq.s @Exit ; error pkt then just exit - sub.w d0,d0 ; zero for success -@exit rts6 - -;-------------------------------------------------------------------------- -@SendPtype ; <2> - eieioSTP - bset.b #SRdir,vACR(a1) ; shift out - eieioSTP - btst.b #vXcvrsesbit,vbufB(a1) ; check for abort - eieioSTP - beq.s @AbortReq ; go away if abort requested - move.b d0,vSR(a1) ; load byte into shift reg - eieioSTP - bset.b #vViafullbit,vBufB(a1) ; indicate shift reg is full - eieioSTP -; -; Check Vsr Irq until timeout. If timeout then check the retry count -; and Call Death Chimes if Retry count exausted. -; -@PollDelay - eieioSTP - btst.b #ifSR,vIFR(a1) ; wait for shift to complete - eieioSTP - bne.s @VsrIrq ; Go service Shift register Irq <13> - dbra.w d4,@PollDelay ; try again if timed out <13> rb - move.w #MaxTout,d4 ; Reset the Timeout <13> rb - swap.w d4 ; get the Retry count <13> rb - subq.w #1,d4 ; Try again if Retry count not Exausted <13> rb - beq.s @Timeout ; <13> - -@DeadEgret move.w #ErrEgretInit,d7 ; Egret failed <13> - move.l #0001,d6 ; d6.l must be nonzero <13> - bigjmp Error1Handler,a3 ; Play death chimes <13> - -@VsrIrq - eieioSTP - tst.b vSR(a1) ; clear the interrupt - eieioSTP - bclr.b #vViafullbit,vBufB(a1) ; now indicate shift reg empty - eieioSTP -; -; Delay 100 usec -; - move.w #DelayCnt,d3 -@wait20 - eieioSTP - tst.b (a1) ; sync to VIA clock - eieioSTP - dbra d3,@wait20 ; delay at least 100 us (very rough) - eieioSTP - btst.b #vXcvrsesbit,vbufB(a1) ; check for abort - eieioSTP -@AbortReq rts5 - -;-------------------------------------------------------------------------- -; DumpAbort This routine will read all the data for an abort transaction and -; discard it. When done it will jump back to SendNopCmd entry point -; to retry our command. This command will eventually complete... - -RealAbort - eieioSTP - bclr.b #vSyssesbit,vBufB(a1) ; deassert system session - eieioSTP -IrqMissed bsr5 Delay100us ; Let Egret see SysSes. ≥ 125µsec - eieioSTP - bclr.b #SRdir,vACR(a1) ; shift in - eieioSTP - tst.b vSR(a1) ; discard the byte - eieioSTP - bset #vSyssesbit,vBufB(a1) ; assert vSyssesbit - eieioSTP - -DumpAbort - - eieioSTP - bclr #vViafullbit,vBufB(a1) ; then negate VIA full bit - eieioSTP - -@loop - eieioSTP - btst.b #ifSR,vIFR(a1) ; wait for shift to complete - eieioSTP - beq.s @loop - bset.b #vViafullbit,vBufB(a1) ; acknowlege byte - eieioSTP - tst.b vSR(a1) ; discard the byte - eieioSTP -; -; Delay 100 usec -; - move.w #DelayCnt,d3 -@wait - eieioSTP - tst.b (a1) ; sync to VIA clock - dbra d3,@wait ; delay at least 100 us (very rough) - eieioSTP - btst.b #vXcvrsesbit,vBufB(a1) ; check for last byte - eieioSTP - beq.s DumpAbort ; Clock Tick Packets only 2 bytes -; -; Last byte was read -; - bclr #vViafullbit,vBufB(a1) ; then negate VIA full bit - eieioSTP - bclr.b #vSyssesbit,vBufB(a1) ; negate vSyssesbit - eieioSTP - bsr5 Delay100us ; delay 200 usec - bra.s SendEgretCmd ; go try sending our command again - -;-------------------------------------------------------------------------- -sendByte1 ; <2> - eieioSTP - bset.b #SRdir,vACR(a1) ; shift out - eieioSTP - move.b d0,vSR(a1) ; load byte into shift reg - eieioSTP - bset.b #vViafullbit,vBufB(a1) ; indicate shift reg is full - eieioSTP -@poll - eieioSTP - btst.b #ifSR,vIFR(a1) ; wait for shift to complete - eieioSTP - beq.s @poll - tst.b vSR(a1) ; clear the interrupt - eieioSTP - bclr.b #vViafullbit,vBufB(a1) ; now indicate shift reg empty - eieioSTP - rts5 - -;-------------------------------------------------------------------------- -readByte - eieioSTP - btst.b #ifSR,vIFR(a1) ; wait for shift to complete - eieioSTP - beq.s readByte - bset.b #vViafullbit,vBufB(a1) ; Tell Egret we saw the byte - eieioSTP - move.b vSR(a1),d0 ; read the byte -; -; Delay 100 usec -; - eieioSTP - move.w #DelayCnt,d3 -@wait - eieioSTP - tst.b (a1) ; sync to VIA clock - eieioSTP - dbra d3,@wait ; delay at least 100 us (very rough) - eieioSTP - bclr #vViafullbit,vBufB(a1) ; then negate VIA full bit - eieioSTP - rts5 - -;-------------------------------------------------------------------------- -readAttn - eieioSTP - - btst.b #ifSR,vIFR(a1) ; wait for shift to complete - eieioSTP - beq.s readAttn - eieioSTP - tst.b vSR(a1) ; clear the interrupt - eieioSTP - rts5 - -;-------------------------------------------------------------------------- -delay100us - move.w #DelayCnt,d3 -; add.w d3,d3 ; let's make it even rougher -@wait - eieioSTP - tst.b (a1) ; sync to VIA clock - eieioSTP - dbra d3,@wait ; delay at least 100 us (very rough) - eieioSTP - rts5 - -;_______________________________________________________________________ -; -; Routine: EclipsePDMPatch -; -; Desc: Patch for ECLIPSE PowerDown Messsage Handler Install -; and PowerDown Message Enable -;_______________________________________________________________________ - - EXPORT EclipsePDMPatch -EclipsePDMPatch - WITH EgretPB -; -; Initialize the Eclipse PowerDown Message handler. -; - movem.l a0-a1,-(sp) ; work registers - suba.l #EgretPbSize,sp ; make room for PB - move.l sp,a0 ; point a0 to pbBuffer - move.w #(PDMVectPkt << 8),pbCmdType(a0); InitPDM Vector Packet (Cmd ignored) - clr.l pbCompletion(a0) ; No Completion - lea KeySwitchHandler,a1 ; address of keyswitch sense handling - move.l a1,PbParam(a0) +;TweakUnknownPramVal +; +; Called at end of InitEgretOrCuda. pram[0xA1] &= ~0x20 +; + + with EgretPB + +TweakUnknownPramVal + link.w a6,#-EgretPBSize + move.l #$07000000,d0 + and.l univromflags,d0 + cmpi.l #$03000000,d0 + bne.s @return + move.l sp,a0 + move.b #pseudoPkt,pbCmdType(a0) + move.b #Rd6805addr,pbCmd(a0) + clr.l pbParam(a0) + move.w #$a1,pbParam(a0) ; WHAT IS THIS PRAM LOCATION?! + move.w #1,pbByteCnt(a0) + lea pbParam+2(a0),a1 + move.l a1,pbBufPtr(a0) + clr.w pbFlags(a0) + clr.w pbResult(a0) + clr.l pbCompletion(a0) _EgretDispatch - -; ••••••••••••••••••••••••••••••••••••••••••••••••• -; We don't want to enable messages where we set up the Power Down Message Handler. This is because -; up until the time a system is located to boot from, when the user turns the keyswitch OFF, there -; are no files to flush, no volumes to unmount and Caboose can safely turn the machine off with us -; getting in the way. Once we get a system loaded, we'll enable Power Down Messages with the other -; routine, EclipsePDEPatch() (see below). -; ••••••••••••••••••••••••••••••••••••••••••••••••• - -; We need to allocate a TimeMgr TMTask record that we can use once we enable power down messages so -; we can power the machine down even if UnMounts fail or hang. ExpandMemRec has JUST been initialized -; when this patch gets called, so this is safe to do. - - WITH ExpandMemRec - - movea.l expandMem,a1 ; get base of ExpandMemRec - moveq.l #(tmQSize+dtQElSize),d0 ; request a TimeMgr TMTask+Deferred Task-sized record in SysHeap - _NewPtr ,SYS,CLEAR ; - move.l a0,emKeyTMTaskPtr(a1) ; save pointer to TMTask record in ExpandMemRec - ENDWITH - adda.l #EgretPbSize,sp ; discard the parameter block - movem.l (sp)+,a0-a1 ; restore registers -@EgretDone - - rts ; Return to Caller - -;_______________________________________________________________________ -; -; Eclipse Keyswitch Handler -; ------------------------- -; -; This routines either -; (1) turns off Eclipse, or -; (2) catches and ignores keyswitch changes interrupts -; from Caboose, since we look directly at the keyswitch -; position values on VIA2[PB][v2Keyswitch] or [v2PowerOff]. -; -; As of DVT hardware, the values of these keyswitch positions -; should be available on VIA2 and no longer need to be maintained -; in SW. -;_______________________________________________________________________ -; -; PowerDown Message Handler -; - export KeySwitchHandler ; - import EgretPowerOff ; from EgretPatches.a - -KeySwitchHandler ; Handler of Power Down / Keyswitch Sense messages - -; Caboose sends a message whenever the keyswitch sense changes. thru next -; -; Input: D0.B Keyswitch position -; -; 0 OFF -; 1 Secure -; 2 Insecure or ON ("normal") -; - - tst.b d0 ; check for PowerOff message - bne.s @rts ; IF Message == PowerDOWN THEN - - movem.l a0-a1,-(sp) ; save A0, A1 thru next - -; First, install a time manager task that will forcefull shut us down in 5 seconds. That way, -; in case something goes wrong with the deferred task, we will shut off anyway. - - WITH ExpandMemRec - - movea.l expandMem,a1 ; get base address of ExpandMemRec - movea.l emKeyTMTaskPtr(a1),a0 ; retrieve "final" Time Mgr queue element - movea.l a0,a1 ; use A1 to clear the record - moveq.l #((tmQSize+dtQElSize)/2)-1,d0 ; clear the TimeMgr+DeferredTask queue elements -@clrRec clr.w (a1)+ ; just in case someone has crapped them up - dbra d0,@clrRec - lea PullThePlug,a1 ; get address of where to go when timer expires - move.l a1,tmAddr(a0) ; tell the TimeMgr about it - _InsTime ; go install the Turn Off The Power Time Mgr task - move.l #(5*1000),d0 ; set timeout to be 5 SECONDS - _PrimeTime ; activate the task - -; Now install the Deferred Task that will attempt to unmount all mounted volumes. -; -; The ExpandMemRec Ptr points at an area that is tmQSize+dtQSize bytes big. -; -; Initialize the Deferred Task queue element to point at our Unmount Volumes Deferred Task. - - adda.w #tmQSize,a0 ; move A0 to point at the Deferred Task Queue Element - move.w #dtQType,dtType(a0) ; and initialize the record - lea EclipseAdios,a1 - move.l a1,dtAddr(a0) - jsr ([jDTInstall]) ; go install our Unmount and Shutdown deferred task - movem.l (sp)+,a0-a1 ; restore A0, A1 - tst.w d0 ; see whether or not deferred task install was done - bne.s PullThePlug ; if it failed, shut down RIGHT NOW -@rts rts ; if it was successful, return to the int. handler - - ENDWITH - -;_______________________________________________________________________ -; -; Routine: EclipseAdios -; -; Desc: Deferred Task installed when the keyswitch is turned -; to the OFF position. This attempts to Unmount all -; volumes. Once that attempt has been made, the system -; is powered down. -; -; Inputs: None. -; Returns: None. -; Trashes: The System. Power to Eclipse is turned off. G'night. -; -;_______________________________________________________________________ - -EclipseAdios - -; Try and unmount any mounted volumes before we power down. - - move.l VCBQHdr+qHead,a1 ; Start at the head of the VCBQ - bra.s @checkVCB ; Check if valid -@UMloop - tst.w vcbFSID(a1) ; Make sure it’s FSID = 0 - bne.s @nextQEntry ; ... i.e. not a server - -; Try to unmount the volume. - - sub.w #ioQElSize,a7 ; get an I/O param block - movea.l a7,a0 - - move.w vcbVRefNum(a1),ioVRefNum(a0) ; stuff VCB VRefNum into PB - move.l #0,ioFileName(a0) - move.l #0,ioCompletion(a0) ; no completion routine - move.l a1,-(sp) ; save A1 (queue link ptr) - _HUnmountVol ; attempt to forcefully unmount volume - movea.l (sp)+,a1 ; restore A1 - adda.w #ioQElSize,a7 ; get rid of PB. we'll reallocate the PB if needed - -@nextQEntry movea.l qLink(a1),a1 ; get next queue entry -@checkVCB move.l a1,d0 ; at EOQ yet? - bne.s @UMloop ; nope, try this one - -PullThePlug ; ENDIF - bsr.l EgretPowerOff ; power junkies go into sudden withdrawl - bra.s PullThePlug ; with no hope of recovery - -;_______________________________________________________________________ -; -; Routine: EclipseDFACPatch -; -; Desc: Patch for ECLIPSE send default DFAC Messsage -;_______________________________________________________________________ - EXPORT EclipseDFACPatch - -EclipseDFACPatch -; -; Build a Parameter block for the default DFAC message -; - movem.l a0-a1,-(sp) ; work register - suba.l #EgretPbSize,sp ; make room for PB - move.l sp,a0 ; point a0 to pbBuffer - move.w #(pseudoPkt << 8) \ - + SetDefDFAC,pbCmdType(a0) ; InitPDM Vector Packet (Cmd ignored) - clr.l pbCompletion(a0) ; No Completion -; -; Build the DFAC message issue the call and clean up -; - move.w #$0100,-(sp) ; byte count and one DFAC byte in buffer - move.l sp,pbBufPtr(a0) ; Buffer pointer - move.w #$0002,pbByteCnt(a0) ; byte count includes the byte count byte in the buffer + move.b #Wr6805Addr,pbCmd(a0) + bclr #5,pbParam+2(a0) _EgretDispatch - adda.l #EgretPbSize+2,sp ; discard the parameter block and data buffer - movem.l (sp)+,a0-a1 -@EgretDone - rts ; Return to Caller - -;_______________________________________________________________________ thru next -; -; Routine: DebugUtilRunKbdPatch -; -; Desc: Checks to see if the machine we're running on has a -; keyswitch, and if so, if it's in the OFF position. -; If so, then we probably don't have any choice as to -; whether volumes can be flushed and unmounted, so we -; go directly to the PowerOff routine. Do not pass Go, -; do not collect $200. (is that 200 hex dollars?) -; -; NOTE: This handles both the DebugEnter _and_ DebugPoll cases. -;_______________________________________________________________________ - - EXPORT DebugUtilRunKbdPatch ; provide address to InterruptHandlers.and anyone else -DebugUtilRunKbdPatch - - TestFor KeyswCabooseBit ; do we have a caboose? <21> - beq.s @justDoIt ; nope <21> - -; If you made it here, you're a Caboose-flavor keyswitch. -; -; VIA2 has v2PowerOff and v2Keyswitch (SECURE mode) wired, with 0=TRUE. - - move.l a1,-(sp) ; save A1 temporarily - movea.l VIA2RBV,a1 ; retrieve address of VIA2 - eieioSTP - btst.b #v2PowerOff,VBufB(a1) ; is the keyswitch OFF? - eieioSTP - move.l (sp)+,a1 ; restore A1 - beq.s @powerOff ; IF Keyswitch != OFF THEN -@justDoIt - bra DebugPwrMgrADBPatch2 ; check for PowerMgr stuff -@powerOff ; ELSE - bra.s PullThePlug ; administer the death blow - -DebugPwrMgrADBPatch2 - TestFor hwCbPwrMgr ; see if we have a power manager - beq.s @noPmgrADB ; if not, skip it - - movea.l VIA,a1 ; point to the VIA - movea.l Lvl1DT+(ifCB1*4),a0 ; get the handler address - jsr (a0) ; call the interrupt handler - addq.l #4,SP ; clean up stack from bsr - movem.l (sp)+,d3/a3 ; restore registers +@return unlk a6 rts -@noPmgrADB - rts - -;_______________________________________________________________________ -; -; Routine: EgretDFACandPDM formerly: EclipseEgretPatches -; -; Desc: Calls egret patches for Eclipse with Caboose, keyswitch -; Calls Egret patches for Anyone with Cuda, SoftPower Off -;_______________________________________________________________________ - - EXPORT EgretDFACandPDM - IMPORT CudaPDMPatch - -EgretDFACandPDM - - move.l #EgretFWMask, d0 ; get productInfo record mask for Egret FW - and.l UnivRomFlags,d0 ; isolate the field - sub.l #Caboose,d0 ; Do we have an Egret/Caboose? - bne.s @Done ; -> Nope. Don't do nothing! - - ; Instead of calling EclipseDFACPatch, this should more generally initialize DFAC - ; for all machines that care about it (or even if we don't but it needs it anyway). - ; -- bg/djw, 12/6/90 - -@EgretCaboose - bsr EclipseDFACPatch ; call the Eclipse DFAC control patch - bsr EclipsePDMPatch ; call the Eclipse keyswitch/PowerDown Msgs patch -@Done rts ; Return to Caller - - -;-------------------------------------------------------------------------- -;ChkFirmware -; -; This routine will determine if the Egret Chip is using Egret 8 or Caboose -; firmware or the new Cuda firmware. Based on this result, the IRQ handler, -; Dispatcher, and Tick handler vectors are set up... -; Inputs: -; A2 -> EgretGlobals -; Outputs: -; A0 -> ShiftRegIRQ -; A1 -> TickHandler -; Trashes: -; A0,A1 - - -ChkFirmware ; - movem.l a2/d0-d2, -(sp) ; preserve used regs - move.l #EgretFWMask,d0 ; mask for EgretFW - and.l UnivRomFlags,d0 ; isolate the field - sub.l #Egret8,d0 ; see if we have EgretFW - beq.s @haveEgret ; set Zero flag, exit - ; If we dont have Egret FW, we still might have an Caboose FW - - sub.l #Egret8,d0 ; see if we have CabooseFW - beq.s @haveCaboose ; if we do, chk for Cuda - -@haveCuda ; - biglea CudaDispatch, a0 ; Cuda FW dispatcher - move.l #$92,d0 ; set $92 trap - _SetTrapAddress ,NEWOS - - biglea CudaShiftRegIRQ,a0 ; stuff Cuda IRQ handler in - biglea CudaTickHandler,a1 ; stuff Cuda tick handler in - bra.s @chkDone ; - -@haveEgret -@haveCaboose - lea EgretDispatch, a0 ; Egret FW dispatcher - move.l #$92,d0 ; set $92 trap - _SetTrapAddress ,NEWOS ; - ; - lea ShiftRegIRQ,a0 ; stuff Egret IRQ handler in - lea tickHandler,a1 ; stuff Egret tick handler in -@chkDone - movem.l (sp)+, a2/d0-d2 ; restore used regs - rts - - - -;-------------------------------------------------------------------------- -;SendEgretCmdPatch -; -; This routine will determine if the Egret Chip is using Egret 8 or Caboose -; firmware or the new Cuda firmware. From the firmware type, determine what -; routine to use, SendEgretCmd for Egret or Caboose, and SendCudaCmd for Cuda -; -; NOTE: This routine is REGISTER based, there isn't a stack -; SendEgretCmd is called via BSR6, so must Preserve A6, as the return address -; SendEgretCmdPatch is called via a BSR5 return is in A5 -; Input: -; a0.l Pointer to Base address table -; -; d0.l = High word PACKET Command -; Low word PACKET Type -; -; d1.l = Up to four bytes of data to send -; Long word data byte assigment = byte 4, byte 3, byte 2, byte 1 -; Byte 1 sent out first -; -; d2.l = Byte count to send. (0-4 bytes) -; Byte count > 4 will send four bytes only -; -;-------------------------------------------------------------------------- - -SendEgretCmdPatch - move.l a5, a3 ; preserve patch return addr - move.l a6, a4 ; preserve EgretInit rtn addr - bigbsr6 GetHardwareInfo,a1 ; - move.l a4, a6 ; restore EgretInitrtn addr - move.l a3, a5 ; restore patch rtn addr - moveq.l #ProductInfo.ADBMask,d0 ;mask for ADB kind <23> - and.l d1,d0 ;isolate the field <23> - subq.l #ProductInfo.ADBEgret,d0 ;see if we have Egret ADB <23> - - and.l #EgretFWMask,d4 ; isolate the field - sub.l #Egret8,d4 ; see if we have Egret8 FW - beq.s @patchdone ; if we do, zero flag set -; -; If we dont have Egret FW, we still might have an Caboose -; - sub.l #Egret8,d1 ; see if we have Caboose FW -@haveEgret ; if we do, zero flag set - beq.s @patchdone ; its Egret or Caboose, just exit... -@haveCuda ; - bigjmp SendCudaCmd,a3 ; jump to Cuda Send routine -@patchdone ; - movea.l DecoderInfo.VIA1Addr(a0),a1 ; get VIA 1 base address - move.l #((MaxTout<<16) OR MaxRetries),d4 ; number of retries before giving up with Egret <13> - rts5 - -;-------------------------------------------------------------------------- -;EgretInitPatch -; -; This routine will determine if the Egret Chip is using Egret 8 or Caboose -; firmware or the new Cuda firmware. From the firmware type, determine what -; routine to use, EgretInit for Egret or Caboose, and CudaInit for Cuda -; -; NOTE: This routine is REGISTER based, there isn't a stack -; EgretInit is called via BSR6, so must Preserve A6, as the return address -; EgretInitPatch is called via a BSR5 return is in A5 -; -EgretInitPatch ; - move.l a5, a3 ; preserve patch return addr - move.l a6, a4 ; preserve EgretInit rtn addr - bigbsr6 GetHardwareInfo,a1 ; - move.l a4, a6 ; restore EgretInitrtn addr - move.l a3, a5 ; restore patch rtn addr - - and.l #EgretFWMask,d1 ; isolate the field - sub.l #Egret8,d1 ; see if we have Egret8 FW - beq.s @patchdone ; if we do, zero flag set -; -; If we dont have Egret FW, we still might have an Caboose -; - sub.l #Egret8,d1 ; see if we have Caboose FW -@haveEgret ; if we do, zero flag set - beq.s @patchdone ; its Egret or Caboose, just exit... -@haveCuda ; - bigjmp CudaInit,a3 ; jump to CudaInit routine in CudaMgr.a -@patchdone ; - movea.l DecoderInfo.VIA1Addr(a0),a1 ; get VIA 1 base address - eieioSTP - bclr.b #vsysSesBit,vBufB(a1) ; kill any pending transactions <8> <13> - eieioSTP - bclr.b #vViaFullBit,vBufB(a1) ; <8> <13> - eieioSTP - rts5 TerrorEgret diff --git a/OS/HFS/BTMAINT2.a b/OS/HFS/BTMAINT2.a --- a/OS/HFS/BTMAINT2.a +++ b/OS/HFS/BTMAINT2.a @@ -1110,7 +1110,7 @@ UpdDRec BEQ.S @2 ; ptr = 0, clear the record -> MOVEA.L D1,A0 ; source = data record EXT.L D0 ; move length = record size - _BlockMove ; move in the data record + _BlockMoveData ; move in the data record BRA.S UDExit ; all done -> @1 CLR.B (A1)+ ; clear the record diff --git a/OS/HFS/BTSVCS.a b/OS/HFS/BTSVCS.a --- a/OS/HFS/BTSVCS.a +++ b/OS/HFS/BTSVCS.a @@ -748,7 +748,7 @@ BIInit LSR.L #1,D0 ; LSL.L #1,D0 ; ...and adjust to word boundry ADD.W D0,D6 ; total size = key size + data size - _BlockMove ; move in the key + _BlockMoveData ; move in the key ADDQ.W #1,D6 ; adjust total size to word boundry LSR.W #1,D6 ; diff --git a/OS/HFS/CMMAINT.a b/OS/HFS/CMMAINT.a --- a/OS/HFS/CMMAINT.a +++ b/OS/HFS/CMMAINT.a @@ -353,7 +353,7 @@ UpdCName BLE.S @1 ; no -> <09Sep85> MOVE.W D1,D0 ; yes, truncate to max <09Sep85> @1 MOVE.B D0,(A1)+ ; set length byte <09Sep85> - _BlockMove ; copy CName to dest <09Sep85> + _BlockMoveData ; copy CName to dest <09Sep85> MOVEM.L (SP)+,D0-D1/A0-A1 ; restore regs <09Sep85> RTS ; exit UpdCName <09Sep85> diff --git a/OS/HFS/CMSVCS.a b/OS/HFS/CMSVCS.a --- a/OS/HFS/CMSVCS.a +++ b/OS/HFS/CMSVCS.a @@ -663,13 +663,13 @@ MCGetSrc LEA ckrOff(A4),A1 ; dest = key record in CM vars MOVEQ #1,D0 ; get key length (include length byte) ADD.B (A0),D0 ; - _BlockMove ; copy the key + _BlockMoveData ; copy the key MOVEA.L (SP)+,A0 ; A0 = ptr(data record) LEA cdrOff(A4),A1 ; dest = data record in CM vars MOVE.W D1,D0 ; length = len(data record) EXT.L D0 ; - _BlockMove ; copy the data record + _BlockMoveData ; copy the data record ; ; insert new source CNode record in BTree with new key ; @@ -845,7 +845,7 @@ CMRenameCN LEA cdrOff(A4),A1 ; dest ptr = CM vars MOVE.W D6,D0 ; length = len(data record) EXT.L D0 ; - _BlockMove ; copy the record + _BlockMoveData ; copy the record ; ; insert old CNode record in BTree with new key ; diff --git a/OS/HFS/Cache/CacheControl.a b/OS/HFS/Cache/CacheControl.a --- a/OS/HFS/Cache/CacheControl.a +++ b/OS/HFS/Cache/CacheControl.a @@ -117,8 +117,7 @@ CTExit GetCSize jsr FSQueueSync ; Synchronize with the file manager move.l CacheVars,a1 ; Cache vars address - move.l OldBufPtr(a1),d0 ; Pre-cache BufPtr - sub.l NewBufPtr(a1),d0 ; Size of cache = (Pre-cache BufPtr)-current + move.l CacheSize(a1),d0 ; Size of cache = (Pre-cache BufPtr)-current move.l d0,ioMisc(a0) ; Return in param block moveq #0,d0 ; Result = SUCCESS bra.s CTExit @@ -186,8 +185,7 @@ GetMaxCXfr SetMaxCXfr jsr FSQueueSync ; Synchronize with the file manager move.l CacheVars,a1 ; Cache vars address - move.l OldBufPtr(a1),d0 ; Pre-cache BufPtr - sub.l NewBufPtr(a1),d0 ; Size of cache = (Pre-cache BufPtr)-current + move.l CacheSize(a1),d0 ; Size of cache = (Pre-cache BufPtr)-current move.l ioMisc(a0),d1 ; Get caller's parameter cmp.l d1,d0 ; Cache size >= requested max xfer size? bhs.s @1 ; Xfer if so... diff --git a/OS/HFS/CacheIO.a b/OS/HFS/CacheIO.a --- a/OS/HFS/CacheIO.a +++ b/OS/HFS/CacheIO.a @@ -75,6 +75,7 @@ include 'FileMgrPrivate.a' include 'SCSI.a' include 'SCSIPriv.a' + include 'Devices.a' PRINT ON PRINT NOGEN @@ -171,6 +172,22 @@ RWSetUp @1 ENDIF + CMP.L #kMaximumBlocksIn4GB,D0 ; + BLS.S @notlarge ; (use 32-bit for low blocks) + + WITH XIOParam ; + LSL.L #8,D0 ; ...x 512 + ADD.L D0,D0 ; + MOVE.L D0,IOWPosOffset+4(A0) ; ... gives low long + MOVE.L CBHDBlk(A4),D0 ; physical disk block again + CLR.W D0 ; + SWAP D0 ; .../ 8M + LSR.W #7,D0 ; + MOVE.L D0,IOWPosOffset(A0) ; ... gives high long + OR.W #kUseWidePositioning,IOPosMode(A0) ; + BRA.S BasicIO ; + ENDWITH ; +@notlarge ; LSL.L #8,D0 ; ...x 512 ADD.L D0,D0 ; MOVE.L D0,IOPosOffset(A0) ; ... gives disk address @@ -282,12 +299,16 @@ SCSINotBusy BLE.S RWCont ; br if so (otherwise, driver just ; passed back some garbage . . .) @3 BSET #HFSContd,HFSFlags ; We're now returning from the trap - BNE.S RWCont1 ; If we already returned, do I/O comp. now + BNE.S RWReturnD0 ; If we already returned, do I/O comp. now RWRTS RTS ; return to caller (complete asynchronously) ; IO completion routine +RWReturnD0 + MOVE.W IOResult(A0),D0 + BRA.S RWCont1 + RWIOComp BSET #HFSContd,HFSFlags ; We're continuing now BEQ.S RWRTS ; If trap didn't really return ,ASYNC @@ -368,6 +389,23 @@ RWBlksSub: OR.B D0,IOPosMode+1(A0) ; pass verify bit on to the disk driver MOVE.L D3,D0 ; convert from block to byte address + + CMP.L #kMaximumBlocksIn4GB,D0 ; + BLS.S @notlarge ; (use 32-bit for low blocks) + + WITH XIOParam ; + LSL.L #8,D0 ; ...x 512 + ADD.L D0,D0 ; + MOVE.L D0,IOWPosOffset+4(A0) ; ... gives low long + MOVE.L D3,D0 ; physical disk block again + CLR.W D0 ; + SWAP D0 ; .../ 8M + LSR.W #7,D0 ; + MOVE.L D0,IOWPosOffset(A0) ; ... gives high long + OR.W #kUseWidePositioning,IOPosMode(A0) ; + BRA BasicIO ; head for the I/O sphincter + ENDWITH ; +@notlarge ; LSL.L #8,D0 ; ...x 512 ADD.L D0,D0 ; MOVE.L D0,IOPosOffset(A0) ; absolute address @@ -423,6 +461,36 @@ vSetUpTags ; 'vectored' SetUpTags routine <02Oct85> @4 MOVE.L Time,BufTgDate ; use date for MFS <01Oct85> RTS +;—————————————————————————————————————————————————————————————————————————————————————————— +; +; fsSCSIFreeHookProc (lifted from FileMgrHooks.a, probably for SCSINotBusy JMP) +; +; This procedure is called by the SCSI manager every time the SCSI bus is +; freed up. If (the File System is busy) and (we're waiting for a wake up) +; then jump to where we deferred until SCSI was free. +; +;—————————————————————————————————————————————————————————————————————————————————————————— + export fsSCSIFreeHookProc +fsSCSIFreeHookProc: + bclr.b #fsSCSIDefer, FSBusy ; if we're waiting, we'll have this flag set + beq.s NoWakeUp + + MOVEM.L D1-D7/A0-A6,-(SP) ; preserve registers (for caller of fsSCSIFreeHook) + PEA SCSIBusyReturn ; return to here to restore regs + + MOVEA.L HFSStkPtr,A6 ; Recover HFS' private stack pointer + MOVEM.L (A6)+,D1-D7/A0-A5 ; Retrieve registers off A6 stack + MOVE.L A6,HFSStkPtr ; save stack ptr + + JMP SCSINotBusy ; continue with the dispatch + +SCSIBusyReturn + MOVEM.L (SP)+,D1-D7/A0-A6 ; restore significant registers + +NoWakeUp RTS ; + + endproc + END diff --git a/OS/HFS/Extensions/BTreeMgr/BTreeQueue.a b/OS/HFS/Extensions/BTreeMgr/BTreeQueue.a --- a/OS/HFS/Extensions/BTreeMgr/BTreeQueue.a +++ b/OS/HFS/Extensions/BTreeMgr/BTreeQueue.a @@ -84,6 +84,11 @@ btDebugSYS EQU 0 ; <16Apr90> ; that file's access might have been reserved). ; Input: D0 = dispatch selector, A0 = ioParam, D1.W = trapword (A08E) ;__________________________________________________________________________ + ;; (CDG5) For some reason, with sync BTree requests is not + ;; enough to let BTAsync to make the call and spin on the + ;; result. Instead we spin waiting for a fake call, then we run + ;; ExtBTDispatchRequest, then we spin waiting for the result of + ;; *that*. ExtBTQueue PROC EXPORT export ExtBTDispatchRequest IMPORT ExtIsBtree @@ -97,10 +102,27 @@ ExtBTQueue PROC EXPORT BNE BTAsync ; yes ;; else, it's a sync call: CLR.L IOCompletion(A0) ; no completion routines for sync calls + + MOVE.L IOCmdAddr(A0),-(SP) ; save the real callback on the stack + PEA RaiseFlagFakeCmd ; and install a fake one + MOVE.L (SP)+,IOCmdAddr(A0) + MOVE.L A0,-(SP) ; save parameter block ptr BSR.S BTAsync ; queue it up (and maybe call it) MOVE.L (SP)+,A0 ; restore ioParam +@spin TST.L IOCmdAddr(A0) ; spin... + BNE.S @spin ; until fake call back runs + MOVE.L (SP)+,IOCmdAddr(A0) ; restore real callback from stack + + MOVE.L A0,-(SP) ; take extra care to save A0 + MOVEM.L D3-D7/A2-A6,-(SP) ; and save Pascal registers + MOVE.L FSVarsPtr,A1 ; make globals accessible + MOVE.L fsVars.BTMgr(A1),A1 + BSR.S ExtBTDispatchRequest; do the dispatch + MOVEM.L (SP)+,D3-D7/A2-A6 ; restore registers + MOVE.L (SP)+,A0 ; restore carefully saved A0 + WaitLoop MOVE.W IOResult(A0),D0 ; get the result code into D0 IF btDEBUG THEN ; debug ... see if we can continue ? @@ -181,6 +203,10 @@ BTDispatch ;; A1 = ptr(BTvars) MOVEM.L (SP)+,D3-D7/A2-A6 ; restore registers <17> rts +RaiseFlagFakeCmd + CLR.L IOCmdAddr(A0) + RTS + ExtBTDispatchRequest: ;; Added code to support AppleShare's access control: -- 12/14/89 ;; We may not service the request in FCFS order. If the request we're servicing diff --git a/OS/HFS/Extensions/CatSearch.a b/OS/HFS/Extensions/CatSearch.a --- a/OS/HFS/Extensions/CatSearch.a +++ b/OS/HFS/Extensions/CatSearch.a @@ -77,6 +77,7 @@ INCLUDE 'BTScanPriv.a' ; for the NoMoreReads bit include 'LinkedPatchMacros.a' include 'FileMgrPrivate.a' + include 'DiskCachePriv.a' PRINT pop import BTIPScan, BTEndPScan, BTGetPhys @@ -248,10 +249,7 @@ MBufInsert: proc MOVEQ.L #0, D0 ; clear D0 to clear high bytes LEA.L ckrCName(A0), A0 ; A0 = ptr(str31 containing CName) MOVE.B (A0), D0 ; get length of CName - ; don't add one for the length byte 'cause we're DBRAing <1.3> -@MoveCName: - MOVE.B (A0)+, (A1)+ ; move the CName, byte by byte - DBRA D0, @MoveCName ; (this is still faster than _BlockMove) + _BlockMoveData MOVE.L CSSR.nextMBuf(A3), A1 ; A1 = ptr(just filled MBuf entry) ADDA.W #FSSpec.size, A1 ; A1 = ptr(MBuf entry after the one we just filled) MOVE.L A1, CSSR.nextMBuf(A3) ; remember position for next time @@ -261,6 +259,47 @@ MBufInsert: proc ; _AssumeEQ ckrParID+4, ckrCName ; put this in. •• endproc +;__________________________________________________________________________________ +; +; Routine: xxx +;__________________________________________________________________________________ +elliotftw: proc export + MOVE.L (SP)+,-(A6) + MOVEM.L D0-D2/A0-A4,-(A6) + + MOVE.L CSSR.PSRPtr(A3),A4 + MOVE.L PSR.curNode(A4),D2 + CMP.L CSSR.newField(A3),D2 + BEQ.S @return + + MOVE.L D2,CSSR.newField(A3) + MOVE.L PSR.btcbPtr(A4),A0 + MOVE.W btcRefNum(A0),D0 + MOVE.L PSR.fcbPtr(A4),A0 + MOVE.L fcbVPtr(A0),A2 + MOVE.L vcbBufAdr(A2),A1 + MOVEQ #12,D1 + MOVE.L 4*$C1+$400,A3 + JSR (A3) + BNE.S @return + + MOVE.L CacheVars,A2 + TST.W LcGBinFQueue(A2) + BNE.S @return + +; do the actual thing + MOVE.L A0,A1 + MOVE.L PSR.curNodePtr(A4),A0 + MOVE.L #512,D0 + _BlockMoveData + +@return + MOVEM.L (A6)+,D0-D2/A0-A4 + MOVE.L (A6)+,-(A7) + RTS + + endproc + ;__________________________________________________________________________________ ; ; UpperCaseIt @@ -297,7 +336,7 @@ UpperCaseIt: proc MOVE.W D1, D0 ; D0.W = len(copy of current cName) LEA.L CSSR.copyCur+1(A3), A0 ; A0 = ptr(1st char of copy of cName) - _FSUprString ; uppercase, strip diacriticals + _UprString ; uppercase MOVEQ.L #1, D0 ; just something to clear the zero flag ; Zero flag is cool regardless of how we got here @@ -925,11 +964,11 @@ CMCatSearch: proc export BHI.S @NoWayName ; then we do this little optimization <14> ADDQ.B #1, D0 ; D0 = len(target cName) + length byte LEA.L CSSR.copyTarg(A3), A1 ; A1 = ptr(copy of target cName) - _BlockMove ; make the copy + _BlockMoveData ; make the copy MOVEQ.L #0, D0 ; clear D0 to clear high bytes MOVEA.L A1, A0 ; A0 = ptr(length byte of copy of target cName) MOVE.B (A0)+, D0 ; D0 = len(target cName) - _FSUprString ; uppercase, strip diacriticals + _UprString ; uppercase bra.s @go ; <14> ; <14> @@ -949,12 +988,15 @@ CMCatSearch: proc export BSR BTIPScan ; A4 is now ptr(PScan state record), 1st record is read BNE.S @EndScan ; BTIPScan returns a regular OSErr + MOVEQ #-1,D0 + MOVE.L D0, CSSR.newField(A3) MOVE.L A4, CSSR.PSRPtr(A3) ; save a copy of the PScan state record @loop: BSR CheckCriteria ; do we have a match? BNE.S @continue ; Z=1 indicates a hit + BSR elliotftw BSR MBufInsert ; yes, so add entry to match buffer ADDQ.L #1, D7 ; tally this match MOVE.L D7, ioActMatchCount(A5) ; update PB, so async users can watch diff --git a/OS/HFS/Extensions/CatSrchPriv.a b/OS/HFS/Extensions/CatSrchPriv.a --- a/OS/HFS/Extensions/CatSrchPriv.a +++ b/OS/HFS/Extensions/CatSrchPriv.a @@ -86,13 +86,14 @@ CSMinBufferSize equ 512 ; minimum number of bytes in a CatSearch buffer ; CatSearch state record CSSR RECORD 0, Increment -csTimeTask ds.b tmQSize ; must be 1st in CSSR +csTimeTask ds.b tmXQSize ; must be 1st in CSSR PSRPtr ds.l 1 ; copy of pointer to PScan state record copyTarg ds.b 32 ; space for UprString'ed copy of target cName copyCur ds.b 32 ; space for UprString'ed copy of current cName nextMBuf ds.l 1 ; pointer to next entry in MBuf attribMask ds.b 1 ; copy of user's ioFlAttrib mask, so we can modify it flags ds.b 1 ; stuff to keep track of (see below) +newField ds.l 1 ALIGN 2 size equ *-CSSR ENDR diff --git a/OS/HFS/Extensions/DTDBMgr.a b/OS/HFS/Extensions/DTDBMgr.a --- a/OS/HFS/Extensions/DTDBMgr.a +++ b/OS/HFS/Extensions/DTDBMgr.a @@ -217,6 +217,7 @@ BLANKS ON STRING ASIS + MACHINE MC68030 entry DequeueDTDBQElt entry deepShitError @@ -419,10 +420,14 @@ CheckDesktopSupport proc export ; ; Is this volume bigger than DTMinVolSize? ; + moveq #0, d0 ; Clear d0.h for the long multiply move.w vcbNmBlks(a2), d0 ; d0 = # of allocation blocks on this volume - move.w vcbAlBlkSiz+2(a2), d1 ; d1 = allocation block size + move.l vcbAlBlkSiz(a2), d1 ; d1 = allocation block size ; AlkBlkSiz is used as a word throughout HFS - mulu.w d1, d0 ; d0 = # bytes on this volume + mulu.l d1, d0 ; d0 = # bytes on this volume + bvc.s @noclip ; + moveq #-1,d0 ; +@noclip ; cmp.l #DTMinVolSize, d0 ; is this a big volume? bhs.s @SupportsDT ; then we always support the DTDB ; @@ -1294,7 +1299,7 @@ FindDTRegs reg d4/a0/a2/a3 moveq.l #0, d0 ; clear high bytes move.b (a0), d0 ; get length of string addq.b #1, d0 ; add one for the length byte - _BlockMove ; copy standard name into caller's (a1) buffer + _BlockMoveData ; copy standard name into caller's (a1) buffer move.l #'root',d2 ; try the root first bsr CheckDTExists @@ -1343,7 +1348,7 @@ VolLocked: move.b (a1),d2 ; d2 = length of volume name add.b d0,(a1)+ ; update length to include shadow characters add.w d2,a1 ; point to end of volume name - _BlockMove + _BlockMoveData movea.l a2, a1 ; restore a1 to point as base of string move.w #kOnSystemDisk,d3 ; now we're looking on the system disk for shadow databases @@ -1510,6 +1515,11 @@ RealOpenDT: proc export @OpenDTRegs reg a0-a4/d2 + movem.l d2/a1,-(sp) + jsr GetQMRecPtr + bclr #asyncCall,QMRec.qmFlags(a1) + movem.l (sp)+,d2/a1 + with RealOpenDTLocals move.l (sp)+, -(a6) ; we do i/o movem.l @OpenDTRegs, -(a6) @@ -1920,10 +1930,12 @@ LSize equ *-bigPB ;________________________________________________________________________________ ; DTAddIcon: proc export + import CHECKDTICON StandardLocals AddIconLocals, IconDRec ; normal locals w/icon sized data rec @AddIconRegs reg a0-a4/d1-d2 ; set of regs to save around AddIcon + bsr CHECKDTICON jsrROM FSQUEUE ; just to check for external file systems bsr DTRfnExtFSCheck ; find the right volume and hope it's ours bsr DeskMgrQueue ; Wait our turn. @@ -2047,10 +2059,12 @@ DTAddIcon: proc export ;________________________________________________________________________________ ; DTGetIcon: proc export + import CHECKDTICON StandardLocals GetIconLocals, IconDRec @GetIconRegs reg a0-a4/d1-d2 ; set of regs to save around AddIcon + bsr CHECKDTICON jsrROM FSQUEUE ; just to check for external file systems bsr DTRfnExtFSCheck ; find the right volume and hope it's ours bsr DeskMgrQueue ; Wait our turn. @@ -2118,10 +2132,12 @@ DTGetIcon: proc export ;________________________________________________________________________________ ; DTGetIconInfo: proc export + import CHECKDTICON StandardLocals GetIconInfoLocals, IconDRec @GetIconInfoRegs reg a0-a4/d1-d2 ; set of regs to save around this call + bsr CHECKDTICON jsrROM FSQUEUE ; just to check for external file systems bsr DTRfnExtFSCheck ; find the right volume and hope it's ours bsr DeskMgrQueue ; Wait our turn @@ -2191,6 +2207,38 @@ DTGetIconInfo: proc export _DTDebugRts 'DTGetIconInfo',0 endproc +;________________________________________________________________________________ +; Routine: CHECKDTICON +; +; Input: a0 - user's DT param block +; Output: d0 - result code +;________________________________________________________________________________ +; +CHECKDTICON: proc export + cmp.l #'????',ioBTHint(a0) + bne.s @return + + addq #4,sp ; don't return to the caller + move.w #-$1394,d0 + cmp.w #selectDTAddIcon,ioTrap+1(a0) + bne.s @blahblah + moveq #ioErr,d0 +@blahblah + + move.w d0,ioResult(a0) + btst #2,ioTrap(a0) + beq.s @return + tst.l ioCompletion(a0) + beq.s @return + + move.l a1,-(sp) + move.l ioCompletion(a0),a1 + jsr (a1) + move.l (sp)+,a1 + +@return + rts + ;________________________________________________________________________________ ; The Application List ; @@ -2473,6 +2521,7 @@ DTAddAPPL: proc export @AddAPPLRegs reg a0-a4/d1-d2 ; set of regs to save around this call jsrROM FSQUEUE ; just to check for external file systems + sub.l a3,a3 bsr DTRfnExtFSCheck ; find the right volume and hope it's ours bsr DeskMgrQueue ; Wait our turn @@ -2697,6 +2746,7 @@ DTRemoveAPPL: proc export @RemoveAPPLRegs reg a0-a4/d1-d2 jsrROM FSQUEUE ; just to check for external file systems + sub.l a3,a3 bsr DTRfnExtFSCheck ; find the right volume and hope it's ours bsr DeskMgrQueue ; wait our turn @@ -2850,7 +2900,7 @@ DTGetAPPL: proc export moveq.l #0, d0 ; clear high bytes move.b (a0), d0 ; get length addq.b #1, d0 ; add one for the length byte - _BlockMove ; copy the string over + _BlockMoveData ; copy the string over @NoCopy: moveq.l #0,d0 ; All is well. @@ -2882,6 +2932,7 @@ DTSetComment: proc export @SetCommentRegs reg a0-a4/d1-d2 ; set of regs to save around SetComment jsrROM FSQUEUE ; just to check for external file systems + sub.l a3,a3 bsr DTRfnExtFSCheck ; find the right volume and hope it's ours bsr DeskMgrQueue ; Wait our turn @@ -2909,7 +2960,7 @@ DTSetComment: proc export move.b d0, CommentRec.CmtSize+Data(a6) ; set the comment length move.l ioBuffer(a4), a0 ; get ready to copy the user's data lea.l CommentRec.CmtData+Data(a6), a1 ; into the Comment record - _BlockMove ; copy that comment... + _BlockMoveData ; copy that comment... bsr SetUpBTPB ; a0 = ptr(BTioParam), a2 = ptr(key) moveq.l #0, d0 ; clear high bytes @@ -2946,6 +2997,7 @@ DTGetComment: proc export @GetCommentRegs reg a0-a4/d1-d2 ; set of regs to save around GetComment jsrROM FSQUEUE ; just to check for external file systems + sub.l a3,a3 bsr DTRfnExtFSCheck ; find the right volume and hope it's ours bsr DeskMgrQueue ; Wait our turn @@ -2981,7 +3033,7 @@ DTGetComment: proc export move.l d0, ioActCount(a4) ; tell the user how much data there was lea.l CommentRec.CmtData+Data(a6), a0 ; copy starts from the Data move.l ioBuffer(a4), a1 ; a1 = address of user's buffer - _BlockMove ; put the Comment Data in the user's buffer + _BlockMoveData ; put the Comment Data in the user's buffer moveq.l #0,d0 ; All went well @GetCommentExit: @@ -3009,6 +3061,7 @@ DTRemoveComment: proc export @RemoveCommentRegs reg a0-a4/d1-d2 ; set of regs to save around RmvCmt jsrROM FSQUEUE ; just to check for external file systems + sub.l a3,a3 bsr DTRfnExtFSCheck ; find the right volume and hope it's ours bsr DeskMgrQueue ; Wait our turn @@ -3107,6 +3160,12 @@ DBParID ds.l 1 ; ParID of btree file LSize equ *-bigPB endr + btst #10,d1 + beq.s @normal + move.w #paramErr,ioResult(a0) + rts +@normal + @DTResetRegs reg a0-a4/d1-d2 jsrROM FSQUEUE ; just to check for external file systems bsr DTRfnExtFSCheck ; find the right volume and hope it's ours diff --git a/OS/HFS/Extensions/ExternalMakeFSSpec.a b/OS/HFS/Extensions/ExternalMakeFSSpec.a --- a/OS/HFS/Extensions/ExternalMakeFSSpec.a +++ b/OS/HFS/Extensions/ExternalMakeFSSpec.a @@ -385,6 +385,7 @@ ParseNextSegment: proc ;________________________________________________________________________________ DetermineVolume: proc @DetermineVolumeRegs: reg d2/a0/a3 + move.l (sp)+,-(a6) movem.l @DetermineVolumeRegs, -(a6) suba.w #ioHVQElSize, a6 ; allocate a volume param block on a6 move.l a6, a0 ; leave pb in a0 @@ -455,6 +456,7 @@ DetermineVolume: proc @Exit: adda.w #ioHVQElSize, a6 ; deallocate volume param block on a6 movem.l (a6)+, @DetermineVolumeRegs + move.l (a6)+,-(sp) tst.w d0 rts diff --git a/OS/HFS/Extensions/FileIDs.a b/OS/HFS/Extensions/FileIDs.a --- a/OS/HFS/Extensions/FileIDs.a +++ b/OS/HFS/Extensions/FileIDs.a @@ -434,7 +434,7 @@ PBHExchangeFiles: LEA FCBCName(A1, D1),A1 ; fcb spot to move to MOVEQ #1,D0 ; Clear upper bytes in D0, add length byte ADD.B (A0),D0 ; Pick up number of bytes to copy - _BlockMove ; Copy the filename + _BlockMoveData ; Copy the filename MOVEA.L A4, A1 ; Restore A1 BRA.S @nxtFCB1 @@ -451,7 +451,7 @@ PBHExchangeFiles: LEA FCBCName(A1, D1),A1 ; fcb spot to move to MOVEQ #1,D0 ; Clear upper bytes in D0, add length byte ADD.B (A0),D0 ; Pick up number of bytes to copy - _BlockMove ; Copy the filename + _BlockMoveData ; Copy the filename MOVEA.L A4, A1 ; Restore A1 diff --git a/OS/HFS/Extensions/FileIDsSvcs.a b/OS/HFS/Extensions/FileIDsSvcs.a --- a/OS/HFS/Extensions/FileIDsSvcs.a +++ b/OS/HFS/Extensions/FileIDsSvcs.a @@ -102,6 +102,8 @@ PRINT POP ; okay, send the lines for the listing PRINT NOGEN ; don't show the macro expansions + MACHINE MC68030 + FileIDsSvcs PROC EXPORT EXPORT FIDCreateID, FIDDeleteID, FIDGetID, FIDResolveID, FIDExchangeFiles @@ -242,7 +244,7 @@ FIDCreateID: ; A0/A1 preserved across the call <11Jan91 #10> MOVEQ #1,D0 ; include length byte <11Jan91 #10> ADD.B (A0),D0 ; D0.L = length of source <11Jan91 #10> - _BlockMove ; A0 -> A1 <11Jan91 #10> + _BlockMoveData ; A0 -> A1 <11Jan91 #10> BRA.S @6 ; always updateBT <11Jan91 #10> @5 TST.W D3 ; have we changed the file? <11Jan91 #10> BNE.S @7 ; no <11Jan91 #10> @@ -601,7 +603,7 @@ FIDExchangeFiles: @ExNxt1 MOVEA.L A1, A0 ; source - the cnode in memory LEA srcCNode(A4), A1 ; dest - the cnode on the stack MOVEQ #lencdr, D0 ; length of file record - _BlockMove + _BlockMoveData ; ; locate the dest file, test for extents in extent file, and copy the cat record for later ; @@ -632,7 +634,7 @@ FIDExchangeFiles: @ExNxt3 MOVEA.L A1, A0 ; source - the cnode in memory LEA destCNode(A4), A1 ; dest - the cnode on the stack MOVEQ #lencdr, D0 ; length of file record - _BlockMove + _BlockMoveData ; ; STEP 2: EXCHANGE THE EXTENTS KEY IN THE EXTENT FILE (IF ANY) @@ -811,7 +813,7 @@ CheckExtents: TST.L D3 ; convert it to blocks BEQ.S @ChNoneThere ; zero length file SUBQ.L #1, D3 - DIVU.W vcbAlBlkSiz+2(A2), D3 ; the high word could have trash in it, but we don't care + DIVU.L vcbAlBlkSiz(A2), D3 ; the high word could have trash in it, but we don't care ADDQ.W #1, D3 ; now the peof is in blocks and only a word size @1 CLR.W D1 ; extent offset in extent record diff --git a/OS/HFS/Extensions/QMgr.a b/OS/HFS/Extensions/QMgr.a --- a/OS/HFS/Extensions/QMgr.a +++ b/OS/HFS/Extensions/QMgr.a @@ -104,6 +104,17 @@ GetQMRecPtr: proc export bne.s @CheckCLQueue move.l QMGlobals.DTQueuePtr(a1), a1 ; a1 = ptr(DTDB mgr QM rec) + + movem.l d0/a0,-(sp) + move.l QMRec.qHead(a1),d0 + beq.s @DontSetAsync + move.l d0,a0 + cmp.b #$2C,ioTrap+1(a0) ; not sure which trap? + bne.s @DontSetAsync + bclr #asyncCall,QMRec.qmFlags(a1) +@DontSetAsync: + movem.l (sp)+,d0/a0 + bra.s @Exit @CheckCLQueue: @@ -284,7 +295,9 @@ QMCmdDone: proc bne.s toDSFSErr ; or else die move.l deQHook(a1), d2 ; just-before-dequeue hook? - ble.s @doTheDequeue ; branch if not . . . + bz.s @doTheDequeue ; invalid values are 0 and -1 + cmp.l #-1,d2 + beq.s @doTheDequeue ; branch if not . . . move.l d2, a1 ; a1 = ptr(just-before-dequeue hook) jsr (a1) ; go do the whatever the hook wants diff --git a/OS/HFS/FXM.a b/OS/HFS/FXM.a --- a/OS/HFS/FXM.a +++ b/OS/HFS/FXM.a @@ -92,6 +92,8 @@ BLANKS ON STRING ASIS + MACHINE MC68030 + PRINT OFF LOAD 'StandardEqu.d' PRINT ON @@ -294,13 +296,26 @@ vExtendFile ; 'vectored' ExtendFile routine <25Oct85> BTST #EFAll,D3 ; all or nothing requested? <08Jan86> BEQ.S @1 ; no -> <08Jan86> - MOVE.W VCBFreeBks(A2),D0 ; Compute free space in bytes <08Jan86> - MULU VCBAlBlkSiz+2(A2),D0 ; <08Jan86> + TST.L D4 ; + BMI.S @filebad ; + MOVE.L FCBPLen(A3),D0 ; + ADD.L D4,D0 ; + BMI.S @filebad ; + + MOVEQ #0,D0 ; Do this all in longs + MOVE.W VCBFreeBks(A2),D0 ; Compute free space in bytes + MULU.L VCBAlBlkSiz(A2),D0 ; + BVC.S @notMax ; Not sure what V clear after MULU means? + MOVEQ #-1,D0 ; +@notMax ; CMP.L D4,D0 ; Compare against requested space <08Jan86> BHS.S @1 ; If enough space free, go on -> <08Jan86> MOVEQ #DskFulErr,D0 ; result = 'disk full' <08Jan86> BRA EFExit1 ; exit ExtendFile -> <08Jan86> +@filebad ; + MOVE.W #fileBoundsErr,D0 ; + BRA EFExit1 ; @1 BSET #FXVTContig,FXVFlags(A4) ; 1st try contig allocation <27Aug85> BTST #EFContig,D3 ; forced contiguous requested? <08Jan86> @@ -310,14 +325,21 @@ vExtendFile ; 'vectored' ExtendFile routine <25Oct85> @2 MOVE.L VCBAlBlkSiz(A2),D0 ; round the # of bytes requested ADD.L D0,D4 ; SUBQ.L #1,D4 ; - DIVU D0,D4 ; - MULU D0,D4 ; ...up to next alloc blk + DIVU.L D0,D4 ; + MULU.L D0,D4 ; ...up to next alloc blk + BPL.S @noof ; + BTST #0,D3 ; + BNE.S @filebad ; + SUB.L D0,D4 ; +@noof ; ; ; locate the extent mapping the new PEOF - 1 (last byte in file) ; +filebad equ @filebad ; Persist this @label over a real label EFLocExt MOVE.L FCBPLen(A3),D0 ; current PEOF ADD.L D4,D0 ; + # of bytes requested = new PEOF + BMI.S filebad ; SUBQ.L #1,D0 ; new PEOF - 1 = last byte in file BSR XFSearch ; locate the extent BNE.S @1 ; didn't find it -> @@ -334,8 +356,9 @@ EFLocExt ; ; adjust PEOF to end of extent ; + MOVEQ #0,D0 ; MOVE.W D6,D0 ; (ending FABN + 1) - MULU VCBAlBlkSiz+2(A2),D0 ; in bytes = max PEOF for extent + MULU.L VCBAlBlkSiz(A2),D0 ; in bytes = max PEOF for extent SUB.L FCBPlen(A3),D0 ; PEOF already at end of extent? BEQ.S EFAddSpace ; yes -> ADD.L D0,FCBPlen(A3) ; no, adjust PEOF to end of extent @@ -432,7 +455,8 @@ EFNewRec EFUpdFCB ADD.W D3,D6 ; update ending FABN + 1 <17Oct85> - MULU VCBAlBlkSiz+2(A2),D3 ; convert # of blks allocated to bytes + AND.L #$FFFF,D3 ; + MULU.L VCBAlBlkSiz(A2),D3 ; convert # of blks allocated to bytes ADD.L D3,FCBPlen(A3) ; adjust PEOF to include new space BSET #FCBModBit,FCBMdRByt(A3) ; mark FCB dirty @@ -551,24 +575,27 @@ vMapFBlock ; 'vectored' MapFBlock routine <27Oct86> BNE.S MFExit ; exit on errors LEA 0(A1,D1.W),A1 ; A1 = ptr to extent entry + MOVEQ #0,D1 ; MOVE.W D3,D1 ; D1 = beg FABN for extent SUB.W xdrNumABlks(A1),D1 ; + MOVEQ #0,D2 ; MOVE.W D3,D2 ; D2 = end FABN in extent + 1 ; ; determine end of available space (PEOF or end of extent) ; - MULU VCBAlBlkSiz+2(A2),D2 ; convert end FABN + 1 to file pos + MULU.L VCBAlBlkSiz(A2),D2 ; convert end FABN + 1 to file pos MOVE.L FCBPLen(A3),D0 ; get PEOF CMP.L D0,D2 ; end of extent > PEOF? BLE.S @1 ; no, use end of extent -> MOVE.L D0,D2 ; yes, use PEOF -@1 DIVU VCBAlBlkSiz+2(A2),D2 ; D2 = end of avail space ( end FABN + 1) +@1 DIVU.L VCBAlBlkSiz(A2),D2 ; D2 = end of avail space ( end FABN + 1) ; ; set up some constants ; MOVE.L VCBAlBlkSiz(A2),D6 ; D6 = # blks per alloc blk - DIVU #512,D6 ; + LSR.L #8,D6 ; Instead of DIVU.W + LSR.L #1,D6 MOVEQ #0,D7 ; D7 = start blk # for alloc blks MOVE.W VCBAlBlSt(A2),D7 ; @@ -576,23 +603,23 @@ vMapFBlock ; 'vectored' MapFBlock routine <27Oct86> ; calculate physical start block ; MOVE.L D5,D3 ; file position / alloc blk size - DIVU VCBAlBlkSiz+2(A2),D3 ; = FABN mapping file position - SWAP D3 ; Get remainder in low word - MOVEQ #0,D0 ; Clear top word to get remainder as long - MOVE.W D3,D0 ; Compute block offset within alloc block - LSR.L #8,D0 ; 'divide' by 256 - LSR.L #1,D0 ; and again by 2 to get size in phys. blocks - SWAP D3 ; Restore D3 for use - SUB.W D1,D3 ; - beg FABN = alloc blk delta - ADD.W xdrStABN(A1),D3 ; + starting ABN = ABN mapping file pos - MULU D6,D3 ; convert to physical block # + TDIVU.L VCBAlBlkSiz(A2),D0:D3 ; + LSR.L #8,D0 ; + LSR.L #1,D0 ; + MOVE.L D0,A3 ; + MOVEQ #0,D0 ; + MOVE.W xdrStABN(A1),D0 ; + SUB.L D1,D3 ; + ADD.L D0,D3 ; + MULU.L D6,D3 ; + MOVE.L A3,D0 ; ADD.L D0,D3 ; Offset in physical blocks within alloc. blk <24Mar87> ADD.L D7,D3 ; ; ; calculate number of available bytes ; - MOVE.W D2,D6 ; end FABN + 1 * alloc blk size - MULU VCBAlBlkSiz+2(A2),D6 ; = ending file pos + 1 + MOVE.L D2,D6 ; end FABN + 1 * alloc blk size + MULU.L VCBAlBlkSiz(A2),D6 ; = ending file pos + 1 SUB.L D5,D6 ; - file position = size avail CMP.L D4,D6 ; compare with desired number @@ -657,8 +684,11 @@ TFLocExt MOVE.L VCBAlBlkSiz(A2),D0 ; round the new PEOF ADD.L D0,D5 ; SUBQ.L #1,D5 ; - DIVU D0,D5 ; - MULU D0,D5 ; ...up to next alloc blk + DIVU.L D0,D5 ; + MULU.L D0,D5 ; ...up to next alloc blk + BPL.S @next ; + SUB.L D0,D5 ; +@next ; MOVE.L D5,D0 ; new PEOF - 1 = last byte in file SUBQ.L #1,D0 ; @@ -693,7 +723,7 @@ TFLocExt TFTrunPEOF MOVE.L D5,D0 ; new PEOF - 1 (last byte in file) SUBQ.L #1,D0 ; - DIVU VCBAlBlkSiz+2(A2),D0 ; / alloc blk size = last FABN in file + DIVU.L VCBAlBlkSiz(A2),D0 ; / alloc blk size = last FABN in file SUB.W D0,D3 ; (last extent FABN +1) - (last file FABN) SUBQ.W #1,D3 ; - 1 = # to deallocate BEQ.S @1 ; nothing to deallocate -> @@ -903,7 +933,7 @@ vXFSearch ; 'vectored' XFSearch routine <27Oct86> MOVEM.L D4-D6,-(A6) ; save regs MOVE.L D0,D4 ; D4 = file position to be mapped - DIVU VCBAlBlkSiz+2(A2),D4 ; convert to FABN + DIVU.L VCBAlBlkSiz(A2),D4 ; convert to FABN MOVE.L FCBFlNm(A3),D5 ; D5 = file number ; diff --git a/OS/HFS/FileMgrHooks.a b/OS/HFS/FileMgrHooks.a --- a/OS/HFS/FileMgrHooks.a +++ b/OS/HFS/FileMgrHooks.a @@ -60,8 +60,10 @@ fsQueueHookPatch: proc export export vAfterFSQHook, FSDispatchRequest, CheckInterruptMask + export SyncWait import MungeTrapWord,UnMungeTrapWord, fsInterruptDeferProc import TagFileWithPSN, CheckFCBAllocation, MoreWDCBs + import FlushCRange VolatileRegs reg a0-a1/d1-d2 pascalRegs reg a2-a6/d3-d7 @@ -166,11 +168,14 @@ SyncWait: move.w ioResult(a0),d0 ; get the result code into d0 @RetryCall: ; <15> bsr UnMungeTrapWord ; trap word in d1, dispatch in d0 - lea.l TrapAgain,a1 ; get ready to play assembler + movem.l d0/a0/a1,-(sp) ; save some registers + lea.l TrapAgain,a0 ; get ready to play assembler + move.l a0,a1 ; use a1 as empty-ascending counter move.w d1,(a1)+ ; write in the trap word - move.w #$4E75,(a1) ; follow it with an RTS - move.l jCacheFlush,a1 ; get address of the CPU’s cache flusher <45> - jsr (a1) ; be cool on hoopy cached cpus <45> + move.w #$4E75,(a1)+ ; follow it with an RTS + sub.l a0,a1 ; a1 = length of code to flush + bsr.l FlushCRange ; run CPU’s cache flusher + movem.l (sp)+,d0/a0/a1 ; restore registers jmp TrapAgain ; Go re-execute the original trap ; call disk switch hook if synchronous call failed because volume went offline @@ -178,9 +183,11 @@ SyncWait: move.w ioResult(a0),d0 ; get the result code into d0 ext.l d0 ; extend result to long cmp.w #VolOffLinErr,d0 ; volume off-line error? (detected by file bne.s @Return ; system) br if not - move.l DskSwtchHook,-(sp) ; OffLineVol points to VCB, a0 to request - bgt.s @Return ; br if there is a hook proc - addq #4,sp ; otherwise, just return + move.l DskSwtchHook,d0 ; OffLineVol points to VCB, a0 to request + beq.s @Return ; br if there is no hook proc + cmp.l #-1,d0 ; -1 is also a bad proc, + beq.s @Return ; therefore br + move.l d0,-(sp) ; tail call the hook proc ;• This code was not in the system patch do we want it?? ;• IF ForROM THEN @@ -420,7 +427,7 @@ MoreFCBs: proc move.w (a2),d0 ; Get size of the old array move.w sr,-(sp) ; save current status register ori.w #HiIntMask,sr ; turn interrupts off to protect from marauding async calls - _BlockMove ; copy the old array (including its old size word) + _BlockMoveData ; copy the old array (including its old size word) move.l a1,FCBsPtr ; set new FCB array address (leave the old size for now) move.w (sp)+,sr ; restore status register @@ -455,7 +462,7 @@ MoreFCBs: proc move.l d1,d0 ; d0= count =old size move.w sr,-(sp) ; save current status register ori.w #HiIntMask,sr ; turn interrupts off to protect from marauding async calls - _BlockMove ; copy over + _BlockMoveData ; copy over add.w d4,cbPBufCount(a1) ; set new count <38> move.l a1,FSVars.fcbPBuf(a3) ; save new array movea.l FCBsPtr,a0 ; now that it is safe, update the main FCB array size @@ -535,7 +542,7 @@ MoreWDCBs proc movea.l a0,a2 ; save for later move.w sr,-(sp) ; save current status register ori.w #HiIntMask,sr ; turn interrupts off to protect from marauding async calls - _BlockMove ; a1 is preserved + _BlockMoveData ; a1 is preserved move.l a1,WDCBsPtr ; set new WDCB array address move.w (sp)+,sr ; restore status register @@ -564,7 +571,7 @@ MoreWDCBs proc move.l d1,d0 ; old size move.w sr,-(sp) ; save current status register ori.w #HiIntMask,sr ; turn interrupts off to protect from marauding async calls - _BlockMove ; copy over + _BlockMoveData ; copy over add.w #fsWDCBExtendCount,cbPBufCount(a1) ; set new count <38> move.l a1,FSVars.wdcbPBuf(a3) ; save new array movea.l WDCBsPtr,a0 ; now that it is safe, update the main WDCB array size @@ -615,38 +622,6 @@ interruptRegs reg a4-a6/d4-d7 rts endproc -;—————————————————————————————————————————————————————————————————————————————————————————— -; -; fsSCSIFreeHookProc -; -; This procedure is called by the SCSI manager every time the SCSI bus is -; freed up. If (the File System is busy) and (we're waiting for a wake up) -; then jump to where we deferred until SCSI was free. -; -;—————————————————————————————————————————————————————————————————————————————————————————— -fsSCSIFreeHookProc: proc - import SCSINotBusy - - bclr.b #fsSCSIDefer, FSBusy ; if we're waiting, we'll have this flag set - beq.s NoWakeUp - - MOVEM.L D1-D7/A0-A6,-(SP) ; preserve registers (for caller of fsSCSIFreeHook) - PEA SCSIBusyReturn ; return to here to restore regs - - MOVEA.L HFSStkPtr,A6 ; Recover HFS' private stack pointer - MOVEM.L (A6)+,D1-D7/A0-A5 ; Retrieve registers off A6 stack - MOVE.L A6,HFSStkPtr ; save stack ptr - - JMP SCSINotBusy ; continue with the dispatch - -SCSIBusyReturn - MOVEM.L (SP)+,D1-D7/A0-A6 ; restore significant registers - -NoWakeUp RTS ; - - endproc - - ;________________________________________________________________________________ ; ; fsGeneralWakeUp @@ -680,9 +655,13 @@ fsGeneralWakeUp: proc ; ________________________________________________________________________________ ProcessMgrExists proc export move.l a0,-(sp) ; save a0 - move.l #GestaltOSAttr,d0 ; set up Gestalt selector - _Gestalt ; ask Gestalt about Process Mgr - movea.l (sp)+,a0 ; d0 = OSErr, noErr if Process Mgr exists + move.l ExpandMem,a0 + tst.w ExpandMemRec.emProcessMgrExists(a0) + bne.s @yes + moveq #1,d0 + bra.s @return +@yes moveq #0,d0 +@return movea.l (sp)+,a0 ; d0 = OSErr, noErr if Process Mgr exists rts ; leave with condition codes intact endproc diff --git a/OS/HFS/HFS.make b/OS/HFS/HFS.make --- a/OS/HFS/HFS.make +++ b/OS/HFS/HFS.make @@ -25,7 +25,6 @@ HFSObjs = "{LibDir}BTreeMgr.lib" ∂ "{ObjDir}BTMaint2.a.o" ∂ "{ObjDir}BTSVCS.a.o" ∂ "{ObjDir}QMgr.a.o" ∂ - "{ObjDir}cache.a.o" ∂ "{ObjDir}TFS.a.o" ∂ "{ObjDir}cacheio.a.o" ∂ "{ObjDir}cmmaint.a.o" ∂ diff --git a/OS/HFS/MFSVOL.a b/OS/HFS/MFSVOL.a --- a/OS/HFS/MFSVOL.a +++ b/OS/HFS/MFSVOL.a @@ -467,10 +467,10 @@ GetMFSVolInfo RetMFSVolInfo BSET #6,VCBAtrb+1(A2) ; set if any files are opened - BSR.S Gt1stFCB ; get (A1,D1) pointing to first FCB + BSR Gt1stFCB ; get (A1,D1) pointing to first FCB @1 CMP.L FCBVPtr(A1,D1),A2 ; file open on this volume? BEQ.S @2 ; br if so - BSR.S GtNxtFCB ; get next one until we run out + BSR GtNxtFCB ; get next one until we run out BCS.S @1 BCLR #6,VCBAtrb+1(A2) ; 0 if no open files match diff --git a/OS/HFS/TFS.a b/OS/HFS/TFS.a --- a/OS/HFS/TFS.a +++ b/OS/HFS/TFS.a @@ -182,6 +182,7 @@ SonyNonPortable EQU 1 INCLUDE 'InternalMacros.a' INCLUDE 'SysPrivateEqu.a' INCLUDE 'BTreeEqu.a' + INCLUDE 'FSPrivate.a' PRINT ON PRINT NOGEN @@ -222,7 +223,7 @@ TFSDispatch Proc Export tst.w d0 ; check lower bound of selector blt.l UnknownCall ; negative traps are no good cmp.w #MaxTrapNum,d0 ; check upper bound of selector - bge.l UnknownCall ; off the deep end + bhs.l UnknownCall ; off the deep end move.w d1,ioTrap(a0) ; save the unmunged trap andi.w #$0F00,ioTrap(a0) ; leave only modifiers (Async etc.) @@ -259,7 +260,7 @@ TFSTrpTbl ; pc relative data DispatchEntry LockRng ; $10 Lock a byte range DispatchEntry UnLockRng ; $11 Unlock a byte range - DispatchEntry UnknownCall ; $12 + DispatchEntry XGetVolInfo ; $12 Get extended volume info DispatchEntry UnknownCall ; $13 DispatchEntry CreateFileIDRef ; $14 DispatchEntry DeleteFileIDRef ; $15 @@ -390,8 +391,8 @@ TurboFS PROC EXPORT EXPORT vMtCheck,vCheckReMount,vFindDrive,vDtrmV2,vFClose,vFlushMDB ;<19Feb87> EXPORT vLg2Phys ; <08Oct85> EXPORT DSHook + EXPORT XGetVolInfo ; Fun fact: this export must not move EXPORT vFileRead, vFileWrite, vFileClose ; - EXPORT InitFS ;<1.2> IF hasManEject THEN ; EXPORT SwitchDisk ; for Desk Mgr @@ -417,6 +418,7 @@ TurboFS PROC EXPORT IMPORT fsGeneralWakeUp ; from FileMgrHooks.a IMPORT fsSCSIFreeHookProc ; from FileMgrHooks.a IMPORT ProcessMgrExists ; from FileMgrHooks.a + IMPORT FlushCRange ;________________________________________________________________________________ @@ -658,7 +660,9 @@ FSQueueSync FSQueue MOVE.L FSQueueHook,D2 ; queue hook? - BLE.S @0 ; br if not . . . + BZ.S @0 ; invalid values are 0 and -1 + CMP.L #-1,D2 + BEQ.S @0 ; br if not . . . MOVE.L D2,A1 JSR (A1) ; D2 and A1 are expendable @@ -692,9 +696,14 @@ SyncWait MOVE.W IOResult(A0),D0 ; get the result code into D0 CMP.W #VolOffLinErr,D0 ; volume off-line error? (detected by file BNE.S @1 ; system) br if not - MOVE.L DskSwtchHook,-(SP) ; OffLineVol points to VCB, A0 to request - BGT.S @1 ; br if there is a hook proc - ADDQ #4,SP ; otherwise, just return + MOVE.L DskSwtchHook,D0 ; OffLineVol points to VCB, A0 to request + BZ.S @nohook ; return offline error even when the hook + CMP.L #-1,D0 ; is invalid (0 or -1) + BEQ.S @nohook + MOVE.L D0,-(SP) ; do the proc but also return error? + MOVEQ #volOffLinErr,D0 + BRA.S @1 +@nohook MOVEQ #volOffLinErr,D0 IF ForROM THEN ; <27Mar89 V1.8> BTST #7, DSAlertRect ; already in our proc? <06Mar85> @@ -834,12 +843,16 @@ RealCmdDone cd_CkExtFS BCLR #SkipPMSP,HFSFlags ; Don't skip PMSP now that this trap's done <25Sep85> MOVE.L ExtFSHook,D2 ; queue hook? - BLE.S @1 ; br if not . . . + BZ.S @1 ; invalid values are 0 and -1 + CMP.L #-1,D2 + BEQ.S @1 ; br if not . . . MOVE.L D2,A1 ; (external fs, debug) JSR (A1) ; leave CmdDone address on the stack @1 move.l toExtFS,d2 ; Any external file systems defined? <10Nov87> - ble.s cd_DeQueue ; Xfer if not... <10Nov87> + bz.s cd_DeQueue ; invalid values are 0 and -1 + cmp.l #-1,d2 + beq.s cd_DeQueue ; Xfer if not... move.l d2,a1 ; Else, point to first proc in chain <10Nov87> cmp.w #ExtFSErr,d0 ; Pass request on to external FS's? <10Nov87> @@ -1110,9 +1123,11 @@ TFSAgain: OR.B #$A0,TrapAgain ; Set up top nibble AND.W #$00FF,D0 ; Remove modifier bits from saved index ; FlushTrapAgain ; - MOVE.L D1,-(SP) ; save D1 for 020/030's <2> rb - JSR ([jCacheFlush]) ; flush the cache <2> rb - MOVE.L (SP)+,D1 ; restore D1 <2> rb + MOVEM.L D0/A0/A1,-(SP) + LEA TrapAgain,A0 + LEA $4,A1 + BSR.L FlushCRange + MOVEM.L (SP)+,D0/A0/A1 JMP TrapAgain ; Go re-execute the original I/O trap <2> rb @@ -1273,7 +1288,9 @@ DoEject MOVE.W D1,IODrvNum(A0) MOVE.L EjectNotify,D0 ; notify proc? - BLE.S @1 ; br if not + BZ.S @1 ; invalid values are 0 and -1 + CMP.L #-1,D0 + BEQ.S @1 ; br if not MOVEM.L D2/A0-A2,-(SP) CLR.W -(SP) @@ -1294,6 +1311,8 @@ DoEject @2 ADD #IOVQElSize,SP ; clean up stack and return RTS + MACRO + InsertLater_InitFS ;----------------------------------------------------------------- ; Initialize the file system. ; @@ -1319,8 +1338,6 @@ InitFS TST.W FSFCBLen ; are we in already? ; get some memory for the FCBs - CMP.W #2,MemTop ; 128K machine? <25Oct85> - BLE.S @2 ; no multiplier for 128K <22Oct85> LSL.W #2,D0 ; mult by 4 for 512K+ <25Oct85> @2 MOVE D0,D2 ; save for WDCB allocation <25Oct85> @@ -1345,13 +1362,6 @@ InitFS TST.W FSFCBLen ; are we in already? MOVE.W D1,(A0) ; Store length of WDCB array <11Apr85> MOVE.L A0,WDCBsPtr ; Store pointer in lomem <11Apr85> - BigLEA WDCBSwOS,A2 ; point to offset to the WDCB entry <1.2> - MOVE.W (A2),A2 ; Get the offset to the WDCB entry <1.2> - ADD.L SwitcherTPtr,A2 ; Index into Switcher Table <1.2> - MOVE.L A0,(A2) ; Fill in entry for WDCB switch <27Oct86><1.2> - NOT.L (A2)+ ; ... complement for long addresses <27Oct86><1.2> - MOVE.W D1,(A2) ; <27Oct86><1.2> - ; Allocate a File System Stack: MOVE.L #(HFSStkLen+HFSTmpSize),D0 ; Size of stack area <26Aug85> @@ -1364,40 +1374,19 @@ InitFS TST.W FSFCBLen ; are we in already? _NewPtr ,SYS,CLEAR ; Allocate space for it <18Aug85> BNE FSInitErr ; Punt on errors <18Aug85> - BigLEA PMSPSwOS,A2 ; point to offset to the PMSP entry <1.2> - MOVE.W (A2),A2 ; Get the offset to the PMSP entry <1.2> - ADD.L SwitcherTPtr,A2 ; Index into Switcher Table <1.2> - MOVE.L A0,(A2) ; Fill in entry for PMSP hook switch <27Oct86><1.2> - NOT.L (A2) ; ... complement for long addresses <27Oct86><1.2> ADDQ.L #SPHdrSize,A0 ; Point beyond PMSP header <18Aug85> MOVEQ #(PMSPSize-SPHdrSize),D0 ; Get length of remaining table <18Aug85> MOVE.W D0,(A0) ; Stash it at the start of the table <18Aug85> MOVE.L A0,PMSPPtr ; Set up the lo-mem pointer <18Aug85> -; Set up the lomem system cache pointers: (hack in until new cache arrives . . .) - - MOVE.W #512,D1 ; Set up cache block size <26Aug85> - - MOVEQ #1,D0 ; Allocate 1-block bitmap cache <26Aug85> - Jsr InitCache ; Set up the cache <26Aug85><1.2> - BNE.S FSInitErr ; <26Aug85> - MOVE.L A1,SysBMCPtr ; Bitmap cache pointer. <26Aug85> - - MOVEQ #1,D0 ; Allocate a 1-block volume cache <20Sep85> - CMP.W #2,MemTop ; 128K machine? <20Sep85> - BLE.S @4 ; br if so <20Sep85> - MOVEQ #2,D0 ; Allocate a 2-block volume cache <20Sep85> -@4 Jsr InitCache ; Set up the cache <20Sep85><1.2> - BNE.S FSInitErr ; <26Aug85> - MOVE.L A1,SysVolCPtr ; Volume cache pointer <26Aug85> - - MOVEQ #4,D0 ; Allocate a small B*-Tree cache <04Nov85> - CMP.W #2,MemTop ; 128K machine? <27Aug85> - BLE.S @5 ; br if so <27Aug85> - MOVEQ #16,D0 ; Allocate a LARGE B*-Tree cache <20Sep85> -@5 Jsr InitCache ; Create a new cache <26Aug85><1.2> - BNE.S FSInitErr ; <26Aug85> - MOVE.L A1,SysCtlCPtr ; B*-Tree Control cache pointer <26Aug85> + MOVE.W SysVersion,-(SP) + CLR.W SysVersion + MOVE.B SPMisc1,-(SP) + MOVE.B #3,SPMisc1 + MOVE.L #$00200000,D2 ; unclear purpose, gets clobbered anyway + BSR.L InitCache + MOVE.B (SP)+,SPMisc1 + MOVE.W (SP)+,SysVersion ; Set up a disk switch hook @@ -1431,6 +1420,8 @@ FSInitOK MOVEQ #0,D0 ; success! FSInitErr MOVEQ #-1,D0 ; we failed RTS + ENDM + ;_____________________________________________________________________________________ ; <38> ; CountFCBs @@ -1753,6 +1744,8 @@ clearPB MOVEA.L A0,A3 ; A3=A0=iopb DBRA D0,@2 ; clear 28 bytes RTS + MACRO + InsertLater_InstallVectors ; __________________________________________________________________________________ ; InstallVectors ; @@ -1777,7 +1770,7 @@ InstallVectors ; install some vectors: move.l ExpandMem, a1 - lea vSyncWait, a0 ; get addr of syncwait (in this fsQueueHook patch) + lea SyncWait, a0 ; get addr of syncwait (in this fsQueueHook patch) move.l a0, ExpandMemRec.jSyncWait(a1) lea vAfterFSQHook, a0 ; get addr just past call to fsQueueHook (in fsQueueHook patch) move.l a0, ExpandMemRec.jAfterFSQHook(a1) @@ -1792,6 +1785,10 @@ InstallVectors rts + ENDM + + MACRO + InsertLater_FSGrowPatchInit ;__________________________________________________________________________________ ; ; Initialize FCB expansion patch, WDCB expansions patch, and vectors @@ -1849,6 +1846,8 @@ GrowErrExit: MOVEQ #dsMemFullErr,D0 ; no mem _SysError + ENDM + ;________________________________________________________________________________ @@ -1906,7 +1905,7 @@ GetVolParms: bne.s @notMFS ; no, skip the following lea.l @MFSVolParmsBuffer, a0 ; copy the static values for MFS volumes @notMFS: - _BlockMove + _BlockMoveData bsr CheckDesktopSupport ; returns zero clear if support, set if none beq.s @NoDTSupport ; z set means no support @@ -1983,6 +1982,13 @@ GetVolParms: ****************************************************************************************** + PROC + IMPORT InitCache, QMInit, DTDBMgrInit, SyncWait, fsSCSIFreeHookProc + EXPORT InitFS, FSGrowPatchInit, InstallVectors + InsertLater_InitFS + InsertLater_FSGrowPatchInit + InsertLater_InstallVectors + ENDP END diff --git a/OS/HFS/TFSCOMMON.a b/OS/HFS/TFSCOMMON.a --- a/OS/HFS/TFSCOMMON.a +++ b/OS/HFS/TFSCOMMON.a @@ -61,16 +61,17 @@ BLANKS ON STRING ASIS -DivUp: DIVU D1,D0 ; Divide by allocation blocks size - SWAP D0 ; Examine the remainder - TST.W D0 ; - BEQ.S @10 ; If zero, we have a perfect fit. - CLR.W D0 ; If not, clear the remainder - SWAP D0 ; Restore the quotient - ADDQ.W #1,D0 ; and add one - BRA.S @20 ; -@10: SWAP D0 ; Restore quotient to lower word -@20: RTS ; And call it a day. +DivUp: MOVE.L D2,-(SP) ; Save D2 for remainder + TDIVU.L D1,D2:D0 ; Divide by allocation blocks size + TST.L D2 ; Examine the remainder + BEQ.S @10 ; If zero, we have a perfect fit. + ADDQ.L #1,D0 ; If not, add one +@10: MOVE.L #$FFFF,D2 ; + CMP.L D2,D0 ; Impose a maximum of 2^16-1 blocks. + BLS.S @20 ; + MOVE.L D2,D0 ; +@20: MOVE.L (SP)+,D2 ; Restore D2. + RTS ; And call it a day. ;_______________________________________________________________________ ; @@ -101,9 +102,12 @@ RoundAlloc: BSR.S DivUp ; Get size in Clumps <06Nov85> MULU D1,D0 ; And mult. back out -> size in AlBlks ; (guaranteed to be word magnitude) -*PWD* MOVE.L VCBAlBlkSiz(A2),D1 ; Pick up alloc. block size again -*PWD* MULU D1,D0 ; Get size in bytes again - MOVE.L (SP)+,D1 ; Recover original D1 + MOVE.L D0,D1 ; + SWAP D1 ; + TST.W D1 ; + BEQ.S @ret ; + MOVE.L #$FFFF,D0 ; +@ret: MOVE.L (SP)+,D1 ; RTS ;_______________________________________________________________________ @@ -296,14 +300,14 @@ vFlushMDB ; 'vectored' FlushMDB routine <19Feb87> MOVEA.L A0,A1 ; Set up as destination for _BlockMoves LEA VCBDInfoSt(A2),A0 ; Point to MDB info in VCB MOVE.L #LenMDB,D0 ; Length to copy - _BlockMove ; Copy VCB info + _BlockMoveData ; Copy VCB info ; Add some TFS-specific information: LEA VCBTDInfoSt(A2),A0 ; Point to additional info LEA DrTInfoSt(A1),A1 ; Point to tail end of MDB MOVEQ #VCBTDILen,D0 ; Length of TFS info - _BlockMove ; Copy it into the MDB Buffer + _BlockMoveData ; Copy it into the MDB Buffer SUBA.L #DrTInfoSt,A1 ; Point A1 back to start of buffer MOVEA.L FCBsPtr,A3 ; Point to FCB array @@ -312,7 +316,7 @@ vFlushMDB ; 'vectored' FlushMDB routine <19Feb87> MOVEQ #lenXDR,D0 ; Length of extent record LEA FCBExtRec(A3,D1),A0 ; Point to extent record in FCB LEA DrXTExtRec(A1),A1 ; Point to first (and only) XT extent record - _BlockMove ; Copy in the extent record + _BlockMoveData ; Copy in the extent record MOVEM.L (SP)+,A0-A1 ; Restore originals MOVE.L FCBPLen(A3,D1.W),D0 ; Pick up length of extent B*-Tree <22Sep85> MOVE.L D0,DrXTFlSize(A1) ; Store length of extent tree in MDB buffer <22Sep85> @@ -326,7 +330,7 @@ vFlushMDB ; 'vectored' FlushMDB routine <19Feb87> MOVEQ #lenXDR,D0 ; Length of extent record LEA FCBExtRec(A3,D1),A0 ; Point to extent record in FCB LEA DrCTExtRec(A1),A1 ; Point to first (and only) XT extent record - _BlockMove ; Copy in the extent record + _BlockMoveData ; Copy in the extent record MOVEM.L (SP)+,A0-A1 ; Restore originals MOVE.L FCBPLen(A3,D1.W),D0 ; Pick up length of catalog B*-Tree <22Sep85> MOVE.L D0,DRCTFlSize(A1) ; Store length of catalog tree <22Sep85> diff --git a/OS/HFS/TFSDIR1.a b/OS/HFS/TFSDIR1.a --- a/OS/HFS/TFSDIR1.a +++ b/OS/HFS/TFSDIR1.a @@ -410,14 +410,14 @@ ChkVol MOVE.W D1,IORefNum(A0) ; refnum is the FCB index! BNE.S @5 ; If set, that's what we wanted LEA FilRExtRec(A5),A0 ; Point to resource fork's extents instead @5 LEA FCBExtRec(A3),A1 ; Point to extent record in FCB - _BlockMove ; Copy the extent record + _BlockMoveData ; Copy the extent record MOVEQ #0,D0 ; Clear top half of D0 MOVE.W D2,D0 ; Get name length MOVEA.L A4,A0 ; Point to filename in pathname LEA FCBCName(A3),A1 ; Point to name field in FCB MOVE.B D0,(A1)+ ; Copy in CName length - _BlockMove ; Make a copy of the name string + _BlockMoveData ; Make a copy of the name string MOVEM.L (SP)+,A0-A1 ; Restore the scratch registers ; Fetch the catalog record for the file so the file's real name can be <1.3> @@ -451,7 +451,7 @@ ChkVol MOVE.W D1,IORefNum(A0) ; refnum is the FCB index! moveq #0,d0 ; <1.3> move.b (a0),d0 ; get length of name string <1.3> addq.l #1,d0 ; take length byte into account <1.3> - _BlockMove ; move case-correct name into FCB <1.3> + _BlockMoveData ; move case-correct name into FCB <1.3> move.l (a6)+,a0 ; restore param block ptr <1.4> CLR.W D7 ; Clear directory block number @@ -476,13 +476,17 @@ ChkVol MOVE.W D1,IORefNum(A0) ; refnum is the FCB index! MOVE.W (A5)+,D4 ; FilRStBlk MOVE.L (A5)+,D5 ; FilRLgLen MOVE.L (A5)+,D6 ; FilRPyLen -@30 BSR.S PermssnChk ; Check if the requested file access is OK +@30 MOVE.W #fsDataTooBigErr,D0 ; Check for a resource fork that is over 2 GB + TST.L D6 ; If so, die with an error + BMI.S @error + BSR.S PermssnChk ; Check if the requested file access is OK BEQ.S SetupFCB ; Continue if all was well ; ; We're going to exit with an error, but some FCB fields have already been set ; up. Zero the FCB here just to be neat (especially since the MFS code doesn't ; clear these fields on open)... ; +@error MOVEQ #0,D1 ; <03Feb87> MOVE.W FSFCBLen,D1 ; (FCB length / 2) - 1 <03Feb87> LSR.W #1,D1 ; <03Feb87> @@ -751,7 +755,7 @@ PushCName MOVEM.L D0/A1,-(SP) ; Save 'em through this little manouver MOVEA.L A6,A1 ; Point to target string start MOVEQ #0,D0 ; Clear top word of D0 <25Oct85> MOVE.W D2,D0 ; String length for _BlockMove - _BlockMove + _BlockMoveData MOVE.W D2,-(A6) ; Push length in front of new string MOVE.W (SP)+,D2 ; Set D2 to 'fixed' length MOVEA.L A6,A0 ; Point to element name diff --git a/OS/HFS/TFSDIR2.a b/OS/HFS/TFSDIR2.a --- a/OS/HFS/TFSDIR2.a +++ b/OS/HFS/TFSDIR2.a @@ -497,7 +497,7 @@ NmOK BSR CVFlgs ; is the volume locked/write protected? MOVE.B D3,(A1)+ ; Store CName length MOVEQ #0,D0 ; make sure high word is clear <29Aug85> MOVE.B D3,D0 ; Set up for block move - _BlockMove ; Copy in the name + _BlockMoveData ; Copy in the name MOVEA.L FCBsPtr,A1 ; Restore A1 to its former glory BSR GtNxtMatch ; And look for the next FCB BEQ.S @100 ; If found, do it all again diff --git a/OS/HFS/TFSDIR3.a b/OS/HFS/TFSDIR3.a --- a/OS/HFS/TFSDIR3.a +++ b/OS/HFS/TFSDIR3.a @@ -466,7 +466,7 @@ FndFN2 BSR ExtOffLinCk ; make sure it's online, internal fs MOVEA.L A4,A0 ; Point to source string start MOVEA.L A6,A1 ; Point to target string start MOVE.L D1,D0 ; String length for _BlockMove - _BlockMove + _BlockMoveData MOVE.W D1,-(A6) ; Push length in front of new string MOVE.L (SP)+,D1 ; Set D1 to 'fixed' length MOVEA.L A6,A0 ; Point to element name @@ -673,7 +673,7 @@ fakeRoot LEA ioFlAttrib(A0),A1 ; Clear the return information LEA VCBVN(A2),A0 ; Source name is in VCB MOVEQ #1,D0 ; Clear top 3 bytes, add one for length byte <29Aug85> ADD.B (A0),D0 ; Pick up length to copy - _BlockMove ; Copy volume name + _BlockMoveData ; Copy volume name GFIOK MOVEQ #0,D0 ; Indicate complete success BRA.S GFIExit ; All done! diff --git a/OS/HFS/TFSRFN1.a b/OS/HFS/TFSRFN1.a --- a/OS/HFS/TFSRFN1.a +++ b/OS/HFS/TFSRFN1.a @@ -272,6 +272,7 @@ FileRead: vFileRead: ; 'vectored' FileRead routine BSR FSQueue ; wait our turn + CLR.L IOActCount(A0) ; zero the bytes-read-count in case of error BSR RFnCall ; map the reference number BNE FRdExit1 ; exit on errors (don't set IOPosOffset) ; (also exit for offline, ext fs calls) @@ -350,7 +351,16 @@ FRdEOFXit MOVEQ #EOFErr,D0 ; then we must have hit end of file . . . FRdExit0 MOVE.L D5,FCBCrPs(A1,D1) ; update current position in FCB MOVE.L D5,IOPosOffset(A0) ; always return current pos -FRdExit1 BSR.L CacheFlush ; CSS +FRdExit1 MOVE.L D0,D1 + MOVE.L A0,D2 + MOVE.L IOActCount(A0),D0 + BEQ.S @noflush + MOVE.L D0,A1 + MOVE.L IOBuffer(A0),A0 + BSR.L FlushCRange +@noflush MOVE.L D2,A0 + MOVE.L D1,D0 + BRA CmdDone ; bye now . . . ; reading while looking for end of line characters . . . do it a block at a time @@ -474,7 +484,6 @@ FileWrite: RTS ; go there vFileWrite: ; 'vectored' FileWrite routine - BSR.L CacheFlush ; flush the chip caches so data is in memory. CSS BSR FSQueue ; don't do the call until time. BSR TstMod ; test if we may modify this file. BNE.S FWrExit1 ; br if not. diff --git a/OS/HFS/TFSRFN2.a b/OS/HFS/TFSRFN2.a --- a/OS/HFS/TFSRFN2.a +++ b/OS/HFS/TFSRFN2.a @@ -342,39 +342,15 @@ ResetAEOF ;<14Jan86>;TST.B FlushOnly ; Just flushing? ; MOVEM.L (SP)+,D0-D1 ; Restore scratch registers <12Dec86> @1 MOVEQ #0,D2 ; Truncate to alloc block <14Jan86> -; from DontTruncateMultiForks .start - -@Regs reg d1-d4 ; <44> -; Look for other paths to the same fork as the one being closed. - MOVEM.L @Regs,-(SP) ; save input parameters <11Dec90 #17> - MOVE.W D1,D3 ; D3.W = our FCB <11Dec90 #17> - MOVE.L FCBFlNm(A1,D3.W),D2 ; D2.L = our file number <11Dec90 #17> - move.b fcbMdRByt(a1,d3.w),d4 ; d4.b = our fork's misc info <44> - - BSR Gt1stFCB ; get (A1,D1) pointing to first FCB <11Dec90 #17> -@2 CMP.W D1,D3 ; same FCB? <11Dec90 #17> - BEQ.S @3 ; skip ourself if it is <11Dec90 #17> - CMP.L FCBFlNm(A1,D1),D2 ; file numbers match? <11Dec90 #17> - BNE.S @3 ; no <11Dec90 #17> - CMP.L FCBVPtr(A1,D1),A2 ; on the same volume? <11Dec90 #17> - bne.s @3 ; no <44> - move.b fcbMdRByt(a1,d1.w),d0 ; grab this fork’s kind <44> - eor.b d4,d0 ; see how it compares against ours <44> - btst.l #fcbRscBit,d0 ; are we the same? <44> - beq.s @7 ; if so, then there's another open path <44> -@3 BSR GtNxtFCB ; get next one until we run out <11Dec90 #17> - BCS.S @2 ; continue if more <11Dec90 #17> - -; No second open path found, so do the truncate - MOVEM.L (SP)+,@Regs ; restore regs and <11Dec90 #17> JSR TruncateFile ; Truncate to this position BNE FlFilBErr ; Bad time for errors (from CMGetCN) <21Oct85> + JSR AdjEOF ; adjust any other FCBs for this file BCLR #FCBModBit,FCBMdRByt(A1,D1) ; mark the FCB clean again in BRA.S updFLCat +; Vestigial, someone forgot to remove it: ; A second path was found, so skip the truncation -@7 MOVEM.L (SP)+,@Regs ; we did nothing, but quite successfully .end BCLR #FCBModBit,FCBMdRByt(A1,D1) ; mark the FCB clean again in <14Jan86> ; case marked dirty by TruncateFile <14Jan86> ; Now retrieve the file's catalog entry, and update the information there: @@ -396,19 +372,21 @@ updFlCat MOVE.L A1,-(A6) ; Save A1 across CMGetCN call LEA filRExtRec(A5),A3 ; Point to resource fork extent record @1 MOVEA.L A3,A1 ; Set dest. for _BlockMove MOVEQ #lenXDR,D0 ; Length of extent record to copy - _BlockMove ; Copy it into the catalog + _BlockMoveData ; Copy it into the catalog MOVEM.L (SP)+,A0-A1 ; Restore original A0,A1 LEA filStBlk(A5),A3 ; Update destination for UpDatFlNtry BSR UpDatFlNtry ; Update the catalog MOVE.L Time,filMdDat(A5) ; Set date/time modified JSR CMUpdateCN ; Write out the modified catalog entry - BNE FlFilBErr ; Bad time for errors (from CMGetCN) CSS + BNE.S FlFilBErr ; Bad time for errors (from CMGetCN) CSS BTST #FCBFlgRBit,FCBMdRByt(A1,D1) ; Resource fork? - BEQ FlFilBuf ; Br if not <21Oct85> CSS + BEQ.S FlFilBuf ; Br if not <21Oct85> CSS + TST.B FlushOnly ; Just flushing? + BNE.S FlFilBuf ; Br if so CMP.L #128,FCBEOF(A1,D1) ; Room for a catalog entry copy? - BCS FlFilBuf ; If not, forget it <21Oct85> CSS + BCS.S FlFilBuf ; If not, forget it <21Oct85> CSS MOVEM.L A1/D1,-(A6) ; Save FCB pointer across call MOVE.L A0,A3 ; Save Key pointer @@ -423,19 +401,19 @@ updFlCat MOVE.L A1,-(A6) ; Save A1 across CMGetCN call LEA 48(A0),A1 ; Point into the block to write catalog entry LEA ckrCName(A3),A0 ; Point to CNode name there MOVEQ #(lenCKR-4-2),D0 ; Length of key - dirID - length byte+filler - _BlockMove ; + _BlockMoveData ; MOVEQ #(lenCKR-4-2),D0 ; Same length again ADDA.L D0,A1 ; Update destination pointer LEA filFlags(A5),A0 ; Source: catalog entry MOVEQ #(filUsrWds+16-filFlags),D0 ; length to copy - _BlockMove ; + _BlockMoveData ; MOVEQ #(filUsrWds+16-filFlags),D0 ; length to advance pointer by ADDA.L D0,A1 ; Update destination pointer LEA filFndrInfo(A5),A0 ; Point to additional finder info MOVEQ #16,D0 ; Length of finder info - _BlockMove ; + _BlockMoveData ; MOVEQ #16,D0 ; Distance to advance pointer ADDA.L D0,A1 ; Advance the pointer @@ -714,7 +692,7 @@ GetFCBInfo: LEA ioFCBFlNm(A0),A1 ; Destination is PB <24Sep86> MOVEA.L A3,A0 ; Source is FCB MOVEQ #ioFIStILen,D0 ; Length of information to straight copy - _BlockMove ; Copy the first chunk + _BlockMoveData ; Copy the first chunk MOVEA.L (SP)+,A0 ; Restore IOPB pointer MOVE.W VCBVRefNum(A2),ioFCBVRefNum(A0) ; Return volume refNum <24Sep86> MOVE.L FCBClmpSize(A3),ioFCBClpSiz(A0) ; File clump size <24Sep86> @@ -727,7 +705,7 @@ GetFCBInfo: LEA FCBCName(A3),A0 ; Source is CName in FCB (loses PB Ptr) MOVEQ #1,D0 ; Clear upper bytes in D0, add length byte ADD.B (A0),D0 ; Pick up number of bytes to copy - _BlockMove ; Copy the filename + _BlockMoveData ; Copy the filename MOVEA.L (SP)+,A0 ; Restore pointer to I/O PB @80 MOVE.L A2,ReqstVol ; Set up ReqstVol, D1 for external FS diff --git a/OS/HFS/TFSVOL.a b/OS/HFS/TFSVOL.a --- a/OS/HFS/TFSVOL.a +++ b/OS/HFS/TFSVOL.a @@ -527,7 +527,7 @@ mv_GotMDB: LEA VCBDInfoSt(A2),A1 ; Destination is in VCB MOVEQ #VCBDILen,D0 ; Length of MFS/TFS info in MDB - _BlockMove ; Copy the information + _BlockMoveData ; Copy the information MV_GetWPStatus: MOVE.L FSQHead,A0 ; A0 -> current request @@ -543,15 +543,23 @@ MV_GetWPStatus: MOVE.B D0,VCBAtrb+1(A2) ; write-protect, zeroed consistency status _AssumeEq VCBWrProt,7 + BSR CheckCtrl23 ; Check that _Control 23 == 16 or 17 + BNE.S @notEqual + BSET #10,vcbAtrb(A2) +@notEqual + ; Now the MFS code diverges from the TFS code. BSR TFSVCBTst ; Is it an MFS volume? <01Oct85> - BNE MV_GetMFSMap ; Br if so (do the MFS-specific stuff) <01Oct85> + BEQ.S @tfsSoNoLock + ORI.W #$8000,vcbAtrb(A2) ; Disable MFS write support + BRA MV_GetMFSMap ; Br if so (do the MFS-specific stuff) +@tfsSoNoLock LEA DrTInfoSt(A5),A0 ; Advance pointer to additional TFS stuff LEA VCBTDInfoSt(A2),A1 ; Point to additional TFS-specific info MOVEQ #VCBTDILen,D0 ; Length of additional information - _BlockMove ; Copy the additional information in + _BlockMoveData ; Copy the additional information in MOVE.L VCBAlBlkSiz(A2),D1 ; Pick up allocation block size <22Sep85> MOVE.L DrXTFlSize(A5),D0 ; Pick up PEOF of extent B*-Tree <22Sep85> @@ -576,7 +584,7 @@ MV_GetWPStatus: MOVEQ #lenXDR,D0 ; Length of extent record LEA DrXTExtRec(A5),A0 ; Point to only XT extent record LEA FCBExtRec(A1,D1),A1 ; Point to extent record in FCB <01Oct85> - _BlockMove ; Copy in the extent record + _BlockMoveData ; Copy in the extent record BSR FindFCB ; Try to find another FCB (set up D0/D1/A1) BNE MtVolErr ; Punt on error @@ -587,7 +595,7 @@ MV_GetWPStatus: MOVEQ #lenXDR,D0 ; Length of extent record LEA DrCTExtRec(A5),A0 ; Point to first catalog extent record LEA FCBExtRec(A1,D1),A1 ; Point to extent record in FCB <01Oct85> - _BlockMove ; Copy in the extent record + _BlockMoveData ; Copy in the extent record MOVE.L SysBMCPtr,VCBMAdr(A2) ; Set up the volume bitmap cache MOVE.L SysCtlCPtr,VCBCtlBuf(A2) ; Set up the volume control cache @@ -1101,24 +1109,25 @@ FindDrive: RTS ; go there <19Feb87> vFindDrive ; 'vectored' FindDrive routine <19Feb87> MOVE.L A0,-(SP) ; preserve A0 - MOVE.W D2,D0 ; search using this drive number as the key - LEA DrvQHdr,A0 ; search the queue of drive numbers - MOVEQ #DQDrive,D1 ; for drive number - BSR QWordSearch - BNE.S @2 ; exit if not found + MOVE.L DrvQHdr+QHead,A3 ; search the queue of drive numbers +@loop MOVE.L A3,D0 + BEQ.S @2 ; exit if not found + CMP.W DQDrive(A3),D2 + BEQ.S @found ; exit if found + MOVE.L QLink(A3),A3 + BRA.S @loop - MOVEA.L A0,A3 ; Return pointer to DQE - MOVE DQRefNum(A0),D1 ; return refnum - MOVE.W DQFSID(A0),D0 ; is it for us? +@found + MOVE DQRefNum(A3),D1 ; return refnum + MOVE.W DQFSID(A3),D0 ; is it for us? BEQ.S @1 ; br if so MOVEQ #ExtFSErr,D0 ; otherwise, report an error - -@1 MOVEA.L (SP)+,A0 ; restore A0 - RTS - -@2 MOVEQ #NSDrvErr,D0 ; no such drive number BRA.S @1 +@2 MOVEQ #NSDrvErr,D0 ; no such drive number +@1 MOVEA.L (SP)+,A0 ; restore A0 + RTS + ;_______________________________________________________________________ ; ; Routine: OffLine @@ -2143,6 +2152,23 @@ retVRef TST.W D3 ; Was a volume name specified? retAlBks BSR TFSVCBTst ; Are we dealing with a TFS volume? <13Oct85> BNE.S @25 ; If not, don't fiddle with NmAlBlks<21Sep85> +; System 7.5/PM9500 "Ruby Slipper" rolled in here. +; This fakes out GetVolInfo to make a >2GB volume make sense to a clueless app. + + MOVE.L ioVAlBlkSiz(A0),D1 ; If alloc block size is "positive" + CMP.L #$8000,D1 ; + BLO.S @noclip ; ... fall thru. + MOVE.L ioVAlBlkSiz(A0),D1 ; If volume size is < 2 GB + MOVE.L #$7FFFFFFF,D0 ; + DIVU.L D1,D0 ; + CMP.W ioVNmAlBlks(A0),D0 ; + BHI.S @noclip ; ... fall thru. + MOVE.W D0,ioVNmAlBlks(A0) ; Clip total blks to 2GB / blksize + CMP.W ioVFrBlk(A0),D0 ; If apparent free < total blocks + BHI.S @noclip ; ... fall thru + MOVE.W D0,ioVFrBlk(A0) ; Clip free blocks to total blocks +@noclip ; + ; Subtract the physical sizes of the extent B*-Tree and the catalog B*-Tree <21Sep85> ; from the volume size, so that the difference between the volume size and <21Sep85> ; the free space reflects only the user's allocations: <21Sep85> @@ -2190,19 +2216,204 @@ retAlBks BSR TFSVCBTst ; Are we dealing with a TFS volume? <13Oct85> LEA ioVFndrInfo(A0),A1 ; Destination finder info LEA VCBFndrInfo(A2),A0 ; Volume's finder info MOVEQ #32,D0 ; Length of finder info - _BlockMove ; Copy finder info + _BlockMoveData ; Copy finder info MOVE.L (SP)+,A0 ; Restore original A0 GVIDone MOVE.L A2,ReqstVol ; Make sure ReqstVol is set up BSR TFSVCBTst ; Are we dealing with a TFS volume? <01Oct85> BNE.S TGVIOK ; No - dont' pass to unsuspecting ext. FS + + MOVE.W VCBFSID(A2),D0 + BNE.S @notZeroFS + BTST #HFSBit,ioTrap(A0) + BEQ.S @notZeroFS + MOVE.W ioVFrBlk(A0),D0 + CMP.W ioVNmAlBlks(A0),D0 + BLS.S @notZeroFS + MOVE.W D0,ioVNmAlBlks(A0) +@notZeroFS + BSR CkExtFS BNE.S TGVIDone TGVIOK MOVEQ #0,D0 ; No errors TGVIDone BRA CmdDone +;_______________________________________________________________________ +; +; Routine: XGetVolInfo +; Arguments: A0.L (input) -- I/O volume parameter block: uses all volume +; fields, plus extended ones. +; D0.W (output) -- error code +; Calls: FSQueue,CmdDone +; +; Function: Version of GetVolInfo that uses an extended parameter block +; to give meaningful results for volumes over 2GB +; (Rolled in Ruby Slipper code) +;_______________________________________________________________________ + +XGetVolInfo: + BSR FSQueue ; queue up the request + + MOVE.W IOVolIndex(A0),D2 ; if positive,z + BGT.S @3 ; go search by index + BEQ.S @1 ; if zero, go by drive number/default + + BSR DtrmV3 ; if negative, go by name + BRA.S @2 + +@1 BSR DtrmV1 ; figure by drvnum, vrefnum, or default +@2 BNE XGVIDone + BRA.S RetXVolInfo + +@3 MOVEQ #0,D3 ; Never any name specified <25Sep85> + ; (ioFileName is output arg) <25Sep85> + CLR.W ioVRefNum(A0) ; make sure this gets filled in later <25Sep85> + MOVE.L VCBQHdr+QHead,D1 ; we want nth VCB in queue +@4 BEQ NSVErrXit ; exit with err at end of queue + SUBQ.W #1,D2 ; the one we want? + MOVE.L D1,A2 + BEQ.S RetXVolInfo ; br if so + MOVE.L QLink(A2),D1 ; if not, keep traversing the queue + BRA.S @4 + +; first copy the heart of the VCB into the parameter block + +RetXVolInfo MOVEQ #IOVDirLen-2,D0 ; number of bytes to straight copy +@4 MOVE.W VCBCrDate(A2,D0.W),IOVCrDate(A0,D0.W) + SUBQ #2,D0 + BPL.S @4 + + BSET #6,ioVAtrb+1(A0) ; set if any files are opened <28Oct85> + BSR Gt1stFCB ; get (A1,D1) pointing to first FCB + +@0 CMP.L FCBVPtr(A1,D1),A2 ; file open on this volume? + BNE.S @1 ; br if so + BSR TFSVCBTst ; Are we looking at a TFS VCB? <27Oct85> + BNE.S @2 ; Nope - all files are fair game <27Oct85> + MOVE.L FCBFlNm(A1,D1),D0 ; Check the file number <27Oct85> + CMP.L #FSUsrCNID,D0 ; Is it a system control file? <27Oct85> + BHS.S @2 ; Accept only the highest quality... <27Oct85> + +@1 BSR GtNxtFCB ; get next one until we run out + BCS.S @0 + BCLR #6,ioVAtrb+1(A0) ; 0 if no open files match <28Oct85> + +@2 BCLR #5,ioVAtrb+1(A0) ; Assume this volume is not the default.<27Oct85> + CMPA.L DefVCBPtr,A2 ; Check the default volume pointer <27Oct85> + BNE.S @3 ; If this isn't it . . . <27Oct85> + BSET #5,ioVAtrb+1(A0) ; If this is default, drop a hint. <27Oct85> + +@3 SUBA.L A3,A3 ; Clear WDCB pointer <14Oct85> + + TST.W ioVolIndex(A0) ; Check volIndex: <21Sep85> + BGT.S @retVRef ; If vol was indexed, leave things be <21Sep85> + TST.W D3 ; Was a volume name specified? <21Sep85> + BNE.S @retVRef ; If so, always return real file count <21Sep85> + MOVE.W ioVRefNum(A0),D1 ; Check VRefNum supplied: <21Sep85> + BGT.S @retVRef ; If driveNum, ignore it <21Sep85> + BLT.S @5 ; If negative, might be a WDRefNum <21Sep85> + MOVEQ #2,D1 ; If 0, look at default WDCB <21Sep85> + BRA.S @7 ; <21Sep85> + +@5 CMP.W #WDRfnMax,D1 ; Otherwise, compare to max WDRefNum <21Sep85> + BGT.S @retVRef ; If it's a real VRefNum, we're OK <21Sep85> + +; a WDRefNum was supplied as VRefNum: change the number of files to be the <21Sep85> +; valence of the directory in question: <21Sep85> + + SUB.W #WDRfnMin,D1 ; Change WDRefNum to index <21Sep85> +@7 MOVE.L WDCBsPtr,A3 ; Point to WDCB array <12Oct85> + ADD.W D1,A3 ; Point A3 to WDCB for ext. FS <13Oct85> + BSR ExtOffLinCk ; Is this an external file system vol? <13Oct85> + BNE.S @retVRef ; Yes - don't try to read the catalog <13Oct85> + + MOVEM.L A0-A1,-(A6) ; Use A0,A1 as scratch registers <21Sep85> + MOVEA.L WDCBsPtr,A1 ; Point to WDCB array <21Sep85> + MOVE.L WDDirID(A1,D1),D0 ; Pick up the DirID in question <21Sep85> + CMP.L #FSRtDirID,D0 ; Is it the root directory anyway? <21Sep85> + BEQ.S @8 ; If so, don't make special efforts <21Sep85> + + MOVE.L WDCatHint(A1,D1),D2 ; Pick up directory hint <21Sep85> + SUBA.L A0,A0 ; CName = Nil <21Sep85> + JSR CMGetCN ; Look up the directory <21Sep85> + BNE.S @8 ; If can't find it, forget it. <21Sep85> + + MOVE.W dirVal(A1),D0 ; Store directory valence <21Sep85> + MOVEM.L (A6)+,A0-A1 ; Restore scratch regs <21Sep85> + MOVE.W D0,ioVNmFls(A0) ; Replace file count w. dir. valence <21Sep85> + BRA.S @retVRef ; And continue <21Sep85> + +@8 MOVEM.L (A6)+,A0-A1 ; Continue without changing file count <24Sep85> + +; Do some hairy checking: if a working directory was specified, it shouldn't +; be overwritten by the volRefNum. However, if a volume NAME was used, the +; volRefNum field is ignored, and SHOULD be filled in with the volume's VRefNum. + +@retVRef TST.W D3 ; Was a volume name specified? + BNE.S @10 ; If so, always return volRefNum + TST.W IOVRefNum(A0) ; VRefNum or WDRefNum supplied? + BLT.S @20 ; If so, leave it alone +@10 MOVE.W VCBVRefNum(A2),IOVRefNum(A0) ; return volume refnum +@20 BSR XferVName ; copy volume name + +@retAlBks BSR TFSVCBTst ; Are we dealing with a TFS volume? <13Oct85> + BNE.S @25 ; If not, don't fiddle with NmAlBlks<21Sep85> + +; Subtract the physical sizes of the extent B*-Tree and the catalog B*-Tree <21Sep85> +; from the volume size, so that the difference between the volume size and <21Sep85> +; the free space reflects only the user's allocations: <21Sep85> + + MOVE.W VCBXTAlBks(A2),D0 ; Pick up extent B*-Tree size <21Sep85> + SUB.W D0,ioVNmAlBlks(A0) ; Take out XT allocation <21Sep85> + MOVE.W VCBCTAlBks(A2),D0 ; Pick up catalog B*-Tree size <21Sep85> + SUB.W D0,ioVNmAlBlks(A0) ; Take out CT allocation <21Sep85> + +; Ruby Slipper code: calculate the extended fields: +; unsigned 64-bit integers describing total and free bytes + +@25 MOVE.L ioVAlBlkSiz(A0),D1 ; Multiply! + MOVEQ #0,D0 ; + MOVE.W ioVNmAlBlks(A0),D0 ; + MULU.L D0,D0:D1 ; + MOVE.L D1,XVolumeParam.ioVTotalBytes+4(A0) ; + MOVE.L D0,XVolumeParam.ioVTotalBytes(A0) ; + + MOVE.L ioVAlBlkSiz(A0),D1 ; Multiply! + MOVEQ #0,D0 ; + MOVE.W ioVFrBlk(A0),D0 ; + MULU.L D0,D0:D1 ; + MOVE.L D1,XVolumeParam.ioVFreeBytes+4(A0) ; + MOVE.L D0,XVolumeParam.ioVFreeBytes(A0) ; + +; Return some additional information for TGetVolInfo requests: + +@40 MOVE.W VCBVRefNum(A2),ioVRefNum(A0) ; ALWAYS return VRefNum <25Sep85> + MOVE.W VCBSigWord(A2),ioVSigWord(A0) ; Volume signature + MOVE.W VCBDrvNum(A2),ioVDrvInfo(A0) ; Driver number + MOVE.W VCBDRefNum(A2),ioVDRefNum(A0) ; Driver RefNum + MOVE.W VCBFSID(A2),ioVFSID(A0) ; File System ID + + CMP.W #SigWord,VCBSigWord(A2) ; Are we dealing with a TFS volume? + BEQ.S XGVIOK ; No - the information below doesn't exist + + MOVE.L VCBVolBkup(A2),ioVBkup(A0) ; Last backup date + MOVE.W VCBVSeqNum(A2),ioVSeqNum(A0) ; Volume sequence number + MOVE.L VCBWrCnt(A2),ioVWrCnt(A0) ; Volume write count + MOVE.L VCBFilCnt(A2),ioVFilCnt(A0) ; Files count for volume + MOVE.L VCBDirCnt(A2),ioVDirCnt(A0) ; Directory count for volume + + MOVE.L A0,-(SP) ; Free up A0 as a scratch register + LEA ioVFndrInfo(A0),A1 ; Destination finder info + LEA VCBFndrInfo(A2),A0 ; Volume's finder info + MOVEQ #32,D0 ; Length of finder info + _BlockMoveData ; Copy finder info + MOVE.L (SP)+,A0 ; Restore original A0 + +XGVIOK MOVEQ #0,D0 ; No errors +XGVIDone BRA CmdDone + ;_______________________________________________________________________ ; ; Routine: SetVolInfo @@ -2220,11 +2431,39 @@ TGVIDone BRA CmdDone SetVolInfo: BSR FSQueue ; Wait our turn BSR DtrmV1 ; Determine volume by drvnum/refnum - BNE.S SVIDone ; Punt on errors + BNE SVIDone ; Punt on errors BSR CVFlgs ; Check if volume can be modified - BNE.S SVIDone ; Give up easily + BNE SVIDone ; Give up easily BSR ExtOffLinCk ; Check if volume is on-line, non ext. FS - BNE.S SVIDone ; Be a wimp - give up now. + BNE SVIDone ; Be a wimp - give up now. + +; Validate the new volume name if ioVNPtr is set: +; (Similar to old SetVolName below) + + MOVE.L ioVNPtr(A0),D2 + BEQ.S @goodName ; No string, no worries + MOVE.L D2,A1 ; A1 = pstring base + MOVEQ #0,D2 ; D2 = loop counter (kept around as an "actual" length) + MOVE.B (A1),D3 ; D3 = string length + BEQ.S @goodName ; Empty string, no worries + +@nextVNChar ADD.B #1,D2 + CMP.B #':',(A1,D2.W) ; Hit a colon? + BEQ.S @colonChar ; Yes - punt. + CMP.B #vcbMaxNam,D2 ; Exceeded the max. length? + BGT.S @badName ; Yes - stop here. + CMP.B D3,D2 ; If this is the last character and + BEQ.S @goodName ; no problems have been found, great. + BRA.S @nextVNChar ; Next character. + +@colonChar CMP.B D3,D2 ; A colon as the last character is okay, + BNE.S @badName ; just trim it off. + SUB.W #1,D2 ; But check that it's not the *only* + BNE.S @goodName ; character! + +@badName MOVEQ #bdNamErr,D0 ; Invalid name passed. + BRA SVIDone ; Return to sender! +@goodName ; Set user-modifiable fields in the VCB: @@ -2237,23 +2476,37 @@ SetVolInfo: OR.W D0,D1 ; Combine attributes MOVE.W D1,VCBAtrb(A2) ; Set new volume attributes + MOVE.L ioVNPtr(A0),D1 + BSR TFSVCBTst ; Is it a TFS volume? <01Oct85> BNE.S @3 ; br if not - MFS VCBs don't have <01Oct85> ; this info MOVE.L IOVClpSiz(A0),VCBClpSiz(A2) ; Volume clump size MOVE.L IOVBkup(A0),VCBVolBkup(A2) ; Last backup date MOVE.W IOVSeqNum(A0),VCBVSeqNum(A2); Volume sequence number - MOVE.L A0,-(SP) ; Save IOPB pointer LEA IOVFndrInfo(A0),A0 ; Point to finder info source LEA VCBFndrInfo(A2),A1 ; Finder info in VCB MOVEQ #32,D0 ; Length of finder info - _BlockMove ; Copy it in - MOVEA.L (SP)+,A0 ; Restore IOPB pointer + _BlockMoveData ; Copy it in -@3 MOVE.L IOVNPtr(A0),D0 ; New name specified? +@3 TST.B D2 ; New name specified? BEQ.S @10 ; If not, forget it - MOVEA.L D0,A1 ; Point to new name - BSR.S SetVolName ; Update name in VCB + MOVE.L D2,D0 + MOVE.L D1,A0 + ADD.W #1,A0 + LEA VCBVN(A2),A1 + MOVE.B D0,(A1)+ + _BlockMoveData + + BSR TFSVCBTst + BNE.S @10 + + MOVEQ #0,D2 + MOVEQ #2,D0 + MOVE.L D2,A0 + LEA VCBVN(A2),A1 + BSR CMRenameCN + BNE.S SVIDone @10 BSR MarkVCB MOVEQ #0,D0 ; All went well... @@ -2919,3 +3172,23 @@ SetupDef: MOVEM.L D3-D7/A1-A6,-(SP) ; Save registers, same as SetUpWDCB <26S BRA.S SetWDOK ; And call it a day <26Sep85> ; [returns directly to trap dispatcher] <26Sep85> +;_______________________________________________________________________ +; +; Routine: CheckCtrl23 +;_______________________________________________________________________ + +CheckCtrl23 + LEA Params,A0 ; general purpose I/O param block + CLR.L ioCompletion(A0) + MOVE.W #23,csCode(A0) ; ?Sony DriveInfo code + CLR.L csParam(A0) + _Control + BNE.S @return + + MOVE.L csParam(A0),D0 ; reserved bits 7-4 == 0 && type bits 3-0 <= 1 + CMP.B #16,D0 + BEQ.S @return + CMP.B #17,D0 + +@return RTS + diff --git a/OS/HFS/VSM.a b/OS/HFS/VSM.a --- a/OS/HFS/VSM.a +++ b/OS/HFS/VSM.a @@ -189,7 +189,7 @@ bkAlFree: MOVEM.L D0-D1,-(A6) ; Free up for use in division MOVE.L D4,D0 ; Set up to divide - MOVE.W vcbAlBlkSiz+2(A2),D1 ; by allocation block size + MOVE.L vcbAlBlkSiz(A2),D1 ; by allocation block size JSR DivUp ; and round result up to next alloc. block MOVE.L D0,D4 ; D4 is now min. number of alloc. blocks MOVEM.L (A6)+,D0-D1 ; Restore original registers diff --git a/OS/HwPriv.a b/OS/HwPriv.a --- a/OS/HwPriv.a +++ b/OS/HwPriv.a @@ -329,18 +329,21 @@ Vects ;table of offsets to selector routines HwPrivSelector DisableExtCache ; 5 DisableExtCache HwPrivSelector FlushExtCache ; 6 FlushExtCache HwPrivSelector SwapSerialClock ; 7 SwapSerialClock - HwPrivSelector ProtectEDisk ; 8 Protect/Unprotect EDisk + HwPrivSelector EDiskProtectPPC ; 8 Protect/Unprotect EDisk HwPrivSelector FlushCRange ; 9 FlushCRange - HwPrivSelector WaitForSCSIDevs ; 10 WaitForSCSIDevs + HwPrivSelector ReturnErr ; 10 WaitForSCSIDevs HwPrivSelector ReturnErr ; 11 Unused HwPrivSelector SlotBlockXferCtl ; 12 - enable block xfers to a slot - HwPrivSelector GetENetID ; 13 - Get Ethernet ID from serial ROM + HwPrivSelector ReturnErr ; 13 - Get Ethernet ID from serial ROM + HwPrivSelector ReturnErr ; 14 + HwPrivSelector ReturnErr ; 15 + HwPrivSelector MakeSomethingWriteThrough ; 16 LastVec ALIGN 8 HWPrivSwitch cmpi.w #(LastVec-Vects)/HwVecSize,d0 ; check if selector in range - bhs ReturnErr ; abort if it’s not a valid selector + bcc.s ReturnErr ; abort if it’s not a valid selector move.w Vects(d0*HwVecSize),d0 ; get offset to selector’s routine jmp Vects(d0) ; go to the routine @@ -376,37 +379,6 @@ ReturnErr PROC ENTRY SwapICache PROC EXPORT - TestFor has68kEmulator ; are we on a PPC-based machine? - bnz.b @EmuFake - - cmp.b #cpu68040,CpuFlag ; are we on an 040-based machine? - bhs.s @handle040 - -@handle030 - movec CACR,d0 ; get current cache state - bfextu d0{31:1},d1 ; get cache enable bit into LSbit of d1 - bclr #CACR_EI_020_030,d0 ; assume we're disabling (clear enable flag) - move.l a0,d2 ; see what we want to do - beq.s @SetCACR ; if we want to turn it on - ori.b #((1< nope, just blow it all off - subq #4,sp ; make room for result - move.l #dockCacheControl,-(sp) ; cache control selector - move.l #dockCacheOn,-(sp) ; indicate the cache should be turned on - _DockingDispatch - addq #4,sp ; remove the result (assume success) - - IF hasMDU THEN - bra.s @extCacheDone -@noDockMgr - - movea.l UnivInfoPtr,a0 ; point to the product info - cmpi.b #DecoderKinds.MDUDecoder,\ - ProductInfo.DecoderKind(a0) ; see if we have an MDU - bne.s @noMDU ; if not, nothing to enable - -; enable the external MDU cache as follows: -; Toggle the RvCFlush bit 1 - 0 - 1, to flush the cache -; set the RvCDis bit to 0, to enable the cache (special restriction, can't access cacheable -; memory for some amount of time after enableing the cache. By executing this code in -; a loop, it will be executing out of the instruction cache, and not accessing memory) - - movea.l VIA2RBV,a0 ; get the VIA2 or RBV base address - lea vBufB|RvDataB(a0),a0 ; point to the cache register - - move.w sr,-(sp) ; save int mask - ori.w #HiIntMask,sr ; disable all interrupts - - moveq.l #~(1< nope, just blow it all off - subq #4, sp ; make room for result - move.l #dockCacheControl, -(sp) ; cache control selector - move.l #dockCacheOff, -(sp) ; indicate the cache should be turned on - _DockingDispatch - addq #4,sp ; remove the result (assume success) - - IF hasMDU THEN - bra.s @extCacheDone -@noDockMgr - - movea.l UnivInfoPtr,a0 ; point to the product info - cmpi.b #DecoderKinds.MDUDecoder,\ - ProductInfo.DecoderKind(a0) ; see if we have an MDU - bne.s @noMDU ; if not, nothing to enable - - movea.l VIA2RBV,a0 ; get the VIA2 or RBV base address - lea vBufB|RvDataB(a0),a0 ; point to the cache register - ori.b #(1< A0[7-0] = bit map of SCSI IDs to wait for -; -> A0[23-16] = bit map of SCSI IDs to search for -; -; On Exit: -; <- A0 = result (0=found wait_for drives, -1=didn't find them) -; -; Register Usage: -; D0 = temp -; D1 = bitmap of devices to wait for -; D2 = bitmap of devices to search for -; D3 = OS Type (for SCSILoad) -; D4 = Ticks at timeout -; -;---------- - -WaitForSCSIDevs PROC EXPORT - - IMPORT SCSILoad - -trashedRegs REG D2-D4/D6 - -DefaultTimeOut EQU 20 ; Number of seconds timeout if PRAM is pristine -PollDelay EQU 15 ; Delay (in ticks) between SCSILoads - - movem.l trashedRegs, -(sp) ; save registers that we're going to trash - -; Get bitmap parameters into D1 and D2 - move.l A0, D1 ; D1 = bitmap of devices to wait for - move.l D1, D2 ; - swap D2 ; D2 = bitmap of devices to search for - or.b D1, D2 ; make sure that we search for the drive(s) - ; that we are waiting for - -; SCSILoad expects OS type in high word of D3 - subq.w #2, sp ; Make room for parameters. - move.l sp, A0 ; Point to the parameter block. - _GetOSDefault ; Get info about the default device. - ; leave OS results on stack for a second - -; Get PRAM time out value and convert it to ticks and keep in D4 - _GetTimeOut ; Get the timeout parameter. - bne.s @UseGivenTime ; Branch if not using default. - moveq.l #DefaultTimeOut, D0 ; Use default timeout. -@UseGivenTime - mulu #60, D0 ; Convert timeout to ticks. - move.l D0, D4 ; Save timeout in our final reg. - - move.w (sp)+, D3 ; Get OS type off of stack - swap D3 ; put in high word (where SCSILoad expects it) - - moveq.l #0, D6 - bset #31, D6 ; tell drivers not to munge the blasted heap - -; SCSILoad polling loop ------- - -@TopO_TheLoop - move.l D2, D0 ; Try to load drivers for the "search" disks - bsr.l SCSILoad - - move.b SCSIDrvrs, D0 - and.b D1, D0 ; look only at bits we are waiting for - cmp.b D1, D0 ; if all are 1 then - beq.s @goodexit ; we got what we were waiting for - exit - -; Check for timeout, wait for PollDelay more ticks, check timeout again, then do the SCSILoad again - move.l Ticks, D0 - cmp.l D4, D0 ; is current ticks higher than our time_out ticks? - bhi @fldexit ; yes - timed out, exit - - add.l #PollDelay, D0 ; wait till Ticks+PollDelay before polling -@1 cmp.l Ticks, D0 ; if polldelay timeout is higher than current ticks, - bhi @1 ; then loop - - cmp.l D4, D0 ; is current ticks higher than our time_out ticks? - blo @TopO_TheLoop ; no - repeat SCSILoad - ; yes - timed out, exit -@fldexit - move.w #-1, A0 - bra.s @exit - -@goodexit - move.w #0, A0 -@exit - movem.l (sp)+, trashedRegs ; restore registers that we trashed - rts - - ENDPROC - - ;---------- ; ; SlotBlockXferCtl (_HWPriv Selector 12) @@ -1051,117 +637,38 @@ PollDelay EQU 15 ; Delay (in ticks) between SCSILoads SlotBlockXferCtl PROC EXPORT - MoveQ.l #paramErr, D0 ; assume don't have MUNI or bad slot value passed - Testfor BARTExists ; are we on a ColdFusion or PDM - bne.s @bart - TestFor MUNIExists ; Do we have the MUNI Nubus controller - Beq.s @exit ; No, we're done. - - MoveA.l UnivInfoPtr, A1 ; point to the product info - Add.l ProductInfo.DecoderInfoPtr(A1), A1 ; get decoder info ptr - MoveA.l DecoderInfo.MUNIAddr(A1), A1 ; get MUNI base address - - Move.l A0, D1 ; get user parm - MoveQ #0, D2 - Move.l MUNI_BlkAttmpt(A1), D2 ; get previous state of slots 1-14 - Lsl.w #1, D2 ; make bit x match slot x, bit 1 = slot 1 - MoveA.l D2, A0 ; return previous state bit mask in A0 - - MoveQ #0, D2 - Move.b D1, D2 ; Get slot # - SubQ.b #1, D2 ; adjust slot # for bit offset - Bmi.s @exit ; bad slot value, < 1 - Cmp.b #14, D2 - Bhs.s @exit ; bad slot value, > 14 - Move.l MUNI_BlkAttmpt(A1), D0 ; get current state of slots 1-14 - BTst #8, D1 ; Turn blk xfer on or off? - Bne.s @on - BClr D2, D0 ; turn if off - Bra.s @doit -@on BSet D2, D0 ; turn if on -@doit Move.l D0, MUNI_BlkAttmpt(A1) ; setup block xfers for slot # in D2 - bra.s @done - -@bart - MoveA.l UnivInfoPtr, A1 ; point to the product info - Add.l ProductInfo.DecoderInfoPtr(A1),A1 ; get decoder info ptr - MoveA.l DecoderInfo.BARTAddr(A1),A1 ; get Bart base address - - Move.l A0, D1 ; get user parm - MoveQ #0, D2 - Move.b D1, D2 ; Get slot # - SubQ.b #1, D2 ; adjust slot # for bit offset - Bmi.s @exit ; bad slot value, < 1 - Cmp.b #14, D2 - Bhs.s @exit ; bad slot value, > 14 - BTst #8, D1 ; Turn blk xfer on or off? - Bne.s @Bon - - moveq #BARTBurstRegOff, d0 - mulu.l d2, d0 - adda.l #BARTBurstReg,a1 - suba.l d0, a1 - bclr.b #BARTBurstBit, (A1) ; turn off block xfers for slot # in D2 - Bra.s @done - -@Bon moveq #BARTBurstRegOff, d0 - mulu.l d2, d0 - adda.l #BARTBurstReg,a1 - suba.l d0, a1 - bset.b #BARTBurstBit, (A1) ; turn on block xfers for slot # in D2 - -@done MoveQ #noErr,D0 ; signal all's well - -@exit Rts - - ENDPROC - - -;---------- -; -; GetENetID (_HWPriv Selector 13) -; -; This routine gets the EtherNet ID from a serial-interface EtherNet ID ROM. -; On all machines except Blackbird (so far), the Ethernet ID is in a memory-mapped -; parallel ROM. When this routine runs on those machines, a0 should already -; contain a valid address at which to read the ethernet ID, so this routine -; will just exit for those machines. If there is no address in a0, we double check -; here to make sure we are on a Blackbird (by checking for Pratt), and then -; go ahead and try to get the Ethernet ID from the serial ROM. -; -; Entry: -; -; A0.l - ENetPROM field of the EtherNet Driver (address of ID ROM, or -; zero for an ID ROM that is not memory-mapped). -; -; Exit: -; -; A0.l - non-zero pointer to EtherNet ID -; - ID = 0 if we can't get address from ID ROM -; -; Destroys: D1, D2, A1 -; -;---------- - -GetENetID PROC EXPORT - - IMPORT X24c01aGetID - - WITH PMgrRec, PmgrPrimitivesRec - - IF hasPratt THEN - TestFor PrattExists ; do we have a Pratt? - beq.s @exit ; no, so exit - - move.l a4, -(sp) ; save our macro register - bigjsr X24c01aGetID,a4 ; get the ID from the serial ROM - move.l (sp)+, a4 ; restore our macro register - ENDIF - -@exit moveq #noErr,d0 ; everything always fine + moveq #paramErr,D0 rts - ENDWITH + ENDPROC + + +;---------- +; +; MakeSomethingWriteThrough +; +;---------- + +MakeSomethingWriteThrough PROC EXPORT + + Move.L ([$1FF4],$8), D2 + Move.L A0, D0 + LsR.L D2, D0 + MoveA.L D0, A0 + Move.L A1, D0 + SubQ.L #$1, D0 + LsR.L D2, D0 + Move.L D0, D2 +@loop + _nkMakePageWriteThrough + Tst.L D0 + BMI.B @exit + AddQ #$1, A0 + DBF D2, @loop + MoveQ.L #$0, D0 +@exit + Rts + ENDPROC @@ -1228,21 +735,25 @@ Vects ;table of offset to selector routines MemDispSelector LockMemoryContiguousProc ; 4 MemDispSelector GetPhysicalProc ; 5 MemDispSelector WriteProtectProc ; 6 -LastVec MemDispSelector UnWriteProtectProc ; 7 + MemDispSelector UnWriteProtectProc ; 7 + dc.w badSelect-Vects ; 8 + dc.w badSelect-Vects ; 9 +LastVec MemDispSelector LockMemoryProc ; 10 MemoryDispatchCode cmp.w #(LastVec-Vects)/MdVecSize,d0 ; check if selector in range - bhi.s @badSelect ; abort if its not a valid selector + bhi.s badSelect ; abort if its not a valid selector move.w Vects(d0.w*MdVecSize),d0 ; get offset to selector's routine jmp Vects(d0) ; go to the routine -@badSelect move.l #hwParamErr,d0 ; abort: return error code +badSelect2 +badSelect3 +badSelect move.l #hwParamErr,d0 ; abort: return error code rts EndProc - ;----- ; ; HoldMemoryProc (_MemoryDispatch Selector 0) @@ -1301,7 +812,7 @@ LockMemoryProc PROC Export movea.l LockMemCt,a2 ; point to MemoryDispatch globals bsr GetPageRange ; check input arguments bne.s @error ; get out - lea.l mdLockTable(a2,d1*2),a1 ; point to lock counter for first page + lea.l mdLockTable(a2,d1.l*2),a1 ; point to lock counter for first page moveq.l #1,d0 ; flag to MMUSetCacheInhibit to inhibit caching @loop addq.w #1,(a1)+ ; bump the lock count @@ -1310,10 +821,6 @@ LockMemoryProc PROC Export subq.l #1,d2 ; one less page to go bhi.s @loop ; keep looping - cmpi.b #EMMU1,MMUType ; is this an Emulated MMU? - beq.s @done ; -> Yes, no need to flush anything - bsr MMUFlushATC ; flush ATC's - _FlushDataCache ; flush data cache @done moveq.l #noErr,d0 ; no error @error movem.l (sp)+,@saveRegs ; restore registers @@ -1342,7 +849,7 @@ UnLockMemoryProc PROC Export movea.l LockMemCt,a2 ; point to MemoryDispatch globals bsr GetPageRange ; check input arguments bne.s @error ; get out - lea.l mdLockTable(a2,d1*2),a1 ; point to lock counter for first page + lea.l mdLockTable(a2,d1.l*2),a1 ; point to lock counter for first page move.l d2,d3 ; copy of the count move.w #notLockedErr,d0 ; assume a nonlocked page @lockCheckLoop @@ -1351,7 +858,7 @@ UnLockMemoryProc PROC Export subq.l #1,d3 ; one less page to go bhi.s @lockCheckLoop ; keep looping - lea.l mdLockTable(a2,d1*2),a1 ; point to lock counter for first page + lea.l mdLockTable(a2,d1.l*2),a1 ; point to lock counter for first page move.l d2,d3 ; copy of the count moveq.l #0,d0 ; flag to MMUSetCacheInhibit to enable caching moveq.l #0,d4 ; assume ATC will not need to be cleared @@ -1423,7 +930,7 @@ LockMemoryContiguousProc PROC Export cmpa.l a1,a0 ; compare the results bne.s @notContigError ; range crosses a non-contiguous bank boundary - lea.l mdLockTable(a2,d1*2),a1 ; point to lock counter for first page + lea.l mdLockTable(a2,d1.l*2),a1 ; point to lock counter for first page moveq.l #1,d0 ; flag to MMUSetCacheInhibit to inhibit caching @loop addq.w #1,(a1)+ ; bump the lock count @@ -1432,10 +939,6 @@ LockMemoryContiguousProc PROC Export subq.l #1,d2 ; one less page to go bhi.s @loop ; keep looping - cmpi.b #EMMU1,MMUType ; is this an Emulated MMU? - beq.s @done ; -> Yes, no ATC or Data cache to flush - bsr MMUFlushATC ; flush ATC's - _FlushDataCache ; flush data cache @done moveq.l #noErr,d0 ; no error @error movem.l (sp)+,@saveRegs ; restore registers @@ -1722,12 +1225,7 @@ WriteProtectProc Proc Export bsr GetPageRange ; check input arguments bne.s @error ; get out - cmpi.b #EMMU1,MMUType ; do we have an EMMU? - beq.s @NoFlush ; -> Yes, no need for this crap - _FlushDataCache ; flush data cache (flush data before write protecting) - _FlushInstructionCache ; flush instruction cache (just for grins) - bsr MMUFlushATC ; flush ATC's -@NoFlush lea.l mdLockTable(a2,d1*2),a1 ; point to lock counter for first page +@NoFlush lea.l mdLockTable(a2,d1.l*2),a1 ; point to lock counter for first page moveq.l #@setW,d0 ; flag to MMUSetWriteProtect to write-protect @loop ori.w #@setWMask,(a1)+ ; set the write-protect flag @@ -1789,7 +1287,7 @@ UnWriteProtectProc Proc Export bsr GetPageRange ; check input arguments bne.s @error ; get out - lea.l mdLockTable(a2,d1*2),a1 ; point to lock counter for first page + lea.l mdLockTable(a2,d1.l*2),a1 ; point to lock counter for first page moveq.l #@clearW,d0 ; flag to MMUSetWriteProtect to clear write-protect @loop andi.w #@clearWMask,(a1)+ ; clear the write-protect flag @@ -1827,15 +1325,6 @@ InitMemoryDispatch Proc Export clr.l LockMemCt ; clear ptr to globals (assume failure) - cmpi.b #HMMU,MMUType ; Do we have an MMU? - bhi.s @hasMMU ; -> Yes, do the init! - - MOVE.W #@UnimplementedTrap,d0 ; _Unimplemented - _GetTrapAddress ,newTool ; Get its address - MOVE.W #@MemoryDispatchTrap,d0 ; Select MemoryDispatch trap - _SetTrapAddress ,newOS ; Set it to point to Unimplemented - bra @NoPages ; -> All done - @hasMMU move.b CPUFlag,d1 ; get the CPU type moveq.l #0,d2 ; assume no page size move.l PhysMemTop,d3 ; get actual amount of physical RAM @@ -1856,8 +1345,6 @@ InitMemoryDispatch Proc Export blo.w @noPages ; bail without allocating globals ??? (Use old code ?) cmpi.b #PMMU851,MMUType ; do we have a real MMU ? blo.w @noPages ; bail without allocating globals ??? (Use old code ?) - cmpi.b #EMMU1,MMUType ; do we have an emulated MMU? - bne.s @mustbe030 ; -> No, must be an 030 moveq #0,D1 ; clear D1 move.l ([ProcessorInfoPtr],ProcessorInfo.PageSize),D0 ; Get the Page size from the nano-k @@ -1867,8 +1354,6 @@ InitMemoryDispatch Proc Export addq #1,d1 bra.s @countBits ; Keep shifting till we find one -@mustbe030 pmove.l TC,-4(a6) ; get the '030 TC register contents - bfextu -4(a6){8,4},d1 ; get log2 of page size @gotPageSize bset.l d1,d2 ; get the page size lsr.l d1,d3 ; get number of page frames @@ -1978,15 +1463,9 @@ MMUSetWriteProtect Proc Export @moreRegs REG d1/a1/a2 @wBit EQU 2 ; write protect bit in all page descriptors - cmp.b #PMMU851,MMUType ; do we have at least a 68851 PMMU ? - blo.w @noPages ; if not, no pages to write protect (020 or less) -@hasPages movem.l @saveRegs,-(sp) ; save registers move.l d0,d4 ; remember write-protect mask - CMPI.B #EMMU1,MMUType ; Do we have an EMMU? - BNE.S @RealMMU ; -> Nope, sorry - MOVE.L D1,A0 ; Put the page number in A0 _nkGetPTEntryGivenPage ; Get the 030+ PTE from the nk @@ -1997,47 +1476,6 @@ MMUSetWriteProtect Proc Export MOVE.L D1,A1 ; Put the page number in A1 _nkSetPTEntryGivenPage ; Set the 030+ PTE - BRA.S @RegDone ; -> Exit - -@RealMMU move.l mdLog2PageSize(a2),d0 ; get the log2 of the page size - asl.l d0,d1 ; turn logical page number into a logical address - - IF Supports24Bit THEN ; - cmp.l mdPages24(a2),d1 ; check if page is in the 24-bit address space - slo d3 ; if it is, be sure to whack the 24-bit table - - moveq.l #false32b,d0 ; first go to 24-bit mode - _SwapMMUMode ; go to 24-bit mode - move.l d0,d2 ; remember the caller's MMU mode - - movea.l d1,a0 ; set up logical address to get page descriptor - movem.l @moreRegs,-(sp) ; save registers that GetPageDesc destroys - bsr GetPageDescProc ; ptr to page descriptor given logical address - movem.l (sp)+,@moreRegs ; restore registers that GetPageDesc destroys - movea.l a0,a1 ; save ptr to 24-bit page descriptor - - moveq.l #true32b,d0 ; go to 32-bit mode - _SwapMMUMode ; go to 32-bit, return caller's MMU mode - ENDIF - - movea.l d1,a0 ; set up logical address to get page descriptor - movem.l @moreRegs,-(sp) ; save registers that GetPageDesc destroys - bsr GetPageDescProc ; ptr to page descriptor given logical address - movem.l (sp)+,@moreRegs ; restore registers that GetPageDesc destroys - - bclr.b #@wBit,3(a0) ; clear the W bit - or.l d4,(a0) ; clear/set the write-protect flag - - IF Supports24Bit THEN ; - tst.b d3 ; should we whack the 24-bit table ? - beq.s @exit ; if not, we're done - - bclr.b #@wBit,3(a1) ; clear the W bit - or.l d4,(a1) ; clear/set the write-protect flag -@exit - move.l d2,d0 ; caller's MMU mode - _SwapMMUMode ; restore the MMU mode - ENDIF @regDone movem.l (sp)+,@saveRegs ; restore registers @noPages rts @@ -2072,118 +1510,27 @@ MMUSetCacheInhibit Proc Export @saveRegs REG d0-d4/a0/a1 @moreRegs REG d1/a1/a2 - cmp.b #PMMU851,MMUType ; do we have at least a 68851 PMMU ? - blo.w @noPages ; if not, we can't control data caching (020 or less) -@hasPages movem.l @saveRegs,-(sp) ; save registers - cmpi.b #EMMU1,MMUType ; Do we have an EMMU? - bne.s @RealMMU ; -> Nope, sorry + btst.b #7,$240A + bne.s @RegDone MOVE.L D1,A0 ; Put the page number in A0 ADDI.W #mmuMakePageCacheable,D0 ; Turn the cache mode flag into a nKernel selector _KernelVMDispatch ; Set the cache status & flush the ATC - BRA.S @RegDone ; -> Exit -@RealMMU move.l d0,d4 ; remember inhibit flag - - move.l mdLog2PageSize(a2),d0 ; get the log2 of the page size - asl.l d0,d1 ; turn logical page number into a logical address - - IF Supports24Bit THEN ; - cmp.l mdPages24(a2),d1 ; check if page is in the 24-bit address space - slo d3 ; if it is, be sure to whack the 24-bit table - - moveq.l #false32b,d0 ; first go to 24-bit mode - _SwapMMUMode ; go to 24-bit mode - move.l d0,d2 ; remember the caller's MMU mode - - movea.l d1,a0 ; set up logical address to get page descriptor - movem.l @moreRegs,-(sp) ; save registers that GetPageDesc destroys - bsr GetPageDescProc ; ptr to page descriptor given logical address - movem.l (sp)+,@moreRegs ; restore registers that GetPageDesc destroys - movea.l a0,a1 ; save ptr to 24-bit page descriptor - - moveq.l #true32b,d0 ; go to 32-bit mode - _SwapMMUMode - ENDIF - movea.l d1,a0 ; set up logical address to get page descriptor - movem.l @moreRegs,-(sp) ; save registers that GetPageDesc destroys - bsr GetPageDescProc ; ptr to page descriptor given logical address - movem.l (sp)+,@moreRegs ; restore registers that GetPageDesc destroys - bsr.s MMUSetCacheMode ; go whack the page descriptor - - IF Supports24Bit THEN ; - tst.b d3 ; should we whack the 24-bit table ? - beq.s @exit ; if not, we're done - - movea.l a1,a0 ; point to the 24-bit page descriptor - bsr.s MMUSetCacheMode ; go whack the page descriptor -@exit - move.l d2,d0 ; caller's MMU mode - _SwapMMUMode ; restore the MMU mode - ENDIF @RegDone movem.l (sp)+,@saveRegs ; restore registers @noPages rts EndWith EndProc -;------------------------------------------------------------------- -; MMUSetCacheMode - code to actually whack the page table entry (Called in 32-bit mode) -; -; Destroys: None. -; -; On entry: d4.l = cache inhibit flag: 0=clear cache inhibit bit(s) -; 1=set cache inhibit bit(s) -; a0.l = logical address of page descriptor -; a2.l = ptr to MemoryDispatch globals -;------------------------------------------------------------------- -MMUSetCacheMode Proc Export -@saveRegs REG d0/d1 -@cacheBit EQU 6 ; C bit for 851/030, CM[1] for 040 (CM[0] untouched) -@cm0bit EQU 5 ; CM[0] bit in 040 page descriptor - - movem.l @saveRegs,-(sp) ; save registers - tst.b d4 ; check the cache inhibit flag - beq.s @enableCaching ; if clear, enable caching for the page - move.l (a0),d1 ; get page desc (forces serialization on 040) - bset.l #@cacheBit,d1 ; inhibit caching - bclr.l #@cm0bit,d1 ; make it non-serialized - move.l d1,(a0) ; update page descriptor - bra.s @exit -@enableCaching - clr.l d1 ; clear 68040 mask - bfextu CacheFlags{31-bCopybackMode:1},d1 ; get current cache mode - lsl.l #@cm0bit,d1 ; make a mask for a 68040 page descriptor - or.l (a0),d1 ; get page descriptor (forces copyback on 040) - bclr.l #@cacheBit,d1 ; enable caching - move.l d1,(a0) ; update page descriptor -@exit - movem.l (sp)+,@saveRegs ; restore registers - rts - EndProc - - ;------------------------------------------------------------------- ; ; MMUFlushATC - Flush all entries in the MMU's Address Translation Cache ; ;------------------------------------------------------------------- MMUFlushATC Proc Export - cmpi.b #EMMU1,MMUType ; do we have an Emulated MMU? - beq.s @exit ; -> Yes, do nothing - cmp.b #PMMU851,MMUType ; do we have at least a 68851 PMMU ? - blo.s @exit ; if not, we're done - cmp.b #PMMU040,MMUType ; do we have an 040 PMMU? - beq.s @handle040 ; if so, use 040 PFLUSHA - pflusha ; use 851 & 030 PFLUSHA -@exit - rts ; done -@handle040 - MACHINE MC68040 - pflusha ; flush the ATC - MACHINE MC68030 rts EndProc diff --git a/OS/IoPrimitives/ADBPrimitives.a b/OS/IoPrimitives/ADBPrimitives.a --- a/OS/IoPrimitives/ADBPrimitives.a +++ b/OS/IoPrimitives/ADBPrimitives.a @@ -42,7 +42,6 @@ PRINT OFF LOAD 'StandardEqu.d' INCLUDE 'HardwarePrivateEqu.a' - INCLUDE 'SoundPrivate.a' INCLUDE 'UniversalEqu.a' IF PwrMgrADB THEN INCLUDE 'PowerPrivEqu.a' @@ -81,6 +80,7 @@ ADBPrimitives PROC EXPORT IF ViaADB THEN EXPORT ViaADBTable + DC.W 0 ; flags DC.W (VIATableEnd-ViaADBTable)/4 ; number of entries ViaADBTable DC.L VIAInitADB-ViaADBTable ; ADB initialization @@ -95,6 +95,7 @@ VIATableEnd IF PwrMgrADB THEN EXPORT PMgrADBTable + DC.W 0 ; flags DC.W (PMGRTableEnd-PMgrADBTable)/4 ; number of entries PMgrADBTable DC.L PMgrInitADB-PMgrADBTable ; ADB initialization @@ -104,11 +105,24 @@ PMgrADBTable DC.L PMgrDebugPoll-PMgrADBTable ; DebugUtil ADB polling DC.L 0 ; not used PMGRTableEnd + + EXPORT PMgrADBTable2 + DC.W 0 ; flags + DC.W (PMGRTableEnd2-PMgrADBTable2)/4 ; number of entries +PMgrADBTable2 + DC.L PMgrInitADB-PMgrADBTable2 ; ADB initialization + DC.L PMgrEnableKbdNMI-PMgrADBTable2 ; not used + DC.L 0 ; not used + DC.L 0 ; not used + DC.L PMgrDebugPoll2-PMgrADBTable2 ; DebugUtil ADB polling + DC.L 0 ; not used +PMGRTableEnd2 ENDIF IF hasEgret THEN EXPORT EgretADBTable + DC.W 0 ; flags DC.W (EgretTableEnd-EgretADBTable)/4 ; number of entries EgretADBTable DC.L EgretInitADB-EgretADBTable ; ADB initialization @@ -120,6 +134,7 @@ EgretADBTable EgretTableEnd EXPORT CudaADBTable + DC.W 0 ; flags DC.W (CudaTableEnd-CudaADBTable)/4 ; number of entries CudaADBTable DC.L EgretInitADB-CudaADBTable ; ADB initialization @@ -132,32 +147,43 @@ CudaTableEnd ENDIF - IF IopADB THEN - EXPORT IOPADBTable - DC.W (IOPTableEnd-IOPADBTable)/4 ; number of entries -IOPADBTable - DC.L IOPInitADB-IOPADBTable ; ADB initialization - DC.L 0 ; not used - DC.L IOPRunKBD-IOPADBTable ; DebugUtil enter - DC.L 0 ; not used - DC.L IOPRunKBD-IOPADBTable ; DebugUtil ADB polling - DC.L 0 ; not used -IOPTableEnd + EXPORT AlphaADBTable + DC.W 0 ; flags + DC.W (AlphaTableEnd-AlphaADBTable)/4 ; number of entries +AlphaADBTable + DC.L AlphaInitADB-AlphaADBTable ; ADB initialization + DC.L 0 ; not used + DC.L AlphaDebugEnter-AlphaADBTable ; DebugUtil enter + DC.L AlphaDebugExit-AlphaADBTable ; DebugUtil exit + DC.L AlphaDebugPoll-AlphaADBTable ; DebugUtil ADB polling + DC.L 0 ; not used +AlphaTableEnd - IF hasOrwell THEN ;

- EXPORT QuadraADBTable - DC.W (QuadraADBTableEnd-QuadraADBTable)/4; number of entries -QuadraADBTable - DC.L IOPInitADB-QuadraADBTable ; ADB initialization - DC.L 0 ; not used - DC.L IOPRunKBD-QuadraADBTable ; DebugUtil enter - DC.L 0 ; not used - DC.L QuadraDebugPoll-QuadraADBTable ; DebugUtil ADB polling - DC.L QuadraCheckSecure-QuadraADBTable ; check if keyswitch is in SECURE position -QuadraADBTableEnd - ENDIF - ENDIF + EXPORT DummyADBTable + DC.W 0 ; flags + DC.W (DummyTableEnd-DummyADBTable)/4 ; number of entries +DummyADBTable + DC.L DummyInitADB-DummyADBTable ; ADB initialization + DC.L 0 ; not used + DC.L 0 ; DebugUtil enter + DC.L 0 ; DebugUtil exit + DC.L 0 ; DebugUtil ADB polling + DC.L 0 ; not used +DummyTableEnd + + + EXPORT BetaADBTable + DC.W 0 ; flags + DC.W (BetaTableEnd-BetaADBTable)/4 ; number of entries +BetaADBTable + DC.L BetaInitADB-BetaADBTable ; ADB initialization + DC.L 0 ; not used + DC.L BetaDebugEnter-BetaADBTable ; DebugUtil enter + DC.L BetaDebugExit-BetaADBTable ; DebugUtil exit + DC.L BetaDebugPoll-BetaADBTable ; DebugUtil ADB polling + DC.L 0 ; not used +BetaTableEnd IF ViaADB THEN @@ -521,10 +547,8 @@ VIAReqDone MOVE.B FDBAuFlag(A3),D0 ; get the flags ;________________________________________________________________________________________ VIADebugPoll - JSR ([jCacheFlush]) ; Temporary “fix” so that MacsBug works on Q700s. EgretDebugPoll MOVEA.L VIA,A1 ; point to the VIA - eieioSTP BTST #ifSR,vIFR(A1) ; is the shift register full? eieioSTP BEQ.S @PollDone ; -> no, just return @@ -608,7 +632,6 @@ PMgrEnableKbdNMI PMgrStartReq MOVEA.L VIA,A1 ; point to the base of VIA1 - eieioSTP MOVE.B #(0< no, just return @@ -763,6 +784,31 @@ PMgrDebugPoll @PollDone RTS ; and call the interrupt handler +;________________________________________________________________________________________ +; +; Routine: PMgrDebugPoll2 +; +; Inputs: none +; +; Outputs: none +; +; Trashes: A1 +; +; Function: DebugUtil code to check if ADB data is available +;________________________________________________________________________________________ + +PMgrDebugPoll2 + MOVE.L VIA,D3 ; point to the VIA + SUB.L #$16000,D3 ; mysterious data check, cf above + MOVE.L D3,A1 + MOVE.B $59(A1),D3 + AND.B #2,D3 + eieioSTP + BNZ.S @PollDone ; -> no data, just return + MOVE.L Lvl1DT+(4*ifCB1),-(SP) ; get the handler address +@PollDone RTS ; and call the interrupt handler + + ENDIF ; {PwrMgrADB} @@ -850,14 +896,10 @@ EgretStartReq @ImplicitCompleted MOVEQ #(1< yes, done @@ -973,8 +1020,7 @@ CudaDebugEnter ;________________________________________________________________________________________ EgretDebugEnter - MOVEQ #0,D1 ; turn off mode 3 clock data packets - BRA.S EgretDebugCommon + RTS ;________________________________________________________________________________________ @@ -1012,17 +1058,6 @@ CudaDebugExit ;________________________________________________________________________________________ EgretDebugExit - MOVEQ #Mode3Clock,D1 ; turn on mode 3 clock data packets -EgretDebugCommon - MOVEQ #EgretPBSize/2-1,D0 -@ClearPB CLR.W -(SP) ; zero all fields in the parameter block - DBRA D0,@ClearPB ; (forces mode 0 and no completion vector) - MOVEA.L SP,A0 ; point to the parameter block - MOVE.W #(pseudoPkt<<8)+\ - (Wr1SecMode<<0),pbCmdType(A0) ; set up the packet type and command - MOVE.B D1,pbParam(A0) ; turn on/off Mode 3 clock data packets - _EgretDispatch ; turn on/off one-second interrupts - LEA EgretPbSize(SP),SP ; clean up the stack RTS @@ -1058,232 +1093,633 @@ EgretDebugPDM - IF IopADB THEN -;••••••••••••••••••••••••••••••••••••••••• IOP •••••••••••••••••••••••••••••••••••••••••• + IF 1 THEN +;•••••••••••••••••••••••••••••••••••• Alpha ••••••••••••••••••••••••••••••••••••• - WITH IOPRequestInfo - IMPORT IOPInterrupt +AlphaNotSureWhatThisIs + move.b ([ExpandMem],$2A0),d3 + cmpi.b #$FF,d3 + beq.s @return + movea.l #$12345678,a0 + cmpa.l a0,a1 + beq.s @normv + movea.l a1,a0 + _RmvTime +@normv + movem.l d4-d7/a4-a6,-(sp) + movea.l ADBBase,a3 + moveq #2,d2 + moveq #0,d3 + move.b ([ExpandMem],$2A0),d3 + ror.w #8,d3 + move.b #$FF,d3 + move.w d3,-(sp) + movea.l sp,a2 + moveq #0,d3 + move.b ([ExpandMem],$2A1),d3 + ori.l #$80000000,d3 + bsr.l IMPLICITREQUESTDONE + lea 2(sp),sp + move.b #$FF,([ExpandMem],$2A0) + movem.l (sp)+,d4-d7/a4-a6 +@return + rts -;________________________________________________________________________________________ -; -; Routine: IOPInitADB -; -; Inputs: A3 - pointer to ADBBase -; -; Outputs: -; -; Trashes: A0,A1 -; -; Function: initializes the ADB Manager for IOP based ADB -;________________________________________________________________________________________ -IOPInitADB LEA IOPStartReq,A0 ; setup the procedure to start an ADB request - MOVE.L A0,StartReqProc(A3) +AlphaInitADB + + lea AlphaStartReq,a0 + move.l a0,StartReqProc(a3) + movea.l ([$68FFEFD0],$30),a0 ; HWInfo.ADB_Base + move.l a0,DeviceBase(a3) + tst.l a0 + beq.w @return + move.b #$C,$100(a0) + eieioSTP + + + move.l a1,-(sp) + + lea sub_72C6,a0 + suba.l a1,a1 + moveq #0,d0 + move.w ([$68FFEFD0],$84),d0 ; HWInfo.ADBIntVect + + movem.l d1/a2,-(sp) + movea.l ([ExpandMem],$210),a2 + lea 8(a2),a2 + moveq #$40,d1 +@loc_70BE + cmp.w $18(a2),d0 + beq.s @loc_70CE + OPT NONE + adda.w #32,a2 + OPT ALL + dbra d1,@loc_70BE + bra.s @loc_70D4 +@loc_70CE + move.l a0,(a2) + move.l a1,4(a2) +@loc_70D4 + movem.l (sp)+,d1/a2 -; initialize the XmtRequest message (all other fields remain zero) - eieioSTP - MOVE.B #ADBIopNum,XmtRequest.irIOPNumber(A3) - eieioSTP - MOVE.B #IOPRequestInfo.irSendXmtMessage,XmtRequest.irRequestKind(A3) - eieioSTP - MOVE.B #ADBMsgNum,XmtRequest.irMsgNumber(A3) - eieioSTP - LEA XmtMsg(A3),A0 ; get pointer to message buffer - eieioSTP - MOVE.L A0,XmtRequest.irMessagePtr(A3) - eieioSTP + movem.l d0-d2/a0,-(sp) + movea.l ([$68FFEFD0],$18),a0 + tst.l a0 + bne.s @loc_7120 + movea.l ([$68FFEFF0],$100),a0 + move.l #$80000000,d1 + cmpi.l #$1F,d0 + bgt.s @loc_710E + ror.l d0,d1 + or.l d1,$14(a0) + eieioSTP + bra.w @loc_7136 +@loc_710E + subi.l #$20,d0 + ror.l d0,d1 + or.l d1,4(a0) + eieioSTP + bra.w @loc_7136 +@loc_7120 + adda.l #$10000,a0 + lsl.l #5,d0 + move.l (a0,d0.w),d1 + bclr #7,d1 + move.l d1,(a0,d0.w) + eieioSTP +@loc_7136 + movem.l (sp)+,d0-d2/a0 -; initialize the RcvRequest message (all other fields remain zero) + movea.l (sp)+,a1 - eieioSTP - MOVE.B #ADBIopNum,RcvRequest.irIOPNumber(A3) - eieioSTP - MOVE.B #IOPRequestInfo.irWaitRcvMessage,RcvRequest.irRequestKind(A3) - eieioSTP - MOVE.B #ADBMsgNum,RcvRequest.irMsgNumber(A3) - eieioSTP - MOVE.B #ADBMsg.ADBMsgSize,RcvRequest.irMessageLen(A3) - eieioSTP - LEA RcvMsg(A3),A0 ; get pointer to message buffer - eieioSTP - MOVE.L A0,RcvRequest.irMessagePtr(A3) - eieioSTP - MOVE.L A0,RcvRequest.irReplyPtr(A3) - eieioSTP - LEA IOPReqDone,A0 ; get handler pointer - eieioSTP - MOVE.L A0,RcvRequest.irHandler(A3) - eieioSTP - LEA RcvRequest(A3),A0 ; setup pointer to param block - eieioSTP - _IOPMsgRequest ; install the Rcv message handler - eieioSTP - MOVE.B #IOPRequestInfo.irSendRcvReply,RcvRequest.irRequestKind(A3) - eieioSTP - RTS + movea.l DeviceBase(a3),a0 + clr.b $E0(a0) + eieioSTP + bset #0,$A0(a0) + eieioSTP +@return rts ;________________________________________________________________________________________ ; -; Routine: IOPStartReq +; Routine AlphaStartReq ; -; Inputs: A2 - pointer to transmit data buffer +; Inputs A2 - pointer to transmit data buffer ; A3 - pointer to ADBBase ; D2 - number of bytes of transmit data ; D3 - command byte (bits 0-7) + implicit flag (bit 31) ; -; Outputs: A3 - pointer to ADBBase -; -; Trashes: A0,A1,A2,D0,D1,D2 -; -; Function: sends an ADB request to the IOP and asynchronously waits for a reply -;________________________________________________________________________________________ - -IOPStartReq MOVEQ #ADBMsg.ADBData-ADBMsg+2,D0 ; length of msg preceeding data +2 for implicit - ADD.B D2,D0 ; d0 := length of message buffer - eieioSTP - BCLR #fDBUseRcvMsg,fDBAuFlag(A3) ; see which buffer/message to use - eieioSTP - BNE.S @useRcv ; if rcv available, use it - -@useXmt LEA XmtRequest(A3),A0 ; get the iop xmt request param block - LEA XmtMsg(A3),A1 ; use the xmt message buffer - eieioSTP - MOVE.B D0,irMessageLen(A0) ; setup the message length - eieioSTP - BRA.S @fillInReq ; fill in the remaining fields and exit - -@useRcv LEA RcvRequest(A3),A0 ; get the iop rcv request param block - LEA RcvMsg(A3),A1 ; use the rcv message buffer - eieioSTP - MOVE.B D0,irReplyLen(A0) ; setup the reply length - eieioSTP - -@fillInReq - eieioSTP - MOVE.W #(((1< - DC.L RTCXParam-RTCClockPRAM ; read/write PRAM byte[s] (trap-based) - DC.L RTCReadTime-RTCClockPRAM ; read the clock (uses RAM) - DC.L RTCWriteTime-RTCClockPRAM ; write to the clock (uses RAM) -RTCTableEnd - ENDIF + IMPORT NWReadNVRAM_C, NWWriteNVRAM_C, NWReadTime_C, NWWriteTime_C + EXPORT NWClockPRAM + DC.W 0 ; flags + DC.W (NWTableEnd-NWClockPRAM)/4 ; number of entries +NWClockPRAM + DC.L 0 ; not used + DC.L 0 ; not used + DC.L 0 ; not used + DC.L NWRdXByte-NWClockPRAM ; read PRAM byte (RAM-less) + DC.L NWWrXByte-NWClockPRAM ; write PRAM byte (RAM-less) + DC.L StandardXPramIO-NWClockPRAM ; read/write PRAM byte[s] (no traps)

+ DC.L NWXParam-NWClockPRAM ; read/write PRAM byte[s] (trap-based) + DC.L NWReadTime-NWClockPRAM ; read the clock (uses RAM) + DC.L NWWriteTime-NWClockPRAM ; write to the clock (uses RAM) + DC.L NWReadNVRAM_C-NWClockPRAM ; direct path to C-based NVRAM access + DC.L NWWriteNVRAM_C-NWClockPRAM ; direct path to C-based NVRAM access +NWTableEnd - IF hasPwrControls THEN - EXPORT PMGRClockPRAM - DC.W 0 ; flags - DC.W (PMGRTableEnd-PMGRClockPRAM)/4 ; number of entries -PMGRClockPRAM - DC.L 0 ; not used - DC.L 0 ; not used - DC.L 0 ; not used - DC.L PMGRRdXByte-PMGRClockPRAM ; read PRAM byte (RAM-less) - DC.L PMGRWrXByte-PMGRClockPRAM ; write PRAM byte (RAM-less) - DC.L StandardXPramIO-PMGRClockPRAM ; read/write PRAM byte[s] (no traps)

- DC.L PMGRXParam-PMGRClockPRAM ; read/write PRAM byte[s] (trap-based) - DC.L PMGRReadTime-PMGRClockPRAM ; read the clock (uses RAM) - DC.L PMGRWriteTime-PMGRClockPRAM ; write to the clock (uses RAM) -PMGRTableEnd - ENDIF - IF hasEgret THEN - EXPORT EgretClockPRAM - DC.W 0 ; flags - DC.W (EgretTableEnd-EgretClockPRAM)/4 ; number of entries -EgretClockPRAM - DC.L 0 ; not used - DC.L 0 ; not used - DC.L 0 ; not used - DC.L EgretRdXByte-EgretClockPRAM ; read PRAM byte (RAM-less) - DC.L EgretWrXByte-EgretClockPRAM ; write PRAM byte (RAM-less) - DC.L StandardXPramIO-EgretClockPRAM ; read/write PRAM byte[s] (no traps)

- DC.L EgretXParam-EgretClockPRAM ; read/write PRAM byte[s] (trap-based) - DC.L EgretReadTime-EgretClockPRAM ; read the clock (uses RAM) - DC.L EgretWriteTime-EgretClockPRAM ; write to the clock (uses RAM) -EgretTableEnd + WITH EgretPB ; PMCommandRec - EXPORT CudaClockPRAM - DC.W 0 ; flags - DC.W (CudaTableEnd-CudaClockPRAM)/4 ; number of entries -CudaClockPRAM - DC.L 0 ; not used - DC.L 0 ; not used - DC.L 0 ; not used - DC.L CudaRdXByte-CudaClockPRAM ; read PRAM byte (RAM-less) - DC.L CudaWrXByte-CudaClockPRAM ; write PRAM byte (RAM-less) - DC.L StandardXPramIO-CudaClockPRAM ; read/write PRAM byte[s] (no traps)

- DC.L EgretXParam-CudaClockPRAM ; read/write PRAM byte[s] (trap-based) - DC.L EgretReadTime-CudaClockPRAM ; read the clock (uses RAM) - DC.L EgretWriteTime-CudaClockPRAM ; write to the clock (uses RAM) -CudaTableEnd - ENDIF - - IF hasProtectedPRAM THEN - EXPORT NoPRAMClockPRAM - DC.W 0 ; flags - DC.W (NoPRAMTableEnd-NoPRAMClockPRAM)/4 ; number of entries -NoPRAMClockPRAM - DC.L 0 ; not used - DC.L 0 ; not used - DC.L 0 ; not used - DC.L NoPRAMRdXByte-NoPRAMClockPRAM ; read PRAM byte (RAM-less) - DC.L NoPRAMWrXByte-NoPRAMClockPRAM ; write PRAM byte (RAM-less) - DC.L NoPRAMXPramIO-NoPRAMClockPRAM ; read/write PRAM byte[s] (no traps) - DC.L NoPRAMXParam-NoPRAMClockPRAM ; read/write PRAM byte[s] (trap-based) - DC.L NoPRAMReadTime-NoPRAMClockPRAM ; read the clock (uses RAM) - DC.L NoPRAMWriteTime-NoPRAMClockPRAM ; write to the clock (uses RAM) -NoPRAMTableEnd - ENDIF - - - - IF hasVIAClock | hasPwrControls | hasEgret | hasPowerMgr THEN ;

;________________________________________________________________________________________ ; ; Routine: StandardXPramIO @@ -218,8 +153,6 @@ NoPRAMTableEnd ; each PRAM byte. ;________________________________________________________________________________________ - IMPORT ClkWPOff,RdXByte,WrXByte - StandardXPramIO MOVEM.L D7/A4-A6,-(SP) @@ -228,7 +161,7 @@ StandardXPramIO BCLR #31,D3 ; read or write? BEQ.S @StartRead ; -> read - ;BigBSR6 ClkWPOff,A5 ; write-enable PRAM + BigBSR6 ClkWPOff,A5 ; write-enable PRAM BRA.S @StartWrite @WriteLoop @@ -242,18 +175,19 @@ StandardXPramIO BigBSR6 WrXByte,A5 ; write a byte to PRAM MOVEA.L D7,A3 ; (restore the buffer pointer) ADDQ.W #1,D3 ; next byte + ; Re-write-protect after each loop iteration: needed to flush some buffer? + MOVEA.L A1,A6 ; point to this machine's product info + ADDA.L ProductInfo.ClockPRAMPtr(A6),A6 ; and get the address of its clock/PRAM table + MOVE.L 4*cpWrProtOn(A6),D0 ; get the offset to the write-protect routine + BEQ.S @ReprotectDone ; -> it's not supported for this implementation + LEA @ReprotectDone,A5 ; (simulate a BSR5) + ADDA.L D0,A6 ; calculate the routine's address + JMP (A6) ; and call it to turn on PRAM write-protect +@ReprotectDone MOVE (SP)+,SR ; restore the status register - bsr.l StdXPRAM2Patch ; call the patch @StartWrite SWAP D3 ; get the count DBRA D3,@WriteLoop ; -> keep looping until done - MOVEA.L A1,A6 ; point to this machine's product info - ADDA.L ProductInfo.ClockPRAMPtr(A6),A6 ; and get the address of its clock/PRAM table - MOVE.L 4*cpWrProtOn(A6),D0 ; get the offset to the write-protect routine - BEQ.S @Done ; -> it's not supported for this implementation - ;ADDA.L D0,A6 ; calculate the routine's address - ;LEA @Done,A5 ; (simulate a BSR5) - ;JMP (A6) ; and call it to turn on PRAM write-protect bra.s @Done ; we're done @ReadLoop SWAP D3 ; get the PRAM address @@ -268,1394 +202,266 @@ StandardXPramIO @Done MOVEM.L (SP)+,D7/A4-A6 RTS - ENDIF +;________________________________________________________________________________________ +; +; Routine: NWXParam (old generic RTC code) +; +; Inputs: A0 - pointer to user's buffer +; D0 - [number of bytes to transfer][starting PRAM address] +; D1 - bit 12: 1=read, 0=write +; +; Outputs: D0 - result code +; +; Trashes: A0,A1,A2,A3,D1,D2,D3 +; +; Function: reads/writes byte[s] from RTC-based paramter RAM +;________________________________________________________________________________________ + +NWXParam MOVEA.L A0,A3 ; get the pointer to the caller's buffer + MOVEA.L UnivInfoPtr,A1 ; point to the ProductInfo table

+ MOVEA.L A1,A0 ; and to the decoder table

+ ADDA.L ProductInfo.DecoderInfoPtr(A0),A0 + MOVE.L D0,D3 ; get the starting PRAM address and count + BTST #12,D1 ; is it a read or write? + BNE.S @ItsRead + BSET #31,D3 ; mark it as a write + +@ItsRead BSR.S StandardXPramIO ; go transfer the PRAM bytes

- IF hasVIAClock THEN -;••••••••••••••••••••••••••••••••••••••••• RTC •••••••••••••••••••••••••••••••••••••••••• + MOVEQ #0,D0 ; always return "no error" + RTS - IMPORT ReadTime ;________________________________________________________________________________________ ; -; Routine: RTCReadTime +; Routine: EgretWriteTime +; +; Inputs: "Time" contains 32-bit quantity to write to clock +; +; Outputs: D0 - result code +; +; Trashes: A0 +; +; Function: writes a new time value to the realtime clock +;________________________________________________________________________________________ + +EgretWriteTime + CLR.L -(SP) ; pbCompletion = nil + LEA pbParam-pbCompletion(SP),SP + MOVE.L Time,(SP) ; pbParam = current time + + MOVE.W #(pseudopkt<<8)+\ ; pbCmdType = pseudo type + +(WrTime<<0),-(SP) ; pbCmd = write time + MOVEA.L SP,A0 ; point to the parameter block + _EgretDispatch ; call Egret to read the time + LEA EgretPBSize(SP),SP ; clean up the stack + RTS + + +;______________________________________________________________________________________ +; +; Routine: ExpMgrXParam (new code, seems not to be used) +; +; Inputs: A0 - pointer to user's buffer +; D0 - [number of bytes to transfer][starting PRAM address] +; D1 - bit 12: 1=read, 0=write +; +; Outputs: D0 - result code +; +; Trashes: A0,A1,A2,A3,D1,D2,D3 +; +; Function: reads/writes byte[s] from paramter RAM via the Expansion Manager +;______________________________________________________________________________________ + + IMPORT EXPANSIONBUSMGR_VEC0114, EXPANSIONBUSMGR_VEC0118 + +ExpMgrXParam + MOVEM.L D4-D7/A4,-(SP) + MOVE.L D0,D4 + ANDI.L #$FFFF,D0 + MOVE.L D0,-(SP) + MOVE.L D4,D0 + SWAP D0 + ANDI.L #$FFFF,D0 + MOVE.L D0,-(SP) + MOVE.L A0,-(SP) + + BTST #12,D1 + BNZ.S @read +@write JSR EXPANSIONBUSMGR_VEC0118 + BRA.S @endif +@read JSR EXPANSIONBUSMGR_VEC0114 +@endif + + OPT NONE + ADDA.W #12,SP + OPT ALL + MOVEM.L (SP)+,D4-D7/A4 + RTS + + +;______________________________________________________________________________________ +; +; Routine: NWRdXByte (glue for C code) +; +; Inputs: D1 - address of PRAM byte to read +; A1 - pointer to ProductInfo record for this machine +; A2 - VIA1 base address +; A3 - return address +; +; Outputs: D1 - byte read from PRAM +; D0 - ??? +; +; Function: reads a byte from RTC partition of NewWorld NVRAM +;______________________________________________________________________________________ + +NWRdXByte + MOVE.L D0,-(SP) + AND.L #$FF,D1 + MOVE.L D1,-(SP) + BSR.L NWReadNVRAM_C + ADDQ.L #4,SP + MOVE.L D0,D1 + MOVE.L (SP)+,D0 + JMP (A3) + + +;_____________________________________________________________________________________ +; +; Routine: NWWrXByte (glue for C code) +; +; Inputs: D1 - address of PRAM byte to write +; D2 - byte to write to PRAM +; A1 - pointer to ProductInfo record for this machine +; A2 - VIA1 base address +; A3 - return address +; +; Outputs: D0 - ??? +; +; Function: writes a byte to the RTC partition of NewWorld NVRAM +;_____________________________________________________________________________________ + +NWWrXByte + MOVE.L D0,-(SP) ; argument: why D0? + AND.L #$FF,D2 + MOVE.L D2,-(SP) ; argument: byte to write + AND.L #$FF,D1 + MOVE.L D1,-(SP) ; argument: PRAM address + BSR.L NWWriteNVRAM_C + ADDQ.L #8,SP + MOVE.L (SP)+,D0 ; return: again, why D0? + JMP (A3) + + +;______________________________________________________________________________________ +; +; Routine: NWReadTime (glue for C code) ; ; Inputs: none ; -; Outputs: D0 - result code -; "GetParam" contains the 32-bit time value read from the clock +; Outputs: "GetParam" contains the 32-bit time value read from the clock ; -; Trashes: A0,A2,A3,D1,D2,D4,D5, 8 bytes at "GetParam" -; -; Function: reads the time from the realtime clock -;________________________________________________________________________________________ - -RTCReadTime MOVEM.L A5/A6,-(SP) - MOVEA.L VIA,A2 ; get the VIA 1 base address for RTCClkNoMem - - MOVEQ #2-1,D4 ; try reading twice in case the time rolls over -@RetryLoop MOVEQ #$9D-256,D5 ; command to read the high byte of the time - LEA GetParam,A0 ; use clock utility storage - MOVEA.L A0,A3 ; and save a copy for later - -@ReadLoop MOVE.B D5,D1 ; get the command into D1 - BSR5 RTCClkNoMem ; read a byte of the time - MOVE.B D1,(A0)+ ; and save it - SUBQ.B #4,D5 ; next byte - BMI.S @ReadLoop ; -> keep looping until all 8 bytes are read - - MOVE.L (A3)+,D0 ; do the two reads of the time match? - SUB.L (A3)+,D0 - DBEQ D4,@RetryLoop ; -> keep looping if not, or for two tries - BEQ.S @Done ; -> no error +; Function: reads the time from the realtime clock via C code +;______________________________________________________________________________________ - MOVEQ #ClkRdErr,D0 ; note the problem -@Done MOVEM.L (SP)+,A5/A6 +NWReadTime + PEA GetParam + BSR.L NWReadTime_C + ADDQ.L #4,SP RTS -;________________________________________________________________________________________ +;______________________________________________________________________________________ ; -; Routine: RTCWriteTime +; Routine: NWWriteTime (glue for C code) ; ; Inputs: "Time" contains the 32-bit value to write to the clock ; -; Outputs: D0 - result code -; -; Trashes: A0,D1,D2,D3,D4,D5 -; -; Function: writes a new time value to the realtime clock -;________________________________________________________________________________________ - -RTCWriteTime - MOVEM.L D6/A2/A5/A6,-(SP) - MOVEA.L VIA,A2 ; get the VIA 1 base address for RTCClkNoMem - - BSR5 RTCWrProtOff ; write-enable the clock chip - - MOVEQ #2-1,D5 ; give it two tries - MOVE.L Time,D3 ; get the time to write - -@RetryLoop MOVEQ #$01,D6 ; command to write the low byte of the time - MOVEQ #4-1,D4 -@WriteLoop MOVE.L D3,D1 ; put the byte to write into the upper word - SWAP D1 - MOVE.B D6,D1 ; and the command in the lower word - BSR5 RTCClkNoMem ; write a byte of the time - ADDQ.B #4,D6 ; address the next register - ROR.L #8,D3 ; get the next byte - DBRA D4,@WriteLoop - - BIGJSR ReadTime,A0 ; read the time to verify it was written correctly - BNE.S @Done - CMP.L Time,D3 ; do they match? - DBEQ D5,@RetryLoop ; -> keep looping if not, or for two tries - BEQ.S @Done ; -> they match so we're done - MOVEQ #ClkWrErr,D0 ; note the error - -@Done MOVE.L D0,D3 ; save the result code - BSR5 RTCWrProtOn ; turn write-protect back on

- MOVE.L D3,D0 ; restore the result code - MOVEM.L (SP)+,D6/A2/A5/A6 - RTS - - -;________________________________________________________________________________________ -; -; Routine: RTCXParam -; -; Inputs: A0 - pointer to user's buffer -; D0 - [number of bytes to transfer][starting PRAM address] -; D1 - bit 12: 1=read, 0=write -; -; Outputs: D0 - result code -; -; Trashes: A0,A1,A2,A3,D1,D2,D3 -; -; Function: reads/writes byte[s] from RTC-based paramter RAM -;________________________________________________________________________________________ - -RTCXParam MOVEA.L A0,A3 ; get the pointer to the caller's buffer - MOVEA.L UnivInfoPtr,A1 ; point to the ProductInfo table

- MOVEA.L A1,A0 ; and to the decoder table

- ADDA.L ProductInfo.DecoderInfoPtr(A0),A0 - MOVE.L D0,D3 ; get the starting PRAM address and count - BTST #12,D1 ; is it a read or write? - BNE.S @ItsRead - BSET #31,D3 ; mark it as a write - -@ItsRead BSR.S StandardXPramIO ; go transfer the PRAM bytes

+; Function: writes a new time value to the realtime clock via C code +;______________________________________________________________________________________ - MOVEQ #0,D0 ; always return "no error" +NWWriteTime + MOVE.L Time,-(SP) + BSR.L NWWriteTime_C + ADDQ.L #4,SP RTS ;________________________________________________________________________________________ ; -; Routine: RTCRdXByte +; Routine: RdXByte (indirect via ProductInfo, cribbed from USTPram.a) ; -; Inputs: D1 - address of PRAM byte to read -; A1 - pointer to ProductInfo record for this machine +; Inputs: A1 - pointer to ProductInfo record for this machine ; A2 - VIA1 base address -; A3 - return address +; A6 - return address (BSR6) +; D1 - address of PRAM byte to read ; ; Outputs: D1 - byte read from PRAM ; -; Trashes: D0,D2,A5,A6 +; Trashes: A0,A3,A4,A5,A6,D0,D2 ; -; Function: reads a byte from RTC-based PRAM without using RAM +; Function: reads a byte of extended PRAM at the specified address ;________________________________________________________________________________________ -RTCRdXByte ANDI.W #$00FF,D1 ; [oooo oooo 7654 3210] - ASL.W #3,D1 ; [oooo o765 4321 0ooo] - ROR.B #1,D1 ; [oooo o765 o432 10oo] - ROR.W #8,D1 ; [o432 10oo oooo o765] - ORI.B #$B8,D1 ; [o432 10oo ioii i765] - - BSR5 RTCClkNoMem ; read the PRAM byte - - ANDI.W #$00FF,D1 ; zero-extend the byte - JMP (A3) - - -;________________________________________________________________________________________ -; -; Routine: RTCWrXByte -; -; Inputs: D1 - address of PRAM byte to write -; D2 - byte to write to PRAM -; A1 - pointer to ProductInfo record for this machine -; A2 - VIA1 base address -; A3 - return address -; -; Outputs: none -; -; Trashes: D0,D1,D2,A5,A6 -; -; Function: writes a byte to RTC-based PRAM without using RAM -;________________________________________________________________________________________ - -RTCWrXByte SWAP D1 ; copy the byte to write - MOVE.B D2,D1 ; to the upper word of D1 - SWAP D1 - - ANDI.W #$00FF,D1 ; [oooo oooo 7654 3210] - ASL.W #3,D1 ; [oooo o765 4321 0ooo] - ROR.B #1,D1 ; [oooo o765 o432 10oo] - ROR.W #8,D1 ; [o432 10oo oooo o765] - ORI.B #$38,D1 ; [o432 10oo ooii i765] - - MOVEA.L A3,A5 ; (fake out the return address) - BRA.S RTCClkNoMem ; write the PRAM byte - - -;________________________________________________________________________________________ -; -; Routine: RTCInitHW -; -; Inputs: A1 - pointer to ProductInfo record for this machine -; A6 - return address (BSR6) -; -; Outputs: none -; -; Trashes: D0,D1,D2,A0,A2,A5,A6 -; -; Function: initializes the RTC by taking it out of test mode -;________________________________________________________________________________________ - -RTCInitHW MOVEA.L A6,A0 ; save the return address - MOVEA.L A1,A2 ; point to the decoder info - ADDA.L ProductInfo.DecoderInfoPtr(A2),A2 - MOVEA.L DecoderInfo.VIA1Addr(A2),A2 ; get VIA 1's base address

- - BSR5 RTCWrProtOff ; write-enable the clock chip - - MOVEQ #(0<<16)+($31<<0),D1 ; write zero to test bit in clock chip - BSR5 RTCClkNoMem - - MOVEA.L A0,A5 ; restore the return address - - -;________________________________________________________________________________________ -; -; Routine: RTCWrProtOn [RTC utility routine] -; -; Inputs: A1 - pointer to ProductInfo record for this machine -; A2 - VIA1 base address -; A5 - return address (BSR5) -; -; Outputs: none -; -; Trashes: D0,D1,D2,A6 -; -; Function: write-protects RTC-based PRAM when we're done modifying it -;________________________________________________________________________________________ - -RTCWrProtOn MOVE.L #($D5<<16)+($35<<0),D1 ; use 'set write protect' command - BRA.S RTCClkNoMem ; write it to the clock chip +RdXByte MOVEA.L A1,A3 ; point to this machine's product info

+ ADDA.L ProductInfo.ClockPRAMPtr(A3),A3 ; and get the address of its clock/PRAM table

+ MOVE.L 4*cpRdXByte(A3),D0 ; get the offset to the routine

+ BEQ.S @NoEntry ; -> this function is not supported

+ ADDA.L D0,A3 ; calculate the routine's address

+ EXG A6,A3 ; save return address in A3, put routine's address in A6

+@NoEntry JMP (A6) ; and either call the routine or just return

;________________________________________________________________________________________ ; -; Routine: RTCWrProtOff [RTC utility routine] +; Routine: WrXByte (indirect via ProductInfo, cribbed from USTPram.a) ; ; Inputs: A1 - pointer to ProductInfo record for this machine ; A2 - VIA1 base address -; A5 - return address (BSR5) -; -; Outputs: none -; -; Trashes: D0,D1,D2,A6 -; -; Function: write-enables RTC-based PRAM so we can write bytes to it -;________________________________________________________________________________________ - -RTCWrProtOff - MOVE.L #($55<<16)+($35<<0),D1 ; use 'reset write protect' command -* BRA.S RTCClkNoMem ; write it to the clock chip - - -;________________________________________________________________________________________ -; -; Routine: RTCClkNoMem [RTC utility routine] -; -; Inputs: D1 - [x] [byte to write] [] [command (bit 7: 1=read, 0=write)] -; A2 - VIA1 base address -; A5 - return address (BSR5) -; -; Outputs: D1 - data byte read -; -; Trashes: D0,D1,D2,A6 -; -; Function: reads or writes one 8-bit clock register -;________________________________________________________________________________________ - -RTCClkNoMem MOVE SR,D2 ; save the SR - ORI #HiIntMask,SR ; and disable interrupts - SWAP D2 - - MOVE.B D1,D2 ; save a copy of the command - - BCLR #vRTCEnb,vBufB(A2) ; enable the clock - - MOVEQ #$78,D0 ; mask off the code bits - AND.B D1,D0 - CMPI.B #$38,D0 ; is this an extended command? - BNE.S @NotExtended ; -> nope - - BSR6 SendToClk ; send the first command byte - LSR.W #8,D1 ; move the second command byte into position - -@NotExtended - TST.B D2 ; is this a read or write command? - BMI.S @ItsRead ; -> read - - BSR6 SendToClk ; send the command byte - SWAP D1 ; get the data byte - BSR6 SendToClk ; and send it - BRA.S @Done - -@ItsRead BSR6 SendToClk ; send the command byte - BSR6 ReadFrClk ; and read the data byte - -@Done BSET #vRTCEnb,vBufB(A2) ; disable the clock - SWAP D2 - MOVE D2,SR ; re-enable interrupts - RTS5 - - -;________________________________________________________________________________________ -; -; Routine: SendToClk [RTC utility routine] -; -; Inputs: D1 - command/data byte to write to RTC -; A2 - VIA1 base address -; A6 - return address (BSR6) -; -; Outputs: none -; -; Trashes: D0,D1 -; -; Function: writes a command or data byte to the RTC (assumes interrupts masked to $2700) -;________________________________________________________________________________________ - -SendToClk MOVEQ #8-1,D0 ; shifting out 8 bits - -@ShiftLoop SWAP D0 ; save the count - MOVE.B vBufB(A2),D0 ; get the VIA register's contents - ROR.B #1,D0 ; shift the bits to position the RTC data bit (bit 0) - ADDX.B D1,D1 ; shift the next data bit into the extend bit - ADDX.B D0,D0 ; shift the data bit from the extend bit to the RTC data bit - MOVE.B D0,VBufB(A2) ; stuff it back into the VIA register - BCLR #vRTCClk,vBufB(A2) ; and clock the bit out - BSET #vRTCClk,vBufB(A2) - SWAP D0 ; get the bit counter back - DBRA D0,@ShiftLoop ; -> keep looping until all bits are shifted out - RTS6 - - -;________________________________________________________________________________________ -; -; Routine: ReadFrClk [RTC utility routine] -; -; Inputs: A2 - VIA1 base address -; A6 - return address (BSR6) -; -; Outputs: D1 - data byte read from RTC -; -; Trashes: D0 -; -; Function: reads a data byte from the RTC (assumes interrupts masked to $2700) -;________________________________________________________________________________________ - -ReadFrClk BCLR #vRTCData,vDirB(A2) ; set the RTC data bit's direction to input - MOVEQ #1,D1 ; initialize the result with a flag bit - -@ShiftLoop BCLR #vRTCClk,vBufB(A2) ; clock the next bit in - BSET #vRTCClk,vBufB(A2) - MOVE.B vBufB(A2),D0 ; read the register - LSR.B #vRTCData+1,D0 ; shift the RTC data bit into the carry/X - ADDX.B D1,D1 ; shift in the new bit towards the msb - BCC.S @ShiftLoop ; -> keep looping until the flag bit shifts out - - BSET #vRTCData,vDirB(A2) ; restore the RTC data bit's direction to output - RTS6 - - - ENDIF ; {hasVIAClock} - - - - IF hasPwrControls THEN -;••••••••••••••••••••••••••••••••••••• Power Manager •••••••••••••••••••••••••••••••••••• - WITH PMCommandRec - - IMPORT USTPmgrSendCommand, USTPMgrSendByte, USTPMGRRecvByte - -;________________________________________________________________________________________ -; -; Routine: PMGRReadTime -; -; Inputs: none -; -; Outputs: D0 - result code -; "GetParam" contains the 32-bit time value read from the clock -; -; Trashes: A0 -; -; Function: reads the time from the realtime clock -;________________________________________________________________________________________ - -PMGRReadTime - PEA GetParam ; pmRBuffer - MOVE.L (SP),-(SP) ; pmSBuffer (not used) - CLR.W -(SP) ; pmLength = 0 - MOVE.W #TimeRead,-(SP) ; pmCommand = read time - MOVE.L SP,A0 ; point to the parameter block - _PmgrOp ; read the time - LEA pmRBuffer+4(SP),SP ; clean up the stack - RTS - - -;________________________________________________________________________________________ -; -; Routine: PMGRWriteTime -; -; Inputs: "Time" contains 32-bit quantity to write to clock -; -; Outputs: D0 - result code -; -; Trashes: A0 -; -; Function: writes a new time value to the realtime clock -;________________________________________________________________________________________ - -PMGRWriteTime - PEA Time ; pmRBuffer (not used) - MOVE.L (SP),-(SP) ; pmSBuffer - MOVE.W #4,-(SP) ; pmLength = 4 bytes of time - MOVE.W #TimeWrite,-(SP) ; pmCommand = write time - MOVE.L SP,A0 ; point to the parameter block - _PmgrOp ; read the time - LEA pmRBuffer+4(SP),SP ; clean up the stack - RTS - - -;________________________________________________________________________________________ -; -; Routine: PMGRXParam -; -; Inputs: A0 - pointer to user's buffer -; D0 - [number of bytes to transfer][starting PRAM address] -; D1 - bit 12: 1=read, 0=write -; -; Outputs: D0 - result code -; -; Trashes: A0,A1,A2,D1,D2,D3 -; -; Function: reads/writes byte[s] from PMGR-based parameter RAM -;________________________________________________________________________________________ - -PMGRXParam MOVEA.L SP,A2 ; point to the current top of stack - MOVE.L D0,D2 ; - SWAP D2 ; D2.L=[starting PRAM address][count] - ADDQ.W #2+1,D2 ; make space on the stack for a buffer and 2 parameter bytes - BCLR #0,D2 ; and round up to the next word - SUBA.W D2,SP - MOVEA.L SP,A1 - - MOVE.L A0,-(SP) ; pmRBuffer - MOVE.L A1,-(SP) ; pmSBuffer - - MOVE.B D0,(A1)+ ; put the PRAM address - SWAP D0 - MOVE.B D0,(A1)+ ; and count at the start of the send buffer - - MOVEQ #xPramRead,D3 ; assume it's a read - MOVEQ #2,D2 ; - BTST #12,D1 ; is this a write command? - BNE.S @NoWrBuffer ; -> no - MOVEQ #xPramWrite,D3 - ADD.W D0,D2 ; adjust the count to include the bytes to be written - BRA.S @StartCopy -@CopyLoop MOVE.B (A0)+,(A1)+ ; copy the write buffer into the stack buffer -@StartCopy DBRA D0,@CopyLoop - -@NoWrBuffer MOVE.W D2,-(SP) ; pmLength - MOVE.W D3,-(SP) ; pmCommand - MOVEA.L SP,A0 - _PMgrOp ; have the PMGR read/write PRAM - - MOVEA.L A2,SP ; restore the stack pointer - RTS - - -;________________________________________________________________________________________ -; -; Routine: PMGRWrXByte -; -; Inputs: D1 - address of PRAM byte to write +; A6 - caller's return address (BSR6) +; D1 - address of PRAM byte to read ; D2 - byte to write to PRAM -; A1 - pointer to ProductInfo record for this machine -; A2 - VIA1 base address -; A3 - return address ; ; Outputs: none ; ; Trashes: A0,A3,A4,A5,A6,D0,D1,D2 ; -; Function: writes a byte to PMGR-based PRAM without using RAM +; Function: writes a byte of extended PRAM at the specified address ;________________________________________________________________________________________ -PMGRWrXByte MOVEA.L A3,A4 ; save the return address - - EXG D3,D1 ; save D3 in D1, put PRAM address in the upper word of D3 - SWAP D3 - EXG D4,D2 ; save D4 in D2, put data byte in the upper word of D4 - SWAP D4 - MOVE.L D6,D0 ; save D6 - - MOVE.W #(xPramWrite<<0)|\ ; pmCommand - (-1<<8),D3 ; pmLength = -1 (just send command byte) - - MOVEA.L A1,A0 ; point to the decoder table - ADDA.L ProductInfo.DecoderInfoPtr(A0),A0 - BigBSR6 USTPmgrSendCommand,A5 ; send the command to the PMGR - BNE.S @PMgrDone ; -> error - - MOVE.B #3,D3 ; send pmLength = 3 (address, count, data) - BigBSR5 USTPMgrSendByte,A6 - BNE.S @PMgrDone ; -> error - - SWAP D3 ; send the PRAM address - BigBSR5 USTPMgrSendByte,A6 - BNE.S @PMgrDone ; -> error - - MOVEQ #1,D3 ; send the PRAM byte count - BigBSR5 USTPMgrSendByte,A6 - BNE.S @PMgrDone ; -> error - - MOVE.L D4,D3 ; send the PRAM data byte - SWAP D3 - BigBSR5 USTPMgrSendByte,A6 - -@PMgrDone MOVE.L D1,D3 ; restore registers - MOVE.L D2,D4 - MOVE.L D0,D6 - JMP (A4) - - -;________________________________________________________________________________________ -; -; Routine: PMGRRdXByte -; -; Inputs: D1 - address of PRAM byte to read -; A1 - pointer to ProductInfo record for this machine -; A2 - VIA1 base address -; A3 - return address -; -; Outputs: D1 - byte read from PRAM -; -; Trashes: A0,A3,A4,A5,A6,D0,D2 -; -; Function: reads a byte from PMGR-based PRAM without using RAM -;________________________________________________________________________________________ - -PMGRRdXByte MOVEA.L A3,A4 ; save the return address - - EXG D3,D1 ; save D3 in D1, put command/data bytes in D3 - MOVE.L D4,D0 ; save other registers - MOVE.L D6,D2 - - ANDI.L #$000000FF,D3 ; mask the PRAM address and build the command: - ORI.L #(xPramRead<<16)|\ ; pmCommand - (2<<24)|\ ; pmLength - (1<<8),D3 ; count = 1 byte - SWAP D3 ; D1.L=[count][addr][pmLength][pmCommand] - - MOVEA.L A1,A0 ; point to the decoder table - ADDA.L ProductInfo.DecoderInfoPtr(A0),A0 - BigBSR6 USTPmgrSendCommand,A5 ; send the command to the PMGR - BNE.S @PMgrError ; -> error - - BigBSR5 USTPMGRRecvByte,A6 ; read a byte back - BNE.S @PMgrError ; -> error - CMPI.B #xPramRead,D3 ; is it the reply byte? - BNE.S @NoReplyByte ; -> no, new protocol - - BigBSR5 USTPMGRRecvByte,A6 ; read the count byte - BNE.S @PMgrError ; -> error -@NoReplyByte - BigBSR5 USTPMGRRecvByte,A6 ; read the PRAM byte - BEQ.S @PMgrDone ; -> got it - -@PMgrError MOVEQ #0,D3 ; return a zero if an error occurs -@PMgrDone EXG D1,D3 ; restore D3, return PRAM byte in D1 - MOVE.L D0,D4 ; restore other registers - MOVE.L D2,D6 - - TST.B D1 ; set up the CCR if anybody cares - JMP (A4) - - - ENDWITH ; {PMgrRec} - ENDIF ; {hasPwrControls} - - - - IF hasEgret THEN -;••••••••••••••••••••••••••••••••••••••••• Egret •••••••••••••••••••••••••••••••••••••••• - WITH EgretPB - -;________________________________________________________________________________________ -; -; Routine: EgretReadTime -; -; The one second interrupt handler for Egret/Caboose/Cuda maintains the lowmem global -; 'Time' in a self correcting manner. This routine need only return the lowmem 'Time'. -; A call to _EgretDispatch will cause the AutoPoll timer within Egret/Caboose/Cuda to -; reset, resulting in deferring ADB auto polling. If an application calls ReadTime -; in a tight loop, ADB polling could be deferred indefinitely (making the mouse/keyboard -; appear to hang or respond intermittently). Since 'Time' is self correcting, the -; routine just returns 'Time' as the result placed into 'GetParam'. -; -; Inputs: none -; -; Outputs: D0 - result code -; "GetParam" contains the 32-bit time value read from the clock -; -; Trashes: A0 -; -; Function: reads the time from the realtime clock -;________________________________________________________________________________________ - -EgretReadTime - clr.l d0 ; result code = noErr - move.l Time,GetParam ; return current time -; CLR.L -(SP) ; pbCompletion = nil -; LEA pbCmdType-pbCompletion(SP),SP ; -; MOVE.W #(pseudopkt<<8)+\ ; pbCmdType = pseudo type -; (RdTime<<0),(SP) ; pbCmd = read time -; MOVEA.L SP,A0 ; point to the parameter block -; _EgretDispatch ; call Egret to read the time -; MOVE.L pbParam(A0),GetParam ; move the time into a temporary buffer -; LEA EgretPBSize(SP),SP ; clean up the stack - - RTS - - -;________________________________________________________________________________________ -; -; Routine: EgretWriteTime -; -; Inputs: "Time" contains 32-bit quantity to write to clock -; -; Outputs: D0 - result code -; -; Trashes: A0 -; -; Function: writes a new time value to the realtime clock -;________________________________________________________________________________________ - -EgretWriteTime - CLR.L -(SP) ; pbCompletion = nil - LEA pbParam-pbCompletion(SP),SP - MOVE.L Time,(SP) ; pbParam = current time - - MOVE.W #(pseudopkt<<8)+\ ; pbCmdType = pseudo type - +(WrTime<<0),-(SP) ; pbCmd = write time - MOVEA.L SP,A0 ; point to the parameter block - _EgretDispatch ; call Egret to read the time - LEA EgretPBSize(SP),SP ; clean up the stack - RTS - - -;________________________________________________________________________________________ -; -; Routine: EgretXParam -; -; Inputs: A0 - pointer to user's buffer -; D0 - [number of bytes to transfer][starting PRAM address] -; D1 - bit 12: 1=read, 0=write -; -; Outputs: D0 - result code -; -; Trashes: A0 -; -; Function: reads/writes byte[s] from Egret-based parameter RAM -;________________________________________________________________________________________ - -EgretXParam CLR.L -(SP) ; pbCompletion = nil - SUBQ.W #pbCompletion-pbBufPtr,SP - MOVE.L A0,(SP) ; pbBufPtr = pointer to user's buffer - SWAP D0 - MOVE.W D0,-(SP) ; pbByteCnt = number of PRAM bytes to read/write - SUBQ.W #pbByteCnt-pbParam,SP - SWAP D0 - ADDI.W #$0100,D0 ;• convert PRAM address to 6805 address (temporary?) - MOVE.W D0,(SP) ; pbParam = starting PRAM address - MOVE.W #(pseudopkt<<8)+\ ; pbCmdType = pseudo type - (Rd6805Addr<<0),-(SP) ; pbCmd = read PRAM - BTST #12,D1 ; is this a write command? - BNE.S @NotWrite ; -> no - MOVE.W #(pseudopkt<<8)+\ ; pbCmdType = pseudo type - (Wr6805Addr<<0),(SP) ; pbCmd = write PRAM -@NotWrite MOVEA.L SP,A0 ; point to the parameter block - _EgretDispatch ; call Egret to read/write PRAM - LEA EgretPBSize(SP),SP ; clean up the stack - RTS - - -;________________________________________________________________________________________ -; -; Routine: EgretWrXByte -; -; Inputs: D1 - address of PRAM byte to write -; D2 - byte to write to PRAM -; A1 - pointer to ProductInfo record for this machine -; A2 - VIA1 base address -; A3 - return address -; -; Outputs: none -; -; Trashes: D0,D1,D2,A5,A6 -; -; Function: writes a byte to Egret-based PRAM without using RAM -;________________________________________________________________________________________ - -EgretWrXByte - SWAP D1 - MOVE.B D2,D1 ; save the byte to send - SWAP D1 - BSET #15,D1 ; mark this as a write - ; fall into EgretRdXByte - -;________________________________________________________________________________________ -; -; Routine: EgretRdXByte -; -; Inputs: D1 - address of PRAM byte to read -; A1 - pointer to ProductInfo record for this machine -; A2 - VIA1 base address -; A3 - return address -; -; Outputs: D1 - byte read from PRAM -; -; Trashes: D0,D2,A5,A6 -; -; Function: reads a byte from Egret-based PRAM without using RAM -;________________________________________________________________________________________ - -EgretRdXByte - BCLR #vSysSesbit,vBufB(A2) ; pending transaction? - BEQ.S @NotPending ; -> no - BSR5 EgretDelay ; wait a bit - BCLR #vViaFullBit,vBufB(A2) ; de-assert VIA full - BSR5 EgretDelay ; wait some more - BRA.S @NotPending - -@Abort BSR6 EgretReadByte ; too many bytes being returned so - BEQ.S @Abort ; keep throwing them out until there are no more, - BRA.S @Reset ; then start over - -@DisposePacket - BSR5 EgretDelay ; wait for the interrupt to occur - TST.B vSR(A2) ; then read the ATTN byte to clear the interrupt - -@Reset BCLR #vSysSesbit,vBufB(A2) ; turn off SYS session - BCLR #vViaFullBit,vBufB(A2) ; and de-assert VIA full - BCLR #SRdir,vACR(A2) ; define shift direction = FROM Egret - BSR5 EgretDelay ; wait - BRA.S @CheckXCVR - -@ThrowAway BSET #vSysSesbit,vBufB(A2) ; set SYS session - BSR6 EgretReadByte ; read a byte to throw away -@CheckXCVR BTST #vXcvrSesBit,vBufB(A2) ; is XCVR session asserted (active low)? - BEQ.S @ThrowAway ; -> yes, throw away the byte - BSR5 EgretDelay ; wait - -@NotPending ORI.B #ACRMode++(1< yes, dispose of the packet - - BSET #vSysSesbit,vBufB(A2) ; assert sys session signal - MOVEQ #pseudopkt,D0 ; packet type - BSR6 EgretSendByte - BMI.S @Reset ; -> Egret's hung, so try to reset - - BTST #vXcvrSesBit,vBufB(A2) ; is XCVR session asserted (active low)? - BEQ.S @Reset ; -> yes, throw out the packet - - MOVEQ #rdPram,D0 ; assume we're doing a read - TST.W D1 ; are we? - BPL.S @SendCmd - MOVEQ #wrPram,D0 ; no, we're writing -@SendCmd BSR6 EgretSendByte ; send the command byte - MOVEQ #0,D0 - BSR6 EgretSendByte ; send the MSB of the PRAM address - MOVE.B D1,D0 - BSR6 EgretSendByte ; send the LSB of the PRAM address - TST.W D1 ; are we writing? - BPL.S @SendDone - MOVE.L D1,D0 ; yes, get the data byte - SWAP D0 - BSR6 EgretSendByte ; and send it - -@SendDone BCLR #SRdir,vACR(A2) ; define shift direction = FROM Egret - BCLR #vSysSesbit,vBufB(A2) ; turn off SYS session - -@WaitForIRQ BTST #ifSR,vIFR(A2) ; wait for shift to complete - BEQ.S @WaitForIRQ - BTST #vXcvrSesBit,vBufB(A2) ; is XCVR session asserted (active low)? - BNE.S @WaitForIRQ ; -> no, keep polling until it is - - TST.B vSR(A2) ; read the ATTN byte to clear the interrupt - BSR5 EgretDelay ; wait - BSET #vSysSesbit,vBufB(A2) ; assert sys session again - - BSR6 EgretReadByte ; read the response packet type - BNE.S @Reset ; -> XCVR session turned off early, so try again - - BSR6 EgretReadByte ; read the response packet flag - BNE.S @Reset ; -> XCVR session turned off early, so try again - - TST.W D1 ; is this a read or write? - BPL.S @FinishRead ; -> read - - BSR6 EgretReadByte ; read the "command was" byte - BEQ.S @Abort ; -> XCVR session is still on, so try again - CMPI.B #wrPram,D0 ; is this the correct packet? - BNE.S @Reset ; -> no, try again - - BCLR #vSysSesbit,vBufB(A2) ; turn off SYS session - BCLR #vViaFullBit,vBufB(A2) ; and de-assert VIA full - BSR5 EgretDelay ; delay to let Egret see the lines change state - JMP (A3) - - -@FinishRead BSR6 EgretReadByte ; read the "command was" byte - BNE.S @Reset ; -> XCVR session turned off early, so try again - SUBQ.B #rdPram,D0 ; is this the correct packet? - BNE.S @Reset ; -> no, try again - - BSR6 EgretReadByte ; read the PRAM data byte - BCLR #vSysSesbit,vBufB(A2) ; turn off SYS session - -@Wait4XCVR BTST #vXcvrSesBit,vBufB(A2) ; wait for XCVR session to turn off - BEQ.S @Wait4XCVR - BCLR #vViaFullBit,vBufB(A2) ; de-assert VIA full - - BSR5 EgretDelay ; delay to let Egret see the lines change state - MOVE.B D0,D1 ; return the byte in D1 - JMP (A3) +WrXByte MOVEA.L A1,A3 ; point to this machine's product info

+ ADDA.L ProductInfo.ClockPRAMPtr(A3),A3 ; and get the address of its clock/PRAM table

+ MOVE.L 4*cpWrXByte(A3),D0 ; get the offset to the routine

+ BEQ.S @NoEntry ; -> this function is not supported

+ ADDA.L D0,A3 ; calculate the routine's address

+ EXG A6,A3 ; save return address in A3, put routine's address in A6

+@NoEntry JMP (A6) ; and either call the routine or just return

;________________________________________________________________________________________ ; -; Routine: EgretSendByte [Egret utility routine] +; Routine: ClkWPOff (indirect via ProductInfo, cribbed from USTPram.a) ; -; Inputs: D0 - byte to send to Egret +; Inputs: A1 - pointer to ProductInfo record for this machine ; A2 - VIA1 base address ; A6 - return address (BSR6) ; ; Outputs: none ; -; Trashes: D2,A5 -; -; Function: sends a byte to Egret -;________________________________________________________________________________________ - -EgretSendByte - MOVEA.L A6,A5 ; save the return address - MOVE.B D0,vSR(A2) ; load byte into shift register - BSET #vViaFullBit,vBufB(A2) ; indicate shift register is full - MOVE.W #32767,D0 ; set a 42msec timeout -@Wait4Shift BTST #ifSR,vIFR(A2) ; wait for shift to complete - DBNE D0,@Wait4Shift - BEQ.S EgretSendTO ; -> timed out - TST.B vSR(A2) ; clear the interrupt - BCLR #vViaFullBit,vBufB(A2) ; then negate VIA full bit - -; delay a bit so Egret can keep up... - -EgretDelay MOVEQ #104,D2 ; delay 125µs minimum (we actually delay 134µsec) -@wait TST.B (A2) ; sync to VIA clock (about 1.28µsec/access) - DBRA D2,@wait ; delay at least 100 us (very rough) -EgretSendTO TST.W D0 ; set CCR: BMI if send timeout, BPL if OK - RTS5 - - -;________________________________________________________________________________________ -; -; Routine: EgretReadByte [Egret utility routine] -; -; Inputs: A2 - VIA1 base address -; A6 - return address (BSR6) -; -; Outputs: D0 - byte read -; -; Trashes: D2,A5 -; -; Function: reads a byte from Egret -;________________________________________________________________________________________ - -EgretReadByte - BCLR #vViaFullBit,vBufB(A2) ; de-assert VIA full -@Wait4Shift BTST #ifSR,vIFR(A2) ; wait for shift to complete - BEQ.S @Wait4Shift - BSET #vViaFullBit,vBufB(A2) ; acknowlege byte - MOVE.B vSR(A2),D0 ; read the byte - BSR5 EgretDelay ; give Egret time to see it - BTST #vXcvrSesBit,vBufB(A2) ; return with the state of XCVR session - RTS6 - - -;________________________________________________________________________________________ -; -; Routine: CudaRdXByte -; -; Inputs: D1 - address of PRAM byte to read -; A1 - pointer to ProductInfo record for this machine -; A2 - VIA1 base address -; A3 - return address -; -; Outputs: D1 - byte read from PRAM -; -; Trashes: D0,D2,A5,A6 -; -; Function: reads a byte from Egret-based PRAM without using RAM -; -; This routine can only be executed after a SyncAck cycle. The SyncAck cycle, -; which is executed immediately after InitVia will disable all asynchronous -; message sources within Cuda. This allows the following routine to be written -; without regard to detecting collisions between command packets and response -; packets. AT NO TIME SHOULD AN ASYNCHRONOUS MESSAGE SOURCE BE ENABLED PRIOR -; TO USE OF THIS ROUTINE. ASYNCHRONOUS MESSAGE SOURCES SHOULD ONLY BE ENABLED -; AFTER THE CUDA MANAGER HAS BEEN INSTALLED. -;________________________________________________________________________________________ - -CudaRdXByte cmp.l #$8000,sp ; is there any stack yet? - ble.s @5 ; no, use register based - cmp.w #0,EgretBase - bne.s @5 - movec VBR,d2 ; get the contents of VBR - tst.l d2 ; check for zero - bne.s @5 - -; This code allows the low level routines to be used after the Cuda manager is installed -; by constructing a parameter block on the stack and issuing a call to CudaDispatch. This -; is absolutely necessary because the low level routines do not detect collisions which can -; occur once the Cuda manager is installed. Further, it is almost impossible to determine -; how to to synchronize Cuda after an asynchronous re-boot has occurred. - - movem.l a0-a6/d0/d2-d7,-(sp) - suba.l #EgretPBSize,sp ; make room on the stack for Cuda parameter block - move.b #pseudoPkt,pbCmdType(sp) ; set packet type - move.b #RdPram,pbCmd(sp) ; set packet command - move.w d1,pbParam(sp) ; set pram address - move.w #1,pbByteCnt(sp) ; 1 byte to send - move.l sp,pbBufPtr(sp) - add.l #pbParam+2,pbBufPtr(sp) ; point to our data buffer - move.b #0,pbFlags(sp) - move.w #0,pbResult(sp) - move.l #0,pbCompletion(sp) ; execute synchronously - move.l sp,a0 ; parameter block in a0 - _EgretDispatch ; (this is actually the Cuda A-Trap) - move.w pbParam+2(sp),d1 ; get pram data - adda.l #EgretPBSize,sp ; remove parameter block from stack - movem.l (sp)+,a0-a6/d0/d2-d7 - jmp (a3) - -; -; The following code is executed only when the Cuda manager is not installed. -; AT NO TIME SHOULD AN ASYNCHRONOUS MESSAGE SOURCE BE ENABLED PRIOR TO USE OF THIS ROUTINE. -; ASYNCHRONOUS MESSAGE SOURCES SHOULD ONLY BE ENABLED AFTER THE CUDA MANAGER HAS BEEN INSTALLED. -; -@5 - ori.b #ACRmode,vacr(a2) ; else initialize via mode - bset.b #SRdir,vACR(a2) ; set output mode - move.b #pseudopkt,vSR(a2) ; send packet type & clear any pending shift irq - bclr.b #TIP,vBufB(a2) ; start the transaction -@10 - btst.b #ifSR,vIFR(a2) ; Wait for shift register IRQ to indicate byte was read - beq.s @10 - -;________________________________________________________________________________________________ -; When outputing from the VIA to Cuda, the interrupt will occur prior to the rising edge -; of CB1. Delay long enough for the edge to occur before acknowledging the shift -; register interrupt. (R. Montagne 1/11/93) -;________________________________________________________________________________________________ - moveq #10,d2 ; delay for 10µS min. -@m7dly ; - tst.b vBufB(a1) ; hardware access is 1.2µS - sub.b #1,d2 ; can only trash low byte - bne.s @m7dly ; wait long enough for CB1 to rise (10µS delay) - tst.b vSR(a2) ; Clear the shift register IRQ - - moveq #rdpram,d2 ; Send the command byte - BSR6 CudaWriteByte - move.l d1,d2 - lsr.l #8,d2 ; Send PRAM address MSB - BSR6 CudaWriteByte - move.l d1,d2 ; Send PRAM address LSB - BSR6 CudaWriteByte - - bclr.b #SRdir,vACR(a2) ; Define direction FROM Cuda - btst.b #SRdir,vACR(a2) -@69up - bne.s @69up - - ori.b #((1<(rbm)<2> begin { - ble.s @5 ; no, use register based - cmp.w #0,EgretBase - bne.s @5 - movec vbr,d5 ; get a copy of VBR - tst.l d5 ; is it zero? - bne.s @5 - -; This code allows the low level routines to be used after the Cuda manager is installed -; by constructing a parameter block on the stack and issuing a call to CudaDispatch. This -; is absolutely necessary because the low level routines do not detect collisions which can -; occur once the Cuda manager is installed. Further, it is almost impossible to determine -; how to to synchronize Cuda after an asynchronous re-boot has occurred. - - movem.l a0-a6/d0/d3-d7,-(sp) - suba.l #EgretPBSize,sp ; make room on the stack for Cuda parameter block - move.b #pseudoPkt,pbCmdType(sp) ; set packet type - move.b #WrPram,pbCmd(sp) ; set packet command - move.w d1,pbParam(sp) ; set pram address - move.w d2,pbParam+2(sp) ; set pram data - move.w #1,pbByteCnt(sp) ; 1 byte to send - move.l sp,pbBufPtr(sp) - add.l #pbParam+2,pbBufPtr(sp) ; point to our data buffer - move.b #0,pbFlags(sp) - move.w #0,pbResult(sp) - move.l #0,pbCompletion(sp) ; execute synchronously - move.l sp,a0 ; parameter block in a0 - _EgretDispatch ; (this is actually the Cuda A-Trap) - adda.l #EgretPBSize,sp ; remove parameter block from stack - movem.l (sp)+,a0-a6/d0/d3-d7 - jmp (a3) - -; The following code is executed only when the Cuda manager is not installed. -; AT NO TIME SHOULD AN ASYNCHRONOUS MESSAGE SOURCE BE ENABLED PRIOR TO USE OF THIS ROUTINE. -; ASYNCHRONOUS MESSAGE SOURCES SHOULD ONLY BE ENABLED AFTER THE CUDA MANAGER HAS BEEN INSTALLED. - -@5 move.l d2,d5 ; Save the write data - - ori.b #ACRmode,vacr(a2) ; else initialize via mode - bset.b #SRdir,vACR(a2) ; set output mode - move.b #pseudopkt,vSR(a2) ; send packet type & clear any pending shift irq - bclr.b #TIP,vBufB(a2) ; start the transaction -@10 - btst.b #ifSR,vIFR(a2) ; Wait for shift register IRQ to indicate byte was read - beq.s @10 -;________________________________________________________________________________________________ -; When outputing from the VIA to Cuda, the interrupt will occur prior to the rising edge -; of CB1. Delay long enough for the edge to occur before acknowledging the shift -; register interrupt. (R. Montagne 1/11/93) -;________________________________________________________________________________________________ - move.b #10,d2 ; mode 7 interrupt occurs at falling edge CB1 -@m7dly ; - tst.b vBufB(a1) ; hardware access is 1.2µS - sub.b #1,d2 ; can only trash low byte - bne.s @m7dly ; wait long enough for CB1 to rise (10µS delay) - tst.b vSR(a2) ; Clear the shift register IRQ - - moveq #wrpram,d2 ; Send the command byte - BSR6 CudaWriteByte - move.l d1,d2 - lsr.l #8,d2 ; Send PRAM address MSB - BSR6 CudaWriteByte - move.l d1,d2 ; Send PRAM address LSB - BSR6 CudaWriteByte - move.l d5,d2 ; Send the write data - BSR6 CudaWriteByte - - bclr.b #SRdir,vACR(a2) ; Define direction FROM Cuda - - ori.b #((1< -@m7dly ; - tst.b vBufB(a1) ; hardware access is 1.2µS - sub.b #1,d2 ; can only trash low byte - bne.s @m7dly ; wait long enough for CB1 to rise (10µS delay) - tst.b vSR(a2) ; Clear the shift register IRQ - RTS6 - -;--------------------------------------------------------------------------- - - EXPORT CudaReadByte -CudaReadByte - btst.b #ifSR,vIFR(a2) ; Wait for IRQ - beq.s CudaReadByte - move.b vSR(a2),d2 ; Read data from VIA (clears IRQ) - and.w #$00FF,d2 ; isolate the byte - eori.b #1<(rbm)<2> end } - RTS6 - - - ENDWITH ; {EgretPB} - ENDIF ; {hasEgret} - - - - IF hasProtectedPRAM THEN -; •••••••••••••••••••••••• PRAM in VRAM, clock is someplace else •••••••••••••••••••••••• - WITH ProductInfo, VideoInfo - -;________________________________________________________________________________________ -; -; Routine: NoPRAMReadTime -; -; Inputs: none -; -; Outputs: D0 - result code -; "GetParam" contains the 32-bit time value read from the clock -; -; Trashes: TBD -; -; Function: Would read the time from the clock if we knew what kind it was. This routine -; is provided as an aid to the person who has to code for this case. -;________________________________________________________________________________________ - -NoPRAMReadTime - MOVEQ #dsCoreErr,D0 ; just die so we know something didn't happen - _SysError - MOVEQ #clkRdErr,D0 ; and leave this as a clue to why - RTS - - -;________________________________________________________________________________________ -; -; Routine: NoPRAMWriteTime -; -; Inputs: "Time" contains 32-bit quantity to write to clock -; -; Outputs: D0 - result code -; -; Trashes: TBD -; -; Function: Would write the time to the clock if we knew what kind it was. This routine -; is provided as an aid to the person who has to code for this case. -;________________________________________________________________________________________ - -NoPRAMWriteTime - MOVEQ #dsCoreErr,D0 ; just die so we know something didn't happen - _SysError - MOVEQ #clkWrErr,D0 ; and leave this as a clue to why - RTS - - -;________________________________________________________________________________________ -; -; Routine: NoPRAMXParam -; -; Inputs: A0 - pointer to user's buffer -; D0 - [number of bytes to transfer][starting PRAM address] -; D1 - bit 12: 1=read, 0=write -; -; Outputs: D0 - result code -; -; Trashes: A0,A1,A2,D1,D2,D3 -; -; Function: reads/writes byte[s] from parameter RAM that hides in unused video RAM -; (assumes that traps and the MMU are set up) -;________________________________________________________________________________________ - -NoPRAMXParam - MOVEA.L A0,A2 ; save the pointer to the user's buffer, - MOVE.L D0,D3 ; and the starting PRAM address and count - - MOVEQ #true32b,D0 ; switch into 32-bit addressing mode - _SwapMMUMode - - MOVEA.L UnivInfoPtr,A1 ; point to this machine's product info, - ADDA.L VideoInfoPtr(A1),A1 ; which leads to video info, - MOVEA.L VRAMPhysAddr(A1),A1 ; which leads to the base address of video, - LEA -256(A1),A1 ; which leads to PRAM in unused video memory - ADD.W D3,A1 ; index into start of desired PRAM - SWAP D3 ; get the number of bytes to transfer - BTST #12,D1 ; is it a write? - BNE.S @StartCopy ; -> no - EXG A1,A2 ; yes, exchange source and destination pointers - BRA.S @StartCopy - -@CopyPRAM MOVE.B (A1)+,(A2)+ ; move the bytes -@StartCopy DBRA D3,@CopyPRAM - - _SwapMMUMode ; restore the addressing mode - MOVEQ #0,D0 ; never an error - RTS - - -;________________________________________________________________________________________ -; -; Routine: NoPRAMXPramIO -; -; Inputs: A0 -- pointer to table of base addresses -; A1 -- pointer to ProductInfo record for this machine -; A3 -- pointer to PRAM I/O buffer -; D1 -- flags indicating which external features are valid -; D3 -- [r/w (bit 31)][number of PRAM bytes to read/write][starting PRAM address] -; -; Outputs: none -; -; Trashes: A2,A3,D3 -; -; Function: reads/writes byte[s] from parameter RAM that hides in unused video RAM -; before traps (or the MMU) are set up -;________________________________________________________________________________________ - -NoPRAMXPramIO - MOVEA.L A1,A2 ; point to this machine's product info, - ADDA.L VideoInfoPtr(A2),A2 ; which leads to video info, - MOVEA.L VRAMPhysAddr(A2),A2 ; which leads to the base address of video, - LEA -256(A2),A2 ; which leads to PRAM in unused video memory - ADD.W D3,A2 ; index into start of desired PRAM - SWAP D3 ; get the number of bytes to transfer - BCLR #15,D3 ; is it a write? - BEQ.S @StartCopy ; -> no - EXG A2,A3 ; yes, exchange source and destination pointers - BRA.S @StartCopy - -@CopyPRAM MOVE.B (A2)+,(A3)+ ; move the bytes -@StartCopy DBRA D3,@CopyPRAM - RTS - - -;________________________________________________________________________________________ -; -; Routine: NoPRAMRdXByte -; -; Inputs: D1 - address of PRAM byte to read -; A1 - pointer to ProductInfo record for this machine -; A2 - VIA1 base address -; A3 - return address -; -; Outputs: D1 - byte read from PRAM -; -; Trashes: A0,D0 -; -; Function: reads a byte from parameter RAM that hides in unused video RAM without using RAM -;________________________________________________________________________________________ - -NoPRAMRdXByte - MOVEA.L A1,A0 ; point to this machine's product info, - ADDA.L VideoInfoPtr(A0),A0 ; which leads to video info, - MOVEA.L VRAMPhysAddr(A0),A0 ; which leads to the base address of video, - LEA -256(A0),A0 ; which leads to PRAM in unused video memory - MOVEQ #0,D0 - MOVE.B D1,D0 ; zero-extend the byte number to make an index - MOVE.B 0(A0,D0),D1 ; and get the byte - JMP (A3) - - -;________________________________________________________________________________________ -; -; Routine: NoPRAMWrXByte -; -; Inputs: D1 - address of PRAM byte to write -; D2 - byte to write to PRAM -; A1 - pointer to ProductInfo record for this machine -; A2 - VIA1 base address -; A3 - return address -; -; Outputs: none -; -; Trashes: A0,D0 +; Trashes: D0,D1,D2,A0,A5,A6 ; -; Function: writes a byte to parameter RAM that hides in unused video RAM without using RAM +; Function: write-enables the clock chip if supported by the clock implementation ;________________________________________________________________________________________ -NoPRAMWrXByte - MOVEA.L A1,A0 ; point to this machine's product info, - ADDA.L VideoInfoPtr(A0),A0 ; which leads to video info, - MOVEA.L VRAMPhysAddr(A0),A0 ; which leads to the base address of video, - LEA -256(A0),A0 ; which leads to PRAM in unused video memory - MOVEQ #0,D0 - MOVE.B D1,D0 ; zero-extend the byte number to make an index - MOVE.B D2,0(A0,D0) ; and write the byte - JMP (A3) - - - ENDWITH ; {ProductInfo, VideoInfo} - ENDIF ; {hasProtectedPRAM} - - -; •••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••• - - -;________________________________________________________________________________________ -; -; Routine: ClkNoMem -; -; Inputs: A1 - VIA 1 base address -; A5 - return address (BSR5) -; D1 - clock chip command byte (bit 7: 0=write, 1=read) -; D2 - data byte to write -; -; Outputs: D2 - data byte read -; -; Trashes: A0,A1,A5,A6,D1,D3 -; -; Function: support for the jClkNoMem vector (do we still need this?) -;________________________________________________________________________________________ - - EXPORT ClkNoMem -ClkNoMem RTS5 -;________________________________________________________________________________________ thru next -; These patches change the behavior of StandardXPramIO so that during a multi-byte -; write to PRAM, interrupts are disabled and re-enabled around the write of each byte, -; and the RTC is write-enabled and then write-protected again during the time that -; interrupts are off. This fixes a problem where the Reliability Manager's interrupt -; task, which calls this routine to write to PRAM every 5 minutes, interrupts during -; this loop, resulting in PRAM being left write-protected; when control returns to the -; foreground, remaining bytes to be written to PRAM don't get written. -; -; Monte Benaresh - 7/2/93 -;________________________________________________________________________________________ +ClkWPOff MOVEA.L A1,A5 ; point to this machine's product info

+ ADDA.L ProductInfo.ClockPRAMPtr(A5),A5 ; and get the address of its clock/PRAM table

+ MOVE.L 4*cpWrProtOff(A5),D0 ; get the offset to the routine

+ BEQ.S @NoEntry ; -> this function is not supported

+ ADDA.L D0,A5 ; calculate the routine's address

+ EXG A6,A5 ; save return address in A5, put routine's address in A6

+@NoEntry JMP (A6) ; and either call the routine or just return

-StdXPRAM2Patch ; patch for StandardXPramIO - MOVEA.L A1,A6 ; point to this machine's product info - ADDA.L ProductInfo.ClockPRAMPtr(A6),A6 ; and get the address of its clock/PRAM table - MOVE.L 4*cpWrProtOn(A6),D0 ; get the offset to the write-protect routine - BEQ.S @Done ; -> it's not supported for this implementation - ADDA.L D0,A6 ; calculate the routine's address - movea.l (sp)+,A5 ; simulate a BSR5 which returns to our caller - JMP (A6) ; and call it to turn on PRAM write-protect -@Done - rts ; END diff --git a/OS/IoPrimitives/IOPrimitives.make b/OS/IoPrimitives/IOPrimitives.make --- a/OS/IoPrimitives/IOPrimitives.make +++ b/OS/IoPrimitives/IOPrimitives.make @@ -16,10 +16,9 @@ -IOPrimitivesObjs = "{ObjDir}PowerMgrPrimitives.a.o" ∂ - "{ObjDir}ImmgPrimitives.a.o" ∂ - "{ObjDir}ADBPrimitives.a.o" ∂ +IOPrimitivesObjs = "{ObjDir}ADBPrimitives.a.o" ∂ "{ObjDir}ClockPRAMPrimitives.a.o" ∂ + "{ObjDir}NVRAMPrimitives.c.o" ∂ "{ObjDir}backlightprim.a.o" ∂ "{ObjDir}backlightinput.c.o" ∂ "{ObjDir}backlightcpu.c.o" ∂ diff --git a/OS/IoPrimitives/PowerMgrPrimitives.a b/OS/IoPrimitives/PowerMgrPrimitives.a --- a/OS/IoPrimitives/PowerMgrPrimitives.a +++ b/OS/IoPrimitives/PowerMgrPrimitives.a @@ -148,7 +148,6 @@ PRINT OFF LOAD 'StandardEqu.d' INCLUDE 'HardwarePrivateEqu.a' - INCLUDE 'SoundPrivate.a' INCLUDE 'UniversalEqu.a' INCLUDE 'PowerPrivEqu.a' INCLUDE 'PowerMgrDispatchEqu.a' diff --git a/OS/IoPrimitives/SndPrimitives.a b/OS/IoPrimitives/SndPrimitives.a --- a/OS/IoPrimitives/SndPrimitives.a +++ b/OS/IoPrimitives/SndPrimitives.a @@ -153,7 +153,6 @@ print off LOAD 'StandardEqu.d' include 'HardwarePrivateEqu.a' - include 'SoundPrivate.a' include 'UniversalEqu.a' include 'PowerPrivEqu.a' include 'EgretEqu.a' @@ -167,54 +166,7 @@ -;_________________________________________________________________________________________ -; Install Sound Primitives routines into ExpandMem vector - - InstallSndPrimitives proc export - WITH DecoderInfo,DecoderKinds,ProductInfo,SoundIOHeader,ExpandMemRec - WITH SleepqRec,pmCommandRec,PmgrRec - - IMPORT ClearSoundInt ; InterruptHandlers.a - IMPORT DisableSoundInts ; InterruptHandlers.a - IMPORT EnableSoundInts ; InterruptHandlers.a - IMPORT GetHardwareInfo ; Universal.a - IMPORT RDXBYTE ; USTPram.a - - EXPORT InitSndHW, InitSndNoRAM - - -; Convert ROM sound primitive offset table into a RAM pointer table. - - movea.l UnivInfoPtr,a1 ; a1 = ptr to productinfo record - move.l ProductInfo.SndControlPtr(a1),d0 ; get offset to sound vector tbl - adda.l d0,a1 ; a1 = ptr to ROM tbl - moveq.l #0,d0 ; clear d0 - move.w SndTblLength(a1),d0 ; d0 = number of entries in table - asl.l #2,d0 ; convert long entries to byte count - addq.l #SoundIOHeaderSize,d0 ; size of global header records - _NewPtr ,sys,clear ; alloc storage - - adda.l #SoundIOHeaderSize,a0 ; inc past global header - move.l a0,([Expandmem],\ - ExpandMemRec.emSndPrimitives) ; set the expandmem pointer - - move.b #sndAGCOff,UserAGC(a0) ; init AGC off as default - -; Convert the offset values in the original table to long addresses in the RAM-based -; table. a0 = ptr to new RAM-based tbl, a1 = ptr to old ROM table - - move.w SndTblLength(a1),d0 ; get number of entries in table - subq.w #1,d0 ; adjust for dbra - move.l a1,d1 ; d1 = address of ROM/RAM table -@Loop - move.l (a1)+,(a0) ; get routine offset - add.l d1,(a0)+ ; add ROM/RAM table address to convert to 32 bit address - dbra d0,@Loop - - moveq.l #1,d0 ; default all cpu's with AGC on - jsrTBL sndAGCcontrol - rts ;_________________________________________________________________________________________ @@ -228,1856 +180,40 @@ InstallSndPrimitives proc export align 4 - IF hasVISADecoder THEN - Export SndCntlClassicII,SndCntlLC - dc.w 0 ; flags - dc.w (SndCntlClassicIIEnd-SndCntlClassicII)/4 ; number of entries -SndCntlLC ; -SndCntlClassicII - dc.l ElsieDFACInit-SndCntlClassicII - dc.l EgretDFACSend-SndCntlClassicII - dc.l ASCSetVol-SndCntlClassicII - dc.l EnableSoundInts-SndCntlClassicII - dc.l DisableSoundInts-SndCntlClassicII - dc.l ClearSoundInt-SndCntlClassicII - dc.l ElsieInputSelect-SndCntlClassicII - dc.l QueryInput-SndCntlClassicII - dc.l ByPassControl-SndCntlClassicII - dc.l PlayThruVol-SndCntlClassicII - dc.l AGCControl-SndCntlClassicII - dc.l ASCInitSoundHW-SndCntlClassicII ; -SndCntlClassicIIEnd - ENDIF - - IF hasMDU THEN - Export SndCntlMacIIsi ; PN.start - dc.w 0 ; flags PN - dc.w (SndCntlMacIIsiEnd-SndCntlMacIIsi)/4 ; number of entries PN -SndCntlMacIIsi - dc.l ElsieDFACInit-SndCntlMacIIsi - dc.l EgretDFACSend-SndCntlMacIIsi - dc.l ASCSetVol-SndCntlMacIIsi - dc.l EnableSoundInts-SndCntlMacIIsi - dc.l DisableSoundInts-SndCntlMacIIsi - dc.l ClearSoundInt-SndCntlMacIIsi - dc.l InputSelect-SndCntlMacIIsi - dc.l QueryInput-SndCntlMacIIsi - dc.l ByPassControl-SndCntlMacIIsi - dc.l PlayThruVol-SndCntlMacIIsi - dc.l AGCControl-SndCntlMacIIsi - dc.l ASCInitSoundHW-SndCntlMacIIsi ; PN.end -SndCntlMacIIsiEnd - ENDIF - - - IF hasOrwell THEN - Export SndCntlQuadra900 - dc.w 0 ; flags - dc.w (SndCntlQuadra900End-SndCntlQuadra900)/4 ; number of entries -SndCntlQuadra900 -SndCntlQuadra950 - dc.l EclipseDFACInit-SndCntlQuadra900 - dc.l EgretDFACSend-SndCntlQuadra900 ; - dc.l ASCSetVol-SndCntlQuadra900 - dc.l EnableSoundInts-SndCntlQuadra900 - dc.l DisableSoundInts-SndCntlQuadra900 - dc.l ClearSoundInt-SndCntlQuadra900 - dc.l EclipseInputSelect-SndCntlQuadra900 ; - dc.l QueryInput-SndCntlQuadra900 - dc.l ByPassControl-SndCntlQuadra900 - dc.l PlayThruVol-SndCntlQuadra900 - dc.l AGCControl-SndCntlQuadra900 - dc.l BatmanInitSoundHW-SndCntlQuadra900 -SndCntlQuadra900End - - Export SndCntlQuadra700 - dc.w 0 ; flags - dc.w (SndCntlQuadra700End-SndCntlQuadra700)/4 ; number of entries -SndCntlQuadra700 - dc.l SpikeDFACInit-SndCntlQuadra700 - dc.l VIA2DFACSend-SndCntlQuadra700 - dc.l ASCSetVol-SndCntlQuadra700 - dc.l EnableSoundInts-SndCntlQuadra700 - dc.l DisableSoundInts-SndCntlQuadra700 - dc.l ClearSoundInt-SndCntlQuadra700 - dc.l InputSelect-SndCntlQuadra700 ; - dc.l QueryInput-SndCntlQuadra700 - dc.l ByPassControl-SndCntlQuadra700 - dc.l PlayThruVol-SndCntlQuadra700 - dc.l AGCControl-SndCntlQuadra700 - dc.l BatmanInitSoundHW-SndCntlQuadra700 ; -SndCntlQuadra700End - ENDIF - - - IF hasJaws THEN - Export SndCntlPB170 - dc.w 0 ; flags - dc.w (SndCntlPB170End-SndCntlPB170)/4 ; number of entries -SndCntlPB170 - dc.l TimDFACInit-SndCntlPB170 - dc.l VIA2DFACSend-SndCntlPB170 - dc.l TimPlayBackVol-SndCntlPB170 - dc.l EnableSoundInts-SndCntlPB170 - dc.l DisableSoundInts-SndCntlPB170 - dc.l ClearSoundInt-SndCntlPB170 - dc.l TIMInputSelect-SndCntlPB170 ; - dc.l QueryInput-SndCntlPB170 - dc.l ByPassControl-SndCntlPB170 - dc.l PlayThruVol-SndCntlPB170 - dc.l AGCControl-SndCntlPB170 - dc.l JawsInitSoundHW-SndCntlPB170 ; -SndCntlPB170End - ENDIF - - - IF hasNiagra THEN - Export SndCntlPB180 - dc.w 0 ; flags - dc.w (SndCntlPB180End-SndCntlPB180)/4 ; number of entries -SndCntlPB180 ; - dc.l DartDFACInit-SndCntlPB180 - dc.l VIA2DFACSend-SndCntlPB180 - dc.l TimPlayBackVol-SndCntlPB180 - dc.l EnableSoundInts-SndCntlPB180 - dc.l DisableSoundInts-SndCntlPB180 - dc.l ClearSoundInt-SndCntlPB180 - dc.l DartInputSelect-SndCntlPB180 ; - dc.l DartQueryInput-SndCntlPB180 ; - dc.l ByPassControl-SndCntlPB180 - dc.l DartPlayThruVol-SndCntlPB180 ; - dc.l AGCControl-SndCntlPB180 - dc.l NiagraInitSoundHW-SndCntlPB180 ; -SndCntlPB180End - ENDIF - - - IF hasMSC THEN - Export SndCntlPBDuo210 - dc.w 0 ; flags - dc.w (SndCntlPBDuo210End-SndCntlPBDuo210)/4 ; number of entries -SndCntlPBDuo210 - dc.l DBLiteDFACInit-SndCntlPBDuo210 - dc.l DBLiteDFACSend-SndCntlPBDuo210 - dc.l DBLiteSetVol-SndCntlPBDuo210 ; - dc.l EnableSoundInts-SndCntlPBDuo210 - dc.l DisableSoundInts-SndCntlPBDuo210 - dc.l ClearSoundInt-SndCntlPBDuo210 - dc.l DBInputSelect-SndCntlPBDuo210 ;

- dc.l QueryInput-SndCntlPBDuo210 - dc.l ByPassControl-SndCntlPBDuo210 - dc.l PlayThruVol-SndCntlPBDuo210 - dc.l AGCControl-SndCntlPBDuo210 - dc.l ASCInitSoundHW-SndCntlPBDuo210 ; -SndCntlPBDuo210End ; - - Export SndCntlYeager ; - dc.w 0 ; flags - dc.w (SndCntlYeagerEnd-SndCntlYeager)/4 ; number of entries -SndCntlYeager - dc.l DBLiteDFACInit-SndCntlYeager ; (sndDFACInit) - dc.l DBLiteDFACSend-SndCntlYeager ; (sndDFACSend) - dc.l DBLiteSetVol-SndCntlYeager ; (sndPlaybackVol) - dc.l EnableSoundInts-SndCntlYeager ; (sndEnableInt) - dc.l DisableSoundInts-SndCntlYeager ; (sndDisableInt) - dc.l ClearSoundInt-SndCntlYeager ; (sndClearInt) - dc.l DBInputSelect-SndCntlYeager ; (sndInputSelect) - dc.l QueryInput-SndCntlYeager ; (sndInputSource) - dc.l ByPassControl-SndCntlYeager ; (sndAuxByPass) - dc.l PlayThruVol-SndCntlYeager ; (sndPlayThruVol) - dc.l AGCControl-SndCntlYeager ; (sndAGCcontrol) - dc.l ASCInitSoundHW-SndCntlYeager ; (sndInitSoundHW) - dc.l DoNothing-SndCntlYeager ; (sndInitGlobals) - dc.l DoNothing-SndCntlYeager ; (sndModemSound) - dc.l DoNothing-SndCntlYeager ; (sndModemSndVol) - dc.l DoNothing-SndCntlYeager ; (sndGetSmplRate) - dc.l DoNothing-SndCntlYeager ; (sndSetSmplRate) - dc.l DoNothing-SndCntlYeager ; (sndGetInputGain) - dc.l DoNothing-SndCntlYeager ; (sndSetInputGain) - dc.l DoNothing-SndCntlYeager ; (sndPlayThruCntl) - dc.l DoNothing-SndCntlYeager ; (sndSoundHWCntl) - dc.l DoNothing-SndCntlYeager ; (sndSoundHWState) - dc.l DoNothing-SndCntlYeager ; (sndVirtualHWHook) -SndCntlYeagerEnd ; - ENDIF - - IF hasDJMEMC THEN - EXPORT SndCntlQuadra800 - dc.w 0 ; flags - dc.w (SndCntlQuadra800End-SndCntlQuadra800)/4; number of entries -SndCntlQuadra800 - dc.l SpikeDFACInit-SndCntlQuadra800 - dc.l VIA2DFACSend-SndCntlQuadra800 - dc.l ASCSetVol-SndCntlQuadra800 - dc.l EnableSoundInts-SndCntlQuadra800 - dc.l DisableSoundInts-SndCntlQuadra800 - dc.l ClearSoundInt-SndCntlQuadra800 - dc.l InputSelect-SndCntlQuadra800 - dc.l QueryInput-SndCntlQuadra800 - dc.l ByPassControl-SndCntlQuadra800 - dc.l PlayThruVol-SndCntlQuadra800 - dc.l AGCControl-SndCntlQuadra800 - dc.l DJMEMCInitSoundHW-SndCntlQuadra800 ; -SndCntlQuadra800End - ENDIF - - IF hasPratt THEN - Export SndCntlBlackbird - dc.w 0 ; flags (SuperMario style table) - dc.w (SndCntlBlackEnd-SndCntlBlackbird)/4 ; number of entries -SndCntlBlackbird - dc.l DoNothingViaA6-SndCntlBlackbird ; (sndDFACInit) - dc.l DoNothing-SndCntlBlackbird ; (sndDFACSend) - dc.l ASCSetVol-SndCntlBlackbird ; (sndPlaybackVol) - dc.l EnableSoundInts-SndCntlBlackbird ; (sndEnableInt) - dc.l DisableSoundInts-SndCntlBlackbird ; (sndDisableInt) - dc.l ClearSoundInt-SndCntlBlackbird ; (sndClearInt) - dc.l DoNothing-SndCntlBlackbird ; (sndInputSelect) - dc.l DoNothing-SndCntlBlackbird ; (sndInputSource) - dc.l DoNothing-SndCntlBlackbird ; (sndAuxByPass) - dc.l DoNothing-SndCntlBlackbird ; (sndPlayThruVol) - dc.l DoNothing-SndCntlBlackbird ; (sndAGCcontrol) - dc.l WhitneyInitSoundHW-SndCntlBlackbird ; (sndInitSoundHW) - dc.l DoNothing-SndCntlBlackbird ; (dontUse1) - dc.l DoNothing-SndCntlBlackbird ; (dontUse2) - dc.l DoNothing-SndCntlBlackbird ; (dontUse3) - dc.l DoNothing-SndCntlBlackbird ; (sndInitSoundHW2) - dc.l DoNothing-SndCntlBlackbird ; (sndInitGlobals) - dc.l DoNothing-SndCntlBlackbird ; (sndModemSound) - dc.l DoNothing-SndCntlBlackbird ; (sndModemSndVol) - dc.l DoNothing-SndCntlBlackbird ; (sndGetSmplRate) - dc.l DoNothing-SndCntlBlackbird ; (sndSetSmplRate) - dc.l DoNothing-SndCntlBlackbird ; (sndGetInputGain) - dc.l DoNothing-SndCntlBlackbird ; (sndSetInputGain) - dc.l DoNothing-SndCntlBlackbird ; (sndPlayThruCntl) - dc.l DoNothing-SndCntlBlackbird ; (sndSoundHWCntl) - dc.l DoNothing-SndCntlBlackbird ; (sndSoundHWState) - dc.l DoNothing-SndCntlBlackbird ; (sndVirtualHWHook) -SndCntlBlackEnd - ENDIF - - IF hasSonora THEN - Export SndCntlSonora - dc.w 0 ; flags - dc.w (SndCntlSonoraEnd-SndCntlSonora)/4 ; number of entries -SndCntlSonora - dc.l SonoraDFACInit-SndCntlSonora - dc.l EgretDFACSend-SndCntlSonora - dc.l ASCSetVol-SndCntlSonora - dc.l EnableSoundInts-SndCntlSonora - dc.l DisableSoundInts-SndCntlSonora - dc.l ClearSoundInt-SndCntlSonora - dc.l SonoraInputSelect-SndCntlSonora - dc.l QueryInput-SndCntlSonora - dc.l ByPassControl-SndCntlSonora - dc.l PlayThruVol-SndCntlSonora - dc.l AGCControl-SndCntlSonora - dc.l BatmanInitSoundHW-SndCntlSonora ; -SndCntlSonoraEnd - - Export SndCntlLCIII - dc.w 0 ; flags - dc.w (SndCntlLCIIIEnd-SndCntlLCIII)/4 ; number of entries -SndCntlLCIII - dc.l SonoraDFACInit-SndCntlLCIII - dc.l EgretDFACSend-SndCntlLCIII - dc.l VailSetVol-SndCntlLCIII - dc.l EnableSoundInts-SndCntlLCIII - dc.l DisableSoundInts-SndCntlLCIII - dc.l ClearSoundInt-SndCntlLCIII - dc.l VailInputSelect-SndCntlLCIII - dc.l QueryInput-SndCntlLCIII - dc.l ByPassControl-SndCntlLCIII - dc.l PlayThruVol-SndCntlLCIII - dc.l AGCControl-SndCntlLCIII - dc.l BatmanInitSoundHW-SndCntlLCIII ; -SndCntlLCIIIEnd - ENDIF - - - Export SndCntlCyclone - dc.w 0 ; flags - dc.w (SndCntlCycloneEnd-SndCntlCyclone)/4 ; number of entries -SndCntlCyclone - dc.l CycloneSndStubNoRam-SndCntlCyclone ; Fake ’em for now. - dc.l CycloneSndStub1-SndCntlCyclone - dc.l CycloneSndStub1-SndCntlCyclone - dc.l CycloneSndStub1-SndCntlCyclone - dc.l CycloneSndStub1-SndCntlCyclone - dc.l CycloneSndStub1-SndCntlCyclone - dc.l CycloneSndStub1-SndCntlCyclone - dc.l CycloneSndStub2-SndCntlCyclone - dc.l CycloneSndStub1-SndCntlCyclone - dc.l CycloneSndStub1-SndCntlCyclone - dc.l CycloneSndStub1-SndCntlCyclone - dc.l CycloneSndStubNoRam-SndCntlCyclone ; -SndCntlCycloneEnd - - - Export SndCntlPDM - dc.w 0 ; flags - dc.w (SndCntlPDMEnd-SndCntlPDM)/4 ; number of entries -SndCntlPDM ; Fake 'em - dc.l PDMSndStubNoRam-SndCntlPDM ; For machines that need to init DFAC via Egret - dc.l PDMSndStub1-SndCntlPDM ; For machines that use Egret to talk to DFAC - dc.l PDMSndStub1-SndCntlPDM ; Set Volume - dc.l PDMSndStub1-SndCntlPDM ; Enable Sound Interrupts - dc.l PDMSndStub1-SndCntlPDM ; Disable Sound Interrupts - dc.l PDMSndStub1-SndCntlPDM ; Clear Sound Interrupt(s) - dc.l PDMSndStub1-SndCntlPDM ; Input Select - dc.l PDMSndStub2-SndCntlPDM ; Query which input device(s) is/are selected - dc.l PDMSndStub1-SndCntlPDM ; Enable/Disable Aux Bypass - dc.l PDMSndStub1-SndCntlPDM ; Set PlayThru Volume - dc.l PDMSndStub1-SndCntlPDM ; Enable/Disable AGC - dc.l PDMSndStubNoRam-SndCntlPDM ; InitSoundHW - called by StartInit to set vol -SndCntlPDMEnd - - - -;••••••••••••••••••••••••••••••••••• Common Routines •••••••••••••••••••••••••••••••••••• - - -;—————————————————————————————————————————————————————————————————————————————— -; Routine: InitSndHW -; -; Inputs: none -; -; Outputs: none -; -; Trashes: D0-D1 -; -; Function: This routine is meant to be called after lowmem has been setup. -; It calls common RAM-less code in the system to initialize the -; sound hardware. -;—————————————————————————————————————————————————————————————————————————————— - -InitSndHW movem.l d3-d4/a0-a6,-(sp) - movea.l UnivInfoPtr,a1 ; point to the machine's ProductInfo table - MOVEA.L A1,A0 - adda.l ProductInfo.DecoderInfoPtr(a0),a0 ; and to its DecoderInfo table - move.b SdVolume,d0 ; get the sound volume - moveq.l #1,d1 ; flag RAM routine origin for InitSoundHW - bsr6 InitSoundHW ; initialize the sound hardware (trashes d0-d4/a0-a6) - movem.l (sp)+,d3-d4/a0-a6 - rts - - -;—————————————————————————————————————————————————————————————————————————————— -; Routine: InitSndNoRAM -; -; Inputs: A5 - return address -; -; Outputs: none -; -; Trashes: D0-D4, A0-A6 -; -; Function: called by BSR5 to initialize sound hardware without using RAM -;—————————————————————————————————————————————————————————————————————————————— - -InitSndNoRam - move.l a5,d3 ; save return addr in d3 - -; Setup necessary registers - - moveq.l #0,d2 ; decoder unknown - bsr6 GetHardwareInfo ; get decoder address (trashes d0-d2/a0-a2/a5/a6) - movea.l DecoderInfo.VIA1Addr(a0),a2 ; get VIA1 base addr for PRAM routine - -; Call start test utility to read sound volume from pram - - move.w #$10,d1 ; pram addr of validation byte - bsr6 RdXByte ; trashes d0,d2,a0,a3,a4,a5 - cmpi.b #$a8,d1 ; is PRAM valid? - beq.s @pramValid ; pram is valid - moveq.l #5,d1 ; pram invalid - fake a volume level of 5 - bra.s @skipRead -@pramValid - move.w #8,d1 ; pram addr of sound volume - bsr6 RdXByte ; trashes d0,d2,a0,a3,a4,a5 -@skipRead - and.b #%00000111,d1 ; mask volume bits - bne.s @nonZeroVol ; a good non-zero volume - move.b #5,d1 ; set minimum volume for boot beep -@nonZeroVol - move.b d1,d4 ; save pram value - -; Setup registers again - - moveq.l #0,d2 ; decoder unknown - bsr6 GetHardwareInfo ; get decoder address (trashes d0-d2/a0-a2/a5) - - move.b d4,d0 ; restore volume - moveq.l #0,d1 ; flag RAMless routine origin for InitSoundHW - bsr6 InitSoundHW ; init sound (trashes d0-d1/a3/a6) - - movea.l d3,a5 ; restore return address - rts5 - - -;—————————————————————————————————————————————————————————————————————————————— -; Routine: InitSoundHW -; -; Inputs: D0 - sound volume (0-7) -; A0 - pointer to DecoderInfo table -; A1 - pointer to ProductInfo table -; A6 - return address -; -; Outputs: none -; -; Trashes: D0-D1, A3 -; -; Function: This routine is called by routines which can use RAM, and RAM-less -; routines. It is a central place in the ROM where all sound hardware -; initialization should happen. -;—————————————————————————————————————————————————————————————————————————————— - -InitSoundHW MOVEA.L A1,A3 ; get the ProductInfo pointer - ADDA.L SndControlPtr(A3),A3 ; point to the sound primitives table - ADDA.L sndInitSoundHW*4(A3),A3 ; and then to the routine to initialize sound hardware - JMP (A3) ; call the routine (will return with RTS6) - - - IF hasASC THEN -;—————————————————————————————————————————————————————————————————————————————— -; ASCSetVol - Set the playback volume on normal ASC/Batman hardware -; -; Set the playback volume using the volume control register on Batman. -; -; Input: d0.b = volume level (0-7) -; Output: none -; - -ASCSetVol move.l a0,-(sp) - movea.l ASCBase,a0 ; get base address of asc/batman - lsl.b #5,d0 ; shift volume up to pwm position - move.b d0,ascVolControl(a0) ; save it in ASC volume register - movea.l (sp)+,a0 - rts - - -;—————————————————————————————————————————————————————————————————————————————— -; -; Routine: ASCInitSoundHW -; -; Inputs: D0 - sound volume (0-7) -; A0 - pointer to machine's DecoderInfo table -; A1 - pointer to machine's ProductInfo table -; A6 - return address -; -; Outputs: none -; -; Trashes: D0,A3 -; -; Function: called by BSR6 from StartInit to set the default volume for ASC -; based machines -;—————————————————————————————————————————————————————————————————————————————— - -ASCInitSoundHW - MOVEA.L ASCAddr(A0),A3 ; point to the base of the ASC - ASL.B #5,D0 ; shift the sound volume into the upper 3 bits - MOVE.B D0,ascVolControl(A3) ; and set the volume - RTS6 - - -;—————————————————————————————————————————————————————————————————————————————— -; -; Routine: BatmanInitSoundHW -; -; Inputs: D0 - sound volume (0-7) -; A0 - pointer to machine's DecoderInfo table -; A1 - pointer to machine's ProductInfo table -; A6 - return address -; -; Outputs: none -; -; Trashes: D0,A3 -; -; Function: called by BSR6 from StartInit to set the default volume for Batman -; based machines -;—————————————————————————————————————————————————————————————————————————————— - -BatmanInitSoundHW - MOVEA.L ASCAddr(A0),A3 ; point to the base of the ASC - ASL.B #5,D0 ; shift the sound volume into the upper 3 bits - MOVE.B D0,ascVolControl(A3) ; and set the volume - - MOVE.W #$7F00,bmLeftScaleA(A3) ; pan channel A full left - MOVE.W #$007F,bmLeftScaleB(A3) ; pan channel B full right - -FinishBatmanInit - MOVEQ #1,D0 - MOVE.B D0,bmIntControlA(A3) ; mask sound interrupts on channels A & B - MOVE.B D0,bmIntControlB(A3) - - ORI.B #$80,ascFifoControl(A3) ; toggle the clear FIFO bit - ANDI.B #$7F,ascFifoControl(A3) - - MOVE.B #2,ascPlayRecA(A3) ; set to play mode at 22KHz - MOVE.B D0,ascMode(A3) ; set to FIFO mode - - MOVEQ #0,D0 - MOVE.B D0,bmFifoControlA(A3) ; force Batman to do mode-change housekeeping - MOVE.B D0,bmFifoControlB(A3) - - MOVE.W #$812F,bmSrcTimeIncrA(A3) ; set sample rate to 22.254.5454 kHz on channels A & B - MOVE.W #$812F,bmSrcTimeIncrB(A3) - - MOVE.W D0,$F10(A3) ; initialize the CD-XA coefficients for channel A - MOVE.W #$003C,$F12(A3) - MOVE.W #$CC73,$F14(A3) - MOVE.W #$C962,$F16(A3) - MOVE.W D0,$F30(A3) ; initialize the CD-XA coefficients for channel B - MOVE.W #$003C,$F32(A3) - MOVE.W #$CC73,$F34(A3) - MOVE.W #$C962,$F36(A3) - - MOVE.B #$80,bmFifoControlA(A3) ; turn on Sample Rate Conversion (SRC) for channels A & B - MOVE.B #$80,bmFifoControlB(A3) - RTS6 - - ENDIF ; {hasASC} - - -;—————————————————————————————————————————————————————————————————————————————— -; InputSelect - Select the sound input source -; -; If we are selecting "none" for the input source, then turn off the volume -; and AGC to prevent any noise leakage. Save the old volume and restore it -; later when a new source is selected. -; -; AGCInputSelect -; On Tim and Spike, sound input does not work unless AGC is enabled. We -; kludge something to always set AGC. -; -; Input: do.b input selection -; 0 = none (off) -; 1 = microphone -; 2 = auxillary (modem sound on Tim, CD on Spike and Eclipse) -; Output: d0.b last source -; - -AGCInputSelect - tst.b d0 ; turning on sound input? - beq.s InputSelect ; no - go ahead and turn off sound input - or.b #sndAGCOn,d0 ; this fixes buggy hardware - -InputSelect -@saveregs reg d1-d2/a0-a1 ; added d2 to save registers - - movem.l @saveregs,-(sp) - movea.l ([Expandmem],emSndPrimitives),a0; a0 = ptr to vector table - move.w sr,-(sp) ; - ori.w #HiIntMask,sr ; disable ints - - moveq.l #3,d2 ; get selection bits to return - and.b DFAClast(a0),d2 ; save for return - - moveq #(sndSelectMask\ ; - AND sndPlayThruMask\ - AND sndAGCMask),d1 ; mask off selection, volume, and AGC bits - and.b DFAClast(a0),d1 ; in the DFAC register image - or.b d0,d1 ; and OR them into DFAC image - -; Check for volume and AGC to update in DFAC now that a sound source has been selected. -; If we are disabling input, then zero the volume and disable AGC to prevent noise -; leakage, otherwise set the currently selected volume and AGC levels. - - tst.b d0 ; are we turning off input? - beq.s @send ; yes - set no input and zero volume - or.b UserVolume(a0),d1 ; set volume level - cmpi.b #sndMicrophone,d0 ; are we selecting the mike input? - bne.s @send ; no - do not enable AGC - or.b UserAGC(a0),d1 ; set AGC level - -@send - move.b d1,d0 ; d0 = new DFAC value - jsrTBL sndDFACSend ; call DFACSend routine thru expandmem - - move.w (sp)+,sr ; enable ints - move.b d2,d0 ; return source bits we replaced - movem.l (sp)+,@saveregs - rts - - -;—————————————————————————————————————————————————————————————————————————————— -; QueryInput - return current input source selected -; -; Input: none -; Output: d0.b input source -; 0 = none (off) -; 1 = microphone -; 2 = auxillary (modem sound on Tim, CD on Spike and Eclipse) - -QueryInput move.l a0,-(sp) - movea.l ([Expandmem],emSndPrimitives),a0; a0 = ptr to vector table - moveq #~(sndSelectMask-256),d0 ; mask off selection bits - and.b DFAClast(a0),d0 ; in the DFAC register image - movea.l (sp)+,a0 - rts - - -;—————————————————————————————————————————————————————————————————————————————— -; ByPassControl - enable or disable aux bypass -; -; Input: d0.b = 0 is disable, nonzero is enable -; Output: none -; - -ByPassControl -@saveregs reg d1/a0 - - movem.l @saveregs,-(sp) - movea.l ([Expandmem],emSndPrimitives),a0; a0 = ptr to vector table - moveq.l #sndByPassOff,d1 ; assume bypass off - tst.b d0 ; enable or disable bypass - beq.s @continue ; was bypass off - moveq.l #sndByPassOn,d1 ; set bypass on -@continue move.w sr,-(sp) ; - ori.w #HiIntMask,sr ; disable ints - moveq #sndByPassMask-256,d0 ; mask off bypass control bit - and.b DFAClast(a0),d0 ; in the DFAC register image - or.b d1,d0 ; d0 = value to send DFAC - jsrTBL sndDFACSend ; call DFACSend routine thru expandmem - move.w (sp)+,sr ; enable ints - movem.l (sp)+,@saveregs - rts - - -;—————————————————————————————————————————————————————————————————————————————— -; PlayThruVol - Set the playthrough volume -; -; If a sound source has not been selected, then save the volume in the globals -; to be updated to DFAC later when the source is selected. Also set playback -; volume for consistancy. -; -; Input: d0.b = volume level (0-7) -; Output: none -; - -PlayThruVol -@saveregs reg d1/a0 - - movem.l @saveregs,-(sp) - movea.l ([Expandmem],emSndPrimitives),a0; a0 = ptr to vector table - move.w sr,-(sp) ; - ori.w #HiIntMask,sr ; disable ints - - asl.b #5,d0 ; shift volume into s5-s7 position - move.b d0,UserVolume(a0) ; save user set volume level - moveq #(sndSelectMask-256),d1 ; mask off selection bits - and.b DFAClast(a0),d1 ; in the DFAC register image - beq.s @Done ; no sound source - we are done - - moveq #sndPlayThruMask,d1 ; mask off volume bits - and.b DFAClast(a0),d1 ; in the DFAC register image - or.b d1,d0 ; or-in value to send DFAC to set volume - jsrTBL sndDFACSend ; call DFACSend routine thru expandmem -@Done - move.w (sp)+,sr ; enable ints - movem.l (sp)+,@saveregs - rts - - -;—————————————————————————————————————————————————————————————————————————————— -; AGCControl - enable or disable AGC -; -; Enable or disable AGC. If no sound source has been selected, then -; save the AGC value and set it whenever the sound source is selected. -; -; Input: d0.b = 0 is disable, nonzero is enable -; Output: none -; - -AGCControl -@saveregs reg d1/a0 - - movem.l @saveregs,-(sp) - movea.l ([Expandmem],emSndPrimitives),a0; a0 = ptr to vector table - moveq.l #sndAGCOff,d1 ; assume AGC off (min gain) - tst.b d0 ; enable or disable AGC - beq.s @continue ; was disable AGC - moveq.l #sndAGCOn,d1 ; enable AGC -@continue - move.w sr,-(sp) ; - ori.w #HiIntMask,sr ; disable ints - move.b d1,UserAGC(a0) ; save value - - moveq #(sndSelectMask-256),d0 ; mask off selection bits - and.b DFAClast(a0),d0 ; in the DFAC register image - beq.s @Done ; no sound source - we are done - - moveq #sndAGCMask-256,d0 ; mask off the AGC control bits - and.b DFAClast(a0),d0 ; in the DFAC register image - or.b d1,d0 ; or-in AGC value to send to DFAC - jsrTBL sndDFACSend ; call DFACSend routine thru expandmem -@Done - move.w (sp)+,sr ; enable ints - movem.l (sp)+,@saveregs - rts - - - - IF hasVISADecoder THEN -;••••••••••••••••••••••••••••••••••••••••• VISA ••••••••••••••••••••••••••••••••••••••••• - -;—————————————————————————————————————————————————————————————————————————————— -; ElsieInputSelect - Select the sound input source on Elsie -; -; If we are turning off the source (equivalent to disabling recording), then -; re-establish the playback mode by selecting the Aux source with AGC on and -; playthrough volume set to the maximum. -; -; Input: do.b input selection -; 0 = none (off) -; 1 = microphone -; 2 = auxillary (modem sound on Tim, CD on Spike and Eclipse) -; Output: none -; - -; NOTE: System software has a different version of this being patched in ?!?!? - -ElsieInputSelect - cmpi.b #sndMicrophone,d0 ; are we selecting the mike? - beq InputSelect ; yes - continue - -; In Elsie sound, the playthrough with the auxiliary source is how playback is -; done. If not selecting mike, then enable playback - -@saveregs reg d1/a0 - movem.l @saveregs,-(sp) -; movea.l ([Expandmem],emSndPrimitives),a0; a0 = ptr to vector table -; moveq #(sndSelectMask\ ; -; AND sndPlayThruMask\ -; AND sndAGCMask),d0 ; mask off selection, volume, and AGC bits -; and.b DFAClast(a0),d0 ; get DFAC register image - moveq #sndElsieDFAC-256,d0 ; DFAC playback mode for Elsie sound - jsrTBL sndDFACSend ; call DFACSend routine thru expandmem - movem.l (sp)+,@saveregs - rts - - ENDIF ; {hasVISADecoder} - - - - IF hasEgret THEN -;••••••••••••••••••••••••••••••••••••••••• Egret •••••••••••••••••••••••••••••••••••••••• - WITH EgretPB - - Import SendEgretCmd - -;—————————————————————————————————————————————————————————————————————————————— -; EgretDFACInit - send a byte to DFAC using Egret -; -; Use this routine during initialization before traps are enabled. -; -; Input: a6.l = return address -; a0.l = Pointer to Base address table -; -; Output: none -; Destroys: d0-d2/a2-a3 -; Called by: bsr6 -; - - IF hasSonora THEN -SonoraDFACInit - moveq #sndSonoraReverseDFAC,d0 ; DFAC data to send for Elsie - bra.s EgretDFACInit - ENDIF - IF hasOrwell THEN -EclipseDFACInit - moveq #sndEclipseDFAC,d1 ; DFAC data to send for Eclipse - bra.s EgretDFACInit - ENDIF - IF hasVISADecoder THEN -ElsieDFACInit - move.l #ElsieDFAC,d1 ; DFAC data to send for Elsie -**** bra.s EgretDFACInit - ENDIF - -EgretDFACInit - movea.l a6,a3 ; save return address - move.l #(WrDFAC<<16) | PseudoPkt,d0 ; Send DFAC command - moveq #DFACInitLen,d2 ; number of bytes of DFAC data - bigbsr6 SendEgretCmd,a2 ; send the command to Egret - tst.w d0 ; negative if error - jmp (a3) ; return to the caller - - -;—————————————————————————————————————————————————————————————————————————————— -; EgretDFACSend - send a byte to DFAC using Egret -; -; Use this routine during runtime after traps are enabled. -; -; Input: d0.b = byte to send DFAC (in DFAC order) -; Output: none -; - -EgretDFACSend -@saveregs reg d1-d3/a0-a1 - - movem.l @saveregs,-(sp) ; work register - -; Reverse the order of the bits because Egret shifts them out in reverse order -; to what DFAC is expecting MSB first. - - move.l d0,d3 ; save DFAC value in DFAC order - moveq #0,d1 ; destination - moveq #8-1,d2 ; loop count for 8 bits -@Loop - asr.b #1,d0 ; shift lsb into extend bit - roxl.b #1,d1 ; shift extend bit towards msb - dbra d2,@Loop - -; Build a Parameter block for the default DFAC message - - suba.w #EgretPbSize,sp ; make room for PB - movea.l sp,a0 ; point a0 to pbBuffer - move.b #pseudoPkt,pbCmdType(a0) - move.b #WrDFAC,pbCmd(a0) - move.w #1,pbByteCnt(a0) ; set byte count - clr.l pbBufPtr(a0) ; clear unused fields - clr.w pbFlags(a0) - clr.w pbResult(a0) - clr.l pbCompletion(a0) - move.b d1,pbParam(a0) ; set byte to send DFAC - - _EgretDispatch - adda.w #EgretPbSize,sp ; discard the parameter block and data buffer - bne.s @Done ; some error - do not update image of DFAC - -; Update the RAM image of the DFAC register - - movea.l ([Expandmem],emSndPrimitives),a0; a0 = ptr to vector table - move.b d3,DFAClast(a0) ; update DFAC register image - -@Done - movem.l (sp)+,@saveregs - rts ; Return to Caller - - - ENDWITH ; {EgretPB} - ENDIF ; {hasEgret} - - - - IF hasOrwell THEN -;••••••••••••••••••••••••••••••••••••••••• Orwell ••••••••••••••••••••••••••••••••••••••• - -;—————————————————————————————————————————————————————————————————————————————— -; EclipseInputSelect - Select the sound input source on Eclipse -; -; On Eclipse, the sound input source is selected by two bits on VIA2 port B -; register in addition to DFAC. There are four sound input sources on -; Eclipse: Microphone (or none?), RCA jacks, Microphone, and the CD (aux). -; These sources are selected through the VIA2 bits and routed through DFAC. -; -; If we are selecting "none" for the input source, then turn off the volume -; and AGC to prevent any noise leakage. Save the old volume and restore it -; later when a new source is selected. -; -; Input: do.b input selection -; 0 = none (off) -; 1 = microphone -; 2 = auxillary (modem sound on Tim, CD on Spike and Eclipse) -; 3 = RCA jacks -; Output: none -; - -EclipseInputSelect - - move.w sr,-(sp) ; djw - ori.w #HiIntMask,sr ; djw - movem.l d0-d1,-(sp) ; djw - move.b ([via2],vBufB),d1 ; read current via values djw - and.b #%10110111,d1 ; clear the previous value (bits pb6,pb3) djw - andi.w #$ff,d0 ; make a word index - or.b EclipseSelectTable(pc,d0.w),d1 ; set new input djw - move.b d1,([via2],vBufB) ; set via2 bits - bsr.s ReGenSoundInt ; since VIA2 access clear interrupts, fix em BG - movem.l (sp)+,d0-d1 ; djw - move.w (sp)+,sr ; djw - - tst.b d0 ; selecting no source? - beq InputSelect ; yes - ok to go setup DFAC djw - moveq.l #sndMicrophone,d0 ; all sound sources go through DFAC mike input - bra InputSelect ; djw - -EclipseSelectTable - dc.b %00000000 ; none (or microphone?) pb6=0, pb3=0 - dc.b %01000000 ; microphone pb6=1, pb3=0 - dc.b %01001000 ; auxilary (CD) pb6=1, pb3=1 - dc.b %00001000 ; RCA jacks pb6=0, pb3=1 - - -;_______________________________________________________________________ thru next thru next -; -; Routine: ReGenSoundInt -; -; Desc: Since reading VIAx[vBufB] causes interrupts to cleared, -; this re-generates those sound interrupts. -; -; This routine stolen from -; -; {Regatta}Toolbox:SoundMgr:SoundMgrPatch.a -; -;_______________________________________________________________________ - -interruptControlA EQU $F09 ; interrupt mask registers for Batman -interruptControlB EQU $F29 - -ReGenSoundInt - move.l a1,-(sp) ; save A1 so we can play with it - movea.l VIA2,a1 ; grab the address of VIA2 - cmpa.l #-1,a1 ; check if it's been set up yet - beq.s @rts ; exit if not - btst.b #ifCB1,vIFR(a1) ; check if we still think there's an interrupt - bne.s @rts ; yes, we still have an interrupt - exit - - movea.l ASCBase,a1 ; point to Batman - cmpa.l #-1,a1 ; check if it's been set up yet - beq.s @rts ; exit if not - - move.w sr,-(sp) ; preserve the status register - ori.w #$0700,sr ; mask interrupts - - tst.b interruptControlA(a1) ; channel A interrupt enabled? - bne.s @checkB ; BRIF not enabled - move.b #1,interruptControlA(a1) ; disable chnl A interrupts - nop ; give Batman time to process the disable - clr.b interruptControlA(a1) ; clear the interrupt mask to re-generate -@checkB - tst.b interruptControlB(a1) ; channel B interrupt enabled? - bne.s @Done ; interrupt not enabled - done - -; To re-generate Batman interrupts, first disable interrupts on both channels, -; then re-enable them. - -@reGen - move.b #1,interruptControlB(a1) ; disable chnl B interrupts - nop ; give Batman time to process the disable - clr.b interruptControlB(a1) ; clear the interrupt mask to re-generate -@Done move.w (sp)+,sr -@rts move.l (sp)+,a1 ; restore original value of A1 - rts ; - - ENDIF ; {hasOrwell} - - - - IF hasJaws THEN -;••••••••••••••••••••••••••••••••••••••••• Jaws ••••••••••••••••••••••••••••••••••••••••• - -;—————————————————————————————————————————————————————————————————————————————— thru next djw -; TIMInputSelect - Select the sound input source on Tim -; -; On Tim, the input selection routine in ROM always turns AGC on. Patch -; it out to not force AGC on. -; -; Input: do.b input selection -; 0 = none (off) -; 1 = microphone -; 2 = auxillary (modem sound on Tim) -; Output: d0.b last source -; - -AutoSlpDisable equ $f8 ; Counting semaphor to disable sleep - -TIMInputSelect -@workingReg reg d2/a0-a1 - move.w sr,-(sp) ; save the old sr - movem.l @workingReg,-(sp) ; save working registers - - move.l PmgrBase,a1 ; point a1 to globals - movea.l ([Expandmem],emSndPrimitives),a0 ; a0 = ptr to vector table - ori.w #HiIntMask,sr ; disable ints - - moveq.l #3,d2 ; get selection bits - and.b DFAClast(a0),d2 ; - beq.s @currentlyOff ; is a source active ?? - -@currentlySelected ; sound source currently selected - tst.b d0 ; check new state, - bne.s @setsource ; if just new source, set the source - subq.b #1,AutoSlpDisable(a1) ; ... if turning off source, dec the nosleep semaphore - bra.s @setsource - -@currentlyOff ; sound source currently off - tst.b d0 ; check new state, - beq.s @setsource ; if new source still off, set the source - addq.b #1,AutoSlpDisable(a1) ; ... if turning on source, inc the nosleep semaphore -; bra.s @setsource - -@setsource - movem.l (sp)+,@workingReg ; restore working registers - bsr InputSelect ; change the source djw - move.w (sp)+,sr ; enable ints - rts - - -;—————————————————————————————————————————————————————————————————————————————— -; TimPlayBackVol - Set the playback volume on Tim -; -; Tim uses the left and right scale registers to control the volume. Volume -; levels 0-7 are table mapped. Also should also set playthrough volume for -; consistancy. -; -; Input: d0.b = volume level (0-7) -; Output: none -; - -TimPlayBackVol - move.l a0,-(sp) - - andi.w #$ff,d0 ; mask to word index - move.b @TimVolumeTable(d0.W),d0 ; index into tbl to get mapped volume value - - move.w sr,-(sp) ; - ori.w #HiIntMask,sr ; disable ints - movea.l ASCBase,a0 ; get base address of asc/batman - move.b d0,bmLeftScaleA(a0) ; channel A plays out left speaker at this volume - move.b #0,bmRightScaleA(a0) ; channel A does not play out of the right speaker at all - move.b #0,bmLeftScaleB(a0) ; channel B does not play out of the left speaker at all - move.b d0,bmRightScaleB(a0) ; channel B plays out right speaker at this volume - move.w (sp)+,sr ; enable ints - - movea.l (sp)+,a0 - rts - -; Table of values to jam into the Batman scale registers for each sound volume setting (0..7) - -@TimVolumeTable - dc.b 1, 18, 36, 54, 72, 90, 108, 127 - align 4 - - ENDIF ; {hasJaws} - - - - IF hasNiagra THEN -;••••••••••••••••••••••••••••••••••••••••• Niagra ••••••••••••••••••••••••••••••••••••••• - -;—————————————————————————————————————————————————————————————————————————————— -; DartQueryInput - return current input source selected -; -; Input: none -; Output: d0.b input source -; 0 = none (off) -; 1 = microphone -; 2 = auxillary (modem sound on Dart) -DartQueryInput - bsr.s QueryInput ; - tst.b d0 ; - beq.s @done ; if off, done - - move.l a0,-(sp) ; save a0 - movea.l UnivInfoPtr,a0 ; point to the ProductInfo table, - adda.l DecoderInfoPtr(a0),a0 ; then to the DecoderInfo table, - movea.l JAWSAddr(a0),a0 ; then to the Niagra base address, - adda.l #(NiagraGUR+PontiSndCtl),a0 ; point sound control register - - move.b #sndSelectAux,d0 ; assume modem sound - btst.b #PontiSndMux1,(a0) ; check for modem sound override - bne.s @returninput ; if override bit, return current d0 value - move.b #sndSelectMike,d0 ; set to mike - -@returninput - move.l (sp)+,a0 ; restore a0 | - ; V -@done rts ; - - -;—————————————————————————————————————————————————————————————————————————————— -; DartPlayThruVol - Set the playthrough volume -; -; If a sound source has not been selected, then save the volume in the globals -; to be updated to DFAC later when the source is selected. Also set playback -; volume for consistancy. In Dart's case, playthru is disabled (set to 0) if -; the internal microphone is used. This prevents HORRible feedback. -; -; -; -; Input: d0.b = volume level (0-7) -; Output: none -; -DartPlayThruVol -@saveregs reg d1/a0 - -; get the current source - movem.l @saveregs,-(sp) ; save working set of registers - move d0,d1 ; use d1 for volume until later - - bsr.s DartQueryInput ; get the current source - cmp.b #sndSelectMike,d0 ; is the mike selected, - bne.s @setvol ; if not mike, just set the volume - -; get pointer to sound control register - movea.l UnivInfoPtr,a0 ; point to the ProductInfo table, - adda.l DecoderInfoPtr(a0),a0 ; then to the DecoderInfo table, - movea.l JAWSAddr(a0),a0 ; then to the Niagra base address, - adda.l #(NiagraGUR+PontiSndCtl),a0 ; point sound control register - -; check for internal mike - btst.b #PontiSndIntMic,(a0) ; check for internal microphone operation - beq.s @setvol ; if external microphone, allow playthru - move.b #0,d1 ; ... else set playthru to off - -@setvol move.b d1,d0 ; move volume back to d0 - movem.l (sp)+,@saveregs ; restore working set - bra PlayThruVol ; set playthru volume - - -;—————————————————————————————————————————————————————————————————————————————— -; DartInputSelect - Select the sound input source on Dartanian -; -; If we are selecting "none" for the input source, then turn off the volume -; and AGC to prevent any noise leakage. Save the old volume and restore it -; later when a new source is selected. If a source has been selected, then -; disable auto sleep otherwise enable auto sleep -; -; On Dart however, there is an additional sound mux in front of DFAC. For sound -; input selection, we will use this hardware instead of that in DFAC. All sound input -; will feed through DFAC's mike input port. -; -; On Dart ,as on TIM, sound input does not work unless AGC is enabled. We -; kludge something to always set AGC. -; -; Input: do.b input selection -; 0 = none (off) -; 1 = microphone -; 2 = auxillary (modem sound on Tim) -; Output: d0.b last source -; - -DartInputSelect -@workingreg reg d1/a0 - move.w sr,-(sp) ; save the old sr - movem.l @workingreg,-(sp) ; save working register - -; get pointer to sound control register - movea.l UnivInfoPtr,a0 ; point to the ProductInfo table, - adda.l DecoderInfoPtr(a0),a0 ; then to the DecoderInfo table, - movea.l JAWSAddr(a0),a0 ; then to the Niagra base address, - adda.l #(NiagraGUR+PontiSndCtl),a0 ; point sound control register - - bclr.b #PontiSndMux0,(a0) ; default to auto mike selection - ori.w #HiIntMask,sr ; disable ints - -; determine is we should use the modem override - cmp.b #sndSelectAux,d0 ; is the new input the modem channel - bne.s @modemOFF -@modemON ; don't preset, might cause "pop" - bset.b #PontiSndMux1,(a0) ; set modem sound override - bra.s @exitsndmux - -@modemOFF - bclr.b #PontiSndMux1,(a0) ; clr modem sound override - -@exitsndmux - move.l d0,d1 ; save the source information - bsr.s HandleAutoSleep ; handle autosleep semaphore - -; disable Playthru if using internal mike - tst.b d0 ; test the new input source - cmp.b #sndSelectMike,d0 ; if it the mic ? - blt.s @setsource ; (case 0) no sources - bgt.s @modemsource ; (case 2) modem sound source - ; - btst.b #PontiSndIntMic,(a0) ; check for internal microphone operation - beq.s @modemsource ; if external microphone, allow playthru - ; - move.b #0,d0 ; set playthru to off - bsr.s PlayThruVol ; - -@modemsource - moveq #sndSelectMike,d0 ; on dart all inputs through mike port on DFAC - -@setsource - bsr.s AGCInputSelect ; change the source - move.l d1,d0 ; restore the source information - - movem.l (sp)+,@workingreg ; restore register - move.w (sp)+,sr ; enable ints - rts - - ENDIF ; {hasNiagra} - - - IF hasJaws | hasNiagra THEN -;—————————————————————————————————————————————————————————————————————————————— -; -; Routine: JawsInitSoundHW,NiagraInitSoundHW -; -; Inputs: D0 - sound volume (0-7) -; A0 - pointer to machine's DecoderInfo table -; A1 - pointer to machine's ProductInfo table -; A6 - return address -; -; Outputs: none -; -; Trashes: D0,D1,A3 -; -; Function: Called by BSR6 from StartInit to set the default volume for Jaws -; and Niagra based machines. Their Batman implementation is different -; from "standard" Batman since they do volume control using the scale -; registers. -;—————————————————————————————————————————————————————————————————————————————— - -JawsInitSoundHW -NiagraInitSoundHW - MOVEQ #18,D1 ; map volume to scale value - MULU D0,D1 - - MOVEA.L ASCAddr(A0),A3 ; point to the base of the ASC - ASL.B #5,D0 ; shift the sound volume into the upper 3 bits - MOVE.B D0,ascVolControl(A3) ; and set the volume - - MOVE.B D1,bmLeftScaleA(A3) ; channel A plays out left speaker at this volume - MOVE.B #0,bmRightScaleA(A3) ; channel A does not play out of the right speaker at all - MOVE.B #0,bmLeftScaleB(A3) ; channel B does not play out of the left speaker at all - MOVE.B D1,bmRightScaleB(A3) ; channel B plays out right speaker at this volume - - BRA FinishBatmanInit ; finish up with normal initialization - - ENDIF - - - - IF hasPwrControls THEN -;••••••••••••••••••••••••••••••••••••• Power Manager •••••••••••••••••••••••••••••••••••• - -;—————————————————————————————————————————————————————————————————————————————— -; HandleAutoSleep - handle the auto sleep semaphore -; -; this code handles the autosleep semaphore. when an input source is selected, -; we increment the semaphore to disable auto sleep. care must be taken to not -; increment the semaphone when changing between microphone and aux, this does -; not change the semaphore state. -; -; Input: do.b input selection -; 0 = none (off) -; 1 = microphone -; 2 = auxillary (modem sound on Tim) -; -; a0 pointer to primitives table and globals -; -; Output: d0.b last source -; -HandleAutoSleep -@workingreg reg d2/a0-a1 - movem.l @workingreg,-(sp) ; save working registers - - move.l PmgrBase,a1 ; point a1 to globals - movea.l ([Expandmem],emSndPrimitives),a0; a0 = ptr to vector table - moveq.l #3,d2 ; get selection bits - and.b DFAClast(a0),d2 ; - beq.s @currentlyOff ; is a source active ?? - -@currentlySelected ; sound source currently selected - tst.b d0 ; check new state, - bne.s @exit ; if just new source, set the source - subq.b #1,AutoSlpDisable(a1) ; ... if turning off source, dec the nosleep semaphore - bra.s @exit - -@currentlyOff ; sound source currently off - tst.b d0 ; check new state, - beq.s @exit ; if new source still off, set the source - addq.b #1,AutoSlpDisable(a1) ; ... if turning on source, inc the nosleep semaphore - -@exit - movem.l (sp)+,@workingreg ; restore working registers - rts - - ENDIF ; {hasPwrControls} - - - - IF hasMSC THEN -;•••••••••••••••••••••••••••••••••••••••••• MSC ••••••••••••••••••••••••••••••••••••••••• - -;—————————————————————————————————————————————————————————————————————————————— -; DBLiteDFACInit - send a byte to DFAC using the PMGR micro -; -; Use this routine during initialization before traps are enabled. -; -; Input: D0.B = byte to have the PMGR stuff into DFAC -; A0.L = ptr to DecoderInfo record -; A6.L = return address -; Output: none -; Destroys: D3-D4/D6/A2-A4/A5 -; Called by: BSR6 -; - - IMPORT USTPMGRSendByte - -DBLiteDFACInit - MOVEQ #sndDBLiteDFAC-256,D0 ; - MOVEA.L DecoderInfo.VIA1Addr(A0),A2 ; point to the base of VIA 1 - MOVEA.L DecoderInfo.VIA2Addr(A0),A3 ; point to the base of VIA 2 - - MOVEQ #SetDFAC-256,D3 ; send the command

- BIGBSR5 USTPMGRSendByte,A4 - - MOVE.B D0,D3 ; send the DFAC initialization value - BIGBSR5 USTPMGRSendByte,A4 - - MOVEQ #sndInputOff,D3 ; send the input source (none) - BIGBSR5 USTPMGRSendByte,A4 ; - RTS6 - - -;—————————————————————————————————————————————————————————————————————————————— -; DBLiteDFACSend - send a byte to DFAC using the PMGR micro -; -; Use this routine during runtime after traps are enabled. -; -; Input: d0.b = byte to send DFAC (in DFAC order) -; Output: none -; - -DBLiteDFACSend -@saveRegs REG D1/A0 - - MOVEM.L @saveRegs,-(SP) - MOVEA.L ([Expandmem],emSndPrimitives),A0; get the pointer to the vector table - MOVE.B D0,DFAClast(A0) ; and update the DFAC register image - - MOVEQ #3,D1 ; mask off the input source - AND.B D0,D1 ; - CMPI.B #sndSelectAux,d1 ; is the aux modem sound selected? - BNE.S @nonAux ; no, use standard DFAC byte from table - - MOVE.B @dfacTable(d1),d1 ; yes, get modem dfac byte - MOVEA.L ASCBase,a0 ; get base address of asc/batman - MOVE.B ascVolControl(a0),d0 ; get current ASC volume, - ANDI.B #$E0,d0 ; use as DFAC attenuation - OR.B d1,d0 ; bits for modem volume - MOVEQ #sndSelectAux,d1 ; - BRA.S @dfac ; and set DFAC - -@nonAux MOVE.B @dfacTable(D1),D0 ; get the appropriate DFAC command byte -@dfac LSL.W #8,D0 ; move the DFAC command - OR.B D1,D0 ; include the desired input selection - MOVE.W D0,-(SP) ; put the bytes to send in a buffer on the stack - MOVE.L SP,-(SP) ; pmRBuffer points to it to be safe - MOVE.L (SP),-(SP) ; pmSBuffer points to it - MOVE.W #2,-(SP) ; pmLength - MOVE.W #SetDFAC,-(SP) ; pmCommand - MOVEA.L SP,A0 ; point to the parameter block
- _PMgrOp ; have the PMGR stuff the byte in DFAC - LEA pmData+2(SP),SP ; toss the parameter block and buffer - MOVEM.L (SP)+,@saveRegs - RTS - -@dfacTable DC.B (7<<5)|sndByPassOff|sndTCAOff|sndSelectAux ; 0 = no input source (i.e., play) - DC.B (0<<5)|sndByPassOff|sndAGCOn|sndSelectMike ; 1 = microphone - DC.B (0<<5)|sndByPassOff|sndAGCOn|sndSelectMike ; 2 = modem sound - DC.B (7<<5)|sndByPassOff|sndAGCOn|sndSelectMike ; 3 = undefined (set for modem sound) - - -;——————————————————————————————————————————————————————————————————————————————

-; DBInputSelect - Select the sound input source on DB-Lite -; -; If we are selecting "none" for the input source, then turn off the volume -; and AGC to prevent any noise leakage. Save the old volume and restore it -; later when a new source is selected. If a source has been selected, then -; disable auto sleep otherwise enable auto sleep -; -; Input: do.b input selection -; 0 = none (off) -; 1 = microphone -; 2 = auxillary (modem sound on DB-Lite) -; Output: d0.b last source -; -DBInputSelect - MOVE.W SR,-(SP) ; save the old sr - ori.w #HiIntMask,sr ; disable ints - BSR.S HandleAutoSleep ; turn auto-sleep on/off if necessary - CMPI.B #sndAuxiliary,D0 ; is it modem sound (aux)? - BNE.S @std ; no, continue - - move.l a0,-(sp) ; save a0 - move.l VIA2,a0 ; point to the MSC's sound control register - lea MSCSndCntl(a0),a0 ; - bset #MSCSndPower,(a0) ; turn on sound power - move.l (sp)+,a0 ; restore a0 - -@std bsr.s InputSelect ; select it as the source - MOVE.W (SP)+,SR ; enable ints - RTS ; - - -;—————————————————————————————————————————————————————————————————————————————— -; DBLiteSetVol - Set the playback volume on DBLite's ASC/Batman hardware -; If the modem is selected as the sound source, then set DFAC -; as well. -; -; Input: d0.b = volume level (0-7) -; Output: none -;—————————————————————————————————————————————————————————————————————————————— - -DBLiteSetVol ; - move.l a0,-(sp) - move.w sr,-(sp) ; save sr - ori.w #HiIntMask,sr ; disable ints - - movea.l ASCBase,a0 ; get base address of asc/batman - lsl.b #5,d0 ; shift volume up to pwm position - move.b d0,ascVolControl(a0) ; save it in ASC volume register - - move.l PMgrBase,a0 ; Modem sound volume is controlled through DFAC - tst.b SysTaskFlag(a0) ; are the sound input primitives set up? - beq.s @exit ; -> no, don't worry about modem yet - - movea.l ([Expandmem],emSndPrimitives),a0 ; a0 = ptr to vector table - moveq.l #3,d0 ; get selection bits - and.b DFAClast(a0),d0 ; - cmpi.b #sndSelectAux,d0 ; is the aux modem sound selected? - bne.s @exit ; no, set the ASC volume - jsrTBL sndDFACSend ; call DFACSend to adjust modem sound - -@exit move.w (sp)+,sr ; restore ints - movea.l (sp)+,a0 - rts - - ENDIF ; {hasMSC} - - - -;•••••••••••••••••••••••••••••••••••• VIA2 DFAC stuff ••••••••••••••••••••••••••••••••••• - -;—————————————————————————————————————————————————————————————————————————————— -; VIA2DFACInit - send a byte to DFAC using via2 -; -; Use this routine during initialization before traps are enabled. -; -; Input: a0.l = ptr to DecoderInfo record -; a6.l = return address -; Output: none -; Destroys: d0-d1/a3 -; Called by: bsr6 -; - IF hasNiagra THEN -DartDFACInit - movea.l JAWSAddr(a0),a3 ; point to the Niagra base address, - adda.l #(NiagraGUR+PontiSndCtl),a3 ; then to the sound control register - - bclr.b #PontiSndMux0,(a3) ; default to auto mike selection - bclr.b #PontiSndMux1,(a3) ; disable modem override -**** bra.s TimDFACInit ; fall through to TimDFACInit - ENDIF - IF hasJaws | hasNiagra THEN -TimDFACInit - moveq #sndTimDFAC,d0 ; DFAC data to send for Tim - bra.s VIA2DFACInit - ENDIF - IF hasOrwell THEN -SpikeDFACInit - moveq #sndSpikeDFAC,d0 ; DFAC data to send for Spike -**** bra.s VIA2DFACInit ; fall through to VIA2DFACInit - ENDIF - - IF hasOrwell | hasJaws | hasNiagra THEN -VIA2DFACInit - movea.l VIA2Addr(a0),a3 ; a3 = base addr of via2 - - bset.b #0,vBufB(a3) ; disable data (to aviod nasty accidental data clocking) - bset.b #4,vBufB(a3) ; set clock to high - bclr.b #0,vBufB(a3) ; enable data - - moveq.l #8-1,d1 ; adjust for dbra -@Loop - asr.b #1,d0 ; shift data byte through carry - bcc.s @zeroBit - bset.b #3,vBufB(a3) ; write a one - bra.s @clock -@zeroBit bclr.b #3,vBufB(a3) ; write a zero -@clock bclr.b #4,vBufB(a3) ; toggle clock - bset.b #4,vBufB(a3) ; toggle clock - dbra d1,@Loop ; do all 8 data bytes - - bset.b #0,vBufB(a3) ; disable data - - rts6 - - -;—————————————————————————————————————————————————————————————————————————————— -; VIA2DFACSend - send a byte to DFAC using via2 -; -; Use this routine during runtime after traps are enabled. There are three -; bits in VIA2 used to communicate to DFAC: -; bit 0 = latch enable -; 3 = data -; 4 = data clock -; -; To send data, enable data latch and clock each bit out separately. -; -; Input: d0.b = byte to send DFAC (in DFAC order) -; Output: none -; - -VIA2DFACSend -@saveregs reg d1-d2/a0 - - movem.l @saveregs,-(sp) - move.w sr,-(sp) ; - ori.w #HiIntMask,sr ; disable ints - -; Update the RAM image of the DFAC register - - movea.l ([Expandmem],emSndPrimitives),a0; a0 = ptr to vector table - move.b d0,DFAClast(a0) ; update DFAC register image - -; Clock the data byte out through VIA2. Data is shifted out -; in DFAC order (LSB first). - - movea.l VIA2,a0 ; get via2 base addr - bset.b #0,vBufB(a0) ; disable data (to aviod nasty accidental data clocking) - bset.b #4,vBufB(a0) ; set clock to high - bclr.b #0,vBufB(a0) ; drop bit to enable data - - moveq.l #8-1,d1 ; adjust for dbra -@Loop - asr.b #1,d0 ; shift data byte through carry - bcc.s @zeroBit - bset.b #3,vBufB(a0) ; write a one - bra.s @clock -@zeroBit bclr.b #3,vBufB(a0) ; write a zero -@clock bclr.b #4,vBufB(a0) ; toggle clock - bset.b #4,vBufB(a0) ; toggle clock - dbra d1,@Loop ; do all 8 data bytes - - bset.b #0,vBufB(a0) ; disable data - - move.w (sp)+,sr ; enable ints - movem.l (sp)+,@saveregs - rts - ENDIF ; {hasOrwell | hasJaws | hasNiagra} - - - - IF hasSonora THEN -;•••••••••••••••••••••••••••••••••••••••• Sonora •••••••••••••••••••••••••••••••••••••••• - -;—————————————————————————————————————————————————————————————————————————————— -; SonoraInputSelect - Select the sound input source on Sonora-based Macs -; -; If we are turning off the source (equivalent to disabling recording), then -; re-establish the playback mode. -; Input: do.b input selection -; 0 = none (off) -; 1 = microphone -; 2 = auxillary (modem sound on Tim, CD on Spike and Eclipse) -; Output: none -; -SonoraInputSelect - cmpi.b #sndMicrophone,d0 ; are we selecting the mike? - beq InputSelect ; yes - continue - -; Since we're not selecting mike, then enable playback - -@saveregs reg d1/a0 - movem.l @saveregs,-(sp) - moveq #sndSonoraDFAC-256,d0 ; DFAC playback mode for Sonora sound - jsrTBL sndDFACSend ; call DFACSend routine thru expandmem - movem.l (sp)+,@saveregs - rts - - -;—————————————————————————————————————————————————————————————————————————————— -; VailInputSelect - Select the sound input source on Vail -; -; If we are turning off the source (equivalent to disabling recording), then -; re-establish the playback mode. -; Input: do.b input selection -; 0 = none (off) -; 1 = microphone -; 2 = auxillary (modem sound on Tim, CD on Spike and Eclipse) -; Output: none -; -VailInputSelect - cmpi.b #sndMicrophone,d0 ; are we selecting the mike? - beq VailNewInputSelect ; yes - continue - -@saveregs reg d1/a0 - movem.l @saveregs,-(sp) - moveq #sndSonoraDFAC-256,d0 ; DFAC playback mode for Sonora sound - andi.b #sndPlayThruMask,d0 ; mask off playthru volume - move.b SDVolume,d1 ; get the volume - lsl.b #5,d1 ; shift it into top 3 bits - or.b d1,d0 ; or in last volume - jsrTBL sndDFACSend ; call DFACSend routine thru expandmem - movem.l (sp)+,@saveregs - rts - - -;—————————————————————————————————————————————————————————————————————————————— -; VailNewInputSelect - Select the sound input source on a Vail -; -; If we are selecting "none" for the input source, then turn off the volume -; and AGC to prevent any noise leakage. Save the old volume and restore it -; later when a new source is selected. Turn on Playthru while recording so that -; we can play and record simultaneously. Turning Playthru on while in record mode -; causes the filtering mechanism to be by-passed in the playback sound path. -; This difference is not audibly noticable in 22kHz mode. -; -; Input: do.b input selection -; 0 = none (off) -; 1 = microphone -; 2 = auxillary (modem sound on Tim, CD on Spike and Eclipse) -; Output: d0.b last source -; - -VailNewInputSelect -@saveregs reg d1/a0-a1 - - movem.l @saveregs,-(sp) - movea.l ([Expandmem],emSndPrimitives),a0; a0 = ptr to vector table - move.w sr,-(sp) ; - ori.w #HiIntMask,sr ; disable ints - - moveq.l #3,d2 ; get selection bits to return - and.b DFAClast(a0),d2 ; save for return - - moveq #(sndSelectMask\ ; - AND sndPlayThruMask\ - AND sndAGCMask),d1 ; mask off selection, volume, and AGC bits - and.b DFAClast(a0),d1 ; in the DFAC register image - or.b d0,d1 ; and OR them into DFAC image - - ; Check for volume and AGC to update in DFAC now that a sound source has been selected. - ; If we are disabling input, then zero the volume and disable AGC to prevent noise - ; leakage, otherwise set the currently selected volume and AGC levels. - - tst.b d0 ; are we turning off input? - beq.s @send ; yes - set no input and zero volume - or.b UserVolume(a0),d1 ; set volume level - cmpi.b #sndMicrophone,d0 ; are we selecting the mike input? - bne.s @send ; no - do not enable AGC - or.b UserAGC(a0),d1 ; set AGC level - -@send - move.b d1,d0 ; d0 = new DFAC value - bset #sndPlayThruBit,d0 ; set bit - jsrTBL sndDFACSend ; call DFACSend routine thru expandmem - - move.w (sp)+,sr ; enable ints - move.b d2,d0 ; return source bits we replaced - movem.l (sp)+,@saveregs - rts - - -;—————————————————————————————————————————————————————————————————————————————— -; VailSetVol - Set the playback volume on Sonora hardware -; -; Set the playback volume using the DFAC chip instead of the volume control register -; on Batman. -; -; Input: d0.b = volume level (0-7) -; Output: none -; - -VailSetVol -@SaveRegs reg a0-a1 - movem.l @SaveRegs,-(sp) - movea.l ASCBase,a0 ; get base address of asc/batman - move.l ExpandMem,d1 ; do we have expandmem set up yet?? - ble.s @oldWay ; nope, do it the old way - movea.l d1,a1 ; - move.l emSndPrimitives(a1),d1 ; do we have sound primitives yet?? - beq.s @oldWay ; nope, do it the old way - movea.l d1,a1 ; point to the table - tst.b DFAClast(a1) ; has DFAClast been initialized? - bne.s @skipDFAClastInit ; yep, don't reinitialize it... - move.b #sndSonoraDFAC,DFAClast(a1) ; initialize DFAClast - -@skipDFAClastInit - moveq #3,d1 ; mask off the input source - and.b DFACLast(a1),d1 ; - cmpi.b #sndSelectMike,d1 ; is it in record mode?? - beq.s @restore ; yes, don't do anything - - move.b #(7<<5),ascVolControl(a0) ; set volume to seven - move.b UserVolume(a1),-(sp) ; save off UserVolume - jsrTBL sndPlayThruVol ; head off to set PlayThru volume - move.b (sp)+,UserVolume(a1) ; restore original UserVolume - -@restore movem.l (sp)+,@SaveRegs ; restore registers - rts ; and return - -@oldWay - lsl.b #5,d0 ; shift volume up to pwm position - move.b d0,ascVolControl(a0) ; save it in ASC volume register - movem.l (sp)+,@SaveRegs ; restore registers - rts ; and split - - ENDIF ; {hasSonora} - - - IF hasDJMEMC THEN -;•••••••••••••••••••••••••••••••••••••••• DJMEMC •••••••••••••••••••••••••••••••••••••••• - -;—————————————————————————————————————————————————————————————————————————————— -; -; Routine: DJMEMCInitSoundHW -; -; Inputs: D0 - sound volume (0-7) -; A0 - pointer to machine's DecoderInfo table -; A1 - pointer to machine's ProductInfo table -; A6 - return address -; -; Outputs: none -; -; Trashes: D0,A3 -; -; Function: Called by BSR6 from StartInit to set the default volume for DJMEMC -; based machines. Although they have a standard Batman implementation, -; the need to whack on their built-in video to prevent calamity. -;—————————————————————————————————————————————————————————————————————————————— - -DJMEMCInitSoundHW - MOVEA.L ASCAddr(A0),A3 ; point to the base of the ASC - ASL.B #5,D0 ; shift the sound volume into the upper 3 bits - MOVE.B D0,ascVolControl(A3) ; and set the volume - - MOVE.W #$7F00,bmLeftScaleA(A3) ; pan channel A full left - MOVE.W #$007F,bmLeftScaleB(A3) ; pan channel B full right - - MOVEQ #1,D0 - MOVE.L D0,$F9800100 ; shut off sync to built-in video BEFORE beeping - CMPI.L #WmStConst,WarmStart ; If we’re just powering on, - BNE FinishBatmanInit ; then just go on - MOVE.B #0,$50F14f2f ; otherwise, reset the Sound Block Configuration register - - BRA FinishBatmanInit ; finish up with normal initialization - - ENDIF - - - -;•••••••••••••••••••••••••••••••••••••••• Cyclone ••••••••••••••••••••••••••••••••••••••• - -CycloneSndStubNoRam - Rts6 - -CycloneSndStub2 - Moveq #0,D0 -CycloneSndStub1 - Rts - - -;••••••••••••••••••••••••••••••••••••••••••• PDM •••••••••••••••••••••••••••••••••••••••••• - -PDMSndStubNoRam + Export SndCntlNW + dc.w 0 ; flags + dc.w (SndCntlNWEnd-SndCntlNW)/4 ; number of entries +SndCntlNW ; Fake 'em + dc.l NWSndStubNoRam-SndCntlNW ; For machines that need to init DFAC via Egret + dc.l NWSndStub1-SndCntlNW ; For machines that use Egret to talk to DFAC + dc.l NWSndStub1-SndCntlNW ; Set Volume + dc.l NWSndStub1-SndCntlNW ; Enable Sound Interrupts + dc.l NWSndStub1-SndCntlNW ; Disable Sound Interrupts + dc.l NWSndStub1-SndCntlNW ; Clear Sound Interrupt(s) + dc.l NWSndStub1-SndCntlNW ; Input Select + dc.l NWSndStub2-SndCntlNW ; Query which input device(s) is/are selected + dc.l NWSndStub1-SndCntlNW ; Enable/Disable Aux Bypass + dc.l NWSndStub1-SndCntlNW ; Set PlayThru Volume + dc.l NWSndStub1-SndCntlNW ; Enable/Disable AGC + dc.l NWSndStub1-SndCntlNW ; InitSoundHW - called by StartInit to set vol + dc.l NWSndStub1-SndCntlNW ; dontUse1 + dc.l NWSndStub1-SndCntlNW ; dontUse2 + dc.l NWSndStub1-SndCntlNW ; dontUse3 + dc.l NWSndStubNoRam-SndCntlNW ; sndInitSoundHW2 +SndCntlNWEnd + + + +;••••••••••••••••••••••••••••••••••••••••••• NW •••••••••••••••••••••••••••••••••••••••••• + +NWSndStubNoRam Rts6 -PDMSndStub2 +NWSndStub2 Moveq #0,D0 -PDMSndStub1 +NWSndStub1 Rts - IF hasPratt THEN -;•••••••••••••••••••••••••••••••••••••••• Blackbird ••••••••••••••••••••••••••••••••••••••• - -;————————————————————————————————————————————————————————————————————————————————————————— -; DoNothing routines - The following routines simply return to the caller (used for -; unimplemented sound primitives). - -DoNothingViaA6 - RTS6 - -DoNothing - rts - - -;—————————————————————————————————————————————————————————————————————————————— -; -; Routine: WhitneyInitSoundHW -; -; Inputs: D0 - sound volume (0-7) -; D1 - 0 is called via the RAMless routine, else 1 -; A0 - pointer to machine's DecoderInfo table -; A1 - pointer to machine's ProductInfo table -; A6 - return address -; -; Outputs: none -; -; Trashes: D0,A3 -; -; Function: Called by InitSoundHW (via BSR6) to configure hardware for Whitney -; based machines (i.e. Blackbird). Called before the trap dispatcher -; is initialized. Always returns via (A6). -;—————————————————————————————————————————————————————————————————————————————— -BB_BASE EQU $10000 ; sound buffer base addr for bootbeep (64K) - -WhitneyInitSoundHW - - movea.l ASCAddr(a0),a3 ; point to the base of the ASC - - ; Set Whitney sound FIFO base address - ; NOTE: We use the value of d1 to determine how to set the base address. If d1 - ; is 0, then we know that we entered via the RAMless entry point (called immediately - ; before and after bootbeep). In this case, we know we have some RAM available, - ; so we temporarily grab some low in memory for the sound buffer. - ; If d1 is 1, we set the "real" FIFO base address to just above the boot/start globals, - ; since this is where space is allocated for it by the SizeSoundBuffer routine. - tst.w d1 - bne.s @setRealFIFOBase - -@setTempFIFOBase - move.l #BB_BASE,wSndFIFOBase(a3) ; set FIFO base for BootBeep - bra.s @setSndCntl - -@setRealFIFOBase - movem.l a0,-(sp) ; (don't worry, the stack exists for this path) - movea.l BootGlobPtr,a0 - adda.l StartGlobals.sgTopOff(a0),a0 - move.l a0,wSndFIFOBase(a3) ; the REAL sound FIFO base - movem.l (sp)+,a0 - -@setSndCntl ; Set up the Singer control registers - move.w #((%0100<*/ } }; + resource 'KMAP' (27, sysHeap, locked) { + 27, 0, { + $00; $01; $02; $03; $04; $05; $06; $07; $08; $09; $0A; $0B; $0C; $0D; $0E; $0F; + $10; $11; $12; $13; $14; $15; $16; $17; $18; $19; $1A; $1B; $1C; $1D; $1E; $1F; + $20; $21; $22; $23; $24; $25; $26; $27; $28; $29; $2A; $2B; $2C; $2D; $2E; $2F; + $30; $31; $32; $33; $34; $35; $3B; $37; $38; $B9; $3A; $7B; $7C; $7D; $7E; $3F; + $40; $41; $42; $43; $44; $45; $46; $47; $48; $49; $4A; $4B; $4C; $4D; $4E; $4F; + $50; $51; $52; $53; $54; $55; $56; $57; $58; $59; $5A; $5B; $5C; $5D; $5E; $5F; + $60; $61; $62; $63; $64; $65; $66; $67; $68; $69; $6A; $6B; $6C; $6D; $6E; $6F; + $70; $71; $72; $73; $74; $75; $76; $77; $78; $79; $7A; $3C; $3D; $3E; $36; $7F; + }, + { + $39, noXor, $E, "\$00\$02"; + $B9, noXor, $E, "\$00\$02"; + } + }; + + resource 'KMAP' (198, sysHeap, locked) { + 198, 0, { + $00; $01; $02; $03; $04; $05; $06; $07; $08; $09; $0A; $0B; $0C; $0D; $0E; $0F; + $10; $11; $12; $13; $14; $15; $16; $17; $18; $19; $1A; $1B; $1C; $1D; $1E; $1F; + $20; $21; $22; $23; $24; $25; $26; $27; $28; $29; $2A; $2B; $2C; $2D; $2E; $2F; + $30; $31; $32; $33; $34; $35; $3B; $37; $38; $B9; $3A; $7B; $7C; $7D; $7E; $3F; + $40; $41; $42; $43; $44; $45; $46; $47; $48; $49; $4A; $4B; $4C; $4D; $4E; $4F; + $50; $51; $52; $53; $54; $55; $56; $57; $58; $59; $5A; $5B; $5C; $5D; $5E; $5F; + $60; $61; $62; $63; $64; $65; $66; $67; $68; $69; $6A; $6B; $6C; $6D; $6E; $6F; + $70; $71; $72; $73; $74; $75; $76; $77; $78; $79; $7A; $3C; $3D; $3E; $36; $7F; + }, + { + $39, noXor, $E, "\$00\$02"; + $B9, noXor, $E, "\$00\$02"; + } + }; + + resource 'KMAP' (199, sysHeap, locked) { + 199, 0, { + $00; $01; $02; $03; $04; $05; $06; $07; $08; $09; $32; $0B; $0C; $0D; $0E; $0F; + $10; $11; $12; $13; $14; $15; $16; $17; $18; $19; $1A; $1B; $1C; $1D; $1E; $1F; + $20; $21; $22; $23; $24; $25; $26; $27; $28; $29; $2A; $2B; $2C; $2D; $2E; $2F; + $30; $31; $0A; $33; $34; $35; $3B; $37; $38; $B9; $3A; $7B; $7C; $7D; $7E; $3F; + $40; $41; $42; $43; $44; $45; $46; $47; $48; $49; $4A; $4B; $4C; $4D; $4E; $4F; + $50; $51; $52; $53; $54; $55; $56; $57; $58; $59; $5A; $5B; $5C; $5D; $5E; $5F; + $60; $61; $62; $63; $64; $65; $66; $67; $68; $69; $6A; $6B; $6C; $6D; $6E; $6F; + $70; $71; $72; $73; $74; $75; $76; $77; $78; $79; $7A; $3C; $3D; $3E; $36; $7F; + }, + { + $39, noXor, $E, "\$00\$02"; + $B9, noXor, $E, "\$00\$02"; + } + }; + + resource 'KMAP' (200, sysHeap, locked) { + 200, 0, { + $00; $01; $02; $03; $04; $05; $06; $07; $08; $09; $0A; $0B; $0C; $0D; $0E; $0F; + $10; $11; $12; $13; $14; $15; $16; $17; $18; $19; $1A; $1B; $1C; $1D; $1E; $1F; + $20; $21; $22; $23; $24; $25; $26; $27; $28; $29; $2A; $2B; $2C; $2D; $2E; $2F; + $30; $31; $32; $33; $34; $35; $3B; $37; $38; $B9; $3A; $7B; $7C; $7D; $7E; $3F; + $40; $41; $42; $43; $44; $45; $46; $47; $48; $49; $4A; $4B; $4C; $4D; $4E; $4F; + $50; $51; $52; $53; $54; $55; $56; $57; $58; $59; $5A; $5B; $5C; $5D; $5E; $5F; + $60; $61; $62; $63; $64; $65; $66; $67; $68; $69; $6A; $6B; $6C; $6D; $6E; $6F; + $70; $71; $72; $73; $74; $75; $76; $77; $78; $79; $7A; $3C; $3D; $3E; $36; $7F; + }, + { + $39, noXor, $E, "\$00\$02"; + $B9, noXor, $E, "\$00\$02"; + } + }; + + resource 'KMAP' (204, sysHeap, locked) { + 204, 0, { + $00; $01; $02; $03; $04; $05; $06; $07; $08; $09; $0A; $0B; $0C; $0D; $0E; $0F; + $10; $11; $12; $13; $14; $15; $16; $17; $18; $19; $1A; $1B; $1C; $1D; $1E; $1F; + $20; $21; $22; $23; $24; $25; $26; $27; $28; $29; $2A; $2B; $2C; $2D; $2E; $2F; + $30; $31; $32; $33; $34; $35; $3B; $37; $38; $B9; $3A; $7B; $7C; $7D; $7E; $3F; + $40; $41; $42; $43; $44; $45; $46; $47; $48; $49; $4A; $4B; $4C; $4D; $4E; $4F; + $50; $51; $52; $53; $54; $55; $56; $57; $58; $59; $5A; $5B; $5C; $5D; $5E; $5F; + $60; $61; $62; $63; $64; $65; $66; $67; $68; $69; $6A; $6B; $6C; $6D; $6E; $6F; + $70; $71; $72; $73; $74; $75; $76; $77; $78; $79; $7A; $3C; $3D; $3E; $36; $7F; + }, + { + $39, noXor, $E, "\$00\$02"; + $B9, noXor, $E, "\$00\$02"; + } + }; + + resource 'KMAP' (205, sysHeap, locked) { + 205, 0, { + $00; $01; $02; $03; $04; $05; $06; $07; $08; $09; $32; $0B; $0C; $0D; $0E; $0F; + $10; $11; $12; $13; $14; $15; $16; $17; $18; $19; $1A; $1B; $1C; $1D; $1E; $1F; + $20; $21; $22; $23; $24; $25; $26; $27; $28; $29; $2A; $2B; $2C; $2D; $2E; $2F; + $30; $31; $0A; $33; $34; $35; $3B; $37; $38; $B9; $3A; $7B; $7C; $7D; $7E; $3F; + $40; $41; $42; $43; $44; $45; $46; $47; $48; $49; $4A; $4B; $4C; $4D; $4E; $4F; + $50; $51; $52; $53; $54; $55; $56; $57; $58; $59; $5A; $5B; $5C; $5D; $5E; $5F; + $60; $61; $62; $63; $64; $65; $66; $67; $68; $69; $6A; $6B; $6C; $6D; $6E; $6F; + $70; $71; $72; $73; $74; $75; $76; $77; $78; $79; $7A; $3C; $3D; $3E; $36; $7F; + }, + { + $39, noXor, $E, "\$00\$02"; + $B9, noXor, $E, "\$00\$02"; + } + }; + + resource 'KMAP' (206, sysHeap, locked) { + 206, 0, { + $00; $01; $02; $03; $04; $05; $06; $07; $08; $09; $0A; $0B; $0C; $0D; $0E; $0F; + $10; $11; $12; $13; $14; $15; $16; $17; $18; $19; $1A; $1B; $1C; $1D; $1E; $1F; + $20; $21; $22; $23; $24; $25; $26; $27; $28; $29; $2A; $2B; $2C; $2D; $2E; $2F; + $30; $31; $32; $33; $34; $35; $3B; $37; $38; $B9; $3A; $7B; $7C; $7D; $7E; $3F; + $40; $41; $42; $43; $44; $45; $46; $47; $48; $49; $4A; $4B; $4C; $4D; $4E; $4F; + $50; $51; $52; $53; $54; $55; $56; $57; $58; $59; $5A; $5B; $5C; $5D; $5E; $5F; + $60; $61; $62; $63; $64; $65; $66; $67; $68; $69; $6A; $6B; $6C; $6D; $6E; $6F; + $70; $71; $72; $73; $74; $75; $76; $77; $78; $79; $7A; $3C; $3D; $3E; $36; $7F; + }, + { + $39, noXor, $E, "\$00\$02"; + $B9, noXor, $E, "\$00\$02"; + } + }; + #endif @@ -2433,3 +2578,309 @@ resource 'KCHR' (0, USname, KCHRAttributes) { /*<11>*/ }; #endif + + data 'KCAP' (198) { + $"0032 003C 00F0 01E0 000C 002A 0024 017A" + $"000D 0000 000B 0015 0010 0035 0038 000A" + $"007A 0000 001E 0078 0000 0014 0063 0000" + $"0014 0076 0000 0014 0060 0000 001E 0061" + $"0000 0014 0062 0000 0014 0064 0000 0014" + $"0065 0000 001E 006D 0000 0014 0067 0000" + $"0014 006F 0000 0014 0072 0000 0028 0073" + $"0000 0014 0074 0000 0014 0079 0000 0014" + $"0000 0015 0015 0031 0032 0046 000A 0012" + $"0000 0014 0013 0000 0014 0014 0000 0014" + $"0015 0000 0014 0017 0000 0014 0016 0000" + $"0014 001A 0000 0014 001C 0000 0014 0019" + $"0000 0014 001D 0000 0014 001B 0000 0014" + $"0018 0000 0014 002A 0014 001E 001E 0000" + $"FFEC 0021 0000 FFEC 0023 0000 FFEC 001F" + $"0000 FFEC 0022 0000 FFEC 0020 0000 FFEC" + $"0010 0000 FFEC 0011 0000 FFEC 000F 0000" + $"FFEC 000E 0000 FFEC 000D 0000 FFEC 000C" + $"0000 FFEC 0000 0014 0005 0001 0000 0014" + $"0002 0000 0014 0003 0000 0014 0005 0000" + $"0014 0004 0000 0014 0026 0000 0014 0028" + $"0000 0014 0025 0000 0014 0029 0000 0014" + $"0027 0000 0014 002C 0014 FFF6 002F 0000" + $"FFEC 002B 0000 FFEC 002E 0000 FFEC 002D" + $"0000 FFEC 000B 0000 FFEC 0009 0000 FFEC" + $"0008 0000 FFEC 0007 0000 FFEC 0006 0000" + $"FFEC 003A 0014 FFEC 0037 0000 0014 0037" + $"0000 0096 0000 0015 0015 000F 0041 0096" + $"0168 0055 FFEC 0000 0054 0000 FFEC 0053" + $"0000 FFEC 0056 FFEC 0000 0057 0000 0014" + $"0058 0000 0014 0045 0000 0014 004E FFEC" + $"0000 005C 0000 FFEC 005B 0000 FFEC 0059" + $"0000 FFEC 0047 FFEC 0000 0051 0000 0014" + $"004B 0000 0014 0043 0000 0014 0000 0015" + $"001F 0000 0030 005A 000A 0000 0015 001F" + $"0000 0033 0046 010E 0000 0015 0029 0000" + $"0052 0096 0140 0000 0029 0015 0000 004C" + $"0082 017C 0000 0015 001A 0000 003B 0096" + $"000A 0000 000B 0015 0003 007B 00A2 00F0" + $"007D 0000 0014 007C 0000 0014 007E FFF6" + $"FFEC 0000 0015 0024 0000 0039 006E 000A" + $"0000 0015 0024 0000 0024 006E 0109 0000" + $"0015 002E 0001 0038 0082 000A 0038 0000" + $"00F5 0000 0015 0083 0000 0031 0096 004B" + }; + + data 'KCAP' (199) { + $"0032 003C 00F0 01E0 000C 002A 0024 017A" + $"000E 0000 000B 0015 0010 0035 0038 000A" + $"007A 0000 001E 0078 0000 0014 0063 0000" + $"0014 0076 0000 0014 0060 0000 001E 0061" + $"0000 0014 0062 0000 0014 0064 0000 0014" + $"0065 0000 001E 006D 0000 0014 0067 0000" + $"0014 006F 0000 0014 0072 0000 0028 0073" + $"0000 0014 0074 0000 0014 0079 0000 0014" + $"0000 0015 0015 002F 000A 0046 000A 0012" + $"0000 0014 0013 0000 0014 0014 0000 0014" + $"0015 0000 0014 0017 0000 0014 0016 0000" + $"0014 001A 0000 0014 001C 0000 0014 0019" + $"0000 0014 001D 0000 0014 001B 0000 0014" + $"0018 0000 0014 001E 0014 000A 0021 0000" + $"FFEC 0023 0000 FFEC 001F 0000 FFEC 0022" + $"0000 FFEC 0020 0000 FFEC 0010 0000 FFEC" + $"0011 0000 FFEC 000F 0000 FFEC 000E 0000" + $"FFEC 000D 0000 FFEC 000C 0000 FFEC 0000" + $"0014 0005 0001 0000 0014 0002 0000 0014" + $"0003 0000 0014 0005 0000 0014 0004 0000" + $"0014 0026 0000 0014 0028 0000 0014 0025" + $"0000 0014 0029 0000 0014 0027 0000 0014" + $"002A 0000 0014 002C 0014 FFE7 002F 0000" + $"FFEC 002B 0000 FFEC 002E 0000 FFEC 002D" + $"0000 FFEC 000B 0000 FFEC 0009 0000 FFEC" + $"0008 0000 FFEC 0007 0000 FFEC 0006 0000" + $"FFEC 0032 0000 FFEC 0000 0015 0015 000F" + $"0041 0096 0168 0055 FFEC 0000 0054 0000" + $"FFEC 0053 0000 FFEC 0056 FFEC 0000 0057" + $"0000 0014 0058 0000 0014 0045 0000 0014" + $"004E FFEC 0000 005C 0000 FFEC 005B 0000" + $"FFEC 0059 0000 FFEC 0047 FFEC 0000 0051" + $"0000 0014 004B 0000 0014 0043 0000 0014" + $"0000 0015 001F 0000 0030 005A 000A 0000" + $"0015 001F 0001 0038 0082 000A 003A 0014" + $"0019 0000 0015 0029 0000 0052 0096 0140" + $"0000 0029 0015 0000 004C 0082 017C 0000" + $"0015 001A 0002 003B 0096 000A 0037 0000" + $"0037 0037 0000 009B 0000 000B 0015 0003" + $"007B 00A0 00F5 007D 0000 0014 007C 0000" + $"0014 007E FFF6 FFEC 0000 0015 0024 0000" + $"0039 006E 000A 0000 0015 0024 0000 0033" + $"0046 010E 0001 0015 001A 0029 0005 0000" + $"0024 005A 0118 0000 0015 002E 0000 0038" + $"0082 0104 0000 0015 0083 0000 0031 0096" + $"005A" + }; + + data 'KCAP' (200) { + $"0032 003C 00F0 01E0 000C 002A 0024 017A" + $"0010 0000 000B 0015 0010 0035 0038 000A" + $"007A 0000 0021 0078 0000 0014 0063 0000" + $"0014 0076 0000 0014 0060 0000 001C 0061" + $"0000 0014 0062 0000 0014 0064 0000 0014" + $"0065 0000 001C 006D 0000 0014 0067 0000" + $"0014 006F 0000 0014 0072 0000 0028 0073" + $"0000 0014 0074 0000 0014 0079 0000 0014" + $"0000 0015 001C 0000 0012 0046 000A 0000" + $"0015 0015 000B 0013 0046 0025 0014 0000" + $"0014 0015 0000 0014 0017 0000 0014 0016" + $"0000 0014 001A 0000 0014 001C 0000 0014" + $"0019 0000 0014 001D 0000 0014 001B 0000" + $"0014 0018 0000 0014 005D 0000 0014 0000" + $"0015 0018 0000 0033 0046 0115 0000 0015" + $"0015 0026 001E 005A 00FA 0021 0000 FFEC" + $"0023 0000 FFEC 001F 0000 FFEC 0022 0000" + $"FFEC 0020 0000 FFEC 0010 0000 FFEC 0011" + $"0000 FFEC 000F 0000 FFEC 000E 0000 FFEC" + $"000D 0000 FFEC 000C 0000 FFEC 0030 0000" + $"FFEC 0000 0014 0019 0001 0000 0014 0002" + $"0000 0014 0003 0000 0014 0005 0000 0014" + $"0004 0000 0014 0026 0000 0014 0028 0000" + $"0014 0025 0000 0014 0029 0000 0014 0027" + $"0000 0014 002A 0000 0014 005E 0014 FFF6" + $"002C 0000 FFEC 002F 0000 FFEC 002B 0000" + $"FFEC 002E 0000 FFEC 002D 0000 FFEC 000B" + $"0000 FFEC 0009 0000 FFEC 0008 0000 FFEC" + $"0007 0000 FFEC 0006 0000 FFEC 003A 0014" + $"FFFD 0037 0000 0014 0066 0000 0014 0001" + $"0015 001F 0029 0005 0000 0024 005A 010E" + $"0000 0015 001A 0000 0036 006E 000A 0000" + $"0015 0024 0000 0038 0082 000A 0000 0015" + $"0024 0000 0038 0082 0109 0000 0029 0015" + $"0000 004C 0082 017C 0000 0015 001A 0003" + $"003B 006E 000A 0068 0028 009C 0037 0000" + $"0019 003A 0000 0019 0000 0015 0015 000F" + $"0041 0096 0168 0055 FFEC 0000 0054 0000" + $"FFEC 0053 0000 FFEC 0056 FFEC 0000 0057" + $"0000 0014 0058 0000 0014 0045 0000 0014" + $"004E FFEC 0000 005C 0000 FFEC 005B 0000" + $"FFEC 0059 0000 FFEC 0047 FFEC 0000 0051" + $"0000 0014 004B 0000 0014 0043 0000 0014" + $"0000 0015 0021 0000 0039 0096 000A 0000" + $"0015 0041 0000 0031 0096 0066 0000 0015" + $"0015 0001 0052 0096 0140 005F 0000 0014" + $"0000 000B 0015 0003 007B 00A0 00F5 007D" + $"0000 0014 007C 0000 0014 007E FFF6 FFEC" + }; + + data 'KCAP' (204) { + $"0032 003C 00E6 022B 000C 002A 0024 01CD" + $"0010 0000 0015 0015 0015 0035 0032 000A" + $"007A 0000 0020 0078 0000 0014 0063 0000" + $"0014 0076 0000 0014 0060 0000 0020 0061" + $"0000 0014 0062 0000 0014 0064 0000 0014" + $"0065 0000 001F 006D 0000 0014 0067 0000" + $"0014 006F 0000 0014 0069 0000 0028 006B" + $"0000 0014 0071 0000 0014 0072 0014 FFD8" + $"0073 0000 0014 0074 0000 0014 0075 0014" + $"FFD8 0077 0000 0014 0079 0000 0014 0000" + $"0015 0015 002D 0032 0046 000A 0012 0000" + $"0014 0013 0000 0014 0014 0000 0014 0015" + $"0000 0014 0017 0000 0014 0016 0000 0014" + $"001A 0000 0014 001C 0000 0014 0019 0000" + $"0014 001D 0000 0014 001B 0000 0014 0018" + $"0000 0014 001E 0014 000A 0021 0000 FFEC" + $"0023 0000 FFEC 001F 0000 FFEC 0022 0000" + $"FFEC 0020 0000 FFEC 0010 0000 FFEC 0011" + $"0000 FFEC 000F 0000 FFEC 000E 0000 FFEC" + $"000D 0000 FFEC 000C 0000 FFEC 0000 0014" + $"0005 0001 0000 0014 0002 0000 0014 0003" + $"0000 0014 0005 0000 0014 0004 0000 0014" + $"0026 0000 0014 0028 0000 0014 0025 0000" + $"0014 0029 0000 0014 0027 0000 0014 002C" + $"0014 FFF6 002F 0000 FFEC 002B 0000 FFEC" + $"002E 0000 FFEC 002D 0000 FFEC 000B 0000" + $"FFEC 0009 0000 FFEC 0008 0000 FFEC 0007" + $"0000 FFEC 0006 0000 FFEC 0000 0015 0015" + $"000F 0041 0096 01BD 0055 FFEC 0000 0054" + $"0000 FFEC 0053 0000 FFEC 0056 FFEC 0000" + $"0057 0000 0014 0058 0000 0014 0045 0000" + $"0014 004E FFEC 0000 005C 0000 FFEC 005B" + $"0000 FFEC 0059 0000 FFEC 0047 FFEC 0000" + $"0051 0000 0014 004B 0000 0014 0043 0000" + $"0014 0000 0015 0029 0000 0052 0096 0195" + $"0000 0029 0015 0000 004C 0082 01D1 0000" + $"0015 001F 0000 0030 005A 000A 0000 0015" + $"0024 0000 0039 006E 000A 0000 0015 002E" + $"0000 0038 0082 000A 0000 0015 0033 0000" + $"0038 0082 00FF 0000 0015 001A 0002 003B" + $"0096 000A 003A 0000 0019 0037 0000 0019" + $"0000 0015 001A 0002 0037 0096 00E6 003A" + $"0000 0019 003B 0000 0019 0000 0015 0015" + $"0003 007E 0082 0159 007B 0014 FFEC 007D" + $"0000 0014 007C 0000 0014 0000 0015 0024" + $"0000 0033 0046 010E 0000 0015 001A 0000" + $"002A 005A 0118 0000 0015 0029 0000 0024" + $"006E 0109 0000 0015 0092 0000 0031 0096" + $"0055" + }; + + data 'KCAP' (205) { + $"0032 003C 00E6 022B 000C 002A 0024 01CD" + $"000F 0000 0015 0015 0015 0035 0032 000A" + $"007A 0000 0020 0078 0000 0014 0063 0000" + $"0014 0076 0000 0014 0060 0000 0020 0061" + $"0000 0014 0062 0000 0014 0064 0000 0014" + $"0065 0000 001F 006D 0000 0014 0067 0000" + $"0014 006F 0000 0014 0069 0000 0028 006B" + $"0000 0014 0071 0000 0014 0072 0014 FFD8" + $"0073 0000 0014 0074 0000 0014 0075 0014" + $"FFD8 0077 0000 0014 0079 0000 0014 0000" + $"0015 0015 002F 000A 0046 000A 0012 0000" + $"0014 0013 0000 0014 0014 0000 0014 0015" + $"0000 0014 0017 0000 0014 0016 0000 0014" + $"001A 0000 0014 001C 0000 0014 0019 0000" + $"0014 001D 0000 0014 001B 0000 0014 0018" + $"0000 0014 001E 0014 000A 0021 0000 FFEC" + $"0023 0000 FFEC 001F 0000 FFEC 0022 0000" + $"FFEC 0020 0000 FFEC 0010 0000 FFEC 0011" + $"0000 FFEC 000F 0000 FFEC 000E 0000 FFEC" + $"000D 0000 FFEC 000C 0000 FFEC 0000 0014" + $"0005 0001 0000 0014 0002 0000 0014 0003" + $"0000 0014 0005 0000 0014 0004 0000 0014" + $"0026 0000 0014 0028 0000 0014 0025 0000" + $"0014 0029 0000 0014 0027 0000 0014 002A" + $"0000 0014 002C 0014 FFE7 002F 0000 FFEC" + $"002B 0000 FFEC 002E 0000 FFEC 002D 0000" + $"FFEC 000B 0000 FFEC 0009 0000 FFEC 0008" + $"0000 FFEC 0007 0000 FFEC 0006 0000 FFEC" + $"0032 0000 FFEC 0000 0015 0015 000F 0041" + $"0096 01BD 0055 FFEC 0000 0054 0000 FFEC" + $"0053 0000 FFEC 0056 FFEC 0000 0057 0000" + $"0014 0058 0000 0014 0045 0000 0014 004E" + $"FFEC 0000 005C 0000 FFEC 005B 0000 FFEC" + $"0059 0000 FFEC 0047 FFEC 0000 0051 0000" + $"0014 004B 0000 0014 0043 0000 0014 0000" + $"0015 0029 0000 0052 0096 0195 0000 0029" + $"0015 0000 004C 0082 01D1 0001 0015 001A" + $"0029 0005 0000 0024 005A 0118 0000 0015" + $"001F 0000 0030 005A 000A 0000 0015 0024" + $"0000 0039 006E 000A 0000 0015 001F 0000" + $"0038 0082 000A 0000 0015 002E 0000 0038" + $"0082 0104 0000 0015 001A 0002 003B 0096" + $"000A 003A 0000 0019 0037 0000 0019 0000" + $"0015 001A 0002 0037 0096 00E6 003A 0000" + $"0019 003B 0000 0019 0000 0015 0015 0003" + $"007E 0082 0159 007B 0014 FFEC 007D 0000" + $"0014 007C 0000 0014 0000 0015 0024 0000" + $"0033 0046 010E 0000 0015 0092 0000 0031" + $"0096 0055" + }; + + data 'KCAP' (206) { + $"0032 003C 00E6 022B 000C 002A 0024 01CD" + $"0014 0000 0015 0015 0015 0035 0032 000A" + $"007A 0000 0020 0078 0000 0014 0063 0000" + $"0014 0076 0000 0014 0060 0000 0020 0061" + $"0000 0014 0062 0000 0014 0064 0000 0014" + $"0065 0000 001F 006D 0000 0014 0067 0000" + $"0014 006F 0000 0014 0069 0000 0028 006B" + $"0000 0014 0071 0000 0014 0072 0014 FFD8" + $"0073 0000 0014 0074 0000 0014 0075 0014" + $"FFD8 0077 0000 0014 0079 0000 0014 0000" + $"0015 0015 0003 007E 0082 0159 007B 0014" + $"FFEC 007D 0000 0014 007C 0000 0014 0000" + $"0015 001F 0000 0012 0046 000A 0000 0015" + $"0015 000B 0013 0046 0028 0014 0000 0014" + $"0015 0000 0014 0017 0000 0014 0016 0000" + $"0014 001A 0000 0014 001C 0000 0014 0019" + $"0000 0014 001D 0000 0014 001B 0000 0014" + $"0018 0000 0014 005D 0000 0014 0000 0015" + $"001A 0000 0033 0046 0118 0000 0015 001A" + $"0000 0030 005A 000A 0000 0015 0015 000B" + $"001E 005A 00FF 0021 0000 FFEC 0023 0000" + $"FFEC 001F 0000 FFEC 0022 0000 FFEC 0020" + $"0000 FFEC 0010 0000 FFEC 0011 0000 FFEC" + $"000F 0000 FFEC 000E 0000 FFEC 000D 0000" + $"FFEC 000C 0000 FFEC 0000 0015 0015 0016" + $"0000 006E 0028 0001 0000 0014 0002 0000" + $"0014 0003 0000 0014 0005 0000 0014 0004" + $"0000 0014 0026 0000 0014 0028 0000 0014" + $"0025 0000 0014 0029 0000 0014 0027 0000" + $"0014 002A 0000 0014 005E 0014 FFF6 002C" + $"0000 FFEC 002F 0000 FFEC 002B 0000 FFEC" + $"002E 0000 FFEC 002D 0000 FFEC 000B 0000" + $"FFEC 0009 0000 FFEC 0008 0000 FFEC 0007" + $"0000 FFEC 0006 0000 FFEC 0000 0029 0015" + $"0000 004C 0082 01CF 0000 0015 0015 000F" + $"0041 0096 01BB 0055 FFEC 0000 0054 0000" + $"FFEC 0053 0000 FFEC 0056 FFEC 0000 0057" + $"0000 0014 0058 0000 0014 0045 0000 0014" + $"004E FFEC 0000 005C 0000 FFEC 005B 0000" + $"FFEC 0059 0000 FFEC 0047 FFEC 0000 0051" + $"0000 0014 004B 0000 0014 0043 0000 0014" + $"0000 0015 0015 0001 0052 0096 0193 005F" + $"0000 0014 0001 0015 001F 0029 0005 0000" + $"0024 005A 0113 0000 0015 001F 0000 003B" + $"006E 000A 0000 0015 0029 0000 0038 0082" + $"000A 0000 0015 0024 0000 0038 0082 010E" + $"0000 0015 0023 0000 0039 0096 000A 0000" + $"0015 001A 0002 003A 0096 002C 0037 0000" + $"0019 0066 0000 0019 0000 0015 0051 0000" + $"0031 0096 0077 0000 0015 001A 0002 0068" + $"0096 00C7 0037 0000 0019 003A 0000 0019" + $"0000 0015 0020 0000 003B 0096 0112" + }; diff --git a/OS/MMU/GetReal.a b/OS/MMU/GetReal.a --- a/OS/MMU/GetReal.a +++ b/OS/MMU/GetReal.a @@ -111,14 +111,8 @@ GetRealSize equ * GetRealProc PROC EXPORT WITH GetRealVars,MemDispGlobals - EXPORT GetPageDescProc EXPORT GetMMUInfo - EXPORT checkTTRegs - ; Note: We dont support "GetPageDesc Address" - cmpi.b #EMMU1,MMUType ; Do we have an Emulated MMU? - bne.s GetRealAddr ; -> No, OSW (old slow way). - ; Do Logical to Physical Translation for machines with EMMUs. SAM MOVEM.L A2/D1/D2,-(SP) ; Save some regs @@ -147,69 +141,6 @@ GetRealProc PROC EXPORT * BRA.S @Done ; -> Exit RTS -GetRealAddr - move.w #getReal,-(sp) ; indicate we want physical address in a0 - bra.s walkTable ; go walk table - -GetPageDescProc - move.w #getpageDesc,-(sp) ; indicate we want page descriptor ptr in a0 - -walkTable movem.l GetRealRegs,-(sp) ; save working registers - link a6,#GetRealSize ; allocate some room for our locals - cmpi.b #PMMU851,MMUType ; check to see if we have an MMU - bhs.s @haveAnMMU ; IF we do not have an MMU THEN - move.w #noMMUErr,d0 ; return an error - bra.s @exitGetReal ; >>EXIT routine -@haveAnMMU ; ENDIF - move.l a0,d2 ; get logical address into d2 - jsr GetMMUInfo ; fill our globals with MMU info - IF Supports24Bit THEN - move.b MMU32Bit,-(sp) ; save current MMU mode - bne.s @in32BitMode ; IF we're in 24-bit mode THEN - moveq #true32b,d0 ; we want to go to 32 bit addressing - _SwapMMUMode ; switch the MMU mode - and.l Lo3Bytes,d2 ; clean up the 24-bit address - bra.s @doTranslation ; go do the translation - ENDIF -@in32BitMode ; ELSE - jsr checkTTRegs ; check transparent translation regs - bne.s @doTranslation ; IF we matched a TT register THEN - move.l d2,a0 ; put the original address into a0 - move.l #0,a2 ; return null for page descriptor address - moveq #noErr,d3 ; return good status - bra.s @cleanupGetReal ; >>EXIT with easy translation - ; ENDIF -@doTranslation ; ENDIF - cmp.b #PMMU040,MMUType ; check MMU type - beq.s @trans68040 ; IF we're on a 68030 THEN - jsr translate030 ; do the translation for an 851/030 - bra.s @cleanupGetReal ; ELSE -@trans68040 jsr translate040 ; do the translation for a 68040 - ; ENDIF - -;------------ -; a2.w = address of page descriptor, if any -; d3.w = result code -; a0.l = physical address if successful -;------------ -@cleanupGetReal - IF Supports24Bit THEN ; SM is always in 32 bit mode - move.b (sp)+,d0 ; get original MMU mode - bne.s @returnResult ; IF we were originally in 24-bit mode THEN - _SwapMMUMode ; swap back to it - ENDIF -@returnResult ; ENDIF - move.w d3,d0 ; return result in d0 -@exitGetReal - unlk a6 ; restore registers - movem.l (sp)+,GetRealRegs ; save working registers - cmp.w #getpageDesc,(sp)+ ; check for page getPageDesc call - bne.s @getRealDone ; IF this is the getPageDesc call THEN - move.l a2,a0 ; return page descriptor pointer -@getRealDone ; ENDIF - tst.w d3 -@done rts - ;---------------------------------------------------------------------------------- ; GetMMUInfo - Fills the global area with MMU-specific table information. @@ -224,358 +155,9 @@ ISOffset equ 12 ; bit offset into 851/030 TC of IS field pageSizeBit equ 14 ; bit number of page size bit in 68040 TC GetMMUInfo - cmpi.b #EMMU1,MMUType ; Do we have an Emulated MMU - beq @VMisOn ; -> Yes, just clear the Log2Phys field & Exit - cmp.b #PMMU040,MMUType ; check MMU type - beq.s @get040Info ; IF the MMU is an 851/030 THEN - pmove crp,theCRP(a6) ; get the 64-bit CRP value - pmove tc,theTc(a6) ; get TC value - move.l theTc(a6),d4 ; put TC into d4 - move.l #ISOffset,d3 ; get offset into TC of IS field - bfextu d4{d3:4},d0 ; get IS value - move.b d0,initShift(a6) ; save IS value in globals - add.l #4,d3 ; get offset into TC of TIA field - bfextu d4{d3:4},d0 ; get TIA value - move.b d0,levelOne(a6) ; save level one index width in globals - add.l #4,d3 ; get offset into TC of TIB field - bfextu d4{d3:4},d0 ; get TIB value - move.b d0,levelTwo(a6) ; save level one index width in globals - add.l #4,d3 ; get offset into TC of TIC field - bfextu d4{d3:4},d0 ; get TIC value - move.b d0,levelThree(a6) ; save level one index width in globals - add.l #4,d3 ; get offset into TC of TID field - bfextu d4{d3:4},d0 ; get TID value - move.b d0,levelFour(a6) ; save level one index width in globals - bra.s @gotInfo ; go check for log2Phys offset -@get040Info ; ELSE - MACHINE MC68040 ; use 68040 instructions - movec srp,d0 ; get 68040 srp - move.l d0,theSRP(a6) ; save the root ptr - move.l #0,theCRP(a6) ; 68040 only has a 32-bit root pointer - move.b #7,levelOne(a6) ; 68040 always uses 7 bits for first level - move.b #7,levelTwo(a6) ; 68040 always uses 7 bits for second level - move.b #5,levelThree(a6) ; assume 5 bits for 8k pages in third level - movec tc,d0 ; get 68040 tc - move.w d0,theTC(a6) ; store it in globals - btst #pageSizeBit,d0 ; check which page size we're using - bne.s @not4kPages ; IF we're using 4k pages - move.b #6,levelThree(a6) ; use 6 bits for 4k pages in third level -@not4kPages ; ENDIF - move.b #0,levelFour(a6) ; 68040 never has a fourth level - move.b #0,initShift(a6) ; 68040 never has an initial shift - MACHINE MC68030 ; switch back to 68030 instructions -@gotInfo ; ENDIF - move.l phys2log,myPhys2Log(a6) ; get our phys2log translation offset (Assume no vm) - - IF not forROM THEN ; Supermario is always 32bit capable - cmp.l #-1,ExpandMem ; is gestalt unimplemented? - beq.s @done ; IF gestalt is implemented THEN - move.l #gestaltAddressingModeAttr,d0 ; we need to find out 32-bit cleanliness - _Gestalt ; call Gestalt - tst.w d0 ; check for errors - bne.s @VMisOn ; >>EXIT on error - move.l a0,d0 ; get response in d0 - btst #gestalt32BitCapable,d0 ; check if phys2Log globals exists - beq.s @VMisOn ; >>EXIT on error - ENDIF - - ; Some history: Since GetMMUInfo cannot be making lengthy Gestalt calls to determine if VM is on - ; we would (previously) test the lomem where VM puts its globals to see it it had been initialized. - ; A problem arises when VM has saved its globals ptr in VMGlobals but has not yet whacked the MMU - ; tables and someone (VM) calls GetPhysical. An additional flag inside the VMGlobals has been added - ; that is set at the very end of VMs initalization. We now check it to determine if the MMU world - ; has been changed on us. SAM - ; - - ; Determine if VM is installed an running - - move.l VMGlobals,d0 ; Has VM installed its globals ptr (is it installed?) - ble.s @done ; -> No. Leave with Phys2Log offset set. - - move.l d0,a0 ; Globals in. Is VM actually running yet? - tst.b VMInstalled(a0) ; VM's Gestalt inited? - beq.s @done ; -> Nope, leave the offset alone - @VMisOn clr.l myPhys2log(a6) ; VM is on. No phys2log translation @done rts ; return - -;---------------------------------------------------------------------------------- -; checkTTRegs - Checks a logical address against the MMU's transparent -; translation registers. This routine assumes that the -; instruction and data TT registers contain identical information -; on the 68040. -; -; input: d2.l = logical address to check -; -; output: ccr.z is set if the address would be transparently translated -; -; destroys: d0-d1/d3-d4 -;---------------------------------------------------------------------------------- -checkTTRegs - cmp.b #PMMU040,MMUType ; check MMU type - beq.s @get040Regs ; IF the MMU is an 851/030 THEN - subq #4,sp ; create room on stack for tt values - pmove tt0,(sp) ; get tt0 value - move.l (sp),d0 ; store in d0 - pmove tt1,(sp) ; get tt1 value - move.l (sp),d1 ; store in d1 - addq #4,sp ; restore stack - bra.s @checkTTs ; continue with check -@get040Regs ; ELSE - MACHINE MC68040 ; use 68040 instructions - movec dtt0,d0 ; store tt0 in d0 - movec dtt1,d1 ; store tt1 in d1 - MACHINE MC68030 ; switch back to 68030 -@checkTTs ; ENDIF - btst #TTEnable,d0 ; see if tt0 is on - beq.s @checkTT1 ; IF tt0 is enabled THEN - move.l d2,d3 ; make a copy of the logical address - eor.l d0,d3 ; exclusive OR to leave ones in different bits - rol.l #8,d3 ; move upper 8-bits into low byte - swap d0 ; put logical address mask in low byte - not.b d0 ; invert logical address mask - and.b d0,d3 ; isolate bits we care about - beq.s @checkDone ; >>EXIT if we found a match -@checkTT1 ; ENDIF - btst #TTEnable,d1 ; see if tt1 is on - beq.s @notEnabled ; IF tt1 is enabled THEN - move.l d2,d3 ; make a copy of the logical address - eor.l d1,d3 ; exclusive OR to leave ones in different bits - rol.l #8,d3 ; move upper 8-bits into low byte - swap d1 ; put logical address mask in low byte - not.b d1 ; invert logical address mask - and.b d1,d3 ; isolate bits we care about - bra.s @checkDone ; go exit - ; ELSE -@notEnabled andi #$fffb,sr ; clear zero bit -@checkDone ; ENDIF - rts - - -;---------------------------------------------------------------------------------- -; translate030 - Translates a logical address to its corresponding physical -; address on a 68030. -; -; input: a6.l = pointer to globals -; d2.l = logical address to translate -; -; output: a0.l = physical address -; a2.l = ptr to page descriptor for translated address -; d3.w = result code -; -; destroys: d0-d1 -;---------------------------------------------------------------------------------- -tcSRE EQU 25 ; SRP Enable in TC for 851/030 -tcFCL EQU 24 ; Function code Lookup in TC for 851/030 -tcEnable030 EQU 31 ; MMU enable bit in TC on 851/030 -pageDesc EQU 1 ; page descriptor -valid4 EQU 2 ; valid 4 byte -valid8 EQU 3 ; valid 8 byte - -transRegs REG d4-d7 - -translate030 - movem.l transRegs,-(sp) ; save working registers - move.l theSRP(a6),d1 ; get root ptr - move.l theCRP(a6),d7 ; get limit in d7 - move.b d7,d3 ; get descriptor type in d3 - and.b #3,d3 ; isolate it - move.l theTC(a6),d0 ; get a copy of the TC in d0 - btst #tcSRE,d0 ; check for SRP mode - bne @paramErr ; >>EXIT if on - btst #tcFCL,d0 ; check for FCL mode - bne @paramErr ; >>EXIT if on - btst #tcEnable030,d0 ; check if MMU is on - bne.s @startTranslate ; IF MMU is off THEN - move.l d2,a1 ; return logical address unchanged - clr.l d1 ; return null for page descriptor addr - moveq #noErr,d3 ; return good status - bra.s @xlatDone ; >>EXIT with physical address -@startTranslate ; ENDIF - clr.l d4 ; clear offset into logical address - move.b initShift(a6),d4 ; add in initial shift - lea levelOne(a6),a1 ; point a1 at width of first field - clr.l d5 ; get a clear longword - move.b (a1)+,d5 ; get width of next field - -;----------------- -; a1.l = pointer to width of next field -; d1.l = current descriptor entry -; d2.l = logical address to translate -; d3.b = descriptor type of current descriptor -; d4.l = offset into logical address of index field -; d5.l = width of index field -; d7.l = limit of current descriptor -;----------------- -@xlatLoop ; LOOP (to walk an MMU table) - cmp.b #pageDesc,d3 ; is this a page descriptor? - beq.s @getPage ; >>BREAK on page descriptor - bfextu d2{d4:d5},d6 ; get index into next table - tst.l d7 ; is there a limit for this table? - beq.s @noLimit ; IF there is a limit THEN - jsr checkLimit ; check the index against the limit - bcs.s @paramErr ; >>EXIT on a limit overflow -@noLimit ; ENDIF - and.l #$fffffff0,d1 ; remove unused bottom byte - cmp.b #valid4,d3 ; check for 4-byte descriptor - bne.s @not4byte ; IF this is a four byte descriptor THEN - add.l myPhys2Log(a6),d1 ; convert current descriptor to logical addr - move.l d1,a2 ; get pointer to next table - lsl.w #2,d6 ; multiple index by four - add.l d6,a2 ; get address of next descriptor - move.l (a2),d1 ; get next descriptor - clr.l d7 ; no limit on this descriptor - move.b d1,d3 ; get a copy of descriptor - bra.s @doNext ; look at next descriptor -@not4byte ; ELSE - cmp.b #valid8,d3 ; check for 8-byte descriptor - bne.s @paramErr ; >>EXITLOOP on invalid descriptors - add.l myPhys2Log(a6),d1 ; convert current descriptor to logical addr - move.l d1,a2 ; get pointer to next table - lsl.w #3,d6 ; multiple index by eight - add.l d6,a2 ; get address of next descriptor - move.l 4(a2),d1 ; get lower word of next descriptor - move.l 0(a2),d7 ; get upper word of next descriptor - move.b d7,d3 ; get a copy of descriptor - -@doNext ; ENDIF - add.l d5,d4 ; update d4 to contain number of bytes decoded - move.b (a1)+,d5 ; get width of next field - and.b #3,d3 ; isolate descriptor type - bra.s @xlatLoop ; ENDLOOP -@getPage - move.l #32,d5 ; total number of bits in address - sub.l d4,d5 ; get number of bits not yet decoded - bfextu d1{0:d4},d0 ; get top bits of address of physical page - bfextu d2{d4:d5},d6 ; get offset into physical page - lsl.l d5,d0 ; make a base address out of it - add.l d6,d0 ; get physical address - move.l d0,a0 ; put address into a1 - moveq #noErr,d3 ; return no error -@xlatDone - movem.l (sp)+,transRegs ; restore registers - rts - -@paramErr - move.w #paramErr,d3 - bra.s @xlatDone - - -;---------------------------------------------------------------------------------- -; translate040 - Translates a logical address to its corresponding physical -; address on a 68040. -; -; input: a6.l = pointer to globals -; d2.l = logical address to translate -; -; output: a0.l = physical address -; a2.l = ptr to page descriptor for translated address -; d3.w = result code -; -; destroys: d0-d1 -;---------------------------------------------------------------------------------- -tcEnable040 EQU 15 ; MMU enable bit in TC on 68040 -UDTResident EQU 1 ; UDT resident bit in table descriptor -PDTResident EQU 1 ; PDT field value for a resident page -PDTIndirect EQU 2 ; PDT field value for an indirect page desc - -translate040 - movem.l transRegs,-(sp) ; save working registers - move.l theSRP(a6),d1 ; get root ptr in a2 - move.w theTC(a6),d0 ; get a copy of the TC in d0 - btst #tcEnable040,d0 ; check if MMU is on - bne.s @startTranslate ; IF MMU is off THEN - move.l d2,a0 ; return logical address unchanged - clr.l d1 ; return null for page descriptor addr - moveq #noErr,d3 ; return good status - bra.s @xlatDone ; >>EXIT with physical address - ; ENDIF -@startTranslate - clr.l d4 ; clear offset into logical address - clr.w d3 ; clear level counter - clr.l d5 ; get a clear longword - lea levelOne(a6),a1 ; init pointer to field widths -;----------------- -; a1.l = pointer to field width info -; d1.l = current descriptor entry -; d2.l = logical address to translate -; d3.w = level counter -; d4.l = offset into logical address of index field -;----------------- -@walkLoop ; LOOP (to walk 68040 table) - move.b (a1)+,d5 ; get width of first index field - move.l #(32-2),d0 ; get total bits in descriptor (table pointer/4) - sub.l d5,d0 ; get number of significant bits in table ptr - bfextu d1{0:d0},d1 ; get pointer to next table - lsl.l d5,d1 ; almost make a base address out of it - lsl.l #2,d1 ; make a base address out of it - bfextu d2{d4:d5},d6 ; get index into next table - lsl.w #2,d6 ; multiple index by four - add.l d6,d1 ; get address of next descriptor - add.l myPhys2Log(a6),d1 ; convert pointer to logical addr - move.l d1,a2 ; put into an address register - move.l (a2),d1 ; get next descriptor - cmp.w #2,d3 ; is this the third level - beq.s @getPage ; >>EXITLOOP if so - btst #UDTResident,d1 ; is it resident? - beq.s @paramErr ; >>EXIT if not - add.l d5,d4 ; update d4 to contain number of bytes decoded - add.w #1,d3 ; bump level count - bra.s @walkLoop ; ENDLOOP -@getPage - move.b d1,d0 ; get a copy of the page descriptor - and.b #3,d0 ; isolate PDT field - cmp.b #PDTResident,d0 ; is this page resident? - beq.s @residentPage ; IF it is not resident THEN - cmp.b #PDTIndirect,d0 ; check for indirect pointer - bne.s @paramErr ; >>EXIT if invalid - and.l #$fffffffc,d1 ; clear PDT field from indirect descriptor - add.l myPhys2Log(a6),d1 ; convert pointer to logical addr - move.l d1,a2 ; get address of page descriptor - move.l (a2),d1 ; get page descriptor -@residentPage ; ENDIF - add.l d5,d4 ; update d4 to contain number of bytes decoded cch - move.l #32,d5 ; total number of bits in address - sub.l d4,d5 ; get number of bits not yet decoded - bfextu d1{0:d4},d0 ; get address of physical page - bfextu d2{d4:d5},d6 ; get offset into physical page - lsl.l d5,d0 ; make a base address out of it - add.l d6,d0 ; get physical address - move.l d0,a0 ; put address into a0 - moveq #noErr,d3 ; return no error -@xlatDone - movem.l (sp)+,transRegs ; restore registers - rts - -@paramErr - move.w #paramErr,d3 - bra.s @xlatDone - - -;---------------------------------------------------------------------------------- -; checkLimit - Checks an index against a limit for an 8-byte descriptor. -; -; input: d6.l = index to be checked -; d7.l = upper word of descriptor -; -; output: ccr.c set on invalid index -; ccr.c clear on valid index -; -; destroys: d7 -;---------------------------------------------------------------------------------- - -checkLimit swap d7 ; get limit into low word - btst #15,d7 ; check type of limit - bne.s @lower ; IF it is an upper limit THEN - cmp.w d6,d7 ; compare upper limit - bra.s @limitExit ; ELSE -@lower and.w #$7fff,d7 ; remove l/u bit - cmp.w d7,d6 ; compare lower limit -@limitExit ; ENDIF - rts - - ENDWITH ENDP @@ -602,9 +184,6 @@ ProtectRegsPPC REG d2-d4 EDiskProtectPPC PROC EXPORT WITH GetRealVars - cmp.b #EMMU1,MMUType ; check to see if we have a PowerPC MMU - bne @paramErr ; >>EXIT if not - movem.l ProtectRegsPPC,-(sp) ; save working registers ;—————————————————————————————————— @@ -641,124 +220,6 @@ EDiskProtectPPC PROC EXPORT movem.l (sp)+,ProtectRegsPPC ; restore working registers @return rts -@paramErr move.w #paramErr,d0 ; return paramErr - bra.s @return - - ENDWITH - - ENDP - - - -;---------------------------------------------------------------------------------- -; EDiskProtect - Protects or unprotects the EDisk as specified. -; -; NOTE: This algorithm assumes that the Edisk space is the only space -; mapped by it's 1st level descriptor. -; -; input: d0.w = HwPriv selector #8 -; a0.l = 32-bit base address of EDisk -; a1.w = flag to protect or unprotect Edisk (1=protect) -; -; output: a0.l = pointer to the 1st-level table descriptor for the eDisk -; d0.w = result code -; -; destroys: d1/a1 -;---------------------------------------------------------------------------------- -ProtectRegs REG d2-d4/a2 - -EDiskProtect PROC EXPORT - IMPORT GetMMUInfo - IMPORT checkTTRegs - WITH GetRealVars - - cmp.b #PMMU851,MMUType ; check to see if we have an MMU - blo @bailNoMMU ; >>EXIT if not - - movem.l ProtectRegs,-(sp) ; save working registers - link a6,#GetRealSize ; allocate some room for our locals - -;—————————————————————————————————— -; 68K EDisk Write Protect Code -;—————————————————————————————————— -@noEMMU move.l a0,d2 ; get base address of Edisk - move.w a1,a2 ; save protect flag in a2 - - Move SR,D0 ; Get and save the SR. - Btst #13,D0 ; Are we in Supervisor mode? - Bne.s @noVM ; Yes? Then don't call _EnterSupervisorMode. - _EnterSupervisorMode ; Must be in supervisor mode (SR returned in D0). -@noVM - move.w d0,-(sp) ; save status register value - IF Supports24Bit THEN - move.b MMU32Bit,-(sp) ; save current MMU mode - bne.s @in32BitMode ; IF we're in 24-bit mode THEN - moveq #true32b,d0 ; we want to go to 32 bit addressing - _SwapMMUMode ; switch the MMU mode - bra.s @doTranslation ; go do the translation -@in32BitMode ; ELSE - ENDIF - jsr checkTTRegs ; check transparent translation regs - bne.s @doTranslation ; IF we matched a TT register THEN - move.l d2,a0 ; put the original address into a0 - moveq #paramErr,d3 ; return bad status - bra.s @cleanup ; >>EXIT with easy translation - ; ENDIF -@doTranslation ; ENDIF - jsr GetMMUInfo ; set up globals - clr.l d0 ; clear starting bit value - clr.l d1 ; clear bit field length - move.b initShift(a6),d0 ; get bit to start at, with initial shift, if any - move.b levelOne(a6),d1 ; get bit field length - bfextu d2{d0:d1},d0 ; get index into 1st-level table - lsl.l #2,d0 ; convert to a 4-byte entry pointer index - btst.b #0,theCRP+3(a6) ; is this an 8-byte table? - beq.s @is4Byte ; IF this is a 8-byte entry table THEN - lsl.l #1,d0 ; convert to an 8-byte entry pointer index -@is4Byte ; ENDIF - add.l theSRP(a6),d0 ; get the physical address of the 1st-level entry - add.l myPhys2Log(a6),d0 ; convert to a logical address - move.l d0,a0 ; save in a0 - -;------------ -; Change RAM disk protection -;------------ - - move.w #noErr,d3 ; return good result if we get here.

- bset #writeProtectBit,3(a0) ; set the write-protect bit - tst.w a2 ; check if protect flag is set - bne.s @protect ; IF we want to unprotect THEN - bclr #writeProtectBit,3(a0) ; clear the write-protect bit -@protect ; ENDIF - cmp.b #cpu68040,CPUFlag ; check for processor type - bne.s @not040 ; IF on a 68040 THEN - MACHINE MC68040 ; - pflusha ; flush the ATC regs - bra.s @cleanup ; ELSE - MACHINE MC68030 ; -@not040 jsr ([jCacheFlush]) ; flush caches since they're logical

- pflusha ; flush the ATC regs - ; ENDIF - -;------------ -; d3.w = result code -; a0.l = physical address if successful -;------------ -@cleanup - IF Supports24Bit THEN - move.b (sp)+,d0 ; get original MMU mode - bne.s @skipMMUSwap ; IF we were originally in 24-bit mode THEN - _SwapMMUMode ; swap back to it -@skipMMUSwap ; ENDIF - ENDIF - move.w (sp)+,d0 ; get status register value - move d0,sr ; restore status register - move.w d3,d0 ; return result in d0 -@return unlk a6 - movem.l (sp)+,ProtectRegs ; restore working registers -@bailNoMMU - rts - ENDWITH ;——————————————————————————————————————————————————————————————————————— ; That's all folks. diff --git a/OS/MMU/MMU.a b/OS/MMU/MMU.a --- a/OS/MMU/MMU.a +++ b/OS/MMU/MMU.a @@ -121,7 +121,7 @@ PRINT OFF LOAD 'StandardEqu.d' INCLUDE 'HardwarePrivateEqu.a' - INCLUDE 'SoundPrivate.a' +; INCLUDE 'SoundPrivate.a' INCLUDE 'MMUEqu.a' INCLUDE 'BootEqu.a' INCLUDE 'UniversalEqu.a' @@ -129,7 +129,7 @@ MACHINE MC68030 MMUStuff PROC - EXPORT InitMMUGlobals, InitMMUTrap, MMUCleanupFor8Mb, SwitchMMU + EXPORT InitMMUGlobals, InitMMUTrap, SwitchMMU IMPORT BaseOfROM, Critical, PramIO, RamTest IMPORT RomLoc @@ -195,51 +195,14 @@ InitMMUGlobals @NoSwap rts @swaps dc.w @NoSwap-@swaps ; No MMU: no swap routine! - dc.w SwapHMMU-@swaps ; offset to HMMU swap routine + dc.w @NoSwap-@swaps ; offset to HMMU swap routine dc.w @NoSwap-@swaps ; MMB not supported: no swap routine! - dc.w Swap851-@swaps ; offset to 68851 PMMU swap routine + dc.w @NoSwap-@swaps ; offset to 68851 PMMU swap routine dc.w Swap030-@swaps ; offset to 030 PMMU swap routine - dc.w Swap040-@swaps ; offset to 040 PMMU swap routine + dc.w @NoSwap-@swaps ; offset to 040 PMMU swap routine dc.w @NoSwap-@swaps ; future expansion dc.w @NoSwap-@swaps ; future expansion -;----- <3.1> -; MMUCleanupFor8Mb - copies MMU info (tc, crp, tt0, tt1) to below BufPtr. -; -; This is called on systems supporting 24 bit mode that have more than 8mb of RAM -; installed. The MMU info must be at a place that can be accessed in 24 bit mode, -; since the Swap MMU code must access it! -; -; Entry -; System is in 32 bit mode -; MMU24Info (long) points to 24 bit mode MMU configuration info in BootGlobs -; MMU32Info (long) points to 32 bit mode MMU configuration info in BootGlobs -; Exit -; MMU24Info (long) points to 24 bit mode MMU configuration info below BufPtr -; MMU32Info (long) points to 32 bit mode MMU configuration info below BufPtr -; -; Trashes -; d0/a0-a2 -;--- - - WITH MMUConfigInfo - -MMUCleanupFor8Mb - move.l BufPtr,a0 ; get top useable memory - suba.w #2*MMUInfoSize,a0 ; allocate space for config info - move.l a0,BufPtr ; update top useable memory - lea MMU32Info,a1 ; point at ptr to 32 bit mode info - bsr.s @doCopy ; copy it down - lea MMU24Info,a1 ; point at ptr to 32 bit mode info -@doCopy move.l (a1),a2 ; get ptr to info in BootGlobs - move.l a0,(a1) ; update ptr w/new stuff below BufPtr - moveq #MMUInfoSize-1,d0 ; loop counter -@copy move.b (a2)+,(a0)+ ; copy next byte - dbra d0,@copy ; repeat for all bytes - rts - - ENDWITH ; {MMUConfigInfo} - ;----- ; Swap32Only - null MMU swap, used when system has 32 bit addressing only ; @@ -256,84 +219,6 @@ Swap32Only rts -;----- -; Swap851 - switches 68851 PMMU between 24 & 32 bit modes. -; -; Entry -; d0.b 0 to set 24-bit mode, non-zero to set 32-bit mode. -; -; Exit -; MMU32Bit updated with passed value of d0 -; d0.l has previous value of MMU32Bit -; MMU is switched into the desired mode -; -; Trashes: -; d1/a0/a1 -;--- - -Swap851 move.b d0,d1 ; check what mode we are going to, set up d1 - bne.s @to32 ; IF we want 24 bit mode - moveq #0,d0 ; clear return register - move.b MMU32bit,d0 ; see what mode we're in now - beq.s @endif ; IF in 32 bit mode now - move sr,-(sp) ; save current interrupt status - ori #HiIntMask,sr ; disable interrupts during switch - move.l MMU24Info,a0 ; get ptr to 24 bit mode info - bra.s @swap ; go to common swap code - ; ENDIF -@to32 ; ELSE (we want 32 bit mode) - moveq #0,d0 ; clear return register - move.b MMU32bit,d0 ; see what mode we're in now - bne.s @endif ; IF in 24 bit mode - move sr,-(sp) ; save current interrupt status - ori #HiIntMask,sr ; disable interrupts during switch - move.l MMU32Info,a0 ; get ptr to 32 bit mode info - - IF forRomulator THEN ; Assume logical PC <> physical PC <3.7> - -@swap moveq.l #1,d0 ; unset zero flag <3.7> - bra.s @doSwap ; go put PMOVE to TC into i-cache <3.7> -@inCache moveq.l #0,d0 ; set zero flag <3.7> - pmove theCRP(a0),CRP ; set the root pointer <3.7> - lea theTC(a0),a1 ; get address of TC <3.7> - bra.s @doSwap ; go swap modes from i-cache <3.7> - - ; NOTE: the following instructions are put <3.7> - ; . in the i-cache, thus the 4 byte instructions<3.7> - ; . to be executed must start on odd word <3.7> - ; . boundaries so that they are put in on the <3.7> - ALIGN 4 ; . first pass through <3.7> -@doSwap bne.s @step ; (2 bytes) if zero flag not set, skip pmove <3.7> - pmove theCRP(a0),TC ; (4 bytes) disable the 851 <3.7> - ; NOTE: the 851 must be disabled before <3.7> - ; . the TC can be changed. The CRP always <3.7> - ; . has the high bit off, and can be used to <3.7> - ; . disable MMU. Also note that "theCRP" is <3.7> - ; . zero, causing this instruction to be 4 bytes<3.7> -@step nop ; (2 bytes) force next inst to start on odd word<3.7> - bne.s @chk ; (2 bytes) if zero flag not set, skip pmove <3.7> - pmove (a1),TC ; (4 bytes) fire up new TC, flush ATC <3.7> -@chk beq.s @swapped ; (2 bytes) if zero flag set, we're done <3.7> - bra.s @inCache -@swapped ; <3.7> - - ELSE ; <3.7> - -@swap pmove theCRP(a0),tc ; disable the MMU so we can load a new TC value <3.8> - pmove theCRP(a0),crp ; set crp -@thePmove pmove theTC(a0),tc ; fire up the TC - - ENDIF - pflusha ; clean out dirty ATC entries - move.b d1,MMU32Bit ; update global w/new mode flag - movec cacr,d1 ; get cache control register - ori.w #$0008,d1 ; set i-cache 'flush' bit - movec d1,cacr ; flush instruction caches - move (sp)+,sr ; restore interrupt mask - ; ENDIF -@endif ; ENDIF - rts - ;----- ; Swap030 - switches 030 PMMU between 24 & 32 bit modes. ; @@ -383,122 +268,6 @@ Swap030 move.b d0,d1 ; check what mode we are going to, set up d1 rts -;----- -; Swap040 - switches 040 PMMU between 24 & 32 bit modes. <7> -; -; Entry -; d0.b 0 to set 24-bit mode, non-zero to set 32-bit mode. -; -; Exit -; MMU32Bit updated with passed value of d0 -; d0.l has previous value of MMU32Bit -; MMU is switched into the desired mode -; -; Trashes: -; d1/a0 -;--- - - machine mc68040 - -Swap040 move.b d0,d1 ; check what mode we are going to, set up d1 - bne.s @to32 ; IF we want 24 bit mode - moveq #0,d0 ; clear return register - move.b MMU32bit,d0 ; see what mode we're in now - beq.s @endif ; IF in 32 bit mode now - move.l MMU24Info,a0 ; get ptr to 24 bit mode info - bra.s @swap ; go to common swap code - ; ENDIF -@to32 ; ELSE (we want 32 bit mode) - moveq #0,d0 ; clear return register - move.b MMU32bit,d0 ; see what mode we're in now - bne.s @endif ; IF in 24 bit mode - move.l MMU32Info,a0 ; get ptr to 32 bit mode info -@swap move sr,-(sp) ; save current interrupt status - ori #HiIntMask,sr ; disable interrupts during switch - move.b d1,MMU32Bit ; update global w/new mode flag - move.l theTT0(a0),d1 ; get transparent translation reg 0 value - movec d1,itt0 ; load the instruction TT0 reg - movec d1,dtt0 ; load the data TT0 reg with the same value - move.l theTT1(a0),d1 ; get transparent translation reg 1 value - movec d1,itt1 ; load the instruction TT0 reg - movec d1,dtt1 ; load the data TT0 reg with the same value - move.l theTC(a0),d1 ; get the TC value in d1 - move.l theSRP(a0),a0 ; get the SRP value in a0 - movec a0,SRP ; set the SRP with new pointer - movec d1,TC ; set the TC with the new value - pflusha ; flush the ATC entries - move (sp)+,sr ; restore interrupt mask - ; ENDIF -@endif ; ENDIF - rts - - machine mc68030 ; - -;----- -; SwapHMMU - switches HMMU between 24 & 32 bit modes. -; -; This routine has a fix for the problem of losing sound interrupts when switching -; MMU modes. On HMMU Mac II's, a bit on Via2 portB switches the MMU mode. -; Unfortunately, hitting this bit clears the CB1 interrupt flag, which is -; the ASC interrupt. -; -; Since the interrupt handlers all call SwapMMUMode to switch into 24 bit mode -; before processing interrutps, an ASC interrupt that occurs after the -; original interrupt could be lost. -; -; This routine reduces the window for losing ASC interrupts to the minimum -; possible, which is half an instruction. After switching MMU modes, -; it checks the ASC's interrupt register, and if any interrupts are present -; (but lost because the CB1 flag was cleared), it OR's the interrupt register back -; to itself. The ASC then generates a new interrupt. -; -; Entry -; d0.b 0 to set 24-bit mode, non-zero to set 32-bit mode. -; -; Exit -; MMU32Bit updated with passed value of d0 -; d0.l has previous value of MMU32Bit -; MMU is switched into the desired mode -; -; Trashes: -; d1/a0 -;--- - -SwapHMMU - move.b d0,d1 ; check what mode desired, save it - bne.s @1 ; IF we want 24 bit mode - moveq #0,d0 ; clear return register - move.b MMU32bit,d0 ; see what mode we're in now - beq.s @3 ; IF in 32 bit mode now - move sr,-(sp) ; save current interrupt status - ori #HiIntMask,sr ; disable interrupts during switch - move.l VIA2RBV,a0 ; get ptr to 2nd Via - bclr #vFC3,vBufB(a0) ; throw us into 24 bit mode - bra.s @common ; (re-use common code) -@1 ; ELSE (we want 32 bit mode) - moveq #0,d0 ; clear return register - move.b MMU32bit,d0 ; see (and return) what mode we're in now - bne.s @3 ; IF in 24 bit mode now - move sr,-(sp) ; save current interrupt status - ori #HiIntMask,sr ; disable interrupts during switch - move.l VIA2RBV,a0 ; get ptr to 2nd Via - bset #vFC3,vBufB(a0) ; throw us into 32 bit mode -@common move.b d1,MMU32Bit ; update global w/new mode flag - movec cacr,d1 ; get cache control register - bset #3,d1 ; set icache flush bit - movec d1,cacr ; flush da cache, Guido - move.l ASCBase,a0 ; point to ASC - adda.w #ascFifoInt,a0 ; point to ASC interrupt register - move.b (a0),d1 ; get ASC interrupt register - beq.s @2 ; IF ASC thinks interrupt is pending - or.b d1,(a0) ; re-generate interrupt to VIA's CB1 -@2 ; ENDIF - move (sp)+,sr ; restore interrupt mask - ; ENDIF -@3 ; ENDIF - rts - - ;--------------------------------------------------- ; MMU switch code, for Unix & Pink. ; @@ -525,33 +294,6 @@ SwapHMMU SwitchMMU -@TestCPU sub.l d0,d0 ; D0 = 0 - bset #CACR_DE_040,d0 ; set Data Cache Enable bit on 040s - movec d0,CACR ; attempt to enable data cache (temporarily) - movec CACR,d0 ; check and see if it's still there - btst #CACR_DE_040,d0 ; see if the bit exists in CACR - beq.s @isNot040 - - - MACHINE MC68040 ; IF we're on a 68040 THEN - -@is040 movec CACR,d0 ; retrieve cache control register - move.l d0,d1 ; save a copy for later restoration - sub.l d0,d0 ; clear D0 to disable caches (see diagram above) - movec d0,CACR ; disable both caches - movec d0,TC ; disable the ATC - pflusha ; flush ATC - movea.l theCRP(a0),a2 ; retrieve the new CRP (= URP on the 040) into D0 - move.l theTC(a0),d0 ; retrieve the new TC into D0 - movec a2,URP ; set up the URP - movec d0,TC ; ... and the TC - cpusha bc ; flush both caches (dirty data only pushed out of - ; the data cache. inst. cache CPUSH = CINV) - movec d1,cacr ; re-enable caches - bra.s @allDone - - MACHINE MC68030 ; ELSE we're on a 68030/68020 - @isNot040 movec cacr,d0 ; get 020/030 cache control reg move.w d0,d1 ; save it andi #$FEFE,d0 ; clear cache enable bits diff --git a/OS/MMU/MMUTables.a b/OS/MMU/MMUTables.a --- a/OS/MMU/MMUTables.a +++ b/OS/MMU/MMUTables.a @@ -238,7 +238,6 @@ MACHINE MC68030 MMUStuff PROC EXPORT InitMMU - EXPORT Trans IMPORT BaseOfROM, Critical, PramIO, RamTest IMPORT RomLoc IMPORT SizeSoundBuffer @@ -267,16 +266,6 @@ MMUStuff PROC ; is set. ;--- - MACRO -&label Setup &tc,&tt0,&tt1,&template,&special,&physical -&label dc.l &tc - dc.l &tt0 - dc.l &tt1 - dc.w &template-&label - dc.w &special-&label - dc.w &physical-&label - ENDM - MMUSetupInfo RECORD 0,INCR newtc ds.l 1 ; translation control register newtt0 ds.l 1 ; transparent translation reg 0 @@ -289,44 +278,6 @@ size equ * ; size of each table entry WITH MMUSetupInfo -; transp. transp offset to offset to offset to -; TC xlat 0 xlat 1 template special template physical template -; -------- --------- --------- ----------- ---------------- ---------------- -contig24 Setup $80F84500, 0, 0, template24, 0, physNormal -contig32 Setup $80F05750, 0, 0, template32, void32, physNormal -split24 Setup $80F84500, 0, 0, template24, 0, physNormal -split1mb32 Setup $80F05750, 0, 0, template32, void32, physNormal -split2mb32 Setup $80F05660, 0, 0, template32, void32, physNormal -split4mb32 Setup $80F05570, 0, 0, template32, void32, physNormal -split8mb32 Setup $80F05480, 0, 0, template32, void32, physNormal -split16mb32 Setup $80F08900, 0, 0, template32, void32, physNormal -split32mb32 Setup $80F07A00, 0, 0, template32, void32, physNormal -split64mb32 Setup $80F06B00, 0, 0, template32, void32, physNormal -Rbv24b Setup $80F84500, 0, 0, template24RBVb, 0, physRBVb ; <11> -Rbv32b Setup $80F05750, 0, 0, Template32RBVb, void32RBVb, physRBVb ; <11> -Rbv24e Setup $80F84500, 0, 0, template24RBVe, 0, physRBVe ; <11> -Rbv32e Setup $80F05750, 0, 0, Template32RBVe, void32RBVe, physRBVe ; <11> -orwell24 Setup $C000, 0, 0, template24Orwell, 0, physOrwell ; -orwell32 Setup $C000, $F900C060, $807FC040, Template32Orwell, void32Orwell, physOrwell ; -Jaws24 Setup $80F84500, 0, 0, template24Jaws, 0, physLCD ; <9> -Jaws32 Setup $80F05750, 0, 0, template32Jaws, void32Jaws, physLCD ; <9> -MSC24 Setup $80D86500, 0, 0, template24MSC, 0, physMSC ; -MSC32 Setup $80D07750, $600F8507, $807F8507, template32MSC, void32MSC, physMSC ; -MSC24040 Setup $C000, 0, 0, template24MSC040, 0, physMSC ; -MSC32040 Setup $C000, $600FC060, $807FC060, template32MSC040, void32MSC, physMSC ; -Niagra24 Setup $80D86500, 0, 0, template24Niagra, 0, physNiagra ; -Niagra32 Setup $80D07750, $600F8507, 0, template32Niagra, void32Niagra, physNiagra ; -Sonora24 Setup $80D86500, 0, 0, template24Sonora, 0, physSonora ; -Sonora32 Setup $80D07750, $600F8507, $807F8507, template32Sonora, void32Sonora, physSonora ; -FstrFrms24 Setup $80F84500, 0, 0, templateFF24, 0, physFF ; CSS -FstrFrms32 Setup $80F05750, 0, 0, templateFF32, 0, physFF ; CSS -YMCA24 Setup $C000, 0, 0, template24YMCA, 0, physYMCA ; CSS -YMCA32 Setup $C000, $F900C060, $807FC040, Template32YMCA, void32YMCA, physYMCA ; CSS -SnraForty24 Setup $C000, 0, 0, template24SnraFrty, 0, physSonora ; -SnraForty32 Setup $C000, $600FC060, $807FC040, template32SnraFrty, void32Sonora, physSonora ; -Pratt24 Setup $C000, 0, 0, template24Pratt, 0, physPratt ; -Pratt32 Setup $C000, $A01FC040, $600FC060, template32Pratt, void32Pratt, physPratt ; - ;----- ; The template tables describe the logical to physical address mapping. ; @@ -540,417 +491,6 @@ physNflag ds.l 1 ; suggested physical address, & flags <7> tEntrySize equ * ; size of a template entry ENDR - MACRO -&label tp &span,&physNflag -&label dc.l &span - dc.l &physNflag ; <7> - ENDM - -Template32 - tp bRom32-bRam, isRAM ; RAM - tp bEyeOh32-bRom32, isROM32 ; ROM - tp bRamDisk-bEyeOh32, isThru+cInhibit ; i/o and/or video - tp (bRamDisk+EDskMaxSize)-bRamDisk, isEdisk ; Ram Disk - tp bTop32Less1-(bRamDisk+EDskMaxSize)+1, isThru+cInhibit ; slots - -Template32RBVb ; RBV in Slot B - tp bRom32-bRam, isRAM ; RAM - tp bEyeOh32-bRom32, isROM32 ; ROM - tp bRamDisk-bEyeOh32, isThru+cInhibit ; i/o - tp (bRamDisk+EDskMaxSize)-bRamDisk, isEdisk ; Ram Disk - tp RBVWrap32b-(bRamDisk+EDskMaxSize), isThru+cInhibit ; slots - tp RBVBase32b-RBVWrap32b, isVidWrap ; wrap area <11> - tp RBVEnd32b-RBVBase32b, isVideo ; frame buffer area <11> - tp (bTop32Less1-RBVEnd32b)+1, isThru+cInhibit ; rest of slots <11> - -Template32RBVe ; RBV in Slot E <11> - tp bRom32-bRam, isRAM ; RAM - tp bEyeOh32-bRom32, isROM32 ; ROM - tp bRamDisk-bEyeOh32, isThru+cInhibit ; i/o - tp (bRamDisk+EDskMaxSize)-bRamDisk, isEdisk ; Ram Disk - tp RBVWrap32e-(bRamDisk+EDskMaxSize), isThru+cInhibit ; slots - tp RBVBase32e-RBVWrap32e, isVidWrap ; wrap area - tp RBVEnd32e-RBVBase32e, isVideo ; frame buffer area - tp (bTop32Less1-RBVEnd32e)+1, isThru+cInhibit ; rest of slots - -Template32Orwell ; <7> - tp bRealRom32-bRam, isRAM+c040CopyBack ; RAM - tp (bRealRom32+ROMMaxSize)-bRealRom32, isROM32+c040CopyBack; ROM - tp bRealEyeOh32-(bRealRom32+ROMMaxSize), isVoid ; Invalid - tp bNonSerEyeOh-bRealEyeOh32, isThru+c040InhibitSer ; ser i/o - tp (bNonSerEyeOh+IOMaxSize)-bNonSerEyeOh, isThru+c040InhibitNonSer ; non-ser i/o - tp bRamDisk-(bNonSerEyeOh+IOMaxSize), isVoid ; Invalid - tp (bRamDisk+EDskMaxSize)-bRamDisk, isEdisk+c040CopyBack ; Ram Disk - tp (bTop32Less1-(bRamDisk+EDskMaxSize))+1, isVoid ; slots (uses TTx regs) - -Template32Jaws - tp bRom32-bRam, isRAM ; RAM - tp bEyeOh32-bRom32, isROM32 ; ROM - tp bRamDisk-bEyeOh32, isThru+cInhibit ; i/o - tp (bRamDisk+EDskMaxSize)-bRamDisk, isEdisk ; Ram Disk - tp LCDWrap32-(bRamDisk+EDskMaxSize), isThru+cInhibit ; slots - tp LCDBase32-LCDWrap32, isVidWrap ; wrap area - tp LCDEnd32-LCDBase32, isVideoRAM ; frame buffer area - tp (bTop32Less1-LCDEnd32)+1, isThru+cInhibit ; rest of slots - -Template32MSC ; - tp bRealRom32-bRam, isRAM+FullTbl ; RAM - tp (bRealRom32+ROMMaxSize)-bRealRom32, isROM32+FullTbl ; ROM - tp bRealEyeOh32-(bRealRom32+ROMMaxSize), isVoid ; Invalid - tp b32VidBase-bRealEyeOh32, isThru+cInhibit ; i/o - tp bRamDisk-b32VidBase, isVoid ; video (uses TT0) - tp (bRamDisk+EDskMaxSize)-bRamDisk, isEdisk ; Ram Disk - tp bTop32Less1-(bRamDisk+EDskMaxSize)+1, isVoid ; slots (uses TT1) - -Template32MSC040 - tp bRealRom32-bRam, isRAM+c040CopyBack ; RAM - tp (bRealRom32+ROMMaxSize)-bRealRom32, isROM32+c040CopyBack ; ROM - tp bRealEyeOh32-(bRealRom32+ROMMaxSize), isVoid ; Invalid - tp b32VidBase-bRealEyeOh32, isThru+c040InhibitSer ; i/o - tp bRamDisk-b32VidBase, isVoid ; video (uses TT0) - tp (bRamDisk+EDskMaxSize)-bRamDisk, isEdisk ; Ram Disk - tp bTop32Less1-(bRamDisk+EDskMaxSize)+1, isVoid ; slots (uses TT1) - -Template32SnraFrty ; - tp bRealRom32-bRam, isRAM+c040CopyBack ; RAM - tp (bRealRom32+ROMMaxSize)-bRealRom32, isROM32+c040CopyBack ; ROM - tp bRealEyeOh32-(bRealRom32+ROMMaxSize), isVoid ; Invalid - tp bNonSerEyeOh-bRealEyeOh32, isThru+c040InhibitSer ; ser i/o - tp (bNonSerEyeOh+IOMaxSize)-bNonSerEyeOh, isThru+c040InhibitNonSer; non-ser i/o - tp (b32VidBase-$2000)-(bNonSerEyeOh+IOMaxSize), isVoid ; Invalid - tp b32VidBase-(b32VidBase-$2000), isThru+c040InhibitSer ; CPU ID Register - tp bRamDisk-b32VidBase, isVoid ; Video (uses TTx regs) - tp (bRamDisk+EDskMaxSize)-bRamDisk, isEdisk+c040CopyBack ; Ram Disk - tp (bTop32Less1-(bRamDisk+EDskMaxSize))+1, isVoid ; slots (uses TTx regs) - -Template32Sonora ; - tp bRealRom32-bRam, isRAM+FullTbl ; RAM - tp (bRealRom32+ROMMaxSize)-bRealRom32, isROM32+FullTbl ; ROM - tp bRealEyeOh32-(bRealRom32+ROMMaxSize), isVoid ; Invalid - tp b32VidBase-bRealEyeOh32, isThru+cInhibit ; I/O - tp bRamDisk-b32VidBase, isThru+cInhibit ; Video (uses TT0) - tp (bRamDisk+EDskMaxSize)-bRamDisk, isEdisk ; Ram Disk - tp bTop32Less1-(bRamDisk+EDskMaxSize)+1, isVoid ; slots (uses TT1) - -Template32Niagra ; - tp bRealRom32-bRam, isRAM+FullTbl ; RAM - tp (bRealRom32+ROMMaxSize)-bRealRom32, isROM32+FullTbl ; ROM - tp bRealEyeOh32-(bRealRom32+ROMMaxSize), isVoid ; Invalid - tp b32VidBase-bRealEyeOh32, isThru+cInhibit ; i/o - tp bRamDisk-b32VidBase, isVoid ; video (uses TT0) - tp (bRamDisk+EDskMaxSize)-bRamDisk, isEdisk ; Ram Disk - tp b32SlotE-(bRamDisk+EDskMaxSize), isThru+cInhibit ; slots thru E - tp (b32SlotF-DeclRomSize)-b32SlotE, isThru+cInhibit ; slot E up to config ROM - tp b32SlotF-(b32SlotF-DeclRomSize), bRealRom32+isMap+cInhibit ; slot E Config ROM - tp bTop32Less1-b32SlotF+1, isThru+cInhibit ; slots - -Template32YMCA ; CSS - tp bRealRom32-bRam, isRAM+c040CopyBack ; RAM - tp (bRealRom32+ROMMaxSize)-bRealRom32, isROM32+c040CopyBack; ROM - tp bVideo32-(bRealRom32+ROMMaxSize), isVoid ; Invalid - tp bVRAM32 -bVideo32, isThru+c040InhibitNonSer ; non-ser video I/O. - tp (bVRAM32+VRAMMaxSize)-bVRAM32, isThru+c040InhibitNonSer ; non-ser VRAM. - tp bRealEyeOh32 -(bVRAM32+VRAMMaxSize), isVoid ; Invalid - tp bNonSerEyeOh-bRealEyeOh32, isThru+c040InhibitSer ; ser i/o - tp (bNonSerEyeOh+IOMaxSize)-bNonSerEyeOh, isThru+c040InhibitNonSer ; non-ser i/o - tp bRamDisk-(bNonSerEyeOh+IOMaxSize), isVoid ; Invalid - tp (bRamDisk+EDskMaxSize)-bRamDisk, isEdisk+c040CopyBack ; Ram Disk - tp (bTop32Less1-(bRamDisk+EDskMaxSize))+1, isVoid ; slots (uses TTx regs) - -Template32Pratt - tp bRom32-bRam, isRAM+c040CopyBack ; RAM - -; IMPORTANT! The following two lines contain the expression 2*ROMMaxSize so that we can overlay -; the emulation monitor for the HP 040 emulator into a valid address range. For the final product, -; we don't need the factor of 2 (i.e. just use ROMMaxSize instead). - tp (bRom32+2*ROMMaxSize)-bRom32, isROM32+c040CopyBack ; ROM - tp bEyeOh32-(bRom32+2*ROMMaxSize), isVoid ; Invalid - - tp bNonSerIO-bEyeOh32, isThru+c040InhibitSer ; ser i/o - tp b32VidBase-bNonSerIO, isThru+c040InhibitNonSer ; non-ser i/o - tp bRamDisk-b32VidBase, isVoid ; Invalid - tp (bRamDisk+EDskMaxSize)-bRamDisk, isEdisk+c040CopyBack ; Ram Disk - tp b32SlotA-(bRamDisk+EDskMaxSize), isVoid ; Invalid - tp b32SlotC-b32SlotA, isThru+c040InhibitSer ; Minor slot spaces A and B - tp b32SlotE-b32SlotC, isVoid ; Invalid - tp (b32SlotF-DeclRomSz)-b32SlotE, isThru+c040InhibitSer ; map beginning of slot E thru - tp b32SlotF-(b32SlotF-DeclRomSz), ($402e0000-DeclRomSz)+isMap+c040InhibitSer; slot E Config ROM - tp bTop32Less1-b32SlotF+1, isVoid ; slot f not used - -Template24 - tp bRom24-bRam, isRAM ; RAM - tp b24Slot9-bRom24, isROM24 ; ROM - tp b24SlotA-b24Slot9, b32Slot9+isMap+cInhibit ; minor slot 9 <7> - tp b24SlotB-b24SlotA, b32SlotA+isMap+cInhibit ; minor slot A <7> - tp b24SlotC-b24SlotB, b32SlotB+isMap+cInhibit ; minor slot B <7> - tp b24SlotD-b24SlotC, b32SlotC+isMap+cInhibit ; minor slot C <7> - tp b24SlotE-b24SlotD, b32SlotD+isMap+cInhibit ; minor slot D <7> - tp bEyeOh24-b24SlotE, b32SlotE+isMap+cInhibit ; minor slot E <7> - tp (bTop24Less1-bEyeOh24)+1, bEyeOh32+isMap+cInhibit ; i/o <7> - -Template24RBVb ; RBV in Slot B <11> - tp bRom24-bRam, isRAM ; RAM - tp b24Slot9-bRom24, isROM24 ; ROM - tp b24SlotA-b24Slot9, b32Slot9+isMap+cInhibit ; minor slot 9 <7> - tp RBVWrap24b-b24SlotA, b32SlotA+isMap+cInhibit ; minor slot A <7><11> - tp RBVBase24b-RBVWrap24b, isVidWrap ; wrap area <11> - tp RBVEnd24b-RBVBase24b, isVideo ; frame buffer area <11> - tp b24SlotD-RBVEnd24b, b32SlotC+isMap+cInhibit ; minor slot C <7><11> - tp b24SlotE-b24SlotD, b32SlotD+isMap+cInhibit ; minor slot D <7> - tp bEyeOh24-b24SlotE, b32SlotE+isMap+cInhibit ; minor slot E <7> - tp bTop24Less1-bEyeOh24+1, bEyeOh32+isMap+cInhibit ; i/o <7> - -Template24RBVe ; <11> - tp bRom24-bRam, isRAM ; RAM - tp b24Slot9-bRom24, isROM24 ; ROM - tp b24SlotA-b24Slot9, b32Slot9+isMap+cInhibit ; minor slot 9 - tp b24SlotB-b24SlotA, b32SlotA+isMap+cInhibit ; minor slot A - tp b24SlotC-b24SlotB, b32SlotB+isMap+cInhibit ; minor slot B - tp b24SlotD-b24SlotC, b32SlotC+isMap+cInhibit ; minor slot C - tp RBVWrap24e-b24SlotD, b32SlotD+isMap+cInhibit ; minor slot D - tp RBVBase24e-RBVWrap24e, isVidWrap ; wrap area - tp RBVEnd24e-RBVBase24e, isVideo ; frame buffer area - tp bEyeOh24-RBVEnd24e, isVoid ; invalid - tp bTop24Less1-bEyeOh24+1, bEyeOh32+isMap+cInhibit ; i/o - -Template24Orwell ; <7> - tp bRom24-bRam, isRAM+c040CopyBack ; RAM <16> - tp b24Slot9-bRom24, isROM24+c040CopyBack ; ROM <16> - tp b24SlotA-b24Slot9, b32Slot9+isMap+c040InhibitNonSer ; minor slot 9 <16> - tp b24SlotB-b24SlotA, b32SlotA+isMap+c040InhibitSer ; minor slot A <16> - tp b24SlotC-b24SlotB, b32SlotB+isMap+c040InhibitSer ; minor slot B <16> - tp b24SlotD-b24SlotC, b32SlotC+isMap+c040InhibitSer ; minor slot C <16> - tp b24SlotE-b24SlotD, b32SlotD+isMap+c040InhibitSer ; minor slot D <16> - tp bEyeOh24-b24SlotE, b32SlotE+isMap+c040InhibitSer ; minor slot E <16> - tp IOMaxSize,bRealEyeOh32+isMap+c040InhibitSer ; serialized i/o - tp IOMaxSize,bNonSerEyeOh+isMap+c040InhibitNonSer ; nonserialized i/o - tp bTop24Less1-(bEyeOh24+(2*IOMaxSize))+1, isVoid ; void - tp bTop32Less1-bTop24Less1+1, isWrap24 ; 24-bit wrap area - -Template24Jaws ; <9> - tp bRom24-bRam, isRAM ; RAM - tp b24Slot9-bRom24, isROM24 ; ROM <13> - tp LCDWrap24-b24Slot9, isVoid ; invalid <13> - tp LCDBase24-LCDWrap24, isVidWrap ; wrap area - tp LCDEnd24-LCDBase24, isVideoRAM ; frame buffer area - tp bEyeOh24-LCDEnd24, isVoid ; invalid - tp bTop24Less1-bEyeOh24+1, bEyeOh32+isMap+cInhibit ; i/o - -Template24MSC ; - tp bRom24-bRam, isRAM+FullTbl ; RAM - tp b24Slot9-bRom24, isROM24+FullTbl ; ROM - tp b24SlotA-b24Slot9, b32Slot9+isMap+cInhibit ; minor slot 9 - tp b24SlotB-b24SlotA, b32SlotA+isMap+cInhibit ; minor slot A - tp b24SlotC-b24SlotB, b32SlotB+isMap+cInhibit ; minor slot B - tp b24SlotD-b24SlotC, b32SlotC+isMap+cInhibit ; minor slot C - tp b24SlotE-b24SlotD, b32SlotD+isMap+cInhibit ; minor slot D - tp bEyeOh24-b24SlotE, b32SlotE+isMap+cInhibit ; minor slot E - tp bTop24Less1-bEyeOh24+1, bRealEyeOh32+isMap+cInhibit ; i/o - -Template24MSC040 ; - tp bRom24-bRam, isRAM+c040CopyBack ; RAM - tp b24Slot9-bRom24, isROM24+c040CopyBack ; ROM - tp b24SlotA-b24Slot9, b32Slot9+isMap+c040InhibitSer ; minor slot 9 - tp b24SlotB-b24SlotA, b32SlotA+isMap+c040InhibitSer ; minor slot A - tp b24SlotC-b24SlotB, b32SlotB+isMap+c040InhibitSer ; minor slot B - tp b24SlotD-b24SlotC, b32SlotC+isMap+c040InhibitSer ; minor slot C - tp b24SlotE-b24SlotD, b32SlotD+isMap+c040InhibitSer ; minor slot D - tp bEyeOh24-b24SlotE, b32SlotE+isMap+c040InhibitSer ; minor slot E - tp bTop24Less1-bEyeOh24+1, bRealEyeOh32+isMap+c040InhibitSer ; i/o - tp bTop32Less1-bTop24Less1+1, isWrap24 ; 24-bit wrap area - -Template24Niagra ; - tp bRom24-bRam, isRAM+FullTbl ; RAM - tp b24Slot9-bRom24, isROM24+FullTbl ; ROM - tp b24SlotC-b24Slot9, isVoid ; invalid - tp b24SlotD-b24SlotC, b32SlotC+isMap+cInhibit ; minor slot C - tp b24SlotE-b24SlotD, b32SlotD+isMap+cInhibit ; minor slot D - tp bEyeOh24-b24SlotE, b32SlotE+isMap+cInhibit ; minor slot E - tp bTop24Less1-bEyeOh24+1, bRealEyeOh32+isMap+cInhibit ; i/o - -Template24SnraFrty ; - tp bRom24-bRam, isRAM+c040CopyBack ; RAM - tp b24Slot9-bRom24, isROM24+c040CopyBack ; ROM - tp b24SlotA-b24Slot9, b32Slot9+isMap+c040InhibitSer ; minor slot 9 - tp b24SlotB-b24SlotA, b32SlotA+isMap+c040InhibitSer ; minor slot A - tp b24SlotC-b24SlotB, $60B00000+isMap+c040InhibitNonSer ; Video RAM - tp b24SlotD-b24SlotC, b32SlotC+isMap+c040InhibitSer ; minor slot C - tp b24SlotE-b24SlotD, b32SlotD+isMap+c040InhibitSer ; minor slot D - tp bEyeOh24-b24SlotE, b32SlotE+isMap+c040InhibitSer ; minor slot E - tp b24DblX-bEyeOh24, bRealEyeOh32+isMap+c040InhibitSer ; i/o - tp (bTop24Less1-b24DblX)+1, $FEE00000+isMap+c040InhibitSer ; Double X slot space - tp bTop32Less1-bTop24Less1+1, isWrap24 ; 24-bit wrap area - -Template24Sonora - tp bRom24-bRam, isRAM+FullTbl ; RAM - tp b24Slot9-bRom24, isROM24+FullTbl ; ROM - tp b24SlotA-b24Slot9, b32Slot9+isMap+cInhibit ; minor slot 9 - tp b24SlotB-b24SlotA, b32SlotA+isMap+cInhibit ; minor slot A - tp b24SlotC-b24SlotB, $60B00000+isMap+cInhibit ; Video RAM - tp b24SlotD-b24SlotC, b32SlotC+isMap+cInhibit ; minor slot C - tp b24SlotE-b24SlotD, b32SlotD+isMap+cInhibit ; minor slot D - tp bEyeOh24-b24SlotE, b32SlotE+isMap+cInhibit ; minor slot E - tp b24DblX-bEyeOh24, bRealEyeOh32+isMap+cInhibit ; i/o - tp (bTop24Less1-b24DblX)+1, b24SlotE+isMap+cInhibit ; Double X slot space - -Template24YMCA ; - tp bRom24-bRam, isRAM+c040CopyBack ; RAM - tp b24Slot9-bRom24, isROM24+c040CopyBack ; ROM - tp b24SlotA-b24Slot9, $40900000 + isMap ; Slot 9 is 2nd meg of ROM. - tp b24SlotB-b24SlotA, b32SlotA+isMap+c040InhibitSer ; minor slot A - tp b24SlotC-b24SlotB, b32SlotB+isMap+c040InhibitSer ; minor slot B - tp b24SlotD-b24SlotC, b32SlotC+isMap+c040InhibitSer ; minor slot C - tp b24SlotE-b24SlotD, b32SlotD+isMap+c040InhibitSer ; minor slot D - tp bEyeOh24-b24SlotE, b32SlotE+isMap+c040InhibitSer ; minor slot E - tp IOMaxSize,bRealEyeOh32+isMap+c040InhibitSer ; serialized i/o - tp IOMaxSize,bNonSerEyeOh+isMap+c040InhibitNonSer ; nonserialized i/o - tp bTop24Less1-(bEyeOh24+(2*IOMaxSize))+1, isVoid ; void - tp bTop32Less1-bTop24Less1+1, isWrap24 ; 24-bit wrap area - -Template24Pratt ; - tp bRom24-bRam, isRAM+c040CopyBack ; RAM - tp b24Slot9-bRom24, isROM24+c040CopyBack ; ROM - tp b24SlotA-b24Slot9, isVoid ; invalid - tp b24SlotC-b24SlotA, b32SlotC+isMap+c040InhibitSer ; minor slots A-B - tp b24SlotE-b24SlotC, isVoid ; minor slots C-D - tp bEyeOh24-b24SlotE, b32SlotE+isMap+c040InhibitSer ; minor slot E - tp bTop24Less1-bEyeOh24+1, bRealEyeOh32+isMap+c040InhibitSer ; i/o - -Void32 - tp HoleLowMem-bRam, isRAM ; low memory: RAM - tp HoleSysHeap - HoleLowMem, isVoid ; black hole - tp bRom32 - HoleSysHeap, isRAM ; RAM - tp bEyeOh32-bRom32, isROM32 ; ROM - tp bRamDisk-bEyeOh32, isThru+cInhibit ; i/o - tp (bRamDisk+EDskMaxSize)-bRamDisk, isEdisk ; Ram Disk - tp bTop32Less1-(bRamDisk+EDskMaxSize)+1, isThru+cInhibit ; slots - -Void32RBVb - tp HoleLowMem-bRam, isRAM ; low memory: RAM - tp HoleSysHeap - HoleLowMem, isVoid ; black hole - tp bRom32 - HoleSysHeap, isRAM ; RAM - tp bEyeOh32-bRom32, isROM32 ; ROM - tp bRamDisk-bEyeOh32, isThru+cInhibit ; i/o - tp (bRamDisk+EDskMaxSize)-bRamDisk, isEdisk ; Ram Disk - tp RBVWrap32b-(bRamDisk+EDskMaxSize), isThru+cInhibit ; slots - tp RBVBase32b-RBVWrap32b, isVidWrap ; wrap area - tp RBVEnd32b-RBVBase32b, isVideo ; frame buffer area - tp (bTop32Less1-RBVEnd32b)+1, isThru+cInhibit ; rest of slots - -Void32RBVe - tp HoleLowMem-bRam, isRAM ; low memory: RAM - tp HoleSysHeap - HoleLowMem, isVoid ; black hole - tp bRom32 - HoleSysHeap, isRAM ; RAM - tp bEyeOh32-bRom32, isROM32 ; ROM - tp bRamDisk-bEyeOh32, isThru+cInhibit ; i/o - tp (bRamDisk+EDskMaxSize)-bRamDisk, isEdisk ; Ram Disk - tp RBVWrap32e-(bRamDisk+EDskMaxSize), isThru+cInhibit ; slots - tp RBVBase32e-RBVWrap32e, isVidWrap ; wrap area - tp RBVEnd32e-RBVBase32e, isVideo ; frame buffer area - tp bTop32Less1-RBVEnd32e+1, isThru+cInhibit ; rest of slots - -Void32Orwell ; - tp HoleLowMem-bRam, isRAM+c040CopyBack ; low memory: RAM - tp HoleSysHeap - HoleLowMem, isVoid ; black hole - tp bRealRom32-HoleSysHeap, isRAM+c040CopyBack ; RAM - tp (bRealRom32+ROMMaxSize)-bRealRom32, isROM32+c040CopyBack; ROM - tp bRealEyeOh32-(bRealRom32+ROMMaxSize), isVoid ; Invalid - tp bNonSerEyeOh-bRealEyeOh32, isThru+c040InhibitSer ; ser i/o - tp (bNonSerEyeOh+IOMaxSize)-bNonSerEyeOh, isThru+c040InhibitNonSer ; non-ser i/o - tp bRamDisk-(bNonSerEyeOh+IOMaxSize), isVoid ; Invalid - tp (bRamDisk+EDskMaxSize)-bRamDisk, isEdisk+c040CopyBack ; Ram Disk - tp (bTop32Less1-(bRamDisk+EDskMaxSize))+1, isVoid ; slots (uses TTx regs) - -Void32Jaws ; <9> - tp HoleLowMem-bRam, isRAM ; low memory: RAM - tp HoleSysHeap - HoleLowMem, isVoid ; black hole - tp bRom32 - HoleSysHeap, isRAM ; RAM - tp bEyeOh32-bRom32, isROM32 ; ROM - tp bRamDisk-bEyeOh32, isThru+cInhibit ; i/o - tp (bRamDisk+EDskMaxSize)-bRamDisk, isEdisk ; Ram Disk - tp LCDWrap32-(bRamDisk+EDskMaxSize), isThru+cInhibit ; slots - tp LCDBase32-LCDWrap32, isVidWrap ; wrap area - tp LCDEnd32-LCDBase32, isVideo ; frame buffer area - tp bTop32Less1-LCDEnd32+1, isThru+cInhibit ; rest of slots - -Void32MSC ; - tp HoleLowMem-bRam, isRAM+FullTbl ; low memory: RAM - tp HoleSysHeap - HoleLowMem, isVoid ; black hole - tp bRealRom32 - HoleSysHeap, isRAM+FullTbl ; RAM - tp (bRealRom32+ROMMaxSize)-bRealRom32, isROM32 ; ROM - tp b32VidBase-(bRealRom32+ROMMaxSize), isThru+cInhibit ; i/o - tp bRamDisk-b32VidBase, isVoid ; video (uses TT0) - tp (bRamDisk+EDskMaxSize)-bRamDisk, isEdisk ; Ram Disk - tp bTop32Less1-(bRamDisk+EDskMaxSize)+1, isVoid ; slots (uses TT1) - -Void32Sonora ; - tp HoleLowMem-bRam, isRAM+FullTbl ; low memory: RAM - tp HoleSysHeap - HoleLowMem, isVoid ; black hole - tp bRealRom32-HoleSysHeap, isRAM+FullTbl ; RAM - tp (bRealRom32+ROMMaxSize)-bRealRom32, isROM32 ; ROM - tp b32VidBase-(bRealRom32+ROMMaxSize), isThru+cInhibit ; I/O - tp bRamDisk-b32VidBase, isVoid ; Video (uses TT0) - tp (bRamDisk+EDskMaxSize)-bRamDisk, isEdisk ; Ram Disk - tp (bTop32Less1-(bRamDisk+EDskMaxSize))+1, isVoid ; slots (uses TTx regs) - -Void32Niagra ; - tp HoleLowMem-bRam, isRAM+FullTbl ; low memory: RAM - tp HoleSysHeap - HoleLowMem, isVoid ; black hole - tp bRealRom32 - HoleSysHeap, isRAM+FullTbl ; RAM - tp (bRealRom32+ROMMaxSize)-bRealRom32, isROM32 ; ROM - tp b32VidBase-(bRealRom32+ROMMaxSize), isThru+cInhibit ; i/o - tp bRamDisk-b32VidBase, isVoid ; video (uses TT0) - tp (bRamDisk+EDskMaxSize)-bRamDisk, isEdisk ; Ram Disk - tp b32SlotE-(bRamDisk+EDskMaxSize), isThru+cInhibit ; slots thru E - tp (b32SlotF-DeclRomSize)-b32SlotE, isThru+cInhibit ; slot E up to config ROM - tp b32SlotF-(b32SlotF-DeclRomSize), bRealRom32+isMap+cInhibit; slot E Config ROM - tp bTop32Less1-b32SlotF+1, isThru+cInhibit ; slots - -TemplateFF24 ; CSS - tp FFbShadow-bRam, isRAM ; RAM - tp FFtRom24-FFbShadow, isThru ; ROM - tp t24SlotE-FFtRom24, b32SlotE+isMap+cInhibit ; Slot E - tp FFtEyeOh24-t24SlotE, isThru+cInhibit ; I/O space - tp FFtDblxSlot24-FFtEyeOh24, b24SlotE+isMap+cInhibit ; Slot E (64k), for DblX - tp bTop24Less1-FFtDblxSlot24+1, isThru+cInhibit ; rest of I/O space - -TemplateFF32 - tp FFbShadow-bRam, isRAM ; RAM - tp FFtShadow-FFbShadow, isThru ; Shadowed area - tp FFbRom32-FFtShadow, isRAM ; RAM - tp FFtRom32-FFbRom32, FFbRom24+isMap ; ROM - tp FFbEyeOh32-FFtRom32, isVoid ; unmapped space - tp FFtEyeOh32-FFbEyeOh32, bEyeOh24+isMap+cInhibit ; I/O space - tp FFtDblXSlot32-FFtEyeOh32, b24SlotE+isMap+cInhibit ; Slot E (64k), for DblX - tp bRAMDisk-FFtDblXSlot32, isThru+cInhibit ; bank switch reg in here - tp bRamDisk+EDskMaxSize-bRamDisk, isEdisk ; Ram Disk - tp bTop32Less1-(bRamDisk+EDskMaxSize)+1, isThru+cInhibit ; Rest of slot space - -Void32YMCA ; CSS - tp HoleLowMem-bRam, isRAM+c040CopyBack ; low memory: RAM - tp HoleSysHeap - HoleLowMem, isVoid ; black hole - tp bRealRom32-HoleSysHeap, isRAM+c040CopyBack ; RAM - tp (bRealRom32+ROMMaxSize)-bRealRom32, isROM32+c040CopyBack; ROM - tp bRealEyeOh32-(bRealRom32+ROMMaxSize), isVoid ; Invalid - tp bNonSerEyeOh-bRealEyeOh32, isThru+c040InhibitSer ; ser i/o - tp (bNonSerEyeOh+IOMaxSize)-bNonSerEyeOh, isThru+c040InhibitNonSer ; non-ser i/o - tp bRamDisk-(bNonSerEyeOh+IOMaxSize), isVoid ; Invalid - tp (bRamDisk+EDskMaxSize)-bRamDisk, isEdisk+c040CopyBack ; Ram Disk - tp (bTop32Less1-(bRamDisk+EDskMaxSize))+1, isVoid ; slots (uses TTx regs) - -Void32Pratt ; - tp HoleLowMem-bRam, isRAM+c040CopyBack ; low memory: RAM - tp HoleSysHeap - HoleLowMem, isVoid ; black hole - tp bRom32 - HoleSysHeap, isRAM+c040CopyBack ; RAM - tp (bRom32+ROMMaxSize)-bRom32, isROM32 ; ROM - tp b32VidBase-(bRom32+ROMMaxSize), isThru+c040InhibitSer ; i/o - tp bRamDisk-b32VidBase, isVoid ; video (uses TT0) - tp (bRamDisk+EDskMaxSize)-bRamDisk, isEdisk+c040CopyBack ; Ram Disk - tp b32SlotE-(bRamDisk+EDskMaxSize), isThru+c040InhibitSer ; slots thru E - tp (b32SlotF-DeclRomSize)-b32SlotE, isThru+c040InhibitSer ; slot E up to config ROM - tp b32SlotF-(b32SlotF-DeclRomSize), bRom32+c040InhibitSer ; slot E Config ROM - tp bTop32Less1-b32SlotF+1, isThru+c040InhibitSer ; slots - ;----- ; The physical template tables describe the significant sections of the pysical address space. ; These templates are used ONLY to generate the 'physical table', which is passed to VM and @@ -1018,750 +558,6 @@ firstEntry DS.B PhysicalSpaceBlock ; first in variable-sized table ENDIF -physNormal dc.w kUsageRAM, cacheable - dc.l 0, 0 - dc.l 0, 0 - dc.l 0, 0 - - dc.w kUsageROM, cacheable - dc.l $40000000, $10000000 - dc.l $40000000, $10000000 - dc.l $00800000, $00100000 ; - - dc.w kUsageIO, notCacheable - dc.l $50000000, $10000000 - dc.l $50000000, $10000000 - dc.l $00F00000, $00100000 - - dc.w kUsageMajorSlot, notCacheable - dc.l $60000000, $10000000 - dc.l $60000000, $10000000 - dc.l 0, 0 - - dc.w kUsageMajorSlot, notCacheable - dc.l $90000000, $10000000 - dc.l $90000000, $10000000 - dc.l 0, 0 - - dc.w kUsageMajorSlot, notCacheable - dc.l $A0000000, $10000000 - dc.l $A0000000, $10000000 - dc.l 0, 0 - - dc.w kUsageMajorSlot, notCacheable - dc.l $B0000000, $10000000 - dc.l $B0000000, $10000000 - dc.l 0, 0 - - dc.w kUsageMajorSlot, notCacheable - dc.l $C0000000, $10000000 - dc.l $C0000000, $10000000 - dc.l 0, 0 - - dc.w kUsageMajorSlot, notCacheable - dc.l $D0000000, $10000000 - dc.l $D0000000, $10000000 - dc.l 0, 0 - - dc.w kUsageMajorSlot, notCacheable - dc.l $E0000000, $10000000 - dc.l $E0000000, $10000000 - dc.l 0, 0 - - dc.w kUsageMinorSlot, notCacheable - dc.l $F9000000, $01000000 - dc.l $F9000000, $01000000 - dc.l $00900000, $00100000 - - dc.w kUsageMinorSlot, notCacheable - dc.l $FA000000, $01000000 - dc.l $FA000000, $01000000 - dc.l $00A00000, $00100000 - - dc.w kUsageMinorSlot, notCacheable - dc.l $FB000000, $01000000 - dc.l $FB000000, $01000000 - dc.l $00B00000, $00100000 - - dc.w kUsageMinorSlot, notCacheable - dc.l $FC000000, $01000000 - dc.l $FC000000, $01000000 - dc.l $00C00000, $00100000 - - dc.w kUsageMinorSlot, notCacheable - dc.l $FD000000, $01000000 - dc.l $FD000000, $01000000 - dc.l $00D00000, $00100000 - - dc.w kUsageMinorSlot, notCacheable - dc.l $FE000000, $01000000 - dc.l $FE000000, $01000000 - dc.l $00E00000, $00100000 - - dc.w kUsageEndTable - -;--- -; Max size of buffer for physical table = size of above fized stuff, plus entries for -; max # of RAM chunks, plus video and video wrapping space, plus bootglobals space <3.2> -; plus a few more just to be safe. <3.2> -;--- - -physBufSize equ *-physNormal + (sgMaxChunks+6) * PhysicalSpaceBlock.size ; CSS ;<3.2> - - -;--- -; Physical table for RBV in Slot B <9> -;--- - -physRBVb dc.w kUsageRAM, cacheable - dc.l 0, 0 - dc.l 0, 0 - dc.l 0, 0 - - dc.w kUsageROM, cacheable - dc.l $40000000, $10000000 - dc.l $40000000, $10000000 - dc.l $00800000, $00100000 - - dc.w kUsageIO, notCacheable - dc.l $50000000, $10000000 - dc.l $50000000, $10000000 - dc.l $00F00000, $00100000 - - dc.w kUsageMajorSlot, notCacheable - dc.l $90000000, $10000000 - dc.l $90000000, $10000000 - dc.l 0, 0 - - dc.w kUsageMajorSlot, notCacheable - dc.l $A0000000, $10000000 - dc.l $A0000000, $10000000 - dc.l 0, 0 - - dc.w kUsageMajorSlot, notCacheable - dc.l $C0000000, $10000000 - dc.l $C0000000, $10000000 - dc.l 0, 0 - - dc.w kUsageMajorSlot, notCacheable - dc.l $D0000000, $10000000 - dc.l $D0000000, $10000000 - dc.l 0, 0 - - dc.w kUsageMajorSlot, notCacheable - dc.l $E0000000, $10000000 - dc.l $E0000000, $10000000 - dc.l 0, 0 - - dc.w kUsageMinorSlot, notCacheable - dc.l $F9000000, $01000000 - dc.l $F9000000, $01000000 - dc.l $00900000, $00100000 - - dc.w kUsageMinorSlot, notCacheable - dc.l $FA000000, $01000000 - dc.l $FA000000, $01000000 - dc.l $00A00000, $00100000 - - dc.w kUsageMinorSlot, notCacheable - dc.l $FC000000, $01000000 - dc.l $FC000000, $01000000 - dc.l $00C00000, $00100000 - - dc.w kUsageMinorSlot, notCacheable - dc.l $FD000000, $01000000 - dc.l $FD000000, $01000000 - dc.l $00D00000, $00100000 - - dc.w kUsageMinorSlot, notCacheable - dc.l $FE000000, $01000000 - dc.l $FE000000, $01000000 - dc.l $00E00000, $00100000 - - dc.w kUsageEndTable - - -;--- -; Physical table for RBV in Slot E <11> -;--- - -physRBVe dc.w kUsageRAM, cacheable - dc.l 0, 0 - dc.l 0, 0 - dc.l 0, 0 - - dc.w kUsageROM, cacheable - dc.l $40000000, $10000000 - dc.l $40000000, $10000000 - dc.l $00800000, $00100000 - - dc.w kUsageIO, notCacheable - dc.l $50000000, $10000000 - dc.l $50000000, $10000000 - dc.l $00F00000, $00100000 - - dc.w kUsageMajorSlot, notCacheable - dc.l $90000000, $10000000 - dc.l $90000000, $10000000 - dc.l 0, 0 - - dc.w kUsageMajorSlot, notCacheable - dc.l $A0000000, $10000000 - dc.l $A0000000, $10000000 - dc.l 0, 0 - - dc.w kUsageMajorSlot, notCacheable - dc.l $B0000000, $10000000 - dc.l $B0000000, $10000000 - dc.l 0, 0 - - dc.w kUsageMajorSlot, notCacheable - dc.l $C0000000, $10000000 - dc.l $C0000000, $10000000 - dc.l 0, 0 - - dc.w kUsageMajorSlot, notCacheable - dc.l $D0000000, $10000000 - dc.l $D0000000, $10000000 - dc.l 0, 0 - - dc.w kUsageMinorSlot, notCacheable - dc.l $F9000000, $01000000 - dc.l $F9000000, $01000000 - dc.l $00900000, $00100000 - - dc.w kUsageMinorSlot, notCacheable - dc.l $FA000000, $01000000 - dc.l $FA000000, $01000000 - dc.l $00A00000, $00100000 - - dc.w kUsageMinorSlot, notCacheable - dc.l $FB000000, $01000000 - dc.l $FB000000, $01000000 - dc.l $00B00000, $00100000 - - dc.w kUsageMinorSlot, notCacheable - dc.l $FC000000, $01000000 - dc.l $FC000000, $01000000 - dc.l $00C00000, $00100000 - - dc.w kUsageMinorSlot, notCacheable - dc.l $FD000000, $01000000 - dc.l $FD000000, $01000000 - dc.l $00D00000, $00100000 - - dc.w kUsageEndTable - -;--- -; Physical table for 68030 LCD portables <9> <17> HJR -;--- - -physLCD dc.w kUsageRAM, cacheable - dc.l 0, 0 - dc.l 0, 0 - dc.l 0, 0 - - dc.w kUsageROM, cacheable - dc.l $40000000, $10000000 - dc.l $40000000, $10000000 - dc.l $00800000, $00100000 - - dc.w kUsageIO, notCacheable - dc.l $50000000, $10000000 - dc.l $50000000, $10000000 - dc.l $00F00000, $00100000 - - dc.w kUsageEndTable - -;--- -; Physical table for MSC-based portables -;--- - -physMSC dc.w kUsageRAM, cacheable ; RAM - dc.l 0, 0 - dc.l 0, 0 - dc.l 0, 0 - - dc.w kUsageROM, cacheable ; ROM - dc.l $40800000, ROMMaxSize - dc.l $40800000, ROMMaxSize - dc.l $00800000, ROMMaxSize - - dc.w kUsageIO, notCacheable ; I/O - dc.l $50000000, $10000000 - dc.l $50000000, $10000000 - dc.l $00F00000, $00100000 - - dc.w kUsageOnboardVideo, notCacheable ; LCD video - dc.l $60000000, $10000000 - dc.l $60000000, $10000000 - dc.l $00000000, $00000000 - - dc.w kUsageMajorSlot, notCacheable ; slot 9 - dc.l $90000000, $10000000 - dc.l $90000000, $10000000 - dc.l 0, 0 - - dc.w kUsageMajorSlot, notCacheable ; slot A - dc.l $A0000000, $10000000 - dc.l $A0000000, $10000000 - dc.l 0, 0 - - dc.w kUsageMajorSlot, notCacheable ; slot B - dc.l $B0000000, $10000000 - dc.l $B0000000, $10000000 - dc.l 0, 0 - - dc.w kUsageMajorSlot, notCacheable ; slot C in docking station - dc.l $C0000000, $10000000 - dc.l $C0000000, $10000000 - dc.l 0, 0 - - dc.w kUsageMajorSlot, notCacheable ; slot D in docking station - dc.l $D0000000, $10000000 - dc.l $D0000000, $10000000 - dc.l 0, 0 - - dc.w kUsageMajorSlot, notCacheable ; slot E (PDS docking connector) - dc.l $E0000000, $10000000 - dc.l $E0000000, $10000000 - dc.l 0, 0 - - dc.w kUsageMinorSlot, notCacheable ; slot 9 - dc.l $F9000000, $01000000 - dc.l $F9000000, $01000000 - dc.l $00900000, $00100000 - - dc.w kUsageMinorSlot, notCacheable ; slot A - dc.l $FA000000, $01000000 - dc.l $FA000000, $01000000 - dc.l $00A00000, $00100000 - - dc.w kUsageMinorSlot, notCacheable ; slot B - dc.l $FB000000, $01000000 - dc.l $FB000000, $01000000 - dc.l $00B00000, $00100000 - - dc.w kUsageMinorSlot, notCacheable ; slot C in docking station - dc.l $FC000000, $01000000 - dc.l $FC000000, $01000000 - dc.l $00C00000, $00100000 - - dc.w kUsageMinorSlot, notCacheable ; slot D in docking station - dc.l $FD000000, $01000000 - dc.l $FD000000, $01000000 - dc.l $00D00000, $00100000 - - dc.w kUsageMinorSlot, notCacheable ; slot E (PDS docking connector) - dc.l $FE000000, $01000000 - dc.l $FE000000, $01000000 - dc.l $00E00000, $00100000 - - dc.w kUsageEndTable - -;--- -; Physical table for Niagra LCD portables -;--- - -physNiagra dc.w kUsageRAM, cacheable ; - dc.l 0, 0 - dc.l 0, 0 - dc.l 0, 0 - - dc.w kUsageROM, cacheable ; ROM - dc.l $40800000, ROMMaxSize - dc.l $40800000, ROMMaxSize - dc.l $00800000, ROMMaxSize - - dc.w kUsageIO, notCacheable ; I/O - dc.l $50000000, $10000000 - dc.l $50000000, $10000000 - dc.l $00F00000, $00100000 - - dc.w kUsageOnboardVideo, notCacheable ; LCD video - dc.l $60000000, $10000000 - dc.l $60000000, $10000000 - dc.l $00000000, $00000000 - - dc.w kUsageMinorSlot, notCacheable ; slot C - dc.l $FC000000, $01000000 - dc.l $FC000000, $01000000 - dc.l $00C00000, $00100000 - - dc.w kUsageMinorSlot, notCacheable ; slot D - dc.l $FD000000, $01000000 - dc.l $FD000000, $01000000 - dc.l $00D00000, $00100000 - - dc.w kUsageMinorSlot, notCacheable ; slot E up to declaration ROM - dc.l $FE000000, $01000000-DeclRomSize - dc.l $FE000000, $01000000-DeclRomSize - dc.l $00E00000, $00100000 - - dc.w kUsageMinorSlot, notCacheable ; slot E declaration ROM (VSCDeclData) - dc.l $40800000, DeclRomSize - dc.l $FF000000-DeclRomSize, DeclRomSize - dc.l $00000000, $00000000 - - dc.w kUsageEndTable - -;--- -; Physical table for Orwell Based machines -;--- - -physOrwell dc.w kUsageRAM, cacheable - dc.l 0, 0 - dc.l 0, 0 - dc.l 0, 0 - - dc.w kUsageROM, cacheable - dc.l $40800000, ROMMaxSize - dc.l $40800000, ROMMaxSize - dc.l $00800000, ROMMaxSize - - dc.w kUsageIO, notCacheable - dc.l $50F00000, IOMaxSize - dc.l $50F00000, IOMaxSize - dc.l $00F00000, IOMaxSize - - dc.w kUsageIO, notCacheable ; ••temp•• - dc.l $50F40000, IOMaxSize ; should be nonserialized - dc.l $50F40000, IOMaxSize - dc.l $00F40000, IOMaxSize - - dc.w kUsageMajorSlot, notCacheable - dc.l $A0000000, $10000000 - dc.l $A0000000, $10000000 - dc.l 0, 0 - - dc.w kUsageMajorSlot, notCacheable - dc.l $B0000000, $10000000 - dc.l $B0000000, $10000000 - dc.l 0, 0 - - dc.w kUsageMajorSlot, notCacheable - dc.l $C0000000, $10000000 - dc.l $C0000000, $10000000 - dc.l 0, 0 - - dc.w kUsageMajorSlot, notCacheable - dc.l $D0000000, $10000000 - dc.l $D0000000, $10000000 - dc.l 0, 0 - - dc.w kUsageMajorSlot, notCacheable - dc.l $E0000000, $10000000 - dc.l $E0000000, $10000000 - dc.l 0, 0 - - dc.w kUsageOnboardVideo, notCacheable - dc.l $F9000000, $01000000 - dc.l $F9000000, $01000000 - dc.l $00900000, $00100000 - - dc.w kUsageMinorSlot, notCacheable - dc.l $FA000000, $01000000 - dc.l $FA000000, $01000000 - dc.l $00A00000, $00100000 - - dc.w kUsageMinorSlot, notCacheable - dc.l $FB000000, $01000000 - dc.l $FB000000, $01000000 - dc.l $00B00000, $00100000 - - dc.w kUsageMinorSlot, notCacheable - dc.l $FC000000, $01000000 - dc.l $FC000000, $01000000 - dc.l $00C00000, $00100000 - - dc.w kUsageMinorSlot, notCacheable - dc.l $FD000000, $01000000 - dc.l $FD000000, $01000000 - dc.l $00D00000, $00100000 - - dc.w kUsageMinorSlot, notCacheable - dc.l $FE000000, $01000000 - dc.l $FE000000, $01000000 - dc.l $00E00000, $00100000 - - dc.w kUsageEndTable - -physSonora dc.w kUsageRAM, cacheable ; Special Cased for Double X Slot E - dc.l 0, 0 - dc.l 0, 0 - dc.l 0, 0 - - dc.w kUsageROM, cacheable - dc.l $40800000, ROMMaxSize - dc.l $40800000, ROMMaxSize - dc.l $00800000, ROMMaxSize - -; dc.w kUsageROM, cacheable ; ROM -; dc.l $40000000, $10000000 -; dc.l $40000000, $10000000 -; dc.l $00800000, $00100000 - - dc.w kUsageIO, notCacheable ; - dc.l $50000000, $10000000 ; Don't map all of I/O Space - dc.l $50000000, $00FC0000 ; because of Double Exposure Card - dc.l $00F00000, $000C0000 - - dc.w kUsageOnboardVideo, notCacheable ; Video Space - dc.l $60000000, $01000000 ; - dc.l $60000000, $01000000 ; - dc.l $00B00000, $00100000 - - dc.w kUsageMajorSlot, notCacheable - dc.l $90000000, $10000000 - dc.l $90000000, $10000000 - dc.l 0, 0 - - dc.w kUsageMajorSlot, notCacheable - dc.l $A0000000, $10000000 - dc.l $A0000000, $10000000 - dc.l 0, 0 - - dc.w kUsageMajorSlot, notCacheable - dc.l $B0000000, $10000000 - dc.l $B0000000, $10000000 - dc.l 0, 0 - - dc.w kUsageMajorSlot, notCacheable - dc.l $C0000000, $10000000 - dc.l $C0000000, $10000000 - dc.l 0, 0 - - dc.w kUsageMajorSlot, notCacheable - dc.l $D0000000, $10000000 - dc.l $D0000000, $10000000 - dc.l 0, 0 - - dc.w kUsageMajorSlot, notCacheable - dc.l $E0000000, $10000000 - dc.l $E0000000, $10000000 - dc.l 0, 0 - - dc.w kUsageMinorSlot, notCacheable - dc.l $F9000000, $01000000 - dc.l $F9000000, $01000000 - dc.l $00900000, $00100000 - - dc.w kUsageMinorSlot, notCacheable - dc.l $FA000000, $01000000 - dc.l $FA000000, $01000000 - dc.l $00A00000, $00100000 - - dc.w kUsageMinorSlot, notCacheable - dc.l $FC000000, $01000000 - dc.l $FC000000, $01000000 - dc.l $00C00000, $00100000 - - dc.w kUsageMinorSlot, notCacheable - dc.l $FD000000, $01000000 - dc.l $FD000000, $01000000 - dc.l $00D00000, $00100000 - - dc.w kUsageMinorSlot, notCacheable - dc.l $FE000000, $01000000 - dc.l $FE000000, $01000000 - dc.l $00E00000, $00100000 - - dc.w kUsageOther, notCacheable ; Double X accesses slot E - dc.l $FEE00000, $40000 ; with addresses in the range - dc.l $50FC0000, $40000 ; $50FC0000-$50100000 - dc.l $00FC0000, $40000 ; - - dc.w kUsageEndTable - -;••• Begin CSS Cyclone Roll-in. -;----- -; Physical table for Foster Farms -;--- - -physFF dc.w kUsageRAM, cacheable - dc.l 0, 0 - dc.l 0, 0 - dc.l 0, 0 - - dc.w kUsageROM, cacheable - dc.l $00A00000, $00100000 - dc.l $40A00000, $00100000 - dc.l $00A00000, $00100000 - - dc.w kUsageROM, cacheable - dc.l $00B00000, $00100000 - dc.l $40B00000, $00100000 - dc.l $00B00000, $00100000 - - dc.w kUsageROM, cacheable ; define 2 Mb addtional ROM - dc.l $00C00000, $00100000 ; - dc.l $40C00000, $00100000 ; - dc.l $00C00000, $00100000 ; - - dc.w kUsageROM, cacheable ; - dc.l $00D00000, $00100000 ; - dc.l $40D00000, $00100000 ; - dc.l $00D00000, $00100000 ; - - dc.w kUsageIO, notCacheable - dc.l $00F00000, FFIOMax - dc.l $50F00000, FFIOMax - dc.l $00F00000, FFIOMax - - dc.w kUsageMajorSlot, notCacheable - dc.l $E0000000, $10000000 - dc.l $E0000000, $10000000 - dc.l 0, 0 - - dc.w kUsageMinorSlot, notCacheable - dc.l $FE000000, $01000000 - dc.l $FE000000, $01000000 - dc.l $00E00000, $00100000 - - dc.w kUsageOther, notCacheable ; Double X accesses slot E - dc.l $00E00000, DblXSlotMax ; with addresses in the range - dc.l $50FC0000, DblXSlotMax ; $50FC0000-$50CFFFFF - dc.l $00FC0000, DblXSlotMax ; - - dc.w kUsageEndTable ; - -;--- -; Physical table for YMCA Based machines -;--- - -physYMCA dc.w kUsageRAM, cacheable - dc.l 0, 0 - dc.l 0, 0 - dc.l 0, 0 - - dc.w kUsageROM, cacheable - dc.l $40800000, ROMMaxSize - dc.l $40800000, ROMMaxSize - dc.l $00800000, ROMMaxSize - - dc.w kUsageOnboardVideo, notCacheable - dc.l $50100000, VRAMMaxSize - dc.l $50100000, VRAMMaxSize - dc.l 0, 0 - - dc.w kUsageIO, notCacheable - dc.l $50036000, $00002000 - dc.l $50036000, $00002000 - dc.l 0, 0 - - dc.w kUsageIO, notCacheable - dc.l $50F00000, IOMaxSize - dc.l $50F00000, IOMaxSize - dc.l $00F00000, IOMaxSize - - dc.w kUsageMajorSlot, notCacheable - dc.l $A0000000, $10000000 - dc.l $A0000000, $10000000 - dc.l 0, 0 - - dc.w kUsageMajorSlot, notCacheable - dc.l $B0000000, $10000000 - dc.l $B0000000, $10000000 - dc.l 0, 0 - - dc.w kUsageMajorSlot, notCacheable - dc.l $C0000000, $10000000 - dc.l $C0000000, $10000000 - dc.l 0, 0 - - dc.w kUsageMajorSlot, notCacheable - dc.l $D0000000, $10000000 - dc.l $D0000000, $10000000 - dc.l 0, 0 - - dc.w kUsageMajorSlot, notCacheable - dc.l $E0000000, $10000000 - dc.l $E0000000, $10000000 - dc.l 0, 0 - - dc.w kUsageMinorSlot, notCacheable - dc.l $FA000000, $01000000 - dc.l $FA000000, $01000000 - dc.l $00A00000, $00100000 - - dc.w kUsageMinorSlot, notCacheable - dc.l $FB000000, $01000000 - dc.l $FB000000, $01000000 - dc.l $00B00000, $00100000 - - dc.w kUsageMinorSlot, notCacheable - dc.l $FC000000, $01000000 - dc.l $FC000000, $01000000 - dc.l $00C00000, $00100000 - - dc.w kUsageMinorSlot, notCacheable - dc.l $FD000000, $01000000 - dc.l $FD000000, $01000000 - dc.l $00D00000, $00100000 - - dc.w kUsageMinorSlot, notCacheable - dc.l $FE000000, $01000000 - dc.l $FE000000, $01000000 - dc.l $00E00000, $00100000 - - dc.w kUsageEndTable - -;••• End CSS Cyclone roll-in - -;--- -; Physical table for Pratt LCD portables -;--- - -physPratt dc.w kUsageRAM, cacheable ; - dc.l 0, 0 - dc.l 0, 0 - dc.l 0, 0 - - dc.w kUsageROM, cacheable ; ROM - dc.l $40000000, ROMMaxSize - dc.l $40000000, ROMMaxSize - dc.l 0,0 - - dc.w kUsageIO, notCacheable ; I/O - dc.l $50000000, $10000000 - dc.l $50000000, $10000000 - dc.l 0,0 - - dc.w kUsageOnboardVideo, notCacheable ; LCD video - dc.l $60000000, $10000000 - dc.l $60000000, $10000000 - dc.l 0,0 - - dc.w kUsageMajorSlot, notCacheable ; PDS, major slots A-B - dc.l $A0000000, $20000000 - dc.l $A0000000, $20000000 - dc.l 0, 0 - - dc.w kUsageMinorSlot, notCacheable ; PDS, minor slots A-B - dc.l $FA000000, $02000000 - dc.l $FA000000, $02000000 - dc.l 0,0 - - dc.w kUsageMinorSlot, notCacheable ; slot E up to declaration ROM - dc.l $FE000000, $01000000-DeclRomSz - dc.l $FE000000, $01000000-DeclRomSz - dc.l 0,0 - - dc.w kUsageMinorSlot, notCacheable ; slot E up to declaration ROM - dc.l $402e0000-DeclRomSz, DeclRomSz - dc.l $FF000000-DeclRomSz, DeclRomSz - dc.l 0,0 - - dc.w kUsageEndTable - -;----- -; MMUError - unrecoverable error discovered while setting up MMU. -;--- -MMUError move.w #102,d6 ; minor error code = MMU setup error <3.2> - move.l #$0F,d7 ; major error code = NuMac error <3.2> - bigjmp Critical,a0 ; ugly tone, service call needed... - - ;----- ; InitMMU - sets up the MMU depending on what memory controller we are running and ; what chunks of RAM were found by StartTest. @@ -1847,11 +643,6 @@ InitMMU link a5,#InitSize ; set up stack frame bsr SetupGlobals ; set up stack frame, boot globals bsr FindInfo ; get ptr to MMU setup info ; returns a0 = 32 bit info ptr, a1 = 24 bit ptr - cmpi.b #EMMU1,sgTypeMMU(A6) ; Do we have an Emulated MMU? (ie don't make tables) - beq.s @NoTables ; -> Yes, bail out now! - cmp.b #HMMU,sgTypeMMU(a6) ; CSS check type of MMU - bne.s @isPmmu ; IF HMMU -@noTables movem.l SaveURegs(a5),UnivRegs ; restore universal registers IF forRomulator THEN ; TestInRAM A2 ; check if running ROM image in RAM | @@ -1864,179 +655,9 @@ InitMMU link a5,#InitSize ; set up stack frame move.l a6,a4 ; return ptr to BootGlobs unlk a5 ; remove stack frame rts ; EXITROUTINE -@isPmmu ; ENDIF - move.l a1,a4 ; save ptr to 24 bit mode MMU setup info - move.l a0,a2 ; save ptr to 32 bit mode MMU setup info - bsr MakePhysicalTable ; create physical space table (for VM et. al.) - move.l a2,a0 ; recall ptr to 32 bit mode info - bsr MakeTable ; make 32 bit translation table - lea sg32Info(a6),a1 ; point at 32 bit mode info in BootGlobs CSS - bsr SaveMMUInfo ; move 32 bit info to BootGlobs CSS - btst #MMStartMode,sgMMFlags(a6);check if we're booting 32 bit only CSS - bne.s @modesOK ; IF not booting 32 only - move.l a4,a0 ; recall addr 24 bit mode MMU setup Info - move.l a4,a2 ; recall addr 24 bit mode MMU setup Info - bsr MakeTable ; make a translation table -@modesOK ; ENDIF - lea sg24Info(a6),a1 ; point at 24 bit mode info in BootGlobs CSS - bsr SaveMMUInfo ; move 24 (or 32) bit info to BootGlobs -@done ; ENDIF - - bsr CleanupGlobals ; tidy up, leaving registers as follows: - ; a2 - InitMMU's logical return address - ; a3 - points to tc in MMUConfigInfo - ; a4 - logical ptr to BootGlobs - ; d3 - ROM physical-2-logical conversion constant - ; sp - midway thru useable logical RAM - ; d0-d2/d7/a0-a1 restored (DON'T TOUCH!) - -;----- -; The following code actually enables the MMU. Since enabling the MMU may change the -; address of the code that actually does it (if it is running in RAM under Romulator™), -; we take precautions to ensure that both the 'pmove tc' and the 'jmp to the new logical -; address' are both in the 020/030 instruction cache. We can then jump to our new -; logical pc without fetching anything from the old pc, which is invalid once the pmove -; is executed. The same principle applies to the 040 'MOVEC URP', 'MOVEC TC' code. <2> -; -; We preload the instruction cache by executing the code snippet twice, passing in the Z -; condition code flag to determine whether to run the pmove or not. Since the pmove is -; 4 bytes, if we ensure that it is on a non-longword boundary, it will always be prefetched -; and cached by the 020 on the first pass thru the code. -; -; It is important the the transparent translation registers be set up before the MMU <7> -; is enabled, since we get the values for the TT regs using a3, which may become <7> -; invalid once the MMU is enabled. This will also work with Romulator™, since <7> -; we are already executing out of phyiscal space, which will not be affected by <7> -; transparent translation. <7> -; -; This routine assumes that the MMU is NOT enabled when called on a system with a <3.8> -; 68851 PMMU. <3.8> -;--- - -VTEntries equ 64 ; entries in exception vector table CSS - - IF forRomulator THEN ; <3.8> - biglea baseOfRom,a5 ; get physical base of ROM <3.8> - move.l a5,d6 ; save it to adjust pointers later <3.8> - ENDIF ; <3.8> - - cmp.w #cpu68040,d7 ; Check whether or not we're on an 040 <2><3> - beq.s @enable040MMU ; YES ... go enable 040 MMU <2> - - pflusha ; flush address translation cache <16> -;••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••• CSS -; For LC since all addresses are mapped straight thru, (i.e. no address translation takes place) -; 00AxXXXX is a valid address in 32 or 24 bit modes but on Foster Farms trying to access the ROM -; at 00AxXXXX will generate a bus error in 32 bit mode once the MMU is turned on. Therefore we -; must adjust all ptrs that have already been set up to pt at 40AxXXXX. Note: this address is -; also valid in 24 bit mode since the upper 8 bits of the address are ignored in this mode. -; Remember, D3 contains the ROM physical-2-logical conversion constant. -;••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••• - add.l d3,a0 ; adjust ptr to base addrs - add.l d3,a1 ; adjust ptr to productInfo rec - - movec vbr,a5 ; get address of vectors - move.w #VTEntries-1,d5 ; get number of entries to adjust -@adj add.l d3,(a5)+ ; convert a vector - dbra d5,@adj ; do all of them - -;••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••• CSS - movec cacr,d5 ; NO ... get cache control reg - ori.w #$0808,d5 ; set flush bits (also set ccr.z = 0, for no pmove) - movec d5,cacr ; flush instruction, data caches - pmove theTT0-theTC(a3),tt0 ; load the transparent translation regs <7> - pmove theTT1-theTC(a3),tt1 ; BEFORE we fire up the MMU <7> - lea theCRP-theTC(a3),a6 ; get address of CRP <3.8> - lea @return1,a5 ; get 1st return addr - bra.s @inIcache ; load tc enable code into i-cache <3.8> -@return1 lea @mmuEnabled,a5 ; get 2nd return addr <3.8> - add.l d3,a5 ; add in phys-to-log conversion constant <3.8> - moveq #0,d5 ; set ccr.z = 1, so pmove gets executed - IF NOT forRomulator THEN ; Do not set the VBR to 0 if this is a ReAnimator build - movec d5,vbr ; restore vector base reg <3.8> - ENDIF ; - bra.s @inIcache ; go enable the mmu, return from InitMMU <3.8> - nop ; appease the assembler gods - ALIGN 4 ; <3.8> -@inIcache bne.s @step ; (2 bytes) IF second time thru - pmove (a6),crp ; (4 bytes) set up 32 bit mode crp <3.8> -@step nop ; (2 bytes) aligns next pmove to odd-word <3.8> - bne.s @goBack ; (2 bytes) IF second time thru <3.8> - pmove (a3),tc ; (4 bytes) enable the MMU -@goBack jmp (a5) ; (2 bytes) ENDIF - return - -@mmuEnabled - - IF 0 THEN - IF forRomulator THEN ; <3.8> - TestInRam a5 ; running in RAM? <3.8> - beq.s @noAdj ; if not, don't adjust pointers <3.8> - move.l ROMBase,d5 ; get correct base of ROM <3.8> - sub.l d6,d5 ; make d5 a phys-to-log offset <3.8> - add.l d5,a0 ; adjust ptr to base addrs <3.8> - add.l d5,a1 ; adjust ptr to productInfo rec <3.8> -@noAdj ; <3.8> - ENDIF ; <3.8> - ENDIF - jmp (a2) ; get InitMMU return addr <3.8> - - -;----- -; Enable the MMU on a 68040. -; -; Flush both caches. Use a CPUSHA instead of a CINVA, since CINVA does not flush <2> -; dirty entries to memory. N.B. - the CPUSHA IC generated by the operand does <2> -; NOT flush out the inst. cache, but instead performs the same action as a CINVA IC. <2> -; This is because in the 040, there won't BE any "dirty" entries in the inst. cache. <2> -; -; Since the Mac OS does not distinguish between instruction and data space, we must <7> -; duplicate the values placed in the instruction and data transparent translation <7> -; registers. <7> -;----- - MACHINE MC68040 ; The use of 040 instructions requires this <2> - -@enable040MMU ; <2> - - IF forRomulator THEN ; - biglea baseOfRom,a5 ; get physical base of ROM - MACHINE MC68040 ; corrects for ASM bug w/040 directive - move.l a5,d6 ; save it to adjust pointers later - ENDIF ; - - pflusha ; flush address translation cache <16> - move.l theTT0-theTC(a3),d5 ; get transparent translation reg 0 value <7> - movec d5,itt0 ; load the instruction TT0 reg <7> - movec d5,dtt0 ; load the data TT0 reg with the same value <7> - move.l theTT1-theTC(a3),d5 ; get transparent translation reg 1 value <7> - movec d5,itt1 ; load the instruction TT0 reg <7> - movec d5,dtt1 ; load the data TT0 reg with the same value <7> - moveq #0,d5 ; set ccr.z=1, to put enable code in cache <7> - lea @return0,a5 ; get 1st return addr <2> - bra.s @cachedEnableCode ; load TC enable code into i-cache <2> -@return0 lea @mmuEnabled,a5 ; get 2nd return addr <2> - add.l d3,a5 ; add in phys-to-log conversion constant <2> - if NOT forRomulator THEN ; <16> - movec d5,vbr ; restore vector base reg to zero <16> - endif ; <16> - move.l theSRP-theTC(a3),a6 ; retrieve 040 SRP value <7> - move.l (a3),d5 ; retrieve 040 TC value in lsw (ccr.z=0) <2> - bra.s @cachedEnableCode ; go enable the MMU, return from InitMMU <2> - - ALIGN 16 ; force onto Cache Line boundary <2> -@cachedEnableCode - beq.s @aJMP ; (2 bytes) IF second time thru, fall thru <2> - movec a6,SRP ; (2 bytes) set up 32 bit mode SRP <7> - movec d5,TC ; (2 bytes) enable the MMU <2> -@aJMP jmp (a5) ; (2 bytes) ENDIF - return <2> - -; ----------------------------------------------------------------------------------- <2> - - MACHINE MC68030 ; return to prior MACHINE directive <2> - -; ----------------------------------------------------------------------------------- <2> ;----- -; SetupGlobals - sets up the InitMMU stack frame and the BootGlobals record that is passed +; SetupGlobals 7a38 - sets up the InitMMU stack frame and the BootGlobals record that is passed ; back to StartInit. ; ; Entry: @@ -2069,7 +690,7 @@ SetupGlobals move.l ROMPhysAddr(a0),d0 ; use it instead of computed value @SavePhys move.l d0,physRomBase(a5) ; save it in our globals - bsr GetMMUType ; figure out what kind of MMU we have + moveq.l #6,d0 ; figure out what kind of MMU we have move.b d0,sgTypeMMU(a6) ; save MMU type in BootGlobs CSS clr.l VRAMSize(a5) ; assume no onboard video <9> clr.l VRAMrealSize(a5) ; assume no onboard video <9> @@ -2086,42 +707,15 @@ SetupGlobals clr.b sgEDiskStealFlag(a6) ; assume no chunks to steal move.l #-1,eDiskChunks(a5) ; make eDisk chunk table empty too - lea sgBottom,a0 ; assume we'll start allocating below BootGlobs CSS + lea $FFFFFFA4,a0 move.l a0,sgAllocOff(a6) ; save allocation offset CSS - move.b #ramDiskPramAddr,d0 ; get PRAM address of memory manager flags - bsr ReadPRAMByte ; read it and weep... - andi.l #$ff,d0 ; clear upper bytes of pram byte - beq.s @noEdisk ; IF we want an Edisk THEN clr.l d3 ; clear counter - cmpi.b #EMMU1,sgTypeMMU(A6) ; DO we have an EMMU? (have we already stolen RAM for the EDisk?) - bne.s @countRAM ; -> Nope, parse the tables - move.l sgTestSpace+24(a6),d1 ; Get the amount of bytes allocated by SizeMem for the EDisk - bra.s @saveSize ; join the rest of the code (if D1=0 then no EDisk) - -@countRAM lea sgRamTable+4(a6),a0 ; get pointer to size of the first chunk | CSS -@countLoop ; LOOP (to count RAM chunk sizes) v - add.l (a0)+,d3 ; bump RAM counter - tst.l (a0)+ ; is this the last chunk? - bpl.s @countLoop ; UNTIL (we reach the last chunk) -@gotSize lsr.l #8,d3 ; get chunk size - mulu.l d3,d0 ; calc size of edisk - add.l #$7fff,d0 ; bump edisk past next 32k boundary - and.w #$8000,d0 ; round down to the boundary ^ - cmp.l #MinRamDiskSize,d0 ; check ram disk size | - blo.s @noEdisk ; >>EXIT if edisk is too small - cmp.l #MaxRamDiskSize,d0 ; check upper size limit - bhi.s @noEdisk ; >>EXIT is edisk to too big - move.l d0,d1 ; copy the size into D1 - move.b #1,sgEDiskStealFlag(a6) ; signal that we want to steal chunks from RAM - lea sgRamTable(a6),a0 ; source = chunk table in BootGlobs CSS - lea eDiskChunks(a5),a1 ; destination = edisk chunk table - bsr stealChunks ; try to steal some ram from main memory -@saveSize ; + ; move.l d1,sgRamDiskSize(a6) ; save size of eDisk in boot globals CSS @noEdisk ; ENDIF - + lea sgRamTable(a6),a0 ; source = chunk table in BootGlobs CSS lea globChunks(a5),a1 ; destination = our globals bsr CopyChunks ; copy RAM chunks to our globals @@ -2130,27 +724,18 @@ SetupGlobals ; a0 = top highest bank, d1 = total RAM sub.l a0,d1 ; normal phys-to-log offset = total - top - move.b #MMPRAMloc**$FF,d0 ; get PRAM address of memory manager flags - bsr ReadPRAMByte ; read it and weep... <5> + moveq.l #0,d0 - IF NOT Supports24Bit THEN ; rb rb +; IF NOT Supports24Bit THEN ; rb rb + bset #mmFigEnable,d0 ; Force 32-bit mode until we make room for a 2 meg rom kc •••• bset #MMStartMode,d0 ; Force 32-bit mode until we make room for a 2 meg rom kc •••• bset #MMMixed,d0 ; Force 32-bit mode until we make room for a 2 meg rom kc •••• bset #MMSysheap,d0 ; Force 32-bit mode until we make room for a 2 meg rom kc •••• bset #MMROZheap,d0 ; Force 32-bit mode until we make room for a 2 meg rom kc •••• - bclr #mmHighSysHeap,d0 ; Force 32-bit mode until we make room for a 2 meg rom kc •••• - ENDIF ; rb + +; ENDIF ; rb - btst #MMStartMode,d0 ; check for 32 bit only - bne.s @not24 ; IF not 32 bit only - bclr #mmHighSysHeap,d0 ; weird system heap is a bad idea - bra.s @modeOk ; ... -@not24 btst #mmHighSysHeap,d0 ; ELSEIF 'black hole' before system heap - beq.s @modeOk ; . - add.l #HoleSysHeap-HoleLowMem,d1 ; phys-to-log offset = (total-top) + - ; .(new base system heap - ram for lowmem) -@modeOk ; ENDIF move.b d0,sgMMFlags(a6) ; save memory mgr flags in BootGlobs CSS move.l d1,sgPhys2Log(a6) ; save physical-to-logical offset CSS rts @@ -2239,14 +824,6 @@ CleanupGlobals ENDIF ; add.l sgAllocOff(a6),d0 ; get logical address top useable memory CSS - btst.b #mmHighSysHeap,sgMMFlags(a6); check if 'black hole' before system heap CSS - beq.s @noHole ; IF 'black hole' - move.l d0,sp ; temporarily set new logical stack ptr there - sub.l #HoleSysHeap-HoleLowMem,d0 ; adjust amount of useable logical memory - lsr.l #1,d0 ; divide amt useable logical memory by 2 - suba.l d0,sp ; stack = middle of useable logical memory - bra.s @donestak ; . -@noHole ; ELSE cmp.l #$200000,d0 ; do we have at least two meg of RAM? <5> bge.s @plentyORam ; IF we have less than two meg THEN <5> lsr.l #2,d0 ; divide amt useable logical memory by 4 <5> @@ -2256,7 +833,6 @@ CleanupGlobals move.l #defStackAddr,d0 ; use default stack size <5> @stakOk ; ENDIF move.l d0,sp ; set new stack -@doneStak ; ENDIF biglea BaseOfROM,a1 ; get physical base address of ROM move.l logRomBase(a5),d3 ; get future logical base addr ROM @@ -2291,37 +867,12 @@ SaveMMUInfo move.l newtc(a2),theTC(a1) ; move tc ;----- -; GetMMUType - figure out what kind of MMU we have -; -; Entry -; a5 - points to InitMMU globals -; d7 - bits 31-16: logic board type -; d7 - bits 15-0: cpu type (0 = 68000, 1 = 68010, 2 = 68020, 3 = 68030, 4 = 68040, etc.) <2> -; -; Exit -; d0.b - type of MMU -; -; Destroys d1-d2/a0-a1 +; MMUError 7bac - unrecoverable error discovered while setting up MMU. ;--- - -MMUTypes ; CPU type -> MMU type mapping - dc.b NoMMU ; 68000 - no MMU - dc.b NoMMU ; 68010 - no MMU - dc.b HMMU ; 68020 - HMMU or 68851 - dc.b PMMU030 ; 68030 - '030 MMU - dc.b PMMU040 ; 68040 - '040 MMU <2> -MaxCPU equ *-MMUTypes-1 ; highest CPU flag supported - -GetMMUType cmp.w #MaxCPU,d7 ; check if CPU type is in range - bhi MMUError ; if outta range, we're hosed - moveq #0,d0 ; clear a reg - move.b MMUTypes(d7),d0 ; get MMU type, based on CPU type - - move.l prodInfoPtr(A5),A0 ; Get ptr to productInfo table - btst #ProductInfo.has68kEmulator//8,ProductInfo.ExtValid1+3(A0) - beq.s @done ; -> No emu. MMU type is correct. - moveq #EMMU1,D0 ; Set the MMU type to EmuMMU cause we're emulation an 020. -@done rts +MMUError move.w #102,d6 ; minor error code = MMU setup error <3.2> + move.l #$0F,d7 ; major error code = NuMac error <3.2> + bra.l Critical + ;----- ; CopyChunks - copies a RAM chunk table, skipping zero sized chunks, remembering @@ -2365,91 +916,6 @@ CopyChunks movem.l CopyRegs,-(sp) ; save work regs rts -;----- -; StealChunks - Steals chunks from the end of a chunk table and moves them to -; another table. Also copies the original Boot Globs from the end -; of the original last chunk to the "new" last chunk of main memory. -; -; Entry -; a0 - points to source table of chunks -; a1 - points to destination table of chunks -; d0 - amount of RAM to steal -; -; Exit -; d1.l - total size of memory stolen, else zero upon failure -; a6.l - new boot globs pointer if RAM was stolen -; -; Destroys -; a1-a3 -;----- -MinBootGlobs equ $00080000 ; 512k: boot globs min size - -StealRegs REG d2-d5/a4 - -StealChunks - movem.l StealRegs,-(sp) ; save work regs - move.l a0,a2 ; get addr of source chunks - move.l a1,a3 ; get addr of dest chunks - move.l d0,d2 ; get number of bytes to steal - clr.l d3 ; clear RAM size count -@findEndLoop ; LOOP (to find end of source chunks) - cmp.l #-1,(a2)+ ; did we reach the end? - beq.s @foundEnd ; >>EXIT when we get there - add.l (a2)+,d3 ; add size of this chunk into total - bra.s @findEndLoop ; END -@foundEnd ; - sub.l #MinHeapSize,d3 ; subtract minimum amount of RAM for System - ble @notEnufRAM ; >>EXIT if not enuf RAM - cmp.l d3,d2 ; check against requested amount - bhi @notEnufRAM ; >>EXIT if not enuf RAM - - add.l #MinBootGlobs,d2 ; so we eat past boot globs - suba.l #4,a2 ; point just past last chunk entry - cmp.l #MinBootGlobs,-4(a2); is this a boot globs chunk? - beq.s @getChunksLoop ; IF boot globs chunk is not already seperate THEN - move.l -4(a2),d4 ; get size of previous last chunk - sub.l #MinBootGlobs,d4 ; calc new size of previous last chunk - move.l d4,-4(a2) ; save new size in previous last chunk - add.l -8(a2),d4 ; calc new end of previous last chunk - move.l d4,(a2) ; save start of boot globs chunk in new entry - move.l #MinBootGlobs,4(a2) ; save size of new chunk in a new entry at end - move.l #-1,8(a2) ; put end of chunk marker after boot globs chunk - adda.l #8,a2 ; point past new boot globs chunk - ; ENDIF - - move.l a2,a4 ; save ptr to end of boot globs chunk in src table -@getChunksLoop ; LOOP (to get start of Edisk chunks) - sub.l -(a2),d2 ; subtract this chunk from request - suba.l #4,a2 ; point to beginning of this chunk - bgt.s @getChunksLoop ; END - move.l a2,a0 ; make a copy of source table address - bsr copyChunks ; copy the chunk table starting with the chunk in a0 - add.l d2,d1 ; calc amount of memory stolen - neg.l d2 ; get number of bytes in last main RAM chunk we don't need - move.l d2,4(a2) ; save new size of last chunk of main RAM in src table - sub.l d2,4(a3) ; save size of first chunk of edisk in dest table - add.l d2,(a3) ; adjust start of first chunk of edisk in dest table - -; fix up boot globs chunks - move.l -8(a4),8(a2) ; copy start of boot globs chunk down in src table - move.l -4(a4),12(a2) ; copy size of boot globs chunk down in src table - move.l #-1,16(a2) ; put an end marker in src table after last chunk -@findEndLoop1 ; LOOP (to find end of dest chunks) - cmp.l #-1,(a3)+ ; did we reach the end? - beq.s @foundEnd1 ; >>EXIT when we get there - add.l #4,a3 ; bump up ptr to next addr - bra.s @findEndLoop1 ; END -@foundEnd1 move.l #-1,-12(a3) ; kill off extra boot globs chunk - sub.l #MinBootGlobs,d1 ; adjust amount of memory stolen - -@exit movem.l (sp)+,StealRegs ; restore regs - rts - -@notEnufRAM - clr.l d1 ; clear total size to indicate failure - bra.s @exit - - ;----- ; FindInfo - massage RAM chunks based on what type of hardware we are on, and return ; pointers to the layout tables to use in setting up the MMU. @@ -2486,1899 +952,39 @@ FindInfo movem.l FindRegs,-(sp) ; save work registers dc.w @bad-@casetbl ; .(Mac Pal) dc.w @bad-@casetbl ; .(BBU) dc.w @bad-@casetbl ; .(Normandy) - dc.w @Glu-@casetbl ; .(Mac2Glue) - dc.w @MDU-@casetbl ; .(MDU) - dc.w @FMC-@casetbl ; .(OSS FMC) - dc.w @VISA-@casetbl ; .(VISA has MMU similar to HMMU) <12> - dc.w @Orwell-@casetbl ; .(Orwell) <7> - dc.w @Jaws-@casetbl ; .(Jaws) <9> - dc.w @MSC-@casetbl ; .(MSC) - dc.w @Sonora-@casetbl ; .(Sonora)

- dc.w @Niagra-@casetbl ; .(Niagra) - dc.w @YMCA-@casetbl ; .(YMCA) fau - dc.w @djMEMC-@casetbl ; .(djMEMC) - dc.w @Emulated-@casetbl ; .(HMC) - dc.w @Pratt-@casetbl ; .(Pratt) - dc.w @Emulated-@casetbl ; .(HHead) + dc.w @bad-@casetbl ; .(Mac2Glue) + dc.w @bad-@casetbl ; .(MDU) + dc.w @bad-@casetbl ; .(OSS FMC) + dc.w @bad-@casetbl ; .(VISA has MMU similar to HMMU) <12> + dc.w @bad-@casetbl ; .(Orwell) <7> + dc.w @bad-@casetbl ; .(Jaws) <9> + dc.w @bad-@casetbl ; .(MSC) + dc.w @bad-@casetbl ; .(Sonora)

+ dc.w @bad-@casetbl ; .(Niagra) + dc.w @bad-@casetbl ; .(YMCA) fau + dc.w @bad-@casetbl ; .(djMEMC) + dc.w @exp-@casetbl ; .(HMC) + dc.w @bad-@casetbl ; .(Pratt) + dc.w @exp-@casetbl ; .(HHead) + dc.w @exp-@casetbl ; + dc.w @exp-@casetbl ; + dc.w @exp-@casetbl ; + dc.w @bad-@casetbl ; + dc.w @exp-@casetbl ; + dc.w @exp-@casetbl ; + dc.w @exp-@casetbl ; + dc.w @exp-@casetbl ; + dc.w @exp-@casetbl ; + dc.w @bad-@casetbl ; Align 4 @bad ; CASE non-MMU based controller: bra MMUError ; we're hosed... @exp ; CASE some new controller: - moveq #2,d0 ; filler for a future overpatch - moveq #2,d0 ; filler for a future overpatch - bra @endSwitch - -;--- -; Mac II glue chip: check for weird cases, normally return pointer to Contiguous setup. -; Normal case is no bank B here, since we merged it with bank A -; and set the size bits. If we still have bank B, either there -; was no bank A, or Bank B is bigger than bank A. Either can be -; handled if a 68851 is present by using the Split setup. -;--- - - - -@Glu ; CASE Mac 2 glue chip: - lea Contig32,a0 ; assume contig 32 bit mode layout info - lea Contig24,a1 ; assume contig 24 bit mode layout info - tst.l d2 ; check if first chunk start w/Bank A <3.5> - bne.s @tryPMMU ; if not, its a weird case (has to be bank B) <3.5> - addq.l #1,d4 ; check if second chunk (bank B) exists <3.5> - beq @endSwitch ; if only one chunk of RAM, we're all set <3.5> -@tryPMMU cmp.b #HMMU,sgTypeMMU(a6) ; see if we have an MMU up to the task <3.5> CSS - bne @split ; if its a PMMU, we can live with split memory <3.5> - bra MMUError ; otherwise we're hosed (no mem at addr zero!) - -;--- -; Emulated: RISC Macs have MMU functionality, but don't need to be setup here. cch -;--- - -@Emulated ; CASE RISC Mac: - bra @endSwitch ; that's all folks - - -;--- -; Sonora: Weird Case necessary to be able to handle Vail and Double Exposure. -;--- - -@Sonora ; CASE Sonora chip:

- - move.l d0,a0 ; save d0 - movec cacr,d0 ; - move.l d0,a1 ; save cacr - sub.l d0,d0 ; D0 = 0 - bset #CACR_DE_040,d0 ; set Data Cache Enable bit on 040s - movec d0,CACR ; attempt to enable data cache (temporarily) - movec CACR,d0 ; check and see if it's still there - btst #CACR_DE_040,d0 ; see if the bit exists in CACR - beq.s @Sonora030 ; IF we're on a 68040 THEN - - MACHINE MC68040 ; need this for the MOVEC D0,TC below - - cinva bc ; make sure caches are invalidated - - MACHINE MC68030 ; return to prior MACHINE directive <2> - - move.l a1,d0 ; restore cacr - movec d0,cacr ; - move.l a0,d0 ; restore d0 - lea SnraForty32,a0 ; use Sonora's 040 32 bit mode layout info - lea SnraForty24,a1 ; use Sonora's 040 24 bit mode layout info - bra @endSwitch ; that's all folks - -@Sonora030 move.l a1,d0 ; restore cacr - movec d0,cacr ; - move.l a0,d0 ; restore d0 - - lea Sonora32,a0 ; use Sonora's 32 bit mode layout info - lea Sonora24,a1 ; use Sonora's 24 bit mode layout info - bra @endSwitch ; that's all folks - -;--- -; Orwell: no weird cases. This wonderful decoder has already been set up to merge <7> -; RAM to be contiguous. -;--- - -@djMEMC ; CASE djMEMC chip: -@Orwell ; CASE Orwell chip: <7> - lea Orwell32,a0 ; use Orwell's 32 bit mode layout info - lea Orwell24,a1 ; use Orwell's 24 bit mode layout info - bra @endSwitch ; that's all folks - -;--- -; Jaws: Memory is always contiguous on Jaws, and onboard video will always be on. -;--- - -@Jaws ; CASE Jaws chip: <9> - movea.l prodInfoPtr(a5),a0 ; get productInfo record in a0 - move.l a0,a1 ; get a copy in a1 - adda.l ProductInfo.VideoInfoPtr(a0),a1 ; point to the VideoInfo record - move.l VideoInfo.VRAMPhysAddr(a1),VRAMPhysBase(a5) ; initialize base of video RAM - move.l VideoInfo.VRAMLogAddr32(a1),logVRAMBase32(a5) ; 24-bit logical VRAM addr - move.l VideoInfo.VRAMLogAddr24(a1),logVRAMBase24(a5) ; 32-bit logical VRAM addr - move.l #LCDMaxSize,VRAMrealSize(a5) ; set the size of video for phys space tbl <17> HJR - lea Jaws32,a0 ; use Jaws' 32 bit mode layout info - lea Jaws24,a1 ; use Jaws' 24 bit mode layout info - - bra @endSwitch ; that's all folks - -;--- -; MSC: Memory is always contiguous on MSC, and onboard video will always be on. -;--- - -@MSC ; CASE MSC chip: - - movea.l prodInfoPtr(a5),a0 ; get productInfo record in a0 - move.l a0,a1 ; get a copy in a1 - adda.l ProductInfo.VideoInfoPtr(a0),a1 ; point to the VideoInfo record - move.l VideoInfo.VRAMPhysAddr(a1),VRAMPhysBase(a5) ; initialize base of video RAM - move.l VideoInfo.VRAMLogAddr32(a1),logVRAMBase32(a5) ; 24-bit logical VRAM addr - move.l VideoInfo.VRAMLogAddr24(a1),logVRAMBase24(a5) ; 32-bit logical VRAM addr - lea MSC32,a0 ; use MSC's 32 bit mode layout info - lea MSC24,a1 ; use MSC's 24 bit mode layout info - - bra @endSwitch ; that's all folks - -;--- -; Niagra: Memory is always contiguous on Niagra, and onboard video will always be on. -; through next -;--- - -@Niagra ; - - movea.l prodInfoPtr(a5),a0 ; get productInfo record in a0 - move.l a0,a1 ; get a copy in a1 - adda.l ProductInfo.VideoInfoPtr(a0),a1 ; point to the VideoInfo record - move.l VideoInfo.VRAMPhysAddr(a1),VRAMPhysBase(a5) ; initialize base of video RAM - move.l VideoInfo.VRAMLogAddr32(a1),logVRAMBase32(a5) ; 24-bit logical VRAM addr - move.l VideoInfo.VRAMLogAddr24(a1),logVRAMBase24(a5) ; 32-bit logical VRAM addr - lea Niagra32,a0 ; use Niagra' 32 bit mode layout info - lea Niagra24,a1 ; use Niagra' 24 bit mode layout info - - bra @endSwitch ; that's all folks - -;--- -; Pratt: Memory is always contiguous on Pratt, and onboard video will always be on. -; -;--- - -@Pratt ; - - movea.l prodInfoPtr(a5),a0 ; get productInfo record in a0 - move.l a0,a1 ; get a copy in a1 - adda.l ProductInfo.VideoInfoPtr(a0),a1 ; point to the VideoInfo record - move.l VideoInfo.VRAMPhysAddr(a1),VRAMPhysBase(a5) ; initialize base of video RAM - move.l VideoInfo.VRAMLogAddr32(a1),logVRAMBase32(a5) ; 24-bit logical VRAM addr - move.l VideoInfo.VRAMLogAddr24(a1),logVRAMBase24(a5) ; 32-bit logical VRAM addr - lea Pratt32,a0 ; use Niagra' 32 bit mode layout info - lea Pratt24,a1 ; use Niagra' 24 bit mode layout info - - bra @endSwitch ; that's all folks - -;--- -; FMC - only weird case is bank B only. For other cases, we previously merged -; everything into one bank starting at physical zero. We can survive bank B -; only with the split model. -;--- - -@FMC ; CASE FMC chip: <3.6> - lea Contig32,a0 ; assume contig 32 bit mode layout info - lea Contig24,a1 ; assume contig 24 bit mode layout info - tst.l d2 ; check if RAM starts at physical zero - bne @split ; if not, we can live with split memory mode <3.8> - bra @endSwitch ; ... - - -;••• Begin fau -;--- -; YMCA: no weird cases. -;--- - -@YMCA ; CASE YMCA chip: - lea YMCA32,a0 ; use YMCA's 32 bit mode layout info - lea YMCA24,a1 ; use YMCA's 24 bit mode layout info - bra @endSwitch ; that's all folks -;••• End fau end - -;--- -; MDU - if RBV present w/monitor attached, deallocate video buffer from useable RAM -; and make Bank B, if present, be low memory. -;--- - -@MDU ; CASE MDU chip: - - btst #RBVExists,d6 ; check if RBV exists - beq @split ; IF RBV exists <3.8> - movea.l prodInfoPtr(a5),a0 ; get productInfo record in a0 <9> - move.l a0,a1 ; get a copy in a1 <9> - adda.l ProductInfo.VideoInfoPtr(a0),a1 ; point to the VideoInfo record <9> - move.l VideoInfo.VRAMPhysAddr(a1),VRAMPhysBase(a5) ; initialize base of video RAM <9> - move.l VideoInfo.VRAMLogAddr32(a1),logVRAMBase32(a5) ; 24-bit log. VRAM addr <9> - move.l VideoInfo.VRAMLogAddr24(a1),logVRAMBase24(a5) ; 32-bit log. VRAM addr <9> - cmpi.l #RBVBase32b,logVRAMBase32(a5) ; check which slot video is in <11> - adda.l ProductInfo.DecoderInfoPtr(a0),a0 ; point a0 to decoder info <11> - bne.s @slotE ; IF RBV is in Slot B THEN <11> - lea RBV32b,a3 ; point to RBV Slot B table <11> - bra.s @gotSlot ; ELSE <11> -@slotE lea RBV32e,a3 ; point to RBV Slot E table <11> -@gotSlot ; ENDIF <11> - bfextu newtc(a3){8,4},d0 ; get # addr bits for pageSize <11> - moveq #0,d6 ; clear a reg - bset d0,d6 ; get our pagesize - move.l sgTotalRAM(a6),d0 ; get total amt memory (for GetRBVSize) CSS - moveq #0,d1 ; signal no rounding, we want the REAL size - move.l RBVAddr(a0),a0 ; get addr of RBV hardware <11> - movea.l prodInfoPtr(a5),a2 ; pass addr of productInfo record in a2 <3.0> - bsr GetRBVSize ; get actual video buffer size - move.l d0,VRAMrealSize(a5) ; save it for later <9> - move.l sgTotalRAM(a6),d0 ; get total amt memory (for GetRBVSize) CSS - move.l d6,d1 ; rounding factor = MMU page size - bigjsr GetRBVSize,a4 ; get monitor size, rounded up to pagesize - move.l d0,VRAMSize(a5) ; save it for later <9> - beq @split ; if no monitor, its easy! - tst.l d2 ; check if any memory in Bank A - bne @split ; if no Bank A, its easy! - sub.l d0,d3 ; subtract monitor size from bank A - move.l d3,globChunks+4(a5) ; update RAM chunk table - add.l d0,d2 ; add monitor size to bank A start addr - move.l d2,globChunks(a5) ; update RAM chunk table - sub.l d0,sgPhys2Log(a6) ; adjust physical-to-logical conversion offset CSS - move.l a3,a0 ; point to RBV table <11> - - lea globChunks+8(a5),a1 ; get pointer to second chunk - tst.l sgEDiskStealFlag(a6); check for ram disk CSS | - beq.s @noRamDisk ; IF there is a ram disk THEN v - add.l #8,a1 ; point at third chunk -@noRamDisk ; ENDIF - tst.l (a1) ; check for bank B ^ - bmi.s @noBankB ; IF Bank B exists | - IF forRomulator THEN ; •••Note: Romulator won't work with an Edisk - TestInRam A2 ; are we running in ram? <3.8> - beq.s @inROM ; if not, skip this <3.8> - BigLea BaseOfRom,a2 ; get current base of ROM <3.8> - lsl.l #1,d1 ; add an extra page to bootglobs <3.8> - add.l ROMHeader.RomSize(a2),d1 ; increase size of bootglobs by ROM size <3.8> -@inROM ; - ENDIF ; <3.8> - tst.l sgEDiskStealFlag(a6); check for ram disk CSS - bne.s @ramDiskExists ; IF there is no ram disk THEN - sub.l d1,d5 ; decrement Bank B size by pagesize -@ramDiskExists ; ENDIF - lea globChunks(a5),a1 ; point at beginning of chunk table - move.l d4,(a1)+ ; put Bank B (addr) first in Ram chunk table - move.l d5,(a1)+ ; put Bank B (size) first in Ram chunk table - move.l d2,(a1)+ ; put Bank A (addr) second in Ram chunk table - move.l d3,(a1)+ ; put Bank A (size) second in Ram chunk table - tst.l sgEDiskStealFlag(a6); check for ram disk CSS - bne.s @noBankB ; IF there is no ram disk THEN - add.l d5,d4 ; get addr of last chunk - move.l d4,(a1)+ ; put addr last little chunk in table - move.l d1,(a1)+ ; put size last little chunk in table - moveq #-1,d4 ; get end of table marker - move.l d4,(a1)+ ; put end marker in table - move.l d4,(a1)+ ; put end marker in table - ; ENDIF -@noBankB ; ENDIF - move.l #RBVBase24b,d2 ; get the 24-bit video base address <14> - move.l logVRAMBase24(a5),d3 ; get the 24-bit video base addr for this machine <14> - andi.l #$ffffff,d2 ; ensure these are 24-bit addrs... <14> - andi.l #$ffffff,d3 ; same here <14> - cmp.l d3,d2 ; check which slot video is in <14> - bne.s @inSlotE ; IF RBV is in Slot B THEN <11> - lea RBV24b,a1 ; point to RBV Slot B table <11> - bra.s @done ; ELSE <11> -@inSlotE lea RBV24e,a1 ; point to RBV Slot E table <11> -@done ; ENDIF <11> - bra.s @endSwitch ; ... - - -;--- <12> -; VISA chip: Generally, the VISA code is similar to the HMMU (that is, there isn't any -; hardware, and it doesn't do anything). This code also whacks the ChunkTable -; to adjust for usage of RAM by the video system. There's no possibility of -; the split RAM case (big block in bank B), since there's no PMMU at all. -; -; For Slice there is no on-board video so no need to allocate a video buffer. -; All we need to do is allocate a 4k sound buffer. -;--- - -@VISA ; CASE VISA chip: - sub.l #$00001000,sgAllocOff(A6) ; allocate 4k sound buffer - lea FstrFrms24,a1 ; point to 24 bit MMU info table - lea FstrFrms32,a0 ; point to 32 bit MMU info table - bra @endSwitch ; - -@split ; ELSE (no RBV, just split memory) - move.l smallest(a5),d0 ; get size smallest chunk - bfffo d0{0,0},d0 ; get 32-log2(size) - subq.w #5,d0 ; normalize to 64 meg - muls.w #-MMUSetupInfo.Size,d0; compute offset from 64 meg entry - lea (split64mb32,d0.w),a0; return addr 32 bit mode layout - lea Split24,a1 ; return split 24 bit mode layout info -;fallThru bra.s @endSwitch ; ... - -@endSwitch ; ENDSWITCH movem.l (sp)+,FindRegs ; restore work registers rts -;----- -; MakePhysicalTable -; -; Create the 'physical table' describing the significant portions of the physical -; address space. Use the physical template to create the table. -; -; The table is actually created into a buffer on the stack, then copied to space -; allocated below BootGlobals. -; -; Entry -; a0 - points to 32 bit mode layout info -; a5 - points to InitMMU stack frame -; a6 - points to BootGlobs -; -; Exit -; physical table created (in BootGlobs) -;--- -MakPhysRegs REG a1-a2 - -MakePhysicalTable - - movem.l MakPhysRegs,-(sp) ; save work registers - suba.w #physBufSize,sp ; allocate buffer on stack - move.l sp,a2 ; save ptr to buffer start - move.l a2,a1 ; init buffer fill ptr - add.w physicalOff(a0),a0 ; scan ptr = addr physical template -@loop ; LOOP for each entry - move.w PhysicalSpaceBlock.usage(a0),d0;get template entry type - cmp.w #kUsageEndTable,d0 ; check it - beq.s @exitLoop ; >>EXITLOOP if end-of-table - cmp.w #kUsageRAM,d0 ; check it again - bne.s @notRam ; IF its a RAM entry - bsr doPhysRam ; generate RAM entries - adda.w #PhysicalSpaceBlock.size,a0 ; point at next template entry - bra.s @loop ; . -@notRam cmp.w #kUsageROM,d0 ; ELSEIF its a ROM entry - bne.s @notRom ; . - bsr doPhysRom ; generate ROM entry - adda.w #PhysicalSpaceBlock.size,a0 ; point at next template entry - bra.s @loop ; . -@notRom ; ELSE - moveq #PhysicalSpaceBlock.size-1,d0; prepare to copy entry to buffer -@copy move.b (a0)+,(a1)+ ; LOOP - copy next byte - dbra d0,@copy ; REPEAT - ; ENDIF - bra.s @loop ; REPEAT -@exitLoop - suba.l a2,a1 ; size = end - start - move.l a1,d1 ; save size of entries - addq.l #PhysicalSpace.firstEntry-PhysicalSpace,a1 ; add in extra fields - move.l a6,a0 ; get ptr to BootGlobs - move.l sgAllocOff(a6),d0 ; get current allocation offset CSS - sub.l a1,d0 ; allocate space for physical table - move.l d0,sgPhysicalTableOff(a6) ; save offset to physical table CSS - move.l d0,sgAllocOff(a6) ; update allocation offset CSS - add.l d0,a0 ; get ptr to allocated table - - move.l d1,d0 ; get total size of entries - divu #PhysicalSpaceBlock.size,d0 ; # entries = (total size)/(entry size) - move.w d0,(a0)+ ; write # entries - move.w #PhysicalSpaceBlock.size,(a0)+ ; write entry size - bra.s @endCopy ; adjust for dbra -@copyLoop move.b (a2)+,(a0)+ ; LOOP - copy byte from buffer to final table -@endCopy dbra d1,@copyLoop ; REPEAT for all bytes of entries in buffer - adda.w #physBufSize,sp ; de-allocate buffer from stack - movem.l (sp)+,MakPhysRegs ; restore registers - rts - -;----- -; doPhysRam - local subroutine of MakePhysicalTable to generate RAM entries in the -; physical table. -; -; First, if onboard video uses some RAM, entries are generated for both the video -; and the wrap of the logical space before and afet the video buffer (to accomodate <3.2> -; the Quickdraw bug of accessing a few bytes before and after the video buffer). <3.2> -; -; Then, a RAM entry is generated for each RAM chunk from our 'massaged' RAM chunk -; table. The first RAM entry is marked as low memory, so VM knows where low -; memory really is. We also duplicate the last entry, because we need to -; divide the last chunk into useable Ram and boot globals space. Later we will -; go back and adjust the addesses and sizes to reflect the actual size of the -; boot globals/mmu tables area. -; -; Entry -; a0 - points to physical template entry -; a1 - buffer fill ptr where physical table is being generated -; a2 - points to start of buffer -; a5 - points to InitMMU stack frame -; a6 - points to boot globs -; -; Exit -; a1 - updated buffer fill ptr (after RAM entries are added) -; a0-a2 preserved -;--- - -doPhysRegs REG d2-d4/a3-a4 - -doPhysRam movem.l doPhysRegs,-(sp) ; save registers - move.l VRAMrealSize(a5),d0 ; get exact onboard video size <9> - beq.s @doneVideo ; IF any onboard video - - move.l VRAMPhysBase(a5),d4 ; get physical base - - moveq #kUsageOnboardVideo,d1 ; entry type = onboard video <3.2, to end 3.2> - move.l logVRAMBase32(a5),d2 ; logical 32 addr <9> - move.l logVRAMBase24(a5),d3 ; logical 24 addr - bsr @writeOne ; create entry for real video buffer - - add.l d0,d2 ; log 32 addr = end of video buffer - add.l d0,d3 ; log 24 addr = end of video buffer - move.l #VidWrapSize,d0 ; size = size of wrap area <9> - moveq #kUsageOnboardVideoWrap,d1 ; entry type = onboard video WRAP - bsr.w @writeOne ; create entry for wrap area after video buffer - - move.l logVRAMBase32(a5),d2 ; wrap area before video buffer <9> - sub.l d0,d2 ; calculate start of wrap area <9> - move.l logVRAMBase24(a5),d3 ; logical 24 addr - sub.l d0,d3 ; calculate start of wrap area - bsr.w @writeOne ; for wrap area before video buffer - -@doneVideo ; ENDIF - - tst.l sgEDiskStealFlag(a6) ; check for ram disk CSS - beq.s @doneEDisk ; IF any ram disk THEN | - move.l #kUsageEDisk,d1 ; entry type = ram disk v - move.l sgRamDiskBase(a6),d2 ; logical 32 base = from globals CSS - clr.l d3 ; no access in 24-bit mode - lea eDiskChunks(a5),a3 ; point at ram disk chunk table -@eDiskLoop ; LOOP (to write entries for eDisk chunks) - move.l (a3)+,d4 ; get chunk addr - move.l (a3)+,d0 ; get chunk size - cmp.l #-1,d4 ; check for end of chunks - beq.s @doneEDisk ; >>EXITIF done all ram disk chunks - bsr @writeOne ; write a physical table entry - add.l d0,d2 ; bump up logical pointer ^ - bra.s @eDiskLoop ; REPEAT | -@doneEDisk ; ENDIF - - moveq #kUsageLowMemory,d0 ; start w/type = low memory - lea globChunks(a5),a3 ; point at massaged RAM chunk table -@ramLoop ; LOOP through RAM chunk table - movem.l (a3)+,d1-d2 ; get chunk addr/size - cmp.l #-1,d1 ; check for end of chunks - beq.s @doneRam ; >>EXITIF done all RAM chunks - move.l a1,a4 ; remember pointer to last RAM entry - move.w d0,(a1)+ ; type = current type - move.w #cacheable,(a1)+ ; attributes = cacheable - move.l d1,(a1)+ ; physical addr = RAM chunk addr - move.l d2,(a1)+ ; physical size = RAM chunk size - clr.l (a1)+ ; logical 32 addr = (don't care) - clr.l (a1)+ ; logical 32 size = (don't care) - clr.l (a1)+ ; logical 24 addr = (don't care) - clr.l (a1)+ ; logical 24 size = (don't care) - moveq #kUsageRam,d0 ; next type = normal RAM - bra.s @ramLoop ; REPEAT -@doneRam - move.l a4,d0 ; get ptr to last RAM chunk entry - sub.l a2,d0 ; buffer offset = ptr - start of buffer - addq.l #PhysicalSpace.firstEntry-PhysicalSpace,d0 ; account for extra fields - move.l d0,lastPhysRam(a5) ; save offset to last RAM chunk entry - moveq #PhysicalSpaceBlock.size-1,d0;prepare to copy last RAM chunk entry -@copy move.b (a4)+,(a1)+ ; LOOP - copy next byte - dbra d0,@copy ; REPEAT - - move.l soundBufferSize(a5),d0 ; is there a sound buffer on this machine? - beq.s @NoSoundBuffer ; -> nope, all done - clr.w (a1)+ ; entry type = other - move.w #notCacheable,(a1)+ ; attributes = notCacheable - move.l soundBufferBase(a5),(a1)+ ; physical addr = base of sound buffer - move.l d0,(a1)+ ; physical size = size of sound buffer - clr.l (a1)+ ; logical 32 addr = (don't care) - move.l d0,(a1)+ ; logical 32 size = size of sound buffer - clr.l (a1)+ ; logical 24 addr = (don't care) - move.l d0,(a1)+ ; logical 24 size = size of sound buffer -@NoSoundBuffer ; - movem.l (sp)+,doPhysRegs ; restore regs - rts - -;------ -; mini-routine to write a non-cached physical space entry -; d0 - size -; d1 - entry type -; d2 - logical 32 addr -; d3 - logical 24 addr -; d4 - physical addr -; a1 - pointer to next free entry -;------ -@writeOne move.w d1,(a1)+ ; write out entry type - move.w #notCacheable,(a1)+ ; attributes = notCacheable - move.l d4,(a1)+ ; physical addr = video base addr - move.l d0,(a1)+ ; physical size - move.l d2,(a1)+ ; logical 32 addr - move.l d0,(a1)+ ; logical 32 size - move.l d3,(a1) ; logical 24 addr - andi.l #$00FFFFFF,(a1)+ ; strip high byte of 24 bit addr - move.l d0,(a1)+ ; logical 24 size - rts - - -;----- -; doPhysRom - local subroutine of MakePhysicalTable to generate the Rom entry in the -; physical table. -; -; The physical address in the entry is the physical address of the ROM image, which might -; be in RAM if we are using Romulator™. The size is obtained from the Rom header. -; -; Entry -; a0 - points to physical template entry -; a1 - buffer fill ptr where physical table is being generated -; a2 - points to start of buffer -; a5 - points to InitMMU stack frame -; -; Exit -; a1 - updated buffer fill ptr (after RAM entries are added) -; a0-a2 preserved -;--- - -doPhysRom exg a3,d1 ; save register - move.w PhysicalSpaceBlock.usage(a0),(a1)+ ; CSS get usage type - move.w PhysicalSpaceBlock.attributes(a0),(a1)+ ; CSS get the attributes - move.l PhysicalSpaceBlock.physical.rangeSize(a0),d0 ; CSS - cmpi.l #$10000000,d0 ; CSS is the size 256MB ? - - bne.s @doNew ; CSS if 256MB then generate ROM entry the old way otherwise get -; ; CSS actual values from the physical space template - biglea BaseOfRom,a3 ; get physical addr Rom image - move.l a3,(a1)+ ; physical addr = image addr - move.l RomHeader.RomSize(a3),d0 ; get Rom image size from header - move.l d0,(a1)+ ; physical size = image size - exg a3,d1 ; restore reg - move.l logRomBase(a5),d1 ; get logical addr ROM - move.l d1,(a1)+ ; logical 32 addr - move.l d0,(a1)+ ; logical 32 size... - and.l #$FFFFFF,d1 ; get 24 bit mode address of ROM - move.l d1,(a1)+ ; logical 24 addr... - move.l d0,(a1)+ ; logical 24 size... - - bra.s @done ; CSS - -@doNew move.l PhysicalSpaceBlock.physical.address(a0),(a1)+ ; CSS get the physical address of the rom bank - move.l d0,(a1)+ ; CSS physical size of rom image from template - move.l PhysicalSpaceBlock.logical.address(a0),(a1)+ ; CSS get the logical 32 bit Rom bank address - move.l PhysicalSpaceBlock.logical.rangesize(a0),(a1)+ ; CSS get the logical 32 bit Rom bank size - move.l PhysicalSpaceBlock.logical24.address(a0),(a1)+ ; CSS get the logical 24 bit Rom bank address - move.l PhysicalSpaceBlock.logical24.rangesize(a0),(a1)+ ; CSS get the logical 32 bit Rom bank size - -@done exg a3,d1 ; CSS restore reg - rts - -;----- -; -; MakeTable - creates an MMU table. -; -; First an intermediate table is generated, given the installed RAM and the desired -; logical map. Then the final MMU table entries are generated from the intermediate table. -; -; The intermediate table entries are formatted as follows: -; -; 31 8 7 6 5 43 2 10 -; +--------------------------------+-+-+-+--+-+--+ -; | page address or table limit |0|c|0|xx|0|yy| -; +--------------------------------+-+-+-+--+-+--+ -; c - cache inhibit bit (one if cache should be inhibited, zero if not) -; xx - level in table. Level one corresponds to TIA, four to TID -; yy - descriptor type -; -; Each intermediate entry corresponds to some piece of the logical address space. For -; instance, if the tc specifies 16 TIA entries, there would be 16 level 1 entries. -; -; The intermediate entry is generated to allow easy creation of the final MMU table. -; Entries for the same level are laid out consecutively until it is determined that -; a deeper level is needed, or until the entire address space for that level has been -; covered. -; -; If a deeper level is needed, entries are laid out for that deeper level, followed -; by an entry for the parent level with a descriptor type of 'table'. The sequence -; of levels for a tc w/16 TIA entries, xx TIB entries, yy TIC entries might look like: -; -; 1111223333...322..2111111111111 -; | | - level 1 'table' entry, possible w/limit for the preceeding run -; | of level 2's -; | -; | - level 2 'table' entry, possibly w/limit -; -; In the above example, the level 2's even had a nested level 3 table! -; -; Entry: a0 points to table layout info -; a5 points to InitMMU stack frame -; -; Exit: a0 points to created table -; d0 has 1st longword of CRP -;----- - -tableSize EQU $30000 ; get 192k of space for intermediate table <7> - -MakeFrame RECORD {prevLink},DECR -Return ds.l 1 ; return addr -prevLink ds.l 1 ; previous value of link register -mmuSetupPtr ds.l 1 ; ptr to mmu setup information -templatePtr ds.l 1 ; pointer to template -logicalAddr ds.l 1 ; current logical address -genPtr ds.l 1 ; ptr into "intermediate form" table -ramChunks ds.l sgMaxChunks*2 ; space for copy of RAM chunks (addr/size) (last addr -1) CSS -eDskChunks ds.l sgMaxChunks*2 ; space for copy of edisk chunks (addr/size) (last addr -1) CSS -vidAddr ds.l 1 ; video chunk addr (get bumped up as allocated) -vidSize ds.l 1 ; video chunk size (gets bumped down as allocated) -doWrap24 ds.w 1 ; true if we need to wrap tables for 24-bit mode <7> -intermedTbl ds.l 1 ; start of intermediate table <7> -makeLocSize equ * ; size of locals - ENDR - -NoLimit equ $7FFF0000 ; what to stuff in limit field when there is no limit - - WITH MakeFrame - -MakeTable -MakeRegs REG d2/a1 - link a4,#makeLocSize-tableSize ; set up stack frame <7> - movem.l MakeRegs,-(sp) ; save registers - - move.l a0,mmuSetupPtr(a4) ; save ptr to MMU setup info - move.w templOff(a0),d0 ; get offset to normal template - btst.b #mmHighSysHeap,sgMMFlags(a6) ; check if creating map w/huge void CSS - beq.s @haveTempl ; IF we are - move.w specialOff(a0),d0 ; get offset to special template -@haveTempl add.w d0,a0 ; ENDIF - add in template offset - move.l a0,templatePtr(a4) ; save ptr to template - - lea globChunks(a5),a0 ; source = ram chunk table from InitMMU globals - lea ramChunks(a4),a1 ; destination = our local copy - bsr.s CopyChunks ; get a local copy of chunk table - - lea eDiskChunks(a5),a0 ; source = ram disk chunk table from globals - lea eDskChunks(a4),a1 ; destination = our local copy - bsr.s CopyChunks ; get a local copy of chunk table - move.l VRAMPhysBase(a5),vidAddr(a4) ; get local copy of base of video RAM <9> - move.l VRAMSize(a5),vidSize(a4) ; get local copy of size of video buffer <9> - - bsr.s IntermediateTable ; make the intermediate table - bsr FinalTable ; make the final MMU tables - - movem.l (sp)+,MakeRegs ; restore registers - unlk a4 ; deallocate stack frame - rts - -;----- -; IntermediateTable - wrapper routine for creating the intermediate form table. -; -; The table is created using two mutually recursive routines, DoLevel and DoNode. -; DoLevel is responsible for creating all nodes at a given level. It calls DoNode -; to create each node. -; -; DoNode attempts to create a node at the current level. If it determines that a node -; can be created at the current level (a contiguous physical space is possible for the -; current logical address mapping and the span of the current level), it quickly does so -; and returns. Otherwise, a lower level table is neccessary, and it calls DoLevel to -; create the lower level entries in the intermediate table. -; -; This routine simply sets up for generating nodes at the top level, and calls DoLevel. -; Before returning, it appends a dummy level zero node to the end of the intermediate -; table, to make generating the final MMU tables easier. -; -; Entry: -; a4 - points to MakeTable stack frame -; -;--- - -IntermediateTable - move.l d2,-(sp) ; save work reg - lea intermedTbl(a4),a0 ; get ptr to where intermediate table will go - move.l a0,genPtr(a4) ; save ptr to intermediate table - clr.l logicalAddr(a4) ; start at logical address zero - clr.w doWrap24(a4) ; assume generating for 32-bit mode <7> - moveq #1,d0 ; start at level one - bsr.s DoLevel ; create level 1 (and higher!) intermediate table - moveq #0,d2 ; signal writing table node for level zero - bsr WriteTableNode ; write the final table node - move.l (sp)+,d2 ; restore work reg - rts - -;----- -; DoLevel - create intermediate table entries for a given level of the MMU tree. -; -; Entry: -; d0.w - the level -;--- - -DoLevelRegs REG d2-d4 -DoLevel movem.l DoLevelRegs,-(sp) ; save regs - move.w d0,d2 ; save level of interest - bsr SpanAndCount ; d0 = span, d1 = count of entries at this level - move.l d0,d3 ; save span - move.l d1,d4 ; save count - bra.s @endLoop ; adjust loop count for dbra -@loop ; LOOP count times - bsr.s DoNode ; create next node -@endLoop dbra d4,@loop ; REPEAT - movem.l (sp)+,DoLevelRegs ; restore regs - rts - -;----- -; DoNode - create a node in the intermediate table, given the current table level and -; logical address. -; -; Entry: -; d2.w - level -; d3 - span of this level (passed in for convenience, could be recomputed here) -; a4 - points to MakeTable stack frame -;--- - -DoNode bsr.s PageAddr ; a0 = page address, d0 = type, d1 = cache inhibit flag - move.b @casetbl(d0),d0 ; get offset to routine to handle type - jmp @casetbl(d0.w) ; SWITCH(type) -@casetbl dc.b @valid-@casetbl ; . - dc.b @invalid-@casetbl ; . - dc.b @noFit-@casetbl ; . - dc.b @endCase-@casetbl ; . - ALIGN 2 ; . -@valid ; CASE(type = valid) - bsr WritePageNode ; write page node(level, page addr, cache flag) - bra.s @endCase ; ... -@invalid ; CASE(type = invalid) - bsr WriteInvalidNode ; write invalid node(level) - bra.s @endCase ; ... -@noFit ; CASE(type = didn't fit) - bsr CanGoDeeper ; see if we can go to next level - beq.s @noDeeper ; IF we can - move.w d2,d0 ; recall level - addq.w #1,d0 ; bump to next level - bsr.s DoLevel ; make entries at next level - bsr WriteTableNode ; write a table node (level) - bra.s @endCase ; ... -@noDeeper ; ELSE - bsr WriteInvalidNode ; write invalid node (level) - ; ENDIF -;fallthru bra.s @endCase ; ... -@endCase ; ENDSWITCH - rts - -;----- -; PageAddr - given logical address and level span, return information about the physical -; page where it will map to -; -; Entry: -; a4 - points to MakeTable stack frame -; a5 - points to InitMMU stack frame <3.2> -; d2.w - level -; d3 - span of this level (passed in for convenience, could be recomputed here) -; -; Exit -; d0.w - type (0 = valid page, 1 = invalid page, 2 = didn't fit) -; d1.w - cache inhibit flag in bit 6 -; a0 - page address -;--- - - WITH Template -PageRegs REG d3-d5 -PageAddr movem.l PageRegs,-(sp) ; save regs - move.l templatePtr(a4),a0 ; get ptr to template table - moveq #0,d5 ; template logical address = zero - move.l logicalAddr(a4),d0 ; get our current logical addr -@loop ; LOOP - move.l span(a0),d1 ; get chunk size - move.l d0,d4 ; recall our current logical address - sub.l d5,d4 ; get offset from start of template chunk - cmp.l d4,d1 ; check if we're in this chunk's range - bhi.s @exitLoop ; >>EXITLOOP if logical addr falls in this chunk - add.l d1,d5 ; bump template chunk address by size this chunk - addq.l #tEntrySize,a0 ; point at next template entry - bra.s @loop ; REPEAT -@exitLoop ; at this point: a0 -> template entry, - ; d1 = template chunk size, d2 -> bottom of chunk, - ; d3 = level span, d4 = our offset from bottom of chunk - move.l d3,d0 ; save level span - add.l d4,d3 ; get offset + span - cmp.l d3,d1 ; check against size of chunk - bhs.s @fits ; IF logical span doesn't fit in template chunk - moveq #2,d0 ; returned type = "doesn't fit" - bra @done ; EXITROUTINE -@fits ; ENDIF - move.l physNflag(a0),d3 ; get phys addr/flags word <7> - move.l d3,d5 ; copy for getting type bits <7> - and.l #typeMask,d5 ; mask all except type bits <7> - move.b @casetbl(d5),d5 ; get offset to routine to handle type - jmp @casetbl(d5.w) ; SWITCH(type) -@casetbl dc.b @thru-@casetbl ; . - dc.b @ram-@casetbl ; . - dc.b @rom32-@casetbl ; . - dc.b @rom24-@casetbl ; . - dc.b @vidWrap-@casetbl ; . - dc.b @video-@casetbl ; . - dc.b @mapped-@casetbl ; . - dc.b @Void-@casetbl ; . - dc.b @wrap24-@casetbl ; . <7> - dc.b @vram-@casetbl ; . <9> - dc.b @eDisk-@casetbl ; . - - ALIGN 2 ; . -@thru ; CASE(pass thru) - move.l logicalAddr(a4),a0 ; page address = current logical address - bra.s @valid ; returned type = "valid page" -@ram ; CASE(ram) - bsr.w GrabRam ; allocate from RAM chunks, return type, page addr - bra.s @endSwitch ; ... -@wrap24 ; CASE(24-bit wrap area) <7> - move.w #1,doWrap24(a4) ; fall through, and mark "invalid" <7> -@Void ; CASE(void in the middle of RAM) - moveq #1,d0 ; mark page as "invalid" - bra.s @endSwitch ; ... -@rom32 ; CASE(rom, 32 bit mode) - move.l physRomBase(a5),d0 ; assume running in ROM (use real h/w address) - cmp.w #cpu68040,d7 ; Check whether or not we're on an 040 - beq.s @nomask ; IF NOT on a 68040 THEN - btst.l #FullTblBit,d3 ; Check if we want full MMU tables for this block - bne.s @nomask ; IF Full Tables NOT wanted then - and.l #$ff000000,d0 ; mask to just use high byte of phys addr -@nomask move.l d0,a0 ; ENDIF - bra.s @romCommon ; (continue w/common code) - -@rom24 ; CASE(rom, 24 bit mode) - move.l physRomBase(a5),a0 ; assume running in ROM (use phys addr) - -@romCommon - IF forRomulator THEN ; <3.7> - biglea BaseOfROM,a0 ; point to start of ROM image in RAM - ENDIF ; <3.7> -@gotROM ; ENDIF - add.l d4,a0 ; returned page addr = start of ROM + offset from - ; .start of template chunk - bra.s @valid ; returned type = "valid page" -@vidWrap ; CASE(wrap to start of video) - move.l VRAMPhysBase(a5),a0 ; get physical base of video buffer <9> - bra.s @valid ; ... -@video ; CASE(video) - bsr GrabVideo ; allocate from vRAM chunks, return type, page addr - bra.s @endSwitch ; ... -@vram ; CASE(vram) <9> - move.l VRAMPhysBase(a5),a0 ; get physical base of video RAM <9> -; adda.l d4,a0 ; returned page addr = start + offset - bra.s @valid ; ... <9> -@eDisk ; CASE(ram disk) - bsr GrabEdisk ; allocate from eDisk chunks, return type, page addr - bra.s @endSwitch ; ... -@mapped ; CASE(mapped) - move.l d3,d0 ; get phys addr/flags word - and.l #physMask,d0 ; mask all except suggested physical addr <7> - move.l d0,a0 ; returned page addr = suggested phys addr <7> - add.l d4,a0 ; .plus offset from start of template chunk -@valid moveq #0,d0 ; returned type = "valid page" -;fallThru bra.s @endSwitch ; ... - -@endSwitch ; ENDSWITCH - cmp.w #cpu68040,d7 ; Check whether or not we're on an 040 <7> - beq.s @on040 ; IF NOT on a 68040 THEN <7> - btst.l #FullTblBit,d3 ; Check if we want full MMU tables for this block - beq.s @term ; IF Full Tables wanted then - and.l #cBitMask,d3 ; get cache inhibit bit - bra.s @fullTables ; check table level - ; ELSE -@term and.l #cBitMask,d3 ; get cache inhibit bit <7> - bra.s @setCache ; ELSE <7> -@on040 and.l #c040ModeMask,d3 ; get cache mode bits <7> - -@fullTables bsr.w CanGoDeeper ; check if we are at the lowest Level <7> - beq.s @setCache ; >>EXITROUTINE if NOT on lowest level <7> - cmp.w #0,d0 ; check if we would have returned valid <7> - bne.s @setCache ; >>EXITROUTINE if NOT returning valid <7> - moveq #2,d0 ; can't have a page descriptor yet, return "doesn't fit" <7> -@setCache ; ENDIF <7> - lsl.l #6-cBitNum,d3 ; move it into position <7> - move.w d3,d1 ; return it - -@done movem.l (sp)+,PageRegs ; restore regs - rts - - ENDWITH ; {Template} - - -;----- -; GrabRAM - allocate some space from the chunks of RAM. -; -; The procedure scans the chunks, looking for one that has a non-zero size. -; It then determines whether the allocation amount fits in that chunk. No attempt -; is made to look at other chunks (if it doesn't fit in the first non-zero sized one) -; in order to preserve the ordering present in the chunk table. -; -; Entry: -; a4 - ptr to MakeTable stack frame -; d0 - amount to allocate -; d2.w - level -; d3 - phys addr/flags -; -; Exit: -; a0 - ptr to the RAM chunk -; d0 - type, as follows: -; zero: valid (allocation was successful) -; one: invalid (no RAM available) -; two: didn't fit (requested size didn't fit in first available chunk) -; -; if successful, RAM chunk's size reduced by allocation amount. -; -; Trashes -; d1 -;--- - -GrabRAM lea ramChunks(a4),a0 ; point at table of RAM chunks - move.l d0,d1 ; save allocation amt - moveq #1,d0 ; assume returning "invalid" (no RAM available) -@loop cmp.l #-1,(a0)+ ; LOOP while more chunks - beq.s @done ; >>EXITROUTINE if no more chunks - tst.l (a0)+ ; check size of chunk - beq.s @loop ; REPEAT while nothing in this chunk - moveq #2,d0 ; assume returning "didn't fit" - cmp.l -4(a0),d1 ; check size versus desired size - bhi.s @done ; IF chunk is big enough - - cmp.w #cpu68040,d7 ; Check whether or not we're on an 040 - beq.s @fulltbl ; IF on a 68040 THEN - - btst.l #FullTblBit,d3 ; Check if we want full MMU tables for this block - beq.s @term ; IF Full Tables wanted then - -@fulltbl bsr.w CanGoDeeper ; check if on lowest level <7> - bne.s @valid ; >>EXITROUTINE if we're not on lowest level <7> - ; ENDIF <7> -@term move.l -8(a0),d0 ; page addr = start addr chunk - add.l d1,-8(a0) ; increment start addr by allocation amt - sub.l d1,-4(a0) ; decrement chunk size by allocation amt - move.l d0,a0 ; return page addr -@valid moveq #0,d0 ; returned type = "valid" -@done ; ENDIF - rts - - -;----- -; GrabVideo - allocate some space from the RAM allocated to video -; -; Entry: -; a4 - ptr to MakeTable stack frame -; a5 - points to InitMMU stack frame <3.2> -; d0 - amount to allocate -; d2.w - level -; d3 - phys addr/flags -; -; Exit: -; If requested size didn't fit in video RAM chunk -; d0 - two (didn't fit) -; a0 - undefined -; If all video RAM already allocated -; d0 - zero (valid page) -; a0 - base of video RAM (makes end of buffer wrap to start) <3.2> -; If requested size successfully allocated from video RAM chunk -; d0 - zero (valid page) -; a0 - allocated RAM chunk addr -; video RAM chunk's size reduced by allocation amount. -; -; Trashes -; d1 -;--- - -GrabVideo move.l d0,d1 ; save allocation amt - move.l VRAMPhysBase(a5),a0 ; assume no vRAM left, wrap to physical buffer base <9> - tst.l vidSize(a4) ; check remaining video RAM - beq.s @valid ; EXITROUTINE w/valid if none left <3.2> - moveq #2,d0 ; assume returning "didn't fit" (not enuf video RAM left) - cmp.l vidSize(a4),d1 ; check if there is enough - bhi.s @done ; EXITROUTINE if not enough left - - cmp.w #cpu68040,d7 ; Check whether or not we're on an 040 - beq.s @fulltbl ; IF on a 68040 THEN - - btst.l #FullTblBit,d3 ; Check if we want full MMU tables for this block - beq.s @term ; IF Full Tables wanted then - -@fulltbl bsr.s CanGoDeeper ; check if we'er on the lowest level <7> - bne.s @valid ; >>EXITROUTINE if we're not on lowest level <7> - ; ENDIF <7> -@term move.l vidAddr(a4),a0 ; return ptr to video RAM chunk - add.l d1,vidAddr(a4) ; bump video addr by allocation amt - sub.l d1,vidSize(a4) ; decrease remaining size by allocation amt -@valid moveq #0,d0 ; return "valid" <3.2> -@done rts - - -;----- -; GrabEdisk - allocate some space from the RAM allocated to the RAM disk -; -; The procedure scans the chunks, looking for one that has a non-zero size. -; It then determines whether the allocation amount fits in that chunk. No attempt -; is made to look at other chunks (if it doesn't fit in the first non-zero sized one) -; in order to preserve the ordering present in the chunk table. -; -; Entry: -; a4 - ptr to MakeTable stack frame -; d0 - amount to allocate -; d2.w - level -; d3 - phys addr/flags -; -; Exit: -; a0 - ptr to the RAM disk chunk -; d0 - type, as follows: -; zero: valid (allocation was successful) -; one: invalid (no RAM available) -; two: didn't fit (requested size didn't fit in first available chunk) -; -; if successful, RAM disk chunk size reduced by allocation amount. -; -; Trashes -; d1 -;--- -GrabEdisk - lea eDskChunks(a4),a0 ; point at table of eDisk chunks - move.l d0,d1 ; save allocation amt - moveq #1,d0 ; assume returning "invalid" (no RAM available) -@loop cmp.l #-1,(a0)+ ; LOOP while more chunks - beq.s @done ; >>EXITROUTINE if no more chunks - tst.l (a0)+ ; check size of chunk - beq.s @loop ; REPEAT while nothing in this chunk - moveq #2,d0 ; assume returning "didn't fit" - cmp.l -4(a0),d1 ; check size versus desired size - bhi.s @done ; IF chunk is big enough - - cmp.w #cpu68040,d7 ; Check whether or not we're on an 040 - beq.s @fulltbl ; IF on a 68040 THEN - - btst.l #FullTblBit,d3 ; Check if we want full MMU tables for this block - beq.s @term ; IF Full Tables wanted then - -@fulltbl bsr.s CanGoDeeper ; check if we'er on the lowest level <7> - bne.s @valid ; >>EXITROUTINE if we're not on lowest level <7> - ; ENDIF <7> -@term move.l -8(a0),d0 ; page addr = start addr chunk - add.l d1,-8(a0) ; increment start addr by allocation amt - sub.l d1,-4(a0) ; decrement chunk size by allocation amt - move.l d0,a0 ; return page addr -@valid moveq #0,d0 ; returned type = "valid" -@done ; ENDIF - rts - - -;----- -; CanGoDeeper - check if we can generate tables at at next level -; -; Entry: -; d2.w - current level -; a4 - points to MakeTable stack frame -; -; Exit -; Z flag - ne if we can, eq if we can't -; -; Trashes -; none -;--- - -DeeperRegs REG d0/a0 ; - -CanGoDeeper - movem.l DeeperRegs,-(sp) ;save working registers - cmp.w #cpu68040,d7 ; Check whether or not we're on an 040 <7> - bne.s @not040 ; IF on a 68040 THEN <7> - - cmp.w #3,d2 ; third level is the deepest we can go <7> - bra.s @done ; ELSE <7> -@not040 cmp.w #4,d2 ; fourth level is the deepest we can go <7> -@1 beq.s @done ; >>EXITROUTINE w/failure if at deepest level <7> - clr.l d0 ; so not to mess up bfextu down below <7> - move.w d2,d0 ; get level - addq.w #1,d0 ; get next level - lsl.w #2,d0 ; multiply by four (= TIx field size) - add.w #12,d0 ; get offset to TIx field - move.l mmuSetupPtr(a4),a0 ; get ptr to MMU setup info - bfextu newtc(a0){d0,4},d0 ; get TIx field for next level (eq if no TIx bits) -@done ; ENDIF <7> - movem.l (sp)+,DeeperRegs ; restore regs - rts - - -;----- -; WritePageNode - write a page node to the intermediate table. -; -; Entry: -; d1.w - cache inhibit flag -; d2.w - current level -; d3.l - logical address span of the node -; a0 - page address -; a4 - points to MakeTable stack frame -; -; Trashes: -; d0/a0 -;--- - -WritePageNode - moveq #0,d0 ; clear a reg - move.w d2,d0 ; get the level - lsl.w #3,d0 ; shift level into place - or.w d1,d0 ; factor in the cache inhibit flag - add.l a0,d0 ; lay in the page address - addq.w #descrPage,d0 ; set type = 'page' -AdvAndWrite add.l d3,logicalAddr(a4) ; logical address += span of this entry -WriteNode move.l genPtr(a4),a0 ; get ptr to next intermediate table entry - move.l d0,-(a0) ; put entry into intermediate table <7> - move.l a0,genPtr(a4) ; save ptr to next entry - rts - - -;----- -; WriteInvalidNode - write an invalid page node to the intermediate table. -; -; Entry: -; d2.w - current level -; d3.l - logical address span of the node -; a4 - points to MakeTable stack frame -; -; Trashes: -; d0/a0 -;--- - -WriteInvalidNode - moveq #0,d0 ; clear a reg - move.w d2,d0 ; get the level - lsl.w #3,d0 ; shift level into place - ; NOTE: invalid type = 0, so its already there - bra.s AdvAndWrite ; advance logical address, write node to - ; .intermediate table & EXIT - - -;----- -; WriteTableNode - write a table node to the intermediate table. -; -; Entry: -; d2.w - level -; a4 - points to MakeTable stack frame -; -; Trashes: -; d0/a0 -;--- - -WriteTableNode - cmp.w #cpu68040,d7 ; Check whether or not we're on an 040 <7> - bne.s @not040 ; IF on a 68040 THEN <7> - - movea.l #NoLimit,a0 ; we don't have limit fields <7> - bra.s @1 ; ELSE <7> -@not040 bsr.s Limit ; get limit field - ; ENDIF <7> -@1 moveq #0,d0 ; clear a reg - move.w d2,d0 ; get the level - lsl.w #3,d0 ; shift level into place - tst.w a0 ; check if low word of a0 is nonzero - bne.s @doWrite ; IF it is clear THEN - addq.w #descrTbl4,d0 ; set type to '4 byte table descriptor' - add.l a0,d0 ; factor in the limit field - or.w #LongStat,d0 ; put in rest of status field -@doWrite bra.s WriteNode ; write node to intermediate table & EXIT - ; ENDIF - -;----- -; Limit - given current level, looks backwards in intermediate table to see if -; a limit can be used on the next deeper level. -; -; If limit is possible, entries are shifted in the table to get rid of any entries -; made obsolete by the limit. -; -; Entry: -; d2.w - current level -; a4 - points to MakeTable stack frame -; -; Exit: -; a0 - limit field -;--- - -Limit move.l d3,-(sp) ; save work reg - bsr.s CountLeading ; get # leading invalid entries at next level - move.w d0,d3 ; save it - bsr.s CountTrailing ; get # trailing invalid entries at next level - move.w d0,d1 ; save it - or.w d3,d0 ; check for both zero - bne.s @yesLimit ; IF no leading OR trailing invalids - movea.l #NoLimit,a0 ; no limit! - bra.s @haveLimit ; . -@yesLimit cmp.w d1,d3 ; ELSEIF more trailing than leading - bhi.s @doLeading ; . - move.w d1,d0 ; recall # trailing invalids - bsr.s HandleTrailing ; handle upper limit case - bra.s @haveLimit ; . -@doLeading ; ELSE - move.w d3,d0 ; recall # leading invalids - bsr.s HandleLeading ; handle lower limit case -@haveLimit ; ENDIF - move.l (sp)+,d3 ; restore work reg - rts - -;----- -; CountLeading - count the number of leading invalid entries for the next lower level. -; -; Entry: -; d2.w - current level -; a4 - points to MakeTable stack frame -; -; Exit: -; d0.w - # leading invalid entries -;--- - -CountLeading - moveq #0,d0 ; deal w/leading invalid entries later... - rts - -;----- -; HandleLeading - purge the leading invalid entries at the next level from -; the intermediate table, and return an appropriate limit field. -; -; Entry: -; d0.w - # leading invalids -; d2.w - current level -; a4 - points to MakeTable stack frame -; -; Exit: -; a0 - limit field -;--- - -HandleLeading - move.l #NoLimit,a0 ; deal w/leading invalid entries later... - rts - -;----- -; CountTrailing - count the number of trailing invalid entries for the next lower level. -; -; Entry: -; d2.w - current level -; a4 - points to MakeTable stack frame -; -; Exit: -; d0.w - # trailing invalid entries -;--- - -CountTrailing - moveq #0,d0 ; # trailing invalids = 0 - move.l genPtr(a4),a0 ; get ptr to next intermediate table entry -@loop ; LOOP backwards thru intermediate table - move.l (a0)+,d1 ; get entry <7> - bfextu d1{30,2},d1 ; get descriptor type - bne.s @exitLoop ; >>EXITLOOP if not invalid - addq.w #1,d0 ; bump # trailing invalids - cmpa.l intermedTbl(a4),a0 ; check if we're at start of table - bne.s @loop ; REPEAT till start of table -@exitLoop rts - - -;----- -; HandleTrailing - purge the trailing invalid entries at the next level from -; the intermediate table, and return an appropriate limit field. -; Entry: -; d0.w - # trailing invalids -; d2.w - current level -; a4 - points to MakeTable stack frame -; -; Exit: -; a0 - limit field -;--- - -HandleTrailing - move.l d2,-(sp) ; save work reg - exg d2,d0 ; get current level, save # trailers - addq.w #1,d0 ; look at level we're getting limit for - bsr.s SpanAndCount ; get max # entries for that level - cmp.w d2,d1 ; check max entries against trailing invalids - blt.s @invalidLevel ; IF less invalids than max entries THEN | - sub.w d2,d1 ; limit = max # - # trailing v - subq.w #1,d1 ; limits are zero-based! - swap d1 ; get limit field in hi word - clr.w d1 ; zap low word - move.l d1,a0 ; return it - moveq #0,d0 ; clear a reg - move.w d2,d0 ; get # trailing invalids - bra.s @bumpPtr ; go bump intermediate table ptr -@invalidLevel ; ELSE - move.l d1,d0 ; use max number of entries - move.l #1,a0 ; return a bad limit -@bumpPtr ; ENDIF - lsl.l #2,d0 ; get size of their intermediate table entries - add.l d0,genPtr(a4) ; purge entries from intermediate table <7> - move.l (sp)+,d2 ; restore reg - rts - - -;----- -; SpanAndCount - get the address span of a given table level, and # entries at that level -; -; Entry -; d0.w - level -; a4 - ptr to MakeTable stack frame -; -; Exit -; d0.l - address span -; d1.w - count -;--- - -SpanAndCount -SpanRegs REG d2-d3 - movem.l SpanRegs,-(sp) ; save regs - move.l mmuSetupPtr(a4),a0 ; get ptr to MMU setup info - cmp.w #cpu68040,d7 ; check if we are an 040 <7> - bne.s @not040 ; IF on a 68040 THEN <7> - - clr.l d2 ; clear reg for span bits <7> - clr.l d3 ; clear reg for entry bits <7> - subq.w #1,d0 ; convert level into table index <7> - move.b (TIX040,d0.w*2),d2 ; get # of bits in this level's span <7> - move.b (TIX040+1,d0.w*2),d3; get # of bits in entry count for this level <7> - move.l #14,d0 ; bit # in TC to test for page size on 68040 <7> - btst d0,newtc(a0) ; check what size pages we're using <7> - beq.s @8kPages ; IF we're using 4k pages <7> - subq #1,d2 ; span goes down by half <7> - addq #1,d3 ; and number of entries doubles <7> -@8kPages ; ENDIF <7> - bra.s @done ; ELSE <7> -@not040 moveq #32,d2 ; start w/all address bits - bfextu newtc(a0){12,4},d1 ; get # initial shift bits - sub.l d1,d2 ; reduce total bits by initial shift - moveq #16,d1 ; get bit offset to 1st TIx field - subq.w #1,d0 ; adjust level for dbra -@loopTIx ; LOOP - bfextu newtc(a0){d1,4},d3 ; get # bits this level - sub.l d3,d2 ; reduce total by # bits this level - addq.w #4,d1 ; bump offset to next TIx field - dbra d0,@loopTIx ; REPEAT for all levels - ; ENDIF <7> -@done moveq #0,d0 ; clear return reg - bset d2,d0 ; set address span for this level - moveq #0,d1 ; clear return reg - bset d3,d1 ; set # entries this level - movem.l (sp)+,SpanRegs ; restore regs - rts - -TIX040 ; 68040 built-in table index field sizes (8k pages) <7> -LevelOne dc.b 25,7 ; 32M span, 128 entries <7> -LevelTwo dc.b 18,7 ; 256k span, 128 entries <7> -LevelThree dc.b 13,5 ; 8k span, 32 entries <7> - -;----- -; FinalTable - generate the final MMU table from the intermediate table -; -; Entry: -; a4 - point to MakeTable stack frame -; intermediate table has been created -; -; Exit -; a0 - points to newly created MMU table -; d0 - has 1st word of crp (limit, descriptor type) -;--- - -FinalTable lea intermedTbl(a4),a0 ; get ptr to intermediate table - move.l a0,genPtr(a4) ; initialize scanning ptr - moveq #1,d0 ; start generating at level 1 - bsr.s Generate ; generate the table - tst.w doWrap24(a4) ; wrap the tables for 24-bit mode? <7> - beq.s @noWrap ; IF we need to wrap tables THEN <7> - bsr Wrap24BitTable ; wrap tables for 24-bit mode <7> -@noWrap ; ENDIF <7> - move.l ([genPtr,a4],-4),d1 ; get next intermediate table entry <7> - add.w d0,d1 ; make type '8 byte' if sub-table is 8 byte - and.w #descrTypeMask,d1 ; crp doesn't have extra status field bits - cmp.b #PMMU851,sgTypeMMU(a6) ; check MMU type CSS - bne.s @done ; IF we are on a 68851 - bset #9,d1 ; set 'shared global' bit -@done ; ENDIF - move.l d1,d0 ; return crp - rts - -;----- -; Generate - given a level, generate a (sub) table for that level -; -; Entry -; d0.w - level -; -; Exit -; d0.w - size (0 = short, 1 = long) of entries at this level -; a0 - ptr to generated table -;--- - -GenRegs REG d2-d4/a1-a2 -Generate movem.l GenRegs,-(sp) ; save work regs - move.l d0,d4 ; save level - bsr.s CountAndSize ; get #, size table entries needed - move.w d0,d3 ; save count - move.w d1,d2 ; save size - bsr.s AllocTbl ; allocate space for the (sub) table - move.l a0,a1 ; set up fill ptr for table - move.l a0,a2 ; remember table address - bra.s @repeat ; adjust for dbra -@loop ; LOOP - move.l ([genPtr,a4],-4),d0 ; get next intermediate table entry <7> - bfextu d0{27,2},d1 ; get level of this entry - cmp.w d1,d4 ; check against level we're generating for - bhs.s @notTbl ; IF entry's level deeper than ours - move.w d4,d0 ; recall level we are working on - addq.w #1,d0 ; bump to deeper level - bsr.s Generate ; generate sub-table at next deeper level - bsr MakeTableEntry ; make a 4/8 byte table descriptor at fill ptr <16> - bra.s @next ; ... -@notTbl bne.s @weird ; ELSEIF entry's level = ours - bsr MakePageEntry ; make a 4/8 byte page/invalid entry at fill ptr -;fallThru bra.s @next ; ... -@next ; ENDIF -@repeat dbra d3,@loop ; REPEAT for all entries at this level - move.l a2,a0 ; return ptr to generated table - move.w d2,d0 ; return size of entries in generated table - movem.l (sp)+,GenRegs ; restore work regs - rts - -@weird ; entry's level less deep than ours - SHOULD NEVER HAPPEN! - dc.w $A9FF ; trap to debugger, call Sculley - - -;----- -; CountAndSize - return number and size of entries for subtree at given level -; -; Number of entries is obtained by scanning forward in the intermediate table, -; counting entries at this level until a higher (lower in number) level entry -; is found. Size is assumed 4 byte, but is 8 byte if any of the intermediate -; table entries encountered at this level are 8 byte. -; -; Entry -; d0 - level -; a4 points to MakeTable stack frame -; -; Exit -; d0.w - number of entries -; d1.w - zero if 4 byte descriptors, one if eight byte descriptors -;--- - -CountRegs REG d2-d4 -CountAndSize - movem.l CountRegs,-(sp) ; save work registers - move.w d0,d2 ; save level of interest - move.l genPtr(a4),a0 ; get ptr to itermediate table entry - moveq #0,d1 ; assume 4 byte descriptors - moveq #0,d0 ; count = zero -@loop ; LOOP - move.l -(a0),d3 ; get next intermediate table entry <7> - bfextu d3{27,2},d4 ; get level of this entry - cmp.w d4,d2 ; compare level to ours - bhi.s @done ; >>EXITIF level less deep than ours - bne.s @loop ; COUNTINUELOOP if not same level as ours - addq.w #1,d0 ; bump count - bfextu d3{30,2},d4 ; get type from entry - cmp.w #descrTbl4,d4 ; check it - bne.s @loop ; CONTINUELOOP if type ≠ "4 byte table" - swap d3 ; get limit field - cmp.w #NoLimit>>16,d3 ; check the limit - beq.s @loop ; CONTINUELOOP if no limit - moveq #1,d1 ; signal we'll need 8 byte descriptors - bra.s @loop ; REPEAT -@done movem.l (sp)+,CountRegs ; restore work regs - rts - - -;----- -; AllocTbl - allocate quadlong aligned space for MMU table from BootGlobs -; -; Entry -; d0.w - # entries in table -; d1.w - size of entries (0 = short, 1 = long) -; d4.w - level -; a6 - points to BootGlobs -; -; Exit -; a0 - ptr to allocated space -; -;----- - -AllocTbl and.l #$FFFF,d0 ; clear hi word of # entries - addq.w #2,d1 ; convert size into scale factor - ext.l d1 ; clear hi word of size - lsl.l d1,d0 ; table size = scaled # entries - move.l a6,d1 ; get ptr to BootGlobs - add.l sgAllocOff(a6),d1 ; calculate current allocation ptr CSS - sub.l d0,d1 ; allocate our table - cmpi.w #cpu68040,d7 ; check the type of processor <16> - bne.s @notAn040 ; IF on a 68040 THEN <16> - lea AlignmentMasks,a0 ; get address of table alignment masks <16> - and.w (a0,d4.w*2),d1 ; align the table <16> - bra.s @aligned ; ELSE <16> -@notAn040 and.b #$F0,d1 ; ensure quad-long alignment for 020/030's <16> -@aligned ; ENDIF <16> - move.l d1,a0 ; return ptr to allocated space - sub.l a6,d1 ; figure out new allocation offset - move.l d1,sgAllocOff(a6) ; update allocation offset CSS - rts - -; Masks for aligning 68040 tables on the correct boundaries <16> -AlignmentMasks -Level0 dc.w 0 -Level1 dc.w $fe00 ; align to 512 bytes (SRP ptr) -Level2 dc.w $fe00 ; align to 512 bytes (ptrs IN 1st level) -Level3 dc.w $ff00 ; align to 256 bytes (ptrs IN 2nd level) - -;----- -; MakeTableEntry - make a 4 or eight byte table descriptor at passed fill ptr -; -; Entry -; d0 - size (0 = short, 1 = long) of entries in sub-table -; d2 - size (0 = short, 1 = long) of table descriptor to be made -; a0 - ptr to sub-table -; a1 - fill ptr -; a4 - points to MakeTable stack frame (genPtr points to next intermediate entry) -; -; Exit -; a1 - fillptr updated to next place to put a descriptor -; genPtr(a4) - points to next intermediate table entry -;--- - -MakeTableEntry - subq.l #4,genPtr(a4) ; bump scan ptr <7> - move.l ([genPtr,a4]),d1 ; get next intermediate table entry <7> - add.w d0,d1 ; make type '8 byte' if sub-table is 8 byte - bfextu d1{30,2},d0 ; get descriptor type - tst.w d2 ; check descriptor size - bne.s @eightByte ; IF its a 4 byte descriptor - add.l a0,d0 ; merge sub-table address w/type - bset #3,d0 ; set used bit, so processor won't have to - move.l d0,(a1)+ ; lay down descriptor, update fill ptr - bra.s @done ; ... -@eightByte ; ELSE (its an eight byte descriptor) - bfclr d1{24,6} ; clear rest of status field - bset #3,d1 ; set used bit, so processor won't have to - move.l d1,(a1)+ ; lay down limit & status, update fill ptr - move.l a0,(a1)+ ; lay down table address, update fill ptr -@done ; ENDIF - rts - - -;----- -; MakePageEntry - make a (4 or eight byte) page or table descriptor at passed fill ptr -; -; Entry -; d2 - size (0 = short, 1 = long) of descriptor to be made -; a1 - fill ptr -; a4 - points to MakeTable stack frame (genPtr points to next intermediate entry) -; -; Exit -; a1 - fillptr updated to next place to put a descriptor -; genPtr(a4) - points to next intermediate table entry -;--- - -MakePageEntry - subq.l #4,genPtr(a4) ; bump scan ptr <7> - move.l ([genPtr,a4]),d0 ; get next intermediate table entry <7> - bfextu d0{25,7},d1 ; get descriptor type, cache inhibit bit - and.w #$FF00,d0 ; clear out all except page address - bfset d1{27,2} ; set modified, used bits so processor won't have to - tst.w d2 ; check descriptor size - bne.s @eightByte ; IF its a 4 byte descriptor - add.l d0,d1 ; merge page address w/status field - move.l d1,(a1)+ ; lay down descriptor, update fill ptr - bra.s @done ; ... -@eightByte ; ELSE (its an eight byte descriptor) - bfset d1{1,21} ; set limit to $7FFF, set up high bits of status - move.l d1,(a1)+ ; lay down limit & status, update fill ptr - move.l d0,(a1)+ ; lay down page address, update fill ptr -@done ; ENDIF - rts - - ENDWITH ; {MakeFrame} - ENDWITH ; {InitFrame} - ENDWITH ; {MMUSetupInfo} - -;----- -; Wrap24BitTable - Wrap the entries in the first and second level tables. This causes <7> -; the first byte in an address to be essentially ignored in 24-bit mode. -; Note: This routine assumes 4-byte descriptors. -; -; Entry -; a0 - points to newly created MMU table -; a4 - point to MakeTable stack frame -; -; Exit -; a0 - ptr to generated table -;--- - -WrapRegs REG d2/a1-a2 -Wrap24BitTable - movem.l WrapRegs,-(sp) ; save work registers - move.l a0,a2 ; save ptr to mmu table - move.w #2,d0 ; for level two, - bsr.s SpanAndCount ; find entrys' address span and count - mulu.l d1,d0 ; calc span of entire 2nd-level table - move.l #24,d2 ; bits in 16 meg chunk - lsr.l d2,d0 ; calc how many 16 meg chunks in level - and.l #$ffff,d1 ; clear high word of count - divu.w d0,d1 ; calc # of entries to duplicate - move.l (a2),d2 ; get table descriptor for first 2nd-level table - andi.l #$fffffff0,d2 ; get rid of attribute bits - move.l d2,a1 ; get it in an address register - subq.l #2,d0 ; (# of copies to make)-1 - movea.l a1,a0 ; get copy of pointer to table - lsl.l #2,d1 ; convert # of entries to bytes -@chunkLoop - adda.l d1,a0 ; point to copy destination - clr.l d2 ; clear counter -@copyLoop - move.l (a1,d2),(a0,d2) ; copy an entry - addq.l #4,d2 ; point to next entry - cmp.l d2,d1 ; done? - bne.s @copyLoop ; nope, keep looping - dbra d0,@chunkLoop ; do next chunk, if any - - moveq.l #1,d0 ; for level one -- - bsr.s SpanAndCount ; get address span and entry count - movea.l a2,a1 ; get a copy of the mmu table pointer - adda.l #4,a1 ; bump to point at second entry in table - subq.w #2,d1 ; (# of entries to copy) - 1 -@wrapLoop - move.l (a2),(a1)+ ; copy an entry - dbra d1,@wrapLoop ; loop through first level table - movea.l a2,a0 ; restore a0 - - movem.l (sp)+,WrapRegs ; restore work regs - rts ; - -;_____________________________________________________________________________________________ -; GetRBVSize - return size of RBV video buffer, optionally rounded up. -; -; Entry -; d0.l - total memory available -; d1.l - MMU page size to round buffer size up to. Zero if no rounding. -; a0 - RBV base address -; a2 - ProductInfo record ptr (for finding slot zero PRAM alias addr) <8.1> -; -; Exit -; d0 - the size -; -; all registers except parameters are preserved -;_____________________________________________________________________________________________ - - -GetRBVSize - - IF hasRBV THEN - bra.s DoRBVSize ; branch around tables, assembler barfs on fwd refs - -Trans ; Translations from monitor ID bits - dc.w 0 ; 000 = reserved (no monitor) - dc.w P15Table-Trans ; x01 = 15" portrait - dc.w IIGSTable-Trans ; 010 = IIgs - dc.w 0 ; 011 = reserved (no monitor) - dc.w 0 ; 100 = reserved (no monitor) - dc.w P15Table-Trans ; x01 = 15" portrait - dc.w MacIITable-Trans ; 110 = Mac 2 - dc.w 0 ; 111 = no monitor - -; these sizes are ordered to match the option bit ordering in DeclDataRBV.a - -SETable DC.L $0002AC00 ; SE (9" monitor), 8 bits/pixel, 171 Kbyte buffer <8.9> - DC.L $00005580 ; SE (9" monitor, 342x512), 1 bit/pixel, 21.375 Kbyte buffer <8.9> - DC.L $00015600 ; SE (9" monitor), 4 bits/pixel, 85.5 Kbyte buffer <8.9> - DC.L $0000A600 ; SE (9" monitor), 2 bits/pixel, 42.75 Kbyte buffer <8.9> - -IIGSTable DC.L $00030000 ; IIGS (12" monitor,384x512), 8 bits/pixel, 192 Kbyte buffer <8.9> - DC.L $00006000 ; IIGS (12" monitor,384x512), 1 bit/pixel, 24 Kbyte buffer <8.9> - DC.L $00018000 ; IIGS (12" monitor,384x512), 4 bits/pixel, 96 Kbyte buffer <8.9> - DC.L $0000C000 ; IIGS (12" monitor,384x512), 2 bits/pixel, 48 Kbyte buffer <8.9> - -MacIITable DC.L $0004B000 ; Mac II (12" monitor,640x480), 8 bits/pixel, 300 Kbyte buffer - DC.L $00009600 ; Mac II (12" monitor,640x480), 1 bit/pixel, 37.5 Kbyte buffer - DC.L $00025800 ; Mac II (12" monitor,640x480), 4 bits/pixel, 150 Kbyte buffer - DC.L $00012C00 ; Mac II (12" monitor,640x480), 2 bits/pixel, 75 Kbyte buffer - -P15Table - DC.L $00043F80 ; Portrait (15" monitor,640x870), 4 bits/pixel, 272 Kbyte buffer - DC.L $00010FE0 ; Portrait (15" monitor,640x870), 1 bit/pixel, 68 Kbyte buffer - DC.L $00021FC0 ; Portrait (15" monitor,640x870), 2 bits/pixel, 136 Kbyte buffer - - -GetRBVRegs REG d1-d4/a0 - -DoRBVSize movem.l GetRBVRegs,-(sp) ; save regs - - move.l d1,-(SP) ; save the rounding factor - - moveq #(1< - adda.l ProductInfo.VideoInfoPtr(a2),a0 ; point to the VideoInfo record <8.1> - moveq.l #0,d2 ; <8.1> - move.b VideoInfo.SlotPramAddr(a0),d2 ; set d2 = pram addr for slot zero <8.1> - - move.w d2,d0 ; <8.1> - addq.w #4,d0 ; get the last configuration flags from slot 0 pRAM <8.1> - - bsr ReadPRAMByte ; read it and weep... <5> - - eor.b d3,d0 ; exclusive or to see if anything changed - - btst #3,d0 ; did the RAM size change? - bne.s @configChanged ; if set, then it did - -;+++ btst #4,d0 ; did the CPU speed change? -;+++ bne.s @configChanged ; if set, then the configuration changed - -; test if the monitor type has changed - - move.w d2,d0 ; d2 = addr of slot zero pram <8.1> - addq.w #3,d0 ; get the last video sRsrc spID from pRAM <8.1> - bsr ReadPRAMByte ; read this pRAM - bclr #7,d0 ; mask off the spID hi bit - move.w d0,d3 ; remember this value in d3 - and.l #7,D0 ; lo-3 bits = monitor ID - - moveq #0,d1 ; clear this register out as a long in case there's no monitor - move.w (Trans,d4*2),d1 ; 0 = none, 1-4 = SE, IIGS, MacII, P15 - beq.s @gotSize ; if no monitor, then don't allocate any memory for video - - cmp.b d0,d4 ; is the monitor the same? - beq.s @noChange ; yup, so the saved slot pRAM value is OK - -@configChanged ; if we got here, then the CPU configuration has changed - ; PRESERVE D1 ACROSS THIS SECTION! - btst #3,d3 ; was the 1MB bit turned on? - beq.s @10 ; if not, then skip - bclr #4,d3 ; if 1MB, then ignore CPU speed -@10 - or.b d4,d3 ; OR the monitor ID in d4 with the config data in d3 to get - ; sRsrc id (with hi-bit off) - -; when 1MB/25MHz machines default to 1,2,4 instead of 1,2,4,8, then and extra test will be needed hee - -; -; at this point, we have the valid video sRsrc spID (sans bit 7) in d3. We use this value to look -; up the buffer size in the Trans table declared above -; - -@noChange - lea Trans,a0 ; point to table - moveq #0,d1 ; clear, in case there's no monitor <6.4> - move.w (Trans,d4*2),d1 ; 0 = none, 1-4 = SE, IIGS, MacII, P15 <6.4> - beq.s @gotSize ; if no monitor, then no memory for video <6.4> - adda.l d1,a0 ; offset to monitor's table <6.4> - lsr #3,d3 ; get the option bits at the bottom of d3 - move.l (a0,d3*4),d1 ; get the frame buffer size in d1 - - move.l (SP),d0 ; get the rounding factor in d0 - beq.s @gotSize ; IF rounding needed - move.l d1,d2 ; save our size - tdivu.l d0,d3:d2 ; get remainder of size/round factor - tst.l d3 ; check remainder - beq.s @gotSize ; IF any remainder - sub.l d3,d0 ; get round factor - remainder - add.l d0,d1 ; add to size to get next higher - ; ENDIF - ; ENDIF -@gotSize ; ENDIF - move.l d1,d0 ; return size - move.l (SP)+,d1 ; restore d1 - movem.l (sp)+,GetRBVRegs ; restore regs - ELSE - moveq #0,d0 ; no RBV, no size - ENDIF - - - RTS - - -;_____________________________________________________________________________________________ -; -; GetVISASize - calculate size of VISA video buffer -; -; This routine finds the amount of RAM occupied by the video frame buffer to be used by the -; VISA decoder, and adjusts the chunk table sizes accordingly. This code is similar to -; that in the Universal primaryInit (in RBVPrimaryInit.a). It needs to verify the -; connected display, and do some pRAM stuff to make this calculation work correctly. -; -; Preserves all registers -; -; Inputs : A2 = pointer to productInfo record -; A3 = VISA base address -; A6 = pointer to RAM chunk table -; -; Outputs : none -; -;_____________________________________________________________________________________________ - - WITH StartGlobals - -GetVISASize - -; I'm a bad dog to include these equates here, but they live in different files in Reality/split sources and -; the Reality version can't be included. - -sRsrc_VidElsA2Em EQU $A8 ; special Apple II emulation mode (1,4) -sRsrc_VidElsGSa EQU $A2 ; Rubik (1,4) - - - MOVEM.L A0/A2/A3/D0/D2/D4,-(SP) - - MOVE.B VsMonP(A3),D4 ; get the current monitor information - LSR.B #3,D4 ; shift the monitor ID into the low bits - AND.B #7,D4 ; clear out other bits - CMP.B #7,D4 ; if sense lines read 111 then no connect - BEQ.S @Done ; no changes needed if no connect - - CMP.B #2,D4 ; if =2, then Rubik display - BNE.S @isJersey ; if =6, then Jersey display - LEA RubikTbl,A1 ; point to the Rubik memory table - BRA.S @GetPRAM ; -@isJersey LEA JerseyTbl,A1 ; point to the Jersey memory table - -@GetPRAM - ADD.L ProductInfo.VideoInfoPtr(A2),A2 ; point to the VideoInfo record - MOVEQ #0,D2 ; clear out this register - MOVE.B VideoInfo.SlotPramAddr(A2),D2 ; get the start of pRAM for built-in video - ADDQ #4,D2 ; point to the config byte (see PrimaryInit) - - MOVE.W D2,D0 ; copy it to this register - BSR ReadPRAMByte ; get the config byte from pRAM in D0, the RAM-less way - - CMP.B D4,D0 ; was it the same configuration? - BNE.S @ReConfig ; no, so recalculate the default - -; the display configuration is the same, so use the spID in slot pRAM byte 3 to determine allocation - - MOVE.W D2,D0 ; point to pRAM byte again, clearing bits 8-15 of D0 - SUBQ #1,D0 ; point to byte 3 - BSR ReadPRAMByte ; get the config byte from pRAM in D0, the RAM-less way - - CMP.W #sRsrc_VidElsA2Em,D0 ; is it the Apple II emulation mode? - BNE.S @0 ; if not, continue - - MOVE.B #sRsrc_VidElsGSa,D0 ; memory allocation for the Apple II mode is same as Rubik (1,4) -@0 - LSR.B #3,D0 ; shift lo to make index - AND.B #3,D0 ; just the low two bits - BRA.S @GetSize ; - -; the display configuration is different, so determine the new default - -@ReConfig - MOVEQ #0,D0 ; zero index register - CMP.B #2,D4 ; if =2, then Rubik display, so default is RAM sensitive - BNE.S @GetSize ; if Jersey, then no RAM size variant - CMP.L #$100000,sgTotalRAM(A6) ; is there more than a megabyte of RAM? CSS - BGT.S @GetSize ; if so, then select variant 0 - ADDQ #1,D0 ; select variant 1 for Elsie with 1MB on Rubik - -@GetSize - MOVE.L (A1,D0.W*4),D0 ; get size for this config. A1=Monitor table, D0=index in tbl - -; adjust the sgAllocOff field down by the frame buffer size - - MOVE.L sgTotalRAM(A6),D2 ; get total ram CSS - SUB.L D0,D2 ; subtract frame buffer size to get base of frame buffer - SUB.L A6,D2 ; make frame buffer base relative to pointer to boot globals - MOVE.L D2,sgAllocOff(A6) ; CSS - -@Done - MOVEM.L (SP)+,A0/A2/A3/D0/D2/D4 ; restore work registers - RTS - -RubikTbl DC.L $0001B400,$00007000,$0003B400,$00027000 ; sizes for Rubik (1,4),(1),(1,4,2Pg),(1,2Pg) -JerseyTbl DC.L $0000B000,$00000000,$0002B000 ; sizes for Jersey (1), , (1,2Pg) <12> - - ENDWITH ; {MMUConfigInfo} ENDWITH ; {BootGlobs} diff --git a/OS/MPDispatchStub.a b/OS/MPDispatchStub.a new file mode 100644 --- /dev/null +++ b/OS/MPDispatchStub.a @@ -0,0 +1,71 @@ +; This ROM implementation of the MPDispatch trap (AA7F) only implements two +; selectors, both for writing to the NanoKernel framebuffer/serial log. + +; To print a C string: +; PEA @cstring +; MOVE #-3, -(SP) +; DC.W $AA7F + +; To print a hex string: +; MOVE.L #value, -(SP) +; MOVE #2, -(SP) ; 1: byte, 2: word, else: long +; MOVE #-2, -(SP) +; DC.W $AA7F + + +MPDispatchStubTrap PROC EXPORT + CmpI #-3, $4(SP) + BEQ.S NKxprintf + + CmpI #-2, $4(SP) ; + BEQ.S NKPrintHex + + Pea.L @errStr ; ERROR + Clr -(SP) + Bsr NKxprintf + + MoveQ.L #$0, D0 + Move $4(SP), D0 + Move.L D0, -(SP) + Move.L #$2, -(SP) + Clr -(SP) + Bsr NKPrintHex + Rts + + string Pascal +@errStr dc.b 'Unknown MPDispatch selector: ', 0, 0 + + +NKxprintf + + MoveA.L $6(SP), A0 + +@loop Move.B (A0)+, D0 ; iterate over string to get it in physical RAM? + BNE.S @loop + + MoveA.L $6(SP), A0 + + MoveQ.L #96, D0 ; call NKXprintf + dc.w $fe1f + + MoveA.L (SP)+, A0 ; return + AddQ.L #$6, SP + Jmp (A0) + + +NKPrintHex + + MoveA.L $A(SP), A0 ; r3 arg (value to print) + Move.L $6(SP), D1 ; r4 arg (1: byte, 2: 2byte, else: 4byte) + + MoveQ.L #97, D0 ; call NKPrintHex + dc.w $fe1f + + MoveA.L (SP)+, A0 ; return + dc.w $defc, $000A +; AddA.W #$A, SP + Jmp (A0) + + + + END diff --git a/Internal/C/CodeFragmentsTrap.h.idump b/OS/MPDispatchStub.a.idump similarity index 100% rename from Internal/C/CodeFragmentsTrap.h.idump rename to OS/MPDispatchStub.a.idump diff --git a/OS/OS.make b/OS/OS.make --- a/OS/OS.make +++ b/OS/OS.make @@ -75,29 +75,26 @@ RealTimeDir = {OSDir}RealTime: #include {I2CDir}I2C.make -OSObjs = "{ObjDir}clock.a.o" ∂ +OSObjs = "{ObjDir}BCScreen.a.o" ∂ + "{ObjDir}clock.a.o" ∂ "{ObjDir}CrsrDev.a.o" ∂ "{ObjDir}CudaMgr.a.o" ∂ "{ObjDir}DeferredTaskMgr.a.o" ∂ - "{ObjDir}DeviceMgr.a.o" ∂ - "{ObjDir}DockingMgr.a.o" ∂ + "{ObjDir}DeviceDispatch.o" ∂ "{ObjDir}EgretMgr.a.o" ∂ "{ObjDir}HwPriv.a.o" ∂ - "{ObjDir}I2C.a.o" ∂ "{ObjDir}Universal.a.o" ∂ - "{ObjDir}InterruptHandlers.a.o" ∂ - "{ObjDir}IOPMgr.a.o" ∂ "{ObjDir}OSEventMgr.a.o" ∂ "{ObjDir}queue.a.o" ∂ "{ObjDir}sysUtil.a.o" ∂ "{ObjDir}VerticalRetraceMgr.a.o" ∂ "{ObjDir}MiscPatches.a.o" ∂ - "{ObjDir}MagicData.a.o" ∂ "{ObjDir}PowerMgr.o" ∂ - "{ObjDir}PwrControlsPatches.o" ∂ "{ObjDir}VMPatches.a.o" ∂ + "{ObjDir}MPDispatchStub.a.o" ∂ "{ObjDir}Dispatch.a.o" ∂ - "{ObjDir}UniversalTables.a.o" + "{ObjDir}UniversalTables.a.o" ∂ + "{ObjDir}InterruptHandlers.a.o" ∂ "{LibDir}OS.lib" ƒ {OSObjs} @@ -188,3 +185,11 @@ OSObjs = "{ObjDir}clock.a.o" ∂ "{ObjDir}VMPatches.a.o" ƒ "{OSDir}VMPatches.a" Asm {StdAOpts} -o "{Targ}" "{OSDir}VMPatches.a" + + +"{ObjDir}MPDispatchStub.a.o" ƒ "{OSDir}MPDispatchStub.a" + Asm {StdAOpts} -o "{Targ}" "{OSDir}MPDispatchStub.a" + + +"{ObjDir}NKEventGroupWrapper.a.o" ƒ "{OSDir}NKEventGroupWrapper.a" + Asm {StdAOpts} -o "{Targ}" "{OSDir}NKEventGroupWrapper.a" diff --git a/OS/OSEventMgr.a b/OS/OSEventMgr.a --- a/OS/OSEventMgr.a +++ b/OS/OSEventMgr.a @@ -129,10 +129,11 @@ INCLUDE 'Balloons.a' ; INCLUDE 'BalloonsPriv.a' ; INCLUDE 'PowerPrivEqu.a' ; + INCLUDE 'Processes.a' Events PROC EXPORT - EXPORT InitEvents,PostEventTrap,GetOSEventTrap,OSEventAvailTrap,FlushEvents + EXPORT InitEvents,PostEventTrap,GetOSEventTrap,OSEventAvailTrap,FlushEvents,NewEMFunction IMPORT EnqueueTrap,DequeueTrap,SMgrPostMunging @@ -330,8 +331,9 @@ FillRecord MOVE.L Ticks,EvtTicks(A0) ; fill in the current time ;_______________________________________________________________________ OSEventAvailTrap - IMPORT ptchHMGetBalloons ; rb, start - IMPORT ptchHMCallTrackerInContext + ANDI.L #$FFFF,D0 + +OSEventAvailSkippingAndi with PowerDispRec MOVEM.L A0-A1/D0-D2,-(SP) ; we need to save these regs @@ -348,7 +350,40 @@ OSEventAvailTrap BNE.S @DoNothing ; do nothing on the reentrant case ST hmgOSEventReentrantCount(A0) ; say that we're busy - JSR ptchHMCallTrackerInContext + +; from BalloonExtensions.a: ptchHMCallTrackerInContext + + SUBQ #$8, SP + SUBQ #$2, SP + PEA.L $2(SP) + + MOVEQ.L #-$1, D0 ; like _GetFrontProcess but not quite + MOVE.L D0, -(SP) + MOVE #$39, -(SP) + _OSDispatch + + TST (SP)+ + BNE.B @wasError + SUBQ #$2, SP + + PEA.L $2(SP) + _WakeUpProcess + + TST (SP)+ + BNE.B @wasError + + SUBQ #$2, SP + MOVE #$FC, D0 ; from Balloonptch28.p: HMBalloonBulk + _Pack14 + + TST (SP)+ +@wasError AddQ #$8, SP + + ; from BalloonExtensions.a: ptchHMGetHelpGlobal + MOVE.L ExpandMem,A0 ; point to the expand mem ptr + MOVE.L ExpandMemRec.emHelpGlobals(A0),A0 ; return the global ptr on the stack + + CLR hmgOSEventReentrantCount(A0) @DoNothing MOVEM.L (SP)+,A0-A1/D0-D2 ; restore 'em, rb, end @@ -389,9 +424,12 @@ TstAutoEvent AND.W SysEvtMask,D0 ; figure in system mask for pseudo-evts MOVE.L Ticks,D1 ; check first threshold MOVE.L D1,D2 SUB.L KeyTime,D1 + CMPI.L #$8000,D1 + BGE @skip CMP KeyThresh,D1 BLT.S NoEventAvail ; br if not time yet +@skip SUB.L KeyRepTime,D2 ; check second threshold CMP KeyRepThresh,D2 BLT.S NoEventAvail ; br if not time yet @@ -458,7 +496,10 @@ NoEventAvail BSR.S FillRecord ; fill in record for null events ; Other: uses D0,D1,D2,A0,A1 ;_______________________________________________________________________ -GetOSEventTrap BSR.S OldOSEventAvail ; first find the event +GetOSEventTrap ANDI.L #$FFFF,D0 + +GetOSEventSkippingAndi + BSR.S OldOSEventAvail ; first find the event BNE.S @EventDone ; don't dequeue null or update events MOVE.L A0,-(SP) ; save user's event record ptr @@ -547,34 +588,38 @@ FlushStop MOVEM.L (SP)+,D3-D4 ; restore regs EXT.L D0 ; make result long <07Jun85> MOVE.W (SP)+, SR ; on as our result RTS - - END - - - - - - - - - - - - - - - - - - - - - - - - - - - +NewEMFunction + MoveA.L (A7)+, A1 + CmpI #$1, D0 + BEQ.B L13 + CmpI #$2, D0 + BEQ.B L14 + CmpI #$3, D0 + BEQ.B L15 + MoveQ.L #$C, D0 + DC.W $A9C9 +L13 Move.L (A7)+, D0 + MoveA (A7)+, A0 + Move.L A1, -(A7) + Bsr GetFreeOne + Bra.B L16 +L14 MoveA.L (A7)+, A0 + Move.L (A7)+, D0 + Move.L A1, -(A7) + Bsr OSEventAvailSkippingAndi + Not.L D0 + AndI.L #$101, D0 + Bra.B L16 +L15 MoveA.L (A7)+, A0 + Move.L (A7)+, D0 + Move.L A1, -(A7) + Bsr GetOSEventSkippingAndi + Not.L D0 + AndI.L #$101, D0 +L16 Move.L D0, $4(A7) + Rts + + + END diff --git a/OS/PPC/PPCInit.c b/OS/PPC/PPCInit.c --- a/OS/PPC/PPCInit.c +++ b/OS/PPC/PPCInit.c @@ -136,7 +136,7 @@ #include "UserGroup.h" #include -#include +#include #include #include #include diff --git a/OS/PPC/PPCLoader.c b/OS/PPC/PPCLoader.c --- a/OS/PPC/PPCLoader.c +++ b/OS/PPC/PPCLoader.c @@ -58,8 +58,8 @@ #include "PPCCommon.h" #endif -#ifndef __GESTALTEQU__ -#include +#ifndef __GESTALT__ +#include #endif #include diff --git a/OS/PowerMgr/PowerMgr.make b/OS/PowerMgr/PowerMgr.make --- a/OS/PowerMgr/PowerMgr.make +++ b/OS/PowerMgr/PowerMgr.make @@ -14,6 +14,12 @@ # +PowerMgrObjs = "{ObjDir}PowerMgr.c.o" ∂ + "{ObjDir}PowerMgr.a.o" ∂ + +"{ObjDir}PowerMgr.o" ƒ {PowerMgrObjs} + Lib {StdLibOpts} -o "{Targ}" {PowerMgrObjs} + "{ObjDir}PowerMgr.a.o" ƒ "{PowerMgrDir}PowerMgr.a" Asm {StdAOpts} -o "{Targ}" "{PowerMgrDir}PowerMgr.a" diff --git a/OS/Queue.a b/OS/Queue.a --- a/OS/Queue.a +++ b/OS/Queue.a @@ -87,49 +87,6 @@ ENQDONE SUBQ #2,A1 ;restore A1 ENDP -;----------------------------------------------------------------------- -; EnqueueHead -- add a queue element to the head of a queue. -;----------------------------------------------------------------------- -; -; Entry: -; A0 - points to the queue element -; A1 - points to the queue header -; All registers are preserved; there are no error conditions. -; -; The element is inserted at the beginning of the list. -; -;----------------------------------------------------------------------- -; -ENQUEUEHEAD PROC EXPORT - - MOVE SR, -(SP) ;preserve status - ADDQ #2, A1 ;point to qHead - ORI #$0700, SR ;disable interrupts for exclusion - - TST.L (A1)+ ;anything in the queue? (qHead) - BNE.S @doQinsert ;if so, skip ahead -; -; the queue is empty so make the head and tail point to the new element -; - MOVE.L A0, (A1) ;qTail - MOVE.L A0, -(A1) ;qHead - CLR.L qLink(A0) ;clear the link of the element - BRA.S @enQdone -; -; insert the element at the head of the list -; -@doQinsert MOVE.L A2, -(SP) ;preserve A2 - MOVE.L -(A1), A2 ;get ptr to old qHead - MOVE.L A2, qLink(A0) ;update new link to old head - MOVE.L A0, (A1) ;update qHead - MOVE.L (SP)+, A2 ;restore A2 -; -@enQdone SUBQ #2, A1 ;restore A1 - MOVE (SP)+, SR ;restore status and go home - RTS - - ENDP - ; ;----------------------------------------------------------------------- ; diff --git a/OS/SCSIMgr4pt3/InitItt.c b/OS/SCSIMgr4pt3/InitItt.c --- a/OS/SCSIMgr4pt3/InitItt.c +++ b/OS/SCSIMgr4pt3/InitItt.c @@ -104,7 +104,7 @@ #include #include #include -#include +#include #include #include #include diff --git a/OS/SlotMgr/SlotInterrupts.a b/OS/SlotMgr/SlotInterrupts.a --- a/OS/SlotMgr/SlotInterrupts.a +++ b/OS/SlotMgr/SlotInterrupts.a @@ -97,8 +97,8 @@ SIntCORE PROC EXPORT WITH SlotIntQElement,slotIntGlobals EXPORT InitSPTbl,InitSDTbl - EXPORT SIntINSTALL,SIntREMOVE,DAFBVia2SlotInt,PSCVIA2SlotInt,NiagraVIA2SlotInt - EXPORT SlotInt,SlotIntCommon,Via2SlotInt,RbvSlotInt,OssSlotInt + EXPORT SIntINSTALL,SIntREMOVE + EXPORT SlotIntCommon EXPORT RunSlotHandlers ; accessed by level 3 Sonic Interrupt on

; Sonora based systems @@ -232,150 +232,6 @@ SIntREMOVE bsr.s GetSlotIntQHead ; a1 := pointer to qheader ; ;____________________________________________________________________________ -SlotInt -PSCVIA2SlotInt - MoveQ #~$78, D0 ; mask for slot bits (active low) - ; (slots c,d,e, onboard video vbl) - Or.b PSCVIA2SInt(a1), D0 ; read and mask slot interrupt indicators - Not.l D0 ; convert to active high bit mask - Bne.l SlotIntCommon ; if interrupt pending, service it - Rts ; if not, return from interrupt rb, end - -DAFBVia2SlotInt - move.b #$02,vIFR(a1) ; reset the VIA any slot interrupt flag <3> - if nonSerializedIO then - nop ; force write to complete - endif - moveq.l #~$7F,d0 ; mask for slot bits (active low) (5 slots+Enet+Video) <3> <9> - or.b vBufA(a1),d0 ; read and mask slot interrupt indicators <3> - not.l d0 ; convert to active high bit mask <3> - bne SlotIntCommon ; if interrupt pending, service it <3> - rts ; if not, return from interrupt <3> - -; ••• These need moved (into HardwarePrivateEqu.a?) ••• -AIV3Base EQU $FEE00000 ; base address of AIV3 (Apple Integrated VIA 3) -AIV3SlotInt EQU $0002 -VBLIRQ EQU 6 - -AIV3Int EQU $0003 -AnySlot EQU 1 - -NiagraVIA2SlotInt - move.b #$02,vIFR(a1) ; reset the VIA any slot interrupt flag - - lea AIV3Base,a0 ; get base address - btst #AnySlot,AIV3Int(a0) ; any of our slots interrupting? - beq.s @notOurs ; no, exit - - moveq #0,D0 ; clear the register - btst #VBLIRQ,AIV3SlotInt(a0) ; check for VSC interrupt pending - bne.s @notOurs ; IF VBLIRQ pending THEN - ori.b #%00100000,D0 ; set slot E interrupt flag - bra SlotIntCommon -@notOurs - rts ; if not, return from interrupt rb, end - -Via2SlotInt - eieioSTP - move.b #$02,vIFR(a1) ; reset the VIA any slot interrupt flag - eieioSTP - moveq.l #~$3F,d0 ; mask for slot bits (active low) - eieioSTP - or.b vBufA(a1),d0 ; read and mask slot interrupt indicators - not.l d0 ; convert to active high bit mask - eieioSTP - bne SlotIntCommon ; if interrupt pending, service it - rts ; if not, return from the interrupt - -RbvSlotInt - eieioSTP - move.b #$82,RvIFR(a1) ; reset the RBV any slot interrupt flag - eieioSTP - moveq.l #~$7F,d0 ; mask for slot bits (active low) - eieioSTP - or.b RvSInt(a1),d0 ; get slot interrupt indicators - eieioSTP - not.l d0 ; convert to active high bit mask - -;•••••••••••• -; for PDM's with EVT1/2 boards, we need a small hack to swap the -; slot interrupt lines, since they're reversed on the logic board. -; AMIC versions >= 3 are used on EVT3 and greater boards, so -; we'll check for it and avoid the hack if it's present. Remove this hack -; when we no longer need to support EVT1/2 boards. - - IF hasHMC AND forPDMProto THEN ; - TestFor AMICExists ; do we have an AMIC? - beq.s @hackDone ; no, skip the hack - - btst.b #2,RvSEnb(a1) ; see if bit 2 is enabled (set) - bne.s @chkCF1 ; yes, we have a new AMIC (>=3), see if CF EVT1 - move.b #$84,RvSEnb(a1) ; try setting bit 2 - btst.b #2,RvSEnb(a1) ; did it set? - beq.s @doPDMHack ; no, must be AMIC1/2 (EVT1/2) - move.b #$04,RvSEnb(a1) ; else, restore it - bra.s @hackDone ; and skip the hack - -@chkCF1 lea $5ffffffe,a0 ; get CPU ID reg - move.b (a0)+,d1 ; - cmpi.b #$30,d1 ; are we a CF EVT1? - bne.s @hackDone ; no, exit - move.b (a0),d1 ; - cmpi.b #$13,d1 ; check 2nd byte of id - bne.s @hackDone ; not CF, no hack - - lea $F0000008, a0 ; get Bart ID Register - move.l (a0), d1 ; - cmp.l #$43184000, d1 ; is this the first rev of Bart - bne.s @hackDone ; new bart, so don't do hack - - move.b d0,d1 ; yes get interrupt bits - andi.b #%00001100,d1 ; get slot int bits ..CB (we loose slot E) - lsl.b #1,d1 ; map over into .DC. - andi.b #%11100011,d0 ; keep VBL & slot E (VDS) bits - or.b d1,d0 ; 'or' slots C,D into other bits - bra.s @hackDone ; and continue processing - - -@doPDMHack andi.w #$78,d0 - lsr.w #3,d0 - move.b @swapTbl(d0.w),d0 - lsl.w #3,d0 -@hackDone - ENDIF -;•••••••••••• - - and.b RvSEnb(a1),d0 ; only look at enabled ones - bne.s SlotIntCommon ; if interrupt pending, service it - rts ; if not, return from the interrupt - - IF hasHMC THEN ; -@swapTbl dc.b $00 ; 0000 - dc.b $04 ; 0001 - dc.b $02 ; 0010 - dc.b $06 ; 0011 - dc.b $01 ; 0100 - dc.b $05 ; 0101 - dc.b $03 ; 0110 - dc.b $07 ; 0111 - - dc.b $08 ; 1000 - dc.b $0c ; 1001 - dc.b $0a ; 1010 - dc.b $0e ; 1011 - dc.b $09 ; 1100 - dc.b $0d ; 1101 - dc.b $0b ; 1110 - dc.b $0f ; 1111 - ENDIF - - -OssSlotInt - moveq.l #$3F,d0 ; mask for slot bits (active high) - and.b OSSIntStat+1(a1),d0 ; get slot interrupt indicators - bne.s SlotIntCommon ; if interrupt pending, service it - rts ; if not, return from the interrupt - SlotIntCommon subq.l #4,sp ; allocate a long (only a byte is used) move.b d0,(sp) ; save the interrupt pending bit mask @@ -398,7 +254,6 @@ SlotIntCommon movea.l VIA2RBVOSS,a1 ; get base address of chip with slot int reg movea.l Via2DT+4*ifCA1,a0 ; get the handler address - eieioSTP jmp (a0) ; loop until no slots interrupting @noHandler _SysError ; no handler for slot interrupt diff --git a/OS/SlotMgr/SlotMgr.a b/OS/SlotMgr/SlotMgr.a --- a/OS/SlotMgr/SlotMgr.a +++ b/OS/SlotMgr/SlotMgr.a @@ -774,7 +774,7 @@ IdSave$d EQU D2 ;Save the sResource Id. MOVE.L a2,a0 MOVE.L a3,a1 MOVE.L d1,d0 - _BlockMove + _BlockMoveData MOVEM.L (SP)+,A0-A1 ;Restore A0-A1, destroyed by _BlockMove. BNE.S Err1 @@ -1483,12 +1483,6 @@ EndStatLoad RTS ; Patch out Drivers for any Apple Cards that need it. BeginGetSlotDrvr - IF NOT LC930 THEN - Import GetDriverPatch - Bsr GetDriverPatch ; If GetDriverPatch returns a - Tst.b D0 ; result >= 0, don’t execute - Bge.s ExitGetSlotDrvr ; Patched, so just return. - ENDIF ; This is the original entry-point. It is called by GetDevIndex Export OrigGetSlotDrvr OrigGetSlotDrvr @@ -1518,240 +1512,6 @@ ExitGetSlotDrvr RTS EJECT -;____________________________________________________________________________ -; -; GetDriverPatch and support (called from _SGetDriver). -; -; Entry/Exit: A0 points to spBlock. -; -; Purpose: The purpose of GetDriverPatch is to identify Apple -; Cards whose Driver code is faulty, and execute fixed -; versions from the CPU ROM. It’s job is to -; call GetDevIndex to determine whether the card/device -; pointed to by the incoming spBlock is one that needs -; patching. If so, it attempts to allocate enough space -; for the driver in the system heap, copy it there, and -; then return a handle to the driver in spBlock.spResult. -; If the driver can’t be loaded (e.g., not enough memory), -; the appropriate Slot Manager error is returned. -;____________________________________________________________________________ - -GetDriverPatch Proc Export - With spBlock,LoadTblRec - -@saveRegs Reg A0/A3-A5/D3-D4 ; Define registers for work/saving, and - Movem.l @saveRegs,-(Sp) ; store them on the stack. - Link A6,#-spBlockSize ; Get a stack frame. - - Move.l A0,A3 ; Save spBlockPtr. - -; First, look to see if we even need to be attempting to patch the driver on this -; card/device. -; - Bsr GetDevIndex ; Get the card/device index into D0. - Move.l D0,D3 ; If the device index is negative, then - Bmi @done ; driver doesn’t need patching. CSS - -; Next, check to see that we’re pointing to the sResource that has the driver or -; driver loader in it (i.e., we don’t want to be opening the driver multiple -; times). -; - Lea LoadTbl,A1 ; Point to base of LoadTbl. - Mulu #LTEntrySize,D3 ; Adjust index. - - Move.l A1,A0 ; Point to base of LoadTbl. - Move.b ltSpID(A0,D3),D0 ; Get spID. - Move.b ltSpExtDev(A0,D3),D1 ; Get spExtDev. - - Moveq #0,D4 ; Clear value holder. - Move.b D0,D4 ; Save spID - Swap D4 ; and - Move.b D1,D4 ; Save spExtDev. - - Move.l Sp,A0 ; Point to local spBlock. - - Move.b spSlot(A3),spSlot(A0) ; Get pointer to right sResource list: - Move.b spID(A3),spID(A0) ; Need spSlot, spID, and - Move.b D4,spExtDev(A0) ; spExtDev. - _SRsrcInfo - Bne.s @errRtn - - Swap D4 ; Get spID. - - Move.b D4,spID(A0) ; Make sure this sResource is the one - _SFindStruct ; with the driver in it. - Bne.s @errRtn - -; Finally, now that we know that we on the right card/device and are looking at the right -; sResource, allocate relocatable space in the System heap and tell the caller where that -; space is. -; - Move.l A1,A4 ; Point to base of LoadTbl. - Add.l ltAddrOff(A1,D3),A4 ; Add offset to driver and save pointer. - - Move.l A1,A0 ; Point to base of LoadTbl. - Add.l ltSizeOff(A1,D3),A0 ; Add offset to driver size and get pointer. - Move.l (A0),D3 ; Save driver size. - - Move.l D3,D0 ; Compact/Reserve some space for ourselves - _ResrvMem ,SYS ; in the System heap. - Bne.s @errRtn ; Get out if we couldn’t reserve the space. - - Move.l D3,D0 ; Attempt to allocate some space in the - _NewHandle ,SYS ; System heap. - Bne.s @errRtn ; Get out if we couldn’t get the space. - - Move.l A0,A5 ; Remember allocated handle, and prevent it - _HNoPurge ; from being removed. - - Move.l A4,A0 ; Get address of driver code. - Move.l (A5),A1 ; Get address of allocated space. - Move.l D3,D0 ; Get size. - _BlockMove ; Move driver into allocated space. - - Move.l A3,A0 ; Restore spBlockPtr. - Move.l A5,spResult(A0) ; Return driver handle in spResult. - - Moveq #0,D0 ; Return noErr. - Bra.s @done - -@errRtn Move.l #smsGetDrvrErr,D0 ; Couldn’t load driver error. -@done Unlk A6 ; Restore stack frame. - Movem.l (Sp)+,@saveRegs ; Restore registers. - Rts - -;____________________________________________________________________________ -; -; GetDevIndex -; -; Entry: A0 -- points to spBlock. -; -; Exit: D0 -- contains index (0..n-1) or error value (<0). -; -; Purpose: The purpose of GetDevIndex is to cycle through a table of -; card/device identifiers. If the card/device passed in -; is in the device table, it’s entry is returned. Otherwise, -; a negative number (-1) is returned. This is a utility routine -; called by SlotGetDriverPatch and SlotPrimaryInitPatch. -; -; Note: This routine Jsr’s (Bsr.l’s) to GetSlotDrvr directly due to -; the fact that we might be coming from our patched out version -; of GetSlotDrvr! We need to do this so that we can compare -; the version of the driver on the card with the one we know -; about. This is so that we don’t patch out newer (and -; presumably compatible) versions of the PrimaryInit and Driver. -; -;____________________________________________________________________________ - - Macro ; Macro for jumping directly int - _GetSlotDriver ; GetSlotDrvr (acting like trap dispatcher). - Movem.l A1/D1-D2,-(Sp) ; Save registers (A0 i/o, D0 is result). - Bsr.l OrigGetSlotDrvr ; Make call. - Tst.w D0 ; Act like Slot Manager for result. - Movem.l (Sp)+,A1/D1-D2 ; Restore registers. - EndMacro ; - - With DevTblRec,spBlock,seBlock - Export GetDevIndex -GetDevIndex - -@saveRegs Reg A3-A5/D3-D4 ; Define registers for work/saving, and - Movem.l @saveRegs,-(Sp) ; store them on the stack. - Link A6,#-spBlockSize ; Get a stack frame. - - Move.l A0,A3 ; Save current spBlock to simulate sExec. - Move.l Sp,A0 ; Point to stack spBlock. - - Lea DevTbl,A4 ; Point to table of device identifiers. - Moveq #0,D3 ; Set entry index to 0. - -@repeat Move.b spSlot(A3),spSlot(A0) ; Reset spSlot to the one we want. - Clr.w spID(A0) ; Start search from top, no external devices. <11> - Clr.b spTBMask(A0) ; No mask (i.e., specific search). - Move.w category(A4),spCategory(A0) ; Look for: Category, - Move.w cType(A4),spCType(A0) ; CType, - Move.w drvrSW(A4),spDrvrSW(A0) ; DrvrSW, - Move.w drvrHW(A4),spDrvrHW(A0) ; DrvrHW. - Clr.l spParamData(A0) ; Look only for enabled sRsrcs. <11> - Bset #foneslot,spParamData+3(A0) ; Limit search to this slot only by - _GetTypeSRsrc ; using the new & improved routine. - - Bne.s @until ; If this isn’t the device were looking for, - ; then keep going. - - _GetSlotDriver ; Otherwise, attempt to load driver (for version #). - Bne.s @dontPatch ; If it couldn’t be loaded, punt. - - Move.l spResult(A0),A5 ; Save driver handle (to dispose). - Move.l (A5),A0 ; Get driver pointer. - Lea drvrName(A0),A0 ; Get driver name. - - Clr.w D0 ; Clear D0.w (for use as index). - Move.b (A0),D0 ; Get the length of the driver name. - Addq #2,D0 ; Adjust offset to version field. - Bclr #0,D0 ; Adjust offset for word alignment. - Move.w (A0,D0.w),D4 ; Save the version number. - Move.l A5,A0 ; Get driver handle, and - _DisposHandle ; dispose of it. - - Cmp.w drvrVers(A4),D4 ; If the card’s version ≠ to ours, <11> - Bne.s @until ; then keep going. <11>
- - Move.l D3,D0 ; Otherwise, copy the index into D0, - Bra.s @done ; and return. - -@until Adda #DTEntrySize,A4 ; Point to next entry in table, and - Addq #1,D3 ; increment entry index. - Tst.w (A4) ; If this isn’t the final entry, then - Bne.s @repeat ; keep checking. - -@dontPatch Moveq #-1,D0 ; Flag that we don’t want to patch. -@done Unlk A6 ; Put stack frame back. - Movem.l (Sp)+,@saveRegs ; Restore registers. - Rts - - EndWith - - -;____________________________________________________________________________ -; -; Tables for PrimaryInit & GetDriver patches. -; -; Note: Keep these here and don’t export these labels! -;____________________________________________________________________________ - - Import TFBDrvr,TFBDrvrSize - Import JMFBDrvr,JMFBDrvrSize - - Import TFBPrimaryInit - Import JMFBPrimaryInit - - Export JsrTbl - -DevTbl Dc.w CatDisplay,TypVideo,DrSwApple,DrHwTFB,0 ; TFB Entry <11> - Dc.w CatDisplay,TypVideo,DrSwApple,DrHwJMFB,0 ; JMFB Entry <11> - Dc.w 0 - - Align 4 - -LoadTbl Dc.l TFBDrvr-LoadTbl ; Start of TFB driver code. - Dc.l TFBDrvrSize-LoadTbl ; Length. - Dc.b sRsrcDrvrDir ; TFB’s have an sRsrcDrvrDir. - Dc.b 0 ; TFB’s are singly deviced. - Dc.b 0,0 ; Padding. <11> - - Dc.l JMFBDrvr-LoadTbl ; Start of 4•8/8•24 driver code. - Dc.l JMFBDrvrSize-LoadTbl ; Length. - Dc.b sRsrcDrvrDir ; 4•8/8•24’s have an sRsrcDrvrDir. - Dc.b 0 ; 4•8/8•24’s are singly deviced. - Dc.b 0,0 ; Padding. - - Align 4 - -JsrTbl Dc.l TFBPrimaryInit-JsrTbl ; TFBPrimaryInit - Dc.l JMFBPrimaryInit-JsrTbl ; 4•8/8•24 PrimaryInit - - ;========================================================================================= ; slotinfo ;========================================================================================= @@ -1971,6 +1731,12 @@ PtrToSlot Proc Export MOVE.L spsPointer(A0),D1 ; D1 = sPointer BEQ.S @Done ; nil pointer - error + ROL.L #8,D1 + MOVE.B ROMBase,D2 + CMP.B D2,D1 + BEQ.S @skip_older + MOVE.L spsPointer(A0),D1 + ; Determine the slot clr.b d1 ; clear low byte of pointer <2.1> @@ -1984,10 +1750,11 @@ PtrToSlot Proc Export MOVE.B ROMBase,D2 ; D2 = high byte of ROMBase lsr.b #4,d2 ; shift high nib to low nibble <2.1> CMP.B D2,D1 ; same? - BHI.S @FoundSlot ; must be other super slot space + BNE.S @FoundSlot ; must be other super slot space ; Pointer is to ram or rom. Translate it to slot 0. +@skip_older MOVEQ #0,D1 ; access to host ROM - translate to slot 0 BRA.S @FoundSlot @@ -2553,13 +2320,9 @@ DeleteSRTRec ; Last SRT block is empty - free the block. Traverse SRT to end to nil the link ptr. -@Free MOVE.B mmu32Bit,-(SP) ; save current mmu state rb - MOVE.B #false32b,D0 ; rb - _SwapMMUMode ; switch to 24 bit mode rb +@Free MOVEA.L A2,A0 ; A0 = ptr to last SRT blk _DisposPtr ; free the block - MOVE.B (SP)+,D0 ; recover status rb - _SwapMMUMode ; restore mmu state rb MOVEA.L sRsrcTblPtr,A1 ; get ptr to beginning of SRT @Loop1 ADDA.W #srtBlkSize,A1 ; inc to end of blk CMPA.L srtNext(A1),A2 ; found end of link ? @@ -2697,6 +2460,7 @@ pNewSRTEntry MOVE.L spParamData(A0),D1 ; save enable/disable flags _sFindsInfoRecPtr ; get ptr to sinfo record + BNE.S @Done MOVEA.L spResult(A0),A1 ; A1 = ptr to sInfo record MOVE.L siDirPtr(A1),spsPointer(A0) ; set ptr to ROM directory _sFindStruct ; search the ROM directory @@ -3438,13 +3202,6 @@ shortvers ds.w 1 ; version and vector offset lsr.b #4,d0 ; look at high nibble cmp.b #$0B,d0 ; long bus exception frame ? bne.s @RealBusEx ; transfer to real bus exception handler - move.b DFAddr(sp),d0 ; get high byte of data fault cycle address - cmp.b #majorSpace,d0 ; in super slot space ($60-$E0) ? - blo.s @RealBusEx ; not in slot address space - cmp.b #$FF,d0 ; in minor slot space range ? - beq.s @RealBusEx ; not in minor slot space - cmp.b #$F0,d0 ; in minor slot space range ? - beq.s @RealBusEx ; not in minor space $F1 - $FE ; Have verified that a NuBus read data access caused the bus error. Need to modify the ; stack frame to return to the address in register a2. Accomplish this by creating a new @@ -3486,9 +3243,6 @@ shortvers ds.w 1 ; version and vector offset pInstallBus move.w sr,-(sp) ; Save current interrupt level. ori.w #HiIntMask,sr ; disable interrupts - moveq #True32B,d0 - _SwapMMUMode ; change to 32 bit mode - move.b d0,([sInfoPtr],entryMMUMode) ; save old mmu state move.l BusErrVct,([sInfoPtr],sysBusExcptn) ; save system bus vector in globals move.l ([SDMJmpTblPtr],BusException*4),BusErrVct ; replace with slot mgr vector move.w (SP)+,SR ; restore interrupt state @@ -3514,8 +3268,6 @@ pRestoreBus move.l d0,-(sp) ; save reg move.w sr,-(sp) ; Save current interrupt level. ori.w #HiIntMask,sr ; disable interrupts - move.b ([sInfoPtr],entryMMUMode),d0 ; get saved mmu mode - _SwapMMUMode ; restore mmu mode move.l ([sInfoPtr],sysBusExcptn),BusErrVct ; restore system exception vector move.w (sp)+,sr ; restore interrupt state move.l (sp)+,d0 ; restore reg @@ -3804,9 +3556,10 @@ RemoveCard with spBlock,sInfoRecord CheckSlot -@regs reg d1-d3/a1-a4 +@regs reg d1-d4/a1-a4 movem.l @regs,-(sp) moveq.l #0,d3 ; set d3 = change status flag + moveq.l #0,d4 ; get ptr to slot's sInfoRecord so we can check its previous state @@ -3822,6 +3575,12 @@ CheckSlot cmp.w #smReservedSlot, \ ; check for reserved slot siInitStatusA(a4) beq @Return ; reserved slots not valid + cmp.w #smEmptySlot, \ ; check for empty slot + siInitStatusA(a4) + bne.s @notbad ; empty slots not valid + + moveq.l #-1,d4 +@notbad moveq.l #0,d1 ; zero reg move.b spSlot(a0),d1 ; d1 = slot number @@ -3859,12 +3618,15 @@ CheckSlot ; Verify the format header - a0 = ptr to spblock, a1 = ptr to sInfoRecord @Verify - bsr.l VerifySlot ; verify the config rom format + bsr VerifySlot ; verify the config rom format tst.w siInitStatusA(a1) ; is the slot status ok? bne.s @CheckError ; bad or empty slot - check previous status ; Config ROM verifies ok - walk through all the sResources looking for the board sResource + tst.l d4 + bne.s @Changed + bsr GetBoardID ; find the board sRsrc and board id beq.s @Changed ; no board id - a bad card diff --git a/OS/SlotMgr/SlotMgrInit.a b/OS/SlotMgr/SlotMgrInit.a --- a/OS/SlotMgr/SlotMgrInit.a +++ b/OS/SlotMgr/SlotMgrInit.a @@ -414,10 +414,6 @@ StartSDeclMgr bsr InitsPram ; initial a slot's PRAM dbra d1,@Loop -; Initialize the Docking Manager so built-in video and docking cards can use its facilities - - BSR.L InitDocking ; initialize the Docking Manager

- ; Set up the warm/cold start flag for later. Moveq.l #0,D2 ; D2 = flag for cold start. @@ -1074,9 +1070,11 @@ InitsPRAM tst.w siInitStatusA(a2) ; is the slot status ok? beq.s @readPRAM ; slot ok - read board id from pram cmp.w #smDisabledSlot,siInitStatusA(a2) ; is slot disabled? - beq.s @Done ; don't touch disabled slot's pram + beq @Done ; don't touch disabled slot's pram cmp.w #smReservedSlot,siInitStatusA(a2) ; is slot reserved? - beq.s @Done ; reserved is the same as disabled + beq @Done ; reserved is the same as disabled + cmp.w #smEmptySlot,siInitStatusA(a2) ; is slot empty? + beq @Done ; empty is the same as disabled bra.s @writePRAM ; slot status is bad - zero pram ; Read PRAM to get the current board id. @@ -1215,16 +1213,6 @@ doPrimaryInit _sFindStruct bne.s @Done ; no primary init record - done - IF NOT LC930 THEN - -; Identify Apple Cards whose PrimaryInit code is faulty, and execute fixed -; versions from the CPU ROM. - Bsr.s PatchPrimaryInit ; If PatchPrimaryInit returns a - Tst.b D0 ; result >= 0, don’t execute - Bpl.s @cleanup ; normal PrimaryInit. - - ENDIF - ; Load the code and execute the primary init record. ; Move.l A3,spsPointer(A0) ; Restore ptr to board sRsrc. @@ -1241,66 +1229,6 @@ doPrimaryInit @done Rts -;____________________________________________________________________________ -; -; PatchPrimaryInit and support (called from doPrimaryInit). -; -; Entry: A0 -- points to spBlock. -; A1 -- points to sInfoRecord. -; A2 -- (after restore from BigJump) points to sExec param blk. -; A3 -- points to board sResource. -; -; D1 -- contains spSlot (we use spBlock.spSlot here, though). -; -; Exit: A0-A3 -- preserved. -; D1 -- preserved. -; -; Purpose: The purpose of SlotPrimaryInitPatch is to identify Apple -; Cards whose PrimaryInit code is faulty, and execute fixed -; versions from the CPU ROM. -; -; SlotPrimaryInitPatch is executed from the (non-exported) -; routine doPrimayInit in SlotInfo.a. -;____________________________________________________________________________ - - IF NOT LC930 THEN - - With seBlock,spBlock - Import GetDevIndex,JsrTbl - -PatchPrimaryInit - -@saveRegs Reg A0-A3/D1/D3 ; Define some work and scratch registers, - Movem.l @saveRegs,-(Sp) ; and save them on the stack. - - Move.l A0,A3 ; Save the spBlockPtr for later. - - Bsr GetDevIndex ; Get the device/card index into D0. - Move.l D0,D3 ; If the device index is negative, then - Bmi.s @done ; PrimaryInit doesn’t need patching. - - Lea JsrTbl,A1 ; Point to base of JsrTbl. - Lsl.l #2,D3 ; Adjust index. - - Move.l A1,A0 ; Copy base address. - Add.l D3,A0 ; Point to proper entry. - Add.l (A0),A1 ; Load A1 with effective address of PrimaryInit. - - Move.l A3,A0 ; Restore spBlockPtr. - Move.b spSlot(A0),seSlot(A2) ; Set the right slot number. - Move.b spFlags(A0),seFlags(A2) ; Set the flags. - Move.l A2,A0 ; Set A0 to sExecBlkPtr for fake sExec call. - Jsr (A1) ; Execute the PrimaryInit. - - Move.l D3,D0 ; Return result code. - -@done Movem.l (Sp)+,@saveRegs - Rts - - Endwith - - ENDIF - ;_______________________________________________________________________________________
djw ; StubCheckSlot - check if a slot status has changed ; @@ -1363,48 +1291,6 @@ StubRemoveCard ; spBlock : -> spSlot slot number ; -> spFlags fWarmStart - if set then a warm start (may be used by primary EnableBlockXfer - Testfor BARTExists ; are we on a ColdFusion or PDM - bne.s @goodMach - Testfor MUNIExists ; do we have MUNI Nubus Controller? - Beq @exit ; no, leave - -@goodMach MoveM.l A0/D0-D2, -(SP) - Clr.b spID(A0) ; Begin search with ID 0. - Clr.b spExtDev(A0) ; No external device(s). - Clr.b spHwDev(A0) ; No hardware device(s). - Clr.b spTBMask(A0) ; No mask in search. - Move.w #catBoard,spCategory(A0) ; Look for: Board sRsrc - Clr.w spCType(A0) - Clr.w spDrvrSW(A0) - Clr.w spDrvrHW(A0) - Move.l #(1< diff --git a/OS/StartMgr/Gibbly.r b/OS/StartMgr/Gibbly.r --- a/OS/StartMgr/Gibbly.r +++ b/OS/StartMgr/Gibbly.r @@ -79,35 +79,8 @@ resource 'gbly' (-16385, sysHeap) { resource 'rovm' ( 0, locked) { { - 'pixs', -14335; 'pixs', -14334; 'pixs', -10199; 'pixs', -10200; 'pixs', -10201; 'pixs', -10202; - 'pixs', -10203; 'pixs', -10204; 'pixs', -10205; 'pixs', -10206; 'pixs', -10207; 'pixs', -10208; - 'CDEF', 0; 'CDEF', 1; - 'WDEF', 0; 'WDEF', 1; 'WDEF', 126; -// 'wctb', 0; -// 'cctb', 0; - 'CURS', 1; 'CURS', 2; 'CURS', 3; 'CURS', 4; - 'MBDF', 0; - 'MDEF', 0; -// 'ppat', 16; 'ppat', 18; - 'ics#', -16386; - 'ics4', -16386; - 'ics8', -16386; - 'rtt#', -5728; -// 'ppcc', -5856; - 'KCAP', 1; 'KCAP', 2; 'KCAP', 4; 'KCAP', 5; - 'KCHR', 0; - 'KMAP', 0; 'KMAP', 2; - 'LDEF', 0; 'LDEF', 19; 'LDEF', -32510; 'LDEF', -32512; - 'PACK', 0; 'PACK', 12; - 'PACK', 3; 'PACK', 7; 'PACK', 8; 'PACK', 9; 'PACK', 11; 'PACK', 13; 'PACK', 14; 'PACK', 15; - 'clut', 1; 'clut', 2; 'clut', 4; 'clut', 5; 'clut', 8; 'clut', 9; 'clut', 127; -// 'ppci', -16409; -// 'cmtb', -32508; 'cmtb', -32509; 'cmtb', -32510; 'cmtb', -32511; 'cmtb', -32512; - 'mitq', 0; - 'proc', -32512; 'proc', -32511; 'proc', -32510; 'proc', -16498; 'proc', -16497; 'proc', -5728, 'proc', -5727; - 'pslt', 20; 'pslt', 26; - 'snd ', 1; - 'wedg', -5759; 'wedg', -5760; + 'accl', 0; 'accl', 2; 'accl', 4; 'accl', 5; 'accl', 7; + 'clut', 1; 'clut', 2; 'clut', 4; 'clut', 8; }; }; diff --git a/OS/StartMgr/OpenFirmware.c b/OS/StartMgr/OpenFirmware.c new file mode 100644 --- /dev/null +++ b/OS/StartMgr/OpenFirmware.c @@ -0,0 +1,304 @@ +#include +#include +#include +#include +#include +#include + + +struct mystruct { + long l1; + Ptr frag_ptr; + long frag_size; + short sh; + char c1; char c2; +}; + +struct USBGlobals { + long unsure; + CFragConnectionID expert_conn; +}; + +pascal short CFM_4(struct mystruct *, long, char *, char) = {0x3F3C, 0xFFFC, 0xAA5A}; + +void +INTERC_11E0_C2PSTRCPY(char *dest, char *src) +{ + unsigned long len = 0; + char *osrc = src; + + /* Count len to max 255 */ + while (*src++) ++len; if (len > 255) len = 255; + + /* Place length byte */ + *dest++ = len++; + + /* Copy string */ + while (--len) *dest++ = *osrc++; +} + +OSErr +INTERC_1230(Ptr frag_ptr, long frag_size, char *cLibName, long doprepare) /* PrepareByName */ +{ + struct mystruct mystruct; + CFragConnectionID connid; Ptr code; + Str255 pLibName, pErrMessage; + OSErr err; + + strcpy(pLibName, cLibName); + c2pstr(pLibName); + + mystruct.l1 = 0; + mystruct.frag_ptr = frag_ptr; + mystruct.frag_size = frag_size; + mystruct.sh = 0; + mystruct.c1 = 0; + mystruct.c2 = 0; + + if (!(err = CFM_4(&mystruct, 0, pLibName, 0)) && (char)doprepare) { + pErrMessage[0] = 0; + err = GetSharedLibrary(pLibName, kPowerPCCFragArch, kReferenceCFrag, &connid, &code, pErrMessage); + } + + return err; +} + +OSErr +INTERC_12E0_CODEPREPARE(char *codePrepareName, Boolean doprepare) /* PrepareInOrder */ +{ + RegPropertyIter cookie; + RegEntryID theNode; + char curPropName[32]; + RegPropertyValueSize propNameLen, prepOrderLen; + char *propName, *prepOrder; + Boolean doneflag; + OSErr err; + char *fragToPrep; + Boolean alreadyPrepared; + + RegistryEntryIDInit(&theNode); + err = RegistryCStrEntryLookup(NULL, codePrepareName, &theNode); + + prepOrder = 0; prepOrderLen = 0; + + if (!err && doprepare) { + err = RegistryPropertyGetPtr(&theNode, "AAPL,prepare_order", &prepOrder, &prepOrderLen); + if (err) { + err = 0; + } else { + for (fragToPrep = prepOrder; fragToPrep < prepOrder + prepOrderLen; fragToPrep += strlen(fragToPrep) + 1) { + err = RegistryPropertyGetPtr(&theNode, fragToPrep, &propName, &propNameLen); + if (!err) { + err = INTERC_1230(propName, propNameLen, fragToPrep, doprepare); + } + } + err = 0; + } + } + + if (!err) { + doneflag = 0; + err = RegistryPropertyIterateCreate(&theNode, &cookie); + if (!err) { + while (!doneflag && !err) { + err = RegistryPropertyIterate(&cookie, curPropName, &doneflag); + if (!doneflag && !err && strcmp(curPropName, "name") && strcmp(curPropName, "AAPL,prepare_order")) { + alreadyPrepared = 0; + fragToPrep = prepOrder; + + if (fragToPrep) while (!alreadyPrepared && fragToPrep < prepOrder + prepOrderLen) { + alreadyPrepared = !strcmp(curPropName, fragToPrep); + fragToPrep += strlen(fragToPrep) + 1; + } + + if (!alreadyPrepared) { + err = RegistryPropertyGetPtr(&theNode, curPropName, &propName, &propNameLen); + if (!err) { + err = INTERC_1230(propName, propNameLen, curPropName, doprepare); + } + } + } + } + RegistryPropertyIterateDispose(&cookie); + } + } + + RegistryEntryIDDispose(&theNode); + + return err; +} + +OSErr +INTERC_14E0(const RegPropertyName *prop1, const RegPropertyName *prop2, Boolean doprepare) +{ + RegEntryIter cookie; + RegEntryID node; + Ptr prop2_val; + RegPropertyValueSize prop1_size; + RegPropertyValueSize prop2_size; + Boolean done; + Ptr prop1_val; + OSErr err; + + RegistryEntryIDInit(&node); + RegistryEntryIterateCreate(&cookie); + + err = 0; + done = 0; + + while (!err && !done) { + err = RegistryEntrySearch( + &cookie, /*relationship*/ 1, &node, &done, prop1, /*value&size*/ NULL, 0); + + if (!err && !done) { + register OSErr suberr; // hack for register allocation + + prop1_size = prop2_size = 0; + + if (suberr = RegistryPropertyGetPtr(&node, prop1, &prop1_val, &prop1_size)) continue; + if (suberr = RegistryPropertyGetPtr(&node, prop2, &prop2_val, &prop2_size)) continue; + + INTERC_1230(prop1_val, prop1_size, prop2_val, doprepare); + } + } + + RegistryEntryIterateDispose(&cookie); + RegistryEntryIDDispose(&node); + + return err; +} + +OSErr +CODEPREPARE(void) +{ + OSErr err; + char str[128]; + + err = INTERC_14E0("pef,AAPL,MacOS,PowerPC,prepare", "code,AAPL,MacOS,name", 1); + if (!err) { + strcpy(str, "Devices:device-tree:"); + strcat(str, "AAPL,CodePrepare"); + err = INTERC_12E0_CODEPREPARE(str, 1); + } + + return err; +} + +OSErr +CODEREGISTER(void) +{ + OSErr err; + char str[128]; + + err = INTERC_14E0("pef,AAPL,MacOS,PowerPC,register", "code,AAPL,MacOS,name", 0); + if (!err) { + strcpy(str, "Devices:device-tree:"); + strcat(str, "AAPL,CodeRegister"); + err = INTERC_12E0_CODEPREPARE(str, 0); + } + + return err; +} + +OSErr +INTERC_1750_LANLIB(void) +{ + struct mystruct mystruct; + RegPropertyValueSize frag_size; + Ptr frag_ptr; + RegEntryIter cookie; + RegEntryID id; + Boolean srchdone; + long err = -2539; + + RegistryEntryIDInit(&id); + RegistryEntryIterateCreate(&cookie); + + srchdone = 0; + while (err && !srchdone) + { + const char *ethernet_str = "ethernet"; + long srcherr; + long regerr; + + srcherr = RegistryEntrySearch( + &cookie, kRegIterContinue, &id, &srchdone, "name", ethernet_str, /*len*/9); + + if (!srcherr && !srchdone) { + regerr = 0; + + frag_size = 0; + if (!regerr) regerr = RegistryPropertyGetSize(&id, "lanLib,AAPL,MacOS,PowerPC", &frag_size); + + if (!regerr) { + frag_ptr = NewPtrSys(frag_size); //a4 + if (frag_ptr) { + regerr = RegistryPropertyGet(&id, "lanLib,AAPL,MacOS,PowerPC", frag_ptr, &frag_size); + if (!regerr) { + mystruct.l1 = 0; + mystruct.frag_ptr = frag_ptr; + mystruct.frag_size = frag_size; + mystruct.sh = 0; + mystruct.c1 = 0; + mystruct.c2 = 0; + CFM_4(&mystruct, 0, "\planLib", 0); + } + } + } + + if (!regerr) err = 0; + } + } + + RegistryEntryIterateDispose(&cookie); + RegistryEntryIDDispose(&id); + + return err; +} + +void +INITLANDISK(void) +{ + Handle dfrg_hdl; + THz old_zone; + CFragConnectionID conn; + Ptr code; + Str255 err_str; + + old_zone = GetZone(); + SetZone(SystemZone()); + + INTERC_1750_LANLIB(); + + TempInsertROMMap(1); + if (dfrg_hdl = GetResource('dfrg', -20722)) { + long dfrg_size = SizeResource(dfrg_hdl); + OSErr err = GetMemFragment( + *dfrg_hdl, dfrg_size, "\pLANDisk", kReferenceCFrag, &conn, &code, err_str); + } + + SetZone(old_zone); +} + +void +INITUSB(void) +{ + THz old_zone; + struct USBGlobals *glob; + Ptr code; + Str255 err_str; + + old_zone = GetZone(); + SetZone(SystemZone()); + + if (glob = (void *)NewPtrSys(sizeof *glob)) { + if (!GetSharedLibrary( + "\pUSBFamilyExpertLib", kPowerPCCFragArch, kReferenceCFrag, &(glob->expert_conn), &code, err_str)) { + (GetExpandMem())->emUSBGlobals = (Ptr)glob; + } + } + + SetZone(old_zone); +} + +/* This file is complete... the remaining kilobytes to 0x2BC0 are filled by Amphibian DNA */ diff --git a/OS/StartMgr/OpenFirmware.c.idump b/OS/StartMgr/OpenFirmware.c.idump new file mode 100644 --- /dev/null +++ b/OS/StartMgr/OpenFirmware.c.idump @@ -0,0 +1 @@ +TEXTMPS \ No newline at end of file diff --git a/OS/StartMgr/SizeMem.a b/OS/StartMgr/SizeMem.a --- a/OS/StartMgr/SizeMem.a +++ b/OS/StartMgr/SizeMem.a @@ -314,446 +314,10 @@ WITH DecoderInfo,DecoderKinds,StartGlobals, RAMBankInfo ; rb CSS SizeMemory - move.l a6,d3 ; save return address - - moveq #0,d2 ; don't know anything about machine - BigBSR6 GetHardwareInfo,a0 - move.l d3,a2 ; now keep return address in a2 - - moveq #0,d3 ; clear a reg - move.b d2,d3 ; get memory controller type - add.w d3,d3 ; adjust for word table index - move.w @splitTbl(d3.w),d3 ; get offset to splitter routine - jmp @splitTbl(d3.w) ; SWITCH(controller type) - -@splitTbl - -; This table should match the DecoderKinds record in UniversalEqu.a - - dc.w SizeBanks -@splitTbl ; unknown - dc.w SizeBanks -@splitTbl ; Mac Pal (no splitting required) - dc.w SizeBanks -@splitTbl ; BBU (no splitting required) - dc.w SizeBanks -@splitTbl ; Normandy (no splitting required) - dc.w @GlueSplit -@splitTbl ; Mac2Glue - dc.w SizeBanks -@splitTbl ; MDU (no splitting required) - dc.w @FMCSplit -@splitTbl ; OSS FMC - dc.w @VisaSplit -@splitTbl ; VISA - dc.w @OrwellSplit -@splitTbl ; Orwell - dc.w @JAWSSplit -@splitTbl ; JAWS - dc.w @MSCSplit -@splitTbl ; MSC <7> HJR - dc.w @SonoraSplit -@splitTbl ; Sonora

SAM - dc.w @NiagraSplit -@splitTbl ; Niagra - dc.w @YMCASplit -@splitTbl ; Cyclone EVT4 fau - dc.w @djMEMCSplit -@splitTbl ; djMEMc - dc.w HMCMerge -@splitTbl ; HMC (Go directly to the merge routine) - dc.w @PrattSplit -@splitTbl ; Pratt - dc.w HHeadMerge -@splitTbl ; HHead (Go directly to the merge routine) - + move.l a6,a2 ; save return address + bra PowerPCMerge Align 4 -;_____________________________________________________________________________________________ -@GlueSplit - move.l VIA2Addr(a0),a5 ; Yes, get VIA2 base - ori.b #$C0,VBufA(a5) ; put bank B on 64 meg boundary - bra SizeBanks ; continue with sizing - -;_____________________________________________________________________________________________ -@FMCSplit - movea.l FMCAddr(a0),a5 ; get the FMC base address - move.w #FMCInit,d2 ; config reg value to put bank B on 64 meg boundary - moveq.l #16-1,d3 ; loop counter to load 16 bits -@FMCload move.b d2,FMCConfig(a5) ; load in a bit - lsr.w #1,d2 ; put next bit into position - dbra d3,@FMCload ; repeat till all bits loaded - move.b d2,FMCLatch(a5) ; latch the config data - bra SizeBanks ; continue with sizing - -;_____________________________________________________________________________________________ -; -; Make sure that the 4 banks are split apart onto their default 64MB boundaries. -; No other changes to the Orwell configuration register are needed because they -; have been set up in Universal.a and shouldn't require any changes or reconfiguration. -; See {IntAIncludes}HardwarePrivateEqu.a for a full description of this register. -;_____________________________________________________________________________________________ - WITH ProductInfo - -@OrwellSplit - IF forSTP601 THEN - bra OrwellMerge ; sized memory in HardwareInit.s - ENDIF - - IF forSmurf THEN ; SAM - cmp.b #boxRiscQuadra700,ProductKind(a1) ; if we're on a Risc card - beq SizeBanks ; >>SKIP this - cmp.b #boxRiscQuadra900,ProductKind(a1) ; if we're on a Risc card - beq SizeBanks ; >>SKIP this - cmp.b #boxRiscQuadra950,ProductKind(a1) ; if we're on a Risc card - beq SizeBanks ; >>SKIP this - ENDIF - ; Eclipse/040 Memory Controller INIT <4> - movea.l DecoderAddr(a0),a5 ; get base address of Orwell regs - lea OrBankBCfgAddr(a5),a0 ; get address of config regs. - move.l #((ORINITBankB)|\ ; get default bank-split values - (ORINITBankC< - (ORINITBankD<<2*OrBankFieldSize)),d3; - moveq.l #(3*OrBankFieldSize)-1,d2 ; (18-1) -1 for DBRA, - -@OrwellLoad move.l d3,(a0)+ ; send that bit out there - lsr.l #1,d3 ; get the next bit in position - dbra d2,@OrwellLoad ; repeat til all bits loaded - - move.l d2,OrLoadBanks(a5) ; initialize DRAM bank starting addrs - ; - bra SizeBanks ; continue with sizing - -;_____________________________________________________________________________________________ -@VisaSplit - move.l RBVAddr(a0),a5 ; Yes, get VISA base <6> rb, start - andi.b #%00011111,VsExp(a5) ; clear size bits. Bits now set to 4MB on PCB
- ; and no memory in SIMMs - movea.l #$001FFFFE,a0 ; Figure out whether we have 2/4mb on PCB by - ; writing to 2/3 MB boundary. - move.l #$50616E44,(a0) ; Write a long word. Low then high byte is written out to bus - cmp.l #$50616E44,(a0) ; If what we wrote is what we get back then we have 4MB on PCB. - bne.s @got2MB - ori.b #%11000000,VsExp(a5) ; push RAM on PCB up to 8MB boundary so we can check how much RAM in SIMMs - -;•••••••••••••••••••••••••••••••• -; At this point we've determined that there is 4MB on PCB. We must now figure out how much -; RAM is in the SIMM sockets before going on any further. If we have 8Mb in SIMMs then the -; size bits are set correctly (we then lose 2Mb of on board memory), but if we have less than -; 8Mb the size bits are incorrect and if left this way the on board memory will not be sized -; correctly by the routines that follow and the chunk table will be wrong. - - move.l a5,a7 ; save ptr to VISA base address in a7 - move.l a1,a5 ; get product info ptr - adda.l ProductInfo.RamInfoPtr(a5),a5 - adda.l #RAMInfoSize+4,a5 ; '+4' taking into account the end of table mark - move.l #0,a0 ; start of bank A - move.l #$00800000,a1 ; end of bank A - move.l #0,d0 ; no previous banks sized - move.l #$54696e61,d1 ; setup signature - move.l #0,d5 ; clear bank size nibbles - BSR6 SizeBank ; how much memory do we have in Bank A? - cmp.l #$00800000,a0 ; SizeBank returns amount of RAM found in A0 - - blt.s @notMaxMem ; if less than 8mb found then reset size bits and RAM ranges - - sub.l #RAMInfoSize+4,a5 - bra continue -@notMaxMem - ori.b #%10000000,VsExp(a7) - andi.b #%10011111,VsExp(a7) ; set Bank A to 4mb, since this is the next size if not 8mb - bra continue -@got2MB - ori.b #%11100000,VsExp(a5) ; set size bits to 10mb (i.e. 2mb on PCB and 8mb in SIMMs) - ; we set Bank A to 8Mb so PCB RAM is pushed out of the way - ; so we can then get an accurate reading of Bank A RAM. rb, end
- bra SizeBanks ; and continue with sizing - - ENDWITH -;_____________________________________________________________________________________________ -@NiagraSplit -@JAWSSplit - moveq #0,d0 - movea.l JAWSAddr(a0),a5 ; get ptr to JAWS base - adda.l #JAWSMemConfigA,a5 - move.b d0,(a5) ; set size reg A - adda.w #JAWSMemConfigB-JAWSMemConfigA,a5 - move.b d0,(a5) ; set size reg B - adda.w #JAWSMemConfigC-JAWSMemConfigB,a5 - move.b d0,(a5) ; set size reg C - bra SizeBanks ; and continue with sizing <22> rb - -;_____________________________________________________________________________________________ -@MSCSplit - move.l RBVAddr(a0),a5 ; get MSC base (same as RBV's)

begin - ori.b #(1< - MOVEA.L A1,A5 ; point to ProductInfo table
- ADDA.L ProductInfo.RamInfoPtr(A5),A5 ; point to the RAM bank map info
- BRA.S @MSCRefresh ;
-@MSCNextBank ;
- MOVEA.L D2,A0 ; point to the start of this bank
- MOVEQ #8-1,D0 ; make enough long word accesses to -@RASLoop TST.L (A0)+ ; provide 8 RAS cycles of - DBRA D0,@RASLoop ; memory initialization -@MSCRefresh ADDQ.L #4,A5 ; skip over the bank end
- MOVE.L (A5)+,D2 ; last RAM bank?
- BPL.S @MSCNextBank ; -> nope
- bra SizeBanks ; and continue with sizing <7> HJR end - -;_____________________________________________________________________________________________ -@PrattSplit - IF forRomulator THEN - TestInRAM a3 ; are we in RAM? - bne SizeBanks ; yes, then don't split - ENDIF - MOVEA.L A1,A5 ; point to ProductInfo table - ADDA.L ProductInfo.RamInfoPtr(A5),A5 ; point to the RAM bank map info - - IF BlackBirdDebug THEN - PrattFlashSystem ; IF FlashSystem THEN - bne.s @Continue1 ; - BigLea RamInfoPrattFlash,a5 ; use phony Flash system RamInfoTables -@Continue1 ; - ENDIF ; - movea.l PrattAddr(a0),a0 ; get ptr to Pratt - move.b #PrattDefDensity,\ ; - PrattRAMDensity(a0) ; set default RAM Density - - move.b #PrattDefConfig,\ ; (don't worry, Pratt will do the right thing if there is Flash) - PrattRAMConfig(a0) ; set default RAM Configuration - - ;** WARNING ** WARNING ** WARNING ** WARNING ** WARNING ** WARNING ** WARNING ** - ;The following line was added to test Pratt timing for OTPs currently in use for EVT's. - ;For the final product, we need to decide what this value should really be. - ;NOTE: This value does not affect execution speed from Flash. - move.b #Pratt150nsROM,\ - PrattROMSpeed(a0) - ;** WARNING ** WARNING ** WARNING ** WARNING ** WARNING ** WARNING ** WARNING ** - - ; wait for at least 2mS so that Pratt has time to initialize the RAM banks to meet all - ; vendor specs (the HW spec is really ~500 uS, so we have some margin here) - move.w #$3000,d2 -@stall dbra d2,@stall - - BRA.S @PrattRefresh ; - -@PrattNextBank ; - MOVEA.L D2,A0 ; point to the start of this bank - TST.L (A0)+ ; make 8 accesses to each physical RAM bank (for added confidence) - TST.L (A0)+ - TST.L (A0)+ - TST.L (A0)+ - TST.L (A0)+ - TST.L (A0)+ - TST.L (A0)+ - TST.L (A0)+ -@PrattRefresh - ADDQ.L #4,A5 ; skip over the bank end - MOVE.L (A5)+,D2 ; last RAM bank? - BPL.S @PrattNextBank ; -> nope - bra SizeBanks ; and continue with sizing - -;_____________________________________________________________________________________________ -@SonoraSplit ;

- MOVE.L RBVAddr(A0),A5 ; Get RBV (Sonora VIA2)

- ORI.B #%01111111,SonoraRAMSize(A5) ; Make each bank start at 16mg boundary

- ; and make bank 0 assume 4 megs of RAM

- BRA SizeBanks ; and continue with sizing

- - -;_____________________________________________________________________________________________ -@YMCASplit ; - IF forRomulator THEN - TestInRAM a3 ; are we in RAM? - bne SizeBanks ; yes, then don't split - ENDIF - -; Set the width options for all 4-pairs of banks to 0 (Standard Mode) This is necessary because fau start -; SizeMem is called multiple times by diagnostics, so the power-up values for the YMCA might be changed -; by the time the 2nd call is made. - - Move.l DecoderAddr(A0),A5 ; Get YMCA's Base address - Lea YMCA_DRAMwidth0(a5),a5 ; Get the base address for the first bank's width register - Clr.l (A5)+ ; Bank's 0,2 - Clr.l (A5)+ ; Bank's 1,3 - Clr.l (A5)+ ; Bank's 4,6 - Clr.l (A5)+ ; Bank's 5,7 fau end - -; Write to all 8 bank addresses to set their starting addresses 16 MB apart and to set their size to -; 16 MBytes. - Move.l DecoderAddr(A0),A5 ; Get YMCA's Base address - Lea YMCA_DRAMBank0_A20(a5),a5 ; Get the base address for the first bank's A20 register - - Moveq #0,D0 ; D0 Contains the starting address - Move.w #8-1,D5 ; No of banks - -@NextBank - Move.w #BankBdryRegSize-1,d2 ; Size of boundary address register (bits A26..A20 starting at 0) - -@loadBdry Ror.l #1,d0 ; Move bit 0 to bit 31 - move.l d0,(a5)+ ; and write it out - dbra d2,@loadBdry ; continue for all bits - - Rol.l #BankBdryRegSize,D0 ; Return the address to it's starting position - Add.l #$10,D0 ; Add (16M >> 20) to the address - - Move.l #%101,D1 ; D1 contains the size bits = 16MB banks - Move.w #BankSizeRegSize-1,d2 ; size of memory bank size bits - -@loadSize Ror.l #1,d1 ; d1 = nibble size = bank size - move.l d1,(a5)+ ; and write it out - dbra d2,@loadSize ; continue for all bits - dbra d5,@NextBank ; go look at the next bank - - - BRA YMCASizeBanks ; and continue with sizing - ; fau, end - -;_____________________________________________________________________________________________ thru next - WITH ProductInfo - -@djMEMCSplit ; begin - IF forSTP601 THEN - bra OrwellMerge ; sized memory in HardwareInit.s, so act exactly like STP Orwell machines - ENDIF - IF forSmurf THEN ; - cmp.b #boxRiscCentris610,ProductKind(a1) ; if we're on a Risc card - beq SizeBanks ; >>SKIP this - cmp.b #boxRiscCentris650,ProductKind(a1) ; if we're on a Risc card - beq SizeBanks ; >>SKIP this - cmp.b #boxRiscQuadra800,ProductKind(a1) ; if we're on a Risc card - beq SizeBanks ; >>SKIP this - cmp.b #boxRiscQuadra610,ProductKind(a1) ; if we're on a Risc card - beq SizeBanks ; >>SKIP this - cmp.b #boxRiscQuadra650,ProductKind(a1) ; if we're on a Risc card - beq SizeBanks ; >>SKIP this - ENDIF ; SAM -; We need to determine whether this machine is a WLCD or not. Get VIA1 information. -; -; Useful VIA1 PortA bits to read: PA6, PA4, PA2, PA1 ($56) -; -; PA6 = Lego (1), or Frigidaire (0) plastics for Wombat -; PA4, PA2 = CPU Speed. 0=20MHz, 1=25MHz, 2=33MHz, 3=40MHz -; PA1 = WLCD or Primus (0), or NOT! [reserved] (1) -; - - move.l VIA1Addr(a0),a5 ; get VIA1 address to get machine/cpu_speed info - moveq #%00101000,d1 ; force VIA1 VDirA to have the correct directions - move.b d1,VDirA(a5) ; ... so we can read the CPU ID extension info - -; Preset/Reset the Interleaving Enable register: -; ---------------------------------------------- -; -; To be able to call SizeBanks repeatedly, we need to turn OFF any interleaving we may have -; turned on during previous SizeMemory calls. However, if you are a WLCD, you want to have -; enabled the OneBufferedBus flag in the InterleaveEnable register. _I_ would have put this -; bit in a different register (Configuration Register?) but since it's not, we have to make -; sure it is correctly set. -; -; For WLCD and Primus, the OneBufferedBus bit MUST be set. -; For Wombat(s), the OneBufferedBus bit MUST be CLEARED. - - moveq #0,d0 ; preset InterleaveEnable to NO interleaving - btst.b #1,VBufA(a5) ; PA1: 0 = WLCD, ≠0 = NOT WLCD - bne.s @writeIntReg ; IF ( machine_type == WLCD ) || ( machine_type == Primus ) - bset #dj_OneBufferedBusBit,d0 ; set OneBufferedBus bit -@writeIntReg ; ENDIF - LEA MEMCAddr,A5 ; Get djMEMC base - move.l d0,MEMCIntleaveEnable(a5) ; disable interleaving, set/clear OneBufferedBus bit - - ; Reset the chip's MemTop - - MOVEQ #-1,D0 - MOVE.L D0,MEMCmemTop(A5) ; Set MemTop reg to $FF - - ; Reset all bank Cfg Regs so each bank starts on a 64 mb boundary in preparation - ; for sizeBanks. (ie put $110 in Cfg1, $120 in Cfg2, etc.) - -;_____________________________________________________________________________ thru next -; MEMC DRAM Bank configuration registers look like this: | 11-9 | 8 | 7-0 | -; Bits 11-9 are unused. -; Bit 8 is DRAM addressing mode (0 = 64mb bank, 1 = 4mb or 16mb bank) -; Bits 7-0 are bits 29-22 of the bank's starting physical address. -; (i.e. smallest bank size = 4mb) -; -; Hysterical Note: (BG - 92 June 10) -; The High-End HW team says that it is entirely unlikely that we'll -; see 64MBit parts any time in the near future, and it's unlikely that -; from power/voltage requirements that our boards would be able to -; support them. So instead of writing the Sizing code to make two passes, -; one with bit 8 ZERO to check for 64MB banks, then a second pass for -; non-64MB parts to see whether or not they are there, we simply assume -; they are NOT there and set bit 8 front and make a single pass. -;_____________________________________________________________________________ - - MOVE.L #$100,D1 ; Default bank start address (bits 29-22 of addr) - MOVEQ #dj_MaxBanks-1,D0 ; Loop counter (10 banks) - LEA MEMCdRAMCfg0(A5),A5 ; Get starting bank Cfg reg base - -@Loop MOVE.L D1,(A5)+ - ADD.W #$10,D1 ; Bump the start addr by 64 meg (bits 29-22 of addr) - DBRA D0,@Loop - -* BRA.S SizeBanks ; and continue with sizing - - ; end - - ENDWITH -;============================================================================================= -SizeBanks - movea.l a1,a5 ; pointer to product info table <2.6> - adda.l ProductInfo.RamInfoPtr(a5),a5 ; point to the ram bank map info <2.6> - - IF BlackBirdDebug THEN - btst #(PrattExists//8),(ProductInfo.BasesValid1+3-(PrattExists/8))(a1) - beq.s @noPratt - PrattFlashSystem ; IF FlashSystem THEN - bne.s continue ; - BigLea RamInfoPrattFlash,a5 ; use phony Flash system RamInfoTables -@noPratt - ENDIF ; - -Continue ; label needed for VISA memory sizing
rb - moveq #0,d0 ; clear total RAM size - sub.l a3,a3 ; initialize the "bank 8-15" information - subq.l #1,a3 ; ... to an improbable bank config value -@SizeBanks2 ; label needed for djMEMC sizing 2nd half of table - movea.l a5,a7 ; keep running copy in a7 - addq.l #4,a7 ; skip over chunk size - moveq #0,d5 ; clear bank size nibbles - moveq #0,d6 ; clear error bits - move.l #$54696e61,d1 ; setup signature -@nextBank - ror.l #4,d5 ; make room for next bank size nibble - ror.l #4,d6 ; make room for next bank error nibble - movea.l (a7)+,a0 ; get start of bank (or terminator) - move.l a0,d2 ; end of table? - cmpi.l #'SamB',d2 ; at end of 1st table? - beq.s @checkErr ; -> yes, check for errs then continue - addq.l #1,d2 - beq.s @checkErr ; yes, check for any errors and quit - movea.l (a7)+,a1 ; get end+1 of bank - - BSR6 CheckByteLanes ; any byte lanes valid at start? <2.3> - moveq #$0F,d3 ; byte lane mask - and.b d6,d3 ; all byte lanes good here? - beq.s @size ; yes, try next bank <2.3> - cmp.b #$0F,d3 ; were all byte lanes bad? - bne.s @nextBank ; no, leave mask with bad bits - eor.b d3,d6 ; yes, clear out bit mask - bra.s @nextBank - -@size BSR6 SizeBank ; find size of this bank - bra.s @nextBank ; now size next bank... - -@checkErr move.l a7,d2 ; Save A7 - sub.l a5,d2 ; (table end + 8) - table start - subq.l #8,d2 ; #entries * 8 - lsr.w #1,d2 ; / 8 * 4 = # of nibbles to roll - rol.l d2,d5 ; d5 = ....dcba - rol.l d2,d6 ; d6 = ....dcba - - tst.l d6 ; any errors? - bne.s @badBanks ; -> Yes, return now thru next - - move.l a0,d2 ; get the terminator or extend flag in D2 - cmpi.l #'SamB',d2 ; Extended flag? - bne.s @stitchEm ; -> Nope, we're done - move.l d5,a3 ; We have more to do, save D5 in A3 - - move.l a7,a5 ; Point A5 at the 2nd half of RAMInfo - bra.s @SizeBanks2 ; -> make the second pass - -@stitchEm move.l a3,d2 ; have we put anything in A3 yet? - addq.l #1,d2 ; if not, it was $FFFFFFFF - beq.w Concat ; IF SomethingInA3 THEN - move.l a3,d6 ; Put the extended nibbles in D6 - exg d6,d5 ; Put low order banks in d5, extended in d6 - bra.w Concat ; Sew baby sew! - -@badBanks jmp (a2) ; yes, return immediately +; (CDG5) Code removed but comments kept for context @@ -773,194 +337,7 @@ YMCASizeBanks ; the standard/wide mode is programmed by bank pair: 0/2, 1/3, 4/6, and 5/7. Any bank can be populated, thus ; have to watch out for nibble sizes of 0. Well, enough of this. FAU 10/21/92 - movea.l a1,a5 ; pointer to product info table - movea.l a1,a7 ; save a copy in a7 for the second sizing. - adda.l ProductInfo.RamInfoPtr(a5),a5 ; point to the ram bank map info - - IF forRomulator THEN - - TestInRAM a3 ; Are we in RAM? - beq.s @YMCAnotInRAM ; No? Then carry on. - ; Yes? Assume Bank A is 4 MB - movea.l a5,A3 ; keep running copy in A3 - add.l #$0C,A3 ; skip over chunk size and bank A - move.l #$00400000,d0 ; set RAM size for bank A - moveq #$01,d5 ; set bank A size nibbles - moveq #0,d6 ; clear error bits - move.l #$54696e61,d1 ; setup signature - - bra.s @YMCAnextBank ; start checking at bank B -@YMCAnotInRAM - ENDIF - - movea.l a5,A3 ; keep running copy in A3 - addq.l #4,A3 ; skip over chunk size - moveq #0,d0 ; clear total RAM size - moveq #0,d5 ; clear bank size nibbles - moveq #0,d6 ; clear error bits - move.l #$54696e61,d1 ; setup signature -@YMCAnextBank - ror.l #4,d5 ; make room for next bank size nibble - ror.l #4,d6 ; make room for next bank error nibble - movea.l (A3)+,a0 ; get start of bank (or terminator) - move.l a0,d2 ; end of table? - addq.l #1,d2 - beq.s @YMCAcheckErr ; yes, check for any errors - movea.l (A3)+,a1 ; get end+1 of bank - - BSR6 CheckByteLanes ; any byte lanes valid at start? - moveq #$0F,d3 ; byte lane mask - and.b d6,d3 ; all byte lanes good here? - beq.s @YMCAsize ; yes, try next bank - cmp.b #$0F,d3 ; were all byte lanes bad? - bne.s @YMCAnextBank ; no, leave mask with bad bits - eor.b d3,d6 ; yes, clear out bit mask - bra.s @YMCAnextBank - -@YMCAsize BSR6 SizeBank ; find size of this bank - bra.s @YMCAnextBank ; now size next bank... - -@YMCAcheckErr - suba.l a5,A3 ; (table end + 8) - table start - subq.l #8,A3 ; #entries * 8 - move.l A3,d2 - lsr.w #1,d2 ; / 8 * 4 = # of nibbles to roll - rol.l d2,d5 ; d5 = ....dcba - rol.l d2,d6 ; d6 = ....dcba - - tst.l d6 ; any errors? - bne @ExitSizeMem ; if so, don't do the wide banks stuff - -; Now, resize the memory in wide mode. -; Save d5 in a7 and do the sizing with the wide mode. Note, d0 has the total size of DRAM, but -; we're going to recalculate this later, once we figure out which bank needs to be in standard mode and -; which one is in wide mode - -; Get back the RamInfoPtr and the Address of our Decoder - - movea.l a7,a5 ; restore the pointer to the product info table - adda.l ProductInfo.RamInfoPtr(a5),a5 ; point to the ram bank map info <2.6> - - movea.l a7,a1 ; restore the pointer to the product info - adda.l ProductInfo.DecoderInfoPtr(a1),a1 ; point to the decoder info stuff - movea.l DecoderAddr(a1),a1 ; And get the decoder address - -; Program the width registers to wide mode now - - Lea YMCA_DRAMwidth0(a1),a1 ; and get the offset to the width options register - Move.l #-1,(a1)+ ; Bank's 0,2 - Move.l #-1,(a1)+ ; Bank's 1,3 - Move.l #-1,(a1)+ ; Bank's 4,6 - Move.l #-1,(a1)+ ; Bank's 5,7 - -; Save our nibble sizes for standard mode - - move.l d5,a7 ; save our standard mode bank sizes - - IF forRomulator THEN - - TestInRAM a3 ; Are we in RAM? - beq.s @2YMCAnotInRAM ; No? Then carry on. - ; Yes? Assume Bank A is 4 MB - movea.l a5,A3 ; keep running copy in A3 - add.l #$0C,A3 ; skip over chunk size and bank A - move.l #$00400000,d0 ; set RAM size for bank A - moveq #$01,d5 ; set bank A size nibbles - moveq #0,d6 ; clear error bits - move.l #$54696e61,d1 ; setup signature - - bra.s @2YMCAnextBank ; start checking at bank B -@2YMCAnotInRAM - ENDIF - movea.l a5,A3 ; keep running copy in A3 - addq.l #4,A3 ; skip over chunk size - moveq #0,d0 ; clear total RAM size - moveq #0,d5 ; clear bank size nibbles - moveq #0,d6 ; clear error bits - move.l #$54696e61,d1 ; setup signature -@2YMCAnextBank - ror.l #4,d5 ; make room for next bank size nibble - ror.l #4,d6 ; make room for next bank error nibble - movea.l (A3)+,a0 ; get start of bank (or terminator) - move.l a0,d2 ; end of table? - addq.l #1,d2 - beq.s @2YMCAcheckErr ; yes, check for any errors - movea.l (A3)+,a1 ; get end+1 of bank - - BSR6 CheckByteLanes ; any byte lanes valid at start? - moveq #$0F,d3 ; byte lane mask - and.b d6,d3 ; all byte lanes good here? - beq.s @2YMCAsize ; yes, try next bank - cmp.b #$0F,d3 ; were all byte lanes bad? - bne.s @2YMCAnextBank ; no, leave mask with bad bits - eor.b d3,d6 ; yes, clear out bit mask - bra.s @2YMCAnextBank - -@2YMCAsize BSR6 SizeBank ; find size of this bank - bra.s @2YMCAnextBank ; now size next bank... - -@2YMCAcheckErr - suba.l a5,A3 ; (table end + 8) - table start - subq.l #8,A3 ; #entries * 8 - move.l A3,d2 - lsr.w #1,d2 ; / 8 * 4 = # of nibbles to roll - rol.l d2,d5 ; d5 = ....dcba - rol.l d2,d6 ; d6 = ....dcba - - tst.l d6 ; any errors? - bne @ExitSizeMem ; if so, don't do the wide banks stuff - -; We have finished sizing the memory in wide mode. a7 has the nibble sizes with standard mode, -; and d5 has the nibble sizes in wide mode. - - Move.l a7,d4 - -; OK, at this point d4 contains the nibble sizes when sized in standard mode and d5 contains the -; nibble sizes when sized in wide mode. We now need to determine, for each bank, which nibble contains -; the largest amount of ram and program the YMCA to the corresponding Std/Wide option. We'll put the -; combined nibble sizes into d0 and then move it to d5, as that's what the Concat routine expects. - - Move.l #$50f30420,a3 ; YMCA Width Register - Lea YMCAWidthOffsets,a0 ; Offset lookup table - clr.w d1 ; Use d1 as our loop/bank counter - clr.l d0 ; d0 will contain the combined nibbles - -@LoopBanks - move.b d4,d2 ; we need to compare lower nibbles only (d2: std) - andi.b #$0f,d2 ; so mask out higher nibble - move.b d5,d3 ; we need to compare nibbles only (d3: wide) - andi.b #$0f,d3 ; so mask out higher nibble - cmp.b d3,d2 ; d3<-wide, d2<-standard - bhs.s @StdMode ; if d2 is ≥ then program in standard mode - or.b d3,d0 ; else, d3 is > so or move nibble into our keeper - Tst.b d3 ; Was our bank size 0 - beq.s @NextNibble ; Don't set the width register if the size is 0 - Move.w (a0,d1.w*2),a1 ; get offset for this bank - adda.l a3,a1 ; and add the base of the width registers - Move.l #-1,(a1) ; and write it out - bra.s @NextNibble ; go look at next nibble -@StdMode - or.b d2,d0 ; Standard width size into the keeper - ; program bank d1 to std mode - Tst.b d2 ; Was our bank size 0 - beq.s @NextNibble ; Don't set the width register if the size is 0 - Move.w (a0,d1.w*2),a1 ; get offset for this bank - adda.l a3,a1 ; and add the base - Clr.l (a1) ; and write it out -@NextNibble - lsr.l #4,d4 ; look at next nibble of standard mode - lsr.l #4,d5 ; look at next nibble of wide mode - ror.l #4,d0 ; make room for next nibble in our keeper - addi.w #1,d1 ; increment our loop counter - cmpi.w #8,d1 ; have we done all 8 banks? - bne.s @LoopBanks ; go loop through the banks - - move.l d0,d5 ; put the nibble sizes into d5 - - bra Concat ; no, then stitch banks together (if possible) - -@ExitSizeMem - jmp (a2) ; yes, return immediately +; (CDG5) Code removed but comments kept for context ; fau end ;_____________________________________________________________________________________________ ; Routine: SizeBank @@ -988,51 +365,7 @@ YMCASizeBanks ; This routine assumes that the data cache is OFF. The addresses passed in ; must be on page boundaries, where the page size is in D0. ;_____________________________________________________________________________________________ -SizeBank - move.l a0,d4 ; save start of bank - - subq.l #4,a1 ; point to end-4 of bank -@check move.l (a1),d2 ; save original - move.l d1,(a1) ; write signature at top - -@here tst.l (@here) ; Bus capacitance is a no, no. SAM - - cmp.l (a1),d1 ; any RAM there? - beq.s @foundRAM ; yes, check for wrap - - suba.l (a5),a1 ; step back to lower block - cmpa.l a0,a1 ; stepped below start? - bgt.s @check ; no, continue looking for RAM - bra.s @exit ; yes, exit - -@foundRAM - subq.l #4,a0 ; go 4 bytes back from start -@loop adda.l (a5),a0 ; add in chunk size - cmp.l (a0),d1 ; found lowest occurance of signature? - bne.s @loop ; no, check a little higher up - - move.l d2,(a0)+ ; restore last four bytes we wiped out -@length suba.l d4,a0 ; leave a0 with size of bank - - moveq #0,d3 ; n=0 - move.l a0,d2 ; any ram? - beq.s @stuff ; no, stuff n=0 into size register - - move.l (a5),d2 ; start with smallest chunk size (e.g. 1M) -@next addq #1,d3 ; n=n+1 - cmpa.l d2,a0 ; (2^(n-1))*chunk size = bank size? - beq.s @stuff ; yes, stuff 'n' into d5 - -; If a0 < d2 then something is wrong! Stuff 0 into d3 and exit. fau - - blt.s @NotAPowerofTwo ; Our loop has gone over a possible match, so better bailout fau - add.l d2,d2 ; calculate next power of two - bra.s @next -@NotAPowerofTwo ; fau - moveq #0,d3 ; say no memory. -@stuff or.b d3,d5 ; 'OR' in 'n' (size of this bank) - add.l a0,d0 ; add this banks RAM to total size -@exit RTS6 +; (CDG5) Code removed but comments kept for context ;_____________________________________________________________________________________________ @@ -1054,28 +387,7 @@ SizeBank ; a0. This helps service identify missing SIMMs, etc. It can be called up ; to 8 times (for 8, 4-byte-wide banks) before overflowing the result register. ;_____________________________________________________________________________________________ -CheckByteLanes ; <2.3> - move.l (a0),d3 ; preserve original value - move.l 4(a0),d4 ; preserve next value <2.8> - move.l d1,(a0) ; write signature - - moveq #4-1,d2 -@next move.l #$FFFFFFFF,4(a0) ; take care of stray capacitance on bus <2.8> - cmp.b (a0,d2.w),d1 ; did this byte match? - bne.s @bad ; no, shift in error bit - - not.b d1 ; yes, try compliment to make sure - not.b (a0,d2.w) ; compliment RAM value - cmp.b (a0,d2.w),d1 ; did compliment match? - beq.s @shift ; yes, next byte... - -@bad bset d2,d6 ; set bad bit mask <2.9> - -@shift ror.l #8,d1 ; next signature byte - dbra d2,@next ; do next byte - move.l d3,(a0) ; restore original at start - move.l d4,4(a0) ; restore next value <2.8> - RTS6 +; (CDG5) Code removed but comments kept for context @@ -1091,55 +403,7 @@ CheckByteLanes ; <2.3> ; ; This routine vectors to the appropriate 'stitch' routine, after getting the decoder type. ;_____________________________________________________________________________________________ -Concat move.l d0,d3 ; save last size <9> - moveq #0,d2 ; don't know anything about machine - movea.l #aStack,sp ; set stack pointer value - move.l a2,d4 ; save return address - BigBSR6 GetHardwareInfo,a0 ; get universal info again - movea.l d4,a2 ; restore return address - - IF BlackBirdDebug THEN - btst #(PrattExists//8),(ProductInfo.BasesValid1+3-(PrattExists/8))(a1) - adda.l ProductInfo.RamInfoPtr(a1),a1 ; point to the ram bank map info - beq.s @Continue1 - PrattFlashSystem ; IF FlashSystem THEN - bne.s @Continue1 ; - BigLea RamInfoPrattFlash,a1 ; use phony Flash system RamInfoTables -@Continue1 ; - ELSE ; - adda.l ProductInfo.RamInfoPtr(a1),a1 ; point to the ram bank map info - ENDIF - add.b d2,d2 ; decoder type adjusted for word table access - ext.w d2 - move.w @mergTbl(d2.w),d1 ; get offset to merger routine - move.l (a1)+,d2 ; get chunk size in d2 now - jmp @mergTbl(d1.w) ; call routine (d2=chunk size, a1=1st table entry) - -@mergTbl - -; This table should match the DecoderKinds record in UniversalEqu.a fau - - dc.w noMerge -@mergTbl ; unknown - dc.w noMerge -@mergTbl ; Mac Pal (no merging required) - dc.w noMerge -@mergTbl ; BBU (no merging required) - dc.w noMerge -@mergTbl ; Normandy (no merging required) - dc.w GlueMerge -@mergTbl ; Mac2Glue - dc.w MDUMerge -@mergTbl ; MDU (no merging possible) - dc.w FMCMerge -@mergTbl ; OSS FMC - dc.w VISAMerge -@mergTbl ; VISA - dc.w OrwellMerge -@mergTbl ; Orwell - dc.w JAWSMerge -@mergTbl ; JAWS - dc.w MSCMerge -@mergTbl ; MSC <7> HJR - dc.w SonoraMerge -@mergTbl ; Sonora

SAM - dc.w NiagraMerge -@mergTbl ; Niagra - dc.w YMCAMerge -@mergTbl ; YMCA fau - dc.w djMEMCMerge -@mergTbl ; djMEMC (djMEMC has a max of 10 banks) - dc.w HMCMerge -@mergTbl ; HMC SAM - dc.w PrattMerge -@mergTbl ; Pratt - dc.w HHeadMerge -@mergTbl ; HHead - - - Align 4 +; (CDG5) Code removed but comments kept for context ;_____________________________________________________________________________________________ @@ -1160,14 +424,164 @@ Concat move.l d0,d3 ; save last size <9> ; This routine simply writes the chunk table at the top of the bank (pointed to by a1), given ; the banks size in d0. Used ONLY for single bank systems (like MacPlus, SE, Portable). ;_____________________________________________________________________________________________ -noMerge ; <9> - moveq #(3*4)+(1*8),d1 ; size of chunk table for this decoder - bra writeChunkTable ; write chunk table and exit... +; (CDG5) Code removed but comments kept for context +;____________________________________________________________________________________________ +; Routine: PowerPCMerge (emulated system fake stitch and fake chunk table creation) +; Very similar to OrwellMerge, HMCMerge, HHEadMerge (whose comments are preserved below) +;____________________________________________________________________________________________ + export PowerPCMerge + +PowerPCMerge + With NKSystemInfo, ProductInfo, VideoInfo + + MOVEQ #0,D5 + +; Read PRAM to see if the user wants an EDisk. If the size is > MinRamDiskSize then ask the SAM +; nanokernel for some RAM. + + MOVE.L A2,D3 ; Save SizeMem's return address + + LongBSR6 GetHardwareInfo ; Get universal info again + + LSR.W #8,D2 ; Get the boxflag in the low byte + MOVE.B D2,D7 ; Save it in D7 + + MOVEQ #0,D4 ; unclear purpose + MOVEQ #1,D4 + + MOVE.L $68FFEFF0,A2 ; Read the EDisk size (in % of total RAM) in D1 + MOVE.B $128(A2),D1 + MOVE.L D3,A2 ; Restore the return address + +; Get the MMU page size from the nanokernel. Count bits in the result to get a shift factor + + MOVEQ #0,D3 ; Clear D3 + MOVE.L ([ProcessorInfoPtr],ProcessorInfo.PageSize),D0 ; Get the Page size from the nano-k + BFFFO D0{15:15},D3 ; Get the shift factor (Find First One) + NOT.B D3 ; Flip the order (BF instr start at bit 32 -> ) + ADD.B #32,D3 ; Get the bit number (lsb based) + + MOVE.L (NKSystemInfoPtr),A5 ; Point to the nanokernel SystemInfo record + ANDI.L #$FF,D1 ; Clear upper bytes of pram byte + BEQ.S @AfterRAMDiskCheck ; -> No EDisk + + MOVE.L PhysicalMemorySize(A5),D2 ; Get physical RAM size + LSR.L #8,D2 ; Scale the size by 256k chunks + MULU.L D1,D2 ; Mult Chunks by ChunkCount from PRAM = EDisk size + ADD.L #$7FFF,D2 ; Add an extra 32k to the size + AND.W #$8000,D2 ; Round down to 32k boundary + CMPI.L #MinRamDiskSize,D2 ; Is this size too small? (user pulled some SIMMs) + BCC.S @notSml + MOVE.L #MinRamDiskSize,D2 +@notSml CMPI.L #MaxRamDiskSize,D2 + BHI.S @AfterRAMDiskCheck + + MOVE.L PhysicalMemorySize(A5),D1 + SUBI.L #$600000,D1 + CMP.L D1,D2 + BLS.S @consrv + MOVE.L D1,D2 +@consrv MOVE.L D2,D5 + ADD.L D2,D7 + + MOVE.L #bRamDisk,D0 ; Get the EDisk logical base address + LSR.L D3,D0 ; Turn the address into a page number + MOVE.L D0,A0 ; Put the logical page number in A0 + + LSR.L D3,D2 ; Turn the size into a page count + MOVE.L D2,A1 ; Put page count in A1 + + MOVEQ #0,D1 ; Indicate no special alignment necessary + _nkAllocateMemory ; Get the RAM and map it where we asked + +@AfterRAMDiskCheck + ; End +************************************************************************ +; Activate the Dynamically Recompiling Emulator + + MOVEQ #19,D0 ; Only if the low 2 bits of ECR19 == 01 + _MoveFromECR + BNE @Chunky + MOVE.L A0,D0 + AND #3,D0 + CMP #1,D0 + BNE @Chunky + + MOVE.L A2,D3 ; save return addr around GetHardwareInfo + MOVEQ #0,D2 ; tell it nothing + BigBSR6 GetHardwareInfo ; single, insulated call + MOVE.L (NKSystemInfoPtr),A2 ; reach totally unexpectedly into SystemInfo! + MOVE.B $129(A2),D1 ; ...and get the number of Tcache pages + MOVE.L D3,A2 ; restore return address + MOVE.L (NKSystemInfoPtr),A5 ; restore clobbered A5 ptr + + MOVEQ #0,D3 ; Clear D3 + MOVE.L ([ProcessorInfoPtr],ProcessorInfo.PageSize),D0 ; Get the Page size from the nano-k + BFFFO D0{15:15},D3 ; Get the shift factor (Find First One) + NOT.B D3 ; Flip the order (BF instr start at bit 32 -> ) + ADD.B #32,D3 ; Get the bit number (lsb based) + + LSR #4,D1 ; the number we got is (pages - 16) + AND #$F,D1 ; and it had better be at least 16 + BZ.S @Chunky + + ADDQ #1,D1 ; Calculate size of (number + 16) pages + SWAP D1 + CLR D1 + ADD.L D1,D7 ; (add that to our running total) + + MOVE.L D1,A0 ; ECR22 = T-cache size + MOVEQ #22,D0 + _MoveToECR + MOVE.L #$69000000,A0 ; ECR21 = T-cache pointer + MOVEQ #21,D0 + _MoveToECR + + MOVE.L A0,D0 ; Allocate memory for the T-cache + LSR.L D3,D0 + MOVE.L D0,A0 ; A0 = logical page number + LSR.L D3,D1 + MOVE.L D1,A1 ; A1 = page count + MOVEQ #0,D1 ; D1 = no special alignment + _nkAllocateMemory ; no error check! + + MOVEQ #19,D0 ; Set low bit of ECR19 to turn on DR! + _MoveFromECR + MOVE.L A0,D1 + BSET #1,D1 + MOVE.L D1,A0 + _MoveToECR + +; Now that RAM has been adjusted by the possible allocation of an EDisk, Video frame buffer +; and/or DMA buffer, we can construct the RAM chunk table that sits at the top of logical RAM. +; At this point A5 should be pointing to the nanokernel SystemInfo record. + +@Chunky MOVE.L UsableMemorySize(A5),D1 ; Get the Useable RAM size from NK + MOVE.L D1,A5 ; Put the size (our Memtop) in A5 + + ; Start from the Top down + MOVE.L D7,-(A5) ; Put our total allocation at the top of L RAM (Inc edisk). + MOVE.L D5,-(A5) ; Num bytes used by the EDisk + MOVE.L #$45676773,-(A5) ; Diag long #3 + MOVE.L #$616E6420,-(A5) ; Diag long #2 + MOVE.L #$53616D20,-(A5) ; Diag long #1 + MOVE.L #-1,-(A5) ; Chunk table terminator + MOVE.L D1,-(A5) ; Top of usable RAM + CLR.L -(A5) ; Logical start of RAM + + MOVE.L A5,A1 ; Put Ptr to chunk table in A1 for MergeDone + MOVEQ #0,D6 ; Signal no RAM test errors. + BRA MergeDone ; Set the stack and leave + + EndWith + + + ;_____________________________________________________________________________________________ ; Routine: HMCMerge (emulated system fake stitch and fake chunk table creation) Sam ; @@ -1200,253 +614,7 @@ noMerge ; <9> ; D7 is used as a flag register for the size of the RAM Disk and whether or not to allocate Video RAM ; bit 31: high = allocate Video RAM (bit is cleared when testing to turn on video or not) ;_____________________________________________________________________________________________ - export HMCMerge - -HMCMerge ; Sam - With NKSystemInfo, ProductInfo, VideoInfo - - MOVE.L A2,D6 ; Save SizeMem's return address - - LongBSR6 GetHardwareInfo ; Get universal info again - MOVE.L DecoderInfo.VIA1Addr(A0),A2 ; Get VIA1's base address for RdXByte - - ; Read PRAM locations (FC through FF) and test for one of several factory settings that - ; tell us to allocate a frame buffer (even if no monitor is connected) - - MOVEQ.L #0,D7 ; Clear the fb allocation flag - MOVE.W #burnInLoc,D1 ; 1st burn in byte - BSR6 RdXByte ; Read the Factory data - MOVE.B D1,D3 ; Save hi byte - SWAP D3 - LSL.L #8,D3 ; Shift to high byte - MOVEQ #0,D1 ; Prep D1 for PRAM data - MOVE.W #burnInLoc+1,D1 ; 2nd burn in byte - BSR6 RdXByte ; Read the Factory data - SWAP D1 ; Save second hi byte - OR.L D1,D3 ; - MOVEQ #0,D1 ; Prep D1 for PRAM data - MOVE.W #burnInLoc+2,D1 ; 3rd burn in byte - BSR6 RdXByte ; Read the Factory data - LSL.W #8,D1 ; Shift byte to second low byte - OR.L D1,D3 ; - MOVEQ #0,D1 ; Prep D1 for PRAM data - MOVE.W #burnInLoc+3,D1 ; 4th burn in byte - BSR6 RdXByte ; Read the Factory data - OR.L D3,D1 ; OR in the result - - CMP.L #burninSig,D1 ; Is this one of the factory settings? - BEQ @GetFB ; -> Yes, allocate the frame buffer - CMP.L #burnInSigAlt,D1 ; Is this one of the factory settings? - BEQ @GetFB ; -> Yes, allocate the frame buffer - CMP.L #burnInSig12,D1 ; Is this one of the factory settings? - BEQ @GetFB ; -> Yes, allocate the frame buffer - CMP.L #burnInSig13,D1 ; Is this one of the factory settings? - BEQ @GetFB ; -> Yes, allocate the frame buffer - CMP.L #burnInSig15,D1 ; Is this one of the factory settings? - BEQ @GetFB ; -> Yes, allocate the frame buffer - CMP.L #burnInSig16,D1 ; Is this one of the factory settings? - BEQ @GetFB ; -> Yes, allocate the frame buffer - - ; No factory enable. Check to see what's connected. If nothing is connected, do not - ; allocate the frame buffer. - - MOVE.L #SonoraVdCtlBase,A0 ; Offset from VIA1 base to Sonora Control Regs - ADD.L A2,A0 ; Add in VIA1 base. A0 points to SonoraCtrlRegs - - MOVE.B #$9F,SonoraVdModeReg(A0) ; Disable video (if it was on) - MOVE.B #tristateSonoraSense,SonoraVdSenseRg(A0) ; Tristate the sense lines. - BSR6 CheckVidSense - CMP.B #indexedNoConnect,D3 ; If Sense == No Connect, check Extended Sense - BNE @GetFB ; Otherwise turn of Video RAM - - MOVEQ #0,D1 ; prep D1 for Extended sense data - MOVEQ #0,D3 ; prep D2 for Extended sense data - - ; Sense lines indicate something might be connected. Check the extended sense. - - ; Drive a, Read bc - -@DriveA MOVE.B #sonoraEnableAMask,SonoraVdSenseRg(A0) ; abc <- 011 - BSR6 CheckVidSense - ANDI.B #sonoraAMask,D3 ; 0BC - MOVE.B D3,D1 ; 00 00 BC - LSL.B #2,D1 ; 00 BC 00 - - ; Drive b, Read ac - -@DriveB MOVE.B #sonoraEnableBMask,SonoraVdSenseRg(A0) ; abc <- 101 - BSR6 CheckVidSense - ANDI.B #sonoraBMask,D3 ; A0C - BCLR #sonoraSenseLineA,D3 ; A0C becomes - BEQ.S @OrIn ; A0C or - BSET #sonoraSenseLineB,D3 ; A1C - -@OrIn OR.B D3,D1 ; 00 BC AC - LSL.B #2,D1 ; BC AC 00 - - ; Drive c, Read ab - -@DriveC MOVE.B #sonoraEnableCMask,SonoraVdSenseRg(A0) ; abc -> 110 - BSR6 CheckVidSense - ANDI.B #sonoraCMask,D3 ; AB0 - LSR.B #1,D3 ; 0AB - OR.B D3,D1 ; BC AC AB - - CMP.B #extendedNoConnect,D1 ; Is anything connected? - BEQ.S @NoFB ; -> Nope, leave D7 alone. Don't allocate the frame buffer - -@GetFB BSET.L #31,D7 ; Set the "Allocate a DRAM frame buffer" flag -@NoFB - - ; Read PRAM to see if the user wants an EDisk. If the size is > MinRamDiskSize then ask the SAM - ; nanokernel for some RAM. - - LongBSR6 GetHardwareInfo ; Get universal info again - MOVE.L DecoderInfo.VIA1Addr(A0),A2 ; Get VIA1's base address for RdXByte - - MOVE.W #ramDiskPramAddr,D1 ; Get the EDisk PRAM byte constant - BSR6 RdXByte ; Read the EDisk size (in % of total RAM) in D1 - MOVE.L D6,A2 ; Restore the return address - - ADD.L VideoInfoPtr(A1),A1 ; Point A1 to the VideoInfo record for this machine - MOVE.L VRAMLogAddr32(A1),D6 ; Get the Logical Frame Buffer base address - - ; Get the MMU page size from the nanokernel. Count bits in the result to get a shift factor - - MOVEQ #0,D3 ; Clear D3 - MOVE.L ([ProcessorInfoPtr],ProcessorInfo.PageSize),D0 ; Get the Page size from the nano-k - BFFFO D0{15:15},D3 ; Get the shift factor (Find First One) - NOT.B D3 ; Flip the order (BF instr start at bit 32 -> ) - ADD.B #32,D3 ; Get the bit number (lsb based) - - MOVEQ #0,D5 ; Clear the EDisk allocation size - MOVE.L (NKSystemInfoPtr),A5 ; Point to the nanokernel SystemInfo record - ANDI.L #$FF,D1 ; Clear upper bytes of pram byte - BEQ.S @DMABuffer ; -> No EDisk, check DMA Buffer - - MOVE.L PhysicalMemorySize(A5),D2 ; Get physical RAM size - LSR.L #8,D2 ; Scale the size by 256k chunks - MULU.L D1,D2 ; Mult Chunks by ChunkCount from PRAM = EDisk size - ADD.L #$7FFF,D2 ; Add an extra 32k to the size - AND.W #$8000,D2 ; Round down to 32k boundary - CMPI.L #MinRamDiskSize,D2 ; Is this size too small? (user pulled some SIMMs) - BLO.S @DMABuffer ; -> Yes, too small. No EDisk - CMPI.L #MaxRamDiskSize,D2 ; Is it too big? - BHI.S @DMABuffer ; -> Yes, too big. No EDisk - - MOVE.L LogicalMemorySize(A5),D0 ; Get the logical size (Phys - nk private stuff) till next - SUB.L #PDMDMAbufSize,D0 ; Subtract the DAM buffer size from Log RAM size - TST.L D7 ; Are we going to allocate 614k for a frame buffer? - BPL.S @CheckMinHeap ; -> Nope, - SUB.L #604*1024,D0 ; Subtract the frame buffer size if enabled -@CheckMinHeap - SUB.L D2,D0 ; Subtract the EDisk size - CMP.L #MinHeapSize,D0 ; Will we have at least MinHeapSize free after the EDisk? - BLT.S @DMABuffer ; -> No, do not allocate the EDisk (signed) - - MOVE.L D2,D5 ; Save the number of bytes used by the EDisk in the chunk table. - ADD.L D2,D7 ; Add the size to our running allocation counter - MOVE.L #bRamDisk,D0 ; Get the EDisk logical base address - LSR.L D3,D0 ; Turn the address into a page number - MOVE.L D0,A0 ; Put the logical page number in A0 - - LSR.L D3,D2 ; Turn the size into a page count - MOVE.L D2,A1 ; Put page count in A1 - - MOVEQ #0,D1 ; Indicate no special alignment necessary - _nkAllocateMemory ; Get the RAM and map it where we asked - - ; Allocate space for the DMA buffer - -@DMABuffer MOVE.L #PDMDMAbufSize,D0 ; Get the hard coded DMA buffer size (160k) - ADD.L D0,D7 ; Add the DMA buffer size to our counter - LSR.L D3,D0 ; Turn the byte count into a page count - MOVE.L D0,A1 ; Put page count in A1 - - MOVE.L #PDMDMAlogAddr,D0 ; Get the desired logical address - LSR.L D3,D0 ; Turn it into a page number - MOVE.L D0,A0 ; Put the logical page number in A0 - - MOVE.L #(256*1024)-1,D1 ; Align physical address to 256k boundary (AMIC Requirement) - LSR.L D3,D1 ; Make that a page alignment - _nkAllocateMemory ; Get the DMA buffer RAM. - - ; Due to a DataPath bug, all byte-assembled buffers need to be marked noncacheable (floppy & serial). - ; Due to an IBM bug, all the rest of the DMA buffers need to be marked noncacheable (marginal parts - ; don't like Global/ARty being asserted). - - MOVE.L #PDMDMAbufSize,D2 ; Get the number of bytes to mark noncacheable (all of them) - LSR.L D3,D2 ; Convert that to a page count - SUBQ #1,D2 ; Make it zero based for DBRA - - MOVE.L #PDMDMAlogAddr,D0 ; Start of non cacheable range - LSR.L D3,D0 ; Turn it into a logical page number - MOVE.L D0,A0 ; Put the page number in A0 - -@NoCacheLup _nkMMUMakePageNonCacheable ; Disable the cache for this page - LEA 1(A0),A0 ; PageNumber++ - DBRA D2,@NoCacheLup ; -> Do this for each page - - ; Allocate RAM for the RAM Based Video (NQD writes *past* the end of the buffer. Get some slop for sloppy...) - - BCLR.L #31,D7 ; If zero don't allocate the frame buffer - BEQ.S @Chunky ; -> Do not allocate the frame buffer - - MOVE.L #604*1024,D2 ; Get 618496 (604k) bytes (max RBV can support w/slop) - ADD.L D2,D7 ; Add the frame buffer size to our counter - LSR.L D3,D2 ; Turn the byte count into a page count - MOVE.L D2,A1 ; Page Count -> A1 - - LSR.L D3,D6 ; Turn the logical video base into page number - MOVE.L D6,A0 ; Logical Page # -> A0 - MOVEQ #-1,D1 ; Force the allocation to start at phys 0 (HMC Requirement) - LSR.L D3,D1 ; Make that a page alignment - _nkAllocateMemory ; Get the RAM and map it where we asked - - ; Make the frame buffer RAM cache mode WriteThrough - - SUBQ #1,D2 ; Make the RBV page count zero based -@CacheLupe _nkMakePageWriteThrough - LEA 1(A0),A0 ; PageNumber++ - DBRA D2,@CacheLupe ; -> Do this for •every• page - - ; Now that RAM has been adjusted by the possible allocation of an EDisk, Video frame buffer - ; and/or DMA buffer, we can construct the RAM chunk table that sits at the top of logical RAM. - ; At this point A5 should be pointing to the nanokernel SystemInfo record. - -@Chunky MOVE.L UsableMemorySize(A5),D1 ; Get the Useable RAM size from NK - MOVE.L D1,A5 ; Put the size (our Memtop) in A5 - - ; Start from the Top down - MOVE.L D7,-(A5) ; Put our total allocation at the top of L RAM (Inc edisk). - MOVE.L D5,-(A5) ; Num bytes used by the EDisk - MOVE.L #$68657265,-(A5) ; Old Unused Diag long #3 - MOVE.L #$77617320,-(A5) ; Old Unused Diag long #2 - MOVE.L #$53616D20,-(A5) ; Old Unused Diag long #1 - MOVE.L #-1,-(A5) ; Chunk table terminator - MOVE.L D1,-(A5) ; Top of usable RAM - CLR.L -(A5) ; Logical start of RAM - - MOVE.L A5,A1 ; Put Ptr to chunk table in A1 for MergeDone - MOVEQ #0,D6 ; Signal no RAM test errors. - BRA MergeDone ; Set the stack and leave - - EndWith - -CheckVidSense - - MOVE.W #550,D0 ; 550 iterations -@WaitLupe TST.B vIER(A2) ; Wait ~1.2µs - DBRA D0,@WaitLupe ; -> Keep looping for ~550µs - - MOVEQ #0,D3 ; D2 used as senseline scratch. - MOVE.B SonoraVdSenseRg(A0),D3 ; Read the lines into scratch. - LSR.B #4,D3 ; Get inputs out of upper nybble. - - MOVE.W #550,D0 ; 550 iterations -@WaitLupe2 TST.B vIER(A2) ; Wait ~1.2µs - DBRA D0,@WaitLupe2 ; -> Keep looping for ~550µs - RTS6 +; (CDG5) Code removed but comments kept for context ;_____________________________________________________________________________________________ @@ -1477,80 +645,7 @@ CheckVidSense ; Table size: $24 bytes fixed. ; ;_____________________________________________________________________________________________ - export HHEADMerge - -HHEadMerge ; Sam - With NKSystemInfo, ProductInfo, VideoInfo - - ; Read PRAM to see if the user wants an EDisk. If the size is > MinRamDiskSize then ask the SAM - ; nanokernel for some RAM. - - MOVE.L A2,D3 ; Save SizeMem's return address - - LongBSR6 GetHardwareInfo ; Get universal info again - MOVE.L DecoderInfo.VIA1Addr(A0),A2 ; Get VIA1's base address for RdXByte - - LSR.W #8,D2 ; Get the boxflag in the low byte - MOVE.B D2,D7 ; Save it in D7 - - MOVE.W #ramDiskPramAddr,D1 ; Get the EDisk PRAM byte constant - BSR6 RdXByte ; Read the EDisk size (in % of total RAM) in D1 - MOVE.L D3,A2 ; Restore the return address - - ; Get the MMU page size from the nanokernel. Count bits in the result to get a shift factor - - MOVEQ #0,D3 ; Clear D3 - MOVE.L ([ProcessorInfoPtr],ProcessorInfo.PageSize),D0 ; Get the Page size from the nano-k - BFFFO D0{15:15},D3 ; Get the shift factor (Find First One) - NOT.B D3 ; Flip the order (BF instr start at bit 32 -> ) - ADD.B #32,D3 ; Get the bit number (lsb based) - - MOVE.L (NKSystemInfoPtr),A5 ; Point to the nanokernel SystemInfo record - ANDI.L #$FF,D1 ; Clear upper bytes of pram byte - BEQ.S @Chunky ; -> No EDisk - - MOVE.L PhysicalMemorySize(A5),D2 ; Get physical RAM size - LSR.L #8,D2 ; Scale the size by 256k chunks - MULU.L D1,D2 ; Mult Chunks by ChunkCount from PRAM = EDisk size - ADD.L #$7FFF,D2 ; Add an extra 32k to the size - AND.W #$8000,D2 ; Round down to 32k boundary - CMPI.L #MinRamDiskSize,D2 ; Is this size too small? (user pulled some SIMMs) - BLO.S @Chunky ; -> Yes, too small. No EDisk - - MOVE.L #bRamDisk,D0 ; Get the EDisk logical base address - LSR.L D3,D0 ; Turn the address into a page number - MOVE.L D0,A0 ; Put the logical page number in A0 - - LSR.L D3,D2 ; Turn the size into a page count - MOVE.L D2,A1 ; Put page count in A1 - - ADD.W #1,A1 ; (Temp Hack bump up by one to work around nk bug) - ;MOVEQ #0,D1 ; Indicate no special alignment necessary - MOVE.L #16,D1 ; (Temp Hack to get around a nk bug) - _nkAllocateMemory ; Get the RAM and map it where we asked - - ; Now that RAM has been adjusted by the possible allocation of an EDisk, Video frame buffer - ; and/or DMA buffer, we can construct the RAM chunk table that sits at the top of logical RAM. - ; At this point A5 should be pointing to the nanokernel SystemInfo record. - -@Chunky MOVE.L UsableMemorySize(A5),D1 ; Get the Useable RAM size from NK - MOVE.L D1,A5 ; Put the size (our Memtop) in A5 - - ; Start from the Top down - LEA -8(A5),A5 ; Leave room for two temp warm start flags - - CLR.L -(A5) ; Old Diag long #3 - CLR.L -(A5) ; Old Diag long #2 - CLR.L -(A5) ; Old Diag long #1 - MOVE.L #-1,-(A5) ; Chunk table terminator - MOVE.L D1,-(A5) ; Top of usable RAM - CLR.L -(A5) ; Logical start of RAM - - MOVE.L A5,A1 ; Put Ptr to chunk table in A1 for MergeDone - MOVEQ #0,D6 ; Signal no RAM test errors. - BRA MergeDone ; Set the stack and leave - - EndWith +; (CDG5) Code removed but comments kept for context @@ -1572,28 +667,7 @@ HHEadMerge ; Sam ; This routine stitches banks A,B together for the MacII's glue chip decoder. It then writes ; the chunk table at the top of RAM. ;_____________________________________________________________________________________________ -GlueMerge ; <9> - moveq #$0F,d1 ; prepare to mask for size A nibble - and.b d5,d1 ; get bank A size nibble - bne.s @sizeBits ; RAM in bank A, leave a1 pointing to bank A start - addq #8,a1 ; else, advance to bank B's start - lsr.l #4,d5 ; and move bank B's nibble into lsn -@sizeBits move.b @VIASizeTable(d1),d0 ; get VIA value - movea.l VIA2Addr(a0),a5 ; get VIA 2 base - and.b d0,VBufA(a5) ; stuff in new size bits - - moveq #(3*4)+(2*8),d1 ; size of chunk table for this decoder - bra writeChunkTable ; write chunk table and exit... - -@VIASizeTable - dc.b $FF ; [0] A size = 0Mb: Start bank B on 64Mb boundary - dc.b $3F ; [1] A size = 1Mb: Start bank B on 1Mb boundary - dc.b $FF ; [2] A size = 2Mb: ---- - dc.b $7F ; [3] A size = 4Mb: Start bank B on 4Mb boundary - dc.b $FF ; [4] A size = 8Mb: ---- - dc.b $BF ; [5] A size =16Mb: Start bank B on 16Mb boundary - dc.b $FF ; [6] A size =32Mb: ---- - dc.b $FF ; [7] A size =64Mb: Start bank B on 64Mb boundary +; (CDG5) Code removed but comments kept for context @@ -1615,31 +689,7 @@ GlueMerge ; <9> ; This routine writes the chunk table (containing 1 or 2 entries) at the top of the highest bank, ; for the Mac IIci's MDU decoder (no stitching possible with this one). ;_____________________________________________________________________________________________ -MDUMerge ; <9> - moveq #0,a5 ; no chunk table started yet - adda.w #16,a1 ; point to end of bank info table - -@bankLoop tst.b d5 ; any banks left? - beq MergeDone ; no, exit - - subq #8,a1 ; point to previous bank - lsl.l #4,d5 ; yes, shift over next bank - move.w d5,d1 - lsr.w #8,d1 ; get bank nibble - andi.b #$0F,d1 ; mask it - beq.s @bankLoop ; no bank, try next - - BSR6 expandSize ; convert nibble size (in d1) --> real size (in d0) - move.l a5,d1 ; already started table? - bne.s @writeChunk ; yes, then don't write tail - move.l (a1),a5 ; get base of bank - adda.l d0,a5 ; point to end of bank - clr.l -(a5) ; clear test space - clr.l -(a5) ; clear test space - move.l #-1,-(a5) ; write FFFFFFFF -@writeChunk move.l d0,-(a5) ; write size (0nn00000) - move.l (a1),-(a5) ; write start (0x000000) - bra.s @bankLoop +; (CDG5) Code removed but comments kept for context @@ -1662,40 +712,7 @@ MDUMerge ; <9> ; This routine stitches banks A,B together for the Mac IIfx's FMC decoder. It then writes ; the chunk table at the top of RAM. ;_____________________________________________________________________________________________ -FMCMerge ; <9> - move.w #FMCInit,d1 ; get initial FMC value (assuming no Parity) - btst.l #RPUExists,d0 ; do we have parity? - beq.s @cont ; no, we're ok - move.w #FMCRPUInit,d1 -@cont move.w d1,d0 - - moveq #$0F,d1 ; prepare to mask for size A nibble - and.b d5,d1 ; get A size nibble - bne.s @sizeBits ; yes, leave a1 pointing to bank A start - addq #8,a1 ; else, advance to bank B's start - lsr.l #4,d5 ; and move bank B's nibble into lsn -@sizeBits and.b @FMCSizeTable(d1),d0 ; 'or' in FMC size bits - - movea.l FMCAddr(a0),a5 ; get the FMC base address - moveq.l #16-1,d1 ; loop counter to load 16 bits <13> -@FMCload move.b d0,FMCConfig(a5) ; load in a bit - lsr.w #1,d0 ; put next bit into position - dbra d1,@FMCload ; repeat till all bits loaded <13> - st.b FMCLatch(a5) ; latch the config data - -@writeTable - moveq #(3*4)+(2*8),d1 ; max size of chunk table for this decoder - bra writeChunkTable ; write chunk table and exit... - -@FMCSizeTable - dc.b $FF ; [0] A size = 0Mb: Start bank B on 64Mb boundary - dc.b $FF ; [1] A size = 1Mb: ---- - dc.b $FF ; [2] A size = 2Mb: ---- - dc.b $3F ; [3] A size = 4Mb: Start bank B on 4Mb boundary - dc.b $7F ; [4] A size = 8Mb: Start bank B on 8Mb boundary - dc.b $BF ; [5] A size =16Mb: Start bank B on 16Mb boundary - dc.b $FF ; [6] A size =32Mb: ---- - dc.b $FF ; [7] A size =64Mb: Start bank B on 64Mb boundary +; (CDG5) Code removed but comments kept for context @@ -1717,153 +734,7 @@ FMCMerge ; <9> ; This routine stitches banks A,B,C,D together for Eclipse's Orwell decoder. It then writes ; the chunk table at the top of RAM. ;_____________________________________________________________________________________________ - WITH ProductInfo - -OrwellMerge ; - IF forSTP601 THEN ; - WITH NKSystemInfo ; - - ; Start - ; Read PRAM to see if the user wants an EDisk. If the size is > MinRamDiskSize - ; then ask thenanokernel for some RAM. - MOVE.L A2,D6 ; Save SizeMem's return address - - MOVEQ.L #0,D7 ; Memory that might get used for RAM disk - - LongBSR6 GetHardwareInfo ; Get universal info again - MOVE.L DecoderInfo.VIA1Addr(A0),A2 ; Get VIA1's base address for RdXByte - - MOVE.W #ramDiskPramAddr,D1 ; Get the EDisk PRAM byte constant - BSR6 RdXByte ; Read the EDisk size (in % of total RAM) in D1 - MOVE.L D6,A2 ; Restore the return address> - - ; Get the MMU page size from the nanokernel.Count bits in the result to get a shift factor - - MOVEQ #0,D3 ; Clear D3 - MOVE.L ([ProcessorInfoPtr],ProcessorInfo.PageSize),D0 ; Get the Page size from the nano-k - BFFFO D0{15:15},D3 ; Get the shift factor (Find First One) - NOT.B D3 ; Flip the order (BF instr start at bit 32 -> ) - ADD.B #32,D3 ; Get the bit number (lsb based) - - MOVEQ #0,D5 ; Clear the EDisk allocation size - MOVE.L (NKSystemInfoPtr),A5 ; Point to the nanokernel SystemInfo record - ANDI.L #$FF,D1 ; Clear upper bytes of pram byte - BEQ.S @AfterRAMDiskCheck ; -> No EDisk - - MOVE.L PhysicalMemorySize(A5),D2 ; Get physical RAM size - LSR.L #8,D2 ; Scale the size by 256k chunks - MULU.L D1,D2 ; Mult Chunks by ChunkCount from PRAM = EDisk size - ADD.L #$7FFF,D2 ; Add an extra 32k to the size - AND.W #$8000,D2 ; Round down to 32k boundary - CMPI.L #MinRamDiskSize,D2 ; Is this size too small? (user pulled some SIMMs) - BLO.S @AfterRAMDiskCheck ; -> Yes, too small. No EDisk - CMPI.L #MaxRamDiskSize,D2 ; Is it too big?> - BHI.S @AfterRAMDiskCheck ; -> Yes, too big. No EDisk - - MOVE.L LogicalMemorySize(A5),D0 ; Get the logical size (Phys - nk private stuff) - -@CheckMinHeap - SUB.L D2,D0 ; Subtract the EDisk size - CMP.L #MinHeapSize,D0 ; Will we have at least MinHeapSize free after the EDisk? - BLT.S @AfterRAMDiskCheck ; -> No, do not allocate the EDisk (signed) - - MOVE.L D2,D5 ; Save the number of bytes used by the EDisk in the chunk table. - ADD.L D2,D7 ; Add the size to our running allocation counter - MOVE.L #bRamDisk,D0 ; Get the EDisk logical base address - LSR.L D3,D0 ; Turn the address into a page number - MOVE.L D0,A0 ; Put the logical page number in A0 - - LSR.L D3,D2 ; Turn the size into a page count - MOVE.L D2,A1 ; Put page count in A1 - - MOVEQ #0,D1 ; Indicate no special alignment necessary - _nkAllocateMemory ; Get the RAM and map it where we asked - -@AfterRAMDiskCheck - ; End - - MOVE.L (NKSystemInfoPtr),A5 ; Point to the nanokernel SystemInfo record - MOVE.L UsableMemorySize(A5),D1 ; Get the Useable RAM size from NK - MOVE.L D1,A5 ; Put the size (our Memtop) in A5 - - ; Start from the Top down - MOVE.L D7,-(A5) ; Put total allocation at the top of L RAM. - MOVE.L #$52555348,-(A5) ; Old Unused Diag long #3 - MOVE.L #$6E757320,-(A5) ; Old Unused Diag long #2 - MOVE.L #$4379676E,-(A5) ; Old Unused Diag long #1 - MOVE.L #-1,-(A5) ; Chunk table terminator - MOVE.L D1,-(A5) ; Top of usable RAM - CLR.L -(A5) ; Logical start of RAM - - MOVE.L A5,A1 ; Put Ptr to chunk table in A1 for MergeDone - MOVEQ #0,D6 ; Signal no RAM test errors. - BRA MergeDone ; Set the stack and leave - ENDWITH ; - ENDIF ; - - IF forSmurf THEN - bra HMCMerge ; >>SKIP this - ENDIF - - move.w d5,d1 ; get a copy of the size for 4 banks - swap d5 ; put a copy in msw of d5 - move.w d1,d5 ; and put a copy in the lsw of d5 too - move.l a1,d6 ; save productinfo ptr for later - movea.l #0,a3 ; clear memory counter - move.l #0,d3 ; start with bank 0 (bank A) - bra.s @bankMapped ; no need to map bank A -; -; This code maps the current bank to begin immediately after the previous bank. -; It loads Orwell's bank configuration registers, but does not latch them in. -; -; a3.l - offset to map current bank at -; d3.l - bank which we are currently mapping -; -@mergeLoop ; LOOP - move.l d3,d1 ; get current bank number - subq.l #1,d1 ; adjust so Bank 1 has zero offset - mulu.l #OrBankFieldSize,d1 ; get bit position in register for this bank - move.l DecoderAddr(a0),a5 ; get base addr of Orwell - lea (OrBankBCfgAddr,a5,d1.w*4),a5 ; get base address of bank field for this bank - move.l a3,d1 ; get addr to map this bank to - move.l #22,d4 ; bits to shift to get Orwell config value - lsr.l d4,d1 ; d1 contains config value for this bank - move.w #OrBankFieldSize-1,d4 ; size of field to load -@loadCfgReg move.l d1,(a5)+ ; load a bit - lsr.l #1,d1 ; get next bit into position - dbra d4,@loadCfgReg ; continue until entire field is loaded -; -; Latch the value we just put into Orwell in. -; - movea.l DecoderAddr(a0),a5 ; get base address of Orwell - lea OrLoadBanks(a5),a5 ; get address of latch location - move.b #$ff,(a5) ; latch bank config values in <14> -; -; Increment offset to map next bank to and point to next chunk. Continue loop if not finished. -; -@bankMapped - move.l #$0F,d1 ; mask for size nibble of current bank - and.b d5,d1 ; get size nibble for current bank - lsr.l #4,d5 ; shift size of next bank into low nibble <14> - BSR6 expandSize ; nibble size (in d1) --> real size (in d0) - adda.l d0,a3 ; calc total amount of memory so far -@contLoop - tst.l 8(a1) ; are we at the last bank? - bmi.s @mergeDone ; >>EXITLOOP if so - adda.l #8,a1 ; bump chunk pointer to next entry - addq.l #1,d3 ; bump bank number - bra.s @mergeLoop ; ENDLOOP -; -; Write chunk table at the end of RAM. After merging, RAM looks like one big chunk starting at zero. -; -@mergeDone - move.l a3,d3 ; get a copy of total amount of memory <14> - move.l d6,a1 ; restore productinfo ptr <14> -@endMerge moveq #(3*4)+(4*8),d1 ; size of chunk table for this decoder <14> - - bra writeChunkTable ; and exit <14> - - ENDWITH +; (CDG5) Code removed but comments kept for context ;_____________________________________________________________________________________________ ; Routine: SonoraMerge @@ -1899,45 +770,7 @@ OrwellMerge ; ; ;_____________________________________________________________________________________________ -RAMCfgBank0Size EQU 6 ; Sonora RAMConfig Bank0Size Bit. 1=Onboard RAM for Carnation - -SonoraMerge MOVE.L D2,A5 ; Save D2 for later
- MOVEQ #1,D4 ; SIMM loop counter

- MOVEQ #(1< No RAM in bank 0/A - - BCLR.L #RAMCfgBank0Size,D6 ; If no RAM in bank 0 clear the Bank0Size Bit -@noBank0 - LSR.L #4,D1 ; Look at next bank - -@SIMMLupe MOVE.B D1,D0 ; Copy two nibbles - AND.B #$0F,D0 ; Strip the upper nibble - BEQ.S @noRAMBank1 ; -> branch if no RAM in the first bank of this SIMM - - MOVE.B D1,D2 ; Copy two nibbles - AND.B #$F0,D2 ; Strip the lower nibble - BEQ.S @NoRAMbank2 ; -> No RAM in the second bank of this SIMM - - ADDQ #1,D0 ; Both banks filled. Assume both same size. Bump the SIMM size -@noRAMbank2 OR.B D0,D6 ; Put this SIMM size in the Cfg reg - -@noRAMbank1 ROR.B #3,D6 ; Rotate the Cfg reg to prep for setting SIMM1 size - LSR.L #4*2,D1 ; Shift the Bank sizes reg two banks right - DBRA D4,@SIMMLupe ; Do this twice (once for each SIMM) - ROR.B #2,D6 ; Put the config reg back where it belongs - -@Done MOVE.L A5,D2 ; restore D2
- MOVE.L RBVAddr(A0),A5 ; Get RBV (Sonora's VIA2) Base Addr

- MOVE.B SonoraRAMSize(A5),D0 ; Get the Cfg Reg - AND.B #$80,D0 ; Mask out all but the HiBit (Slot16MHz) - OR.B D0,D6 ; Put the Slot16MHz into our SIMM size and Bank0Size byte - MOVE.B D6,SonoraRAMSize(A5) ; Set the SIMM size & Stich the banks together (magic) - - MOVEQ #(3*4)+(5*8),D1 ; size of chunk table for this decoder (3 longs + 5 banks) - BRA writeChunkTable ; write chunk table and exit... +; (CDG5) Code removed but comments kept for context ;_____________________________________________________________________________________________ @@ -1965,80 +798,7 @@ SonoraMerge MOVE.L D2,A5 ; Save D2 for later
; TBD ;_____________________________________________________________________________________________ -YMCAMerge - Move.w #YMCAMaxSize,d6 ; Max bank size supported by the YMCA in 2^(n-1)* chunksize - movea.l #0,a3 ; clear memory counter - Move.l DecoderAddr(A0),A5 ; Get YMCA's Base address - Move.l d5,YMCA_DRAMBank0_A20(a5) ; get the base address for the first bank's A20 register - - -; d6.w will loop through the supported sizes,from largest to smallest -; d4.w will have the bank the size is in - -@NextSize ; LOOP (thru memory sizes) - Move.l d5,d3 ; Get a running copy of the nibble sizes - rol.l #4,d3 ; adjust it for the 1st time thru nibble loop - Moveq #0,d4 ; Counter to loop through 8 nibbles - Move.l DecoderAddr(A0),A5 ; Get YMCA's Base address - Lea YMCA_DRAMBank0_A20(a5),a5 ; get the base address for the first bank's A20 register - -@NextNibble ; LOOP (thru banks) - ror.l #4,d3 ; Get the nibble - move.w d3,d1 ; we will trash d1 - Andi.w #$000f,d1 ; We only want the lowest nibble - Cmp.w d6,d1 ; Is this the size we're looking for - Bne.s @NoSzMatch ; nope - Swap d4 ; save our counter and use the other word for the shift count & size counter - Move.w #20,d4 ; # of bits to shift the address to get at the bit we need to program - Move.l A3,D0 ; get the current amount of memory - lsr.l d4,D0 ; the boundary reg's consist of A20 thru A26 - Move.w #BankBdryRegSize-1,d4 ; size of boundary address register - -@loadBdry Ror.l #1,d0 ; Move bit 0 to bit 31 - move.l d0,(a5)+ ; and write it out - dbra d4,@loadBdry ; continue for all bits - Move.w #BankSizeRegSize-1,d4 ; size of memory bank - Move.w d1,d0 ; Get a copy of nibble size in the msw of d1 - Swap d1 ; expand size will trash d1 - Move.w d0,d1 ; both words of d1 contain the nibble size - BSR6 expandSize ; nibble size (in d1) --> real size (in d0) - adda.l d0,a3 ; calc total amount of memory so far - swap d1 ; get d1.w with the nibble size - -@loadSize Ror.l #1,d1 ; d1 = nibble size = bank size - move.l d1,(a5)+ ; and write it out - dbra d4,@loadSize ; continue for all bits - Swap D4 ; return our bank counter - bra.s @NextBank ; go look at the next bank -@NoSzMatch - Adda.l #40,a5 ; if we didn't match get the base address of the next bank -@NextBank - Addq.w #1,d4 ; increment our counter - Cmpi.w #8,d4 ; Did we loop through the 8 nibbles yet - bne.s @NextNibble ; ENDLOOP (through banks) - Dbra d6,@NextSize ; ENDLOOP (through memory sizes) - - move.l a3,d3 ; get a copy of total amount of memory <14> - -@Done MOVEQ #(3*4)+(8*8),D1 ; size of chunk table for this decoder (3 longs + 8 banks) - BRA writeChunkTable ; write chunk table and exit... - -; fau, end - ALIGN 4 - -; fau, start -YMCAWidthOffsets -; This table lists the offsets to the YMCA Width base address from the Base Address of the Width Register. -; It is indexed by bank and provides the offset from YMCA_DRAMwidth0 - - dc.w $0 ; Bank 0's offset - dc.w $4 ; Bank 1's offset - dc.w $0 ; Bank 2's offset - dc.w $4 ; Bank 3's offset - dc.w $8 ; Bank 4's offset - dc.w $c ; Bank 5's offset - dc.w $8 ; Bank 6's offset - dc.w $c ; Bank 7's offset +; (CDG5) Code removed but comments kept for context ; fau, end ;_____________________________________________________________________________________________ @@ -2065,30 +825,7 @@ YMCAWidthOffsets ; possible to have the same total RAM configuration but different size bit settings ; (i.e. 6MB total = 2 MB on PCB + 2-2 MB SIMMs in bank A OR 4 MB on PCB and 2-1 MB SIMMs). ;_____________________________________________________________________________________________ -VISAMerge ; <9> - move.b d5,d1 ;
- and.w #$000F,d1 ; get Bank A size nibble - move.b (@VISASizeTable,d1.w),d1 ; use size as index into table for "real" size - movea.l RBVAddr(a0),a5 ; get size bits - and.b #%00111111,VsExp(a5) ; zero out bank A size - or.b d1,VsExp(a5) ; OR in bank A size we just got from table - - btst #5,VsExp(a5) ; test size bits to see if 2/4mb in bank B - bne.s @done ; if 4mb then we need to change RAM info tables - adda.l #RAMInfoSize+4,a1 ; set a1 to 4mb RAM info table - -@done - moveq #(3*4)+(2*8),d1 ; size of chunk table for this decoder - bra writeChunkTable ; write chunk table and exit... - -@VISASizeTable - dc.b $00 ; [0] A size = 0MB - dc.b -1 ; [1] A size = 1MB illegal - dc.b $40 ; [2] A size = 2MB - dc.b $80 ; [3] A size = 4MB - dc.b $C0 ; [4] A size = 8MB
rb, end - - ALIGN +; (CDG5) Code removed but comments kept for context ;_____________________________________________________________________________________________ ; Routine: JAWSMerge/NiagraMerge @@ -2108,143 +845,7 @@ VISAMerge ; <9> ; This routine stitches banks A-B-C-D,E-F-G-H together for Waimea's JAWS decoder. It then writes ; the chunk table at the top of RAM. ;_____________________________________________________________________________________________ -NiagraMerge -JAWSMerge ; <9> - moveq #0,d4 ; init card size reg - - moveq #3,d1 ; get our special-case value (2 Meg, 1 chunk) <4> - cmp.l d1,d5 ; does bank A have it (with bank B=0)? <4> - bne.s @checkSpec2 ; no, see if bank B is special (with bank A=0) <4> - moveq #0,d4 ; B-A = 0-2 meg, use the 0 table entry <4> - bra.s @getTable ; <4> - -@checkSpec2 swap d1 ; now check bank B for 2 Meg in lowest chunk <4> - cmp.l d1,d5 ; with bank A=0 <4> - bne.s @notSpec ; no, use standard lookup <4> - moveq #$20,d4 ; yes, use B-A = 4-0 meg table entry <4> - bra.s @getTable ; <4> - -@notSpec BSR6 @calcSize ; calc bank B size - BSR6 @calcSize ; calc bank A size - - moveq #16-3,d0 ; prepare to shift bank A size code into high 3 bits - lsl.w d0,d4 ; 00000000 00000bbb aaa00000 00000000 - lsr.l d0,d4 ; 00000000 00000000 00000000 00bbbaaa -@getTable move.b @JAWSSizeTable(d4.w),d0 ; get JAWS size config value - - movea.l JAWSAddr(a0),a5 ; get ptr to JAWS base - adda.l #JAWSMemConfigA,a5 - move.b d0,(a5) ; set size reg A - - lsr.b #2,d0 ; move in next 2 bits - adda.w #JAWSMemConfigB-JAWSMemConfigA,a5 - move.b d0,(a5) ; set size reg B - - lsr.b #2,d0 ; move in last 2 bits - adda.w #JAWSMemConfigC-JAWSMemConfigB,a5 - move.b d0,(a5) ; set size reg C - - moveq #(3*4)+(8*8),d1 ; size of chunk table for this decoder - bra writeChunkTable ; write chunk table and exit... - -;............................................................................................ - -@calcSize movea.l a6,a5 ; keep return address in a5 - moveq #4-1,d1 ; count 4 banks -@nextNib swap d1 ; keep count in d1.hw - move.w #$0F,d1 - rol.l #4,d5 ; - and.b d5,d1 ; get next size nibble - BSR6 expandSize ; nibble size (in d1) --> real size (in d0) - add.l d0,d4 ; add to total for this bank - swap d1 ; get count back - dbra d1,@nextNib - - swap d4 ; 000x00n0 - lsr.w #4,d4 ; 000x000n - - cmpi.b #8,d4 ; was it 8? - bne.s @done ; no, then we're done - subq.b #1,d4 ; yes, make it a 7. -@done jmp (a5) ; and exit - - -@JAWSSizeTable - dc.b %00000 ;[000 000] B:0, A:0 - dc.b %00001 ;[000 001] B:0, A:1 - dc.b %00001 ;[000 010] B:0, A:2 - dc.b %00010 ;[000 011] B:0, A:3 - dc.b %00000 ;[000 100] B:0, A:4 - dc.b %00000 ;[000 101] -------- - dc.b %00000 ;[000 110] B:0, A:6 - dc.b %00000 ;[000 111] B:0, A:8 - - dc.b %11111 ;[001 000] B:1, A:0 - dc.b %10011 ;[001 001] B:1, A:1 - dc.b %00011 ;[001 010] B:1, A:2 - dc.b %01010 ;[001 011] B:1, A:3 - dc.b %01001 ;[001 100] B:1, A:4 - dc.b %00000 ;[001 101] -------- - dc.b %00110 ;[001 110] B:1, A:6 - dc.b %01000 ;[001 111] B:1, A:8 - - dc.b %11111 ;[010 000] B:2, A:0 - dc.b %00111 ;[010 001] B:2, A:1 - dc.b %00011 ;[010 010] B:2, A:2 - dc.b %10010 ;[010 011] B:2, A:3 - dc.b %01001 ;[010 100] B:2, A:4 - dc.b %00000 ;[010 101] -------- - dc.b %00110 ;[010 110] B:2, A:6 - dc.b %01000 ;[010 111] B:2, A:8 - - dc.b %11101 ;[011 000] B:3, A:0 - dc.b %00100 ;[011 001] B:3, A:1 - dc.b %00100 ;[011 010] B:3, A:2 - dc.b %11001 ;[011 011] B:3, A:3 - dc.b %10001 ;[011 100] B:3, A:4 - dc.b %00000 ;[011 101] -------- - dc.b %01110 ;[011 110] B:3, A:6 - dc.b %11000 ;[011 111] B:3, A:8 - - dc.b %10111 ;[100 000] B:4, A:0 - dc.b %01001 ;[100 001] B:4, A:1 - dc.b %00101 ;[100 010] B:4, A:2 - dc.b %01111 ;[100 011] B:4, A:3 - dc.b %11011 ;[100 100] B:4, A:4 - dc.b %00000 ;[100 101] -------- - dc.b %10110 ;[100 110] B:4, A:6 - dc.b %00000 ;[100 111] B:4, A:8 - - dc.b %00000 ;[101 000] -------- - dc.b %00000 ;[101 001] -------- - dc.b %00000 ;[101 010] -------- - dc.b %00000 ;[101 011] -------- - dc.b %00000 ;[101 100] -------- - dc.b %00000 ;[101 101] -------- - dc.b %00000 ;[101 110] -------- - dc.b %00000 ;[101 111] -------- - - dc.b %10111 ;[110 000] B:6, A:0 - dc.b %01011 ;[110 001] B:6, A:1 - dc.b %01011 ;[110 010] B:6, A:2 - dc.b %01100 ;[110 011] B:6, A:3 - dc.b %10100 ;[110 100] B:6, A:4 - dc.b %00000 ;[110 101] -------- - dc.b %11010 ;[110 110] B:6, A:6 - dc.b %00000 ;[110 111] B:6, A:8 - - dc.b %10111 ;[111 000] B:8, A:0 - dc.b %01101 ;[111 001] B:8, A:1 - dc.b %01101 ;[111 010] B:8, A:2 - dc.b %10101 ;[111 011] B:8, A:3 - dc.b %10111 ;[111 100] B:8, A:4 - dc.b %00000 ;[111 101] -------- - dc.b %10111 ;[111 110] B:8, A:6 - dc.b %00000 ;[111 111] B:8, A:8 - - - -; <22> rb, from Terror for DBLite +; (CDG5) Code removed but comments kept for context ;_____________________________________________________________________________________________ ; Routine: MSCMerge @@ -2276,26 +877,7 @@ JAWSMerge ; <9> ; Bank H can be 0 or 2 or 8 ;_____________________________________________________________________________________________ -MSCMerge ; - bfffo d5{0:31},d1 ; find the highest bit (bank) set
- neg.b d1 ;
- add.b #32,d1 ;
- asl.b #MSCSize0-2,d1 ; / bank size = highest bank # (upper 3 bits)
- ori.b #(1< - - moveq #$0F,d0 ; find out how much in bank 4
- swap d0 ;
- and.l d5,d0 ;
- swap d0 ; nibble size in low byte
- subq.b #$03,d0 ; check for 8 MB
- beq.s @TwoMegBanks ;
- bclr #MSCBank8M,d1 ; not 8 MB, clear our Bank8M enable
-@TwoMegBanks - movea.l RBVAddr(a0),a5 ; get ptr to MSC (same as RBV's)

- and.b d1,MSCConfig(a5) ; set MSC size bits

- -@done moveq #(3*4)+(8*8),d1 ; size of chunk table for this decoder - bra writeChunkTable ; write chunk table and exit... +; (CDG5) Code removed but comments kept for context ;_____________________________________________________________________________________________ ; Routine: PrattMerge @@ -2327,74 +909,7 @@ MSCMerge ; ; All expansion banks with RAM in them must be the same size. Banks must be loaded in order. ; ;_____________________________________________________________________________________________ -PrattMerge ; - -; find out which banks have memory -; input: d5.l -- each non-zero nibble means corresponding bank has memory -; output: d4.b -- each non-zero bit means corresponding bank has memory, bits 0-5 -; - movea.l d5,a5 ; save a copy of nibble sizes - moveq #0,d0 ; initialize count - move.b #PrattBankBits,d4 ; load initial mask for RAM Configuration Register (in Pratt) -@bankloop move.b d5,d1 ; get copy of nibble sizes - andi.b #$0F,d1 ; look at low nibble - bne.s @next ; nibble non-zero -> memory in bank, so leave bit set - bclr d0,d4 ; no memory in this bank, so clear bit -@next lsr.l #4,d5 ; look at next nibble - addq #1,d0 ; inc nibble count - cmpi.b #PrattNumbanks-1,d0 ; have we looked at all the banks? - ble.s @bankloop - move.l a5,d5 ; restore copy of nibble sizes - -; figure out the onboard configuration (Banks A and B) -; output: d1 has the onboard memory bank bit configuration bits configured -; - move.b #PrattDensBits,d1 ; load initial mask for RAM Density Register (in Pratt) - move.l d5,d0 ; get copy of nibble sizes - andi.l #$0000000F,d0 ; find out how much in bank 0 - bne.s @check2 ; more than 0 MB, go check for 2 - andi.b #Pratt0MBbank,d1 ; there is no RAM on the daughter card - bra.s @getExpMem -@check2 cmpi.l #1,d0 ; check for 2 MB (nibble size = 1 for 2MB chunksize) - bne.s @check4 ; more than 2MB, go check for 4 - andi.b #Pratt2MBbank,d1 ; there are 2MB - bra.s @getExpMem ; -@check4 cmpi.l #2,d0 ; check for 4MB (nibble size = 2 for 2MB chunksize) - bne.s @set8 ; more than 4MB, must be 8 - andi.b #Pratt4MBbank,d1 ; there are 4 MB - bra.s @getExpMem -@set8 andi.b #Pratt8MBbank,d1 ; set 8 MB bank size - -; find out size of expansion memory banks -; output: d1 has the expansion memory bank size bit configured -; -@getExpMem move.l #$00000F00,d0 ; find out how much in bank C (D,E,F must be the same size) - and.l d5,d0 ; the formula is (2^(n-1) * 2) MB where "n" is the nibble value - bne.s @check2e - andi.b #Pratt0MBExBank,d1 - bra.s @writeConfigRegs -@check2e cmpi.l #$00000100,d0 ; check for 2 MB (nibble size = 1) - bne.s @check4e - andi.b #Pratt2MBExBank,d1 - bra.s @writeConfigRegs -@check4e cmpi.l #$00000200,d0 ; check for 4 MB (nibble size = 2) - bne.s @set8e - andi.b #Pratt4MBExBank,d1 - bra.s @writeConfigRegs -@set8e andi.b #Pratt8MBExBank,d1 ; set config for 8MB banks on the expansion card - -@writeConfigRegs - movea.l PrattAddr(a0),a5 ; get ptr to Pratt - IF forRomulator THEN - TestInRAM a0 ; are we in RAM? - bne.s @done ; yes, then don't really muck with RAM Config registers - ENDIF - move.b d1,PrattRAMDensity(a5) ; set Pratt RAM density register value - move.b d4,PrattRAMConfig(a5) ; set Pratt RAM config register value - bset.b #0,PrattRefresh(a5) ; set Pratt Refresh rate to be generated every 33 clocks. - -@done moveq #(3*4)+(6*8),d1 ; size of chunk table for this decoder - bra writeChunkTable ; write chunk table and exit... +; (CDG5) Code removed but comments kept for context ;_____________________________________________________________________________________________ thru next @@ -2418,131 +933,7 @@ PrattMerge ; ; to abuse it during this part of the code. ;_____________________________________________________________________________________________ - WITH ProductInfo - -djMEMCMerge - IF forSmurf THEN - bra HMCMerge ; >>SKIP this - ENDIF - - LEA MEMCAddr+MEMCDRAMCfg0,A0 ; Point A0 to the first bank's Cfg reg - - MOVEQ #0,D0 - SUBA.L A3,A3 ; A3 = 0 - MOVEQ #dj_MaxBanks-1,D1 ; # of banks minus 1 - -@Loop MOVE.L A3,D4 ; Get running size in D4 - SWAP D4 ; Poor man's BFEXTU D4{22:8},D4 - LSR.W #6,D4 - - MOVE.L (A0),D0 - MOVE.B D4,D0 ; Move bits 22-29 of addrs into bits 7-0 of cfg reg - MOVE.L D0,(A0)+ - - MOVEQ #$0F,D4 ; Nibble mask - CMPI.B #2-1,D1 ; Are we on the first set of 8 banks? - BHI.S @D5 ; -> Yes, use D5 for the first 8 - -@D6 AND.B D6,D4 ; Get the nibble (banks 8 thru 15) - ROR.L #4,D6 ; prep for next time - BRA.S @Comm - -@D5 AND.B D5,D4 ; Get the nibble (banks 0 thru 7) - ROR.L #4,D5 ; Roll around for next time - -@Comm TST.B D4 ; Any RAM in this bank? - BEQ.S @NextOne ; -> Nope, lupe sum more - - SUBQ #1,D4 ; Multiplying by powers of 2 (start at 2^1) - MOVE.L D2,D0 ; chunkSize - LSL.L D4,D0 ; This bank's size in bytes - - ADD.L D0,A3 ; Add this bank's size to the running total -@NextOne DBRA D1,@Loop - ROL.L #8,D6 ; Fix D6 (contains only 2 banks, but should be in LSB) - - MOVE.L A3,D0 ; Get total RAM in d0 - SWAP D0 ; Poor man's BFEXTU D4{22:8},D4 - LSR.W #6,D0 - MOVE.L D0,MEMCAddr+MEMCmemTop ; Move bits 22-29 of addrs into bits 7-0 of MemTop reg - -; ----------------------------------------------------------------------------------------- -; -; Put in interleave enabling code HERE. -; -; It must go here because if you turn it on after the chunk table is built, interleaving -; "scrambles" the banks and the chunk table would get scrambled as well. -; -; At this point, we can thrash A0 -; -; Bank information is stored in D5 & D6. D5 = banks 0-7, D6 = banks 8&9 -; Organization of D5 and D6 is: -; -; +-------------------------------------------------------+ -; | bank | bank | bank | bank | bank | bank | bank | bank | -; | 7 | 6 | 5 | 4 | 3 | 2 | 1/9 | 0/8 | D5/D6 bank value positions -; +-------------------------------------------------------+ -; ----------------------------------------------------------------------------------------- - - IF forRomulator THEN ; if you're running a ROM in RAM, you dont EVER - bra @skipInterleave ; want to turn on interleaving. it could make your day - ENDIF ; very unhappy -; Only allow interleave enable on djMEMC versions > 0. thru next -; Version 0 parts cause the machine to lock up if interleaving is enabled. - - lea MEMCAddr+MEMCIntleaveEnable,a0; get interleave enable reg. address - moveq #$0E,d0 ; mask for djMEMC version number, shifted 1 bit to the left - rol.l #8,d0 ; shift mask to correct location - and.l (a0),d0 ; check djMEMC version - beq.s @skipInterleave ; IF djMEMC_Version != 0 THEN - -; make sure banks are the same size first - - move.l d5,d1 ; get 1st 8 banks info - move.l d1,d0 - ror.l #4,d0 ; such that d0 = (d1 >> 4), or bank pairs in same bit positions - eor.l d0,d1 ; XOR them to see if they're the same - andi.l #$0F0F0F0F,d1 ; AND to get only bottom nibble of each byte - moveq.l #1,d0 ; starting bit of bank 0&1 in interleave reg. - move.l (a0),d4 ; get current OneBufferedBit value from interleave reg. - andi.w #$FFE0,d4 ; force the Interleaved bank bits to be unset -@chkNextPair - tst.b d5 ; test this bank PAIR - beq.s @nextpair ; BRIF both banks empty - tst.b d1 ; test if both banks EQUAL - bne.s @nextpair ; IF BankX == BankX+1 THEN - or.w d0,d4 ; set appropriate bit -@nextpair ; ENDIF - ror.l #8,d5 ; point to next bank pair - ror.l #8,d1 ; point to next XORed bank-pair results - rol.l #1,d0 ; rotate bit to next interleave bit - cmpi.b #%10000,d0 ; checking banks 8&9 yet? - bne.s @chkNextPair ; if still working with banks 0-7 - -; if you're here, then we need to test banks 8&9, found in D6. - - tst.b d6 ; are both banks empty? - beq.s @setInterleave ; IF Bank8&9 != EMPTY - move.b d6,d1 ; get info for bank 8 - move.b d1,d0 ; &9 - andi.b #$0F,d1 ; isolate bank 8 - ror.b #4,d0 ; align them so nibbles for 8&9 are the same - andi.b #$0F,d0 ; isolate bank 9 - cmp.b d0,d1 ; check if bank 8 is same size as bank 9 - bne.s @setInterleave ; IF Bank8 == Bank9 THEN - ori.b #%10000,d4 ; set bit for banks 8&9 -@setInterleave ; ENDIF - move.l d4,(a0) ; and write it out to the interleave config reg. - -@skipInterleave ; ENDIF - MOVEQ #(3*4)+(10*8),D1 ; size of chunk table for this decoder (3 longs + 10 banks) - BRA newWriteChunkTable ; write chunk table and exit... (ext nibbles in D6) - - - ENDWITH -; ----------------------------------------------------------------------------------------- - - align 2 ; +; (CDG5) Code removed but comments kept for context ;_____________________________________________________________________________________________ ; Routine: expandSize @@ -2557,14 +948,7 @@ djMEMCMerge ; This routine converts the nibble size in d1 to a real size (in bytes) in d0, based on a ; chunk size in d2. ;_____________________________________________________________________________________________ -expandSize - moveq #0,d0 ; assume no RAM - tst.w d1 ; any RAM? - beq.s @exit ; no, exit - move.l d2,d0 ; yes, get chunk size - subq.w #1,d1 ; count it - lsl.l d1,d0 ; multiply by correct power of 2 -@exit RTS6 +; (CDG5) Code removed but comments kept for context @@ -2593,35 +977,7 @@ expandSize ; test longs at the end of the table - same as always). ;_____________________________________________________________________________________________ -writeChunkTable ; <11> - moveq #0,d6 ; clear the extended nibble count for the old guys -newWriteChunkTable ; new entry point for machines with > 8 banks of memory - movea.l (a1),a5 ; get start of bank - move.l a5,a0 ; running bank start ptr - adda.l d3,a5 ; point to end of bank - suba.l d1,a5 ; allocate space for test space/chunk table - move.l a5,a7 ; remember start of chunk table - -@loop moveq #$0F,d1 ; prepare to mask for size nibble - and.b d5,d1 ; get bank size nibble - beq.s @next ; skip if no RAM in this bank - BSR6 expandSize ; convert nibble size (in d1) --> real size (in d0) - move.l a0,(a7)+ ; write start - move.l d0,(a7)+ ; write length - add.l d0,a0 ; calculate next start -@next lsr.l #4,d5 ; shift in next bank nibble - bne.s @loop ; continue if more banks - - move.l d6,d5 ; do we have more banks to do? ( > 8) - beq.s @finishup ; -> Nope, no more - clr.l d6 ; clr the extended nibble sizes (so we only do this once) - bra.s @loop ; do more banks - -@finishup subq.l #1,d5 ; = FFFFFFFF - move.l d5,(a7)+ ; write FFFFFFFF (terminator) -@fill clr.l (a7)+ ; clear test space - move.w a7,d0 ; at end of bank - bne.s @fill ; no, keep clearing +; (CDG5) Code removed but comments kept for context ;............................................................................................. MergeDone @@ -2631,6 +987,8 @@ MergeDone ;_____________________________________________________________________________________________ begin ; +; The comment below only applies to pre-CDG5 ROMs that did sound: +; ; For machines with a sound buffer in high RAM (i.e., ASC-based machines), we'll move the ; RAM chunk table below the sound buffer. This will avoid collisions with large MMU tables. ; We need to do this here because SizeMem gets called more than once (by diagnostics), so @@ -2659,20 +1017,6 @@ MergeDone ; +-------------------+ ;_____________________________________________________________________________________________ - MOVE.L A2,D3 ; save the return address - MOVEQ #0,D2 ; get the decoder type - BigBSR6 GetHardwareInfo,a0 ; - MOVEA.L (SP),A6 ; point to the chunk table - LEA @Resume,A2 ; (BSR2) - BRA.S SizeSoundBuffer ; get the size of a sound buffer in high RAM (if any) -@Resume BEQ.S @Done ; -> no sound buffer - SUB.L D0,(SP) ; adjust the address of the new chunk table - SUB.L A6,D1 ; calculate the size of the chunk table -@MoveChunks MOVE.B -(A1),-(A0) ; move the RAM chunk table to its new home - SUBQ.L #1,D1 ; - BGT.S @MoveChunks ; -@Done MOVEA.L D3,A2 ; restore the return address - moveq #0,d6 ; Z flag set to indicate no error(s) <15> jmp (a2) @@ -2696,40 +1040,8 @@ MergeDone ;_____________________________________________________________________________________________ SizeSoundBuffer ; - LEA @bufSizeTbl-4,A1 - MOVEQ #0,D0 ; assume no sound buffer in high RAM -@FindDecoder - ADDQ.W #4,A1 ; skip over the previous routine offset - MOVE.W (A1)+,D0 ; get the next decoder type - BEQ.S @Done ; -> end of list - CMP.B D2,D0 ; does the decoder match? - BNE.S @FindDecoder ; -> no, try the next one - MOVE.L (A1)+,D0 ; yes, get offset from top of RAM to start of sound buffer - - MOVEA.L A6,A1 ; point to the start of the chunk table - BRA.S @FirstChunk ; and start looking -@FindLastChunk - ADDQ.W #8,A1 ; skip over the previous chunk start/size -@FirstChunk TST.L (A1) ; are we at the end of the table? - BPL.S @FindLastChunk ; -> nope, keep going - - MOVE.L -(A1),D1 ; calculate the address of the end of the last chunk - ADD.L -(A1),D1 - MOVEA.L D1,A1 ; and save it - MOVEA.L D1,A0 ; calculate where the end of the moved chunk table will be - SUBA.L D0,A0 ; (this is also the start of the sound buffer) -@Done TST.L D0 ; set the CCR - JMP (A2) - - -; IMPORTANT: Because of the way that ConfigureRAM works (in StartInit), the following table sizes must be -; multiples of 1024. -@bufSizeTbl DC.W DecoderKinds.MSCDecoder ; MSC - DC.L (8*1024) - DC.W DecoderKinds.PrattDecoder ; Pratt (for Blackbird) - DC.L (32*1024) ; Sound can use a FIFO size up to 32K (includes modem sound buffer) - - DC.W 0 ; end of list end + MOVEQ #0,D0 ; (CDG5) ROM does not do sound, so no buffer + JMP (A2) ; vestigial routine, return no error diff --git a/OS/StartMgr/StartAlert.a b/OS/StartMgr/StartAlert.a --- a/OS/StartMgr/StartAlert.a +++ b/OS/StartMgr/StartAlert.a @@ -396,7 +396,23 @@ DrawBox MOVE.L DSDrawProc,D0 ; is a custom dialog draw procedure specified? BSET #7,DSDrawProc ; make it a one-shot RTS ; go to it -@StdProc LEA DSAlertRect,A0 ; pt A0 at rect +@StdProc MOVE D6,D0 + BSR.S FindObject + BEQ.S @old + + CMPI #12,-2(A0) + BLT.S @old + MOVE 10(A0),D0 + BSR.S FindObject + BEQ.S @old + + MOVE.L (A0)+,DSAlertRect + MOVE.L (A0),DSAlertRect+4 + PEA.L DSAlertRect + BSR NewAlertFunc + ADDQ #4,SP + +@old LEA DSAlertRect,A0 ; pt A0 at rect TST.B (A0) ; is this a system alert? (vs system error?) BPL.S DrawSysAlert ; yes, draw normal, do _MovePortTo @@ -465,6 +481,56 @@ DrawBox2 MOVE.L A0, -(SP) ; rect for EraseRect NoButtons RTS + + +NewAlertFunc + Link A6, #-$8 + MoveM.L A1-A3, -(A7) + MoveA.L $8(A6), A3 + Lea.L -$8(A6), A2 + MoveA.L (A5), A0 + Lea.L -$74(A0), A0 + Move.L (A0)+, (A2) + Move.L (A0), $4(A2) + SubQ #$2, A7 + Move (MBarHeight), (A7) + Move (A7)+, D0 + Add D0, (A2) + Move.L A3, -(A7) + Move $6(A2), D0 + Add $2(A2), D0 + AsR #$1, D0 + Move D0, -(A7) + Move $6(A3), D0 + Add $2(A3), D0 + AsR #$1, D0 + Sub D0, (A7) + Move (A2), D0 + Add $4(A2), D0 + AsR #$1, D0 + Move D0, -(A7) + Move (A3), D0 + Add $4(A3), D0 + AsR #$1, D0 + Sub D0, (A7) + _OffsetRect + Move (A3), D0 + Sub (A2), D0 + Ext.L D0 + Neg.L D0 + DivS #$3, D0 + Move.L A3, -(A7) + Clr -(A7) + Move D0, -(A7) + _OffsetRect + MoveM.L (A7)+, A1-A3 + Unlk A6 + Rts + + + + + ;--------------------------------------------------------------------------- ; DoButtons draws some buttons as specified by the buttonList data structure ; defined by the ID in D0, and then hit-tests the mouse position against @@ -683,6 +749,7 @@ CmdLoop MOVE.L SP,A0 ; Point to event record on stack _OffsetRect ; offset it BSR MBDoErase ; erase it + MOVE.B #$20,(A6) MOVE.W D3,-(SP) ; char width NEG.W (SP) ; negative movement CLR.W -(SP) ; delta V = 0 @@ -791,7 +858,7 @@ DMCmd MOVE.L #$007001B0,-(SP) ; push BR RTS ; and return Print6Hx SWAP D0 - BSR.S Print2Hx + BSR.S Print4Hx SWAP D0 Print4Hx MOVE.W D0,-(SP) diff --git a/OS/StartMgr/StartBoot.a b/OS/StartMgr/StartBoot.a --- a/OS/StartMgr/StartBoot.a +++ b/OS/StartMgr/StartBoot.a @@ -294,10 +294,6 @@ BootMe PROC EXPORT EXPORT InitSys7Toolbox EXPORT OpenSlots - - BSR CheckForROMDisk ; Check if we would like to boot a ROM disk - TST.W D0 ; Did we find a bootable ROM disk? - BEQ.S @foundBootDisk ; If so then we've got startup device, now call BBs BSR FindStartupDevice ; Find the startup device & load boot blocks. ; (see StartSearch.a) @@ -350,7 +346,8 @@ MyExecMask EQU BBNewMask+BBExecMask CMP.B #MyExecMask,D1 ; Are these new executable boot blocks? BNE.S @NoExec ; If not, don't execute them -@ExecBB LEA MyIOPBA6(A6),A0 ; point to parameter block +@ExecBB BSR MessWithZones + LEA MyIOPBA6(A6),A0 ; point to parameter block MOVE.L A0,D7 ; set it where Boot blocks want it JSR BBEntry(A6) ; Execute the boot blocks @NoExec @@ -372,17 +369,13 @@ ReBoot move.w BootDrive,D3 ; Get current boot drive number MOVE.W #EjectCode,CSCode(A0) MOVE.W D3,IODrvNum(A0) ; d3 = BootDrive, must be a drive# here! _Control ; eject the bad diskette - BNE.S @DisableNextTime ; If not ejectable, don't try again move.b (sp)+,d0 ; restore DiskInPlace byte + tst -$3f0(a6) + bne.b @DisableNextTime cmpi.b #8,d0 ; were we ejectable? bge @DisableNextTime ; no, don't boot from this drive again -; ((( -------------------- Systems with HD20 -------------------- - CMP.W #$FFFE,BtDskRfN ; HD20's can pretend they're ejectable - BNE.S @1 ; Branch if it's not an HD20 -; ))) -------------------- Systems with HD20 -------------------- - @DisableNextTime MOVE.W BootMask,D0 BCLR D3,D0 @@ -400,6 +393,41 @@ ReBoot move.w BootDrive,D3 ; Get current boot drive number + + + +MessWithZones + MoveM.L D0/A0-A1, -(A7) + Move.L (ApplZone), D0 + Cmp.L (SysZone), D0 + BEQ.B (* + $4) + _InitApplZone + MoveA.L (SysZone), A0 + AddA.L #$A00000, A0 + MoveA.L A7, A1 + SubA.L (DefltStack), A1 + SubA.L #$40000, A1 + SubA.L #$64000, A1 + CmpA.L A0, A1 + BHI.B (* + $4) + MoveA.L A1, A0 + _SetApplBase + MoveA.L (SysZone), A0 + Move.L A0, (ApplZone) + Move.L A0, (TheZone) + Move.L (A0), (HeapEnd) + MoveA.L A7, A0 + SubA.L (DefltStack), A0 + SubA.L #$40000, A0 + _SetApplLimit + MoveM.L (A7)+, D0/A0-A1 + Rts + + + + + + ;________________________________________________________________________________________________ IF 0 THEN ; IMPORT IRQException ; @@ -508,124 +536,131 @@ getDiskInPlace ; find the drive queue element @done rts -;________________________________________________________________________________________________ -; CheckForROMDisk -; -; The following code supports the "Ginty" ROM disk architecture (System Disk in ROM). -; The idea is to pass control to the ROM disk so it can decide whether or not -; to boot from the ROM disk. If there is no ROM disk present or this particular machine -; does not support it then we continue as usual in the boot process. -; -; Input: nothing -; Output: D0.W = non-zero if no ROM disk was found or if one was it was non-bootable -; D0.W = zero means we found a bootable ROM disk. The code in the ROM disk -; already called FinderStartupDevice. -;________________________________________________________________________________________________ - -CheckForROMDisk - move.l UnivROMFlags,d0 ; get external features flag - btst.l #ProductInfo.SupportsROMDisk,d0 ; see if machine supports ROM disks? - beq.s @noROMDisk ; if not then just continue as usual - - bsr.s FindROMDisk ; check if we have a ROM disk - beq.s @foundROMDisk - - move.l UnivROMFlags,D0 ; get external feature flags - btst.l #ProductInfo.V8ChipBit,D0 ; are we on a VISA decoder machine? - beq.s @NoROMDisk ; if not then we're done -; -; ---- At this pt we need to check ROM space one more time but with the C/D slot bit XOR'ed in the ---- -; ---- Miscellaneous Setup Register ($50F26009), we need to do this because we cannot tell if we ---- -; ---- have a PDS/PCMCIA flash card installed or a ROM exp. SIMM. With this bit cleared no DSACK ---- -; ---- is generated by the ASIC and with it set DSACK is generated by the PDS card attached. ---- - - move.l #$50F26009,A0 ; Miscellaneous Setup Register in VIA2 space - bfchg (A0){4:1} ; complement the C/D bit field in setup register - bsr.s FindROMDisk ; check for bootable ROM disk - beq.s @foundROMDisk ; - - move.l #$50F26009,A0 ; Miscellaneous Setup Register in VIA2 space - bfchg (A0){4:1} ; set field back to original setting - bra.s @NoROMDisk ; -; -; At this point, A0 points to the beginning of the header for the RomDisk driver. -; (A0 gets set in routine FindROMDisk) -; -@foundROMDisk - with GintyHeader - - move.l HdrBootCode(A0),D0 ; get the offset to search routine - beq.s @NoROMDisk ; it's zero, so no search routine - adda.l HdrBootCode(A0),A0 ; point to search routine - jsr (A0) ; call the ROM Disk search/open routine - tst.w D0 ; see if it found the boot blocks - beq.s @FoundDevice ; ready to boot (A6 points to boot blocks) - -; ------------ If we get here, we didn't find a ROMDisk ------------ -; -@noROMDisk st d0 ; set d0 to TRUE to indicate no ROM disk -@FoundDevice - rts +;-------------------------------------------------------------------- +; Open all slot drivers which request to be opened at Start time. +; Destroys no registers. +; Note: *** A0, A1, D3 & D4 must be preserved by OpenSDrvr,OpenBDrvrs and AddVidDevice. +;-------------------------------------------------------------------- + +OpenSlots + WITH spBlock, seBlock + + MOVEM.L A0-A1/D0-D4,-(SP) ; Save registers + + LEA -IOQElSize(SP),SP ; Allocate parameter block for device manager calls. + MOVE.L SP,A1 + CLR.B IOPermssn(A1) ; r/w permissions + + SUB #spBlockSize,SP ; Allocate parameter block for SDM calls. + MOVE.L SP,A0 + CLR.B spSlot(A0) ; Start with slot #0. + CLR.B spExtDev(A0) + CLR.B D3 ; Start with sResource ID #0 + +; Search for next sResource and open the driver if the fOpenAtStart flag is set (or sRsrc_Flags are missing). + ;REPEAT +@Repeat MOVE.B D3,spId(A0) ; Restore the sResource Id + _sNextsRsrc ; Find next sResource + BNE.S @Done ; Done if no more sResources + ; + MOVE.B spId(A0),D3 ; Save the sResource id + MOVE.L spsPointer(A0),D4 ; Save the sPointer + + MOVE.B #sRsrcFlags,spId(A0) ; Read the sResource flags + _sReadWord ; IF sRsrc_Flags are missing THEN + BNE.S @10 ; default = flag is set, Open the drvr + MOVE.W spResult+2(A0),D0 + BTST.L #fOpenAtStart,D0 ; IF fOpenAtStart flag is not set THEN + BEQ.S @Repeat ; do not open the driver + +@10 MOVE.B #sRsrcBootRec,spId(A0) + _sFindStruct ; IF there is no sBoot Record THEN + BNE.S @20 ; Branch + ; ELSE + MOVE.B D3,spId(A0) ; Restore the sResource Id + MOVE.L D4,spsPointer(A0) ; Restore the sPointer + BSR OpenBDrvrs ; Open all drivers for this device + BRA.S @Repeat ; continue with loop + +@20 MOVE.B D3,spId(A0) ; Restore the sResource Id + BSR OpensDrvr ; Try to open the driver + BNE.S @Repeat ; If error THEN it can't be opened + +; If it is a video card, then install into device chain + + CMP.L #(CatDisplay<<16)++TypVideo,spCategory(A0) ; Check for proper + BNE.S @Repeat ; continue loop if not + CMP.W #DrSWApple,spDrvrSW(A0) ; Check for an Apple driver interface + BNE.S @Repeat ; =>no, not a video card + BSR AddVidDevice ; else add video device to device list + +@Until BRA.S @Repeat ;UNTIL (no more sResources) + +@Done LEA IOQElSize+spBlockSize(SP),SP ;Deallocate parameter blocks. + + +;------------------------------------- +; Clear flag so InitGraf will load screen configuration from system file +; (Flag was set in InitVidDeflt to avoid initialization before all devices open) +;------------------------------------- + + MOVE.L DeviceList,A0 ;get first device in list + MOVE.L (A0),A0 ;point to this device + BCLR #AllInit,GDFlags(A0) ;say devices not initialized + + MOVEM.L (SP)+,A0-A1/D0-D4 ;Restore registers + RTS ;------------------------------------------------------------------------------------------------ -; Search through ROM looking for the special ROM disk header info. -; If found, check for boot blocks. Adapted from code in EDiskDrvr.a. -; -; Returns EQ if we found a ROM disk with boot blocks, NE if not. -; If ROM disk found then A0 contains a ptr to the ROM Disk header. -; -; Destroys D0,A0 - -FindROMDisk - movem.l d1/a2-a4,-(sp) ; save registers - - movea.l RomBase,a2 ; start searching at the base of ROM - move.l a2,d1 - addi.l #ROMSize,d1 ; end of ROM space to search -@RomDiskLoop - move.w sr,-(sp) ; save old interrupt mask - ori.w #HiIntMask,sr ; disable interrupts (stealing BusErrVct) - move.l BusErrVct,-(sp) ; save old bus error vector - lea @NotFound,a0 ; new handler address - move.l a0,BusErrVct ; setup bus error handler - movea.l sp,a4 ; mark the stack - - lea HeaderTemplate,a3 ; point to expected values - lea HdrBlockSize(a2),a0 ; point to header data - moveq.l #(HdrDeviceSize-HdrBlockSize)/4-1,d0 ; loop counter -@SigCmpLoop - cmpm.l (a0)+,(a3)+ ; compare the values - dbne d0,@SigCmpLoop ; compare the blocks -@NotFound - movea.l a4,sp ; pop stack in case of bus error - move.l (sp)+,BusErrVct ; restore bus error vector - move.w (sp)+,sr ; restore interrupt mask - addq.w #1,d0 ; see if we had a match - bne.s @NextBlock ; no, check next block - move.l a2,a0 ; save our position in ROM - moveq #0,d0 ; set cc to EQ - bra.s @Done ; return EQ -@NextBlock - adda.l #RomDiskAlign,a2 ; point to next block to check - move.l d1,a0 - cmpa.l a0,a2 ; see if end reached - blo.s @RomDiskLoop ; search the entire space - moveq #1,d0 ; set cc to NE -@Done - movem.l (sp)+,d1/a2-a4 ; restore registers - rts - - endwith ; GintyHeader - - - string asis ; no length on strings - align 2 -HeaderTemplate - dc.w 512 ; signature block size - dc.w 1 ; version number 1 - dc.b 'Ginty ' ; 12 byte signature - dc.b 'HYGWGA' ; (brought to you by et. al) +; PROCEDURE:OpenBDrvrs +; Execute sBoot code to load in all drivers for this hw device +; A0 -> Pointer to SDM parameter block. +; Destroys no registers +; Called by : OpenSlots. +;------------------------------------------------------------------------------------------------ + +OpenBDrvrs MOVE.B spSlot(A0),-(SP) ;Save slot + MOVE.B spId(A0),-(SP) ;Save Id + MOVEM.L D0-D3/A0-A1,-(SP) ;Save registers. + + SUB #seBlockSize,SP ;Allocate parameter block for code executed by _sExec. + MOVE.L SP,A1 + MOVE.L A1,spsExecPBlk(A0) ;Save pointer to se parameter block. + + +; Get the default OS of Startup Device (Use the same OS type to load the drivers) + MOVE.L A0,D3 ;Save A0 + SUBQ.L #2,SP ;Make room for parameters + MOVE.L SP,A0 ;Point to the parameter block + _GetOSDefault ;Get info about the default device + MOVE.W (SP)+,D2 ;D2 <- + MOVE.L D3,A0 ;Restore A0 + + +; Set the parameters for the code in sExec. + MOVE.B spSlot(A0),seSlot(A1) ;Slot, + MOVE.B spId(A0),sesRsrcId(A1) ;sResource. + CLR.B sePartition(A1) ;Partition, + CLR.B seDevice(A1) ;Device, and + MOVE.B D2,seOSType(A1) ;Default OS + LSR.L #8,D2 + MOVE.B D2,seReserved(A1) ;Reserved field + MOVE.B #sbState1,seBootState(A1) ;State of StartBoot code. + + +; Execute the code in the sBoot record. + MOVE.B #sRsrcBootRec,spId(A0) ;Execute the code: + _sExec ; On entry to the boot code, A0 points to the SE parameter block. + + +; Exit. + ADD #seBlockSize,SP ;De-Allocate SE parameter block. + MOVEM.L (SP)+,D0-D3/A0-A1 ;Restore registers. + MOVE.B (SP)+,spId(A0) ;Restore Id + MOVE.B (SP)+,spSlot(A0) ;Restore slot + + RTS ;______________________________________________________________________________________ @@ -638,259 +673,9 @@ HeaderTemplate ;______________________________________________________________________________________ InitSys7Toolbox - _InitAllPacks ; Make sure the Packs are available at this time - - BSR.L NewGestaltSelectors ; - - ; Don't call ShutInit here since it blows away existing shutdown tasks - - BSR.L ALIASMGRINSTALL - - BSR.L SetupGlobals ; Comm Toolbox - BSR.L SetupGestalt ; - - BSR.L InitDialogMgrGlobals - BSR.L InitScrollSpeedGlobals ; scrollbar scrolling speed - BSR.L ExtBTreeInstall - BSR.L PPCINSTALL - BSR.L NMINIT - BSR.L InitValidateMenuBarSemaphore - BSR.L InitSystemMenuList - BSR.L MiscPatchesInstall - CLR.L -(SP) ; unused parameter for system builds - BSR.L __InitComponentManager - BSR.L ClearSysErrorUpdateRect ; ToolboxEventMgrPatches - BSR.L TSMgrInstall - BSR.L HelpMgrInstall - BSR.L ADDFONTSTOCHAIN ; FontFolder - - ; ADBSecondaryInitialization ; SAM (from here down...) - - BSR.L InitADBDrvr ; Another reinit - - - ; Display Manager - - IF hasDisplayMgr THEN ; <52> - SUBQ #2,A7 - _DMInstallDisplayManager ; Display Manager - ADDQ #2,A7 - ENDIF ; <52> - - ; SlotMgrSecondaryInitializationIIci - - SUB.W #spBlock.spBlockSize,SP ; Make room for a slot parameter block on the stack - MOVEA.L SP,A0 ; Point A0 to the record - BSET #fWarmStart,spBlock.spFlags(A0) ; Set warm start flag - _SecondaryInit ; Wake everybody up again - ADD.W #spBlock.spBlockSize,SP ; Remove the param block from the stack - BSR OpenSlots ; Open all slot drivers... - - ; ColorQDSecondaryInitialization - - JSR DavesRandomVideoStuff ; re-do CheckDevices and video driver patching. - MOVE.L (a5),-(sp) ; point to the same globals we are using now - _InitGraf ; catch all the new devices - _InitPalettes ; me too... - - ; SetUpIconCluts - - PEA ([ExpandMem],ExpandMemRec.emIconCluts) - JSR MakeIconData - - ; FontMgrSecondaryInitialization - - _InitFonts ; Reinit the font manager (in case a new one's just been loaded) - - ; File System Cache - - BSR AdjustBarrier ; Get the limit to bufPtr in A2 - BTST #extensionsEnabledBit,ExtensionsEnabledByte ; Have extensions been disabled? - BNE.S @normal ; -> No. Use the default limit - - MOVE.L BufPtr,d2 ; Extensions disabled. Limit the cache to 64k - SUB.L #$10000,d2 ; give the cache 64K - BRA.S @continue ; -> Join the common code - -@normal MOVE.L BootGlobals.bufPtrLimit(a5),d2 ; Get the current limit - ADD.L #elbowRoomCacheCantHave,d2 ; Reserve 32k or so to assure we can boot -@continue BSR.L CacheInstall ; Install the disk cache - ; - ; - BSR.L LateLoad ; Wait for SCSI devices present last time (that may not be ready yet) - ; Load their drivers if they come up to speed. - - ; VM Final Initialization - - ; If VM loaded, we need to call MemoryDispatch with selector (-1) so VM can hold the system heap, - ; unhold the boot stack, patch the cursor task, and enable user mode. - - TST.L VMGlobals ; Has VM installed itself? - BMI.S @noVM ; -> No. No Memory Dispatch - -@hasVM MOVEQ #-1,D0 ; Finish VM initialization selector - _MemoryDispatch ; Call VM. - BRA.S @Done ; ->> Jump to end - -@noVM LEA AfterBootSetApplBase,A0 ; Patch _SetAppBase to call _InitZone before and after - MOVE.W #$A057,D0 ; it calls the real SetAppBase. Do this only if VM is - _SetTrapAddress ,NewOS ; not installed, or you'll look like a Cyclone. - -@Done RTS ; Return to boot3 (or Gibbly) - ; SAM (End of today's mods) -; •• End of InitSys7Toolbox •• -;______________________________________________________________________________________ - -;-------------------------------------------------------------------- -; Open all slot drivers which request to be opened at Start time. -; Destroys no registers. -; Note: *** A0, A1, D3 & D4 must be preserved by OpenSDrvr,OpenBDrvrs and AddVidDevice. -;-------------------------------------------------------------------- - -OpenSlots - WITH spBlock, seBlock - - MOVEM.L A0-A1/D0-D4,-(SP) ; Save registers - - LEA -IOQElSize(SP),SP ; Allocate parameter block for device manager calls. - MOVE.L SP,A1 - CLR.B IOPermssn(A1) ; r/w permissions - - SUB #spBlockSize,SP ; Allocate parameter block for SDM calls. - MOVE.L SP,A0 - CLR.B spSlot(A0) ; Start with slot #0. - CLR.B spExtDev(A0) - CLR.B D3 ; Start with sResource ID #0 - -; Search for next sResource and open the driver if the fOpenAtStart flag is set (or sRsrc_Flags are missing). - ;REPEAT -@Repeat MOVE.B D3,spId(A0) ; Restore the sResource Id - _sNextsRsrc ; Find next sResource - BNE.S @Done ; Done if no more sResources - ; - MOVE.B spId(A0),D3 ; Save the sResource id - MOVE.L spsPointer(A0),D4 ; Save the sPointer - - MOVE.B #sRsrcFlags,spId(A0) ; Read the sResource flags - _sReadWord ; IF sRsrc_Flags are missing THEN - BNE.S @10 ; default = flag is set, Open the drvr - MOVE.W spResult+2(A0),D0 - BTST.L #fOpenAtStart,D0 ; IF fOpenAtStart flag is not set THEN - BEQ.S @Repeat ; do not open the driver - -@10 MOVE.B #sRsrcBootRec,spId(A0) - _sFindStruct ; IF there is no sBoot Record THEN - BNE.S @20 ; Branch - ; ELSE - MOVE.B D3,spId(A0) ; Restore the sResource Id - MOVE.L D4,spsPointer(A0) ; Restore the sPointer - BSR OpenBDrvrs ; Open all drivers for this device - BRA.S @Repeat ; continue with loop - -@20 MOVE.B D3,spId(A0) ; Restore the sResource Id - BSR OpensDrvr ; Try to open the driver - BNE.S @Repeat ; If error THEN it can't be opened - -; If it is a video card, then install into device chain - - CMP.L #(CatDisplay<<16)++TypVideo,spCategory(A0) ; Check for proper - BNE.S @Repeat ; continue loop if not - CMP.W #DrSWApple,spDrvrSW(A0) ; Check for an Apple driver interface - BNE.S @Repeat ; =>no, not a video card - BSR AddVidDevice ; else add video device to device list - -@Until BRA.S @Repeat ;UNTIL (no more sResources) - -@Done LEA IOQElSize+spBlockSize(SP),SP ;Deallocate parameter blocks. - - -;------------------------------------- -; Clear flag so InitGraf will load screen configuration from system file -; (Flag was set in InitVidDeflt to avoid initialization before all devices open) -;------------------------------------- - - MOVE.L DeviceList,A0 ;get first device in list - MOVE.L (A0),A0 ;point to this device - BCLR #AllInit,GDFlags(A0) ;say devices not initialized - - MOVEM.L (SP)+,A0-A1/D0-D4 ;Restore registers - RTS - - -;------------------------------------------------------------------------------------------------ -; PROCEDURE:OpenBDrvrs -; Execute sBoot code to load in all drivers for this hw device -; A0 -> Pointer to SDM parameter block. -; Destroys no registers -; Called by : OpenSlots. -;------------------------------------------------------------------------------------------------ - -OpenBDrvrs MOVE.B spSlot(A0),-(SP) ;Save slot - MOVE.B spId(A0),-(SP) ;Save Id - MOVEM.L D0-D3/A0-A1,-(SP) ;Save registers. - - SUB #seBlockSize,SP ;Allocate parameter block for code executed by _sExec. - MOVE.L SP,A1 - MOVE.L A1,spsExecPBlk(A0) ;Save pointer to se parameter block. - - -; Get the default OS of Startup Device (Use the same OS type to load the drivers) - MOVE.L A0,D3 ;Save A0 - SUBQ.L #2,SP ;Make room for parameters - MOVE.L SP,A0 ;Point to the parameter block - _GetOSDefault ;Get info about the default device - MOVE.W (SP)+,D2 ;D2 <- - MOVE.L D3,A0 ;Restore A0 - - -; Set the parameters for the code in sExec. - MOVE.B spSlot(A0),seSlot(A1) ;Slot, - MOVE.B spId(A0),sesRsrcId(A1) ;sResource. - CLR.B sePartition(A1) ;Partition, - CLR.B seDevice(A1) ;Device, and - MOVE.B D2,seOSType(A1) ;Default OS - LSR.L #8,D2 - MOVE.B D2,seReserved(A1) ;Reserved field - MOVE.B #sbState1,seBootState(A1) ;State of StartBoot code. - - -; Execute the code in the sBoot record. - MOVE.B #sRsrcBootRec,spId(A0) ;Execute the code: - _sExec ; On entry to the boot code, A0 points to the SE parameter block. - - -; Exit. - ADD #seBlockSize,SP ;De-Allocate SE parameter block. - MOVEM.L (SP)+,D0-D3/A0-A1 ;Restore registers. - MOVE.B (SP)+,spId(A0) ;Restore Id - MOVE.B (SP)+,spSlot(A0) ;Restore slot RTS -AdjustBarrier ; <38> - -; Adjust BootGlobals.bufPtrLimit(a5) to have: -; MAX( sysHeap.bkLim + minProcessMgrSpace, static limits (i.e. boot globals & vm limits) ) - -; Trashes: a0/d0 - - move.l SysZone,a0 - move.l a0,d0 ; copy baseAddr of SysZone - move.l bkLim(a0),a0 - add.l #initialSysHeapSize,d0 - cmp.l d0,a0 ; if heap is small because we’re on a small RAM machine - bhs.s @enoughReservedForSysHeap ; pretend heap is at initialSysHeapSize because it will - ; be that big soon anyway. - move.l d0,a0 ; Set to be the minimum we’d ever consider. -@enoughReservedForSysHeap - add.l #minProcessMgrSpace,a0 ; where the process mgr heap would end if we - ; created it right now - cmp.l BootGlobals.bufPtrLimit(a5),a0 ; processMgrHeap.bkLim > current barrier? - bls.s @dont ; if not, don’t adjust - - move.l a0,BootGlobals.bufPtrLimit(a5) ; set new barrier -@dont - rts ENDP diff --git a/OS/StartMgr/StartErr.a b/OS/StartMgr/StartErr.a --- a/OS/StartMgr/StartErr.a +++ b/OS/StartMgr/StartErr.a @@ -235,57 +235,6 @@ SysErrInit PROC EXPORT ; ENDP ; -;---------------------------------------------------------------------- -; Routine Debugger (Arg1, Arg2...ArgN, ParamSize, CmdWord) -; Arguments Highly variable -; Function Dispatch debugger call to current installed debugger, -; else ignore. (_Debugger trap) -;---------------------------------------------------------------------- - -Debugger PROC EXPORT ; - EXPORT DebugProlog ; - - MOVEM.L A0-A7/D0-D7,SEVars ; save all regs - - BSET #7,MacJmpFlag ; in the debugger - - LINK A6,#0 ; no locals - LEA 8(A6),A0 ; pt A0 at args - MOVE.W (A0)+,D0 ; get command word - MOVE.W (A0)+,SECmdSize ; stash size of param list - BSR.S DebugProlog ; set up call for debuggers, set CC=existence - BLE.S DebugErr ; V true, so either Z or (NOT N) means no inited debugger - -; Now we know there's a debugger, so call it. -; A0 = ptr to last command parameter, A1 = ptr to debugger entry pt. - - BSET #15,D0 ; set high bit of word to flag trap call - JSR (A1) ; call debugger!!!! - -DebugAdios UNLK A6 ; restore A6 - MOVEM.L SEVars,A0-A7/D0-D7 ; restore all regs - MOVE.L (SP)+,A0 ; get return address - ADD.W SECmdSize,SP ; pop params - ADDQ.L #4,SP ; pop command word & size word - BCLR #7,MacJmpFlag ; out of the debugger - JMP (A0) ; and return - - -DebugErr MOVEQ #SENoDB,D0 ; return "no debugger" error - BRA.S DebugAdios - -; Utility for setting CC's for existance of debugger, pointing A1 to debugger code entry. -; Must preserve D0. - -DebugProlog - MOVE.L MacJmp,A1 ; get ptr in A1 - MOVE.B MacJmpFlag,D3 ; get flags - ADD.B D3,D3 ; init flag now high bit, set CC's - RTS ; and return - - ENDP ; - - ;---------------------------------------------------------------------- ; Routine ToDeepShit ; Arguments (SP) (input) Return address to exception receiver @@ -320,23 +269,15 @@ ToDeepShit PROC EXPORT ; ; Now clear stack of exception info, saving SR and PC unless re-entered. A special case <13Jul85> ; is class 0 exception on the 68000, which has 4 words of info on top of the usual SR/PC. <13Jul85> - TST.B CPUFlag ; 0-000, 1-010, 2-020, etc. <13Jul85> - BNE.S @1 ; <13Jul85> - - CMPI.W #2,D0 ; 1 or 2 means nasty bus error frame <13Jul85> - BGT.S @1 ; <13Jul85> - MOVE.L (SP)+,SE000BE ; save fcn code, access address, and instruction word <04Nov85> JTC - MOVE.L (SP)+,SE000BE+4 ; ...the other 4 bytes of the eight <04Nov85> JTC -@1 - TST.B MacJmpFlag ; minus means we're re-entering <13Jul85> - BMI.S @3 ; <13Jul85> + TST.B $BFF + BMI.S @3 MOVE (SP)+,SESR ; SR on top for all CPUs <13Jul85> MOVE.L (SP)+,SEPC ; next is the saved PC <13Jul85> - BRA.S SysErr2 ; bypass nonsaving pop <13Jul85><1.4> + BRA SysErr2 ; bypass nonsaving pop <13Jul85><1.4> @3 ADDQ.W #6,SP ; kill SR and PC <13Jul85><1.4> - BRA.S SysErr2 + BRA SysErr2 NOP ; appease the assembler gods <12> kc ENDP ; @@ -396,8 +337,6 @@ SystemError PROC EXPORT ; SysErr1 MOVE.W SR,SESR ; save SR <13Jul85> MOVE.L (SP)+,SEPC ; clean PC for fall-through to SysErr2 <13Jul85> - TST.B CPUFlag ; zero for 68000 <02Nov85> JTC - BEQ.S SysErr2 ; no need for dummy frame on old cpu <02Nov85> JTC CLR.W -(SP) ; <02Nov85> JTC ; entry point for standard system exceptions (address error, etc) @@ -407,71 +346,9 @@ SysErr2 BMI.S @0 ; yes, skip reg saving MOVE.L SP,SEA7 ; save true PC @0 ; deleted obsolete stack-cleansing instructions <13Jul85> - BSET #7,MacJmpFlag ; prevent re-entrancy, vote Republican + BSET.B #7,MacJmpFlag ; prevent re-entrancy, vote Republican - cmpi.w #13,d0 ; was it an NMI? <1.5> - bne.w @continue ; no, proceed <1.5> - TestFor RBVExists ; <1.5> - beq.s @noRBV ; <1.5> - - btst.b #ProductInfo.PGCInstalled,UnivRomFlags+3 ; see if we have a PGC chip <9><4>
- beq.s @continue ; no, handle normal NMI-- there is no parity <4> - - move.l VIA,A0 ; get VIA1 base <1.5> - eieioSTP - btst #vPGCEnb,VBufB(a0) ; is parity enabled? <1.5> - eieioSTP - bne.s @continue ; no, proceed <1.5> - eieioSTP - bclr #vPGCErr,vDirB(a0) ; make parity error bit an input <1.5> - eieioSTP - move.b VBufB(a0),d1 ; read parity error flag <2.1> - eieioSTP - bset #vPGCErr,vDirB(a0) ; back to an output <1.5> - eieioSTP - btst #vPGCErr,d1 ; was NMI caused by parity error? <1.5> - bne.s @continue ; no, restore ddr and proceed <1.5> - eieioSTP - bset #vPGCEnb,VBufB(a0) ; yes, disable parity (so we won't get int again<1.5> - eieioSTP - bra.s @parityErr ; and blast the warm start flag -@noRBV - - WITH DecoderInfo - TestFor RPUExists ; do we have RPU parity? - beq.s @continue ; no, skip... - - movea.l OSS,a0 ; get OSS address - eieioSTP - move.w OSSIntStat(a0),d1 - eieioSTP - btst #OSSIntRPU,d1 ; did the RPU cause the interrupt? - beq.s @continue ; no, handle normal NMI - eieioSTP - clr.b OSSMskRPU(a0) ; disable RPU parity interrupts <2> - eieioSTP - movea.l UnivInfoPtr,a0 - adda.l ProductInfo.DecoderInfoPtr(a0),a0 - movea.l RPUAddr(a0),a0 ; get RPU base - st.b rpuReset(a0) ; reset serial ptr - move.l (a0),d1 - bset.l #16,d1 ; clear the parity error - move.l d1,(a0) -@parityErr - IF Supports24Bit THEN ; - moveq #true32B,d0 ; 32 bit mode to look at BootGlobs <1.9> - _SwapMMUMode ; switch to 32 bit mode <1.9> - move.l BootGlobPtr,a1 ; get ptr to boot globals (near top of RAM) <1.6><1.8> - clr.l StartGlobals.sgWarmStart(a1) ; CSS clear boot-globs warm start flag - _SwapMMUMode ; switch back to previous mode (in d0) <1.9> - ELSE - move.l BootGlobPtr,a1 ; get ptr to boot globals (near top of RAM) <1.6><1.8> - clr.l StartGlobals.sgWarmStart(a1) ; CSS clear boot-globs warm start flag - ENDIF - clr.l WarmStart ; clear low memory global warm start flag <1.6> - moveq #dsParityErr,d0 ; yes, set parity error code <1.5><1.7> -@continue ; <1.5> cmpi.w #dsNoPatch,d0 ; is this Error can't find patch ? rb beq.s @PreCubeE ; change the error message then rb cmpi.w #dsBadPatch,d0 ; is this a can't load patch message ? rb @@ -482,10 +359,10 @@ SysErr2 MOVE.W D0,DSErrCode ; Save the possibly modified ErrCode -; now we've set up all regs, etc. Time to decide whether to call the debuggers -; or just call the Deepshit code + MOVE.L MacJmp,A1 + MOVE.B MacJmpFlag,D3 + ADD.B D3,D3 - BSR DebugProlog ; any debuggers? BPL.S Call2DS ; yes, but not initialized (init bit not set) BNE.S CallDB ; yes, initialized, call 'em diff --git a/OS/StartMgr/StartFail.a b/OS/StartMgr/StartFail.a --- a/OS/StartMgr/StartFail.a +++ b/OS/StartMgr/StartFail.a @@ -287,23 +287,12 @@ CritErr MOVEM.L A0-A7/D0-D7,SERegs ; save all regs for debug <26Aug85> LSR.L #2,D3 ; Compute number of longs on screen. - if hasMMU then ; <1.7> - MOVEQ #true32b,D0 ; set 32-bit addressing mode - _SwapMMUMode ; - MOVE.B D0,-(SP) ; save the previous mode - endif ; <1.7> - MOVEQ #-1,D0 ; This should be black. @FillLoop MOVE.L D0,(A2)+ ; Fill a long. SUBQ.L #1,D3 ; Countdown. BHI.S @FillLoop ; Loop until done. - if hasMMU then ; <1.7> - MOVE.B (SP)+,D0 ; get the previous addressing mode back - _SwapMMUMode ; flip back to previous addressing mode - endif ; <1.7> - ; Okay, here are the values we still consider important at this point: ; ; A3 = pointer to the center of the screen. @@ -343,7 +332,7 @@ CritErr MOVEM.L A0-A7/D0-D7,SERegs ; save all regs for debug <26Aug85> BSR6 DeadMac ; plot the dead Mac icon -SkipDisplay BigJmp TMRestart,a0 ; go to Test Manager entry point <1.4><2.0><2.1> +SkipDisplay BRA.S * TinyTable DC.W $0000,$FFFF,$FFFF,$FFFF ; whiteColor DC.W $0000,$0000,$0000,$0000 ; black @@ -370,13 +359,6 @@ TinyTable DC.W $0000,$FFFF,$FFFF,$FFFF ; whiteColor ;----------------------------------------------------------------------------- FailData - if hasMMU then ; <1.7> - MOVEQ #true32b,D1 ; put in D1 for a second - EXG D1,D0 ; get true32b in D0, save D0 in D1 - _SwapMMUMode ; switch to 32-bit addressing - MOVE.B D0,-(SP) ; save the previous addressing mode - EXG D1,D0 ; get D0 back in D0 - endif ; <1.7> FailLoop ROL.L #4,D0 ; get nibble in low order @@ -409,11 +391,6 @@ chLoop MOVE.B (A1),D5 ; get the next byte DBRA D4,FailLoop ; loop until all characters are drawn - if hasMMU then ; <1.7> - MOVE.B (SP)+,D0 ; get the old addressing mode back - _SwapMMUMode ; restore the addressing mode - endif ; <1.7> - JMP (A6) ; return to caller ;---------------------------------------------------------------------------- @@ -458,12 +435,6 @@ DeadMac LEA SadMacIcon,A0 ;point to the "Sad Mac" icon <1.3> MOVE.L IconTLAddr,A2 ; figure out where the topLeft corner is <1.3> - if hasMMU then ; <1.7> - MOVEQ #true32b,D0 ; flip to 32-bit mode - _SwapMMUMode ; switch to 32-bit addressing - MOVE.B D0,-(SP) ; save the previous mode - endif ; <1.7> - MOVEQ #6,D1 ; move the icon down 6 lines <1.9> MULU D2,D1 ; <1.9> ADDA.L D1,A2 ; <1.3><1.9> @@ -476,10 +447,6 @@ DeadMac ADDA.W D2,A2 ; move down to the next screen line <1.3><1.9> DBRA D1,@BlastIcon ; keep looping until all 32 lines are copied<1.3><1.9> - if hasMMU then ; <1.7> - MOVE.B (SP)+,D0 ; switch back to previous addressing mode - _SwapMMUMode ; flip back - endif ; <1.7> RTS6 ; return to caller <1.3> diff --git a/OS/StartMgr/StartInit.a b/OS/StartMgr/StartInit.a --- a/OS/StartMgr/StartInit.a +++ b/OS/StartMgr/StartInit.a @@ -1135,6 +1135,42 @@ ioNuBusTTxlat EQU $500FC040 ; I/O space and nuBus $6-$7 with serialized wri IMPORT INITSCSIBOOT ENDIF +; CDG5 imports: + + IMPORT CheckSCSITargetCapable + IMPORT CodePrepare + IMPORT CodeRegister + IMPORT DebugInit + IMPORT DebugInit + IMPORT DeviceMgr_BCScreen + IMPORT DeviceMgr_BCScreen + IMPORT ExpansionBusMgrFirstFunc + IMPORT FindATADevices + IMPORT GestaltCudaFunc + IMPORT GetGrayPage + IMPORT GetRealProc + IMPORT InitATAMgr + IMPORT InitBCScreen + IMPORT InitBCScreen + IMPORT InitDeviceDispatch + IMPORT InitEtherPrintfLib + IMPORT InitExpansionMgr + IMPORT InitExpMgrVars + IMPORT InitFireWire + IMPORT InitLANDisk + IMPORT InitNativePowerMgr + IMPORT InitStorage + IMPORT InitSystemExperts + IMPORT InitUSB + IMPORT LoadNDRV + IMPORT LoadPCCardLib + IMPORT MoveUnivInfoToSysHeap + IMPORT MoveUnivInfoToSysHeap + IMPORT RSetKMap + IMPORT SearchDrivers + IMPORT SizeMemory + IMPORT WangBacklight + MyROM MAIN Export @@ -1145,16 +1181,11 @@ MyROM MAIN Export EXPORT InitDefGamma EXPORT InitSCC EXPORT OpensDrvr - EXPORT PMSPSwOS EXPORT RomLoc EXPORT StartBoot - EXPORT StartInit1 - EXPORT WDCBSwOS EXPORT TCOff EXPORT SetUpTimeK ; - EXPORT DynamicBoxFlag - ************************************************************************************************* * * * S T A R T O F R O M * @@ -1216,6 +1247,9 @@ GOOFYDoEject BRA.L DoEject ; branch island to eject code + STRING AsIs + DC.L 'Copyright (c) 1983-2002 Apple Computer, Inc. All Rights Reserved.' + ************************************************************************************************* * * @@ -1223,56 +1257,12 @@ GOOFYDoEject * * ************************************************************************************************* -TCOff dc.l 0 ; for turning off MMU below +TCOff dc.w 0 ; for turning off MMU below Start StartBoot MOVE #$2700,SR ; Disable processor interrupts. - IF NOT ROMinRAM THEN ; - sub.l d0,d0 ; D0 = 0 - bset #CACR_DE_040,d0 ; set Data Cache Enable bit on 040s - movec d0,CACR ; attempt to enable data cache (temporarily) - movec CACR,d0 ; check and see if it's still there - btst #CACR_DE_040,d0 ; see if the bit exists in CACR - beq.s @not040 ; IF we're on a 68040 THEN - - MACHINE MC68040 ; need this for the MOVEC D0,TC below - - cinva bc ; make sure caches are invalidated - sub.l d0,d0 ; clear d0 - movec d0,CACR ; disable both instruction and data caches - movec d0,TC ; make sure that the MMU is disabled - move.l #nuBusTTxlat,D0 ; get value to translate upper nuBus space - movec d0,DTT0 ; use serialized writes on this space - move.l #ioNuBusTTxlat,D0 ; get value to translate i/o and nuBus space - movec d0,DTT1 ; use serialized writes on this space - bra.s @not030 ; step around the rest of the 020/030 cache/tc stuff - - MACHINE MC68030 ; set it back to what works for 020/030 -@not040 ; ELSE - move.l #(1< ; <60>, check what WakeUp does, does it return here again after changing clock ? @@ -1287,11 +1277,12 @@ StartBoot MOVE #$2700,SR ; Disable processor interrupts. BSR6 JumpIntoROM ; init the hardware - IF hasPwrControls THEN ; If we're on a portable, - BigBSR6 PortableCheck ; check to see if we are coming out of sleep - ENDIF - BRA.L StartTest1 ; run new universal diagnostics -StartInit1 ; Jumped to from StartTest1. + MOVE #$2600,SP ; make a small 9.5k stack (not used) + MOVEQ #0,D7 + MOVEQ #0,D6 + MOVE #$11,D7 + BSR6 SizeMemory ; (CDG5) previously called by StartTest1 + MOVE.L (SP),A6 ; allocates fixed areas and returns table ;----- ; here, after running the diagnostics, we have: @@ -1367,12 +1358,7 @@ getHInfo move.l a6,-(sp) ; save regs BSR WhichCPU ; get CPU type in low word of d7 bsr WhichBoard ; get logic board type in hi word of d7 - btst.l #hwCbMMU+16,d2 ; HwCfgFlags in high word of d2 - bne.s @hasMMU ; yes, InitMMU - ; no, InitNonMMU - bsr InitNonMMU ; init a4,a5,a6 for non MMU based machines - bra.s @done - + ; (CDG5) do not bother with the no-mmu case any more @hasMMU bsr.l InitMMU ; generate MMU tables, enable MMU ; returns a4 -> BootGlobs @@ -1421,7 +1407,7 @@ getHInfo move.l a6,-(sp) ; save regs LEA HeapStart,A1 ; A1 <- pointer to end of system globals. BSR FillWithOnes ; Fill system globals with ones. - BSR InitRomVectors ; initialize ROM vectorization + BSR.L InitRomVectors ; initialize ROM vectorization MOVEM.L (SP)+,D0-D6/A0-A1 ; restore Universal info @@ -1440,7 +1426,7 @@ getHInfo move.l a6,-(sp) ; save regs MOVE.B D7,CpuFlag ; save type of CPU we have swap d7 ; - bsr DynamicBoxFlag ; Calculate the Boxflag based on Family type and CPU speed + ; (CDG5) removed call to DynamicBoxFlag: we are always NewWorld @StoreBox move.b d7,BoxFlag ; ... and save it in lomem @@ -1448,119 +1434,15 @@ getHInfo move.l a6,-(sp) ; save regs MOVE.L A5,BufPtr ; save the top of useable memory MOVE.L A6,MemTop ; and the top of available memory - ; Here, we check to see if a special bit is set on PRAM, which tells us rb, start - ; that the user want's his ROM to run from RAM for a slightly faster machine. - ; We copy the ROM image into RAM and then re-initialize vectorization with the new RAM/ROM. - - IMPORT PramIO - - MOVEM.L D0-D6/A0-A4,-(SP) ; save Universal info - CLR.W -(SP) ; make buffer space in stack for PRAM data - MOVE.L SP,A3 ; set buffer pointer - MOVE.L #(0<<31)|\ ; read PRAM command - (1<<16)|\ ; 1 byte please - (11<<0),D3 ; from address X - BSR.L PramIO ; read PRAM - MOVE.W (SP)+,D0 ; get the byte read from PRAM - ANDI.W #$0100,D0 ; let's see if bit 1 was set in our byte - BEQ.W NoROMinRAM ; if bit is clear, don't use RAM for the ROM - - LEA BaseOfRom,A0 ; set source address - MOVE.L A0,ROMBase ; save in ROMBase since it's not setup yet - MOVE.L $40(A0),D3 ; get the ROM size in D3 - SUBA.L D3,A5 ; Subtract the ROM size from BufPtr - MOVE.L A5,D0 ; let's make sure A5 is aligned - ANDI.L #$0000000F,D0 ; mask up to 15 bytes of mis-alignement - SUBA.L D0,A5 ; and adjust A5 for 16 byte alignment - MOVE.L A5,BufPtr ; and set the new BufPtr - MOVE.L A5,A1 ; set Destination address - - MOVE.L D3,D0 ; set count - MOVEQ.L #16,D2 ; set copy amount per loop (16 for non 040) - CMPI.B #cpu68040,CPUFlag ; are we in an 040 ? - BNE.S @CopyLongs ; if not, then copy longs only - MOVEQ.L #32,D2 ; set copy amount per loop - BRA.S @Copy16 ; do the copy thing, based on BlockMove040 - NOP ; no warnings please - - ALIGN 16 ; align with a cache line - MACHINE MC68040 ; for move 16 -@Copy16 - MOVE16 (A0)+,(A1)+ ; copy 16 bytes - SUB.L D2,D0 ; decrement our count by 32 bytes - MOVE16 (A0)+,(A1)+ ; copy another 16... - BHI.S @Copy16 ; and keep copying until we have 2 Meg - -@JumpIntoRAM - LEA InRAM,A0 ; get our address in RAM (almost) - MOVE.L ROMBase,D5 ; save old ROMBase in D5 rb - SUBA.L ROMBase,A0 ; get rid of the ROM offset - MOVE.L BufPtr,A5 ; get BufPtr (ROMBase soon) in a5 - MOVE.L A5,ROMBase ; set the new ROM base - ADDA.L A0,A5 ; add offset to InRAM routine - JMP (A5) ; and go there ! - NOP ; fill me in - -@CopyLongs - MOVE.L (A0)+,(A1)+ ; copy 4 bytes - MOVE.L (A0)+,(A1)+ ; copy 8 bytes - MOVE.L (A0)+,(A1)+ ; copy 12 bytes - MOVE.L (A0)+,(A1)+ ; copy 16 bytes - SUB.L D2,D0 ; decrement our count by 16 bytes - BHI.S @CopyLongs ; and copy more if nessesary - BRA.S @JumpIntoRAM ; now jump into RAM - NOP ; just for the fun of it. - - ALIGN 16 - -InRAM - BSR InitROMVectors ; re - initialize vectorization with new ROM addr - ; Now that the ROM vectors have been re-initialized from RAM, the actual table entries still rb, start - ; point to ROM since these were created at compile time. So now we need to adjust every entry - ; in the RAM copy of the tables so that it points to its RAM equivalent. From then on - ; InitROMVectors can be called and the RAM table entries will be used, as expected. - - MOVE.L #$2010,D0 ; get start address for ROM vector adjustments - SUB.L ROMBase,D5 ; adjust our saved ROMBase, D5 is now the difference -@WalkList - MOVE.L D0,A0 ; get vector address in a0 - MOVE.L (A0),D1 ; get the table address - CMPI.L #-1,D1 ; is it an empty table ? - BEQ.S @NextTable ; if so, try the next table - - MOVE.L D1,A1 ; get the table address in a1 - MOVE.L (A1),A2 ; get decription table in a2 - MOVE.L 8(A2),D3 ; get vector count for this table in D3 - -@AdjustEntry - SUB.L D5,(A1)+ ; adjust this entry so it points in the RAM copy of ROM - DBRA D3,@AdjustEntry ; fix all entries in this table - -@NextTable - ADDI.L #4,D0 ; add offset to next vector address - CMPI.L #$2104,D0 ; have we reached the current limit ? - BNE.S @WalkList ; if not the limit, keep looking - - SUB.L D5,UnivInfoPtr ; adjust the info record so int handlers are in RAM rb - -NoROMinRAM ; rb, end - MOVEM.L (SP)+,D0-D6/A0-A4 ; restore Universal info - ; DONE, WE ARE RUNNING FROM A RAM COPY OF ROM rb, end + ; (CDG5) no copy-ROM-to-RAM code: NewWorld ROM is always in RAM, + ; but the UnivInfoPtr reload below may have been kept just to be safe move.l UnivInfoPtr,a1 ; reload a1 in case the info record was adjusted in RAM rb bsr SetupHWBases ; setup the hardware base address low mems BSR InitSCC ; init the SCC - move.w d2,-(sp) ; save D2 around this call - BSR InitIWM - move.w (sp)+,d2 ; restore D2 - - IF NOT hasAsyncSCSI THEN ; we do HW init later with new SCSI Manager - bsr.l InitSCSIHw ; - ENDIF - - BSR.L InitSndHW ; go initialize the sound hardware + ; (CDG5) no InitIWM, legacy InitSCSIHw or InitSndHW needed for NewWorld bsr.l InitMMUGlobals ; set up MMU globals @@ -1584,13 +1466,7 @@ NoROMinRAM ; rb, end IF forRomulator THEN Moveq.l #$0,D0 ; Set up to disable the caches if we’re debugging. ELSE - cmp.b #cpu68040,CpuFlag ; check if we're on an 040 - bne.s @not040 ; NO ... enable 020/030 cache(s) - - move.l #(1< ENDWITH ; + BSR.L MoveUnivInfoToSysHeap ; (CDG5) UnivInfo generated by OF bootloader + BSR.L initGestalt ; (CDG5) initialize Gestalt much earlier than before + BSR.L CreateAltiVecBufForEmulator ; (CDG5) VRSAVE buffer? + BSR.L InitIntHandler ; initialize interrupt vectors and dispatch tables - BSR.L InstallPrivTrap ; setup FPPriv if there's an FPU - - BSR.L InitPmgrVars ; initialize Power Manager variables if on a portable - ; (otherwise disable all of its traps) BSR CheckForEgretOrCuda ; Do we have an Egret/Caboose/Cuda? BNE.S @EInitDone ; -> Nope, don't be callin' shit BSR.L InitEgretOrCuda ; Initialize Egret or Cuda Manager + BSR.L GestaltCudaFunc ; (CDG5) part of Gestalt @EInitDone @@ -1680,17 +1556,45 @@ BootRetry MOVE #$2700,SR ; disable interrupts ************************************************************************************************* - BSR InitSwitcherTable ; initialize Switcher's table (do we still need this?) + ; (CDG5) removed InitSwitcherTable (that's a table of lowmem global locations) - BSR GetPRAM ; get 20 bytes PRAM, and TIME - BSR SetPRAM32 ; Always set PRAM to 32bit BSR.L InitRSRCMgr ; initialize the Resource Manager BSR.L NMInit ; Initialize the Notification Manager - BSR.L InitTimeMgr ; Initialize the Time Manager CLR.W -(SP) ; pass the INIT message to ShutDown _ShutDown ; to initialize the queue + BSR.L InitExpMgrVars ; (CDG5) Expansion Mgr needs GoNative, so bring it up now + CASE ON + IMPORT GoNative + BSR.L GoNative ; Load all those NCODs! + CASE OFF + BPL.S @noPower ; -> No errors. Keep booting SAM + MOVE.W #dsGNLoadFail,D0 ; Fatal GoNative load error. + _SysError ; Put up a dialog and die. +@noPower + BSR.L CodeRegister ; (CDG5) these are all related + BSR.L CodePrepare + BSR.L ExpansionBusMgrFirstFunc + + BSR.L CompBootStackOld ; (CDG5) now we need a better stack and heap + MOVE.L A0,SP + SUBA.W #BootStackSize,A0 + _SetApplLimit + + BSR InitSystemExperts ; (CDG5) searches the System file for 'expt' resources + + CLR.L -(SP) ; who wrote this? + MOVE.L (SP)+,PmgrBase + MOVE.L ToolScratch,-(SP) + LEA.L SetUpTimeK,A0 + MOVE.L A0,ToolScratch + BSR InitNativePowerMgr ; (CDG5) NativePowerMgrLib: PMInitialize + BSR.L InitEtherPrintfLib ; (CDG5) packaged as Trampoline Parcel -- for debugging? + MOVE.L (SP)+,ToolScratch + + BSR GetPRAM ; (CDG5 moved) get 20 bytes PRAM, and TIME + BSR InitSlots ; inits slot cards, grays the screen(s) BSR.L InitDTQueue ; initialize the Deferred Task Manager Queue @@ -1708,7 +1612,10 @@ BootRetry MOVE #$2700,SR ; disable interrupts ; Gestalt must now be initialized before IO drivers RLM ;------------------------------------------------------------------------ - BSR.L initGestalt ; initialize Gestalt + ; (CDG5) Gestalt has actually moved up a few steps + + BSR.L RSetKMap ; (CDG5) ADB routine, used to be called at PwrMgr wakeup + BSR.L DebugInit ; (CDG5) part of PPC Debugger Nub moveq #10,D0 _NewHandle ,Sys,Clear ; Get space for a Heap utilities list @@ -1717,52 +1624,56 @@ BootRetry MOVE #$2700,SR ; disable interrupts move.l D0,$1E0C ; Stuff it in the magic location @noHU - Cmpi.b #cpu68040,CPUFlag ; Are we less than an 040? - Blo.s @no040BM ; Yes? Then use original BlockMove. - Move.w #$A02E,D0 ; BlockMove trap. - BigLea BlockMove68040,A0 ; New routine. - _SetTrapAddress ; Set new routine. + ; (CDG5) a special 68040 BlockMove used to get installed here @no040BM ;————————————————————————————————————————————————————————————————————— SAM ; Install Code Fragment Mangaer (GoNative) ;————————————————————————————————————————————————————————————————————— - MOVE.L #gestaltSysArchitecture,d0 ; Are we running on a PowerPC machine? SAM - _Gestalt - BNE.S @NoPower ; Error, assume 68k - CMP.W #gestaltPowerPC,A0 ; PowerPC? - BNE.S @NoPower ; -> Nope, assume 68k - - CASE ON - IMPORT GoNative - BSR.L GoNative ; Load all those NCODs! - CASE OFF - BPL.S @noPower ; -> No errors. Keep booting SAM - - MOVE.W #dsGNLoadFail,D0 ; Fatal GoNative load error. - _SysError ; Put up a dialog and die. -@noPower + ; (CDG5) nope, GoNative gets installed much earlier + + BSR.L INSTALLBASSCOMMON ; Init Bass before anyone calls _InitFonts (like _InitGraf) + BSR.L FORCEINITFONTSCALL ; More Bass init stuff + + BSR InitCrsrMgrMiddle + BSR.L InitCrsrDev ; initialize Cursor globals + ; (InitCrsrDev must preceed InitADB) ;---------------------------------------------------------------- ; Install Drivers (Disk, Sound, Video). ;---------------------------------------------------------------- + SUBQ #2,SP ; (CDG5) init Display Manager + MOVEQ.L #-1,D0 ; >hides the nanokernel log until QD comes up + _DisplayDispatch + ADDQ #2,SP + LEA DrvQHdr, A1 ; Initialize the drive queue. BSR.L InitQueue - BSR InitIOPStuff ; BSR InitDeviceMgr ; Init unit I/O table and install the drivers. - BSR LoadDrivers ; load the standard drivers + BSR.L InitDeviceDispatch ; (CDG5) trap AA6A, function unclear + + BTST.B #$6, ($2400) + BNE.B @definitely + BTst.B #$0, ($DD0) + BEQ.B @dont +@definitely + + BSR SetScsiIdFromPram ; taken from SCSIMgrInit.a BSR.L InitSCSIMgr ; Init old and new SCSI Mgrs +@dont + + BSR.L InitExpansionMgr ; (CDG5) manager poorly understood - BSR.L INSTALLBASSCOMMON ; Init Bass before anyone calls _InitFonts (like _InitGraf) - BSR.L FORCEINITFONTSCALL ; More Bass init stuff + BSR.L SearchDrivers ; (CDG5) + + BSR LoadDrivers ; load the standard drivers - BSR.L InitCrsrDev ; initialize Cursor globals - ; (InitCrsrDev must preceed InitADB) BSR.L InitADB ; initialize ADB interface + BSR.L InitUSB ; (CDG5) self-evident BSR InitCrsrMgr ; Initialize cursor variables @@ -1770,13 +1681,9 @@ BootRetry MOVE #$2700,SR ; disable interrupts ; Initialize Reliability Manager ;---------------------------------------------------------------- - BSR.L InitReliability ; initialize the Reliability Manager +; (CDG5) No, don't init the Reliability Manager - BSR CheckForEgretOrCuda ; call check routine - BNE.S @NoEgret ; Egret not installed - BSR.L EgretDFACandPDM ; install additional Egret features -@NoEgret - BSR CheckForResetPRAM ; see if PRAM needs to be nuked + BSR.L InitBCScreen ; (CDG5) BCScreen == geometry control? BSR.L TEGlobalInit ; initialize TextEdit vectors @@ -1814,11 +1721,7 @@ BootRetry MOVE #$2700,SR ; disable interrupts BSR DrawBeepScreen ; Horst Beepmanh’s patented gray screen ; On machines with Civic, check to see if we want to boot off the composite out - - TestFor CivicExists - Beq.s @NoCivic ; don't do it for Non-Civic Based cpu's - bsr CheckForTV ; see if we need to set the "Drive CompOut Flag" -@NoCivic +; (CDG5) no "Civic" composite video output MOVE.L #WmStConst,WarmStart ; write warm start constant to indicate warm start @@ -1830,40 +1733,40 @@ BootRetry MOVE #$2700,SR ; disable interrupts ; Initialize the Sound Manager ;---------------------------------------------------------------- - MOVEM.L A0-A2/A6/D0-D2,-(SP) ; save our important Address - - case obj - import InitSoundMgr - bsr.l InitSoundMgr - case off - - MOVEM.L (SP)+,A0-A2/A6/D0-D2 ; restore our important Address +; (CDG5) Sound Manager ripped out ;---------------------------------------------------------------- ; Initialize the File System. ;---------------------------------------------------------------- + BSR.L InitFireWire ; (CDG5) last chance to boot from FW? MOVE #40,D0 ; Inital number of file control blocks _InitFS + BTST #$1, $2409 + BEQ.B @dont_do_mysterious_thing + BSR.L LoadPCCardLib +@dont_do_mysterious_thing + ;---------------------------------------------------------------- ; <65>, Other Terror changes... ;---------------------------------------------------------------- - BSR.L SetupDockBases ; initialize docking bar base addresses

-* BSR.L SCSIDiskMode ; check if we should be in SCSI Disk Mode + BSR.L CheckSCSITargetCapable - IF hasAsyncSCSI THEN ; \/ - BSR.L ISITT ; check if we're running SCSI 4.3 - TST.B D0 ; are we? - BEQ.S @noAsyncSCSI ; -> no, don't don't initialize for new - ; style boot. + BTst.B #5, $2408 + BEQ.B @nodiskmode + BSR.L SCSIDiskMode ; check if we should be in SCSI Disk Mode +@nodiskmode + BSR.L INITSCSIBOOT ; allocate some memory for SCSI booting ; and load third party SIMs (SCSI Interface ; modules -@noAsyncSCSI - ENDIF ; /\ + + BSR.L InitATAMgr ; (CDG5) unclear workings + BSR.L FindATADevices + BSR InitStorage ************************************************************************************************* @@ -1953,58 +1856,8 @@ BootRetry MOVE #$2700,SR ; disable interrupts ;________________________________________________________________________________________ WhichCPU - MACHINE MC68020 - - moveq.l #2,d7 ; setup index to see if index scaling works - jmp @CheckIndexScale-2(d7.w*2) ; decide if scaling works - -@CheckIndexScale - bra.s @NoIndexScale ; 68000/68010 don't have index scaling - -@HasIndexScale ; 68020/68030/68040 do have index scaling - sub.l d7,d7 ; D7 = 0 (testing for 040) - - bset #CACR_DE_040,d7 ; set DE (data cache enable) in CACR - movec d7,CACR ; enable data cache - movec CACR,d7 ; IF CACR != 0 THEN we're on an 040 - bclr #CACR_DE_040,d7 ; see if the bit exists in CACR - movec d7,CACR ; put it back in cache reg - beq.s @notAn040 ; NO ... check for 020/030 - - MACHINE MC68040 ; YES ... needed to execute a 040 CINVA inst. - - cinva bc ; invalidate both caches, dont push data from d-cache - ; NOTE - I-cache is still enabled here - moveq #cpu68040,d7 ; return that we're running on an 040 - rts - - MACHINE MC68020 -@notAn040 - move.w #(1<>1,d7 ; setup to shift in ccr.x - addx.l d7,d7 ; d7 := 2 if 68020, d7 := 3 if 68030 - rts ; all done - -@NoIndexScale ; 68000/68010 don't have index scaling - move.l sp,d7 ; mark the stack - clr.w -(sp) ; fake a 68010 exception format word - bsr.s @doRTE ; push a return address, sr, and RTE back - exg.l d7,sp ; restore the stack - sub.l sp,d7 ; d7 := -2 if 68000, d7 := 0 if 68010 - addq.l #2,d7 ; d7 := 0 if 68000, d7 := 2 if 68010 - lsr.l #1,d7 ; d7 := 0 if 68000, d7 := 1 if 68010 - rts ; all done - -@doRTE move.w sr,-(sp) ; push the SR to complete exception frame - rte ; pop the exception frame and return - - SETMACHINE + moveq.l #2,d7 ; (CDG5) always return 68020 on PowerPC + rts ; (CDG5) no check ;________________________________________________________________________________________ @@ -2048,61 +1901,56 @@ WhichBoard swap d7 ; get CPU type in hi word ;________________________________________________________________________________________ SetUpTimeK - cmpi.b #cpu68040,CPUFlag ; check if running on one of those nasty 040s - blt.s @doIt + MoveM.L D1-D2/A1-A4, -(A7) + Move SR, -(A7) + OrI #$700, SR + Move.L ($64), -(A7) + BTst.B #$6, ($2400) + BNE.B L8 + BTst.B #$1, ($2400) + BNE L12 + Bra L13 +L8: MoveQ.L #$0, D0 + Move ([$68FFEFD0.L],$80), D0 -; If we are 040'ish, check if the Cache Switch has requested to disable processor -; caches. The Cache Switch CDEV sets PRAM location $8A bit 7 if caches will be -; disabled. We are taking the initiative here and THIS is the place we will turn -; OFF caches for the duration. We want to make sure that we do this BEFORE we -; calculate the timing values, as they will change depending on whether caches are -; on or off. + MoveM.L D0-D2/A0, -(A7) + MoveA.L ([$68FFEFD0.L],$18), A0 - movem.l d0-d3/a0-a3,-(sp) ; save registers before mucking around - move.l UnivInfoPtr,a1 ; retrieve ProductInfo record pointer - move.l a1,a2 ; leave A1 alone - call the routine with A2 - move.l a1,a0 ; leave A1 alone - get pointer in A0 for call - adda.l ProductInfo.ClockPRAMPtr(a2),a2; get pointer to primitives table - move.l 4*cpXPRAMIO(a2),d0 ; get the offset to the routine - beq.s @restore ; if no trap-less routine, then run with caches ON - add.l ProductInfo.DecoderInfoPtr(a1),a0; required for the PramIO call - adda.l d0,a2 ; form trapless _ReadXPram subroutine address - clr.w -(sp) ; make room on the stack - movea.l sp,a3 ; set up for call to _ReadXPRam - move.l UnivROMFlags,d1 ; D1, A0, A1, A3 need to set for StandardXPramIO - move.l #$0001008A,d3 ; 1 byte at $8A - jsr (a2) ; dont have traps yet. go there directly - move.w (sp)+,d0 ; get the byte - tst.w d0 ; check if top bit is set - bpl.s @restore ; top bit not set - run with caches on + Tst.L A0 + BNE.B L10 + MoveA.L ([$68FFEFF0.L],$100), A0 - MACHINE MC68040 - CPUSHA BC ; make sure return addresses make it to memory - MACHINE MC68020 - - moveq.l #0,d0 - movec d0,CACR ; turn OFF all caches -@restore - movem.l (sp)+,d0-d3/a0-a3 ; restore registers after mucking around -@doit - move.l AutoInt1,-(sp) ; Save current auto interrupt vector. - move.w sr,-(sp) ; Save current interrupt level. - ori.w #HiIntMask,sr ; disable interrupts - - TestFor GrandCentralExists ; Do we have a Grand Central - beq.b @viaIntsEnabled ; Nope, so carry on - movea.l UnivInfoPtr,a0 ; Get the GC base address from - adda.l ProductInfo.DecoderInfoPtr(a0),a0 ; the universal info - movea.l DecoderInfo.GrandCentralAddr(a0),a0 ; and then - ori.l #1< CompletedInts+1 +@dont + tst.w (a4) ; see if any more routines to time bne.s @nextRoutine ; time all routines in the table - eieioSTP move.b #(0< point to a VIA register - eieioSTP move.b d1,vT2C(A1) ; <40x008C0> load low order byte - eieioSTP move.b d2,vT2CH(A1) ; <40x008C4> load high order byte & go. - eieioSTP @loop btst.b #0,(A0) ; <40x008CA> typical VIA access loop dbra d0,@loop ; <40x008CE> time the VIA DBRA loop @@ -2312,13 +2177,20 @@ FillWithOnes ;________________________________________________________________________________________ CompBootStack + btst #$06,$240B + beq.s CompBootStackOld + move.l #$007EFFE0,A0 ; 8 M - 64 K - 32 b + rts + +CompBootStackOld move.l BufPtr,d0 ; get top useable memory move.l sysZone,a0 ; get start system heap sub.l a0,d0 ; get (top useable - sys heap start) lsr.l #1,d0 ; divide by two - andi.w #$FFFE,d0 ; force it to be even - add.l d0,a0 ; get sys heap + (top - sysHeap)/2 - suba.w #BootGlobalsSize,a0 ; leave room for QuickDraw stuff. + add.l a0,d0 ; get sys heap + (top - sysHeap)/2 + sub.w #BootGlobalsSize,d0 ; leave room for QuickDraw stuff. + andi.w #$FFF0,d0 ; force it to be even + move.l d0,a0 rts @@ -2406,17 +2278,6 @@ ConfigureRAM SetUpSysAppZone lea SysHeap,a0 ; point at normal system heap template - move.b MMFlags,-(sp) ; save the memory Manager flag - btst.b #MMSysHeap,MMFlags ; check type of System Heap - beq.s @do24 ; IF we want a 32 bit heap - bset.b #MMStartMode,MMFlags ; set for 32 bit system heap - btst.b #mmHighSysHeap,MMFlags ; check for the 'black hole' - beq.s @knowHeap ; IF we have 'black hole' between lowmem & sysHeap - lea SysHoleHeap,a0 ; get addr 'black hole' zone template - bra.s @knowHeap ; ENDIF -@do24 bclr.b #MMStartMode,MMFlags ; set for 24 bit system heap -@knowHeap ; ENDIF - _InitZone ; set up initial system heap Move.L theZone,SysZone ; save pointer to the new zone Move.L SysZone,RamBase ; setup RamBase to system heap @@ -2435,189 +2296,27 @@ SetUpSysAppZone MOVE.L SP,A0 ; Use the current sp when it’s lower @3 SUBA.W #BootStackSize,A0 ; Give ourselves some stack space _SetApplLimit ; Don't let the System Heap crash our stack - MOVE.B (SP)+,MMFlags ; restore memory manager flag - - _MoreMasters ; Create 768 master pointers at the bottom of SAM - _MoreMasters ; the heap. This is approximately the number of - _MoreMasters ; relocatable objects in the system heap for - _MoreMasters ; System 7.1 and a set of standard inits. - _MoreMasters ; (We need 6 calls to MoreMasters to get 768 of them. - ; _InitZone will create one block of "4*dfltMasters" - RTS ; MPs for us.) + + move.l d3,-(sp) + moveq.l #2,d3 +@trap_blk + _MoreMasters + _MoreMasters + _MoreMasters + _MoreMasters + _MoreMasters + _MoreMasters + _MoreMasters + _MoreMasters + dbf d3,@trap_blk + move.l (sp)+,d3 + rts SysHeap DC.L HeapStart DC.L HeapStart+SysZoneSize DC.W 4*dfltMasters ; Master Pointer allocation size = 128 (MPs) DC.L 0 -SysHoleHeap dc.l HoleSysHeap ; start address - dc.l HoleSysHeap+SysZoneSize ; size - dc.w 2*dfltMasters ; # master ptrs - dc.l 0 ; no growzone proc - - -;________________________________________________________________________________________ -; -; Routine: CheckForResetPRAM -; -; Inputs: none -; Outputs: none -; Trashes: D0, A0, A1 -; -; Function: if the cmd-option-R-P keys are down, it resets PRAM and then reboots the machine -; -; If the byte 76 contains a value of 2 in it then some of the PRAM information will be saved. -; If the value is any other value (0,1,3) then the value will be set to zero. -; The information which is saved is: -; all PassWord information (address/size) -; 04/04 PSWD -; 0E/02 pswd checksum and flags -; AB/03 PSWD -; All AUX information 40/06 A/UX -; Sensitive Boot Parms 76/01 Reserved for StartMgr -; Default OS Type 77/01 Default OS -; Default Boot Device 78/04 Default Boot Device -;________________________________________________________________________________________ - -CheckForResetPRAM - -ck4rpRegs REG D1-D2 - -; hi-byte == size, lo-byte == address -PSWDPRAM equ $00040004 ; 4 bytes at password location $04 -PSWDChkFlg equ $0002000E ; 2 bytes at password location $0E ($0E = Checksum, $0F = Flags) -AUXPRAM equ $00060040 ; 6 bytes at A/UX location $40 -OSTypePRAM equ $00020076 ; 2 bytes at Default OS $76 ($76 = reserved/save PRAM or not, $77 = Default OS) -ClearPRAM equ $00010076 ; 1 byte at reserved byte (used if value is 1 or 3) -DefBoot equ $00040078 ; 4 bytes at Default Boot Device $78 -PSWDspace equ $000400AB ; 4 bytes at password location $AB (only use 3, but I alocate 4 on the stack) -PSWDmore equ $000300AB ; the actual 3 bytes which I use at location $AB - - movem.l ck4rpRegs, -(sp) ; \/ \/ \/ - - bsr Ck4LimitPRAMClear ; supposed to allow bypassing security with reset? - sne D2 ; D2=true if limit clear - ; /\ /\ /\ - lea @Keys,a1 ; keys to check for - lea KeyMap,a0 ; compare to the Key Down Map - moveq.l #4-1,d0 ; compare loop count -@loop cmpm.l (a0)+,(a1)+ ; check for exactly this combo - dbne d0,@loop ; examine the entire key map - bne.s @noMatch ; if not equal, don't reset PRAM - - tst.b D2 - beq.s @normNuke - bra.s @savesome -@noMatch - movem.l (sp)+, ck4rpRegs - rts ; otherwise, just return - - -; \/ \/ \/ \/ Save security-related items (mainly for AIX) thru next - -@savesome - subq.w #PSWDPRAM>>16,sp ; allocate buffer on stack - movea.l sp,a0 ; get buffer ptr - move.l #PSWDPRAM,d0 ; get #, addr PRAM bytes - _ReadXPram ; read the PSWD info - - subq.w #PSWDChkFlg>>16,sp ; - movea.l sp,a0 ; - move.l #PSWDChkFlg,d0 ; - _ReadXPram ; read the PSWD checksum & Flags - - subq.w #PSWDspace>>16,sp ; - movea.l sp,a0 ; - move.l #PSWDmore,d0 ; - _ReadXPram ; read the PSWD info - - subq.w #AUXPRAM>>16,sp ; - movea.l sp,a0 ; - move.l #AUXPRAM,d0 ; - _ReadXPram ; read the AUX info - - subq.w #OSTypePRAM>>16,sp ; - movea.l sp,a0 ; - move.l #OSTypePRAM,d0 ; - _ReadXPram ; read the Default OS - - subq.w #DefBoot>>16,sp ; - movea.l sp,a0 ; - move.l #DefBoot,d0 ; - _ReadXPram ; read the Default Boot Device - -; /\ /\ /\ /\ from prev - -@normNuke subq.w #RelPram>>16,sp ; - movea.l sp,a0 ; - move.l #RelPram,d0 ; - _ReadXPram ; read the reliability MGR info - - ; kill signatures in extended and old PRAM so that InitUtil writes default values out - - movea.l a1,a0 ; point to table data - move.l (a0)+,d0 ; get PRAM len/addr, point to data - _WriteXPRam ; kill the extended PRAM signature - lea SysParam,a0 ; standard PRAM buffer address - moveq.l #-1,d0 ; mask/data to write - move.b d0,(a0) ; kill the signature in the buffer - _WriteParam ; write the buffer to PRAM - - _InitUtil ; Init PRAM - - movea.l sp,a0 ; - move.l #RelPram,d0 ; - _WriteXPram ; restore the reliability MGR info - adda.w #RelPram>>16,sp ; clean up the stack - - tst.b D2 ; flag set telling us not to clear everything? - beq.s @normNuke3 ; no-> don't restore them (we didn't save them earlier) - -; \/ \/ \/ \/ Restore security-related items thru next - - movea.l sp,a0 ; get buffer ptr - move.l #DefBoot,d0 ; get #, addr PRAM bytes - _WriteXPram ; restore the Default Boot Device - adda.w #DefBoot>>16,sp ; clean up the stack - - movea.l sp,a0 ; - move.l #OSTypePRAM,d0 ; - _WriteXPram ; restore the Default clean of OS - adda.w #OSTypePRAM>>16,sp ; - - movea.l sp,a0 ; - move.l #AUXPRAM,d0 ; - _WriteXPram ; restore the AUX info - adda.w #AUXPRAM>>16,sp ; - - movea.l sp,a0 ; - move.l #PSWDmore,d0 ; - _WriteXPram ; restore the PSWD info - adda.w #PSWDspace>>16,sp ; - - movea.l sp,a0 ; - move.l #PSWDChkFlg,d0 ; - _WriteXPram ; restore the PSWD Checksum & Flags - adda.w #PSWDChkFlg>>16,sp ; - - movea.l sp,a0 ; - move.l #PSWDPRAM,d0 ; - _WriteXPram ; restore the PSWD info - adda.w #PSWDPRAM>>16,sp ; - -; /\ /\ /\ /\ from prev - -@normNuke3 bra Start ; re-boot the machine - - -@Keys dc.l $00800000 ; R - dc.l $08008004 ; P, Cmd, Opt - dc.l $00000000 - dc.l $00000000 - - dc.l $0004000C ; XPRAM signature len/addr - dc.l 'Gone' ; invalidate XPRam signature with this - ;________________________________________________________________________________________ ; @@ -2665,54 +2364,6 @@ GetPRAM _InitUtil ; seed low memory PRAM buffer RTS -;________________________________________________________________________________________ -; -; Routine: SetPRAM32 -; -; Inputs: none -; Outputs: none -; Trashes: none -; -; Function: force Memory Manager start mode to 32-bit mode -;________________________________________________________________________________________ - -SetPRAM32 movem.l a0/d0,-(sp) ; save a0 and d0 - subq.l #4,sp ; create space on stack - move.l sp,a0 ; get pointer to useful buffer - - MOVE.L #$1008a,d0 ; Command to read 1 byte at addr 8a - _ReadXPRam ; - - move.l sp,a0 ; get pointer to useful buffer - ori.b #5,(a0) ; set PRAM to 32 bit mode - MOVE.L #$1008a,d0 ; Command to write 4 bytes at addr 8a - _WriteXPRam ; - addq.l #4,sp ; dispose space on stack - movem.l (sp)+,a0/d0 ; restore a0/d0 - rts - -;________________________________________________________________________________________ -; -; Routine: InitNonMMU -; -; Inputs: A6 - pointer to memory table in high memory -; -; Outputs: A4 - points to memory table -; A5 - points to top of useable RAM -; A6 - points to top of total RAM -; -; Trashes: none -; -; Function: sets up A4, A5, A6 for non-MMU based machines and points jSwapMMU to an RTS. -;________________________________________________________________________________________ - -InitNonMMU move.l a6,a4 ; get ptr to memory table - move.l (a4),a6 - add.l 4(a4),a6 ; calculate top of all memory - move.l a6,a5 ; top useable memory = top all memory - rts - - ************************************************************************************************* * * @@ -2804,18 +2455,7 @@ InitGlobalVars ; jump table. ; Move.l ROMBase,A0 ; Get ROMBase - TestFor ASCExists ; Do we really have an ASC? - Beq.s @noASC ; -> No. Set SoundBase = ROMBase - Move.l ASCBase, A0 ; We do have an ASC. Get its base from universal -@noASC Move.l A0,SoundBase ; Set up SoundBase - - IF ROMinRAM THEN - CMPI.L #$40800000,SoundBase ; if running from RAM, Set sound base to ROM rb - BHI.S @BaseOK ; if SoundBase points to higher than 40800000 rb - MOVE.L #$40800000,SoundBase ; is ok, otherwise point to real ROM rb -@BaseOK ; rb - ENDIF ;-------------------------------------- LEA VBLQueue,A1 @@ -2938,6 +2578,11 @@ InitCrsrMgr MOVE.L #$000F000F,D0 move.l (a1)+,(a0)+ ; move the bytes in move.l (a1),(a0) + RTS + +MouseBytes dc.b 4,10,15,255,255,83,77,72 + +InitCrsrMgrMiddle LEA GrafEnd,A1 ; end of cursor globals BigLea CrsrDevHandleVBL,A0 ; install cursor VBL task MOVE.L A0,-(A1) ; JCrsrTask @@ -2962,113 +2607,6 @@ InitCrsrMgr MOVE.L #$000F000F,D0 MOVE.W D0,CrsrNew ; flag cursor as changed, turn on tracking MOVE.L D0,MouseMask ; No jerkiness with $FFFFFFFF mask - IF forTNTDebug THEN -; set up a Time Manager task to call jVBLTask - -initDummyVBL - moveq.l #tmXQSize, d0 ; allocate a block in the system heap - _NewPtr ,SYS,CLEAR ; to hold the Time Manager task structure - lea dummyVBL, a1 - move.l a1, tmAddr(a0) - move.l #'eada', (a0) ; identify queue type to VM - _InsXTime - move.l #-16626, d0 - move.l jPrimeTime, a1 - jmp (a1) - - RTS - -dummyVBL - movea.l a1, a0 - move.l #-16626,d0 ; 60.15 Hz - movea.l jPrimeTime, a1 - move.l jCrsrTask,-(sp) ; return address from PrimeTime to CrsrTask - jmp (a1) ; restart time manager task - ENDIF - - RTS - -MouseBytes dc.b 4,10,15,255,255,83,77,72 - - -;________________________________________________________________________________________ -; -; Routine: InitSwitcherTable -; -; Inputs: none -; Outputs: none -; Trashes: A0,A1 -; -; Function: Installs a table telling Switcher what low memory locations to save/restore -; between applications in addition to the Switcher's own table (but always -; including the dispatch table). The Switcher's table: -; -; $100: $02 bytes (monkey lives) -; $108: $14 bytes (MemTop, BufPtr, StkLowPt, HeapEnd, TheZone) -; $130: $04 bytes (ApplLimit) -; $15C: $04 bytes (SEvtEnb, DSWndUpdate, FontFlag, IntFlag) -; $2AA: $04 bytes (ApplZone) -; $31E: $22 bytes (MinStack, DefltStack, mmDefFlags, GZRootHnd, GZRootPtr, -; GZMoveHnd, DSDrawProc, EjectNotify, IAZNotify). -; $800: $2FC bytes (ToolBox globals) -; -; Table defining our additional switchables -; -; Format is: -; address (word), byte count (word) ; save bytecount bytes at address -; . -; . -; 0 (longword) ; terminates list -;________________________________________________________________________________________ - -OurSwitch DC.W OSTable, 4*numOStrap ; OS dispatch table - DC.W ToolTable, 4*numTBtrap ; Toolbox dispatch table - DC.W $0B80, $26 ; new switchables - DC.W $0BAE, $52 ; new switchables - DC.W HFSFlags, 2 ; TFS flags (PMSP status) & Cache flags - DC.W DefVRefNum, 2 ; Default VRefNum/WDRefNum - DC.W DefVCBPtr, 4 - DC.W ScrDmpEnb, 2 - DC.W CurDirStore,4 - DC.W MBProcHndl, 4 - - DC.W $0100, $0002 ; SysCom//MonkeyLives - DC.W $0108, $0014 ; memtop,bufptr,stklowpt,etc. - DC.W $015C, $0004 ; SEvtEnb,DSWndUpdate,FontFlag,IntFlag - DC.W $031E, $0022 ; MinStack,DefltSTack,mmDefFlags,etc. - DC.W $0800, $02FC ; toolbox globals,etc. - DC.W ApplLimit, $0004 - DC.W ApplZone, $0004 - DC.W AuxWinHead, $0004 - DC.W AuxCtlHead, $0004 - DC.W BNMQHd, $0004 - DC.W MenuCInfo, $0004 - DC.W MenuDisable,$0008 - DC.W theGDevice, $0004 - -WDCBSwitch DC.W 0,0,0 ; WDCB table -PMSPSwitch DC.W 0,0,SPHdrSize-2 ; PMSP hook - DC.W 0,0 ; terminate with a long of zeroes -SwitchLen EQU *-OurSwitch - -;---------------------------------------------------------------- -; These constant values are stored in ROM rather than defined as EQUs for -; use at compile time simply because we have a brain-damaged (c.f. Jobs on HP) -; development system. -;---------------------------------------------------------------- -WDCBSwOS DC.W WDCBSwitch-OurSwitch -PMSPSwOS DC.W PMSPSwitch-OurSwitch - - -InitSwitcherTable - MOVEQ #SwitchLen,D0 ; allocate a switcher table in - _NewPtr ,SYS,CLEAR ; the system heap - MOVE.L A0,A1 ; make it the destination - LEA OurSwitch,A0 ; template table - MOVEQ #SwitchLen,D0 ; copy it - needs to be updated with - _BlockMove ; WDCBSwitch, PMSPSwitch later - - MOVE.L A1,SwitcherTPtr ; Set the pointer up for Switcher RTS @@ -3181,6 +2719,11 @@ SetupMiscSCSI bra.s @SCSIHskDone @80based ENDIF + + + btst.b #6, ($2400) + bne.b @SCSIHskDone + btst.l #SCSIDackExists,d0 ; see if we have SCSI Dack bne.s @SCSIDackDone ; if we do, it's setup ok move.l SCSIHsk,SCSIDMA ; if not, use hsk instead @@ -3222,37 +2765,6 @@ InitSlots BSR.L InitSDTbl ; init slot int dispatch table BRA Critical ; Critical error -;________________________________________________________________________________________ -; -; Routine: InitIOPStuff -; -; Inputs: none -; Outputs: none -; Trashes: ??? -; -; Function: initializes the I/O system by building the Unit Table and issuing initialization -; calls to all the component drivers. -;________________________________________________________________________________________ - -InitIOPStuff - IF IopADB | hasIopScc | hasIopSwim THEN - BSR.L InitIOPMgr ; fire up the IOP manager - IF hasIopSWIM THEN - TestFor SWIMIOPExists ; see if we have a SWIM IOP - beq.s @noSwimIOP ; if not, skip it - BSR.L EnableSwimIOPInts ; Enable SWIM IOP interrupts -@noSwimIOP - ENDIF - IF hasIopScc THEN - TestFor SCCIOPExists ; see if we have a SCC IOP - beq.s @noSCCIOP ; if not, skip it - BSR.L SCCIOPBypass -@noSCCIOP - ENDIF - ENDIF - rts - - ;________________________________________________________________________________________ ; ; Routine: InitDeviceMgr @@ -3269,7 +2781,7 @@ InitDeviceMgr ; Compute the size of the unit table and allocate it. MOVEQ #UnitEntries,D0 ; get number of entries in unit table MOVE.W D0,UnitNtryCnt ; save for IOCore checking - MOVE.L #MaxUTEntries*4,D0 ; reserve more memory so table can grow + MOVE.L #MaxUTEntries*2,D0 ; reserve more memory so table can grow _NewPtr ,SYS,CLEAR ; allocate it and zero out the memory MOVE.L A0,UTableBase ; and save its address @@ -3295,55 +2807,6 @@ LoadDrivers MOVE.L SP,A0 CLR.B IOPermssn(A0) ; r/w permissions - IF hasNewAge THEN - TestFor NewAgeExists ; do we have a NewAge? - Beq.S @NoNewAge ; no ? then try old floppy - - move.l SP,A0 ; iopb on stack - clr.b IOPermssn(A0) ; clear r/w permissions - lea NewAgeName,a1 ; get new age driver name - move.l a1,IOFileName(a0) ; set it up - _Open ; and open the driver -@NoNewAge - ENDIF - - TestFor IWMExists ; do we have an IWM or SWIM? - IF hasIopSwim THEN - BNE.S @OpenSony ; -> yes, open the driver - TestFor SWIMIOPExists ; how about an IOP-based version? - ENDIF - - IF hasSwim3 THEN - BNE.S @OpenSony ; -> yes, open the driver - TestFor SWIM3Exists ; how about a SWIM3 based version? - ENDIF - BEQ.S @NoFloppy ; -> nope, no floppy controller - -@OpenSony - MOVE.L SP,A0 ; iopb on the stack - CLR.B IOPermssn(A0) ; r/w permissions - LEA DiskName,A1 - MOVE.L A1,IOFileName(A0) - _Open ;OPEN Floppy disk driver - -; -;————————— NetBoot Driver ————————— -; -@NoFloppy - IF hasNetBoot THEN - SUBQ.W #4,SP - MOVE.L #'DRVR',-(SP) ; resource type - PEA NetBootName ; resource name - _GetNamedResource ; try to get the handle to the .netBoot driver - TST.L (SP)+ ; does the driver exist? - BEQ.S @NoNetBoot ; -> no, try don't open it - - LEA NetBootName, A1 - MOVE.W #49,D2 ; and resource ID - BSR InstallDriver ; go install the driver -@NoNetBoot - ENDIF - ; ;————————— RAM Disk Driver ————————— ; @@ -3351,42 +2814,73 @@ LoadDrivers ; to enable the EDisk, make sure that it is included in the rom resources IF hasEDisk THEN - LEA EDiskName,A1 - MOVE.W #48,D2 ; and resource ID + LEA.L EDiskName,A1 + MOVEQ.L #$30,D2 ; and resource ID BSR InstallDriver ; go install the driver ENDIF - IF NOT forTNTDebug THEN + +; +;————————— LAN Disk Driver ————————— +; + + BSR InitLANDisk ; (CDG5) NewWorld network boot + + +; +;————————— BCScreen Driver ————————— +; + + + IF hasBCScreen THEN + + SUBQ.L #2,SP + MOVE.L SP,-(SP) + MOVE.L #$3FF,-(SP) + MOVE.L #$36,-(SP) + CLR.L -(SP) + PEA.L BCScreenName + MOVE.L #-16515, -(SP) + BSR.L LoadNDRV ; (CDG5) + DC.W $DEFC, $001A + ;ADDA #$1A, A7 + + ENDIF + + ; -;————————— Sound Driver ————————— +;————————— Backlight Driver ————————— ; - IF hasDSP THEN - TestFor DSPExists ; If we have a DSP, we assume we're doing sound through it. - BNE.s @DoneSoundDriver ; if we have a Cyclone/DSP then don't load sound driver - ENDIF - - MOVE.L SP,A0 ; iopb on the stack - CLR.B IOPermssn(A0) ; r/w permissions - LEA SndName,A1 - MOVE.L A1,IOFileName(A0) - _Open ; OPEN sound driver -@DoneSoundDriver - ENDIF - - MOVE.L SP,A0 ; iopb on the stack - CLR.B IOPermssn(A0) ; r/w permissions - BSR FROVideo ; open the default video driver and setup video globals - LEA IOQElSize(SP),SP ; deallocate parameter block for device manager calls. IF hasPwrControls THEN - TestFor hwCbPwrMgr ; <61>, is this a Power Mgr mac ? - beq.s @noBacklight ; <61>, if not, skip - LEA BacklightName,A1 ; get the backlight driver's name + BTst.B #$0, (HWCfgFlags) + BEQ.B @noBacklight + BTst.B #$6, ($2409) + BNE.B @noBacklight + Move.L #'only', -(A7) + LEA.L BacklightName,A1 ; get the backlight driver's name MOVE.W #-16511,D2 ; and resource ID BSR InstallDriver ; go install the driver + AddQ #$4, A7 @noBacklight - ENDIF + MoveA.L A7, A0 + Clr.B $1B(A0) + Bsr FROVideo + Lea.L $32(A7), A7 + BTst.B #$6, ($2409) + BEQ.B @skipALine + Bsr.L WangBacklight +@skipALine + + BTst.B #$3, ($DD3) + BEQ @exitDrivers + ENDIF + + + + + ; ;————————— Serial Drivers ————————— @@ -3398,21 +2892,30 @@ LoadDrivers ; table, remaining closed and inactive until opened by a client. subq #4,sp ; allocate space for return value - move.l #'SERD',-(sp) ; push serial driver resource type - - TestFor SerialDMA - bne.b @SerialDMA - clr.w -(sp) ; classic serial driver is 'SERD' (0) - bra.b @CallSERD -@SerialDMA move.w #1,-(sp) ; SerialDMA driver is 'SERD' (1) - -@CallSERD move.w #mapTrue,ROMMapInsert ; get resource from ROM + move.l #'nsrd',-(sp) ; push serial driver resource type + move.w #1,-(sp) ; SerialDMA driver is 'SERD' (1) + move.w #mapTrue,ROMMapInsert ; get resource from ROM _GetResource move.l (sp)+,d0 ; did it get the handle? beq.b @exitDrivers - movea.l d0,a0 - movea.l (a0),a0 - jsr (a0) ; call the install code + movea.l d0,a2 + movea.l (a2),a1 + SubQ #$4, A7 + Move.L A2, -(A7) + dc.w $a9a5 ; _SizeResource + Move.L (A7)+, D1 + Move.L D1, D0 + dc.w $A440 ; _ResrvMemSys + Move.L D1, D0 + _NewHandle ,Sys + Move.L A0, D0 + BEQ.B (* + $E) + _HLock + Move.L D1, D0 + MoveA.L (A0), A1 + MoveA.L (A2), A0 + _BlockMove + jsr (a1) ; call the install code @exitDrivers rts @@ -3420,8 +2923,6 @@ LoadDrivers STRING PASCAL -DiskName DC.W '.Sony' - SndName DC.W '.Sound' ; IF hasEDisk THEN @@ -3439,6 +2940,12 @@ BacklightName DC.W '.Backlight' ENDIF + IF hasBCScreen THEN +BCScreenName + DC.W '.BCScreen' ; (CDG5) + ENDIF + + STRING ASIS @@ -3480,11 +2987,34 @@ DrawBeepScreen ; of the menu bar (because the screen background is white on LCD screens vs black on CRTs) BSR.L LCDScreenChk ; is this an LCD screen ? - BEQ.S @DoNormalBeepScreen ; -> no, do the normal stuff + BEQ.B @DoNormalBeepScreen ; -> no, do the normal stuff + CLR.B ntsc + PEA ScreenBits+bounds(A2) ; screen rectangle + CLR.B -(SP) + JSR GetGrayPage + TST.B (SP)+ + BNZ.B @graypage_returned_nonzero + +;graypage_returned_zero PEA gray(A2) ; fill pattern - _FillRect ; fill the screen with 50% gray + BRA.B @graypage_endif + +@graypage_returned_nonzero + MOVE.L ExpandMem,A0 + ST.B $341(A0) + PEA @GrayColor + _RGBForeColor + PEA black(A2) + +@graypage_endif + + _FillRect + + MOVEQ #5,D0 + DC.W $ABE0 ; QDExtensions2, ?showCursor selector + RTS @DoNormalBeepScreen ENDIF ; @@ -3510,11 +3040,27 @@ DrawBeepScreen _PenNormal ; restore the pen + PEA @GrayColor + _RGBForeColor + + MOVE.L #$00100010, -(SP) ; rounding factor + PEA black(A2) ; fill pattern + BRA.B @skipOldPatternSelection + MOVE.L #$00100010, -(SP) ; rounding factor PEA gray(A2) ; fill pattern +@skipOldPatternSelection _FillRoundRect ; fill the screen with 50% gray + + MOVEQ #5,D0 + DC.W $ABE0 ; QDExtensions2, ?showCursor selector + RTS +@GrayColor + DC.W $8888, $8888, $8888 + + ;________________________________________________________________________________________ ; @@ -3536,8 +3082,33 @@ FROVideo MOVE.L A0,A1 ; save the param block pointer for _Open LINK A6,#-spBlockSize ; allocate space for a slot parameter block MOVE.L SP,A0 ; and point to it - BSR.S OpnVidDeflt ; open the default video device, set video params - BEQ.S @End ; -> got it + BTST.B #6, ($240B) + BEQ.B @TryDefault + + MoveM.L D0-D7/A0-A4, -(A7) + Move.L ($1FB8), -(A7) + MoveA.L ($2b6), A3 + MoveA.L $1E0(A3), A3 + Move.L $C(A3), -(A7) + Lea.L InitVidDeflt_RTS, A2 + Move.L A2, ($1FB8) + Move.L A2, $C(A3) + SubQ #$2, A7 + Clr.L -(A7) + Move #$2EB, D0 + _DisplayDispatch + Move (A7)+, D0 + MoveA.L ($2b6), A3 + MoveA.L $1E0(A3), A3 + Move.L (A7)+, $C(A3) + Move.L (A7)+, ($1FB8) + Tst D0 + MoveM.L (A7)+, D0-D7/A0-A4 + BNE.B @End + +@TryDefault + BSR OpnVidDeflt ; open the default video device, set video params + BEQ @End ; -> got it ; the default video device is bad, so go search for a video sRsrc... @@ -3553,23 +3124,26 @@ FROVideo MOVE.L A0,A1 ; save the param block pointer for _Open @NextVidsRsrc _sNextTypesRsrc ; search for a video sRsrc - BNE.S @FakeIt ; -> couldn't find one, so allocate a dummy screen + BNE @End ; -> couldn't find one, so allocate a dummy screen + BSR OpensDrvr ; open the video driver + BNE.S @NextVidsRsrc ; -> couldn't do it, so go look some more + + MOVE $18(A1), -(SP) BSR RdVidParam ; read the video parameters + TST D0 BNE.S @NextVidsRsrc ; -> error, so go search some more - BSR OpensDrvr ; open the video driver - BNE.S @NextVidsRsrc ; -> couldn't do it, so go look some more - BSR InitVidDeflt ; initialize the default video device BNE.S @NextVidsRsrc ; -> error during initialization, so go looking + BRA.S @End + + BSR InitDummyScreenWrapper + @End UNLK A6 ; get rid of the slot parameter block RTS -@FakeIt BSR InitDummyScreen ; allocate a dummy screen, GDevice - BRA.S @End ; and return - ;________________________________________________________________________________________ ; @@ -3604,12 +3178,14 @@ OpnVidDeflt MOVE.L A0,A2 ; save A0 CMP.W #DrSwApple,spDrvrSW(A0) ; does it have an Apple driver interface (software only)? BNE.S @Error ; -> no, keep on searching - BSR.S RdVidParam ; a video sRsrc was found, so read the video parameters - BNE.S @Error ; -> error during the read - BSR OpensDrvr ; open the video driver BNE.S @Error ; -> couldn't do it + MOVE $18(A1), -(SP) + BSR RdVidParam ; a video sRsrc was found, so read the video parameters + TST D0 + BNE.S @Error ; -> error during the read + BSR InitVidDeflt ; initialize the default video device @Error RTS @@ -3629,7 +3205,8 @@ OpnVidDeflt MOVE.L A0,A2 ; save A0 ; then saved in low memory as needed. ;________________________________________________________________________________________ -RdVidParam MOVEM.L A1-A2/D3,-(SP) +RdVidParam LINK A6, #-$94 + MOVEM.L A0-A2/D3,-(SP) MOVE.B spId(A0),D3 ; save the ID CLR.B spExtDev(A0) ; no external devices @@ -3651,6 +3228,7 @@ RdVidParam MOVEM.L A1-A2/D3,-(SP) @gotBase MOVE.L spResult(A0),ScreenBytes ; save it MOVE.B D3,spId(A0) ; restore the sRsrc ID + MOVE $18(A1), -(SP) BSR GetDefVidMode ; get the default video mode MOVE.B D0,spId(A0) ; and save it @@ -3686,9 +3264,9 @@ RdVidParam MOVEM.L A1-A2/D3,-(SP) MOVEQ #0,D0 ; no errors @End MOVE.B D3,spId(A0) ; restore ID for caller - MOVEM.L (SP)+,A1-A2/D3 - TST.W D0 - RTS + MOVEM.L (SP)+,A0-A2/D3 + UNLK A6 + RTD #2 @Error MOVEQ #1,D0 ; bad video card (woof) BRA.S @End @@ -3755,34 +3333,76 @@ OpensDrvr MOVE.L A2,-(SP) ;________________________________________________________________________________________ InitVidDeflt - MOVEM.L D1-D2/A0-A1,-(SP) ; save all registers - CLR.L -(SP) ; make room for GDevice handle - MOVE ioRefNum(A1),-(SP) ; push the device's refNum - - BSR.S GetDefVidMode ; get the default video mode - MOVE.L D0,-(SP) ; and push it - - _NewGDevice ; allocate a new GDevice (in the system heap) - ;strips refNum and video mode - MOVE.L (SP)+,A0 ;save current device in A0 - -; install default video card as primary display device - - MOVE.L A0,TheGDevice ; make this the default destination - MOVE.L A0,DeviceList ; make this device head of list - MOVE.L A0,MainDevice ; make it the main device - MOVE.L A0,SrcDevice ; make it the default source for copyBits - MOVE.L A0,CrsrDevice ; make it the one owning the cursor - MOVE.L (A0),A1 ; point to this device - ORI.W #$B800,GDFlags(A1) ; set flags: ScrnActive,MainScrn,ScreenDevice,Allinit + MOVEM.L D1-D2/A0-A3,-(SP) ; save all registers + SubQ #$4, A7 + MoveA.L A7, A2 + Move $18(A1), -(A7) + Bsr GetDefVidMode + Move.L ($1FB8), -(A7) + MoveA.L ($2b6), A3 + MoveA.L $1E0(A3), A3 + Move.L $C(A3), -(A7) + Lea.L InitVidDeflt_RTS, A3 + Move.L A3, ($1FB8) + Move.L A3, (12) + SubQ #$4, A7 + MoveA.L A7, A3 + SubQ #$2, A7 + Move.L A3, -(A7) + Move $18(A1), -(A7) + Move.L D0, -(A7) + Clr.L -(A7) + Clr.L -(A7) + Clr.L -(A7) + Clr.L -(A7) + Move #$D23, D0 + _DisplayDispatch + Move (A7)+, D0 + MoveA.L (A7)+, A3 + Tst D0 + BNE.B @skip + SubQ #$2, A7 + Move.L A3, -(A7) + Move.L A2, -(A7) + Clr.B -(A7) + Move #$51F, D0 + _DisplayDispatch + Tst (A7)+ + BNE.B @skip + SubQ #$2, A7 + Move.L A3, -(A7) + Clr.L -(A7) + Move #$40B, D0 + _DisplayDispatch + Tst (A7)+ + BNE.B @skip + SubQ #$2, A7 + Move.L (A2), -(A7) + Move.L A2, -(A7) + Clr.B -(A7) + Move #$520, D0 + _DisplayDispatch + Tst (A7)+ + BNE.B @skip + MoveA.L (A2), A0 +@skip + MoveA.L ($2b6), A3 + MoveA.L $1E0(A3), A3 + Move.L (A7)+, $C(A3) + Move.L (A7)+, ($1FB8) + AddQ #$4, A7 BSR InitDefGamma ; initialize gamma correction for this device - MOVEM.L (SP)+,D1-D2/A0-A1 ;restore all registers + MOVEM.L (SP)+,D1-D2/A0-A3 ;restore all registers MOVEQ #0,D0 ;no error RTS +InitVidDeflt_RTS + RTS + + ;________________________________________________________________________________________ ; ; Routine: GetDefVidMode @@ -3797,14 +3417,15 @@ InitVidDeflt ;________________________________________________________________________________________ GetDefVidMode + LINK A6, #-$58 + MOVE.L spsPointer(A0),-(SP) ; save the sPointer, MOVE.B spId(A0),-(SP) ; the id, - MOVE.L A1,-(SP) ; and registers + MOVEM.L A1-A2,-(SP) ; and registers - LEA -SizesPRAMRec(SP),SP ; make room for parameter RAM info - MOVE.L SP,A1 ; and point to it + LEA -SizesPRAMRec*3(A6),A1 ; make room for parameter RAM info + MOVE.L A1,(A0) ; and point to it - MOVE.L A1,spResult(A0) ; pass the pointer to the buffer _SReadPRAMRec ; get parameter RAM record BNE.S @OneBit ; -> it's invalid, so default to one bit mode @@ -3819,11 +3440,11 @@ GetDefVidMode MOVEQ #0,D0 MOVE.B 2(A1),D0 ; get the default mode -@ValidMode LEA SizesPRAMRec(SP),SP ; clean up the stack - MOVE.L (SP)+,A1 ; restore registers, +@ValidMode MOVEM.L (SP)+,A1-A2 ; restore registers, MOVE.B (SP)+,spId(A0) ; the id, MOVE.L (SP)+,spsPointer(A0) ; and the sPointer - RTS + UNLK A6 + RTD #2 @OneBit MOVE.B #OneBitMode,2(A1) ; Set default to OneBitMode MOVE.L A1,spsPointer(A0) ; Pass pointer to buffer @@ -3952,6 +3573,14 @@ InitDefGamma BRA.S @SetIt ; set it +InitDummyScreenWrapper ; f52 + MOVE.L (DeviceList), D0 + BEQ.B InitDummyScreen + CMPI.L #$FFFFFFFF, D0 + BEQ.B InitDummyScreen + RTS + + ;________________________________________________________________________________________ ; ; Routine: InitDummyScreen @@ -4081,6 +3710,7 @@ AddVidDevice MOVE ioRefNum(A1),-(SP) ; push the device's refNum BSR.S GetDefVidMode ; D0 <- the default video mode + MOVE $18(A1), -(SP) MOVE.L D0,-(SP) ; Push it _NewGDevice ; allocate a new GrafDevice (in system heap) @@ -4130,6 +3760,10 @@ InitSCC bsr.l SCCIOPHwInit ; initialize the IOP hardware registers @NoIOP ; fall thru -- IOP boots in bypass mode ENDIF + + btst.b #3, ($DD3) + beq.b @dontInitSCC + movea.l SCCWr,a0 ; point to SCC base write address (chan B) movea.l SCCRd,a1 ; point to SCC base read address (chan B) tst.b (a1) ; synchronize SCC accesses @@ -4139,89 +3773,6 @@ InitSCC rts -;________________________________________________________________________________________ -; -; Routine: InitIWM -; -; Inputs: none -; Outputs: none -; Trashes: D0, D2, A0 -; -; Function: initializes the IWM/SWIM/SWIM2 floppy disk controller -;________________________________________________________________________________________ - -InitIWM TestFor IWMExists ; see if we really have an IWM - beq ExitInitIWM ; if not, nothing to init - - MOVEA.L IWM,A0 ; get floppy controller base address - -InitSWIM2 MOVE.L BusErrVct,-(SP) ; save the old bus error vector
- PEA @Resume ; and point it to ours
- MOVE.L (SP)+,BusErrVct ;
- MOVE.L SP,D2 ; save the stack pointer in case we bus error
- - MOVEQ #noDriveErr,D0 ; assume the chip isn't there
- TST.B q6L|rPhase(A0) ; access the chip (may bus error!)
- MOVEQ #noErr,D0 ; if we got here, the chip may be connected
- -@Resume MOVEA.L D2,SP ; trash the exception frame if we bus errored
- MOVE.L (SP)+,BusErrVct ; restore the previous bus error vector
- TST.W D0 ; set the CCR
- BNE ExitInitIWM ; -> IWM/SWIM/SWIM2 is not currently connected
- -; If we got here, at least we didn't bus error. That doesn't mean we really have -; a IWM/SWIM, though, so lets do some more checking... - - MOVE.B #$F8,wZeroes(A0) ; try to switch to the IWM register set - IF nonSerializedIO THEN ; - nop ; allow write to complete - ENDIF - MOVEQ #$F5-256,D2 ; - MOVE.B D2,wPhase(A0) ; write a value to the phase register - IF nonSerializedIO THEN ; - nop ; allow write to complete - ENDIF - MOVE.B D0,rPhase(A0) ; drive the bus in case the chip's not there - IF nonSerializedIO THEN ; - nop ; allow write to complete - ENDIF - CMP.B rPhase(A0),D2 ; did we get back what was originally written? - BEQ.S ExitInitIWM ; -> yes, we've got a SWIM2 - -; At this point, we know we don't have a SWIM2 connected. We either have an IWM/SWIM or no chip... - -@NotSWIM2 TST.B q7L(A0) ; select "Read Handshake" - TST.B q6L(A0) ; - MOVE.B D0,q7H(A0) ; - MOVEQ #%00111111,D2 ; mask to just the low 6 bits - AND.B q6L(A0),D2 ; and read the register - TST.B q7L(A0) ; back into a read mode - CMPI.B #%00111111,D2 ; did we get what we expected? - BNE.S ExitInitIWM ; -> no, it's isn't IWM or SWIM - - MOVEQ #IWMInitMode,D0 ; initial mode setting -@1 MOVE.B #$BE,wZeroes(A0) ; disable enabled if in ISM mode - MOVE.B #$F8,wZeroes(A0) ; switch SWIM to the IWM register set - TST.B Q7L(A0) ; and get out of write mode - TST.B MtrOff(A0) ; change the IWM mode now - TST.B Q6H(A0) ; set IWM to sense state - MOVE.B Q7L(A0),D2 ; sense the mode register - BTST #5,D2 ; no disks should be enabled - BNE.S @1 ; keep waiting - - AND.B D0,D2 ; see if low bits match mode we want - CMP.B D0,D2 - BEQ.S @2 ; if so, we are done - - MOVE.B D0,Q7H(A0) ; set to twiggy mode - TST.B Q7L(A0) ; set IWM back to sense state - BRA.S @1 ; loop back just to check - -@2 TST.B Q6L(A0) ; and back to read mode - -ExitInitIWM RTS - - ;________________________________________________________________________________________ ; ; Routine: InstallDriver @@ -4250,7 +3801,7 @@ InstallDriver move.l UTableBase,a0 ; point to utable array move.l (a0,d1),a0 ; get handle to dce in a3 move.l (a0),a0 ; get pointer to dce - move.l a1,dCtlDriver(a0) ; load driver + move.l (a1),dCtlDriver(a0) ; load driver move.l (a1),a1 ; get pointer to driver move.w drvrFlags(a1),dCtlFlags(a0) ; copy data to dce @@ -4258,7 +3809,9 @@ InstallDriver move.w drvrEMask(a1),dCtlEMask(a0) move.w drvrMenu(a1),dCtlMenu(a0) - bset.b #dNeedLock,dCtlFlags+1(a0) ; set the handle bit + bclr.b #dNeedLock,dCtlFlags+1(a0) ; set the handle bit + cmpi.l #'only', $4(sp) + beq.b @exit @openDrvr move.l a2,a1 ; load pointer to driver name bra.s OpenDRVR ; open the driver (a1/) @@ -4391,124 +3944,105 @@ CheckForEgretOrCuda ; ENDIF -;___________________________________________________________________________ -; CheckForTV: Checks for the Cmd-Option-T-V keys down, and if so, set -; the PRAM bit that specifies we do that and Re-Boot -; -; Destroys A0-A1/D0/D1. -;___________________________________________________________________________ - WITH spBlock,SP_Params -CheckForTV - lea @TVKeys,a1 ; keys to check for - lea KeyMap,a0 ; compare to the Key Down Map - moveq.l #4-1,d0 ; compare loop count -@loop cmpm.l (a0)+,(a1)+ ; check for exactly this combo - dbne d0,@loop ; examine the entire key map - beq.s @tvmatch ; if equal, reset PRAM - rts ; otherwise, just return - -@tvmatch SUBA #spBlockSize,SP ; make an slot parameter block on stack - MOVE.L SP,A0 ; get pointer to parm block now - MOVE.B #0,spSlot(A0) ; put slot in pBlock - CLR.B spExtDev(A0) ; external device = 0 -; Read the slot pRAM to determine what the currently saved mode is. -; The flag are in SP_FLAGS, which are in VendorUse5 byte. - - SUBA #SizesPRAMRec,SP ; allocate block for pRAM record - MOVE.L SP,spResult(A0) ; point to it - _sReadPRAMRec ; read it - Bne @ErrorReturn ; should not fail, but if so... - Move.b SP_Flags(SP),D0 ; Get the current flags - Bset #spCompOut,D0 ; Set it, which means to enable - Move.b D0,SP_Flags(SP) ; write out the sp_flags byte - MOVE.L SP,spsPointer(A0) ; set up parameter block - _sPutPRAMRec ; write the new record out - Bne @ErrorReturn ; any errors? - Adda #SizesPRAMRec+spBlockSize,SP; Deallocate buffer and - jmp Start -@ErrorReturn - Adda #SizesPRAMRec+spBlockSize,SP; Deallocate buffer and - rts - -@TVKeys dc.l $00020200 ; V, T - dc.l $00008004 ; Cmd, Opt - dc.l $00000000 - dc.l $00000000 - ENDWITH -;________________________________________________________________________________________ -; -; Routine: DynamicBoxFlag +;……………………………………………………………………………………………………………………………………………………………………………………………………………………… ; -; Inputs: D7.w BoxFlag from the Universal tabke +; Taken from SCSIMgrInit.a ; -; Outputs: D7.w Adjusted BoxFlag for this machine +;——— Do PRAM stuff : Bytes 2 & 3 are allocated for SCSI stuff ; -; Trashes: D0-D1, A0-A1 +; ——— Byte 2 ——— +; bit - def: meaning +; 7 - 0 : If set, disable the SCSIReset on machine reset +; 6 - 1 : unused +; 5 - 0 : unused +; 4 - 0 : unused (on PDM debug, affects Read DMA reads) +; 3 - 1 : validity bit (both must be 1 for bytes 2&3 to be valid, else init them) +; 2 - 1 : \ +; 1 - 1 : — Host ID (i.e. SCSI ID of this Macintosh) +; 0 - 1 : / ; -; Function: Calculates the boxflag based on box type and CPU clock rates. -; Look Ma! We have only one Universal table entry per family! +; ——— Byte 3 ——— +; 7 - 0 : unused +; 6 - 1 : unused +; 5 - 0 : unused +; 4 - 0 : unused (on PDM debug, affects Read DMA writes) +; 3 - 1 : validity bit (see above) +; 2 - 0 : \ +; 1 - 0 : — "Internal Drive" ID (i.e. zero generally because nobody changes this) +; 0 - 0 : / ; -;________________________________________________________________________________________ -DynamicBoxFlag - TestFor HMCDecoder ; do we have an HMC decoder? - beq.s @rts ; -> Nope, just use the boxflag from the uTables. - - MOVEM.L D0-D6/A0-A4/A6,-(SP) ; save Universal info -; CMPI.B #boxPDMEvt1,D7 ; Is this an Evt1? ; removing evt1 suprt -; BEQ.S @Done ; -> Yes, never muck with the boxflag ; - - BigBSR6 GetCPUIDReg ; Get the CPU id - BNE.S @Done ; -> Failed (can't happen) - - AND.W #%00000011,D0 ; Just look at bits 0 & 1 - - MOVE.L ([ProcessorInfoPtr],\ - ProcessorInfo.CPUClockRateHz),D1 ; Get the CPU clock rate - - MOVEQ #-1,D2 ; Clear the counter - LEA @SpeedTable,A0 ; Point to the list of clock rates -@Lupe CMP.L (A0)+,D1 ; Is the bus clock rate less than the entry? - BLS.S @GotIt ; -> Yes, go with the current delay factor - ADDQ #1,D2 - BRA.S @Lupe - -@GotIt LSL.W #2,D0 ; Mult the box bit by the size of the table - LEA (@BoxTable,D0),A0 - MOVE.B (A0,D2),D7 ; Get the boxflag - -@Done MOVEM.L (SP)+,D0-D6/A0-A4/A6 ; save Universal info -@rts RTS ; Return - -@SpeedTable ; PDM CPU clock rate mapping table - DC.L 10000000 ; 50.001 MHz - DC.L 60000000 ; 66.001 MHz - DC.L 73000000 ; 80.001 MHz - DC.L 100000000 ; 100.001 MHz - DC.L -1 ; end of table - -@BoxTable EQU * -@WLCDboxes DC.B boxPDM50WLCD ; QFC - DC.B boxPDM66WLCD - DC.B boxPDM80WLCD - DC.B boxPDM - -@notboxes DC.B boxPDM50WLCD ; QFC (wlcd post evt1) - DC.B boxPDM66WLCD - DC.B boxPDM80WLCD - DC.B boxPDM - -@shitboxes DC.B boxPDM50L ; Lego - DC.B boxPDM66L - DC.B boxPDM80L - DC.B boxPDM +SetScsiIdFromPram + + subq.l #2,sp ; make space for PRAM SCSI id + move.l sp,a0 ; address of PRAM return buffer + + move.l #$00020002,d0 ; read 2 bytes of PRAM at offset 2 + _ReadXPRam ; get the SCSI id + move.w (sp),d0 ; check high bits for validity + and.w #$0808,d0 ; look at upper bit in lower nibble pdw + cmp.w #$0808,d0 ; equal to magic pattern? + beq.s @GotID ; yes, so use those SCSI IDs + +;--- if invalid, reinitialize values to defaults +@SetID + move.w #(($48+7)<<8) + ($48+0),(sp) ; defaults: CPU=7,hd=0 + move.l sp,a0 ; address of new PRAM value + move.l #$00020002,d0 ; write 2 bytes of PRAM to offset 2 + _WriteXPRam ; save the IDs in parameter RAM +@GotID + move.w (sp)+, d0 -@FridgBoxes DC.B boxPDM ; Fridge - DC.B boxPDM66F - DC.B boxPDM80F - DC.B boxPDM100F + lsr.w #8,d0 ; get CPU SCSI ID for shift count + and.w #$7,d0 ; mask all but the ID bit + + moveq.l #1,d1 ; 1 << SCSI id + lsl.b d0,d1 ; form the SCSI id mask + move.b d1,SCSIDrvrs ; clear all SCSI driver flags but our own + + rts + + + + +CreateAltiVecBufForEmulator +OnePage equ $1000 + + move.l #gestaltPowerPCProcessorFeatures, d0 + _Gestalt + bne.s @done + + move.l a0, d0 + and.l #1< @@ -294,7 +305,7 @@ FindStartupDevice PROC EXPORT BLS.S @nosleep @sleepnow LEA pmCommandPB(A4), A0 ; A0 gets pointer to parameter block - MOVE.W #SleepReq, pmCommand(A0) ; PMGR command, Go to sleep + MOVE.W #PmgrPWRoff, pmCommand(A0) MOVE.W #4, pmLength(A0) ; Four bytes of data to send LEA pmData(A0), A1 MOVE.L A1, pmSBuffer(A0) ; pointer to send buffer @@ -307,16 +318,48 @@ FindStartupDevice PROC EXPORT ENDWITH ENDIF ; - CMPI.W #FloppyRefNum,D4 ; do we have floppy set as the default? - BEQ.S @NoChange ; -> yes, keep looking for floppies - LEA IsItAnything,A3 ; no, from now on, any device will do -@NoChange + + Move.L D7, D7 + BNE.B @twenty_six + SubA.L A0, A0 + _InternalWait + BNE.B @skip_blah + MoveQ.L #$19, D0 +@skip_blah + MulU #$3C, D0 + Add.L -$56(A4), D0 + Cmp.L (Ticks), D0 + BCS.B @twenty_six + MoveQ.L #$F, D0 + Add.L (Ticks), D0 +@before_cmp + Cmp.L (Ticks), D0 + BCC.B @before_cmp + Bra.B @after_less_stuff +@twenty_six + MoveQ.L #$1, D7 + Lea.L IsItAnything, A3 +@after_less_stuff + IMPORT ATAGiveTime + Bsr.L ATAGiveTime +@after_stuff + + BSR LoadSCSIDrivers ; load more drivers if we can + BSR OpenLANDiskDriver @TryAgain BSR VisualUpdate ; Update dynamic user feedback + IMPORT PMIDLERELATEDDRIVERCALL + BSR.L PMIDLERELATEDDRIVERCALL + IMPORT INTERC_2750 + BSR.L INTERC_2750 + + @FirstEntry + BSR DaFuq + BSR FindNextCandidate ; Find the next potential Startup Device. BEQ.S @NextPass ; Branch if we're at the end of the queue. @@ -381,6 +424,7 @@ EmbarkOnSearch SUBQ.W #4,SP ; make room for parameters on the stack MOVE.L SP,A0 ; and point to them _GetDefaultStartup ; get info about the default device + CLR -4(A4) MOVE.L (SP), startPRAM(A4) ; store for later partition check MOVE.W (SP)+,D3 ; D3.L = MOVE.W (SP)+,D4 ; get the driver's refNum/ @@ -413,19 +457,8 @@ EmbarkOnSearch SUBA.L A2,A2 ; initialize the drive queue pointer - LEA IsItFloppyOrDefault,A3 ; ASSUME match default or floppy devices. + LEA IsItDefault,A3 - CASE OBJ - IMPORT Ck4OnlyLoadFromDefault ; :SCSIMgr4pt3:BootItt.a - BSR.L Ck4OnlyLoadFromDefault ; supposed to limit our search to default device? - CASE OFF - BEQ.S @ck4NoDefault - LEA IsItDefault, A3 ; match only default device -@ck4NoDefault - TST.B noDefaultDrive(A4) ; is there a default drive? - BEQ.S @HaveDefault ; -> yes - LEA IsItAnything,A3 ; no, match any device -@HaveDefault MOVE.L Ticks,flashTime(A4) ; let flash time expire immediately. CLR.W D6 ; clear visual state information. @@ -453,9 +486,8 @@ EmbarkOnSearch move.w D4, D1 ; get refNum (maybe) not.w D1 ; convert refNum to unit number sub.w #$20, D1 ; convert to SCSI ID - blt.s @exit ; out of range -> use previous value cmpi.w #$07, D1 - bgt.s @exit ; out of range -> use previous value + bhi.s @exit ; out of range -> use previous value move.b SCSIPoll, D0 and.b #$F8, D0 ; strip out old internal HD SCSI ID @@ -569,9 +601,7 @@ LoadSlotDrivers LoadSCSIDrivers IF hasAsyncSCSI THEN - BSR.L ISITT ; check if we're running SCSI 4.3 - TST.B D0 ; are we? - BEQ.S @UseOldSCSI ; -> no, use the old code to load drivers + CLR.B forcedBoot(A4) PEA forcedBoot(A4) ; ptr to flag indicating a forcedBoot CLR.L -(SP) ; load all drivers @@ -589,26 +619,99 @@ LoadSCSIDrivers RTS @UseOldSCSI ENDIF - -; there is a new mechanism to disable loading of poll drive, so, check power -; user command, "command, shift, option and delete keys", if those keys are -; not down, go load the poll drive. -; Make sure that command, shift, option and delete keys are not down - - MOVEQ #-1,D0 ; try to load all SCSI devices - CMPI.W #CmdShiftOptDel,KeyMap+6 ; are command, shift, option and delete keys down? - BNE.S @GoLoadD ; -> no, continue - MOVEQ #$07,D1 - AND.B SCSIPoll,D1 ; get the SCSI ID of the poll drive - BCLR D1,D0 ; and clear the bit in the available drive list - -@GOLoadD move.l d6,-(sp) ; save d6 pdw - move.l a0,-(sp) ; save a0 - moveq.l #0, D6 ; allow drivers to munge heap pdw - BSR.L SCSILoad ; try to load driver(s) from disk - move.l (sp)+,a0 ; restore a0 - move.l (sp)+,d6 ; restore d6 pdw - RTS + + + + +LoadATADrivers + BTst.B #$7, ($B23) + BEQ @L3 + MoveM.L D1-D7/A0-A6, -(A7) + Move D4, -$8(A4) + Move.L -$C(A4), D5 + Move.L #$FF, D2 + Move.L D5, D1 + AndI #$F800, D1 + CmpI #$2000, D1 + BEQ.B @L0 + AndI.L #$FFFF00FF, D3 + CmpI #$FFCA, D5 + BEQ.B @L0 + Bra.B @L2 +@L0 _DisableDynWait + _GetTimeOut + BNE.B @L1 + MoveQ.L #$19, D0 +@L1 Move.L D0, -(A7) + MoveQ.L #$0, D0 + Move.B -$9(A4), D0 + LsL #$8, D0 + Move.B -$C(A4), D0 + Move.L D0, -(A7) + IMPORT ATAMgr_5d9b0 + BSR.L ATAMgr_5d9b0 + AddQ #$8, A7 + CmpI #$0, D0 + BEQ.B @L2 + Move D0, -$8(A4) + IMPORT ATAGiveTime +@L2 BSR.L ATAGiveTime + MoveM.L (A7)+, D1-D7/A0-A6 + Move -$8(A4), D4 +@L3 Rts + + + +PostATA + MoveM.L D0-D3/A0-A2, -(A7) + MoveA.L ([$2B6],$288), A2 + + Move.L A2, D0 + BEQ.B @return + Move $6(A2), D1 + MoveQ.L #$0, D2 + +@loop MoveA.L $14(A2,D2.L), A1 + Move.L A1, D0 + BEQ.B @return + Move $C8(A1), D0 + + Clr D3 + Cmp D3, D0 + BEQ.B @skip + MoveA.L $C4(A1), A0 + Move.L A0, D0 + BEQ.B @return + Jsr (A0) + Bra.B @return + +@skip AddQ #$4, D2 + SubQ #$1, D1 + BNE.B @loop + +@return MoveM.L (A7)+, D0-D3/A0-A2 + Rts + + + +OpenLANDiskDriver + Lea.L @DriverName, A1 + Lea.L -$32(A7), A7 + MoveA.L A7, A0 + Move.L A1, $12(A0) + DC.W $A000 + Tst D0 + BNE.B @L7 + Move $18(A0), D4 +@L7 Lea.L $32(A7), A7 + Rts + + STRING Pascal +@DriverName DC.B '.LANDisk' + ALIGN 2 + + + ;________________________________________________________________________________________ @@ -655,9 +758,7 @@ WaitForPollDrive @WaitForIt IF hasAsyncSCSI THEN - BSR.L ISITT ; check if we're running SCSI 4.3 - TST.B D0 ; are we? - BEQ.S @UseOldSCSI ; -> no, use the old code to load drivers + CLR.B forcedBoot(A4) PEA forcedBoot(A4) ; ptr to flag indicating a forcedBoot PEA 1 ; only look for the startup device BSR.L ITTBOOT ; get the startup device's refnum in D0 @@ -676,47 +777,7 @@ WaitForPollDrive @UseOldSCSI ENDIF -; make sure that command, shift, option and delete keys are not down - - MOVE.W KeyMap+6,D0 ; get keys down - CMP.W #CmdShiftOptDel,D0 ; are command, shift, option and delete keys down? - BEQ.S @RawExit ; -> exit if so - - MOVEQ #$07,D1 - AND.B SCSIPoll,D1 ; Get SCSI ID of poll drive - MOVEQ #0,D0 ; Clear register - BSET D1,D0 ; Set the bit for the drive - -; Call SCSILoad with bit map in D0 and heap_munge_flag in D6 - - move.l d6,-(sp) ; save d6 pdw - move.l a0,-(sp) ; save a0 - moveq.l #0, D6 ; allow drivers to munge heap pdw - BSR.L SCSILoad ; Try to load driver for poll disk - move.l (sp)+,a0 ; restore a0 - move.l (sp)+,d6 ; restore d6 pdw - BEQ.S @MyExit ; Branch if warmed up, but driver is invalid - - MOVEQ #IntHDRefNum,D0 ; Refnum for ID 0 - SUB.W SCSIPoll,D0 ; Convert to refnum for poll drive - MOVE.W D0,D1 ; Put back in D1 for comparison - - -; Let's see if the poll hard disk is actually in the queue -@ExamDQ SUBA.L A2,A2 ; Start at beginning of drive queue -@FindIntHD - BSR NextDQEntry ; Get the next drive queue entry - BEQ.S @EndOfQueue ; Branch if we're out of queue entries - - CMP.W dqRefNum(A2),D1 ; Is it our trusty poll hard disk? - - BNE.S @FindIntHD ; Nope, see if the next one's it - -@Warm_n_Toasty ; We found the drive; it must have warmed up - BRA.S @MyExit ; That's all folks - @ckTimeout -@EndOfQueue CMP.L Ticks,D5 ; Should the poll HD be visible by now? BLO.S @NoDrivePresent ; Yes, so quit waiting for it MOVEQ.L #PollDelay,D0 ; Get number of ticks to wait before retrying @@ -969,6 +1030,7 @@ Ck4SupportsPartition ; now check this driver to see if it "follows new rules" and responds ; to driverGestalt status call ; + move.l (A0), A0 move.w dCtlFlags(A0), D0 ; does it Follow New Rules? btst #FollowsNewRules, D0 ; (word-relative bit #) beq.s @notSupported ; no -> skip driverGestalt call @@ -1010,9 +1072,29 @@ Ck4SupportsPartition ;________________________________________________________________________________________ IsItDefault + tst -4(A4) + bne.s @skipsomestuff + + pea.l -4(A4) + import GetStartupDevice + jsr GetStartupDevice ; (CDG5) native StartLib + lea.l $4(SP), SP + tst D0 + bne.s @notTheDisk +@skipsomestuff + + move -4(A4), D0 + cmp 6(A2), D0 + beq.s @isTheDisk + bra.s @notTheDisk + cmp.w dqRefNum(A2), D4 ; is this driver for the default device? bne.s @notTheDisk ; no-> definitely no the disk then + import ZeroD0 + bsr ZeroD0 + bne.s @notTheDisk + move.b #1, foundDrvr(A4) ; so we know to clr ckPartition if end-of-Q tst.b ckPartition(A4) ; do we need to check the partition num? beq.s @isTheDisk ; no-> well then, it is the right disk @@ -1085,7 +1167,16 @@ ItsDefault RTS ; and return BEQ if so ;________________________________________________________________________________________ IsItAnything - CMP D0,D0 ; return BEQ + CMP 8(A2), D4 + BNE.S @beq + + BSR ZeroD0 + BNE.S @bne + +@beq MOVEQ.L #0, D0 + RTS + +@bne MOVEQ.L #1, D0 RTS @@ -1129,15 +1220,18 @@ VisualUpdate @NoSwitch BCHG #FlashParity,D6 ; Switch parity. BNE.S @XorQ ; Branch if we need X or ? showing. LEA DiskIcon,A0 ; plot the plain disk icon + MOVE #-20021,D0 BRA.S PlotMyIcon @XorQ TST.B D6 ; Are we showing an ? BEQ.S @ShowQ ; Branch if so. SUBQ.B #1,D6 ; Eventually, we go back to a ?. LEA XDiskIcon,A0 ; but for now, plot the disk icon with the X + MOVE #-20023,D0 BRA.S PlotMyIcon @ShowQ LEA QDiskIcon,A0 ; plot the disk icon with the question mark + MOVE #-20022,D0 BRA.S PlotMyIcon @DoneDisk RTS @@ -1158,7 +1252,73 @@ VisualUpdate HappyMac BSR.S EraseMyIcon ; erase what's on the screen where the icon goes LEA HappyIcon,A0 ; plot the happy mac icon - BSR.S PlotMyIcon + MOVE #-20020,D0 + + +;________________________________________________________________________________________ +; +; Routine: PlotMyIcon +; +; Inputs: A0 - pointer to ICN# to plot +; D0 - ID of cicn to try first +; +; Outputs: none +; +; Trashes: D0-D2, A0-A1 +; +; Function: plots an icon, centered on the main video device +;________________________________________________________________________________________ + +PlotMyIcon + MOVE.L A0,-(SP) + MOVE #$FFFF,ROMMapInsert + SUBQ #4,SP + MOVE D0,-(SP) + _GetCIcon + MOVE.L (SP)+,D2 + MOVE.L (SP)+,A0 + + BEQ.S @useOld + + MOVE.L D2,-(SP) + BSR PushIconRect + MOVE.L SP,-(SP) + MOVE.L D2,-(A7) + _PlotCIcon + ADDQ #8,SP + _DisposeCIcon + RTS + +@useOld MOVE.L A0,D2 ; save the pointer to the ICN# + +; put the source bitmap on the stack (icon's bit image) + + BSR.S PushIconRect ; bounds = 32x32 rectangle, centered on the main screen + MOVE.W #32/8,-(SP) ; rowBytes + MOVE.L D2,-(SP) ; baseAddr = pointer to the icon + +; put the mask bitmap on the stack (icon's mask image) + + LEA bitMapRec(SP),A0 ; point to the end of this bitmap so we can make a copy + MOVE.L -(A0),-(SP) ; bounds + MOVE.L -(A0),-(SP) + MOVE.W -(A0),-(SP) ; rowBytes + MOVEA.L -(A0),A1 + PEA 128(A1) ; baseAddr = pointer to icon's mask + +; now copy the icon to the screen using CopyMask... + + MOVE.L A0,-(SP) ; srcBits + PEA 4(SP) ; maskBits + MOVEA.L grafGlobals(A5),A1 ; point to QuickDraw's globals + MOVEA.L thePort(A1),A1 ; and from there get the current grafport + PEA portBits(A1) ; dstBits + PEA bounds(A0) ; srcRect + MOVE.L (SP),-(SP) ; maskRect + MOVE.L (SP),-(SP) ; dstRect + _CopyMask ; blast it + + LEA 2*bitmapRec(SP),SP ; clean up the stack RTS @@ -1175,61 +1335,31 @@ HappyMac BSR.S EraseMyIcon ; erase what's on the screen where the icon goes ; Function: erases the ICN# in the center of the main screen ;________________________________________________________________________________________ -EraseMyIcon MOVEM.L D0-D2/A0-A1,-(SP) +EraseMyIcon MOVEM.L D0-D2/A0-A2,-(SP) BSR.S PushIconRect ; push the icon's rectangle onto the stack MOVE.L SP,-(SP) ; and point to it - MOVE.L grafGlobals(A5),A0 ; point to the QuickDraw globals - PEA gray(A0) ; and use 50% gray as the background + + + + MOVE.L grafGlobals(A5),A2 ; point to the QuickDraw globals + TST.B ($B3E) + BNE.S @anyway + MOVE.L ExpandMem,A0 + TST.B $341(A0) + BEQ.B @otherthing +@anyway PEA.L @theColor + _RGBForeColor + PEA.L -16(A2) + BRA.S @ffs +@otherthing + PEA.L -24(A2) +@ffs _FillRect ; erase the rectangle with the desktop pattern ADDQ.W #8,SP ; clean up the stack - MOVEM.L (SP)+,D0-D2/A0-A1 + MOVEM.L (SP)+,D0-D2/A0-A2 RTS - -;________________________________________________________________________________________ -; -; Routine: PlotMyIcon -; -; Inputs: A0 - pointer to ICN# to plot -; -; Outputs: none -; -; Trashes: D0-D2, A0-A1 -; -; Function: plots an icon, centered on the main video device -;________________________________________________________________________________________ - -PlotMyIcon MOVE.L A0,D2 ; save the pointer to the ICN# - -; put the source bitmap on the stack (icon's bit image) - - BSR.S PushIconRect ; bounds = 32x32 rectangle, centered on the main screen - MOVE.W #32/8,-(SP) ; rowBytes - MOVE.L D2,-(SP) ; baseAddr = pointer to the icon - -; put the mask bitmap on the stack (icon's mask image) - - LEA bitMapRec(SP),A0 ; point to the end of this bitmap so we can make a copy - MOVE.L -(A0),-(SP) ; bounds - MOVE.L -(A0),-(SP) - MOVE.W -(A0),-(SP) ; rowBytes - MOVEA.L -(A0),A1 - PEA 128(A1) ; baseAddr = pointer to icon's mask - -; now copy the icon to the screen using CopyMask... - - MOVE.L A0,-(SP) ; srcBits - PEA 4(SP) ; maskBits - MOVEA.L grafGlobals(A5),A1 ; point to QuickDraw's globals - MOVEA.L thePort(A1),A1 ; and from there get the current grafport - PEA portBits(A1) ; dstBits - PEA bounds(A0) ; srcRect - MOVE.L (SP),-(SP) ; maskRect - MOVE.L (SP),-(SP) ; dstRect - _CopyMask ; blast it - - LEA 2*bitmapRec(SP),SP ; clean up the stack - RTS +@theColor DC.W $8888, $8888, $8888 ;________________________________________________________________________________________ @@ -1322,7 +1452,54 @@ XDiskIcon DC.L $7FFFFFF0,$81000108,$81007104,$81008902,$81008901,$81008901,$8100 DC.L $FFFFFFFF,$FFFFFFFF,$FFFFFFFF,$FFFFFFFF,$FFFFFFFF,$FFFFFFFF,$FFFFFFFF,$FFFFFFFE ENDWITH - ENDPROC +; ENDPROC + + + + + + + +DaFuq ; proc export ; but has no callers yet? +; IMPORT NextDQEntry +; IMPORT SelectDevice +; IMPORT GetStartupInfo + + + MOVEM.L D0-D2/A0-A2,-(SP) + SUB.L A2,A2 +@loop + MOVE #$A002,D0 + _GetOSTrapAddress + MOVE.L ROMBase,A1 + CMP.L A0,A1 + BCS.S @return + BSR NextDQEntry + BEQ.S @return + BSR SelectDevice + BSR GetStartupInfo + BRA.S @loop +@return + MOVEM.L (SP)+,D0-D2/A0-A2 + RTS + +; ALIGN 16 + + + + + + + +ZeroD0 PROC EXPORT + MOVEQ.L #0, D0 + RTS + +; ALIGN 16 + + + + @@ -1665,104 +1842,6 @@ AppPhne EQU $09961010 ENDPROC -;________________________________________________________________________________________ -; -; Routine: Ck4LimitPRAMClear -; -; Inputs: none -; -; Outputs: Z: NE = only boot from Default device -; EQ = boot from Floppy or Default -; D0: NE = only boot from Default device -; EQ = boot from Floppy or Default -; -; Trashes: D0, A0 -; -;________________________________________________________________________________________ - -Ck4LimitPRAMClear PROC EXPORT - - IMPORT ValidatePRAM76 ; StartSearch.a - bsr ValidatePRAM76 - subq.w #2,sp ; allocate buffer on stack - movea.l sp, A0 ; get buffer ptr - MOVE.L #$00010076, D0 ; Read 1 bytes starting at loc $76 - _ReadXPRam - move.b (sp)+, D0 - and.b #1, D0 ; low bit - rts - - ENDPROC - - -;________________________________________________________________________________________ -; -; Routine: ValidatePRAM76 -; -; Inputs: none -; -; Outputs: none -; -; Trashes: none -; -; Function: Validates byte $76 of xpram: counts set bits in lower 6 and compares with -; upper two bits. If not equal, zeros out the byte. -; -; Note: Byte $76 (previously reserved but used by OSDefault stuff) is -; being defined as sensitive boot bits generally having to do with -; security issues driven by AIX but these functions can be used -; by other OSes as well. The upper two bits of byte $76 are a -; "checksum" of the other 6 bits (i.e. count of bits set). This -; is desired because of the danger if one of these bits is set -; accidentally by some bogus client. Failing this checksum will -; cause the byte to revert to 00 - a safe value. Currently defined -; bits are: -; 0: limit PRAM clear - don't clear PSWD, AUXPRAM, OSType, DefBoot -; 1: only load drivers from default device, don't boot from floppy -; 2: ignore CmdShiftOptDel -; -;________________________________________________________________________________________ -vp76trashedRegs REG D0-D2/A0 - -ValidatePRAM76 PROC EXPORT - - movem.l vp76trashedRegs, -(sp) - - subq.w #2, sp ; allocate buffer on stack - movea.l sp, A0 ; get buffer ptr - MOVE.L #$00010076, D0 ; Read 1 bytes starting at loc $76 - _ReadXPRam ; Get it from PRAM. - move.b (sp)+, D0 - - move.b #0, D2 ; zero reg for addx - moveq.l #0, D1 ; clear checksum - and.b #$3F, D0 ; get data bits (strip sum bits) -@bitloop - lsr.b #1, D0 ; get a bit - addx.b D2, D1 ; add that bit to checksum - tst.b D0 ; loop until no more bits - bne.s @bitloop - - and.b #3, D1 ; only 2 low bits are valid - - move.b (A0), D0 ; get byte 76 again - lsr.b #6, D0 ; get only checksum bits - - cmp.b D0, D1 ; valid signature? - beq @valid ; Yes, don't clear all - - move.b #00, -(sp) ; clean up bogus value - movea.l sp, A0 ; get buffer ptr - move.l #$00010076, D0 ; get #, addr PRAM bytes - _WriteXPram ; write out zeros to 76 - move.b (sp)+, D0 -@valid - movem.l (sp)+, vp76trashedRegs - rts - - ENDP - - ;---------------------------------------------------------------------- ; Get information about the current default video device. ; diff --git a/OS/SysUtil.a b/OS/SysUtil.a --- a/OS/SysUtil.a +++ b/OS/SysUtil.a @@ -311,12 +311,22 @@ SetDateTimeTrap ; ;______________________________________________________________________ -DelayTrap ANDI.W #$F8FF,SR ; have to let interrupts in rb - MOVE.L Ticks,D0 - ADD.L A0,D0 +DelayTrap MOVEM.L D1-D3/A0-A1,-(SP) + ANDI.W #$F8FF,SR ; have to let interrupts in rb + MOVE.L Ticks,D3 + ADD.L A0,D3 + BRA.S @enter -@1 CMP.L Ticks,D0 ; have enough ticks ticked? +@1 CLR.L -(SP) + MOVE.L #$10,-(SP) + MOVE #$FFCB,-(SP) + DC.W $AA7F ; InternalWait? + ADDQ.L #4,SP + +@enter CMP.L Ticks,D3 ; have enough ticks ticked? BHI.S @1 ; -> No. Keep waiting. (now use unsigned comparison) + MOVE.L D3,D0 + MOVEM.L (SP)+,D1-D3/A0-A1 RTS @@ -1012,9 +1022,12 @@ InitUtil CLR.W -(SP) ; assume no reset of PRam values <30Oct85> LAK DBRA D1,@1 BSR WritePram ; and put initial values into clk chip + LEA.L SysParam,A0 ; don't trust the above WriteParam? + MOVE.B #$A8,(A0) + MOVE.L #$10010,D0 + _WriteXPRam -CkNewPram BTST #6,HWCfgFlags ; new clock chip present? <30oct85> BBM - BEQ.S ClkXit ; exit if not <30oct85> BBM +CkNewPram LEA GetParam,A0 ; get pointer to useful buffer <30oct85> BBM MOVE.L #$4000C,D0 ; Command to read 4 bytes at addr C <30oct85> BBM @@ -1026,10 +1039,6 @@ CkNewPram BTST #6,HWCfgFlags ; new clock chip present? <30oct85> BBM BEQ.S ClkXit ; exit if so <30oct85> BBM MOVE.W #PRInitErr,(SP) ; report non-zero result <30Oct85> LAK - MOVE.L D1,(A0) ; store out true validity bytes <30oct85> BBM - MOVE.L #$4000C,D0 ; Command to write 4 bytes at addr C <30oct85> BBM - _WriteXPRam ; <30oct85> BBM - MOVEQ #32,D1 ; starting address to clear out XPRam <30oct85> BBM @0 MOVEQ #4,D0 ; number of bytes to write SWAP D0 ; finish the command byte <30oct85> BBM @@ -1041,25 +1050,23 @@ CkNewPram BTST #6,HWCfgFlags ; new clock chip present? <30oct85> BBM CMP.B #8,D1 ; Check if we wrote the last address <30oct85> BBM BNE.S @0 ; if not loop back untill we are done <30oct85> BBM - MOVEM.L A1,-(SP) ;Save A1 LEA PRAMInitTbl,A0 ;Copy the data from the PRAMInit table. - LEA GetParam,A1 ; into the GetParam buffer. - MOVEQ #5-1,D0 ;Loop 5 times (20 bytes) -@10 MOVE.L (A0)+,(A1)+ ;Copy 4 bytes - DBRA D0,@10 ;Branch if not done. + LEA ReadTime,A1 - MOVE.L #$00140076,D0 ;Write 20 bytes beginning at PRAM address $76 - LEA GetParam,A0 ; from the buffer - _WriteXPRam ; into the PRAM. + SUB.L A0,A1 + MOVE.L A1,D0 + SWAP D0 + ORI #$76,D0 + _WriteXPRam - ; Write the default memory mgr flags to location $8A. Since this is the only xpram whose default - ; is non zero, we write it explicitly (as opposed to writing a default table full of zeros) + LEA.L GetParam,A0 + MOVE.L #'NuMc',(A0) + MOVE.L #$4000C,D0 + _WriteXPRam - LEA MMFlags,A0 ; Point A0 at the Memory Manager flags lomem - MOVE.B #MMFlagsDefault,(A0) ; Put the default MMFlags into MMFlags - MOVE.L #MMPRAMloc,D0 ; Write MMFlags to PRAM - _WriteXPRam ; Store it. - MOVEM.L (SP)+,A1 ;Restore A1 + IMPORT InterC_29c0_Wireless + MACHINE MC68030 + BSR.L InterC_29c0_Wireless ClkXit MOVE.W (SP)+,D0 ; pass back error code <30oct85> LAK BNE.S @1 ; br if we had to reset clock/pram <30oct85> LAK @@ -1070,7 +1077,7 @@ ClkXit MOVE.W (SP)+,D0 ; pass back error code <30oct85> LAK ; original 20-byte parameter RAM initialization values -PRAMInit DC.B $A8 ; old PRAM validity byte <2.7> +PRAMInit DC.B $77 ; old PRAM validity byte <2.7> DC.B 0 ; AppleTalk node ID hint for modem port <2.7> DC.B 0 ; AppleTalk node ID hint for printer port <2.7> DC.B (0<<4)+(0<<0) ; serial port usage = neither port in use <2.7> @@ -1107,7 +1114,7 @@ PRAMInit DC.B $A8 ; old PRAM validity byte <2.7> DC.B ((32/4)<<4)+ \ ; • double-click time = 32 ticks <2.7> (32/4) ; • caret-blink time = 32 ticks <2.7> - DC.B 3 ; ram cache size in 32K blocks (96k default) + DC.B 32 ; ram cache size in 32K blocks (96k default) DC.B (1<<7)+ \ ; • color desk pattern = 1 (use if CQD around) <2.7>
(1<<6)+ \ ; • mouse scaling = 1 (on) <2.7> @@ -1118,7 +1125,7 @@ PRAMInit DC.B $A8 ; old PRAM validity byte <2.7> ;Start Manager PRAMInitTbl DC.B 00 ; [$76] Reserved. DC.B 01 ; [$77] Default OS. - DC.W $FFFF,$FFDF ; [$78-$7B] Default boot. + DC.W $0000,$6666 ; [$78-$7B] Default boot. ;Sound Manager? DC.W 0 ; [$7C-$7D] Sound alert id @@ -1135,6 +1142,32 @@ PRAMInitTbl DC.B 00 ; [$76] Reserved. ;Reserved DC.B 0,0 ; [$88-$89] + +OtherDamnTable + DC.L $25000000 + DC.L $00000000 + DC.L $00000000 + DC.L $00000000 + DC.L $00000000 + DC.L $00000000 + DC.L $00000000 + DC.L $00000000 + DC.L $00000000 + DC.L $00000070 + DC.L $00000000 + DC.L $00000000 + DC.L $00000000 + DC.L $00000000 + DC.L $00000000 + DC.L $00000000 + DC.L $00000000 + DC.L $00000000 + DC.L $00000000 + DC.L $00000000 + DC.L $00000000 + DC.L $00000001 + DC.W $000A + ;________________________________________________________________________________________ ; ; Routine: ReadTime @@ -1485,163 +1518,4 @@ Exit MOVE.W D2,D0 ; put error number in D0 RTS ; return to caller (Return address should be on stack) ENDPROC ; SysEnvirons - -;----- <2.4> -; -; The Reliability Manager -; -; This new "manager" is responsible for monitoring the operation of the machine -; and recording pertinent information in parameter RAM. -; -; Written by Bob Herold, May 24, 1989 -; -;----- - -;----- -; InitReliability - sets time of 1st power on, and initializes the Usage Statistics time -; manager task -; -; The time of 1st power on is kept as the number of 48 hour periods since Jan 1 1989. To -; calculate this, we first get the number of seconds since Jan 1 1989. On 020 and higher -; machines, we could divide by the number of seconds in 48 hours. To work on 68000 -; machines, we separate out factors of two to get the divisor into the 16 bit range: -; -; # 48 hrs since Jan 1 1989 = (# secs since Jan 1 1989) / (# secs in 48 hours) -; = (# secs) / (60 * 60 * 24 * 2) -; = (# secs) / (2*2*15) * (2*2*15) * (2*2*2*3) * 2 -; = (# secs) / (15 * 15 * 3) * 2^^8 -; = ((# secs) / 2^^8) / (15 * 15 * 3) -;--- - -InitReliability PROC EXPORT - IMPORT RelTimeTask, RelDeferredTimeTask - - IF hasPowerMgr THEN - rts - ELSE - -;--- -; Initialize the 'time of 1st power on' -;--- - - subq #RelPram>>16,sp ; allocate buffer on stack - move.l Time,d1 ; get current # secs - sub.l #Jan1st89,d1 ; get # secs since Jan 1 1989 - blo.s @doneStart ; if earlier, clock chip set wrong! - movea.l sp,a0 ; get buffer ptr - move.l #RelPram,d0 ; get #, addr PRAM bytes - _ReadXPram ; read 'em and weep - move.l (sp),d0 ; get 'da bytes - and.l #Rel1stMask,d0 ; mask all except 1st powered on time - bne.s @doneStart ; if already set, do nothing - lsr.l #8,d1 ; divide # secs by 2^^8 - divu.w #15*15*3,d1 ; get # 48 hour periods (see comment above) - moveq #Rel1stBit,d0 ; get shift count - lsl.l d0,d1 ; shift our value into position - and.l #Rel1stMask,d1 ; mask unneeded high bits - and.l #-1-Rel1stMask,(sp) ; zero our bits in result - or.l d1,(sp) ; overlay our value into result - move.l #RelPram,d0 ; get #, addr PRAM bytes - _WriteXPram ; write out 1st power on time -@doneStart addq #RelPram>>16,sp ; de-allocate buffer - -;--- -; Set up time manager task for power on time measurement -;--- - - WITH RelGlobals - - moveq #rlRecSize,d0 ; get size Reliability Mgr globals - move.b d0,d1 ; save for later - _NewPtr ,sys,clear ; allocate space for it - bne.s @done ; don't bother if no room - move.l ExpandMem,a1 ; get ptr to low memory expansion - move.l a0,ExpandMemRec.emReliability(a1) ; save ptr to Reliability globals there - move.b d1,rlGlobalsSize(a0) ; save size of globals - move.b #rlRecVers,rlGlobalsVers(a0); save version number of globals - bclr #usRelTaskRun,UnSwitchedFlags; signal we are timing - -; Initialize a deferred task queue element to schedule execution of the original Time Manager -; task, now called RelDeferredTimeTask. Pass a pointer to the Time Manager task in dtParm so -; that the original code still gets its expected parameter in A1. - - move.w #dtQType,rlDeferredTask.qType(a0) - lea RelDeferredTimeTask,a1 - move.l a1,rlDeferredTask.dtAddr(a0) - lea rlTimeBlock(a0),a1 - move.l a1,rlDeferredTask.dtParm(a0) - - lea rlTimeBlock(a0),a0 ; point to time manager task block - lea RelTimeTask,a1 ; point to our time task - move.l a1,tmAddr(a0) ; stuff it into task block - _InsXTime ; install our task - move.l #RelMsCount,d0 ; get # ms between calls - clr.l tmWakeUp(a0) ; signal its the first time - _PrimeTime ; fire up time mgr task -@done rts - - ENDWITH ; {RelGlobals} - - ENDIF - - ENDPROC ; {InitReliability} - - -;----- -; RelTimeTask - the time manager task for doing all this reliability stuff -; -; Called by the Time Manager -; -; Entry -; a0 - points to this routine (not too useful, huh?) -; a1 - points to task block (now there's something useful!) -; -; -; RelDeferredTimeTask - the deferred Time Manager task for doing all this reliability stuff -; -; Called by the Deferred Task Manager -; -; Entry -; A1 - dtParm points to the originating Time Manager task block -;--- - -RelTimeTask PROC EXPORT - -; If PRAM is in Egret/CUDA, _ReadXPram and _WriteXPram require interrupts enabled -; to execute efficiently. Therefore, the periodic Reliability task now uses the -; Deferred Task Manager to be more interrupt-friendly. - -; This helps MIDI SysEx dumps and other interrupt tasks run more punctually. - - lea tmXQSize(a1),a0 ; deferred task element follows TM task element - _DTInstall - rts - - - entry RelDeferredTimeTask - -RelDeferredTimeTask - - subq #RelPram>>16,sp ; allocate buffer on stack - movea.l sp,a0 ; get buffer ptr - move.l #RelPram,d0 ; get #, addr PRAM bytes - _ReadXPram ; read 'em and weep - move.l (sp),d0 ; get 'da bytes - move.l d0,d1 ; save a copy - and.l #RelPwrMask,d0 ; mask to get power on time - addq.l #1,d0 ; increment power on time - and.l #RelPwrMask,d0 ; mask again, in case of rollover - and.l #-1-RelPwrMask,d1 ; zero power on time bits - or.l d0,d1 ; replace the power on time bits - move.l d1,(a0) ; put new PRAM value in buffer - move.l #RelPram,d0 ; get #, addr PRAM bytes - _WriteXPRAM ; write 'em back - addq #RelPram>>16,sp ; deallocate buffer - move.l a1,a0 ; get ptr to task block - move.l #RelMsCount,d0 ; get # ms between calls - _PrimeTime ; re-fire up time mgr task - rts - - ENDPROC ; {RelTimeTask} - END diff --git a/OS/TrapDispatcher/Dispatch.a b/OS/TrapDispatcher/Dispatch.a --- a/OS/TrapDispatcher/Dispatch.a +++ b/OS/TrapDispatcher/Dispatch.a @@ -225,6 +225,7 @@ Dispatcher proc export export BadTrap import SysErr1 import BlockMove68020 + import FLUSHCRANGE If hasNewHeapMgr Then import PramIO ; endif @@ -342,13 +343,21 @@ EMT1010 equ ATrap68020 FindTableEntry _AssumeEq OldDisp,ToolDisp-1 ; OldDisp is next to, and lower than ToolDisp lsl.w #16-ToolDisp,d1 ; ccr.c <- ToolDisp, ccr.n <- OldDisp - bpl.s @oldTrap ; if OldDisp = 0, it's an old style trap + bpl.s @newOldTrap ; if OldDisp = 0, it's an old style trap bcc.s @osTrap ; if ToolDisp = 0, it's a new style OS trap ; otherwise, it's a new style ToolBox trap @toolTrap andi.w #numTrapMask,d0 ; clear all but trap bits lea (ToolTable,d0.w*4),a1 ; index into the Toolbox table - bra CacheFlush ; flush inst cache and return (destroys only reg D1) + rts + +@newOldTrap bcc.s @oldTrap + move.l d0,d1 + btst.l #11,d1 + bsr.s @toolTrapInstead + subi #$c000,d1 + cmpi #$1000,d1 + rts @oldTrap andi.w #$01FF,d0 ; clear irrelevant bits moveq.l #-$0057,d1 ; setup to check for ToolBox range @@ -358,10 +367,11 @@ FindTableEntry addq.w #$0057-$004F,d1 ; d1 := TrapNum - $004F ble.s @osTrap ; $0000 … $004F are OS traps subq.w #$0054-$004F,d1 ; d1 := TrapNum - $0054 +@toolTrapInstead bne.s @toolTrap ; $0054 is an OS trap, $50…$53,$55,$56 are tool box @osTrap andi.w #$00FF,d0 ; only 8 bits for OS trap numbers lea (OSTable,d0.w*4),a1 ; index into the OS table - bra.s CacheFlush ; flush inst cache and return (destroys only reg D1) + rts Title 'Dispatch - Get / Set Trap Address' @@ -383,10 +393,8 @@ kComeFromHeader equ (kBranchOverJMPLOpcode << 16) + kJMPLOpcode ; GetTrapAddressTrap ; rb - bsr TrapAddressBits ; makes sure trap word is correct begin - move ccr,-(sp) ; save condition register - bsr.s OldGetTrapAddress ; call the old GetTrapAddress - move (sp)+,ccr ; get condition codes back + bsr.s FindTableEntry + move.l (a1),a0 bcs.s @done ; come-from patches bypass our trickery @next cmp.l #kComeFromHeader,(a0) ; does this have the come-from header? @@ -397,13 +405,6 @@ GetTrapAddressTrap ; rb moveq #0,d0 ; must zero the result code again rts -OldGetTrapAddress ; ; end - - bsr.s FindTableEntry ; locate the dispatch table entry - movea.l (a1),a0 ; get the routine address from the table - moveq.l #noErr,d0 ; return with success - rts ; all done - ;_______________________________________________________________________ ; @@ -423,29 +424,28 @@ SetTrapAddressTrap ; rb move.l (a0),d2 ; get header of trap, and check for bus errors <5>begin - bsr TrapAddressBits ; makes sure trap word is correct rb + bsr.s FindTableEntry ; locate the dispatch table entry + + exg.l d0,a0 bcs.s OldSetTrapAddress ; come-from patches bypass our trickery cmp.l #kComeFromHeader,d2 ; headers can only be used on come-from patches <5> beq.s @illegalHeader ; saw a header, so I must system error <5> - movem.l d0-d1/a0,-(sp) ; save trap address, number, and bits - bsr OldGetTrapAddress ; call the old GetTrapAddress - move.l #0,a1 ; no come-froms found yet -@next + movea.l (a1),a0 + cmp.l #kComeFromHeader,(a0)+ ; does this have the come-from header? - bne.s @done ; no we are done + bne.s OldSetTrapAddress +@next move.l a0,a1 ; remember this address move.l (a0),a0 ; go on to the next - bra.s @next -@done - movem.l (sp)+,d0-d1/a0 ; restore trap address, number, and bits + cmp.l #kComeFromHeader,(a0)+ ; does this have the come-from header? + beq.s @next + move.l d0,(a1) - cmp.l #0,a1 ; any come-froms found? - beq.s OldSetTrapAddress ; no, go do the real SetTrapAddress - move.l a0,(a1) ; set the trap address - move.l jCacheFlush,-(sp) ; get the cache flush vector <9> - rts ; call it, and then return to the trap dispatcher <9> + lea -2(a1),a0 + lea 6,a1 + bra.l FLUSHCRANGE @illegalHeader move.w #dsBadPatchHeader,d0 ; get error code <5> @@ -453,16 +453,13 @@ SetTrapAddressTrap ; rb OldSetTrapAddress - bsr.s FindTableEntry ; locate the dispatch table entry - move.l a0,(a1) ; install the new routine address into the table + move.l d0,(a1) ; install the new routine address into the table moveq.l #noErr,d0 ; return with success - - move.l jCacheFlush,-(sp) ; get the cache flush vector <9> - rts ; call it, and then return to the trap dispatcher <9>end + rts ;_______________________________________________________________________ ; -; Macros: CacheFlush, vCacheFlush +; Macros: CacheFlush, vCacheFlush, DummyCacheFlush ; ; Function: Flush the 68020 Cache. For programs that do self modifying code, etc. ; @@ -481,13 +478,6 @@ CacheFlush rts ; jump through the vector vCacheFlush - move.l d1,-(SP) ; save this f*&%$ng register <5> - movec.l cacr,d1 ; get current cache state of 68020 - addq.w #1<<3,d1 ; flush the instruction cache <1.4> - movec.l d1,cacr ; write back to the control register - move.l (SP)+,d1 ; restore register <5> - rts ; all done - vCacheFlush68040 ; 68040 cache flushing for self-modifying programs <3> ; NOTE - since the 040 I-Cache never gets "dirty", it only needs to be invalidated. <3> @@ -502,6 +492,9 @@ vCacheFlush68040 ; 68040 cache flushing for self-modifying programs <3> rts ; return to caller - no registers destroyed <3> MACHINE MC68020 ; reset to previous MACHINE directive <3> + +DummyCacheFlush + rts Title 'Dispatch - InitDispatcher' ;_______________________________________________________________________ @@ -666,18 +659,14 @@ OSLoop move.l (a2)+,d1 ; get the next entry from the ROM dispatch table EndIf ; Not NewBuildSystem ; now install the trap dispatcher + btst.b #2,$240a + beq.s @noInstallFlusher + lea DummyCacheFlush,a0 + move.l a0,jCacheFlush +@noInstallFlusher + lea EMT1010,a0 ; point to the dispatcher - TestFor has68kEmulator ; Are we emulating a 68020? SAM - beq.s @noEmu ; -> Nope. - lea Rts020Disp,A1 ; Point A1 to an rts (hopefully near some cache resident code) - bra.s @StuffFlush ; -> Install it - -@noEmu cmpi.b #cpu68040,CpuFlag ; check if we need to install 040 Cache Flush routine <3> - bne.s @notAn040 ; NO ... perform 020/030 cache-flush <3> - lea vCacheFlush68040,a1 ; YES ... get addr. of 040 cache flush routine <3> -@StuffFlush move.l a1,jCacheFlush ; ... and install it <3> -@notAn040 ; <3> move.l a0,Line1010 ; install the Line-A exception handler IF forRomulator THEN ; register the Line-A handler with the nub @@ -711,60 +700,5 @@ BadTrap ; rb, start from PatchProtector.a -TrapAddressBits proc export - -; TrapAddressBits -; -; In: -; d0.w trap number -; d1.w [GS]etTrapAddress trap word -; -; Out: -; d1.w (modified) [GS]etTrapAddress trap word -; ccr CC if it is not a come-from, CS if it is a come-from - -; bits in trap numbers and Set/GetTrapAddress opcodes - -TrapNumber record 0 -toolboxBit equ 11 - endr - -TrapAddressOpcode record 0 -newBit equ 9 -toolboxBit equ 10 - endr - - btst #TrapAddressOpcode.newBit,d1 ; is this N[GS]etTrapAddress? - bnz.s @notFullWord ; yes, don’t handle it - btst #TrapAddressOpcode.toolboxBit,d1 ; is this normal [GS]etTrapAddress? - bz.s @notFullWord ; yes, don’t handle it - -@fullWord - ; adjust the trap bits - - bset #TrapAddressOpcode.newBit,d1 ; is this NGetTrapAddress? - btst #TrapNumber.toolboxBit,d0 ; is the trap a Toolbox trap? - bnz.s @toolbox ; yes, leave the bit set - bclr #TrapAddressOpcode.toolboxBit,d1 ; clear bit for OS -@toolbox - - cmp.w #$C000,d0 ; is this a come-from trap word? - blo.s @notComeFrom ; no, it is not - cmp.w #$D000,d0 ; is it a come-from trap word? - bhs.s @notComeFrom ; no, it is not -@comeFrom - ; oooh... carry is set for us, we can return - rts - -@notFullWord -@notComeFrom - and #$FE,ccr ; clear the carry bit - rts - - endproc - -; rb, end - - end diff --git a/OS/Universal.a b/OS/Universal.a --- a/OS/Universal.a +++ b/OS/Universal.a @@ -427,7 +427,7 @@ JumpIntoROM @TryAgain moveq.l #0,d2 ; figure it out from scratch bsr6 GetHardwareInfo ; figure out what we are running on btst.l #ROMExists,d0 ; see if we have a ROM - beq.s @TryAgain ; if not, we're screwed, but try again anyway + beq.s norom ; if not, we're screwed ; Now figure out what the new base of ROM should be, @@ -453,6 +453,7 @@ intoROM ; now we are in ROM adda.l d3,sp ; relocate the stack to rom addresses +norom lea GotBusError,a0 ; get the handler address move.l a0,d0 ; value to search for @loop cmp.l -(a0),d0 ; check for a match @@ -478,8 +479,6 @@ intoROM ; now we are in ROM @TryAgain moveq.l #0,d2 ; figure it out from scratch bsr6 GetHardwareInfo ; figure out what we are running on - btst.l #ROMExists,d0 ; see if we have a ROM - beq.s @TryAgain ; if not, we're screwed, but try again anyway IF NOT ROMinRAM THEN ; rb bsr6 InitVIAs ; initialize the VIAs (turns off vOverlay) @@ -502,33 +501,14 @@ intoROM ; now we are in ROM move.l d0,d3 ; save a copy of d0 move.l #EgretFWMask,d0 ; mask for Egret Firmware {rbm}<2> and.l d1,d0 ; isolate the field {rbm}<2> - sub.l #Egret8,d0 ; see if we have Egret FW {rbm}<2> - beq.w @DoEgretInit ; do Egret 8 FW INIT, LC/si {rbm}<2> - sub.l #Egret8,d0 ; see if we have Caboose FW {rbm}<2> - beq.s @CudaDone ; just exit Quadra900 {rbm}<2> PN - sub.l #Egret8,d0 ; see if we have Cuda FW {rbm}<2> + beq.s @CudaDone + + cmpi.l #$3000000, D0 bne.s @CudaDone ; if not, just exit {rbm}<2> IF NOT ROMinRAM THEN ; rb BigBSR6 CudaInit ;Setup Cuda Sysnc Ack with System {rbm}<2> - bra.s @CudaDone ; ENDIF ; rb -@DoEgretInit ; - movea.l DecoderInfo.VIA1Addr(a0),a1 ; get VIA 1 base address - move.w #4000,d0 ; -@wait - eieioSTP - tst.b (a1) ; sync to hardware for 1.2µS per access - - dbra d0,@wait ; Egret must see idle before command, it's busy - ; doing ADB reset for 3mSec so delay in idle state - eieioSTP - move.l #(NopCmd<<16)|pseudoPkt,d0 ; - moveq #0,d2 ; no bytes to send - bsr6 SendEgretCmd ; send the command to disable async. messages - moveq.l #0,d2 ; figure it out from scratch - bsr6 GetHardwareInfo ; restore all the registers we trashed - move.l d0,d3 ; by calling SendEgretCmd @CudaDone move.l d3,d0 ; restore d0 @@ -786,10 +766,8 @@ intoROM ; now we are in ROM move.l VIA1Addr(a0),a2 ; get VIA1 address to get machine/cpu_speed info moveq #%00101000,d3 ; force VIA1 VDirA to have the correct directions - eieioSTP move.b d3,VDirA(a2) ; ... so we can read the CPU ID extension info moveq #%00010100,d3 ; get VBufA, bits PA4, PA2 (dont need PA6, PA1) - eieioSTP and.b VBufA(a2),d3 ; get plastics_type/cpu_speed information @hasValue lsr.b #2,d3 ; shift over to get PA2 in LSBit btst #4-2,d3 ; test PA4. remember it's been shifted from bit pos. 4->2 @@ -802,7 +780,6 @@ intoROM ; now we are in ROM tst.w (@MachineTbl,d4.w*2) ; if entry is zero, you've hit EndOfTable beq.s @unknownMachine ; deal with unknown machine moveq.l #%01010110,d0 ; CPU ID mask value for VIA - eieioSTP and.b VBufA(a2),d0 ; get CPU ID value cmp.b (@MachineTbl+1,d4.w*2),d0 ; is it this machine? bne.s @nextEntry ; no, try again @@ -922,11 +899,10 @@ intoROM ; now we are in ROM ALIGN 16 ; <60><62> rb, for the 040 emulator... dc.l 0,0,0,0 ; end of list - dc.l (GotBusError-BaseOfRom)+$40A00000 ; base of Elsie II ROM rb - dc.l (GotBusError-BaseOfRom)+$00A00000 ; base of Elsie ROM <51> dc.l (GotBusError-BaseOfRom)+$40000000 ; alternate base of normal ROM <58> rb dc.l (GotBusError-BaseOfRom)+$40800000 ; base of normal ROM dc.l (GotBusError-BaseOfRom)+$00000000 ; base of overlay ROM + dc.l (GotBusError-BaseOfRom)+$FFC00000 ; base of NewWorld ROM? GotBusError btst.l #beok,d7 ; indicate that bus error occured move.l a5,a7 ; restore stack @@ -962,9 +938,6 @@ InitVIAs movea.l VIA1Addr(a0),a2 ; get VIA base address rb movea.l a1,a3 ; get product info ptr rb adda.l VIA1InitPtr(a3),a3 ; point to the init info rb - - btst.l #PSCExists,d0 ; is this a Cyclone ? rb rb, start - beq.s @WombatVIAInit ; if not, check if we're a Wombat ; ; This change is valid only for the Cyclone VIA1 Info Table... ; The other machine tables will have to be updated to follow this initialization @@ -972,68 +945,16 @@ InitVIAs ; in a different order than in previous ROMS... THIS MUST BE UPDATED!!!! ; gjs ???? ; - eieioSTP - move.b (a3)+,vDirA(a2) ; init direction for port A gjs - eieioSTP move.b (a3)+,vBufA(a2) ; init output port A gjs - eieioSTP - move.b (a3)+,vDirB(a2) ; init direction for port B gjs + move.b (a3)+,vDirA(a2) ; init direction for port A gjs eieioSTP move.b (a3)+,vBufB(a2) ; init output port B gjs + move.b (a3)+,vDirB(a2) ; init direction for port B gjs eieioSTP move.b (a3)+,vPCR(a2) ; init peripheral control reg rb - eieioSTP move.b (a3)+,vACR(a2) ; init auxiliary control reg rb - eieioSTP move.b #$7F,vIER(a2) ; Disable all VIA interrupts. rb - eieioSTP - bra.s @VIA1done ; cool, keep going rb -@WombatVIAInit ; - IF hasDJMEMC THEN ; rb - cmpi.b #djMEMCDecoder,d2 ; are we on a Wombat? - bne.s @doOldVIAInit ; if not, initialize VIAs the old way - eieioSTP - move.b (a3)+,vBufA(a2) ; init output port A - eieioSTP - move.b (a3)+,vDirA(a2) ; init direction for port A - eieioSTP - move.b #$1C,vACR(a2) ; enable shift-out on ACR - eieioSTP - move.b #0,vSR(a2) ; preset shift register with an ADB resetCmd - eieioSTP - move.b (a3)+,vBufB(a2) ; init output port B - eieioSTP - move.b (a3)+,vDirB(a2) ; init direction for port B - eieioSTP - move.b -2(a3),vBufB(a2) ; (re-)init output port B - eieioSTP - move.b (a3)+,vPCR(a2) ; init peripheral control reg - eieioSTP - move.b (a3)+,vACR(a2) ; init auxiliary control reg - eieioSTP - move.b #$7F,vIER(a2) ; Disable all VIA interrupts. - eieioSTP - bra.s @VIA1done ; cool, keep going - ENDIF ; rb - -@doOldVIAInit ; rb, start - eieioSTP - move.b (a3)+,vBufA(a2) ; init output port A - eieioSTP - move.b (a3)+,vDirA(a2) ; init direction for port A - eieioSTP - move.b (a3)+,vBufB(a2) ; init output port B - eieioSTP - move.b (a3)+,vDirB(a2) ; init direction for port B - eieioSTP - move.b (a3)+,vPCR(a2) ; init peripheral control reg - eieioSTP - move.b (a3)+,vACR(a2) ; init auxiliary control reg - eieioSTP - move.b #$7F,vIER(a2) ; Disable all VIA interrupts. - eieioSTP - @VIA1done btst.l #VIA2Exists,d0 ; see if we have VIA2 beq.s @VIA2done ; if not, skip it @@ -1048,40 +969,27 @@ InitVIAs Move.b PSCVIA2SInt(A2), D3 ; get PortA (slots) current values - eieioSTP Or.b (A3)+, D3 ; or in via2 init info values - eieioSTP Move.b D3, PSCVIA2SInt(A2) ; save new values - eieioSTP Move.b #$7F, PSCVIA2IER(A2) ; disable all VIA2 interrupts. - eieioSTP Move.b #$40, PSCVIA2IFR(A2) ; clear sound frame int. - eieioSTP Bra.s @VIA2done ; this takes care of Cyclones @NonPSC ; rb, end ENDIF ; rb - eieioSTP move.b vBufA(a2),d3 ; get current values - eieioSTP or.b (a3)+,d3 ; or in the default values - eieioSTP move.b d3,vBufA(a2) ; init output port A - eieioSTP move.b (a3)+,vDirA(a2) ; init direction for port A eieioSTP move.b (a3)+,vBufB(a2) ; init output port B - eieioSTP move.b (a3)+,vDirB(a2) ; init direction for port B eieioSTP move.b (a3)+,vPCR(a2) ; init peripheral control reg - eieioSTP move.b (a3)+,vACR(a2) ; init auxiliary control reg - eieioSTP move.b #$7F,vIER(a2) ; Disable all VIA2 interrupts. - eieioSTP ; Simulate the Macintosh VBL interrupt by using timer 1 to output a square wave on PB7 of VIA #2. ; On NuMac, this output is tied to the CA1 pin of VIA #1 which is used for VBL on a Mac. @@ -1095,71 +1003,10 @@ InitVIAs @T2Count equ ((704*370)/20)/2-2 ; VIA ticks per half-cycle - eieioSTP move.b #@T2Count**$FF,vT1C(a2) ; Load low byte into counter/latch. - eieioSTP move.b #@T2Count>>8,vT1CH(a2) ; Load high byte and off we go! - eieioSTP @VIA2done - btst.l #RBVExists,d0 ; see if we have an RBV - beq.s @RBVdone ; if not, skip it - - movea.l RBVAddr(a0),a2 ; get RBV base address - eieioSTP - move.b #$7F,RvIER(a2) ; disable all interrupts - eieioSTP - move.b #$8F,RvDataB(a2) ; initialize data reg. B <1.3> - eieioSTP - - BTST #MSCChipBit,D1 ; are we using an MSC variant? - BEQ.S @NoMSC ; -> no, continue on - -; This is the point where we check to see if an external FPU is attached to -; the system. In the case of Escher, the onboard FPU will power up disabled, -; but we want to enable it here if we don't detect anything else sitting on -; the coprocessor bus. -; -; The idea is to move VBR DOWN the difference between the F-Line and -; BusError, so that if you were to execute an F-Line instruction and -; couldn't handle it, you would end up fetching the address of the -; BusErrVector and going thru the BusErrVector. The BusErr handler -; expects A6 to contain the address of where it should return TO. - - movec VBR,d3 ; retrieve VBR - sub.l #Line1111-BusErrVct,d3 ; temporarily move VBR down - movec d3,VBR ; shuffle VBR for F-Line test - moveq #1,d3 ; non-zero value in D3 for later comparison - move.l a7,a5 ; sp to restore if you dont have an FPU - move.l a6,a3 ; save return address - bset #beok,d7 ; set bus error expected flag - lea @noFPU,a6 ; where to come back to if you dont have an FPU - - FNOP ; execute suspect command - clr.l d3 ; if you got here, you already have an FPU - -@noFPU tst.b d3 ; - beq.s @ignore ; already using an FPU so ignore internal - bclr #MSCEnableFPU,RvDataB(a2);enable onboard FPU -@ignore - movec VBR,d3 ; return VBR to it's old value - add.l #Line1111-BusErrVct,d3 - movec d3,VBR ; ... so everyone is happy - bclr #beok,d7 ; release bus error expected flag - move.l a3,a6 ; restore return address - - MOVE.B #$7F,RvSEnb(A2) ; disable all slot interrupts - eieioSTP - RTS6 ; -@NoMSC ; - - eieioSTP - move.b #1< - eieioSTP - move.b #$FF,RvSEnb(a2) ; set all slots to be interrupt enabled - eieioSTP -@RBVdone - rts6 @@ -1205,6 +1052,13 @@ GetHardwareInfo bra HasNoCPUIDReg ; ->CONTINUE in GetHardwareInfo using old recognition method rb @foundCPUIDReg ; ENDIF + + cmpi.l #'Hnfo',([$68FFEFD0],$70) ; NKHWInfo.Signature, fix this later + bne.s @tryOldWay + import InfoNewWorld + biglea InfoNewWorld,a1 + bra Matched +@tryOldWay biglea CPUIDProductLookup-4,a2 ; get address of CPUID product lookup table @MatchLoop ; LOOP (through product info entries to match CPU ID) addq.w #4,a2 ; bump to next entry @@ -1217,10 +1071,6 @@ GetHardwareInfo btst #11,d0 ; is the complete CPU ID in the CPUID register? beq Matched ; -> yes, we've got it - cmpi.b #PrattDecoder,\ ; IF Decoder is a Pratt THEN - DecoderKind(a1) ; Found Match - beq Matched ; { For Now just handle one case } - movea.l DecoderInfoPtr(a1),a0 ; get the pointer to this machine's decoder table adda.l a1,a0 move.l DefaultBases(a0),d0 ; and get the default bases flags @@ -1280,19 +1130,137 @@ UnknownCPU bra.s UnknownCPU ; Ack! HasNoCPUIDReg ; fall through to @MatchLoop tst.b d2 ; check address decoder kind - beq.s FindDecoder ; if unknown decoder, search for it. + beq FindDecoder ; if unknown decoder, search for it. ; The ProductKind and DecoderKind are setup in D2, find the matching ProductInfo record. biglea ProductLookup-4,a0 ; point before the first product to check for @MatchLoop addq.w #4,a0 ; point to next product to check for move.l (a0),d0 ; see if end of list reached - beq.s FindDecoder ; if end, look start over, looking for decoder first + beq FindDecoder ; if end, look start over, looking for decoder first lea (a0,d0.l),a1 ; a1 := pointer to ProductInfo record cmp.w ProductKind(a1),d2 ; see if product and decoder match bne.s @MatchLoop ; if not, keep searching FoundMatch + Move.L BasesValid1(A1), D0 + BTst.L #$1E, D0 + BEQ @skipAllThis + MoveA.L ([$68FFEFD0],$8), A0 ; NKHWInfo.UniversalInfoTableBase + Move.B $12(A1), D0 + Move.B D0, $12(A0) + Move $14(A1), D0 + Move D0, $14(A0) + Move.B $16(A1), D0 + Move.B D0, $16(A0) + Move $10(A1), D0 + Or D0, $10(A0) + MoveA.L (A0), A2 + AddA.L A0, A2 + Move.L $24(A1), D0 + Or.L D0, $24(A0) + Or.L D0, -$1C(A2) + Move.L $28(A1), D0 + Or.L D0, $28(A0) + Or.L D0, -$18(A2) + Move.L $2C(A1), D0 + Or.L D0, $2C(A0) + Or.L D0, -$14(A2) + MoveA.L A1, A2 + SubA.L A0, A2 + Move.L A1, D0 + MoveA.L $8(A1), A1 + Tst.L A1 + BEQ.B (* + $4) + AddA.L A2, A1 + Move.L A1, $8(A0) + MoveA.L D0, A1 + MoveA.L $4(A1), A1 + Tst.L A1 + BEQ.B (* + $4) + AddA.L A2, A1 + Move.L A1, $4(A0) + MoveA.L D0, A1 + MoveA.L $C(A1), A1 + Tst.L A1 + BEQ.B (* + $4) + AddA.L A2, A1 + Move.L A1, $C(A0) + MoveA.L D0, A1 + MoveA.L $38(A1), A1 + Tst.L A1 + BEQ.B (* + $4) + AddA.L A2, A1 + Move.L A1, $38(A0) + MoveA.L D0, A1 + MoveA.L $3C(A1), A1 + Tst.L A1 + BEQ.B (* + $4) + AddA.L A2, A1 + Move.L A1, $3C(A0) + MoveA.L D0, A1 + MoveA.L $40(A1), A1 + Tst.L A1 + BEQ.B (* + $4) + AddA.L A2, A1 + Move.L A1, $40(A0) + MoveA.L D0, A1 + MoveA.L $44(A1), A1 + Tst.L A1 + BEQ.B (* + $4) + AddA.L A2, A1 + Move.L A1, $44(A0) + MoveA.L D0, A1 + MoveA.L $48(A1), A1 + Tst.L A1 + BEQ.B (* + $4) + AddA.L A2, A1 + Move.L A1, $48(A0) + MoveA.L D0, A1 + MoveA.L $4C(A1), A1 + Tst.L A1 + BEQ.B (* + $4) + AddA.L A2, A1 + Move.L A1, $4C(A0) + MoveA.L D0, A1 + MoveA.L $50(A1), A1 + Tst.L A1 + BEQ.B (* + $4) + AddA.L A2, A1 + Move.L A1, $50(A0) + MoveA.L D0, A1 + MoveA.L $64(A1), A1 + Tst.L A1 + BEQ.B (* + $4) + AddA.L A2, A1 + Move.L A1, $64(A0) + MoveA.L D0, A1 + MoveA.L $5C(A1), A1 + Tst.L A1 + BEQ.B (* + $4) + AddA.L A2, A1 + Move.L A1, $5C(A0) + MoveA.L D0, A2 + MoveA.L A2, A1 + Move.B $68(A1), D0 + Move.L D0, $68(A0) + MoveQ.L #$0, D0 + Move ([$68FFEFD0],$76), D0 ; NKHWInfo.CPU_ID + Move D0, $58(A0) + biglea CPUIDProductLookup,a2 + Lea.L $8(A2), A2 + Tst.L (A2) + BEQ.B @is_single_entry_table + Cmp.L (A2), D0 + BNE.B (* + -$A) + Move.L $4(A2), D0 + Bra.B @common_path +@is_single_entry_table + Move.L $60(A1), D0 +@common_path + Move.L D0, $60(A0) + MoveA.L A0, A1 +@skipAllThis movea.l DecoderInfoPtr(a1),a0 ; get offset to DecoderInfo record adda.l a1,a0 ; make it absolute @@ -1331,39 +1299,16 @@ MapFound movea.l d0,a2 ; now save return address in A2 and.l VIAIdMask(a1),d0 ; mask them cmp.l VIAIdMatch(a1),d0 ; see if they match bne.s @MatchLoop ; if not, try the next product - bra.s FoundMatch ; if found, return the info + bra FoundMatch ; if found, return the info CheckBases move.l DefaultBases(a0),d0 ; get the default base flags movea.l a6,a0 ; save return address - btst.l #RBVExists,d0 ; see if RBV might be allowed - beq.s @RBVDone ; if not, don't test for one - movea.l DecoderInfoPtr(a1),a2 ; get offset to decoder info - movea.l RBVAddr(a1,a2.l),a2 - lea RvIER(a2),a2 ; base address of RBV VIER register - bsr6 TestForRvIER ; see if RBV exists - beq.s @RBVDone ; if found, has RBV and VDAC - bclr.l #RBVExists,d0 ; no RBV, clear the bit - bclr.l #VDACExists,d0 ; if no RBV, then assume no VDAC either -@RBVDone - - bclr.l #VIA2Exists,d0 ; see if VIA2 might be allowed + bclr.l #VIA2Exists,d0 beq.s @VIA2Done ; if not, don't test for one movea.l DecoderInfoPtr(a1),a2 ; get offset to decoder info - movea.l VIA2Addr(a1,a2.l),a2 ; get VIA2 base address - - IF hasPSC THEN ; rb - btst.l #PSCExists, D0 ; do we have PSC? rb, start - Beq.s @noPSC ; no, do horror style VIA2 init - - - lea PSCVIA2IER(a2),a2 ; base address of PSC VIA2 VIER register - Bra.s @gotVIA2 - -@noPSC ; - ENDIF ; rb - + movea.l VIA2Addr(a1,a2.l),a2 lea VIER(a2),a2 ; base address of VIA2 VIER register @gotVIA2 ; rb, end bsr6 TestForVIER ; see if VIA2 exists @@ -1371,31 +1316,6 @@ CheckBases bset.l #VIA2Exists,d0 ; has VIA2, set the bit @VIA2Done - IF hasIopSwim THEN ; rb - bclr.l #SWIMIOPExists,d0 ; see if SWIMIOP might be allowed - beq.s @SWIMIOPDone ; if not, don't test for one - movea.l DecoderInfoPtr(a1),a2 ; get offset to decoder info - movea.l SWIMIOPAddr(a1,a2.l),a2 - bsr6 TestForIOP ; see if SWIM IOP exists - bne.s @SWIMIOPDone ; if not found, has regular IWM - bclr.l #IWMExists,d0 ; no regular IWM, clear the bit - bset.l #SWIMIOPExists,d0 ; has SWIMIOP, set the bit -@SWIMIOPDone - ENDIF ; rb - - IF hasIopScc THEN ; rb - bclr.l #SCCIOPExists,d0 ; see if SCCIOP might be allowed - beq.s @SCCIOPDone ; if not, don't test for one - movea.l DecoderInfoPtr(a1),a2 ; get offset to decoder info - movea.l SCCIOPAddr(a1,a2.l),a2 - bsr6 TestForIOP ; see if SCC IOP exists - bne.s @SCCIOPDone ; if not found, has regular SCC - bset.l #SCCIOPExists,d0 ; has SCCIOP, set the bit - bclr.l #SCCrdExists,d0 ; no regular SCC, clear the bit - bclr.l #SCCwrExists,d0 ; no regular SCC, clear the bit -@SCCIOPDone - ENDIF ; rb - bclr.l #SCSIDMAExists,d0 ; see if SCSIDMA might be allowed beq.s @SCSIDMADone ; if not, don't test for one movea.l DecoderInfoPtr(a1),a2 ; get offset to decoder info @@ -1435,57 +1355,12 @@ CheckBases @SCSI96Done ENDIF ; rb - bclr.l #RPUExists,d0 ; see if RPU might be allowed - beq.s @RPUDone ; if not, don't test for one - movea.l DecoderInfoPtr(a1),a2 ; get offset to decoder info - movea.l RPUAddr(a1,a2.l),a2 - bsr6 TestForRPU ; see if SCSI DMA exists - bne.s @RPUDone ; if not found, no parity chip - bset.l #RPUExists,d0 ; has SCSI DMA, set the bit -@RPUDone - movea.l a0,a6 ; restore return address movea.l a1,a0 ; get product info pointer adda.l DecoderInfoPtr(a0),a0 ; get decoder info pointer CheckOptionals move.l HwCfgWord(a1),d2 ; access hardware cfg flags <8> - btst.l #hwCbFPU+16,d2 ; should FPU be installed - beq.s FPUDone ; branch if it shouldn't be installed - movea.l a6,a2 ; save return address - bra TestForFPU ; see if FPU installed -FPUReturn movea.l a2,a6 ; restore return address - beq.s FPUDone ; branch if FPU found - bclr.l #hwCbFPU+16,d2 ; otherwise,clear FPU installed flag - -FPUDone - - bset.l #beok,d7 ; allow bus errors - movea.l a7,a5 ; mark the stack for bus error handler - - bclr.l #SonicExists,d0 ; see if Sonic might be allowed - beq.s @SonicDone ; if not, don't test for one - move.l a1,d1 ; save a1 - move.l SonicAddr(a0),a1 ; get Sonic Base Address - movea.l a6,a2 ; save return address - bsr6 TestForSonic ; see if Sonic exists - movea.l a2,a6 ; restore return address - move.l d1,a1 ; restore a1 - bne.s @SonicDone ; if not found, no Sonic chip - bset.l #SonicExists,d0 ; has Sonic, set the bit -@SonicDone - - bclr.l #PatchROMExists,d0 ; see if PatchRom might be allowed .start - beq.s @PatchROMDone ; if not, don't test for one - move.l a1,d1 ; save a1 - move.l PatchRomAddr(a0),a1 ; get PatchRom Base Address - movea.l a6,a2 ; save return address - bsr6 TestForPatchRom ; see if PatchRom exists - movea.l a2,a6 ; restore return address - move.l d1,a1 ; restore a1 - bne.s @PatchRomDone ; if not found, no PatchRom chip - bset.l #PatchRomExists,d0 ; has PatchRom, set the bit .end -@PatchROMDone ; External features checked after CheckOptionals so that d1 can be used as a scratch register CheckFeatures ; <11> @@ -1538,32 +1413,6 @@ CheckExtBases1 move.l DefaultBases1(a0),d0 ; get the default base flags for #32-63 movea.l a6,a0 ; save return address -;--------------- -; Call "TestFor…" routines here to verify devices for #32-63 -;--------------- -; begin fau -; See if we have a Muni - - btst.l #MuniExists-32,d0 ; see if MUNI might be allowed - beq.s @MuniDone ; if not, don't test for one - movea.l DecoderInfoPtr(a1),a2 ; get offset to decoder info - movea.l (MUNIAddr,a1,a2.l),a2 ; get MUNI's base addresses - bsr6 TestForMUNI ; and go test for it - beq.s @MUNIDone ; if found, has MUNI - bclr.l #MUNIExists-32,d0 ; no MUNI, clear the bit -@MUNIDone - -; See if we have a BART - - btst.l #BartExists-32,d0 ; see if BART might be allowed - beq.s @BartDone ; if not, don't test for one - movea.l DecoderInfoPtr(a1),a2 ; get offset to decoder info - movea.l (BartAddr,a1,a2.l),a2 ; get BART's base addresses - bsr6 TestForBART ; and go test for it - beq.s @BartDone ; if found, has BART - bclr.l #BartExists-32,d0 ; no BART, clear the bit -@BartDone -; end fau movea.l a0,a6 ; restore return address movea.l a1,a0 ; get product info pointer adda.l DecoderInfoPtr(a0),a0 ; get decoder info pointer @@ -1697,12 +1546,9 @@ CheckForMDU lea CheckNextMap,a6 ; if bus errors, not an MDU movea.l RBVAddr(a0),a2 - eieioSTP tst.b (a2) ; RBV should never bus error movea.l VDACAddr(a0),a2 - eieioSTP tst.b (a2) ; VDAC should never bus error - eieioSTP bra.w MapFound ; it's a MDU decoder ENDIF ; rb @@ -1800,12 +1646,9 @@ CheckForVISADecoder lea CheckNextMap,a6 ; if bus errors, not an MDU movea.l RBVAddr(a0),a2 - eieioSTP tst.b (a2) ; VISA should never bus error movea.l VDACAddr(a0),a2 - eieioSTP tst.b (a2) ; VDAC should never bus error - eieioSTP bra.w MapFound ; if not, it's a VISA decoder ENDIF ; rb @@ -1977,227 +1820,30 @@ CheckForUnknown TestForVIER ; A2 := address of VIER register to test moveq.l #0,d2 ; D2 := wrap offset to test TestVIERWrap ; A2 := address of VIER register to test - eieioSTP tst.b (a2,d2.l) ; make sure wrap address can be accessed - eieioSTP move.b (a2),d1 ; save old VIER value - eieioSTP rol.w #8,d1 ; save it in the next byte st.b d1 ; test pattern := $FF move.b d1,(a2) ; set all bits of VIER eieioSTP @loop neg.b d1 ; pattern of bit to clear - eieioSTP move.b d1,(a2) ; clear the lowest order bit + eieioSTP add.b d1,d1 ; shift the test pattern beq.s @exit ; exit when all bits shifted out neg.b d1 ; convert to mask of bits that should be set - eieioSTP cmp.b (a2,d2.l),d1 ; see if they are set at the wrap address - eieioSTP bne.s @exit ; if not, exit cmp.b (a2),d1 ; see if they are set at the standard address - eieioSTP beq.s @loop ; if so, keep testing @exit ror.w #8,d1 ; get saved VIER value - eieioSTP move.b #$7F,(a2) ; prepare to restore (clear all bits) eieioSTP move.b d1,(a2) ; restore original VIER value - eieioSTP lsr.w #8,d1 ; 0 if VIER found rts6 -;_______________________________________________________________________ -; -; Routine: TestForRvIER -; Inputs: A2 - Address of the RvIER register to test -; A6 - return address -; A5, A7, D7, VBR - setup for bus error handler -; -; Outputs: ccr.z - 0 (bne) if not a valid RvIER register, or bus error. -; - 1 (beq) if valid RvIER register found. -; -; Destroys: D1, D2 -; Called by: BSR6 -; -; Function: Checks to see if the specified I/O register is a RBV IER -; (interrupt enable) register, by first setting all bits of -; the register, and then clearing each bit individually. -; There are some reserved bits in the RvIER register, which -; are ignored by this test. -; -;_______________________________________________________________________ - -TestForRvIER ; A2 := address of RvIER register to test - move.b (a2),d1 ; save old RvIER value - rol.w #8,d1 ; save it in the next byte - st.b d1 ; test pattern := $FF - eieioSTP - move.b d1,(a2) ; set all bits of RvIER -@loop - neg.b d1 ; pattern of bit to clear - eieioSTP - move.b d1,(a2) ; clear the lowest order bit - add.b d1,d1 ; shift the test pattern - beq.s @exit ; exit when all bits shifted out - neg.b d1 ; convert to mask of bits that should be set - eieioSTP - move.b (a2),d2 ; get the RvIER value - eor.b d1,d2 ; compare them - andi.b #$9F,d2 ; ignore the reserved bits - beq.s @loop ; if match found, keep testing -@exit ror.w #8,d1 ; get saved RvIER value - eieioSTP - move.b #$7F,(a2) ; prepare to restore (clear all bits) - eieioSTP - move.b d1,(a2) ; restore original RvIER value - eieioSTP - lsr.w #8,d1 ; 0 if RvIER found - rts6 - -;_______________________________________________________________________ -; -; Routine: TestForSCC -; Inputs: A2 - Base write address of the SCC to test for. -; D2 - offset to SCC read base address from write base -; A6 - return address -; A5, A7, D7, VBR - setup for bus error handler -; -; Outputs: ccr.z - 0 (bne) if SCC not found, or bus error. -; - 1 (beq) if valid SCC found. -; -; Destroys: D1 -; Called by: BSR6 -; -; Function: Checks to see if the specified I/O registers point to an -; SCC. The read and write addresses may be specified separatly -; since some address decoders require this. An SCC is detected -; by writing a two byte signature to the time constant register -; and reading it back. The old value is saved and restored to -; make this test non-destructive. In order to meet SCC timing -; requirements on systems like the Mac Plus that do not provide -; a hardware holdoff, extra delays are introduced between SCC -; accesses. -; -;_______________________________________________________________________ - -TestForSCC ; A2 := address of SCCrd - ; D2 := offset of SCCwr-SCCrd - eieioSTP - tst.b bCtl(a2,d2.l) ; reset register pointer to reg 0 - ror.b #8,d1 ; kill some time, non-destructive - - eieioSTP - move.b #13,bCtl(a2) ; point to register 13, time const high - ror.b #8,d1 ; kill some time, non-destructive - eieioSTP - move.b bCtl(a2,d2.l),d1 ; save old time const high byte - ror.b #8,d1 ; kill some time, non-destructive - eieioSTP - move.b #12,bCtl(a2) ; point to register 12, time const low - lsl.l #8,d1 ; make room for low byte, kill time - eieioSTP - move.b bCtl(a2,d2.l),d1 ; save old time const low byte - ror.b #8,d1 ; kill some time, non-destructive - - eieioSTP - move.b #13,bCtl(a2) ; point to register 13, time const high - ror.b #8,d1 ; kill some time, non-destructive - eieioSTP - move.b #'G',bCtl(a2) ; load in signature high byte - ror.b #8,d1 ; kill some time, non-destructive - eieioSTP - move.b #12,bCtl(a2) ; point to register 12, time const low - ror.b #8,d1 ; kill some time, non-destructive - eieioSTP - move.b #'D',bCtl(a2) ; load in signature low byte - ror.b #8,d1 ; kill some time, non-destructive - - eieioSTP - move.b #13,bCtl(a2) ; point to register 13, time const high - lsl.l #8,d1 ; make room for byte, kill time - eieioSTP - move.b bCtl(a2,d2.l),d1 ; read back signature high byte - ror.b #8,d1 ; kill some time, non-destructive - eieioSTP - move.b #12,bCtl(a2) ; point to register 12, time const low - lsl.l #8,d1 ; make room for byte, kill time - eieioSTP - move.b bCtl(a2,d2.l),d1 ; read back signature low byte - subi.w #'GD',d1 ; see if signature matched - ror.l #8,d1 ; setup to restore, kill some time - - eieioSTP - move.b #12,bCtl(a2) ; point to register 12, time const low - ror.l #8,d1 ; position saved low byte of time const - eieioSTP - move.b d1,bCtl(a2) ; restore original time const low byte - ror.b #8,d1 ; kill some time, non-destructive - eieioSTP - move.b #13,bCtl(a2) ; point to register 13, time const high - lsr.l #8,d1 ; get the high byte - eieioSTP - move.b d1,bCtl(a2) ; restore original time const high byte - - lsr.l #8,d1 ; test signature for match - rts6 ; all done - -;_______________________________________________________________________ -; -; Routine: TestForIOP -; Inputs: A2 - Base address of IOP to test for. -; A6 - return address -; A5, A7, D7, VBR - setup for bus error handler -; -; Outputs: ccr.z - 0 (bne) if IOP not found, or bus error. -; - 1 (beq) if valid IOP found. -; -; Destroys: D1, D2 -; Called by: BSR6 -; -; Function: Checks to see if the specified I/O registers point to an -; IOP. Since the IOP chip generates it's own DSACK, a Bus -; Error may occur if it doesn't exist, which would cause this -; routine to return through the bus error handler, indicating -; that an IOP doesn't exist. If no bus errors occur, we -; verify that a long word read from the IOPRamData register -; causes the IOPRamAddr register to incement by 4. All of the -; IOP registers used are saved and restored, making this test -; non-destructive. -; -;_______________________________________________________________________ - -TestForIOP ; A2 := Base address of IOP to test - eieioSTP - move.b iopStatCtl(a2),d1 ; save status/ctl register value - moveq.l #(1< - eieioSTP - move.b d2,iopStatCtl(a2) ; enable register pointer incrementing - eieioSTP - tst.l iopRamData(a2) ; read and ignore 4 bytes of Ram - eieioSTP - move.w iopRamAddr(a2),d2 ; save updated Ram Address register value - eieioSTP - move.w d1,iopRamAddr(a2) ; restore Ram Address register value - subq.w #4,d2 ; back off the 4 byte increment - sub.w d1,d2 ; check for increment - swap d1 ; get status ctl reg - andi.b #-1-(1< TestForSCSI96 ; A2 = Base address of SCSI port to test - eieioSTP tst.b $c0(a2) ; try to read configuration #3 register (r/w) - eieioSTP cmpi.b #$04, $c0(a2) ; ...verify data written in config. regr 3 - eieioSTP rts6 - -;_______________________________________________________________________ -; -; Routine: TestForRPU -; Inputs: A2 - Base address of RPU to test for. -; A6 - return address -; A5, A7, D7, VBR - setup for bus error handler -; -; Outputs: ccr.z - 0 (bne) if RPU not found, or bus error. -; - 1 (beq) if valid RPU found. -; -; Destroys: D1,D2 -; Called by: BSR6 -; -; Function: Checks to see if the RPU (Ram Parity Unit) is present by writing -; to the WWP bit of the chip (the only r/w bit) and reading back, -; making sure bus capacitance doesn't make it look valid. -; -;_______________________________________________________________________ -TestForRPU ; - eieioSTP - tst.b (a2) ; x First 4 reads are unique - eieioSTP - tst.b (a2) ; x - eieioSTP - tst.b (a2) ; PDCA Read out the parity daisy chain bits - eieioSTP - tst.b (a2) ; PDCB and toss them (no where to save them) - - eieioSTP - st.b rpuReset(a2) ;reset the RPU serial pointer - eieioSTP - move.b (a2),d2 ;save the WWP bit - - eieioSTP - st.b rpuReset(a2) ;reset the RPU serial pointer - eieioSTP - st.b (a2) ;set the WWP bit - eieioSTP - clr.b rpuReset(a2) ;force bus low, reset pointer - moveq #1,d1 ;check bit 0 - eieioSTP - and.b (a2),d1 ;read WWP bit - seq.b d1 ;d1=FF if WWP bit was 0 - beq.s @exit ;exit if WWP bit=0 - - eieioSTP - st.b rpuReset(a2) ;reset the RPU serial pointer - clr.b (a2) ;clear the WWP bit - eieioSTP - st.b rpuReset(a2) ;force bus high, reset pointer - moveq #1,d1 ;check bit 0 - eieioSTP - and.b (a2),d1 ;read WWP bit - -@exit - eieioSTP - st.b rpuReset(a2) ;reset pointer for exit - move.b d2,(a2) ;restore WWP bit - tst.b d1 ;test result - eieioSTP - rts6 - -;_______________________________________________________________________ -; -; Routine: TestForMUNI -; Inputs: A2 - Address of the MUNI Control register to test -; A6 - return address -; A5, A7, D7, VBR - setup for bus error handler -; -; Outputs: ccr.z - 0 (bne) if not a valid MUNI Control register, or bus error. -; - 1 (beq) if valid MUNI Control register found. -; -; Destroys: D1, D2 -; Called by: BSR6 -; -; Function: Checks to see if the specified MUNI Control register -; exists by writing to it and seeing if we get a bus error. -; If we do, then we have no MUNI. -; Since the MUNI chip generates it's own -; DSACK, a Bus Error may occur if it doesn't exist, which would -; cause this routine to return through the bus error handler, -; indicating that it doesn't exist. For now we just simply test -; to see if we can read the control register without getting -; a bus error. If we are successful, we assume that the chip -; exists. This test may need to be improved in the future. -; -; -;_______________________________________________________________________ - -TestForMUNI ; A2 := address of MUNI register to test - eieioSTP - tst.l MUNI_Control(a2) ; try to read the control register - eieioSTP - cmp.b d1,d1 ; if no bus error, assume that it exists - rts6 - - - -;_______________________________________________________________________ -; -; Routine: TestForBart -; Inputs: A2 - Address of BART -; A6 - return address -; A5, A7, D7, VBR - setup for bus error handler -; -; Outputs: ccr.z - 0 (bne) if no BART, or bus error. -; - 1 (beq) if BART found. -; -; Destroys: D1, D2 -; Called by: BSR6 -; -; Function: Checks to see if BART exists by accessing it and seeing if -; we get a bus error. If we do, then we don't have a BART. This -; test should be extended in the future to check the version register -; in BART. -; -; -;_______________________________________________________________________ - -TestForBart ; A2 := address of BART register to test - eieioSTP - tst.b (a2) ; try to read BART - cmp.b d1,d1 ; if no bus error, assume that it exists - eieioSTP - rts6 - - - -; fau start -;_______________________________________________________________________ -; -; Routine: TestForFPU -; Inputs: A5, A7, D7, VBR - setup for bus error handler -; -; Outputs: ccr.z - 0 (bne) if FPU not found. -; - 1 (beq) if FPU available. -; -; Destroys: A6, D1, sfc -; Called by: BRA -; -; Function: Checks to see if an FPU is installed. -; -; NOTE: this routine is BRA'nched to, not BSR6'ed, so that A6 is -; available for trashing in this routine. -; -; NOTE2: this needed to be changed because with an 040LC you're -; no longer guaranteed to have an on-board FPU. -;_______________________________________________________________________ -TestForFPU - - IF ROMinRAM THEN ; rb - movec CACR,d1 ; MacsBug does not like the fpu rb - cmp.b d1,d1 ; code when booting from RAM rb - bra FPUReturn ; rb - ELSE ; rb - -; New, Improved method of on-the-fly checking for and FPU - - movec VBR,d1 ; retrieve VBR - -; The idea is to move VBR DOWN the difference between the F-Line and -; BusError, so that if you were to execute an F-Line instruction and -; couldn't handle it, you would end up fetching the address of the -; BusErrVector and going thru the BusErrVector. The BusErr handler -; expects A6 to contain the address of where it should return TO. - - sub.l #Line1111-BusErrVct,d1; temporarily move VBR down - movec d1,VBR ; shuffle VBR for F-Line test - moveq #1,d1 ; non-zero value in D1 for later comparison - lea @noFPU,a6 ; where to come back to if you dont have an FPU - eieioSTP - FNOP ; execute suspect command - eieioSTP - clr.l d1 ; if you got here, you have an FPU - -@noFPU move.l d1,a6 ; save D1 - movec VBR,d1 ; return VBR to it's old value - add.l #Line1111-BusErrVct,d1 - movec d1,VBR ; ... so everyone is happy - move.l a6,d1 ; restore D1 - tst.b d1 ; return CCR.Z to CheckOptionals -@exit bra FPUReturn ; and return to CheckOptionals fau end - - ENDIF ; rb - ;_______________________________________________________________________ ; ; Routine: GetVIAInputs @@ -2484,151 +1939,64 @@ GetVIAInputs beq.s @noVIA1 ; if not, skip it movea.l VIA1Addr(a0),a1 ; get the VIA1 base address - eieioSTP move.b vBufA(a1),d2 ; save port A - eieioSTP lsl.w #8,d2 ; make room for direction bits move.b vDirA(a1),d2 ; save direction bits move.b d2,d1 ; get prior direction bits - eieioSTP and.b AvoidVIA1A(a0),d1 ; if we need to avoid any output, don't make them input - eieioSTP move.b d1,vDirA(a1) ; change bits to inputs eieioSTP move.b vBufA(a1),d1 ; get port A inputs - eieioSTP move.b d2,vDirA(a1) ; restore direction bits lsr.w #8,d2 ; get saved port A - eieioSTP move.b d2,vBufA(a1) ; restore port A lsl.w #8,d1 ; make room for port B bits - eieioSTP move.b vBufB(a1),d2 ; save port B lsl.w #8,d2 ; make room for direction bits - eieioSTP move.b vDirB(a1),d2 ; save direction bits - eieioSTP move.b d2,d1 ; get prior direction bits and.b AvoidVIA1B(a0),d1 ; if we need to avoid any output, don't make them input - eieioSTP move.b d1,vDirB(a1) ; change bits to inputs eieioSTP move.b vBufB(a1),d1 ; get port B inputs - eieioSTP move.b d2,vDirB(a1) ; restore direction bits - eieioSTP lsr.w #8,d2 ; get saved port B move.b d2,vBufB(a1) ; restore port B - eieioSTP @noVIA1 swap d1 ; VIA1 info to high word btst.l #VIA2Exists,d0 ; see if VIA2 exists beq.s @noVIA2 ; if not, skip it - eieioSTP movea.l VIA2Addr(a0),a1 ; get the VIA2 base address - eieioSTP move.b vBufA(a1),d2 ; save port A - eieioSTP lsl.w #8,d2 ; make room for direction bits move.b vDirA(a1),d2 ; save direction bits - eieioSTP move.b d2,d1 ; get prior direction bits and.b AvoidVIA2A(a0),d1 ; if we need to avoid any output, don't make them input - eieioSTP move.b d1,vDirA(a1) ; change bits to inputs eieioSTP move.b vBufA(a1),d1 ; get port A inputs - eieioSTP move.b d2,vDirA(a1) ; restore direction bits - eieioSTP lsr.w #8,d2 ; get saved port A move.b d2,vBufA(a1) ; restore port A - eieioSTP lsl.w #8,d1 ; make room for port B bits move.b vBufB(a1),d2 ; save port B - eieioSTP lsl.w #8,d2 ; make room for direction bits move.b vDirB(a1),d2 ; save direction bits - eieioSTP move.b d2,d1 ; get prior direction bits and.b AvoidVIA2B(a0),d1 ; if we need to avoid any output, don't make them input - eieioSTP move.b d1,vDirB(a1) ; change bits to inputs eieioSTP move.b vBufB(a1),d1 ; get port B inputs - eieioSTP move.b d2,vDirB(a1) ; restore direction bits - eieioSTP lsr.w #8,d2 ; get saved port B move.b d2,vBufB(a1) ; restore port B - eieioSTP @noVIA2 rts6 ; all done -;_______________________________________________________________________ -; -; Routine: TestForSonic -; Inputs: A1 - Base address of Sonic to test. -; A6 - return address -; A5, A7, D7, VBR - setup for bus error handler -; -; Outputs: ccr.z - 0 (bne) if Sonic not found, or bus error. -; - 1 (beq) if Sonic found. -; -; Destroys: none -; Called by: BSR6 -; -; Function: Checks to see if we have a Sonic Ethernet chip. An access to a non-existent -; address MUST cause us to BusError. -; -;_______________________________________________________________________ - -TestForSonic ; A1 = Base address of Sonic Chip to test - eieioSTP - tst.b (a1) ; try to read the Command Register - eieioSTP - bset #7,(a1) ; send a SW Reset to Sonic - eieioSTP - - cmp d1,d1 ; set ccr.z because no bus error if we made it here - - rts6 ; return with flags set - - -;_______________________________________________________________________ -; -; Routine: TestForPatchROM -; Inputs: A1 - Base address of PatchROM to test. -; A6 - return address -; A5, A7, D7, VBR - setup for bus error handler -; -; Outputs: ccr.z - 0 (bne) if PatchROM not found, or bus error. -; - 1 (beq) if PatchROM found. -; -; Destroys: a1 -; Called by: BSR6 -; -; Function: Checks to see if we have a PatchROM. An access to a non-existent -; address MUST cause us to BusError. -; -;_______________________________________________________________________ - -TestForPatchROM ; A1 = Base address of PatchROM to test - eieioSTP - tst.b (a1) ; try to read the first byte - eieioSTP - movea.l $4(a1),a1 ; load signature into a1 - eieioSTP - exg a1,d1 ; because we have no free registers - cmpi.l #'romp',d1 ; set ccr.z if signtures match - exg a1,d1 ; because we have no free registers - rts6 ; return with flags set - - ;__________________________________________________________________________________________________ ; ; Routine: GetCPUIDReg @@ -2662,198 +2030,17 @@ TestForPatchROM ; A1 = Base address of PatchROM to test IF hasCPUIDRegister THEN ; rb rb GetCPUIDReg - IF ROMinRAM THEN ; rb - move.l #$A55A2830,d0 ; ••• HACK, force Cyclone, make your rb - cmp.w d0,d0 ; ModifyReadOnly hack here. Cyclone rb - jmp (a6) ; needs this because the MMU is rb - ENDIF ; hiding the CPUIDReg one we booted rb - - - - IF forSmurf THEN - - ; Read the CPUID bits from the via register. Orwells/djmemc both have - ; via addrs at $50F0000 (but for smurfs, use $50000000) - - - movea.l #$50000000,a2 ; get the VIA1 base address - - ;now get the cpuid bits from the via register - move.b vBufA(a2),d2 ; save port A - lsl.w #8,d2 ; make room for direction bits - move.b vDirA(a2),d2 ; save direction bits - move.b d2,d1 ; get prior direction bits - move.b #0,vDirA(a2) ; change bits to inputs - move.b vBufA(a2),d1 ; get port A inputs - move.b d2,vDirA(a2) ; restore direction bits - lsr.w #8,d2 ; get saved port A - move.b d2,vBufA(a2) ; restore port A - - ; d1.b now contains the cpuid bits. so use $56 to mask out leaving us with the - ; cpuid bits PA6, PA4, PA2, PA1 - - andi.b #$56,d1 ; d1.b now contains the cpu id bits from the via - - ; now find out if we are on a machine with a djmemc decoder or and orwell. - ; djmec have a 12 bit register, bits 11..9 contain the version number for the djmemc... - ; Game Plan: read from the 12 bit register. if bits 11..9 = 010 then djmec - - lea #MEMCAddr,a2 ; Orwell or djmec decoder addr. - - move.l MEMCIntleaveEnable(a2),d0 ; read the 12 bit register at the base of DJMEMC/Orwell - andi.w #$0E00,d0 ; mask out all bits except version bits at bit 11..9 - cmpi.w #$0200,d0 ; the version number for djmec is 010 for bits 11..9 - - beq.s @tryCentris610 ; if equal than on djmec machine..via id bits will match - ; those for wombat machines -@tryQ700 - cmpi.b #$40,d1 ; is it a quadra700 - bne.s @tryQ900 - MOVE.W #(cpuIDRISC)|\ ; CPU ID: RISC design center - $1235,D0 ; return emulator CPU ID - BRA @success -@tryQ900 - cmpi.b #$50,d1 ; is it a quadra900 - bne.s @tryQ950 - MOVE.W #(cpuIDRISC)|\ ; CPU ID: RISC design center - $1236,D0 ; return emulator CPU ID - BRA @success -@tryQ950 ; if here it must be Q950 - - MOVE.W #(cpuIDRISC)|\ ; CPU ID: RISC design center - $1237,D0 ; return emulator CPU ID - BRA @success - - -@tryCentris610 - cmpi.b #$40,d1 ; is it a Centris610? - bne.s @tryCentris650 - MOVE.W #(cpuIDRISC)|\ ; CPU ID: RISC design center - $1204,D0 ; return emulator CPU ID - BRA @success - -@tryCentris650 - cmpi.b #$46,d1 ; is it a Centris650? - bne.s @tryQ800 - MOVE.W #(cpuIDRISC)|\ ; CPU ID: RISC design center - $1200,D0 ; return emulator CPU ID - BRA @success -@tryQ800 - cmpi.b #$12,d1 ; is it a Quadra800? - bne.s @tryQ610 - MOVE.W #(cpuIDRISC)|\ ; CPU ID: RISC design center - $1201,D0 ; return emulator CPU ID - BRA @success - -@tryQ610 - cmpi.b #$44,d1 ; is it a Quadra610? - bne.s @tryQ650 - MOVE.W #(cpuIDRISC)|\ ; CPU ID: RISC design center - $1202,D0 ; return emulator CPU ID - BRA @success - -@tryQ650 ;if here assume Smurf card is in Q650 - MOVE.W #(cpuIDRISC)|\ ; CPU ID: RISC design center - $1203,D0 ; return emulator CPU ID - BRA @success - - - ENDIF ; forSmurf - - LEA CPUIDReg,A2 ; Get CPU ID reg address - - ; FIRST - try to read it as a LONG. , - MOVE.L (A2),D0 ; read the register (bus err if it doesn't exist) - MOVEQ #0,D1 ; clear pattern register -@FlipBits ; LOOP (to write different patterns in CPUID reg) - MOVE.L D1,(A2) ; write next pattern to CPUID register location - CMP.L (A2),D0 ; does it read back the same as the first time? - BNE.S @tryPDMIDReg ; -> no. try reading it the other way. - NOT.L D1 ; flip the bits in the write pattern - BNE.S @FlipBits ; -> try the next write pattern - SWAP D0 ; look at the signature - CMPI.W #cpuIDSig,D0 ; is it a valid signature? - BNE.S @tryPDMIDReg ; -> no. try reading it the other way. - SWAP D0 ; look at the decoder-specific stuff - bra @success ; yay, we're done. - -@tryPDMIDReg ; SECOND - see if it's a byte-wide only reg (like on PDM) - move.b (a2), d0 ; read high byte (bus err if it doesn't exist) - move.b #$6a, (a2) ; write/read to be sure it's really there - cmp.b (a2), d0 ; match previous read? - bne @noCPUIDReg ; no. must not really be the CPUID reg. - lsl.l #8, d0 ; shift high byte over - - move.b 1(a2), d0 ; read next byte - move.b #$6f, 1(a2) ; write/read to be sure it's really there - cmp.b 1(a2), d0 ; match previous read? - bne @noCPUIDReg ; no. must not really be the CPUID reg. - lsl.l #8, d0 ; shift next byte over - - move.b 2(a2), d0 ; read next byte - move.b #$65, 2(a2) ; write/read to be sure it's really there - cmp.b 2(a2), d0 ; match previous read? - bne @noCPUIDReg ; no. must not really be the CPUID reg. - lsl.l #8, d0 ; shift next byte over - - move.b 3(a2), d0 ; read last byte - move.b #$20, 3(a2) ; write/read to be sure it's really there - cmp.b 3(a2), d0 ; match previous read? - bne @noCPUIDReg ; no. must not really be the CPUID reg. - - swap d0 ; check the signature - cmpi.w #cpuIDSig, d0 ; is it valid? - bne @noCPUIDReg ; nope, exit with Z cleared. - swap d0 ; yay! we're probably a PDM! (how cool if we are.) - - cmpi.w #$3010, d0 ; could we be an EVT2 but don't know it? - bne @success ; nope - - move.b $50F32008, d1 ; read SCSI DMA ctl reg - movea.w d1, a2 ; remember the original setting - ori.b #$0C, d1 ; poke the extra bits - move.b d1, $50F32008 ; save the updated value - nop - move.b $50F32008, d1 ; read SCSI DMA ctl reg again - andi.b #$0C, d1 ; did they stick? - beq.s @success ; nope, don't dick with the CPUID - - move.w a2, d1 ; restore the original setting - move.b d1, $50F32008 - nop - -@ck4FastSCSI - move.b #$02, $50f11030 ; do cResetChip cmd - nop - move.b #$00, $50f11030 ; cNOP required after HW or SW reset - - move.b #$40, $50f110b0 ; turn on Features enable then, - move.b #$80, $50f11030 ; send a DMA NOP command then, - nop - cmp.b #$A2, $50f110e0 ; read the SCSI chip ID - an FC96? - beq.s @isFastSCSI ; yes -> we have Fast SCSI (i.e. we're on a Cold Fusion) - -@noFastSCSI - move.b #$02, $50f11030 ; cResetChip again - nop - move.b #$00, $50f11030 ; cNOP required after HW or SW reset - - move.b #$11, d0 ; we're an AMIC2 - change CPUID to $3011 - bra.s @success ; - -@isFastSCSI - move.b #$02, $50f11030 ; cResetChip again - nop - move.b #$00, $50f11030 ; cNOP required after HW or SW reset - - move.b #$13, d0 ; we're a Cold Fusion - change CPUID to $3013 - -@success - IF forSTP601 THEN - ori.w #(cpuIDRISC),d0 - ENDIF - CMP.W D0,D0 ; set ccr.z to indicate success -@noCPUIDReg JMP (A6) ; END + move.l ([$68FFEFD0],$70),d0 ; NKHWInfo.Signature + cmpi.l #'Hnfo',d0 + bne.s @noHnfo + move ([$68FFEFD0],$76),d0 ; NKHWInfo.CPU_ID + bra @eq +@noHnfo + bra.s @ne +@eq + cmp d0,d0 +@ne + rts6 ENDIF ; rb end diff --git a/OS/UniversalTables.a b/OS/UniversalTables.a --- a/OS/UniversalTables.a +++ b/OS/UniversalTables.a @@ -497,112 +497,38 @@ UnivTables Proc ; Tempest25 : 1 0 1 1 ID = $B ; Tempest33 : 1 0 0 0 ID = $8 ;——————————————————————————————————————————————————————————————————————————————————————————————— - EXPORT ProductLookup,CPUIDProductLookup,DecoderLookup + EXPORT ProductLookup,CPUIDProductLookup,DecoderLookup,InfoNewWorld ALIGN 4 CPUIDProductLookup - IF hasHMC THEN ; - dc.l InfoPDM-* ; PDM - dc.l InfoPDMcoldFusion-* ; PDM (Cold Fusion) - dc.l InfoPDMCarlSagan-* ; PDM (Carl Sagan) - ENDIF ; - IF hasPratt THEN - dc.l InfoBlackbird-* ; Blackbird - ENDIF - IF hasMSC THEN - dc.l InfoYeager-* ; Yeager with real MBT chip - dc.l InfoPowerBookDuo210-* ; PowerBook Duo 210 - dc.l InfoPowerBookDuo230-* ; PowerBook Duo 230 - dc.l InfoPowerBookDuo235-* ; PowerBook Duo 235 (230+active matrix) - ;dc.l InfoEscher-* ; Escher 33MHz - ENDIF - IF hasSonora THEN - dc.l InfoVail16-* ; Vail 16 Mhz - dc.l InfoLCIII-* ; Vail 25 Mhz - dc.l InfoVail33-* ; Vail 33 Mhz - ENDIF - IF hasDJMEMC THEN - dc.l InfoWombat20-* ; Wombat @ 20 Mhz in Lego packaging - dc.l InfoCentris650-* ; Wombat @ 25 Mhz in Lego packaging - dc.l InfoQuadra650-* ; Wombat @ 33 Mhz in Lego packaging - dc.l InfoQuadra800-* ; Wombat @ 33 Mhz in Frigidaire packaging - dc.l InfoWombat40-* ; Wombat @ 40 Mhz in Lego packaging - dc.l InfoWombat40F-* ; Wombat @ 40 Mhz in Frigidaire packaging - dc.l InfoCentris610-* ; WLCD @ 20 Mhz - dc.l InfoQuadra610-* ; WLCD @ 25 Mhz - dc.l InfoWLCD33-* ; WLCD @ 33 Mhz - IF forSmurf THEN - dc.l InfoRiscQuadra800-* ; Quadra800 w/Smurf card - dc.l InfoRiscCentris650-* ; Centris650 w/Smurf card - dc.l InfoRiscCentris610-* ; Centris610 w/Smurf card - dc.l InfoRiscQuadra610-* ; Quadra610 w/Smurf card - dc.l InfoRiscQuadra650-* ; Quadra650 w/Smurf card - ENDIF - IF forSTP601 THEN - dc.l InfoSTPCentris650-* ; Centris650 w/STP card - dc.l InfoSTPQuadra650-* ; Quadra650 w/STP card - dc.l InfoSTPQuadra40F-* ; 40mhz wombat w/STP card - dc.l InfoSTPQuadra800-* ; Quadra800 w/STP card - dc.l InfoSTPCentris610-* ; Centris610 w/STP card - dc.l InfoSTPQuadra610-* ; Quadra610 w/STP card - ENDIF - ENDIF - IF hasYMCA AND hasPSC THEN ; - dc.l InfoCyclone33-* ; Cyclone 33 Mhz fau - dc.l InfoQuadra840AV-* ; Cyclone 40 Mhz fau - dc.l InfoCentris660AV-* ; Tempest 25 Mhz fau - dc.l InfoTempest33-* ; Tempest 33 Mhz fau - ENDIF ; - IF hasOrwell AND forSmurf THEN - dc.l InfoRiscQuadra700-* ; Quadra 700 w/Risc Card - dc.l InfoRiscQuadra900-* ; Quadra 900 w/Risc Card - dc.l InfoRiscQuadra950-* ; Quadra 950 w/Risc Card - ENDIF - IF hasGrandCentral THEN - dc.l InfoTNTProto1-* - ENDIF - dc.l InfoUnknownUnknown-* ; totally lost + dc.l InfoNewWorld-* dc.l 0 ; end of list ;——————————————————————————————————————————————————————————————————————————————————————————————— ; -; Decoder Lookup Table +; Table of Unclear Purpose +; +;——————————————————————————————————————————————————————————————————————————————————————————————— + + ; These look like CPUID fields? + dc.l $3035 + dc.l $0190 + dc.l $3041 + dc.l $01F8 + dc.l 0 + dc.l 0 + + +;——————————————————————————————————————————————————————————————————————————————————————————————— +; +; Product Lookup Table ; ;——————————————————————————————————————————————————————————————————————————————————————————————— ProductLookup - IF hasVISADecoder THEN ; - dc.l InfoMacLC-* ; Macintosh LC <12> - ENDIF ; - IF forSTP601 THEN - dc.l InfoSTPQuadra700-* ; Quadra 700 w/STP Card - dc.l InfoSTPQuadra900-* ; Quadra 900 w/STP Card - dc.l InfoSTPQuadra950-* ; Quadra 950 w/STP Card - ENDIF - IF hasOrwell THEN - dc.l InfoQuadra700-* ; Quadra 700, 1 direct slot, 2 NuBus slots - dc.l InfoQuadra900-* ; Quadra 900, 1 direct slot, 5 NuBus slots <13> - dc.l InfoQuadra950-* ; Quadra 950, 1 direct slot, 5 NuBus slots <5> - ENDIF - IF hasJaws THEN - dc.l InfoPowerBook170-* ; PowerBook 140 and 170 <8> - ENDIF - IF hasNiagra THEN - dc.l InfoPowerBook180-* ; PowerBook 180 - ENDIF - IF hasVISADecoder THEN - dc.l InfoVISAUnknown-* ; unknown VISA decoder based machine <12> - ENDIF - IF hasJaws THEN - dc.l InfoJAWSUnknown-* ; unknown JAWS based machine <25> - ENDIF - IF hasMDU THEN ; - dc.l InfoMacIIsi-* ; Macintosh IIsi <3> - ENDIF ; - dc.l InfoUnknownUnknown-* ; totally lost - dc.l 0 ; end if list, no match, check decoder again + dc.l 0 ; end of list ;——————————————————————————————————————————————————————————————————————————————————————————————— @@ -612,22 +538,6 @@ ProductLookup ;——————————————————————————————————————————————————————————————————————————————————————————————— DecoderLookup - IF hasVISADecoder THEN ; - dc.l VISADecoderTable-* ; check for VISA decoder - ENDIF ; - IF hasNiagra THEN - dc.l Niagratable-* ; check for Niagra decoder - ENDIF - IF hasJaws THEN - dc.l JAWStable-* ; check for JAWS decoder <25><61> - ENDIF - IF hasOrwell THEN - dc.l OrwellDecoderTable-* ; check for Orwell memory controller <13><19> - ENDIF - IF hasMDU THEN - dc.l MDUtable-* ; check for MDU decoder - ENDIF - dc.l UnknownDecoderTable-* ; always find something ;——————————————————————————————————————————————————————————————————————————————————————————————— @@ -636,3250 +546,62 @@ DecoderLookup ; ;——————————————————————————————————————————————————————————————————————————————————————————————— + + IMPORT SndCntlNW, NWClockPRAM, DummyADBTable, NWIntTbl - IF hasPratt THEN ; - IMPORT SndCntlBlackbird, PrattIntTbl - IMPORT PrattPMgrPrims,ImmgBabyRock - -; PowerBook Blackbird product table +; NewWorld product table (the only one) ALIGN 4 -InfoBlackbird - dc.l PrattTable-InfoBlackbird ; offset to decoder info - dc.l RamInfoPratt-InfoBlackbird ; offset to ram bank info - dc.l VideoInfoPratt-InfoBlackbird ; offset to video info - dc.l NuBusInfoPratt-InfoBlackbird ; offset to NuBus info +InfoNewWorld + dc.l 0 ; no decoder info + dc.l RamInfoNewWorld-InfoNewWorld ; offset to ram bank info + dc.l VideoInfoNewWorld-InfoNewWorld ; offset to video info + dc.l NuBusInfoNewWorld-InfoNewWorld ; offset to NuBus info dc.w 0|\ ; hwCfgFlags - (1< + (SoundHasSoundIn)|\ ; Has 8-bit mono sound input (Sound16Bit)|\ ; has 16-bit hardware (SoundStereoIn)|\ ; has stereo sound input (SoundStereoOut)|\ ; has stereo sound output + (SoundStereoMixing)|\ ; has stereo mixing (SoundPlayAndRecord)|\ ; can Play and Record simultaneously (1< - dc.l ImmgBabyRock-InfoBlackbird ; use BabyRock Internal Modem Manager - dc.w cpuIDPortable|\ ; CPU ID: portable design center - cpuIDinBoard|\ ; CPU ID: supplemental ID in Mother/Daughter board ID registers - 8 ; CPU ID: Blackbird ID is 8 - dc.w 0 ; spare - dc.l IconInfoTIM-InfoBlackbird ; offset to ICON info - - ENDIF ; {hasPratt} - - - - IF hasMSC THEN - IMPORT SndCntlPBDuo210, MSCPmgrPrims, MSCIntTbl,MBTPmgrPrims - - ALIGN 4 -InfoPowerBookDuo210 - dc.l MSCTable-InfoPowerBookDuo210 ; offset to decoder info - dc.l RAMInfoMSC-InfoPowerBookDuo210 ; offset to ram bank info - dc.l VideoInfoMSC-InfoPowerBookDuo210 ; offset to video info - dc.l NuBusInfoMSC-InfoPowerBookDuo210 ; offset to NuBus info - dc.w 0|\ ; hwCfgFlags - (1< - dc.b MSCDecoder ; decoder kind - dc.w $3FFF ; ROM85, New ROMs, Power Off ability - dc.b 4 ; default ROM Resource configuration - dc.b ProductInfoVersion ; ProductInfo version - BitVector32 \ ; Flags for valid base addresses 0-31 - ROMExists,\ ; ROMAddr is valid - DiagROMExists,\ ; DiagROMAddr is valid - VIA1Exists,\ ; VIA1Addr is valid - SCCRdExists,\ ; SCCRdAddr is valid - SCCWrExists,\ ; SCCWrAddr is valid - IWMExists,\ ; IWMAddr is valid
- SCSIExists,\ ; SCSIAddr is valid - SCSIDackExists,\ ; SCSIDackAddr is valid - SCSIHskExists,\ ; SCSIHskAddr is valid - ASCExists,\ ; ASCAddr is valid - RBVExists,\ ; RBVAddr is valid - VDACExists ; VDACAddr (GSC) is valid - BitVector32 ; Flags for valid base addresses 32-63 - BitVector32 ; Flags for valid base addresses 64-95 - dc.l \ ; Flags for valid ext feature flags 0-31 - (ADBPwrMgr)|\ ; PMGR ADB - (ClockPwrMgr)|\ ; PMGR clock/pram - (SoundHasSoundIn)|\ ; Has 8-bit mono sound input - (1< - dc.l 0 ; Flags for valid ext feature flags 32-63 - dc.l 0 ; Flags for valid ext feature flags 64-95 - dc.b $56,$00,$00,$00 ; Check VIA1 PA6, PA4, PA2, PA1 - dc.b $00,$00,$00,$00 ; VIA1 PA6 = 0, PA4 = 0, PA2 = 0, PA1 = 0 - dc.l VIA1InitMSC-InfoPowerBookDuo210 ; VIA1 init info - dc.l 0 ; no VIA2 to init - dc.l SndCntlPBDuo210-InfoPowerBookDuo210 ; sound control vector table - dc.l PMGRClockPRAM-InfoPowerBookDuo210 ; clock/PRAM vector table

- dc.l PMGRADBTable-InfoPowerBookDuo210 ; ADB/DebugUtil vector table - dc.l MSCPmgrPrims-InfoPowerBookDuo210 ; Power Manager primitives - dc.l MSCIntTbl-InfoPowerBookDuo210 ; interrupt handlers table - dc.l 0 ; internal modem manager - dc.w cpuIDPortable|\ ; CPU ID: portable design center - cpuIDinReg|\ ; CPU ID: register contains complete ID - 4 ; CPU ID: PowerBook Duo 210 is 4 - dc.w 0 ; spare - dc.l IconInfoDBLite-InfoPowerBookDuo210 ; offset to ICON info - - - ALIGN 4 -InfoPowerBookDuo230 - dc.l MSCTable-InfoPowerBookDuo230 ; offset to decoder info - dc.l RAMInfoMSC-InfoPowerBookDuo230 ; offset to ram bank info - dc.l VideoInfoMSC-InfoPowerBookDuo230 ; offset to video info - dc.l NuBusInfoMSC-InfoPowerBookDuo230 ; offset to NuBus info - dc.w 0|\ ; hwCfgFlags - (1< - dc.b MSCDecoder ; decoder kind - dc.w $3FFF ; ROM85, New ROMs, Power Off ability - dc.b 4 ; default ROM Resource configuration - dc.b ProductInfoVersion ; ProductInfo version - BitVector32 \ ; Flags for valid base addresses 0-31 - ROMExists,\ ; ROMAddr is valid - DiagROMExists,\ ; DiagROMAddr is valid - VIA1Exists,\ ; VIA1Addr is valid - SCCRdExists,\ ; SCCRdAddr is valid - SCCWrExists,\ ; SCCWrAddr is valid - IWMExists,\ ; IWMAddr is valid
- SCSIExists,\ ; SCSIAddr is valid - SCSIDackExists,\ ; SCSIDackAddr is valid - SCSIHskExists,\ ; SCSIHskAddr is valid - ASCExists,\ ; ASCAddr is valid - RBVExists,\ ; RBVAddr is valid - VDACExists ; VDACAddr (GSC) is valid - BitVector32 ; Flags for valid base addresses 32-63 - BitVector32 ; Flags for valid base addresses 64-95 - dc.l \ ; Flags for valid ext feature flags 0-31 - (ADBPwrMgr)|\ ; PMGR ADB - (ClockPwrMgr)|\ ; PMGR clock/pram - (SoundHasSoundIn)|\ ; Has 8-bit mono sound input - (1< - dc.l 0 ; Flags for valid ext feature flags 32-63 - dc.l 0 ; Flags for valid ext feature flags 64-95 - dc.b $56,$00,$00,$00 ; Check VIA1 PA6, PA4, PA2, PA1 - dc.b $00,$00,$00,$00 ; VIA1 PA6 = 0, PA4 = 0, PA2 = 0, PA1 = 0 - dc.l VIA1InitMSC-InfoPowerBookDuo230 ; VIA1 init info - dc.l 0 ; no VIA2 to init - dc.l SndCntlPBDuo210-InfoPowerBookDuo230 ; sound control vector table - dc.l PMGRClockPRAM-InfoPowerBookDuo230 ; clock/PRAM vector table

- dc.l PMGRADBTable-InfoPowerBookDuo230 ; ADB/DebugUtil vector table - dc.l MSCPmgrPrims-InfoPowerBookDuo230 ; Power Manager primitives - dc.l MSCIntTbl-InfoPowerBookDuo230 ; interrupt handlers table - dc.l 0 ; internal modem manager - dc.w cpuIDPortable|\ ; CPU ID: portable design center - cpuIDinReg|\ ; CPU ID: register contains complete ID - 5 ; CPU ID: PowerBook Duo 230 is 5 - dc.w 0 ; spare - dc.l IconInfoDBLite-InfoPowerBookDuo230 ; offset to ICON info - - - ALIGN 4 -InfoPowerBookDuo235 - dc.l MSCTable-InfoPowerBookDuo235 ; offset to decoder info - dc.l RAMInfoMSC-InfoPowerBookDuo235 ; offset to ram bank info - dc.l VideoInfoMSC-InfoPowerBookDuo235 ; offset to video info - dc.l NuBusInfoMSC-InfoPowerBookDuo235 ; offset to NuBus info - dc.w 0|\ ; hwCfgFlags - (1< - dc.b MSCDecoder ; decoder kind - dc.w $3FFF ; ROM85, New ROMs, Power Off ability - dc.b 4 ; default ROM Resource configuration - dc.b ProductInfoVersion ; ProductInfo version - BitVector32 \ ; Flags for valid base addresses 0-31 - ROMExists,\ ; ROMAddr is valid - DiagROMExists,\ ; DiagROMAddr is valid - VIA1Exists,\ ; VIA1Addr is valid - SCCRdExists,\ ; SCCRdAddr is valid - SCCWrExists,\ ; SCCWrAddr is valid - IWMExists,\ ; IWMAddr is valid
- SCSIExists,\ ; SCSIAddr is valid - SCSIDackExists,\ ; SCSIDackAddr is valid - SCSIHskExists,\ ; SCSIHskAddr is valid - ASCExists,\ ; ASCAddr is valid - RBVExists,\ ; RBVAddr is valid - VDACExists ; VDACAddr (GSC) is valid - BitVector32 ; Flags for valid base addresses 32-63 - BitVector32 ; Flags for valid base addresses 64-95 - dc.l \ ; Flags for valid ext feature flags 0-31 - (ADBPwrMgr)|\ ; PMGR ADB - (ClockPwrMgr)|\ ; PMGR clock/pram - (SoundHasSoundIn)|\ ; Has 8-bit mono sound input - (1< - dc.l 0 ; Flags for valid ext feature flags 32-63 - dc.l 0 ; Flags for valid ext feature flags 64-95 - dc.b $56,$00,$00,$00 ; Check VIA1 PA6, PA4, PA2, PA1 - dc.b $00,$00,$00,$00 ; VIA1 PA6 = 0, PA4 = 0, PA2 = 0, PA1 = 0 - dc.l VIA1InitMSC-InfoPowerBookDuo235 ; VIA1 init info - dc.l 0 ; no VIA2 to init - dc.l SndCntlPBDuo210-InfoPowerBookDuo235 ; sound control vector table - dc.l PMGRClockPRAM-InfoPowerBookDuo235 ; clock/PRAM vector table

- dc.l PMGRADBTable-InfoPowerBookDuo235 ; ADB/DebugUtil vector table - dc.l MSCPmgrPrims-InfoPowerBookDuo235 ; Power Manager primitives - dc.l MSCIntTbl-InfoPowerBookDuo235 ; interrupt handlers table - dc.l 0 ; internal modem manager - dc.w cpuIDPortable|\ ; CPU ID: portable design center - cpuIDinReg|\ ; CPU ID: register contains complete ID - 6 ; CPU ID: PowerBook Duo 235 is 6 - dc.w 0 ; spare - dc.l IconInfoDBLite-InfoPowerBookDuo235 ; offset to ICON info - - - ALIGN 4 -InfoYeager - dc.l MSCTable-InfoYeager ; offset to decoder info - dc.l RAMInfoMSC-InfoYeager ; offset to ram bank info - dc.l VideoInfoMSC-InfoYeager ; offset to video info - dc.l NuBusInfoMSC-InfoYeager ; offset to NuBus info - dc.w 0|\ ; hwCfgFlags - (1< - dc.b MSCDecoder ; decoder kind - dc.w $3FFF ; ROM85, New ROMs, Power Off ability - dc.b 4 ; default ROM Resource configuration - dc.b ProductInfoVersion ; ProductInfo version - BitVector32 \ ; Flags for valid base addresses 0-31 - ROMExists,\ ; ROMAddr is valid - DiagROMExists,\ ; DiagROMAddr is valid - VIA1Exists,\ ; VIA1Addr is valid - SCCRdExists,\ ; SCCRdAddr is valid - SCCWrExists,\ ; SCCWrAddr is valid - IWMExists,\ ; IWMAddr is valid
- SCSIExists,\ ; SCSIAddr is valid - SCSIDackExists,\ ; SCSIDackAddr is valid - SCSIHskExists,\ ; SCSIHskAddr is valid - ASCExists,\ ; ASCAddr is valid - RBVExists,\ ; RBVAddr is valid - VDACExists ; VDACAddr (GSC) is valid - BitVector32 ; Flags for valid base addresses 32-63 - BitVector32 ; Flags for valid base addresses 64-95 - dc.l \ ; Flags for valid ext feature flags 0-31 - (ADBPwrMgr)|\ ; PMGR ADB - (ClockPwrMgr)|\ ; PMGR clock/pram - (SoundHasSoundIn)|\ ; Has 8-bit mono sound input - (1< - dc.l 0 ; Flags for valid ext feature flags 32-63 - dc.l 0 ; Flags for valid ext feature flags 64-95 - dc.b $56,$00,$00,$00 ; Check VIA1 PA6, PA4, PA2, PA1 - dc.b $00,$00,$00,$00 ; VIA1 PA6 = 0, PA4 = 0, PA2 = 0, PA1 = 0 - dc.l VIA1InitMSC-InfoYeager ; VIA1 init info - dc.l 0 ; no VIA2 to init - dc.l SndCntlPBDuo210-InfoYeager ; sound control vector table - dc.l PMGRClockPRAM-InfoYeager ; clock/PRAM vector table

- dc.l PMGRADBTable-InfoYeager ; ADB/DebugUtil vector table - dc.l MBTPmgrPrims-InfoYeager ; Power Manager primitives - dc.l MSCIntTbl-InfoYeager ; interrupt handlers table - dc.l 0 ; internal modem manager - dc.w cpuIDPortable|\ ; CPU ID: portable design center - cpuIDinReg|\ ; CPU ID: register contains complete ID - 0 ; CPU ID: Yeager is 16 - dc.w 0 ; spare - dc.l IconInfoDBLite-InfoYeager ; offset to ICON info - - - ENDIF ; {hasMSC} - - - IF hasNiagra THEN - IMPORT SndCntlPB180, NiagraPMgrPrims, NiagraIntTbl - -; PowerBook 180 product table - - ALIGN 4 -InfoPowerBook180 - dc.l NiagraTable-InfoPowerBook180 ; offset to decoder info - dc.l RamInfoNiagra-InfoPowerBook180 ; offset to ram bank info - dc.l VideoInfoNiagra-InfoPowerBook180 ; offset to video info - dc.l NuBusInfoNiagra-InfoPowerBook180 ; offset to NuBus info - dc.w 0|\ ; hwCfgFlags - (1< - JAWSExists ; JAWSAddr is valid - BitVector32 ; Flags for valid base addresses 32-63 - BitVector32 ; Flags for valid base addresses 64-95 - dc.l \ ; Flags for valid ext feature flags 0-31 - (ClockRTC)|\ ; Has RTC clock/PRAM - (ADBPwrMgr)|\ ; PowerManager ADB - (SoundHasSoundIn)|\ ; Has 8-bit mono sound input - (SoundStereoOut)|\ ; has stereo sound output - (SoundStereoMixing)|\ ; has stereo mixing - (SoundPlayAndRecord)|\ ; can Play and Record simultaneously - (1< - dc.l NiagraPMgrPrims-InfoPowerBook180 ; Power Manager primitives - dc.l NiagraIntTbl-InfoPowerBook180 ; interrupt handlers table - dc.w 0 ; no CPU ID register - dc.w 0 ; spare - dc.l IconInfoTIM-InfoPowerBook180 ; offset to ICON info - - - ALIGN 4 -InfoNiagraUnknown - dc.l NiagraTable-InfoNiagraUnknown ; offset to decoder info - dc.l RamInfoNiagra-InfoNiagraUnknown ; offset to ram bank info - dc.l VideoInfoNiagra-InfoNiagraUnknown ; offset to video info - dc.l NuBusInfoNiagra-InfoNiagraUnknown ; offset to NuBus info - dc.w 0|\ ; hwCfgFlags - (1< - (SoundPlayAndRecord)|\ ; can Play and Record simultaneously - (1< - (1< - dc.l 0 ; Flags for valid ext feature flags 32-63 - dc.l 0 ; Flags for valid ext feature flags 64-95 - dc.b $00,$00,$00,$00 ; don't check any VIA bits - dc.b $00,$00,$00,$00 ; anything with this decoder matches - dc.l VIA1InitNiagra-InfoNiagraUnknown ; VIA1 init info - dc.l VIA2InitNiagra-InfoNiagraUnknown ; VIA2 init info - dc.l 0 ; no sound control vector table - dc.l RTCClockPRAM-InfoNiagraUnknown ; clock/PRAM vector table - dc.l PMGRADBTable-InfoNiagraUnknown ; ADB/DebugUtil vector table - dc.l NiagraPMgrPrims-InfoNiagraUnknown ; Power Manager primitives - dc.l NiagraIntTbl-InfoNiagraUnknown ; interrupt handlers table - dc.l 0 ; internal modem manager - dc.w 0 ; no CPU ID register - dc.w 0 ; spare - dc.l IconInfoTIM-InfoNiagraUnknown ; offset to ICON info - - ENDIF ; {hasNiagra} - - - IF hasSonora THEN - IMPORT SndCntlLCIII, SonoraIntTbl - -; Vail 16 MHZ product table - - ALIGN 4 -InfoVail16 - dc.l SonoraTable-InfoVail16 ; offset to decoder info - dc.l RamInfoVail-InfoVail16 ; offset to ram bank info - dc.l VideoInfoVail-InfoVail16 ; offset to video info - dc.l NuBusInfoVail-InfoVail16 ; offset to NuBus info - dc.w 0|\ ; hwCfgFlags - (1< - dc.b SonoraDecoder ; decoder kind - dc.w $3FFF ; ROM85, New ROMs, Power Off ability - dc.b 4 ; default ROM Resource configuration (non-FPU for now) - dc.b ProductInfoVersion ; ProductInfo version - BitVector32 \ ; Flags for valid base addresses 0-31 - ROMExists,\ ; ROMAddr is valid - DiagROMExists,\ ; DiagROMAddr is valid - VIA1Exists,\ ; VIA1Addr is valid - SCCRdExists,\ ; SCCRdAddr is valid - SCCWrExists,\ ; SCCWrAddr is valid - IWMExists,\ ; IWMAddr is valid - SCSIExists,\ ; SCSIAddr is valid - SCSIDackExists,\ ; SCSIDackAddr is valid - SCSIHskExists,\ ; SCSIHskAddr is valid - ASCExists,\ ; ASCAddr is valid - RBVExists,\ ; RBV is valid - VDACExists,\ ; VDACAddr (SONORA) is valid CSS - PatchRomExists ; PatchRomAddr is valid - BitVector32 ; Flags for valid base addresses 32-63 - BitVector32 ; Flags for valid base addresses 64-95 - dc.l (ClockEgret)|\ ; Has Egret clock/pram - (ADBEgret)|\ ; Egret ADB - (Egret8)|\ ; Egret Eight firmware CSS - (SoundHasSoundIn)|\ ; Has 8-bit mono sound input - (SoundPlayAndRecord)|\ ; can Play and Record simultaneously - (1< - (1< - dc.l 0 ; Flags for valid ext feature flags 32-63 - dc.l 0 ; Flags for valid ext feature flags 64-95 - dc.b $00,$00,$00,$00 ; don't check any VIA bits - dc.b $00,$00,$00,$00 ; anything with this decoder matches - dc.l VIA1InitVail-InfoVail16 ; VIA1 init info - dc.l 0 ; no VIA2 init info - dc.l SndCntlLCIII-InfoVail16 ; sound control vector table - dc.l EgretClockPRAM-InfoVail16 ; clock/PRAM vector table

- dc.l EgretADBTable-InfoVail16 ; ADB/DebugUtil vector table - dc.l 0 ; no Power Manager primitives - dc.l SonoraIntTbl-InfoVail16 ; interrupt handlers table - dc.l 0 ; internal modem manager - dc.w cpuIDHiVol|\ ; CPU ID: hi volume design center - cpuIDinReg|\ ; CPU ID: register contains complete ID - 0 ; CPU ID: Vail 16 Mhz - dc.w 0 ; spare - dc.l IconInfoMacLC-InfoVail16 ; offset to ICON info - - -; Vail 25 MHZ product table - - ALIGN 4 -InfoLCIII - dc.l SonoraTable-InfoLCIII ; offset to decoder info - dc.l RamInfoVail-InfoLCIII ; offset to ram bank info - dc.l VideoInfoVail-InfoLCIII ; offset to video info - dc.l NuBusInfoVail-InfoLCIII ; offset to NuBus info - dc.w 0|\ ; hwCfgFlags - (1< - PatchRomExists ; PatchRomAddr is valid - BitVector32 ; Flags for valid base addresses 32-63 - BitVector32 ; Flags for valid base addresses 64-95 - dc.l (ClockEgret)|\ ; Has Egret clock/pram - (ADBEgret)|\ ; Egret ADB - (Egret8)|\ ; Egret Eight firmware CSS - (SoundHasSoundIn)|\ ; Has 8-bit mono sound input - (1< - (1< - dc.l 0 ; Flags for valid ext feature flags 32-63 - dc.l 0 ; Flags for valid ext feature flags 64-95 - dc.b $00,$00,$00,$00 ; don't check any VIA bits - dc.b $00,$00,$00,$00 ; anything with this decoder matches - dc.l VIA1InitVail-InfoLCIII ; VIA1 init info - dc.l 0 ; no VIA2 init info - dc.l SndCntlLCIII-InfoLCIII ; sound control vector table - dc.l EgretClockPRAM-InfoLCIII ; clock/PRAM vector table

- dc.l EgretADBTable-InfoLCIII ; ADB/DebugUtil vector table - dc.l 0 ; no Power Manager primitives - dc.l SonoraIntTbl-InfoLCIII ; interrupt handlers table - dc.w cpuIDHiVol|\ ; CPU ID: hi volume design center - cpuIDinReg|\ ; CPU ID: register contains complete ID - Vail25IDField ; CPU ID: Vail 25 Mhz - dc.w 0 ; spare - dc.l IconInfoMacLC-InfoLCIII ; offset to ICON info - - -; Vail 33 MHZ product table - - ALIGN 4 -InfoVail33 - dc.l SonoraTable-InfoVail33 ; offset to decoder info - dc.l RamInfoVail-InfoVail33 ; offset to ram bank info - dc.l VideoInfoVail-InfoVail33 ; offset to video info - dc.l NuBusInfoVail-InfoVail33 ; offset to NuBus info - dc.w 0|\ ; hwCfgFlags - (1< - ROMExists,\ ; ROMAddr is valid - DiagROMExists,\ ; DiagROMAddr is valid - VIA1Exists,\ ; VIA1Addr is valid - SCCRdExists,\ ; SCCRdAddr is valid - SCCWrExists,\ ; SCCWrAddr is valid - IWMExists,\ ; IWMAddr is valid - SCSIExists,\ ; SCSIAddr is valid - SCSIDackExists,\ ; SCSIDackAddr is valid - SCSIHskExists,\ ; SCSIHskAddr is valid - ASCExists,\ ; ASCAddr is valid - RBVExists,\ ; RBV is valid - VDACExists,\ ; VDACAddr (SONORA) is valid - SONICExists,\ ; SONIC is valid - PatchRomExists ; PatchRomAddr is valid - BitVector32 ; Flags for valid base addresses 32-63 - BitVector32 ; Flags for valid base addresses 64-95 - dc.l (ClockEgret)|\ ; Has Egret clock/pram - (ADBEgret)|\ ; Egret ADB - (Egret8)|\ ; Egret Eight firmware CSS - (SoundHasSoundIn)|\ ; Has 8-bit mono sound input - (1< - (1< - dc.l 0 ; Flags for valid ext feature flags 32-63 - dc.l 0 ; Flags for valid ext feature flags 64-95 - dc.b $00,$00,$00,$00 ; don't check any VIA bits - dc.b $00,$00,$00,$00 ; anything with this decoder matches - dc.l VIA1InitVail-InfoVail33 ; VIA1 init info - dc.l 0 ; no VIA2 init info - dc.l SndCntlLCIII-InfoVail33 ; sound control vector table - dc.l EgretClockPRAM-InfoVail33 ; clock/PRAM vector table - dc.l EgretADBTable-InfoVail33 ; ADB/DebugUtil vector table - dc.l 0 ; no Power Manager primitives - dc.l SonoraIntTbl-InfoVail33 ; interrupt handlers table - dc.l 0 ; internal modem manager - dc.w cpuIDHiVol|\ ; CPU ID: hi volume design center - cpuIDinReg|\ ; CPU ID: register contains complete ID - Vail33IDField ; CPU ID: Vail 33 Mhz - dc.w 0 ; spare - dc.l IconInfoMacLC-InfoVail33 ; offset to ICON info - - - ENDIF ; {hasSonora} - - - IF hasDJMEMC THEN - IMPORT DJMEMCIntTbl, SndCntlQuadra800 - -; 20MHz Wombat product table (Lego plastics) - - ALIGN 4 -InfoWombat20 - dc.l djMEMCTable-InfoWombat20 ; offset to decoder info - dc.l RamInfoDJMEMC-InfoWombat20 ; offset to ram bank info - dc.l VideoInfoDAFB-InfoWombat20 ; offset to video info - dc.l NuBusInfoWombat-InfoWombat20 ; offset to NuBus info - dc.w 0|\ ; hwCfgFlags - (1< - dc.b ProductInfoVersion ; ProductInfo version - BitVector32 \ ; Flags for valid base addresses 0-31 - ROMExists,\ ; ROMAddr is valid - DiagROMExists,\ ; DiagROMAddr is valid - VIA1Exists,\ ; VIA1Addr is valid - VIA2Exists,\ ; VIA2Addr is valid - SCCRdExists,\ ; SCCRdAddr is valid - SCCWrExists,\ ; SCCWrAddr is valid - ASCExists,\ ; ASCAddr is valid (means Batman in this case) - IWMExists,\ ; IWMAddr is valid - SCSI96_1Exists,\ ; 1st SCSI96 is valid - SONICExists,\ ; SONIC is valid - PatchROMExists,\ ; Patch ROM is valid - DAFBExists ; has DAFB video - BitVector32 ; Flags for valid base addresses 32-63 - BitVector32 ; Flags for valid base addresses 64-95 - dc.l \ ; Flags for valid ext feature flags 0-31 - (ClockRTC)|\ ; Has RTC clock/PRAM - (SoundHasSoundIn)|\ ; Has 8-bit mono sound input - (SoundStereoOut)|\ ; has stereo sound output - (SoundStereoMixing)|\ ; has stereo mixing - (SoundPlayAndRecord)|\ ; can Play and Record simultaneously - (1< - dc.b $42,$00,$00,$00 ; VIA1: PA6 = 1, PA4 = 0, PA2 = 0, PA1 = 1 - dc.l VIA1InitWombat-InfoWombat20 ; VIA1 init info - dc.l VIA2InitWombat-InfoWombat20 ; VIA2 init info - dc.l SndCntlQuadra800-InfoWombat20 ; sound control vector table - dc.l RTCClockPRAM-InfoWombat20 ; clock/PRAM vector table - dc.l ViaADBTable-InfoWombat20 ; ADB/DebugUtil vector table - dc.l 0 ; no Power Manager primitives - dc.l DJMEMCIntTbl-InfoWombat20 ; interrupt handlers table - dc.l 0 ; internal modem manager - dc.w (cpuIDHiEnd)|\ ; HiEnd design center - (cpuIDinVIA)|\ ; supplemental ID in VIA1 - $3AD ; specific ID - dc.w 0 ; spare - dc.l IconInfoLego-InfoWombat20 ; offset to ICON info - - -; 25MHz Wombat product table (Lego plastics) - - ALIGN 4 -InfoCentris650 - dc.l djMEMCTable-InfoCentris650 ; offset to decoder info - dc.l RamInfoDJMEMC-InfoCentris650 ; offset to ram bank info - dc.l VideoInfoDAFB-InfoCentris650 ; offset to video info - dc.l NuBusInfoWombat-InfoCentris650 ; offset to NuBus info - dc.w 0|\ ; hwCfgFlags - (1< - dc.b ProductInfoVersion ; ProductInfo version - BitVector32 \ ; Flags for valid base addresses 0-31 - ROMExists,\ ; ROMAddr is valid - DiagROMExists,\ ; DiagROMAddr is valid - VIA1Exists,\ ; VIA1Addr is valid - VIA2Exists,\ ; VIA2Addr is valid - SCCRdExists,\ ; SCCRdAddr is valid - SCCWrExists,\ ; SCCWrAddr is valid - ASCExists,\ ; ASCAddr is valid (means Batman in this case) - IWMExists,\ ; IWMAddr is valid - SCSI96_1Exists,\ ; 1st SCSI96 is valid - SONICExists,\ ; SONIC is valid - PatchROMExists,\ ; Patch ROM is valid - DAFBExists ; has DAFB video - BitVector32 ; Flags for valid base addresses 32-63 - BitVector32 ; Flags for valid base addresses 64-95 - dc.l \ ; Flags for valid ext feature flags 0-31 - (ClockRTC)|\ ; Has RTC clock/PRAM - (SoundHasSoundIn)|\ ; Has 8-bit mono sound input - (SoundStereoOut)|\ ; has stereo sound output - (SoundStereoMixing)|\ ; has stereo mixing - (SoundPlayAndRecord)|\ ; can Play and Record simultaneously - (1< - dc.b $46,$00,$00,$00 ; VIA1: PA6 = 1, PA4 = 0, PA2 = 1, PA1 = 1 - dc.l VIA1InitWombat-InfoCentris650 ; VIA1 init info - dc.l VIA2InitWombat-InfoCentris650 ; VIA2 init info - dc.l SndCntlQuadra800-InfoCentris650 ; sound control vector table - dc.l RTCClockPRAM-InfoCentris650 ; clock/PRAM vector table - dc.l ViaADBTable-InfoCentris650 ; ADB/DebugUtil vector table - dc.l 0 ; no Power Manager primitives - dc.l DJMEMCIntTbl-InfoCentris650 ; interrupt handlers table - dc.l 0 ; internal modem manager - dc.w (cpuIDHiEnd)|\ ; HiEnd design center - (cpuIDinVIA)|\ ; supplemental ID in VIA1 - $3AD ; specific ID - dc.w 0 ; spare - dc.l IconInfoLego-InfoCentris650 ; offset to ICON info - - -; 33MHz Wombat product table (Lego plastics) - - ALIGN 4 -InfoQuadra650 - dc.l djMEMCTable-InfoQuadra650 ; offset to decoder info - dc.l RamInfoDJMEMC-InfoQuadra650 ; offset to ram bank info - dc.l VideoInfoDAFB-InfoQuadra650 ; offset to video info - dc.l NuBusInfoWombat-InfoQuadra650 ; offset to NuBus info - dc.w 0|\ ; hwCfgFlags - (1< - (SoundStereoOut)|\ ; has stereo sound output - (SoundStereoMixing)|\ ; has stereo mixing - (SoundPlayAndRecord)|\ ; can Play and Record simultaneously - (1< - dc.b $52,$00,$00,$00 ; VIA1: PA6 = 1, PA4 = 1, PA2 = 0, PA1 = 1 - dc.l VIA1InitWombat-InfoQuadra650 ; VIA1 init info - dc.l VIA2InitWombat-InfoQuadra650 ; VIA2 init info - dc.l SndCntlQuadra800-InfoQuadra650 ; sound control vector table - dc.l RTCClockPRAM-InfoQuadra650 ; clock/PRAM vector table - dc.l ViaADBTable-InfoQuadra650 ; ADB/DebugUtil vector table - dc.l 0 ; no Power Manager primitives - dc.l DJMEMCIntTbl-InfoQuadra650 ; interrupt handlers table - dc.l 0 ; internal modem manager - dc.w (cpuIDHiEnd)|\ ; HiEnd design center - (cpuIDinVIA)|\ ; supplemental ID in VIA1 - $3AD ; specific ID - dc.w 0 ; spare - dc.l IconInfoLego-InfoQuadra650 ; offset to ICON info - - -; 33MHz Wombat product table (Frigidaire plastics) - - ALIGN 4 -InfoQuadra800 - dc.l djMEMCTable-InfoQuadra800 ; offset to decoder info - dc.l RamInfoDJMEMC-InfoQuadra800 ; offset to ram bank info - dc.l VideoInfoDAFB-InfoQuadra800 ; offset to video info - dc.l NuBusInfoWombat-InfoQuadra800 ; offset to NuBus info - dc.w 0|\ ; hwCfgFlags - (1< - BitVector32 \ ; Flags for valid base addresses 0-31 - ROMExists,\ ; ROMAddr is valid - DiagROMExists,\ ; DiagROMAddr is valid - VIA1Exists,\ ; VIA1Addr is valid - VIA2Exists,\ ; VIA2Addr is valid - SCCRdExists,\ ; SCCRdAddr is valid - SCCWrExists,\ ; SCCWrAddr is valid - ASCExists,\ ; ASCAddr is valid (means Batman in this case) - IWMExists,\ ; IWMAddr is valid - SCSI96_1Exists,\ ; 1st SCSI96 is valid - SONICExists,\ ; SONIC is valid - PatchROMExists,\ ; Patch ROM is valid - DAFBExists ; has DAFB video - BitVector32 ; Flags for valid base addresses 32-63 - BitVector32 ; Flags for valid base addresses 64-95 - dc.l (ClockRTC)|\ ; Has RTC clock/PRAM - (SoundHasSoundIn)|\ ; Has 8-bit mono sound input - (SoundStereoOut)|\ ; has stereo sound output - (SoundStereoMixing)|\ ; has stereo mixing - (SoundPlayAndRecord)|\ ; can Play and Record simultaneously - (1< - dc.l 0 ; Flags for valid ext feature flags 64-95 - dc.b $56,$00,$00,$00 ; Check VIA1: PA6 PA4, PA2, PA1 - dc.b $12,$00,$00,$00 ; VIA1: PA6 = 0, PA4 = 1, PA2 = 0, PA1 = 1 - dc.l VIA1InitWombat-InfoQuadra800 ; VIA1 init info - dc.l VIA2InitWombat-InfoQuadra800 ; VIA2 init info - dc.l SndCntlQuadra800-InfoQuadra800 ; sound control vector table - dc.l RTCClockPRAM-InfoQuadra800 ; clock/PRAM vector table - dc.l ViaADBTable-InfoQuadra800 ; ADB/DebugUtil vector table - dc.l 0 ; no Power Manager primitives - dc.l DJMEMCIntTbl-InfoQuadra800 ; interrupt handlers table - dc.l 0 ; internal modem manager - dc.w (cpuIDHiEnd)|\ ; HiEnd design center - (cpuIDinVIA)|\ ; supplemental ID in VIA1 - $3AD ; specific ID - dc.w 0 ; spare - dc.l IconInfoFrigidaire-InfoQuadra800 ; offset to ICON info - - -; 40MHz Wombat product table (Lego plastics) - - ALIGN 4 -InfoWombat40 - dc.l djMEMCTable-InfoWombat40 ; offset to decoder info - dc.l RamInfoDJMEMC-InfoWombat40 ; offset to ram bank info - dc.l VideoInfoDAFB-InfoWombat40 ; offset to video info - dc.l NuBusInfoWombat-InfoWombat40 ; offset to NuBus info - dc.w 0|\ ; hwCfgFlags - (1< - (SoundStereoOut)|\ ; has stereo sound output - (SoundStereoMixing)|\ ; has stereo mixing - (SoundPlayAndRecord)|\ ; can Play and Record simultaneously - (1< - dc.b $56,$00,$00,$00 ; VIA1: PA6 = 1, PA4 = 1, PA2 = 1, PA1 = 1 - dc.l VIA1InitWombat-InfoWombat40 ; VIA1 init info - dc.l VIA2InitWombat-InfoWombat40 ; VIA2 init info - dc.l SndCntlQuadra800-InfoWombat40 ; sound control vector table - dc.l RTCClockPRAM-InfoWombat40 ; clock/PRAM vector table - dc.l ViaADBTable-InfoWombat40 ; ADB/DebugUtil vector table - dc.l 0 ; no Power Manager primitives - dc.l DJMEMCIntTbl-InfoWombat40 ; interrupt handlers table - dc.l 0 ; internal modem manager - dc.w (cpuIDHiEnd)|\ ; HiEnd design center - (cpuIDinVIA)|\ ; supplemental ID in VIA1 - $3AD ; specific ID - dc.w 0 ; spare - dc.l IconInfoLego-InfoWombat40 ; offset to ICON info - - -; 40MHz Wombat product table (Frigidaire package) - - ALIGN 4 -InfoWombat40F - dc.l djMEMCTable-InfoWombat40F ; offset to decoder info - dc.l RamInfoDJMEMC-InfoWombat40F ; offset to ram bank info - dc.l VideoInfoDAFB-InfoWombat40F ; offset to video info - dc.l NuBusInfoWombat-InfoWombat40F ; offset to NuBus info - dc.w 0|\ ; hwCfgFlags - (1< - ROMExists,\ ; ROMAddr is valid - DiagROMExists,\ ; DiagROMAddr is valid - VIA1Exists,\ ; VIA1Addr is valid - VIA2Exists,\ ; VIA2Addr is valid - SCCRdExists,\ ; SCCRdAddr is valid - SCCWrExists,\ ; SCCWrAddr is valid - ASCExists,\ ; ASCAddr is valid (means Batman in this case) - IWMExists,\ ; IWMAddr is valid - SCSI96_1Exists,\ ; 1st SCSI96 is valid - SONICExists,\ ; SONIC is valid - PatchROMExists,\ ; Patch ROM is valid - DAFBExists ; has DAFB video - BitVector32 ; Flags for valid base addresses 32-63 - BitVector32 ; Flags for valid base addresses 64-95 - dc.l (ClockRTC)|\ ; Has RTC clock/PRAM - (SoundHasSoundIn)|\ ; Has 8-bit mono sound input - (SoundStereoOut)|\ ; has stereo sound output - (SoundStereoMixing)|\ ; has stereo mixing - (SoundPlayAndRecord)|\ ; can Play and Record simultaneously - (1< - dc.l 0 ; Flags for valid ext feature flags 64-95 - dc.b $56,$00,$00,$00 ; Check VIA1: PA6 PA4, PA2, PA1 - dc.b $16,$00,$00,$00 ; VIA1: PA6 = 0, PA4 = 1, PA2 = 1, PA1 = 1 - dc.l VIA1InitWombat-InfoWombat40F ; VIA1 init info - dc.l VIA2InitWombat-InfoWombat40F ; VIA2 init info - dc.l SndCntlQuadra800-InfoWombat40F ; sound control vector table - dc.l RTCClockPRAM-InfoWombat40F ; clock/PRAM vector table - dc.l ViaADBTable-InfoWombat40F ; ADB/DebugUtil vector table - dc.l 0 ; no Power Manager primitives - dc.l DJMEMCIntTbl-InfoWombat40F ; interrupt handlers table - dc.l 0 ; internal modem manager - dc.w (cpuIDHiEnd)|\ ; HiEnd design center - (cpuIDinVIA)|\ ; supplemental ID in VIA1 - $3AD ; specific ID - dc.w 0 ; spare - dc.l IconInfoFrigidaire-InfoWombat40F ; offset to ICON info - - -; 20MHz WLCD product table (QFC plastics) - - ALIGN 4 -InfoCentris610 - dc.l djMEMCTable-InfoCentris610 ; offset to decoder info - dc.l RamInfoDJMEMC-InfoCentris610 ; offset to ram bank info - dc.l VideoInfoDAFB-InfoCentris610 ; offset to video info - dc.l NuBusInfoWLCD-InfoCentris610 ; offset to NuBus info - dc.w 0|\ ; hwCfgFlags - (1< - (SoundStereoOut)|\ ; has stereo sound output - (SoundStereoMixing)|\ ; has stereo mixing - (SoundPlayAndRecord)|\ ; can Play and Record simultaneously - (1< - (1< - dc.b $40,$00,$00,$00 ; VIA1: PA6 = 1, PA4 = 0, PA2 = 0, PA1 = 0 - dc.l VIA1InitWombat-InfoCentris610 ; VIA1 init info - dc.l VIA2InitWombat-InfoCentris610 ; VIA2 init info - dc.l SndCntlQuadra800-InfoCentris610 ; sound control vector table - dc.l RTCClockPRAM-InfoCentris610 ; clock/PRAM vector table - dc.l ViaADBTable-InfoCentris610 ; ADB/DebugUtil vector table - dc.l 0 ; no Power Manager primitives - dc.l DJMEMCIntTbl-InfoCentris610 ; interrupt handlers table - dc.l 0 ; internal modem manager - dc.w (cpuIDHiEnd)|\ ; HiEnd design center - (cpuIDinVIA)|\ ; supplemental ID in VIA1 - $3AD ; specific ID - dc.w 0 ; spare - dc.l IconInfoQFC-InfoCentris610 ; offset to ICON info - - - -; 25MHz WLCD product table (QFC plastics) - - ALIGN 4 -InfoQuadra610 - dc.l djMEMCTable-InfoQuadra610 ; offset to decoder info - dc.l RamInfoDJMEMC-InfoQuadra610 ; offset to ram bank info - dc.l VideoInfoDAFB-InfoQuadra610 ; offset to video info - dc.l NuBusInfoWLCD-InfoQuadra610 ; offset to NuBus info - dc.w 0|\ ; hwCfgFlags - (1< - (SoundStereoOut)|\ ; has stereo sound output - (SoundStereoMixing)|\ ; has stereo mixing - (SoundPlayAndRecord)|\ ; can Play and Record simultaneously - (1< - (1< - dc.b $44,$00,$00,$00 ; VIA1: PA6 = 1, PA4 = 0, PA2 = 1, PA1 = 0 - dc.l VIA1InitWombat-InfoQuadra610 ; VIA1 init info - dc.l VIA2InitWombat-InfoQuadra610 ; VIA2 init info - dc.l SndCntlQuadra800-InfoQuadra610 ; sound control vector table - dc.l RTCClockPRAM-InfoQuadra610 ; clock/PRAM vector table - dc.l ViaADBTable-InfoQuadra610 ; ADB/DebugUtil vector table - dc.l 0 ; no Power Manager primitives - dc.l DJMEMCIntTbl-InfoQuadra610 ; interrupt handlers table - dc.l 0 ; internal modem manager - dc.w (cpuIDHiEnd)|\ ; HiEnd design center - (cpuIDinVIA)|\ ; supplemental ID in VIA1 - $3AD ; specific ID - dc.w 0 ; spare - dc.l IconInfoQFC-InfoQuadra610 ; offset to ICON info - - - -; 33MHz WLCD product table (QFC package) - - ALIGN 4 -InfoWLCD33 - dc.l djMEMCTable-InfoWLCD33 ; offset to decoder info - dc.l RamInfoDJMEMC-InfoWLCD33 ; offset to ram bank info - dc.l VideoInfoDAFB-InfoWLCD33 ; offset to video info - dc.l NuBusInfoWLCD-InfoWLCD33 ; offset to NuBus info - dc.w 0|\ ; hwCfgFlags - (1< - BitVector32 \ ; Flags for valid base addresses 0-31 - ROMExists,\ ; ROMAddr is valid - DiagROMExists,\ ; DiagROMAddr is valid - VIA1Exists,\ ; VIA1Addr is valid - VIA2Exists,\ ; VIA2Addr is valid - SCCRdExists,\ ; SCCRdAddr is valid - SCCWrExists,\ ; SCCWrAddr is valid - ASCExists,\ ; ASCAddr is valid (means Batman in this case) - IWMExists,\ ; IWMAddr is valid - SCSI96_1Exists,\ ; 1st SCSI96 is valid - SONICExists,\ ; SONIC is valid - PatchROMExists,\ ; Patch ROM is valid - DAFBExists ; has DAFB video - BitVector32 ; Flags for valid base addresses 32-63 - BitVector32 ; Flags for valid base addresses 64-95 - dc.l (ClockRTC)|\ ; Has RTC clock/PRAM - (SoundHasSoundIn)|\ ; Has 8-bit mono sound input - (SoundStereoOut)|\ ; has stereo sound output - (SoundStereoMixing)|\ ; has stereo mixing - (SoundPlayAndRecord)|\ ; can Play and Record simultaneously - (1< - dc.l 0 ; Flags for valid ext feature flags 64-95 - dc.b $56,$00,$00,$00 ; Check VIA1: PA6 PA4, PA2, PA1 - dc.b $50,$00,$00,$00 ; VIA1: PA6 = 1, PA4 = 1, PA2 = 0, PA1 = 0 - dc.l VIA1InitWombat-InfoWLCD33 ; VIA1 init info - dc.l VIA2InitWombat-InfoWLCD33 ; VIA2 init info - dc.l SndCntlQuadra800-InfoWLCD33 ; sound control vector table - dc.l RTCClockPRAM-InfoWLCD33 ; clock/PRAM vector table - dc.l ViaADBTable-InfoWLCD33 ; ADB/DebugUtil vector table - dc.l 0 ; no Power Manager primitives - dc.l DJMEMCIntTbl-InfoWLCD33 ; interrupt handlers table - dc.l 0 ; internal modem manager - dc.w (cpuIDHiEnd)|\ ; HiEnd design center - (cpuIDinVIA)|\ ; supplemental ID in VIA1 - $3AD ; specific ID - dc.w 0 ; spare - dc.l IconInfoQFC-InfoWLCD33 ; offset to ICON info - - - IF forSmurf THEN - -; Centris610 with a Smurf card - - ALIGN 4 -InfoRiscCentris610 - dc.l djMEMCTable-InfoRiscCentris610 ; offset to decoder info - dc.l RamInfoRISCDJMEMC-InfoRiscCentris610; offset to ram bank info - dc.l VideoInfoDAFB-InfoRiscCentris610 ; offset to video info - dc.l NuBusInfoWLCD-InfoRiscCentris610 ; offset to NuBus info - dc.w 0|\ ; hwCfgFlags - (1< - (SoundStereoOut)|\ ; has stereo sound output - (SoundStereoMixing)|\ ; has stereo mixing - (SoundPlayAndRecord)|\ ; can Play and Record simultaneously - (1< - (ADBXcvr) ; Has transceiver ADB - dc.l \ ; Flags for valid ext feature flags 32-63 - (1< - dc.b $40,$00,$00,$00 ; VIA1: PA6 = 1, PA4 = 0, PA2 = 0, PA1 = 0 - dc.l VIA1InitWombat-InfoRiscCentris610 ; VIA1 init info - dc.l VIA2InitWombat-InfoRiscCentris610 ; VIA2 init info - dc.l SndCntlQuadra800-InfoRiscCentris610 ; sound control vector table - dc.l RTCClockPRAM-InfoRiscCentris610 ; clock/PRAM vector table - dc.l ViaADBTable-InfoRiscCentris610 ; ADB/DebugUtil vector table - dc.l 0 ; no Power Manager primitives - dc.l DJMEMCIntTbl-InfoRiscCentris610 ; interrupt handlers table - dc.l 0 ; internal modem manager - dc.w (cpuIDRISC)|\ ; HiEnd design center - $1204 ; specific ID - dc.w 0 ; spare - dc.l IconInfoQFC-InfoRiscCentris610 ; offset to ICON info - - -; Wombat product table w/Smurf...a centris650 (Lego plastics) - - ALIGN 4 -InfoRiscCentris650 ; - dc.l djMEMCTable-InfoRiscCentris650 ; offset to decoder info - dc.l RamInfoRISCDJMEMC-InfoRiscCentris650; offset to ram bank info - dc.l VideoInfoDAFB-InfoRiscCentris650 ; offset to video info - dc.l NuBusInfoWombat-InfoRiscCentris650 ; offset to NuBus info - dc.w 0|\ ; hwCfgFlags - (1< - dc.b ProductInfoVersion ; ProductInfo version - BitVector32 \ ; Flags for valid base addresses 0-31 - ROMExists,\ ; ROMAddr is valid - VIA1Exists,\ ; VIA1Addr is valid - VIA2Exists,\ ; VIA2Addr is valid - SCCRdExists,\ ; SCCRdAddr is valid - SCCWrExists,\ ; SCCWrAddr is valid - ASCExists,\ ; ASCAddr is valid (means Batman in this case) - IWMExists,\ ; IWMAddr is valid - SCSI96_1Exists,\ ; 1st SCSI96 is valid - SONICExists,\ ; SONIC is valid - PatchROMExists,\ ; Patch ROM is valid - DAFBExists ; has DAFB video - BitVector32 ; Flags for valid base addresses 32-63 - BitVector32 ; Flags for valid base addresses 64-95 - dc.l \ ; Flags for valid ext feature flags 0-31 - (ClockRTC)|\ ; Has RTC clock/PRAM - (SoundHasSoundIn)|\ ; Has 8-bit mono sound input - (SoundStereoOut)|\ ; has stereo sound output - (SoundStereoMixing)|\ ; has stereo mixing - (SoundPlayAndRecord)|\ ; can Play and Record simultaneously - (1< - dc.b $46,$00,$00,$00 ; VIA1: PA6 = 1, PA4 = 0, PA2 = 1, PA1 = 1 - dc.l VIA1InitWombat-InfoRiscCentris650 ; VIA1 init info - dc.l VIA2InitWombat-InfoRiscCentris650 ; VIA2 init info - dc.l SndCntlQuadra800-InfoRiscCentris650 ; sound control vector table - dc.l RTCClockPRAM-InfoRiscCentris650 ; clock/PRAM vector table - dc.l ViaADBTable-InfoRiscCentris650 ; ADB/DebugUtil vector table - dc.l 0 ; no Power Manager primitives - dc.l DJMEMCIntTbl-InfoRiscCentris650 ; interrupt handlers table - dc.l 0 ; internal modem manager - dc.w (cpuIDRISC)|\ ; CPU ID: RISC design center - $1200 ; specific ID - dc.w 0 ; spare - dc.l IconInfoLego-InfoRiscCentris650 ; offset to ICON info - -; Quadra610 with a smurf card - - ALIGN 4 -InfoRiscQuadra610 - dc.l djMEMCTable-InfoRiscQuadra610 ; offset to decoder info - dc.l RamInfoRISCDJMEMC-InfoRiscQuadra610 ; offset to ram bank info - dc.l VideoInfoDAFB-InfoRiscQuadra610 ; offset to video info - dc.l NuBusInfoWLCD-InfoRiscQuadra610 ; offset to NuBus info - dc.w 0|\ ; hwCfgFlags - (1< - (SoundStereoOut)|\ ; has stereo sound output - (SoundStereoMixing)|\ ; has stereo mixing - (SoundPlayAndRecord)|\ ; can Play and Record simultaneously - (1< - (ADBXcvr) ; Has transceiver ADB - dc.l \ ; Flags for valid ext feature flags 32-63 - (1< - dc.b $44,$00,$00,$00 ; VIA1: PA6 = 1, PA4 = 0, PA2 = 1, PA1 = 0 - dc.l VIA1InitWombat-InfoRiscQuadra610 ; VIA1 init info - dc.l VIA2InitWombat-InfoRiscQuadra610 ; VIA2 init info - dc.l SndCntlQuadra800-InfoRiscQuadra610 ; sound control vector table - dc.l RTCClockPRAM-InfoRiscQuadra610 ; clock/PRAM vector table - dc.l ViaADBTable-InfoRiscQuadra610 ; ADB/DebugUtil vector table - dc.l 0 ; no Power Manager primitives - dc.l DJMEMCIntTbl-InfoRiscQuadra610 ; interrupt handlers table - dc.l 0 ; internal modem manager - dc.w (cpuIDRISC)|\ ; HiEnd design center - $1202 ; specific ID - dc.w 0 ; spare - dc.l IconInfoQFC-InfoRiscQuadra610 ; offset to ICON info - -; Quadra650 with a smurf card - - ALIGN 4 -InfoRiscQuadra650 - dc.l djMEMCTable-InfoRiscQuadra650 ; offset to decoder info - dc.l RamInfoRISCDJMEMC-InfoRiscQuadra650 ; offset to ram bank info - dc.l VideoInfoDAFB-InfoRiscQuadra650 ; offset to video info - dc.l NuBusInfoWombat-InfoRiscQuadra650 ; offset to NuBus info - dc.w 0|\ ; hwCfgFlags - (1< - (SoundStereoOut)|\ ; has stereo sound output - (SoundStereoMixing)|\ ; has stereo mixing - (SoundPlayAndRecord)|\ ; can Play and Record simultaneously - (1< - dc.b $52,$00,$00,$00 ; VIA1: PA6 = 1, PA4 = 1, PA2 = 0, PA1 = 1 - dc.l VIA1InitWombat-InfoRiscQuadra650 ; VIA1 init info - dc.l VIA2InitWombat-InfoRiscQuadra650 ; VIA2 init info - dc.l SndCntlQuadra800-InfoRiscQuadra650 ; sound control vector table - dc.l RTCClockPRAM-InfoRiscQuadra650 ; clock/PRAM vector table - dc.l ViaADBTable-InfoRiscQuadra650 ; ADB/DebugUtil vector table - dc.l 0 ; no Power Manager primitives - dc.l DJMEMCIntTbl-InfoRiscQuadra650 ; interrupt handlers table - dc.l 0 ; internal modem manager - dc.w (cpuIDRISC)|\ ; CPU ID: RISC design center - $1203 ; specific ID - dc.w 0 ; spare - dc.l IconInfoLego-InfoRiscQuadra650 ; offset to ICON info - - -; Quadra800 with a Risc card - - ALIGN 4 -InfoRiscQuadra800 - dc.l djMEMCTable-InfoRiscQuadra800 ; offset to decoder info - dc.l RamInfoRISCDJMEMC-InfoRiscQuadra800 ; offset to ram bank info - dc.l VideoInfoDAFB-InfoRiscQuadra800 ; offset to video info - dc.l NuBusInfoWombat-InfoRiscQuadra800 ; offset to NuBus info - dc.w 0|\ ; hwCfgFlags - (1< - BitVector32 \ ; Flags for valid base addresses 0-31 - ROMExists,\ ; ROMAddr is valid - VIA1Exists,\ ; VIA1Addr is valid - VIA2Exists,\ ; VIA2Addr is valid - SCCRdExists,\ ; SCCRdAddr is valid - SCCWrExists,\ ; SCCWrAddr is valid - ASCExists,\ ; ASCAddr is valid (means Batman in this case) - IWMExists,\ ; IWMAddr is valid - SCSI96_1Exists,\ ; 1st SCSI96 is valid - SONICExists,\ ; SONIC is valid - PatchROMExists,\ ; Patch ROM is valid - DAFBExists ; has DAFB video - BitVector32 ; Flags for valid base addresses 32-63 - BitVector32 ; Flags for valid base addresses 64-95 - dc.l (ClockRTC)|\ ; Has RTC clock/PRAM - (SoundHasSoundIn)|\ ; Has 8-bit mono sound input - (SoundStereoOut)|\ ; has stereo sound output - (SoundStereoMixing)|\ ; has stereo mixing - (SoundPlayAndRecord)|\ ; can Play and Record simultaneously - (1< - dc.b $56,$00,$00,$00 ; Check VIA1: PA6 PA4, PA2, PA1 - dc.b $12,$00,$00,$00 ; VIA1: PA6 = 0, PA4 = 1, PA2 = 0, PA1 = 1 - dc.l VIA1InitWombat-InfoRiscQuadra800 ; VIA1 init info - dc.l VIA2InitWombat-InfoRiscQuadra800 ; VIA2 init info - dc.l SndCntlQuadra800-InfoRiscQuadra800 ; sound control vector table - dc.l RTCClockPRAM-InfoRiscQuadra800 ; clock/PRAM vector table - dc.l ViaADBTable-InfoRiscQuadra800 ; ADB/DebugUtil vector table - dc.l 0 ; no Power Manager primitives - dc.l DJMEMCIntTbl-InfoRiscQuadra800 ; interrupt handlers table - dc.l 0 ; internal modem manager - dc.w (cpuIDRISC)|\ ; HiEnd design center - $1201 ; specific ID - dc.w 0 ; spare - dc.l IconInfoFrigidaire-InfoRiscQuadra800; offset to ICON info - - ENDIF ; {for smurf} - - - ENDIF ; {hasDJMEMC} - - - IF forSTP601 THEN - -; 25MHz STP Wombat product table (Lego plastics) - - ALIGN 4 -InfoSTPCentris650 - dc.l djMEMCTable-InfoSTPCentris650 ; offset to decoder info - dc.l RamInfoDJMEMC-InfoSTPCentris650 ; offset to ram bank info - dc.l VideoInfoDAFB-InfoSTPCentris650 ; offset to video info - dc.l NuBusInfoWombat-InfoSTPCentris650 ; offset to NuBus info - dc.w 0|\ ; hwCfgFlags - (1< - dc.b ProductInfoVersion ; ProductInfo version - BitVector32 \ ; Flags for valid base addresses 0-31 - ROMExists,\ ; ROMAddr is valid - DiagROMExists,\ ; DiagROMAddr is valid - VIA1Exists,\ ; VIA1Addr is valid - VIA2Exists,\ ; VIA2Addr is valid - SCCRdExists,\ ; SCCRdAddr is valid - SCCWrExists,\ ; SCCWrAddr is valid - ASCExists,\ ; ASCAddr is valid (means Batman in this case) - IWMExists,\ ; IWMAddr is valid - SCSI96_1Exists,\ ; 1st SCSI96 is valid - SONICExists,\ ; SONIC is valid - PatchROMExists,\ ; Patch ROM is valid - DAFBExists ; has DAFB video - BitVector32 ; Flags for valid base addresses 32-63 - BitVector32 ; Flags for valid base addresses 64-95 - dc.l \ ; Flags for valid ext feature flags 0-31 - (ClockRTC)|\ ; Has RTC clock/PRAM - (SoundHasSoundIn)|\ ; Has 8-bit mono sound input - (SoundStereoOut)|\ ; has stereo sound output - (SoundStereoMixing)|\ ; has stereo mixing - (SoundPlayAndRecord)|\ ; can Play and Record simultaneously - (1< - dc.b $46,$00,$00,$00 ; VIA1: PA6 = 1, PA4 = 0, PA2 = 1, PA1 = 1 - dc.l VIA1InitWombat-InfoSTPCentris650 ; VIA1 init info - dc.l VIA2InitWombat-InfoSTPCentris650 ; VIA2 init info - dc.l SndCntlQuadra800-InfoSTPCentris650 ; sound control vector table - dc.l RTCClockPRAM-InfoSTPCentris650 ; clock/PRAM vector table - dc.l ViaADBTable-InfoSTPCentris650 ; ADB/DebugUtil vector table - dc.l 0 ; no Power Manager primitives - dc.l DJMEMCIntTbl-InfoSTPCentris650 ; interrupt handlers table - dc.l 0 ; internal modem manager - dc.w ((cpuIDRISC))|\ ; RISC design center - (cpuIDinVIA)|\ ; supplemental ID in VIA1 - $3AD ; specific ID - dc.w 0 ; spare - dc.l IconInfoLego-InfoSTPCentris650 ; offset to ICON info - - -; 33MHz STP Wombat product table (Lego plastics) - - ALIGN 4 -InfoSTPQuadra650 - dc.l djMEMCTable-InfoSTPQuadra650 ; offset to decoder info - dc.l RamInfoDJMEMC-InfoSTPQuadra650 ; offset to ram bank info - dc.l VideoInfoDAFB-InfoSTPQuadra650 ; offset to video info - dc.l NuBusInfoWombat-InfoSTPQuadra650 ; offset to NuBus info - dc.w 0|\ ; hwCfgFlags - (1< - dc.b ProductInfoVersion ; ProductInfo version - BitVector32 \ ; Flags for valid base addresses 0-31 - ROMExists,\ ; ROMAddr is valid - DiagROMExists,\ ; DiagROMAddr is valid - VIA1Exists,\ ; VIA1Addr is valid - VIA2Exists,\ ; VIA2Addr is valid - SCCRdExists,\ ; SCCRdAddr is valid - SCCWrExists,\ ; SCCWrAddr is valid - ASCExists,\ ; ASCAddr is valid (means Batman in this case) - IWMExists,\ ; IWMAddr is valid - SCSI96_1Exists,\ ; 1st SCSI96 is valid - SONICExists,\ ; SONIC is valid - PatchROMExists,\ ; Patch ROM is valid - DAFBExists ; has DAFB video - BitVector32 ; Flags for valid base addresses 32-63 - BitVector32 ; Flags for valid base addresses 64-95 - dc.l \ ; Flags for valid ext feature flags 0-31 - (ClockRTC)|\ ; Has RTC clock/PRAM - (SoundHasSoundIn)|\ ; Has 8-bit mono sound input - (SoundStereoOut)|\ ; has stereo sound output - (SoundStereoMixing)|\ ; has stereo mixing - (SoundPlayAndRecord)|\ ; can Play and Record simultaneously - (1< - dc.b $52,$00,$00,$00 ; VIA1: PA6 = 1, PA4 = 1, PA2 = 0, PA1 = 1 - dc.l VIA1InitWombat-InfoSTPQuadra650 ; VIA1 init info - dc.l VIA2InitWombat-InfoSTPQuadra650 ; VIA2 init info - dc.l SndCntlQuadra800-InfoSTPQuadra650 ; sound control vector table - dc.l RTCClockPRAM-InfoSTPQuadra650 ; clock/PRAM vector table - dc.l ViaADBTable-InfoSTPQuadra650 ; ADB/DebugUtil vector table - dc.l 0 ; no Power Manager primitives - dc.l DJMEMCIntTbl-InfoSTPQuadra650 ; interrupt handlers table - dc.l 0 ; internal modem manager - dc.w (cpuIDRISC)|\ ; risc design center - (cpuIDinVIA)|\ ; supplemental ID in VIA1 - $3AD ; specific ID - dc.w 0 ; spare - dc.l IconInfoLego-InfoSTPQuadra650 ; offset to ICON info - - -; 33MHz STP Wombat product table (Frigidaire plastics) - - ALIGN 4 -InfoSTPQuadra800 - dc.l djMEMCTable-InfoSTPQuadra800 ; offset to decoder info - dc.l RamInfoDJMEMC-InfoSTPQuadra800 ; offset to ram bank info - dc.l VideoInfoDAFB-InfoSTPQuadra800 ; offset to video info - dc.l NuBusInfoWombat-InfoSTPQuadra800 ; offset to NuBus info - dc.w 0|\ ; hwCfgFlags - (1< - dc.b ProductInfoVersion ; ProductInfo version - BitVector32 \ ; Flags for valid base addresses 0-31 - ROMExists,\ ; ROMAddr is valid - DiagROMExists,\ ; DiagROMAddr is valid - VIA1Exists,\ ; VIA1Addr is valid - VIA2Exists,\ ; VIA2Addr is valid - SCCRdExists,\ ; SCCRdAddr is valid - SCCWrExists,\ ; SCCWrAddr is valid - ASCExists,\ ; ASCAddr is valid (means Batman in this case) - IWMExists,\ ; IWMAddr is valid - SCSI96_1Exists,\ ; 1st SCSI96 is valid - SONICExists,\ ; SONIC is valid - PatchROMExists,\ ; Patch ROM is valid - DAFBExists ; has DAFB video - BitVector32 ; Flags for valid base addresses 32-63 - BitVector32 ; Flags for valid base addresses 64-95 - dc.l (ClockRTC)|\ ; Has RTC clock/PRAM - (SoundHasSoundIn)|\ ; Has 8-bit mono sound input - (SoundStereoOut)|\ ; has stereo sound output - (SoundStereoMixing)|\ ; has stereo mixing - (SoundPlayAndRecord)|\ ; can Play and Record simultaneously - (1< - dc.b $56,$00,$00,$00 ; Check VIA1: PA6 PA4, PA2, PA1 - dc.b $12,$00,$00,$00 ; VIA1: PA6 = 0, PA4 = 1, PA2 = 0, PA1 = 1 - dc.l VIA1InitWombat-InfoSTPQuadra800 ; VIA1 init info - dc.l VIA2InitWombat-InfoSTPQuadra800 ; VIA2 init info - dc.l SndCntlQuadra800-InfoSTPQuadra800 ; sound control vector table - dc.l RTCClockPRAM-InfoSTPQuadra800 ; clock/PRAM vector table - dc.l ViaADBTable-InfoSTPQuadra800 ; ADB/DebugUtil vector table - dc.l 0 ; no Power Manager primitives - dc.l DJMEMCIntTbl-InfoSTPQuadra800 ; interrupt handlers table - dc.l 0 ; internal modem manager - dc.w (cpuIDRISC)|\ ; risc design center - (cpuIDinVIA)|\ ; supplemental ID in VIA1 - $3AD ; specific ID - dc.w 0 ; spare - dc.l IconInfoFrigidaire-InfoSTPQuadra800 ; offset to ICON info - - -; 40MHz STP Wombat product table (Frigidaire plastics) - - ALIGN 4 -InfoSTPQuadra40F - dc.l djMEMCTable-InfoSTPQuadra40F ; offset to decoder info - dc.l RamInfoDJMEMC-InfoSTPQuadra40F ; offset to ram bank info - dc.l VideoInfoDAFB-InfoSTPQuadra40F ; offset to video info - dc.l NuBusInfoWombat-InfoSTPQuadra40F ; offset to NuBus info - dc.w 0|\ ; hwCfgFlags - (1< - dc.b ProductInfoVersion ; ProductInfo version - BitVector32 \ ; Flags for valid base addresses 0-31 - ROMExists,\ ; ROMAddr is valid - DiagROMExists,\ ; DiagROMAddr is valid - VIA1Exists,\ ; VIA1Addr is valid - VIA2Exists,\ ; VIA2Addr is valid - SCCRdExists,\ ; SCCRdAddr is valid - SCCWrExists,\ ; SCCWrAddr is valid - ASCExists,\ ; ASCAddr is valid (means Batman in this case) - IWMExists,\ ; IWMAddr is valid - SCSI96_1Exists,\ ; 1st SCSI96 is valid - SONICExists,\ ; SONIC is valid - PatchROMExists,\ ; Patch ROM is valid - DAFBExists ; has DAFB video - BitVector32 ; Flags for valid base addresses 32-63 - BitVector32 ; Flags for valid base addresses 64-95 - dc.l (ClockRTC)|\ ; Has RTC clock/PRAM - (SoundHasSoundIn)|\ ; Has 8-bit mono sound input - (SoundStereoOut)|\ ; has stereo sound output - (SoundStereoMixing)|\ ; has stereo mixing - (SoundPlayAndRecord)|\ ; can Play and Record simultaneously - (1< - dc.b $56,$00,$00,$00 ; Check VIA1: PA6 PA4, PA2, PA1 - dc.b $16,$00,$00,$00 ; VIA1: PA6 = 0, PA4 = 1, PA2 = 1, PA1 = 1 - dc.l VIA1InitWombat-InfoSTPQuadra40F ; VIA1 init info - dc.l VIA2InitWombat-InfoSTPQuadra40F ; VIA2 init info - dc.l SndCntlQuadra800-InfoSTPQuadra40F ; sound control vector table - dc.l RTCClockPRAM-InfoSTPQuadra40F ; clock/PRAM vector table - dc.l ViaADBTable-InfoSTPQuadra40F ; ADB/DebugUtil vector table - dc.l 0 ; no Power Manager primitives - dc.l DJMEMCIntTbl-InfoSTPQuadra40F ; interrupt handlers table - dc.l 0 ; internal modem manager - dc.w (cpuIDRISC)|\ ; HiEnd design center - (cpuIDinVIA)|\ ; supplemental ID in VIA1 - $3AD ; specific ID - dc.w 0 ; spare - dc.l IconInfoFrigidaire-InfoSTPQuadra40F ; offset to ICON info - - -; 20MHz STP WLCD product table (QFC plastics) - - ALIGN 4 -InfoSTPCentris610 - dc.l djMEMCTable-InfoSTPCentris610 ; offset to decoder info - dc.l RamInfoDJMEMC-InfoSTPCentris610 ; offset to ram bank info - dc.l VideoInfoDAFB-InfoSTPCentris610 ; offset to video info - dc.l NuBusInfoWLCD-InfoSTPCentris610 ; offset to NuBus info - dc.w 0|\ ; hwCfgFlags - (1< - dc.b ProductInfoVersion ; ProductInfo version - BitVector32 \ ; Flags for valid base addresses 0-31 - ROMExists,\ ; ROMAddr is valid - DiagROMExists,\ ; DiagROMAddr is valid - VIA1Exists,\ ; VIA1Addr is valid - VIA2Exists,\ ; VIA2Addr is valid - SCCRdExists,\ ; SCCRdAddr is valid - SCCWrExists,\ ; SCCWrAddr is valid - ASCExists,\ ; ASCAddr is valid (means Batman in this case) - IWMExists,\ ; IWMAddr is valid - SCSI96_1Exists,\ ; 1st SCSI96 is valid - SONICExists,\ ; SONIC is valid - PatchROMExists,\ ; Patch ROM is valid - DAFBExists ; has DAFB video - BitVector32 ; Flags for valid base addresses 32-63 - BitVector32 ; Flags for valid base addresses 64-95 - dc.l \ ; Flags for valid ext feature flags 0-31 - (ClockRTC)|\ ; Has RTC clock/PRAM - (SoundHasSoundIn)|\ ; Has 8-bit mono sound input - (SoundStereoOut)|\ ; has stereo sound output - (SoundStereoMixing)|\ ; has stereo mixing - (SoundPlayAndRecord)|\ ; can Play and Record simultaneously - (1< - (1< - dc.b $40,$00,$00,$00 ; VIA1: PA6 = 1, PA4 = 0, PA2 = 0, PA1 = 0 - dc.l VIA1InitWombat-InfoSTPCentris610 ; VIA1 init info - dc.l VIA2InitWombat-InfoSTPCentris610 ; VIA2 init info - dc.l SndCntlQuadra800-InfoSTPCentris610 ; sound control vector table - dc.l RTCClockPRAM-InfoSTPCentris610 ; clock/PRAM vector table - dc.l ViaADBTable-InfoSTPCentris610 ; ADB/DebugUtil vector table - dc.l 0 ; no Power Manager primitives - dc.l DJMEMCIntTbl-InfoSTPCentris610 ; interrupt handlers table - dc.l 0 ; internal modem manager - dc.w (cpuIDRISC)|\ ; risc design center - (cpuIDinVIA)|\ ; supplemental ID in VIA1 - $3AD ; specific ID - dc.w 0 ; spare - dc.l IconInfoQFC-InfoSTPCentris610 ; offset to ICON info - - -; 25MHz STP WLCD product table (QFC plastics) - - ALIGN 4 -InfoSTPQuadra610 - dc.l djMEMCTable-InfoSTPQuadra610 ; offset to decoder info - dc.l RamInfoDJMEMC-InfoSTPQuadra610 ; offset to ram bank info - dc.l VideoInfoDAFB-InfoSTPQuadra610 ; offset to video info - dc.l NuBusInfoWLCD-InfoSTPQuadra610 ; offset to NuBus info - dc.w 0|\ ; hwCfgFlags - (1< - dc.b ProductInfoVersion ; ProductInfo version - BitVector32 \ ; Flags for valid base addresses 0-31 - ROMExists,\ ; ROMAddr is valid - DiagROMExists,\ ; DiagROMAddr is valid - VIA1Exists,\ ; VIA1Addr is valid - VIA2Exists,\ ; VIA2Addr is valid - SCCRdExists,\ ; SCCRdAddr is valid - SCCWrExists,\ ; SCCWrAddr is valid - ASCExists,\ ; ASCAddr is valid (means Batman in this case) - IWMExists,\ ; IWMAddr is valid - SCSI96_1Exists,\ ; 1st SCSI96 is valid - SONICExists,\ ; SONIC is valid - PatchROMExists,\ ; Patch ROM is valid - DAFBExists ; has DAFB video - BitVector32 ; Flags for valid base addresses 32-63 - BitVector32 ; Flags for valid base addresses 64-95 - dc.l \ ; Flags for valid ext feature flags 0-31 - (ClockRTC)|\ ; Has RTC clock/PRAM - (SoundHasSoundIn)|\ ; Has 8-bit mono sound input - (SoundStereoOut)|\ ; has stereo sound output - (SoundStereoMixing)|\ ; has stereo mixing - (SoundPlayAndRecord)|\ ; can Play and Record simultaneously - (1< - (1< - dc.b $44,$00,$00,$00 ; VIA1: PA6 = 1, PA4 = 0, PA2 = 1, PA1 = 0 - dc.l VIA1InitWombat-InfoSTPQuadra610 ; VIA1 init info - dc.l VIA2InitWombat-InfoSTPQuadra610 ; VIA2 init info - dc.l SndCntlQuadra800-InfoSTPQuadra610 ; sound control vector table - dc.l RTCClockPRAM-InfoSTPQuadra610 ; clock/PRAM vector table - dc.l ViaADBTable-InfoSTPQuadra610 ; ADB/DebugUtil vector table - dc.l 0 ; no Power Manager primitives - dc.l DJMEMCIntTbl-InfoSTPQuadra610 ; interrupt handlers table - dc.l 0 ; internal modem manager - dc.w (cpuIDRISC)|\ ; risc design center - (cpuIDinVIA)|\ ; supplemental ID in VIA1 - $3AD ; specific ID - dc.w 0 ; spare - dc.l IconInfoQFC-InfoSTPQuadra610 ; offset to ICON info - - - ENDIF ; {forSTP601} - - - IF hasYMCA AND hasPSC THEN ; used to be MMC - - IMPORT SndCntlCyclone, PSCIntTbl - -; 33 MHz Cyclone product table - - ALIGN 4 -InfoCyclone33 - dc.l CycloneDecoderTable-InfoCyclone33 ; offset to decoder info for EVT4 - dc.l RamInfoCyclone-InfoCyclone33 ; offset to ram bank info - dc.l VideoInfoCyclone-InfoCyclone33 ; offset to video info - dc.l NuBusInfoCyclone-InfoCyclone33 ; offset to NuBus info - dc.w 0|\ ; hwCfgFlags - (1< - CivicExists,\ ; Civic video is valid - SebastianExists ; Sebastian CLUT DAC is valid - BitVector32 ; Flags for valid base addresses 64-95 - dc.l \ ; Flags for valid ext feature flags 0-31 - (ClockEgret)|\ ; Has Egret clock/pram - (ADBEgret)|\ ; Egret ADB - (Cuda)|\ ; Cuda firmware - (SoundHasSoundIn)|\ ; Has Sound In - (Sound16Bit)|\ ; Has 16-bit hardware - (SoundStereoIn)|\ ; has stereo sound input - (SoundStereoOut)|\ ; has stereo sound output - (SoundStereoMixing)|\ ; has stereo mixing - (SoundPlayAndRecord)|\ ; can Play and Record simultaneously - (1 << SoundLineLevel) ; requires line level on sound input port - dc.l \ ; Flags for valid ext feature flags 32-63 - (1< - dc.b $00,$00,$00 ; Filler. - dc.l VIA1InitCyclone-InfoCyclone33 ; VIA1 init info - dc.l VIA2InitCyclone-InfoCyclone33 ; VIA2 init info - dc.l SndCntlCyclone-InfoCyclone33 ; sound control vector table - dc.l CudaClockPRAM-InfoCyclone33 ; clock/PRAM vector table - dc.l CudaADBTable-InfoCyclone33 ; ADB/DebugUtil vector table - dc.l 0 ; no Power Manager primitives - dc.l PSCIntTbl-InfoCyclone33 ; interrupt handlers table - dc.l 0 ; internal modem manager - dc.w cpuIDHiEnd|\ ; CPU ID: hi end design center - cpuIDinMMC|\ ; CPU ID: Extended ID in MMC. - $30 ; CPU ID: Cyclone Family is ID $30 - dc.w 0 ; spare - dc.l FrigidaireIcon-InfoCyclone33 ; offset to ICON info •• fake for now •• - - -; 40 MHz Cyclone product table - - ALIGN 4 -InfoQuadra840AV - dc.l CycloneDecoderTable-InfoQuadra840AV ; offset to decoder info for EVT4 - dc.l RamInfoCyclone-InfoQuadra840AV ; offset to ram bank info - dc.l VideoInfoCyclone-InfoQuadra840AV ; offset to video info - dc.l NuBusInfoCyclone-InfoQuadra840AV ; offset to NuBus info - dc.w 0|\ ; hwCfgFlags - (1< - CivicExists,\ ; Civic video is valid - SebastianExists ; Sebastian CLUT DAC is valid - BitVector32 ; Flags for valid base addresses 64-95 - dc.l \ ; Flags for valid ext feature flags 0-31 - (ClockEgret)|\ ; Has Egret clock/pram - (ADBEgret)|\ ; Egret ADB - (Cuda)|\ ; Cuda firmware - (SoundHasSoundIn)|\ ; Has Sound In - (Sound16Bit)|\ ; Has 16-bit hardware - (SoundStereoIn)|\ ; has stereo sound input - (SoundStereoOut)|\ ; has stereo sound output - (SoundStereoMixing)|\ ; has stereo mixing - (SoundPlayAndRecord)|\ ; can Play and Record simultaneously - (1 << SoundLineLevel) ; requires line level on sound input port - dc.l \ ; Flags for valid ext feature flags 32-63 - (1< - dc.b $00,$00,$00 ; Filler. - dc.l VIA1InitCyclone-InfoQuadra840AV ; VIA1 init info - dc.l VIA2InitCyclone-InfoQuadra840AV ; VIA2 init info - dc.l SndCntlCyclone-InfoQuadra840AV ; sound control vector table - dc.l CudaClockPRAM-InfoQuadra840AV ; clock/PRAM vector table - dc.l CudaADBTable-InfoQuadra840AV ; ADB/DebugUtil vector table - dc.l 0 ; no Power Manager primitives - dc.l PSCIntTbl-InfoQuadra840AV ; interrupt handlers table - dc.l 0 ; internal modem manager - dc.w cpuIDHiEnd|\ ; CPU ID: hi end design center - cpuIDinMMC|\ ; CPU ID: Extended ID in MMC. - $30 ; CPU ID: Cyclone Family is ID $30 - dc.w 0 ; spare - dc.l FrigidaireIcon-InfoQuadra840AV ; offset to ICON info •• fake for now •• - - -; 25 MHz Tempest product table - - ALIGN 4 -InfoCentris660AV - dc.l CycloneDecoderTable-InfoCentris660AV; offset to decoder info (Same as Cyclone) - dc.l RamInfoTempest-InfoCentris660AV ; offset to ram bank info - dc.l VideoInfoTempest-InfoCentris660AV ; offset to video info (Same as Cyclone) - dc.l NuBusInfoTempest-InfoCentris660AV ; offset to NuBus info - dc.w 0|\ ; hwCfgFlags - (1< - BitVector32 ; Flags for valid base addresses 64-95 - dc.l \ ; Flags for valid ext feature flags 0-31 - (ClockEgret)|\ ; Has Egret clock/pram - (ADBEgret)|\ ; Egret ADB - (Cuda)|\ ; Cuda firmware - (SoundHasSoundIn)|\ ; Has Sound In - (Sound16Bit)|\ ; Has 16-bit hardware - (SoundStereoIn)|\ ; has stereo sound input - (SoundStereoOut)|\ ; has stereo sound output - (SoundStereoMixing)|\ ; has stereo mixing - (SoundPlayAndRecord)|\ ; can Play and Record simultaneously - (1 << SoundLineLevel)|\ ; requires line level on sound input port - (1< - dc.l \ ; Flags for valid ext feature flags 32-63 - (1< - dc.l 0 ; no Power Manager primitives - dc.l PSCIntTbl-InfoCentris660AV ; interrupt handlers table - dc.l 0 ; internal modem manager - dc.w cpuIDHiEnd|\ ; CPU ID: hi end design center - cpuIDinMMC|\ ; CPU ID: Extended ID in MMC. - $30 ; CPU ID: Cyclone Family is ID $30 - dc.w 0 ; spare - dc.l IconInfoQFC-InfoCentris660AV ; offset to ICON info •• fake for now •• - - -; 33 MHz Tempest product table - - ALIGN 4 -InfoTempest33 - dc.l CycloneDecoderTable-InfoTempest33 ; offset to decoder info (Same as Cyclone) - dc.l RamInfoTempest-InfoTempest33 ; offset to ram bank info - dc.l VideoInfoTempest-InfoTempest33 ; offset to video info (Same as Cyclone) - dc.l NuBusInfoTempest-InfoTempest33 ; offset to NuBus info - dc.w 0|\ ; hwCfgFlags - (1< - BitVector32 ; Flags for valid base addresses 64-95 - dc.l \ ; Flags for valid ext feature flags 0-31 - (ClockEgret)|\ ; Has Egret clock/pram - (ADBEgret)|\ ; Egret ADB - (Cuda)|\ ; Cuda firmware - (SoundHasSoundIn)|\ ; Has Sound In - (Sound16Bit)|\ ; Has 16-bit hardware - (SoundStereoIn)|\ ; has stereo sound input - (SoundStereoOut)|\ ; has stereo sound output - (SoundStereoMixing)|\ ; has stereo mixing - (SoundPlayAndRecord)|\ ; can Play and Record simultaneously - (1 << SoundLineLevel)|\ ; requires line level on sound input port - (1< - dc.l \ ; Flags for valid ext feature flags 32-63 - (1< - dc.l 0 ; no Power Manager primitives - dc.l PSCIntTbl-InfoTempest33 ; interrupt handlers table - dc.l 0 ; internal modem manager - dc.w cpuIDHiEnd|\ ; CPU ID: hi end design center - cpuIDinMMC|\ ; CPU ID: Extended ID in MMC. - $30 ; CPU ID: Cyclone Family is ID $30 - dc.w 0 ; spare - dc.l IconInfoQFC-InfoTempest33 ; offset to ICON info •• fake for now •• - - ENDIF ; hasYMCA - - - IF hasHMC THEN ; - -; ProductInfo table for PDM - - IMPORT SndCntlPDM, AMICIntTbl ; - - ALIGN 4 -InfoPDM ; PDM Family - dc.l HMCDecoderTable-InfoPDM ; offset to decoder info - dc.l RamInfoPDM-InfoPDM ; offset to ram bank info - dc.l VideoInfoPDM-InfoPDM ; PDM built in video - dc.l NuBusInfoPDM-InfoPDM ; offset to NuBus info - dc.w 0|\ ; hwCfgFlags - (1< - BitVector32 ; Flags for valid base addresses 64-95 - dc.l \ ; Flags for valid ext feature flags 0-31 - (ClockEgret)|\ ; Has Egret clock/pram - (ADBEgret)|\ ; Egret ADB - (Cuda)|\ ; Cuda firmware - (SoundHasSoundIn)|\ ; Has Sound In - (Sound16Bit)|\ ; Has 16-bit hardware - (SoundStereoIn)|\ ; has stereo sound input - (SoundStereoOut)|\ ; has stereo sound output - (SoundStereoMixing)|\ ; has stereo mixing - (SoundPlayAndRecord)|\ ; can Play and Record simultaneously - (1< - (1< - dc.l 0 ; Flags for valid ext feature flags 64-95 - dc.b $00,$00,$00,$00 ; Check VIA1 PA6, PA4, PA2, PA1 - dc.b $00,$00,$00,$00 ; VIA1 PA6 = 1, PA4 = 0, PA2 = 0, PA1 = 0 - dc.l VIA1InitPDM-InfoPDM ; VIA1 init info - dc.l 0 ; no VIA2 init info - dc.l SndCntlPDM-InfoPDM ; sound control vector table - dc.l CudaClockPRAM-InfoPDM ; clock/PRAM vector table - dc.l CudaADBTable-InfoPDM ; ADB/DebugUtil vector table - dc.l 0 ; no Power Manager primitives - dc.l AMICIntTbl-InfoPDM ; interrupt handlers table - dc.l 0 ; internal modem manager - dc.w (cpuIDRISC)|\ ; CPU ID: RISC design center - (cpuIDinReg)|\ ; CPU ID: ID only in Reg - $3011 ; CPU ID: PDM ID is $3011 - dc.w 0 ; spare - dc.l IconInfoQFC-InfoPDM ; offset to ICON info - - ALIGN 4 -InfoPDMcoldFusion ; Cold Fusion SAM - dc.l HMCcfDecoderTable-InfoPDMcoldfusion ; offset to decoder info - dc.l RamInfoPDM-InfoPDMcoldfusion ; offset to ram bank info - dc.l VideoInfoPDM-InfoPDMcoldfusion ; PDM built in video - dc.l NuBusInfoCFusion-InfoPDMcoldfusion ; offset to NuBus info - dc.w 0|\ ; hwCfgFlags - (1< - BitVector32 ; Flags for valid base addresses 64-95 - dc.l \ ; Flags for valid ext feature flags 0-31 - (ClockEgret)|\ ; Has Egret clock/pram - (ADBEgret)|\ ; Egret ADB - (Cuda)|\ ; Cuda firmware - (SoundHasSoundIn)|\ ; Has Sound In - (Sound16Bit)|\ ; Has 16-bit hardware - (SoundStereoIn)|\ ; has stereo sound input - (SoundStereoOut)|\ ; has stereo sound output - (SoundStereoMixing)|\ ; has stereo mixing - (SoundPlayAndRecord)|\ ; can Play and Record simultaneously - (1 << SoundLineLevel)|\ ; requires line level on sound input port - (1< - dc.l 0 ; Flags for valid ext feature flags 64-95 - dc.b $00,$00,$00,$00 ; Check VIA1 PA6, PA4, PA2, PA1 - dc.b $00,$00,$00,$00 ; VIA1 PA6 = 1, PA4 = 0, PA2 = 0, PA1 = 0 - dc.l VIA1InitPDM-InfoPDMcoldfusion ; VIA1 init info - dc.l 0 ; no VIA2 init info - dc.l SndCntlPDM-InfoPDMcoldfusion ; sound control vector table - dc.l CudaClockPRAM-InfoPDMcoldfusion ; clock/PRAM vector table - dc.l CudaADBTable-InfoPDMcoldfusion ; ADB/DebugUtil vector table - dc.l 0 ; no Power Manager primitives - dc.l AMICIntTbl-InfoPDMcoldfusion ; interrupt handlers table - dc.l 0 ; internal modem manager - dc.w (cpuIDRISC)|\ ; CPU ID: RISC design center - (cpuIDinReg)|\ ; CPU ID: ID only in Reg - $3013 ; CPU ID: ColdFusion ID is $3013 - dc.w 0 ; spare - dc.l IconInfoFrigidaire-InfoPDMcoldfusion; offset to ICON info - - ALIGN 4 - -InfoPDMCarlSagan ; Carl Sagan - dc.l HMCDecoderTable-InfoPDMCarlSagan ; offset to decoder info - dc.l RamInfoPDM-InfoPDMCarlSagan ; offset to ram bank info - dc.l VideoInfoPDM-InfoPDMCarlSagan ; PDM built in video - dc.l NuBusInfoCFusion-InfoPDMCarlSagan ; offset to NuBus info - dc.w 0|\ ; hwCfgFlags - (1< - BitVector32 ; Flags for valid base addresses 64-95 - dc.l \ ; Flags for valid ext feature flags 0-31 - (ClockEgret)|\ ; Has Egret clock/pram - (ADBEgret)|\ ; Egret ADB - (Cuda)|\ ; Cuda firmware - (SoundHasSoundIn)|\ ; Has Sound In - (Sound16Bit)|\ ; Has 16-bit hardware - (SoundStereoIn)|\ ; has stereo sound input - (SoundStereoOut)|\ ; has stereo sound output - (SoundStereoMixing)|\ ; has stereo mixing - (SoundPlayAndRecord)|\ ; can Play and Record simultaneously - (1 << SoundLineLevel)|\ ; requires line level on sound input port - (1< - dc.l 0 ; Flags for valid ext feature flags 64-95 - dc.b $00,$00,$00,$00 ; Check VIA1 PA6, PA4, PA2, PA1 - dc.b $00,$00,$00,$00 ; VIA1 PA6 = 1, PA4 = 0, PA2 = 0, PA1 = 0 - dc.l VIA1InitPDM-InfoPDMCarlSagan ; VIA1 init info - dc.l 0 ; no VIA2 init info - dc.l SndCntlPDM-InfoPDMCarlSagan ; sound control vector table - dc.l CudaClockPRAM-InfoPDMCarlSagan ; clock/PRAM vector table - dc.l CudaADBTable-InfoPDMCarlSagan ; ADB/DebugUtil vector table - dc.l 0 ; no Power Manager primitives - dc.l AMICIntTbl-InfoPDMCarlSagan ; interrupt handlers table - dc.l 0 ; internal modem manager - dc.w (cpuIDRISC)|\ ; CPU ID: RISC design center - (cpuIDinReg)|\ ; CPU ID: ID only in Reg - $3012 ; CPU ID: Carl Sagan ID is $3012 - dc.w 0 ; spare - dc.l IconInfoLego-InfoPDMCarlSagan ; offset to ICON info - - - ENDIF ; hasHMC - - IF hasGrandCentral THEN - - IMPORT GCIntTbl, SndCntlPDM - -; TNT bringup board product table - - ALIGN 4 -InfoTNTProto1 - dc.l HHeadDecoderTable-InfoTNTProto1 ; offset to decoder info for EVT4 - dc.l RamInfoTNT-InfoTNTProto1 ; offset to ram bank info - dc.l VideoInfoTNT-InfoTNTProto1 ; Pseudo TNT built in video - dc.l NuBusInfoTNT-InfoTNTProto1 ; offset to NuBus info - dc.w 0|\ ; hwCfgFlags - (1< - dc.l CudaClockPRAM-InfoTNTProto1 ; clock/PRAM vector table - dc.l CudaADBTable-InfoTNTProto1 ; ADB/DebugUtil vector table + dc.b $00,$00,$00,$00 ; anything with this decoder matches + dc.l $1a4 ; VIA1 init info + dc.l 0 ; no VIA2 init info + dc.l SndCntlNW-InfoNewWorld ; sound control vector table + dc.l NWClockPRAM-InfoNewWorld ; clock/PRAM vector table + dc.l DummyADBTable-InfoNewWorld ; ADB/DebugUtil vector table dc.l 0 ; no Power Manager primitives - dc.l GCIntTbl-InfoTNTProto1 ; interrupt handlers table - dc.l 0 ; internal modem manager - dc.w cpuIDHiEnd|\ ; CPU ID: hi end design center - (cpuIDinReg)|\ ; CPU ID: ID only in Reg - $3020 ; CPU ID: PDM ID is $3011 + dc.l NWIntTbl-InfoNewWorld ; interrupt handlers table + dc.l 0 ; no internal modem manager + dc.w cpuIDRISC|\ ; CPU ID: RISC design center + cpuIDinReg|\ ; CPU ID: register contains complete ID + $35 ; specific ID dc.w 0 ; spare - dc.l IconInfoFrigidaire-InfoTNTProto1 ; offset to ICON info - - ENDIF ; {hasGrandCentral} - - - -;_______________________________________________________________________ -; -; ••• The following applies only to older CPUs that do not support the -; ••• CPUID register identification scheme. -; -; The tables below figure out which logic board we are running on. Some VIA bits -; have been dedicated to this task starting with the Mac II. On other machines, -; we need to be more clever to determine which board it is. -; -; For 020/030 based machines, the VIA bits are used. For the Mac II, IIx, IIcx and -; SE30 machines, the ID bits are PA6 on VIA1 aand PB3 on VIA2. Note that on the -; Mac II, PB3 on VIA 2 is normally an output that controls the MMU, but when read as an -; input it is pulled high internal to the VIA. -; -; PA6 PB3 machine -; -; 0 0 Mac IIx -; 0 1 Mac II -; 1 0 Mac SE 30 -; 1 1 Mac IIcx -; -; For newer machines, Via 1 port A has four bits dedicated to a logic board ID. These bits -; are defined as follows: -; -; PA6 PA4 PA2 PA1 machine <5.0> -; 1 1 1 1 Aurora 25MHz, CX package IIci -; 1 1 1 0 Elsie (was Foursquare) LC <12> -; 1 1 0 1 F19 IIfx -; 1 0 1 1 Aurora 16MHz, CX package -; 0 1 1 1 Erickson IIsi -; 0 0 1 1 Aurora 16MHz, SE package (reserved for future) -; 1 1 0 0 Eclipse Quadra900 <13> -; 1 0 0 0 Spike Quadra700 -; 0 1 0 1 TIM PowerBook170 <36> -; 0 1 1 0 Waimea <36> - - - IF hasOrwell THEN - IMPORT SndCntlQuadra700, SndCntlQuadra900, Quadra700IntTbl, Quadra900IntTbl - - ALIGN 4 -InfoQuadra700 - dc.l OrwellDecoderTable-InfoQuadra700 ; offset to decoder info - dc.l RAMInfo2Bank4Meg-InfoQuadra700 ; offset to ram bank info - dc.l VideoInfoDAFB-InfoQuadra700 ; DAFB built in video - dc.l NuBusInfoQuadra700-InfoQuadra700 ; offset to NuBus info - dc.w 0|\ ; hwCfgFlags - (1< - dc.b ProductInfoVersion ; ProductInfo version - BitVector32 \ ; Flags for valid base addresses 0-31 - ROMExists,\ ; ROMAddr is valid - DiagROMExists,\ ; DiagROMAddr is valid - VIA1Exists,\ ; VIA1Addr is valid - VIA2Exists,\ ; VIA2Addr is valid - SCCRdExists,\ ; SCCRdAddr is valid - SCCWrExists,\ ; SCCWrAddr is valid - ASCExists,\ ; ASCAddr is valid (means Batman in this case) - IWMExists,\ ; IWMAddr is valid - SCSI96_1Exists,\ ; 1st SCSI96 is valid - OrwellExists,\ ; OrwellAddr in valid CSS - SONICExists,\ ; SONIC is valid - DAFBExists ; has DAFB video - BitVector32 ; Flags for valid base addresses 32-63 - BitVector32 ; Flags for valid base addresses 64-95 - dc.l \ ; Flags for valid ext feature flags 0-31 - (ClockRTC)|\ ; Has RTC clock/PRAM - (SoundHasSoundIn)|\ ; Has 8-bit mono sound input - (SoundStereoOut)|\ ; has stereo sound output - (SoundPlayAndRecord)|\ ; can Play and Record simultaneously - (1< - dc.l ViaADBTable-InfoQuadra700 ; ADB/DebugUtil vector table - dc.l 0 ; no Power Manager primitives - dc.l Quadra700IntTbl-InfoQuadra700 ; interrupt handlers table - dc.l 0 ; internal modem manager - dc.w 0 ; no CPU ID register - dc.w 0 ; spare - dc.l IconInfoQuadra700-InfoQuadra700 ; offset to ICON info - - - ALIGN 4 -InfoQuadra900 - dc.l OrwellDecoderTable-InfoQuadra900 ; offset to decoder info - dc.l RamInfoQuadra900-InfoQuadra900 ; offset to ram bank info - dc.l VideoInfoDAFB-InfoQuadra900 ; DAFB built in video <58> - dc.l NuBusInfoQuadra900-InfoQuadra900 ; offset to NuBus info - dc.w 0|\ ; hwCfgFlags - (1< - (1< - dc.b OrwellDecoder ; decoder kind - dc.w $3FFF ; ROM85, New ROMs, Power Off ability. - dc.b 2 ; default ROM Resource configuration - dc.b ProductInfoVersion ; ProductInfo version - BitVector32 \ ; Flags for valid base addresses 0-31 - ROMExists,\ ; ROMAddr is valid - DiagROMExists,\ ; DiagROMAddr is valid - VIA1Exists,\ ; VIA1Addr is valid - VIA2Exists,\ ; VIA2Addr is valid - ASCExists,\ ; ASCAddr is valid (means Batman in this case) <47> - SWIMIOPExists,\ ; SWIMIOPAddr is valid - SCCIOPExists,\ ; SCCIOPAddr is valid - OrwellExists,\ ; OrwellAddr is valid CSS - SONICExists,\ ; SONIC is valid <58> - SCSI96_1Exists,\ ; 1st SCSI96 is valid <58> - PatchROMExists,\ ; Patch ROM is valid - SCSI96_2Exists,\ ; 2nd SCSI96 is valid <58> - DAFBExists ; has DAFB video <58> - BitVector32 ; Flags for valid base addresses 32-63 - BitVector32 ; Flags for valid base addresses 64-95 - dc.l \ ; Flags for valid ext feature flags 0-31 - (ClockEgret)|\ ; Has Egret clock/PRAM <58> - (SoundHasSoundIn)|\ ; Has 8-bit mono sound input <58> - (Caboose)|\ ; Caboose firmware - (SoundStereoOut)|\ ; has stereo sound output <58> - (SoundPlayAndRecord)|\ ; can Play and Record simultaneously - (KeyswCaboose)|\ ; has a Caboose-flavored power keyswitch <58> - (1< - dc.l 0 ; Flags for valid ext feature flags 32-63 - dc.l 0 ; Flags for valid ext feature flags 64-95 - dc.b $56,$00,$00,$00 ; Check VIA1 PA6, PA4, PA2, PA1 - dc.b $50,$00,$00,$00 ; VIA1 PA6 = 1, PA4 = 1, PA2 = 0, PA1 = 0 - dc.l VIA1InitQuadra900-InfoQuadra900 ; VIA1 init info - dc.l VIA2InitQuadra900-InfoQuadra900 ; VIA2 init info - dc.l SndCntlQuadra900-InfoQuadra900 ; sound control vector table - dc.l EgretClockPRAM-InfoQuadra900 ; clock/PRAM vector table

- dc.l QuadraADBTable-InfoQuadra900 ; ADB/DebugUtil vector table - dc.l 0 ; no Power Manager primitives - dc.l Quadra900IntTbl-InfoQuadra900 ; interrupt handlers table - dc.l 0 ; internal modem manager - dc.w 0 ; no CPU ID register - dc.w 0 ; spare - dc.l IconInfoQuadra900-InfoQuadra900 ; offset to ICON info - - - ALIGN 4 -InfoQuadra950 - dc.l OrwellDecoderTable-InfoQuadra950 ; offset to decoder info - dc.l RamInfoQuadra900-InfoQuadra950 ; offset to ram bank info - dc.l VideoInfoDAFB-InfoQuadra950 ; DAFB built in video - dc.l NuBusInfoQuadra900-InfoQuadra950 ; offset to NuBus info - dc.w 0|\ ; hwCfgFlags - (1< - dc.b ProductInfoVersion ; ProductInfo version - BitVector32 \ ; Flags for valid base addresses 0-31 - ROMExists,\ ; ROMAddr is valid - DiagROMExists,\ ; DiagROMAddr is valid - VIA1Exists,\ ; VIA1Addr is valid - VIA2Exists,\ ; VIA2Addr is valid - ASCExists,\ ; ASCAddr is valid (means Batman in this case) <47> - SWIMIOPExists,\ ; SWIMIOPAddr is valid - SCCIOPExists,\ ; SCCIOPAddr is valid - OrwellExists,\ ; OrwellAddr is valid CSS - SONICExists,\ ; SONIC is valid <58> - SCSI96_1Exists,\ ; 1st SCSI96 is valid <58> - SCSI96_2Exists,\ ; 2nd SCSI96 is valid <58> - PatchROMExists,\ ; Patch ROM is valid - DAFBExists ; has DAFB video <58> - BitVector32 ; Flags for valid base addresses 32-63 - BitVector32 ; Flags for valid base addresses 64-95 - dc.l \ ; Flags for valid ext feature flags 0-31 - (ClockEgret)|\ ; Has Egret clock/PRAM <58> - (SoundHasSoundIn)|\ ; Has 8-bit mono sound input <58> - (Caboose)|\ ; Caboose firmware - (SoundStereoOut)|\ ; has stereo sound output <58> - (SoundStereoMixing)|\ ; has stereo mixing - (SoundPlayAndRecord)|\ ; can Play and Record simultaneously - (KeyswCaboose)|\ ; has a Caboose-flavored power keyswitch <58> - (1< - dc.l 0 ; Flags for valid ext feature flags 32-63 - dc.l 0 ; Flags for valid ext feature flags 64-95 - dc.b $56,$00,$00,$00 ; Check VIA1 PA6, PA4, PA2, PA1 - dc.b $10,$00,$00,$00 ; VIA1 PA6 = 0, PA4 = 1, PA2 = 0, PA1 = 0 - dc.l VIA1InitQuadra900-InfoQuadra950 ; VIA1 init info - dc.l VIA2InitQuadra900-InfoQuadra950 ; VIA2 init info - dc.l SndCntlQuadra900-InfoQuadra950 ; sound control vector table - dc.l EgretClockPRAM-InfoQuadra950 ; clock/PRAM vector table

- dc.l QuadraADBTable-InfoQuadra950 ; ADB/DebugUtil vector table - dc.l 0 ; no Power Manager primitives - dc.l Quadra900IntTbl-InfoQuadra950 ; interrupt handlers table - dc.l 0 ; internal modem manager - dc.w 0 ; no CPU ID register - dc.w 0 ; spare - dc.l IconInfoQuadra900-InfoQuadra950 ; offset to ICON info - - -; ProductInfo table for 601 Smurf cards running in Quadra 700's - - IF forSmurf THEN - ALIGN 4 -InfoRiscQuadra700 ; - dc.l OrwellDecoderTable-InfoRiscQuadra700; offset to decoder info - dc.l RamInfoRiscQuadra-InfoRiscQuadra700 ; offset to ram bank info - dc.l VideoInfoDAFB-InfoRiscQuadra700 ; DAFB built in video - dc.l NuBusInfoQuadra700-InfoRiscQuadra700; offset to NuBus info - dc.w 0|\ ; hwCfgFlags - (1< CSS - SCSI96_1Exists,\ ; 1st SCSI96 is valid - SONICExists,\ ; SONIC is valid - DAFBExists ; has DAFB video - BitVector32 ; Flags for valid base addresses 32-63 - BitVector32 ; Flags for valid base addresses 64-95 - dc.l \ ; Flags for valid ext feature flags 0-31 - (ClockRTC)|\ ; Has RTC clock/PRAM - (SoundHasSoundIn)|\ ; Has 8-bit mono sound input - (SoundStereoOut)|\ ; has stereo sound output - (SoundPlayAndRecord)|\ ; can Play and Record simultaneously - (ADBXcvr) ; Has transceiver ADB - dc.l \ ; Flags for valid ext feature flags 32-63 - (1< - dc.l Quadra700IntTbl-InfoRiscQuadra700 ; interrupt handlers table - dc.l 0 ; internal modem manager - dc.w (cpuIDRISC)|\ ; CPU ID: RISC design center - $1235 ; CPU ID: Risc Card ID is $1234 - dc.w 0 ; spare - dc.l IconInfoQuadra700-InfoRiscQuadra700 ; offset to ICON info - - -; ProductInfo table for 601 Smurf cards running in Quadra 900's - - ALIGN 4 -InfoRiscQuadra900 - dc.l OrwellDecoderTable-InfoRiscQuadra900; offset to decoder info - dc.l RamInfoRiscQuadra-InfoRiscQuadra900 ; offset to ram bank info - dc.l VideoInfoDAFB-InfoRiscQuadra900 ; DAFB built in video - dc.l NuBusInfoQuadra900-InfoRiscQuadra900; offset to NuBus info - dc.w 0|\ ; hwCfgFlags - (1< - dc.b ProductInfoVersion ; ProductInfo version - BitVector32 \ ; Flags for valid base addresses 0-31 - ROMExists,\ ; ROMAddr is valid - VIA1Exists,\ ; VIA1Addr is valid - VIA2Exists,\ ; VIA2Addr is valid - ASCExists,\ ; ASCAddr is valid (means Batman in this case) <47> - SWIMIOPExists,\ ; SWIMIOPAddr is valid - SCCIOPExists,\ ; SCCIOPAddr is valid - OrwellExists,\ ; OrwellAddr is valid CSS - SONICExists,\ ; SONIC is valid <58> - SCSI96_1Exists,\ ; 1st SCSI96 is valid <58> - SCSI96_2Exists,\ ; 2nd SCSI96 is valid <58> - DAFBExists ; has DAFB video <58> - BitVector32 ; Flags for valid base addresses 32-63 - BitVector32 ; Flags for valid base addresses 64-95 - dc.l \ ; Flags for valid ext feature flags 0-31 - (ClockEgret)|\ ; Has Egret clock/PRAM <58> - (SoundHasSoundIn)|\ ; Has 8-bit mono sound input <58> - (Caboose)|\ ; Caboose firmware - (SoundStereoOut)|\ ; has stereo sound output <58> - (SoundStereoMixing)|\ ; has stereo mixing - (SoundPlayAndRecord)|\ ; can Play and Record simultaneously - (KeyswCaboose)|\ ; has a Caboose-flavored power keyswitch <58> - (ADBIop) ; IOP ADB <58> - dc.l \ ; Flags for valid ext feature flags 32-63 - (1< - dc.l EgretClockPRAM-InfoRiscQuadra900 ; clock/PRAM vector table

- dc.l QuadraADBTable-InfoRiscQuadra900 ; ADB/DebugUtil vector table - dc.l 0 ; no Power Manager primitives - dc.l Quadra900IntTbl-InfoRiscQuadra900 ; interrupt handlers table - dc.l 0 ; internal modem manager - dc.w (cpuIDRISC)|\ ; CPU ID: RISC design center - $1236 ; CPU ID: Risc Card ID is $1236 - dc.w 0 ; spare - dc.l IconInfoQuadra900-InfoRiscQuadra900 ; offset to ICON info - -; ProductInfo table for 601 Smurf cards running in Quadra 950's - - ALIGN 4 -InfoRiscQuadra950 - dc.l OrwellDecoderTable-InfoRiscQuadra950; offset to decoder info - dc.l RamInfoRiscQuadra-InfoRiscQuadra950 ; offset to ram bank info - dc.l VideoInfoDAFB-InfoRiscQuadra950 ; DAFB built in video - dc.l NuBusInfoQuadra900-InfoRiscQuadra950; offset to NuBus info - dc.w 0|\ ; hwCfgFlags - (1< - dc.b ProductInfoVersion ; ProductInfo version - BitVector32 \ ; Flags for valid base addresses 0-31 - ROMExists,\ ; ROMAddr is valid - VIA1Exists,\ ; VIA1Addr is valid - VIA2Exists,\ ; VIA2Addr is valid - ASCExists,\ ; ASCAddr is valid (means Batman in this case) <47> - SWIMIOPExists,\ ; SWIMIOPAddr is valid - SCCIOPExists,\ ; SCCIOPAddr is valid - OrwellExists,\ ; OrwellAddr is valid CSS - SONICExists,\ ; SONIC is valid <58> - SCSI96_1Exists,\ ; 1st SCSI96 is valid <58> - SCSI96_2Exists,\ ; 2nd SCSI96 is valid <58> - DAFBExists ; has DAFB video <58> - BitVector32 ; Flags for valid base addresses 32-63 - BitVector32 ; Flags for valid base addresses 64-95 - dc.l \ ; Flags for valid ext feature flags 0-31 - (ClockEgret)|\ ; Has Egret clock/PRAM <58> - (SoundHasSoundIn)|\ ; Has 8-bit mono sound input <58> - (Caboose)|\ ; Caboose firmware - (SoundStereoOut)|\ ; has stereo sound output <58> - (SoundStereoMixing)|\ ; has stereo mixing - (SoundPlayAndRecord)|\ ; can Play and Record simultaneously - (KeyswCaboose)|\ ; has a Caboose-flavored power keyswitch <58> - (ADBIop) ; IOP ADB <58> - dc.l \ ; Flags for valid ext feature flags 32-63 - (1< - dc.l EgretClockPRAM-InfoRiscQuadra950 ; clock/PRAM vector table

- dc.l QuadraADBTable-InfoRiscQuadra950 ; ADB/DebugUtil vector table - dc.l 0 ; no Power Manager primitives - dc.l Quadra900IntTbl-InfoRiscQuadra950 ; interrupt handlers table - dc.l 0 ; internal modem manager - dc.w (cpuIDRISC)|\ ; CPU ID: RISC design center - $1237 ; CPU ID: Risc Card ID is $1237 - dc.w 0 ; spare - dc.l IconInfoQuadra900-InfoRiscQuadra950 ; offset to ICON info - - ENDIF ; {forSmurf} - - ENDIF ; {hasOrwell} - - IF forSTP601 THEN - - -; ProductInfo table STP Quadra 700's - - ALIGN 4 -InfoSTPQuadra700 - dc.l OrwellDecoderTable-InfoSTPQuadra700 ; offset to decoder info - dc.l RAMInfo2Bank4Meg-InfoSTPQuadra700 ; offset to ram bank info - dc.l VideoInfoDAFB-InfoSTPQuadra700 ; DAFB built in video - dc.l NuBusInfoQuadra700-InfoSTPQuadra700 ; offset to NuBus info - dc.w 0|\ ; hwCfgFlags - (1< - dc.b ProductInfoVersion ; ProductInfo version - BitVector32 \ ; Flags for valid base addresses 0-31 - ROMExists,\ ; ROMAddr is valid - DiagROMExists,\ ; DiagROMAddr is valid - VIA1Exists,\ ; VIA1Addr is valid - VIA2Exists,\ ; VIA2Addr is valid - SCCRdExists,\ ; SCCRdAddr is valid - SCCWrExists,\ ; SCCWrAddr is valid - ASCExists,\ ; ASCAddr is valid (means Batman in this case) - IWMExists,\ ; IWMAddr is valid - SCSI96_1Exists,\ ; 1st SCSI96 is valid - OrwellExists,\ ; OrwellAddr in valid CSS - SONICExists,\ ; SONIC is valid - DAFBExists ; has DAFB video - BitVector32 ; Flags for valid base addresses 32-63 - BitVector32 ; Flags for valid base addresses 64-95 - dc.l \ ; Flags for valid ext feature flags 0-31 - (ClockRTC)|\ ; Has RTC clock/PRAM - (SoundHasSoundIn)|\ ; Has 8-bit mono sound input - (SoundStereoOut)|\ ; has stereo sound output - (SoundPlayAndRecord)|\ ; can Play and Record simultaneously - (1< - dc.l ViaADBTable-InfoSTPQuadra700 ; ADB/DebugUtil vector table - dc.l 0 ; no Power Manager primitives - dc.l Quadra700IntTbl-InfoSTPQuadra700 ; interrupt handlers table - dc.l 0 ; internal modem manager - dc.w 0 ; no CPU ID register - dc.w 0 ; spare - dc.l IconInfoQuadra700-InfoSTPQuadra700 ; offset to ICON info - - -; ProductInfo table STP Quadra 900's - - ALIGN 4 -InfoSTPQuadra900 - dc.l OrwellDecoderTable-InfoSTPQuadra900 ; offset to decoder info - dc.l RamInfoQuadra900-InfoSTPQuadra900 ; offset to ram bank info - dc.l VideoInfoDAFB-InfoSTPQuadra900 ; DAFB built in video <58> - dc.l NuBusInfoQuadra900-InfoSTPQuadra900 ; offset to NuBus info - dc.w 0|\ ; hwCfgFlags - (1< - dc.b ProductInfoVersion ; ProductInfo version - BitVector32 \ ; Flags for valid base addresses 0-31 - ROMExists,\ ; ROMAddr is valid - DiagROMExists,\ ; DiagROMAddr is valid - VIA1Exists,\ ; VIA1Addr is valid - VIA2Exists,\ ; VIA2Addr is valid - ASCExists,\ ; ASCAddr is valid (means Batman in this case) <47> - SWIMIOPExists,\ ; SWIMIOPAddr is valid - SCCIOPExists,\ ; SCCIOPAddr is valid - OrwellExists,\ ; OrwellAddr is valid CSS - SONICExists,\ ; SONIC is valid <58> - SCSI96_1Exists,\ ; 1st SCSI96 is valid <58> - PatchROMExists,\ ; Patch ROM is valid - SCSI96_2Exists,\ ; 2nd SCSI96 is valid <58> - DAFBExists ; has DAFB video <58> - BitVector32 ; Flags for valid base addresses 32-63 - BitVector32 ; Flags for valid base addresses 64-95 - dc.l \ ; Flags for valid ext feature flags 0-31 - (ClockEgret)|\ ; Has Egret clock/PRAM <58> - (SoundHasSoundIn)|\ ; Has 8-bit mono sound input <58> - (Caboose)|\ ; Caboose firmware - (SoundStereoOut)|\ ; has stereo sound output <58> - (SoundPlayAndRecord)|\ ; can Play and Record simultaneously - (KeyswCaboose)|\ ; has a Caboose-flavored power keyswitch <58> - (1< - dc.l \ ; Flags for valid ext feature flags 32-63 - (1< - dc.l EgretClockPRAM-InfoSTPQuadra900 ; clock/PRAM vector table

- dc.l QuadraADBTable-InfoSTPQuadra900 ; ADB/DebugUtil vector table - dc.l 0 ; no Power Manager primitives - dc.l Quadra900IntTbl-InfoSTPQuadra900 ; interrupt handlers table - dc.l 0 ; internal modem manager - dc.w 0 ; no CPU ID register - dc.w 0 ; spare - dc.l IconInfoQuadra900-InfoSTPQuadra900 ; offset to ICON info - - -; ProductInfo table STP Quadra 950's - - ALIGN 4 -InfoSTPQuadra950 - dc.l OrwellDecoderTable-InfoSTPQuadra950 ; offset to decoder info - dc.l RamInfoQuadra900-InfoSTPQuadra950 ; offset to ram bank info - dc.l VideoInfoDAFB-InfoSTPQuadra950 ; DAFB built in video - dc.l NuBusInfoQuadra900-InfoSTPQuadra950 ; offset to NuBus info - dc.w 0|\ ; hwCfgFlags - (1< - dc.b ProductInfoVersion ; ProductInfo version - BitVector32 \ ; Flags for valid base addresses 0-31 - ROMExists,\ ; ROMAddr is valid - DiagROMExists,\ ; DiagROMAddr is valid - VIA1Exists,\ ; VIA1Addr is valid - VIA2Exists,\ ; VIA2Addr is valid - ASCExists,\ ; ASCAddr is valid (means Batman in this case) <47> - SWIMIOPExists,\ ; SWIMIOPAddr is valid - SCCIOPExists,\ ; SCCIOPAddr is valid - OrwellExists,\ ; OrwellAddr is valid CSS - SONICExists,\ ; SONIC is valid <58> - SCSI96_1Exists,\ ; 1st SCSI96 is valid <58> - SCSI96_2Exists,\ ; 2nd SCSI96 is valid <58> - PatchROMExists,\ ; Patch ROM is valid - DAFBExists ; has DAFB video <58> - BitVector32 ; Flags for valid base addresses 32-63 - BitVector32 ; Flags for valid base addresses 64-95 - dc.l \ ; Flags for valid ext feature flags 0-31 - (ClockEgret)|\ ; Has Egret clock/PRAM <58> - (SoundHasSoundIn)|\ ; Has 8-bit mono sound input <58> - (Caboose)|\ ; Caboose firmware - (SoundStereoOut)|\ ; has stereo sound output <58> - (SoundStereoMixing)|\ ; has stereo mixing - (SoundPlayAndRecord)|\ ; can Play and Record simultaneously - (KeyswCaboose)|\ ; has a Caboose-flavored power keyswitch <58> - (1< - dc.l \ ; Flags for valid ext feature flags 32-63 - (1< - dc.l EgretClockPRAM-InfoSTPQuadra950 ; clock/PRAM vector table

- dc.l QuadraADBTable-InfoSTPQuadra950 ; ADB/DebugUtil vector table - dc.l 0 ; no Power Manager primitives - dc.l Quadra900IntTbl-InfoSTPQuadra950 ; interrupt handlers table - dc.l 0 ; internal modem manager - dc.w 0 ; no CPU ID register - dc.w 0 ; spare - dc.l IconInfoQuadra900-InfoSTPQuadra950 ; offset to ICON info - - - ENDIF ; {forSTP601} - - - - IF hasJaws THEN - IMPORT SndCntlPB170, JawsPmgrPrims, JawsIntTbl - - ALIGN 4 -InfoPowerBook170 ; table for PowerBook 140 and 170 <8> - dc.l JAWSTable-InfoPowerBook170 ; offset to decoder info - dc.l RAMInfoJaws-InfoPowerBook170 ; offset to ram bank info - dc.l VideoInfoJaws-InfoPowerBook170 ; offset to video info - dc.l NuBusInfoJaws-InfoPowerBook170 ; offset to NuBus info - dc.w 0|\ ; hwCfgFlags - (1< - (ADBPwrMgr)|\ ; PowerManager ADB <5> - (SoundHasSoundIn)|\ ; Has 8-bit mono sound input - (SoundStereoOut)|\ ; has stereo sound output - (SoundStereoMixing)|\ ; has stereo mixing - (SoundPlayAndRecord)|\ ; can Play and Record simultaneously - (1< djw - dc.l RTCClockPRAM-InfoPowerBook170 ; clock/PRAM vector table

- dc.l PMGRADBTable-InfoPowerBook170 ; ADB/DebugUtil vector table - dc.l JawsPmgrPrims-InfoPowerBook170 ; Power Manager primitives - dc.l JawsIntTbl-InfoPowerBook170 ; interrupt handlers table - dc.l 0 ; internal modem manager - dc.w 0 ; no CPU ID register - dc.w 0 ; spare - dc.l IconInfoTIM-InfoPowerBook170 ; offset to ICON info - - - ALIGN 4 -InfoJAWSUnknown - dc.l JAWSTable-InfoJAWSUnknown ; offset to decoder info <25> - dc.l RamInfoJAWS-InfoJAWSUnknown ; offset to ram bank info - dc.l VideoInfoJaws-InfoJAWSUnknown ; offset to video info - dc.l NuBusInfoJaws-InfoJAWSUnknown ; offset to NuBus info - dc.w 0|\ ; hwCfgFlags - (1< - dc.b ProductInfoVersion ; ProductInfo version - BitVector32 ; use default bases for this decoder - BitVector32 ; Flags for valid base addresses 32-63 - BitVector32 ; Flags for valid base addresses 64-95 - dc.l 0 ; use default external features for this decoder - dc.l 0 ; Flags for valid ext feature flags 32-63 - dc.l 0 ; Flags for valid ext feature flags 64-95 - dc.b $00,$00,$00,$00 ; don't check any VIA bits - dc.b $00,$00,$00,$00 ; anything with this decoder matches - dc.l VIA1InitJaws-InfoJAWSUnknown ; VIA1 init info - dc.l VIA2InitJaws-InfoJAWSUnknown ; VIA2 init info - dc.l 0 ; no sound control vector table - dc.l RTCClockPRAM-InfoJAWSUnknown ; clock/PRAM vector table

- dc.l PMGRADBTable-InfoJAWSUnknown ; ADB/DebugUtil vector table - dc.l JawsPmgrPrims-InfoJAWSUnknown ; Power Manager primitives - dc.l JawsIntTbl-InfoJAWSUnknown ; interrupt handlers table - dc.l 0 ; internal modem manager - dc.w 0 ; no CPU ID register - dc.w 0 ; no CPU ID register - dc.l IconInfoTIM-InfoJAWSUnknown ; offset to ICON info - - ENDIF ; {hasJaws} - - - - IF hasVISADecoder THEN - IMPORT SndCntlLC, RBVEgretIntTbl - - ALIGN 4 -InfoMacLC - dc.l VISADecoderTable-InfoMacLC ; offset to decoder info - dc.l RamInfoVISA-InfoMacLC ; offset to ram bank info - dc.l VideoInfoVISA-InfoMacLC ; offset to video info - dc.l NuBusInfoVISA-InfoMacLC ; offset to NuBus info - dc.w 0|\ ; hwCfgFlags - (1< - (1< - dc.b VISADecoder ; decoder kind - dc.w $3FFF ; ROM85, New ROMs, no Power Off ability. - dc.b 4 ; default ROM Resource configuration - dc.b ProductInfoVersion ; ProductInfo version - BitVector32 \ ; Flags for valid base addresses 0-31 - ROMExists,\ ; ROMAddr is valid - DiagROMExists,\ ; DiagROMAddr is valid - VIA1Exists,\ ; VIA1Addr is valid - SCCRdExists,\ ; SCCRdAddr is valid - SCCWrExists,\ ; SCCWrAddr is valid - IWMExists,\ ; IWMAddr is valid - SCSIExists,\ ; SCSIAddr is valid - SCSIDackExists,\ ; SCSIDackAddr is valid - SCSIHskExists,\ ; SCSIHskAddr is valid - ASCExists,\ ; ASCAddr is valid - RBVExists,\ ; RBVAddr is valid - VDACExists ; VDACAddr is valid - BitVector32 ; Flags for valid base addresses 32-63 - BitVector32 ; Flags for valid base addresses 64-95 - dc.l \ ; Flags for valid ext feature flags 0-31 - (ClockEgret)|\ ; Has Egret clock/pram - (ADBEgret)|\ ; Egret ADB - (Egret8)|\ ; Egret Eight firmware - (1<<15> - (SoundHasSoundIn)|\ ; Has 8-bit mono sound input <23> - (1< - (1< - dc.l 0 ; Flags for valid ext feature flags 32-63 - dc.l 0 ; Flags for valid ext feature flags 64-95 - dc.b $56,$00,$00,$00 ; Check VIA1 PA6, PA4, PA2, PA1 - dc.b $54,$00,$00,$00 ; VIA1 PA6 = 1, PA4 = 1, PA2 = 1, PA1 = 0 - dc.l VIA1InitMacLC-InfoMacLC ; VIA1 init info - dc.l 0 ; no VIA2 init info - dc.l SndCntlLC-InfoMacLC ; sound control vector table - dc.l EgretClockPRAM-InfoMacLC ; clock/PRAM vector table

- dc.l EgretADBTable-InfoMacLC ; ADB/DebugUtil vector table - dc.l 0 ; no Power Manager primitives - dc.l RBVEgretIntTbl-InfoMacLC ; interrupt handlers table - dc.l 0 ; internal modem manager - dc.w 0 ; no CPU ID register - dc.w 0 ; spare - dc.l IconInfoMacLC-InfoMacLC ; offset to ICON info - - - - ALIGN 4 -InfoVISAUnknown - dc.l VISADecoderTable-InfoVISAUnknown ; offset to decoder info - dc.l RamInfoVISA-InfoVISAUnknown ; offset to ram bank info - dc.l VideoInfoVISA-InfoVISAUnknown ; offset to video info - dc.l NuBusInfoVISA-InfoVISAUnknown ; offset to NuBus info - dc.w 0|\ ; hwCfgFlags - (1< - dc.l EgretADBTable-InfoVISAUnknown ; ADB/DebugUtil vector table - dc.l 0 ; no Power Manager primitives - dc.l RBVEgretIntTbl-InfoVISAUnknown ; interrupt handlers table - dc.l 0 ; internal modem manager - dc.w 0 ; no CPU ID register - dc.w 0 ; spare - dc.l IconInfoMacLC-InfoVISAUnknown ; offset to ICON info - - - ENDIF ; {hasVISADecoder} - - - - IMPORT VIAIntTbl -InfoUnknownUnknown - dc.l UnknownDecoderTable-InfoUnknownUnknown ; offset to decoder info - dc.l 0 ; no ram bank info - dc.l 0 ; no built in video - dc.l 0 ; no NuBus info - dc.w 0 ; hwCfgFlags - dc.b BoxUnknown ; product kind - dc.b UnknownDecoder ; decoder kind - dc.w $FFFF ; ROM85 - dc.b 1 ; default ROM Resource configuration <2.1> - dc.b ProductInfoVersion ; ProductInfo version - BitVector32 ; use default bases for this decoder - BitVector32 ; Flags for valid base addresses 32-63 - BitVector32 ; Flags for valid base addresses 64-95 - dc.l 0 ; use default external features for this decoder - dc.l 0 ; Flags for valid ext feature flags 32-63 - dc.l 0 ; Flags for valid ext feature flags 64-95 - dc.b $00,$00,$00,$00 ; don't check any VIA bits - dc.b $00,$00,$00,$00 ; anything with this decoder matches - dc.l 0 ; no VIA1 to init - dc.l 0 ; no VIA2 to init - dc.l 0 ; no sound control vector table - dc.l RTCClockPRAM-InfoUnknownUnknown ; clock/PRAM vector table

- dc.l 0 ; no ADB/DebugUtil vector table - dc.l 0 ; no Power Manager primitives - dc.l VIAIntTbl-InfoUnknownUnknown ; interrupt handlers table - dc.l 0 ; internal modem manager - dc.w 0 ; no CPU ID register - dc.w 0 ; spare - dc.l 0 ; no Icon info - + dc.l IconInfoNewWorld-InfoNewWorld ; offset to ICON info + dc.l $190 ;——————————————————————————————————————————————————————————————————————————————————————————————— @@ -3889,2038 +611,58 @@ InfoUnknownUnknown ;——————————————————————————————————————————————————————————————————————————————————————————————— ALIGN 16 - - IF hasPratt THEN -;----------------------------------------------------------------------------------------- -; Pratt Decoder -;----------------------------------------------------------------------------------------- - BitVector32 \ ; Flags for valid base addresses 0-31 - ROMExists,\ ; ROMAddr is valid - DiagROMExists,\ ; DiagROMAddr is valid - VIA1Exists,\ ; VIA1Addr is valid - SCCRdExists,\ ; SCCRdAddr is valid - SCCWrExists,\ ; SCCWrAddr is valid - IWMExists,\ ; IWMAddr is valid - SCSIExists,\ ; SCSIAddr is valid - SCSIDackExists,\ ; SCSIDackAddr is valid - SCSIHskExists,\ ; SCSIHskAddr is valid - VIA2Exists,\ ; VIA2Addr is valid - ASCExists,\ ; ASCAddr is valid - VDACExists,\ ; VDAC (CSC) is valid - SONICExists ; SONIC is valid - BitVector32 \ ; Flags for valid base addresses 32-63 - SingerExists,\ ; PrattAddr is valid - PrattExists ; SingerAddr is valid - BitVector32 ; Default valid addresses 64-95 - dc.l \ ; Default ext features 0-31 - (ADBPwrMgr)|\ ; PMGR ADB - (ClockPwrMgr)|\ ; PMGR clock/pram - (SoundHasSoundIn)|\ ; Has 8-bit mono sound input - (Sound16Bit)|\ ; has 16-bit hardware - (SoundStereoOut)|\ ; has stereo sound output - (SoundPlayAndRecord)|\ ; can Play and Record simultaneously - (1< - -;----------------------------------------------------------------------------------------- -; HMC Decoder (PDM) -;----------------------------------------------------------------------------------------- - BitVector32 \ ; Default valid addresses 0-31 - ROMExists,\ ; ROMAddr is valid - VIA1Exists,\ ; VIA1Addr is valid - RBVExists,\ ; RBVAddr is valid - SCCRdExists,\ ; SCCRdAddr may be valid - SCCWrExists,\ ; SCCWrAddr may be valid - ASCExists,\ ; ASC isn't valid, but say it is - SCSI96_1Exists ; 1st SCSI96 is valid - BitVector32 \ ; Default valid addresses 32-63 - AwacsExists,\ ; AwacsAddr exists - MaceExists, \ ; MACE exists - AMICExists,\ ; AMIC DMA IO controller exists - SWIM3Exists,\ ; SWIM3 DMA floppy controller exists - BartExists ; BART (NuBus controller) may exist - BitVector32 ; Default valid addresses 64-95 - dc.l \ ; Flags for valid ext feature flags 0-31 - (ClockEgret)|\ ; Has Egret clock/pram - (ADBEgret)|\ ; Egret ADB - (Cuda)|\ ; Cuda firmware - (Sound16Bit)|\ ; Has 16-bit mono/stereo sound input - (SoundStereoOut)|\ ; has stereo sound output - (1< - dc.l $50F14000 ; Base of AWACS - dc.l $00000000 ; Base of Civic - dc.l $00000000 ; Base of Sebastian - dc.l $F0000000 ; Base of BART - -;----------------------------------------------------------------------------------------- -; HMC Decoder (ColdFusion - differs from PDM only in SCSI & soft power) -;----------------------------------------------------------------------------------------- - BitVector32 \ ; Default valid addresses 0-31 - ROMExists,\ ; ROMAddr is valid - VIA1Exists,\ ; VIA1Addr is valid - RBVExists,\ ; RBVAddr is valid - SCCRdExists,\ ; SCCRdAddr may be valid - SCCWrExists,\ ; SCCWrAddr may be valid - ASCExists,\ ; ASC isn't valid, but say it is - SCSI96_1Exists,\ ; Internal 53CF96 is valid - SCSI96_2Exists ; External 53C96 (curio) is valid - BitVector32 \ ; Default valid addresses 32-63 - AwacsExists,\ ; AwacsAddr exists - MaceExists, \ ; MACE exists - AMICExists,\ ; AMIC DMA IO controller exists - SWIM3Exists,\ ; SWIM3 DMA floppy controller exists - BartExists ; BART (NuBus controller) may exist - BitVector32 ; Default valid addresses 64-95 - dc.l \ ; Flags for valid ext feature flags 0-31 - (ClockEgret)|\ ; Has Egret clock/pram - (ADBEgret)|\ ; Egret ADB - (Cuda)|\ ; Cuda firmware - (Sound16Bit)|\ ; Has 16-bit mono/stereo sound input - (SoundStereoOut)|\ ; has stereo sound output - (1< - dc.l $50F14000 ; Base of AWACS - dc.l $00000000 ; Base of Civic - dc.l $00000000 ; Base of Sebastian - dc.l $F0000000 ; Base of BART - ENDIF ; hasHMC - - - IF hasOrwell THEN - IMPORT CheckForOrwell -;----------------------------------------------------------------------------------------- -; Orwell Decoder -;----------------------------------------------------------------------------------------- - IF forSmurf THEN - BitVector32 \ ; Default valid addresses 0-31 - ROMExists,\ ; ROMAddr is valid - DiagROMExists,\ ; DiagROMAddr is valid - VIA1Exists,\ ; VIA1Addr is valid - VIA2Exists,\ ; VIA2Addr is valid - ASCExists,\ ; ASCAddr is valid - SCCRdExists,\ ; SCCRdAddr may be valid - SCCWrExists,\ ; SCCWrAddr may be valid - SWIMIOPExists,\ ; SWIMIOPAddr may be valid - SCCIOPExists,\ ; SCCIOPAddr may be valid - SCSI96_1Exists,\ ; 1st SCSI96 is valid - OrwellExists,\ ; Orwell MCA is valid CSS - SONICExists,\ ; SONIC is valid on the Smurf Card - DAFBExists ; DAFB video is valid - BitVector32 ; Default valid addresses 32-63 - BitVector32 ; Default valid addresses 64-95 - dc.l 0 ; Default ext features 0-31 - dc.l \ ; Flags for valid ext feature flags 32-63 - (1< CSS - dc.l $00000000 ; JAWS - unused - dc.l $5000A000 ; Sonic - valid <45> - dc.l $5000F000 ; 1st (internal) SCSI96 - valid <58> - dc.l $5000F402 ; 2nd (external) SCSI96 - valid <58> - dc.l $F9800000 ; DAFB - valid - dc.l $00000000 ; unused 27 - dc.l $00000000 ; ROMPhysAddr - unused - dc.l $E0000000 ; PatchRomAddr - valid - dc.l $00000000 ; unused 30 - dc.l $00000000 ; unused 31 - - ELSE ; {forSmurf} - - BitVector32 \ ; Default valid addresses 0-31 - ROMExists,\ ; ROMAddr is valid - DiagROMExists,\ ; DiagROMAddr is valid - VIA1Exists,\ ; VIA1Addr is valid - VIA2Exists,\ ; VIA2Addr is valid - ASCExists,\ ; ASCAddr is valid - SCCRdExists,\ ; SCCRdAddr may be valid - SCCWrExists,\ ; SCCWrAddr may be valid - SWIMIOPExists,\ ; SWIMIOPAddr may be valid - SCCIOPExists,\ ; SCCIOPAddr may be valid - SCSI96_1Exists,\ ; 1st SCSI96 is valid - SCSI96_2Exists,\ ; 2nd SCSI96 may be valid - OrwellExists,\ ; Orwell MCA is valid CSS - SONICExists,\ ; SONIC is valid - DAFBExists ; DAFB video is valid - BitVector32 ; Default valid addresses 32-63 - BitVector32 ; Default valid addresses 64-95 - dc.l \ ; Flags for valid ext feature flags 0-31 - (1<<47> - dc.l CheckForOrwell-OrwellDecoderTable ; routine to identify this map - dc.b OrwellDecoder - dc.b DecoderInfoVersion ; DecoderInfo version - dcb.b 2,0 - dc.l $50F0E000 ; Orwell Base Address -OrwellDecoderTable ; Eclipse Memory Map <13> - dc.l $40800000 ; ROM - valid - dc.l $58000000 ; DiagROM - valid <16> - dc.l $50F00000 ; VIA1 - valid - dc.l $50F0C020 ; SCC read - valid <58> - dc.l $50F0C020 ; SCC write - valid <58> - dc.l $50F1E000 ; IWM - valid <58> - dc.l $00000000 ; PWM - unused - dc.l $00000000 ; Sound - unused - dc.l $00000000 ; SCSI - unused - dc.l $00000000 ; SCSIDack - unused - dc.l $00000000 ; SCSIHsk - unused - dc.l $50F02000 ; VIA2 - valid - dc.l $50F14000 ; ASC - valid - dc.l $00000000 ; RBV - unused - dc.l $F9800000 ; VDAC - used <58> - dc.l $00000000 ; SCSIDMA - valid <58> - dc.l $50F1E020 ; SWIMIOP - valid - dc.l $50F0C020 ; SCCIOP - valid - dc.l $00000000 ; OSS - unused - dc.l $00000000 ; FMC - unused - dc.l $00000000 ; RPU - unused - dc.l $5000E000 ; Orwell - valid CSS - dc.l $00000000 ; JAWS - unused <25> - dc.l $50F0A000 ; Sonic - valid <45> - dc.l $50F0F000 ; 1st (internal) SCSI96 - valid <58> - dc.l $50F0F402 ; 2nd (external) SCSI96 - valid <58> - dc.l $F9800000 ; DAFB - valid <58> - dc.l $00000000 ; unused 27 - dc.l $00000000 ; ROMPhysAddr - unused - dc.l $E0000000 ; PatchRomAddr - valid - dc.l $00000000 ; unused 30 - dc.l $00000000 ; unused 31 - ENDIF ; {forSmurf} - ENDIF ; {hasOrwell} - - - IF hasJaws THEN - IMPORT CheckForJAWS -;----------------------------------------------------------------------------------------- -; JAWS Decoder -;----------------------------------------------------------------------------------------- - BitVector32 \ ; Default valid addresses 0-31 - ROMExists,\ ; ROMAddr is valid - DiagROMExists,\ ; DiagROMAddr is valid - VIA1Exists,\ ; VIA1Addr is valid - SCCRdExists,\ ; SCCRdAddr is valid - SCCWrExists,\ ; SCCWrAddr is valid - IWMExists,\ ; IWMAddr is valid - SCSIExists,\ ; SCSIAddr is valid - SCSIDackExists,\ ; SCSIDackAddr is valid - SCSIHskExists,\ ; SCSIHskAddr is valid - VIA2Exists,\ ; VIA2Addr is valid - ASCExists,\ ; ASCAddr is valid - JAWSExists ; JAWS is valid - BitVector32 ; Default valid addresses 32-63 - BitVector32 ; Default valid addresses 64-95 - dc.l \ ; Default ext features 0-31 - (ClockNoPram)|\ ; has PowerManager clock, but not PwrMgr pram - (ADBPwrMgr)|\ ; PowerManager ADB - (1< - dc.l $50F80000 ; JAWS - valid <25> - dc.l $00000000 ; Sonic - unused <45> - dc.l $00000000 ; 1st (internal) SCSI96 - unused - dc.l $00000000 ; 2nd (external) SCSI96 - unused - dc.l $00000000 ; DAFB - unused - dc.l $00000000 ; unused 27 - dc.l $00000000 ; ROMPhysAddr - unused - dc.l $00000000 ; unused 29 - dc.l $00000000 ; unused 30 - dc.l $00000000 ; unused 31 - - ENDIF ; {hasJaws} - - - IF hasNiagra THEN - IMPORT CheckForNiagra -;----------------------------------------------------------------------------------------- -; Niagra Decoder -;----------------------------------------------------------------------------------------- - BitVector32 \ ; Default valid addresses 0-31 - ROMExists,\ ; ROMAddr is valid - DiagROMExists,\ ; DiagROMAddr is valid - VIA1Exists,\ ; VIA1Addr is valid - SCCRdExists,\ ; SCCRdAddr is valid - SCCWrExists,\ ; SCCWrAddr is valid - IWMExists,\ ; IWMAddr is valid - SCSIExists,\ ; SCSIAddr is valid - SCSIDackExists,\ ; SCSIDackAddr is valid - SCSIHskExists,\ ; SCSIHskAddr is valid - VIA2Exists,\ ; VIA2Addr is valid - ASCExists,\ ; ASCAddr is valid - JAWSExists ; JAWS is valid - BitVector32 ; Default valid addresses 32-63 - BitVector32 ; Default valid addresses 64-95 - dc.l \ ; Default ext features 0-31 - (ClockRTC)|\ ; RTC clock/PRAM - (ADBPwrMgr)|\ ; PowerManager ADB - (SoundPlayAndRecord)|\ ; can Play and Record simultaneously - (1< - dc.l $00000000 ; SCSIDMA - unused - dc.l $00000000 ; SWIMIOP - unused - dc.l $00000000 ; SCCIOP - unused - dc.l $00000000 ; OSS - unused - dc.l $00000000 ; FMC - unused - dc.l $00000000 ; RPU - unused - dc.l $00000000 ; Orwell - unused - dc.l $50F80000 ; JAWS - valid - dc.l $00000000 ; Sonic - unused - dc.l $00000000 ; 1st (internal) SCSI96 - unused - dc.l $00000000 ; 2nd (external) SCSI96 - unused - dc.l $00000000 ; DAFB - unused - dc.l $00000000 ; unused 27 - dc.l $00000000 ; ROMPhysAddr - unused - dc.l $00000000 ; PatchROMAddr - unused - dc.l $00000000 ; unused 30 - dc.l $00000000 ; unused 31 - - ENDIF ; {hasNiagra} - - - IF hasMSC THEN -;----------------------------------------------------------------------------------------- -; MSC Decoder -;----------------------------------------------------------------------------------------- - BitVector32 \ ; Default valid addresses 0-31 - ROMExists,\ ; ROMAddr is valid - DiagROMExists,\ ; DiagROMAddr is valid - VIA1Exists,\ ; VIA1Addr is valid - SCCRdExists,\ ; SCCRdAddr is valid - SCCWrExists,\ ; SCCWrAddr is valid - IWMExists,\ ; IWMAddr is valid
- SCSIExists,\ ; SCSIAddr is valid - SCSIDackExists,\ ; SCSIDackAddr is valid - SCSIHskExists,\ ; SCSIHskAddr is valid - ASCExists,\ ; ASCAddr is valid - RBVExists,\ ; RBVAddr is valid - VDACExists ; VDACAddr (GSC) is valid - BitVector32 ; Default valid addresses 32-63 - BitVector32 ; Default valid addresses 64-95 - dc.l \ ; Default ext features 0-31 - (ADBPwrMgr)|\ ; PMGR ADB - (ClockPwrMgr)|\ ; PMGR clock/pram - (SoundHasSoundIn)|\ ; Has 8-bit mono sound input - (1< - dc.l 0 ; Default ext features 32-63 - dc.l 0 ; Default ext features 64-95 - dc.b $00,$00,$00,$00 ; no special VIA bits to avoid changing - dc.l 0 ; no identify routine - supports CPU ID reg - dc.b MSCDecoder - dc.b DecoderInfoVersion ; DecoderInfo version - dcb.b 3,0 - dc.l $FFFFFFFF ; No Base Address for this decoder -MSCTable - IF ROMinRAM THEN ; - dc.l $00400000 ; ROM - hacked • HACK 4 Meg - ELSE ; - dc.l $40800000 ; ROM - valid - ENDIF ; - dc.l $58000000 ; DiagROM - valid - dc.l $50F00000 ; VIA1 - valid - dc.l $50F04000 ; SCC read - valid - dc.l $50F04000 ; SCC write - valid - dc.l $50F16000 ; IWM - valid
- dc.l $00000000 ; PWM - unused - dc.l $00000000 ; Sound - unused - dc.l $50F10000 ; SCSI - valid - dc.l $50F12000 ; SCSIDack - valid - dc.l $50F06000 ; SCSIHsk - valid - dc.l $00000000 ; VIA2 - unused - dc.l $50F14000 ; ASC - valid - dc.l $50F26000 ; RBV - valid - dc.l $50F20000 ; VDAC - valid (GSC) - dc.l $00000000 ; SCSIDMA - unused - dc.l $00000000 ; SWIMIOP - unused - dc.l $00000000 ; SCCIOP - unused - dc.l $00000000 ; OSS - unused - dc.l $00000000 ; FMC - unused - dc.l $00000000 ; RPU - unused - dc.l $00000000 ; Orwell - unused - dc.l $00000000 ; JAWS - unused - dc.l $00000000 ; Sonic - unused - dc.l $00000000 ; 1st (internal) SCSI96 - unused - dc.l $00000000 ; 2nd (external) SCSI96 - unused - dc.l $00000000 ; DAFB - unused - dc.l $00000000 ; unused 27
- dc.l $00000000 ; ROMPhysAddr - unused - dc.l $00000000 ; PatchROM - unused - dc.l $00000000 ; unused 30 - dc.l $00000000 ; unused 31 - - ENDIF ; {hasMSC} - - - IF hasSonora THEN -;----------------------------------------------------------------------------------------- -; Sonora Decoder -;----------------------------------------------------------------------------------------- - BitVector32 \ ; Default valid addresses 0-31 - ROMExists,\ ; ROMAddr is valid - DiagROMExists,\ ; DiagROMAddr is valid - VIA1Exists,\ ; VIA1Addr is valid - SCCRdExists,\ ; SCCRdAddr is valid - SCCWrExists,\ ; SCCWrAddr is valid - IWMExists,\ ; IWMAddr is valid (Actually, SWIM2) - SCSIExists,\ ; SCSIAddr is valid - SCSIDackExists,\ ; SCSIDackAddr is valid - SCSIHskExists,\ ; SCSIHskAddr is valid - ASCExists,\ ; ASCAddr is valid - RBVExists,\ ; RBVAddr is valid - VDACExists,\ ; VDACAddr is valid - SONICExists,\ ; SONIC is valid - PatchROMExists ; PatchRomAddr is valid - BitVector32 ; Default valid addresses 32-63 - BitVector32 ; Default valid addresses 64-95 - dc.l \ ; Default ext features 0-31 - (ClockEgret)|\ ; Has Egret clock/pram - (ADBEgret)|\ ; Egret ADB - (SoundHasSoundIn)|\ ; Has 8-bit mono sound input - (SoundStereoOut)|\ ; has stereo sound output - (SoundPlayAndRecord)|\ ; can Play and Record simultaneously - (1< - dc.l 0 ; Default ext features 32-63 - dc.l 0 ; Default ext features 64-95 - dc.b $00,$00,$00,$00 ; no special VIA bits to avoid changing - dc.l 0 ; no identify routine - supports CPU ID reg - dc.b SonoraDecoder - dc.b DecoderInfoVersion ; DecoderInfo version - dcb.b 2,0 - dc.l $FFFFFFFF ; No Base Address for this decoder -SonoraTable - dc.l $40800000 ; √ROM - valid - -;••••••••••••••••••••••••••••• -; -; NOTE: Singapore has built their board testers using $50FC0000 as the DiagROM -; address. So, I need to change it here (since Vail is a Sonora machine). They will -; use the correct address in the future. -; -; dc.l $58000000 ; √DiagROM - valid - dc.l $50FC0000 ; √DiagROM - valid - -;••••••••••••••••••••••••••••• - dc.l $50F00000 ; √VIA1 - valid - dc.l $50F04000 ; √SCC read - valid - dc.l $50F04000 ; √SCC write - valid - dc.l $50F16000 ; √IWM - SWIM2 address - dc.l $00000000 ; PWM - unused - dc.l $00000000 ; Sound - unused - dc.l $50F10000 ; √SCSI - valid - dc.l $50F12000 ; √SCSIDack - valid - dc.l $50F06000 ; √SCSIHsk - valid - dc.l $00000000 ; VIA2 - unused - dc.l $50F14000 ; √ASC - valid - dc.l $50F26000 ; √RBV - valid - dc.l $50F24000 ; √VDAC - valid - dc.l $00000000 ; SCSIDMA - unused - dc.l $00000000 ; SWIMIOP - unused - dc.l $00000000 ; SCCIOP - unused - dc.l $00000000 ; OSS - unused - dc.l $00000000 ; FMC - unused - dc.l $00000000 ; RPU - unused - dc.l $00000000 ; Orwell - unused - dc.l $00000000 ; JAWS - unused - dc.l $50F0A000 ; √Sonic - valid - dc.l $00000000 ; 1st (internal) SCSI96 - unused - dc.l $00000000 ; 2nd (external) SCSI96 - unused - dc.l $00000000 ; DAFB - unused - dc.l $00000000 ; unused 27
- dc.l $00000000 ; ROMPhysAddr - unused - dc.l $5FF00000 ; √PatchROM - valid - dc.l $00000000 ; unused 30 - dc.l $00000000 ; unused 31 - - ENDIF ; {hasSonora} - - - IF hasDJMEMC THEN -;----------------------------------------------------------------------------------------- -; djMEMC Decoder •••• This info is not up to date •••• -;----------------------------------------------------------------------------------------- - IF forSmurf THEN ; - BitVector32 \ ; Default valid addresses 0-31 - ROMExists,\ ; ROMAddr is valid - DiagROMExists,\ ; DiagROMAddr is valid - VIA1Exists,\ ; VIA1Addr is valid - VIA2Exists,\ ; VIA2Addr is valid - ASCExists,\ ; ASCAddr is valid - IWMExists,\ ; IWMAddr is valid (Actually, SWIM2) - SCCRdExists,\ ; SCCRdAddr may be valid - SCCWrExists,\ ; SCCWrAddr may be valid - SCSI96_1Exists,\ ; 1st SCSI96 is valid - SONICExists,\ ; SONIC is valid - DAFBExists ; DAFB video is valid - BitVector32 ; Default valid addresses 32-63 - BitVector32 ; Default valid addresses 64-95 - dc.l \ ; Default ext features 0-31 - SoundPlayAndRecord ; can Play and Record simultaneously - ; (we better know what features we have) - dc.l \ ; Flags for valid ext feature flags 32-63 - (1< - dc.l $00000000 ; JAWS - unused - dc.l $5000A000 ; Sonic - valid - dc.l $50010000 ; 1st (internal) SCSI96 - valid - dc.l $00000000 ; 2nd (external) SCSI96 - unused - dc.l $F9800000 ; DAFB - valid - dc.l $00000000 ; unused 27 - dc.l $00000000 ; ROMPhysAddr - unused - dc.l $5F000000 ; PatchRomAddr - valid - dc.l $00000000 ; unused 30 - dc.l $00000000 ; unused 31 - - ELSE ; {forSmurf} - - BitVector32 \ ; Default valid addresses 0-31 - ROMExists,\ ; ROMAddr is valid - DiagROMExists,\ ; DiagROMAddr is valid - VIA1Exists,\ ; VIA1Addr is valid - VIA2Exists,\ ; VIA2Addr is valid - ASCExists,\ ; ASCAddr is valid - SCCRdExists,\ ; SCCRdAddr may be valid - SCCWrExists,\ ; SCCWrAddr may be valid - SCSI96_1Exists,\ ; 1st SCSI96 is valid - SONICExists,\ ; SONIC is valid - DAFBExists ; DAFB video is valid - BitVector32 ; Default valid addresses 32-63 - BitVector32 ; Default valid addresses 64-95 - dc.l \ ; Default ext features 0-31 - (SoundPlayAndRecord )|\ ; can Play and Record simultaneously - \ ; (we better know what features we have) - (1< - dc.l $00000000 ; JAWS - unused - dc.l $50F0A000 ; Sonic - valid - dc.l $50F10000 ; 1st (internal) SCSI96 - valid - dc.l $00000000 ; 2nd (external) SCSI96 - unused - dc.l $F9800000 ; DAFB - valid - dc.l $00000000 ; unused 27 - dc.l $00000000 ; ROMPhysAddr - unused - dc.l $5FF00000 ; PatchRomAddr - valid - dc.l $00000000 ; unused 30 - dc.l $00000000 ; unused 31 - ENDIF ; {forSmurf} - ENDIF ; {hasDJMEMC} - - - IF hasYMCA THEN ; this is really YMCA now -;----------------------------------------------------------------------------------------- -; YMCA Decoder -;----------------------------------------------------------------------------------------- - BitVector32 \ ; Default valid addresses 0-31 - ROMExists,\ ; ROMAddr is valid - DiagROMExists,\ ; DiagROMAddr is valid - VIA1Exists,\ ; VIA1Addr is valid - VIA2Exists,\ ; VIA2Addr is valid - SCCRdExists,\ ; SCCRdAddr is valid - SCCWrExists,\ ; SCCWrAddr is valid - NewAgeExists,\ ; NewAge is valid - SCSI96_1Exists,\ ; SCSI 96 is valid - PSCExists ; PSC DMA is valid - BitVector32 \ ; Default valid addresses 32-63 - DSPExists,\ ; DSP is valid - MaceExists, \ ; MACE is valid - MUNIExists, \ ; MUNI is valid - CivicExists,\ ; Civic video is valid - SebastianExists ; Sebastian CLUT DAC is valid - BitVector32 ; Default valid addresses 64-95 - dc.l 0 ; Default ext features 0-31 - ; (we better know what features we have) - dc.l 0 ; Default ext features 32-63 - dc.l 0 ; Default ext features 64-95 - dc.b $00,$30,$00,$00 ; special VIA bits to avoid changing, - ; VIA1 PB4=1,PB5=1, for Cuda 1/27/92 gjs - dc.l 0 ; no identify routine - supports CPU ID reg - dc.b YMCADecoder - dc.b DecoderInfoVersion ; DecoderInfo version - dcb.b 2,0 - dc.l $50F30400 ; YMCA Base Address -CycloneDecoderTable - IF ROMinRAM THEN ; - dc.l $00400000 ; ROM - hacked • HACK 4 Meg - ELSE ; - dc.l $40800000 ; ROM - valid - ENDIF ; - dc.l $58000000 ; DiagROM - valid - dc.l $50F00000 ; VIA1 - valid - dc.l $50F04000 ; SCC read - valid - dc.l $50F04000 ; SCC write - valid - dc.l $00000000 ; IWM - unused - dc.l $00000000 ; PWM - unused - dc.l $00000000 ; Sound - unused - dc.l $00000000 ; SCSI - unused - dc.l $00000000 ; SCSIDack - unused - dc.l $00000000 ; SCSIHsk - unused - dc.l $50F02000 ; VIA2 - valid - dc.l $00000000 ; ASC - unused - dc.l $00000000 ; RBV - unused - dc.l $00000000 ; VDAC - valid - dc.l $00000000 ; SCSIDMA - unused - dc.l $00000000 ; SWIMIOP - unused - dc.l $00000000 ; SCCIOP - unused - dc.l $00000000 ; OSS - unused - dc.l $00000000 ; FMC - unused - dc.l $00000000 ; RPU - unused - dc.l $00000000 ; Unused21 - valid - dc.l $00000000 ; JAWS - unused - dc.l $00000000 ; Sonic - unused - dc.l $50F18000 ; 1st (internal) SCSI96 - unused - dc.l $00000000 ; 2nd (external) SCSI96 - unused - dc.l $00000000 ; Civic - valid - dc.l $50F31000 ; PSC DMA - valid - dc.l $00000000 ; ROMPhysAddr - unused - dc.l $00000000 ; PatchROMAddr - unused - dc.l $50F2A000 ; NewAge - valid - dc.l $00000000 ; Unused31 - dc.l $00000000 ; Singer - unused - dc.l $50F31000 ; DSP (really PSC's base address) - valid - dc.l $50F1C000 ; MACE - valid - dc.l $50F30000 ; MUNI - valid - dc.l $00000000 ; AMIC DMA controller - unused - dc.l $00000000 ; Pratt decoder - unused - dc.l $00000000 ; SWIM3 chip - unused - dc.l $00000000 ; AWACS chip - unused - dc.l $50036000 ; Civic - valid - dc.l $50F30800 ; Sebastian - valid - - - ENDIF ; - - - IF hasVISADecoder THEN - IMPORT CheckForVISADecoder -;----------------------------------------------------------------------------------------- -; VISA Decoder -;----------------------------------------------------------------------------------------- - BitVector32 \ ; Default valid addresses 0-31 - ROMExists,\ ; ROMAddr is valid - DiagROMExists,\ ; DiagROMAddr is valid - VIA1Exists,\ ; VIA1Addr is valid - SCCRdExists,\ ; SCCRdAddr is valid - SCCWrExists,\ ; SCCWrAddr is valid - IWMExists,\ ; IWMAddr is valid - SCSIExists,\ ; SCSIAddr is valid - SCSIDackExists,\ ; SCSIDackAddr is valid - SCSIHskExists,\ ; SCSIHskAddr is valid - ASCExists,\ ; ASCAddr is valid - RBVExists,\ ; RBVAddr is valid - VDACExists ; VDACAddr is valid - BitVector32 ; Default valid addresses 32-63 - BitVector32 ; Default valid addresses 64-95 - dc.l \ ; Default ext features 0-31 - (ClockEgret)|\ ; Has Egret clock/pram - (ADBEgret)|\ ; Has Egret ADB - (1< - dc.l $50F80000 ; DiagROM - valid <12><8> - dc.l $50F00000 ; VIA1 - valid - dc.l $50F04000 ; SCC read - valid - dc.l $50F04000 ; SCC write - valid - dc.l $50F16000 ; IWM - valid - dc.l $00000000 ; PWM - unused - dc.l $00000000 ; Sound - unused - dc.l $50F10000 ; SCSI - valid - dc.l $50F12000 ; SCSIDack - valid - dc.l $50F06000 ; SCSIHsk - valid - dc.l $00000000 ; VIA2 - unused - dc.l $50F14000 ; ASC - valid - dc.l $50F26000 ; RBV - valid - dc.l $50F24000 ; VDAC - valid - dc.l $00000000 ; SCSIDMA - unused - dc.l $00000000 ; SWIMIOP - unused - dc.l $00000000 ; SCCIOP - unused - dc.l $00000000 ; OSS - unused - dc.l $00000000 ; FMC - unused - dc.l $00000000 ; RPU - unused - dc.l $00000000 ; unused 21 - dc.l $00000000 ; unused 22 - dc.l $00000000 ; unused 23 - dc.l $00000000 ; 1st (internal) SCSI96 - unused - dc.l $00000000 ; 2nd (external) SCSI96 - unused - dc.l $00000000 ; DAFB - unused - dc.l $00000000 ; unused 27 - dc.l $00A00000 ; ROMPhysAddr - unused - dc.l $00000000 ; unused 29 - dc.l $00000000 ; unused 30 - dc.l $00000000 ; unused 31 - - ENDIF ; {hasVISADecoder} - - - IF hasGrandCentral THEN -;----------------------------------------------------------------------------------------- -; HammerHead Decoder Table -;----------------------------------------------------------------------------------------- - BitVector32 \ ; Default valid addresses 0-31 - ROMExists,\ ; ROMAddr is valid - VIA1Exists,\ ; VIA1Addr is valid - SCCRdExists,\ ; SCCRdAddr is valid - SCCWrExists,\ ; SCCWrAddr is valid - SCSI96_1Exists,\ ; SCSI 96 bus 1 is valid - SCSI96_2Exists ; SCSI 96 bus 2 is valid - BitVector32 \ ; Default valid addresses 32-63 - MaceExists, \ ; MACE is valid - SWIM3Exists,\ ; SWIM3 is valid - AwacsExists,\ ; Awacs is valid - GrandCentralExists ; Grand Central DMA is valid - BitVector32 ; Default valid addresses 64-95 - dc.l 0 ; Default ext features 0-31 - ; (we better know what features we have) - dc.l 0 ; Default ext features 32-63 - dc.l 0 ; Default ext features 64-95 - dc.b $00,$30,$00,$00 ; special VIA bits to avoid changing, - ; VIA1 PB4=1, PB5=1, for Cuda - dc.l 0 ; no identify routine -- use CPU ID register - dc.b HHeadDecoder - dc.b DecoderInfoVersion ; DecoderInfo version - dcb.b 2,0 - dc.l $F8000000 ; HammerHead Base Address -HHeadDecoderTable - dc.l $40800000 ; ROM - valid - dc.l $00000000 ; DiagROM - unused - dc.l $F3016000 ; VIA1 - valid - dc.l $F3012000 ; SCC read - valid - dc.l $F3012000 ; SCC write - valid - dc.l $00000000 ; IWM - unused - dc.l $00000000 ; PWM - unused - dc.l $00000000 ; Sound - unused - dc.l $00000000 ; SCSI - unused - dc.l $00000000 ; SCSIDack - unused - dc.l $00000000 ; SCSIHsk - unused - dc.l $00000000 ; VIA2 - unused - dc.l $00000000 ; ASC - unused - dc.l $00000000 ; RBV - unused - dc.l $00000000 ; VDAC - unused - dc.l $00000000 ; SCSIDMA - unused - dc.l $00000000 ; SWIMIOP - unused - dc.l $00000000 ; SCCIOP - unused - dc.l $00000000 ; OSS - unused - dc.l $00000000 ; FMC - unused - dc.l $00000000 ; RPU - unused - dc.l $00000000 ; Unused21 - unused - dc.l $00000000 ; JAWS - unused - dc.l $00000000 ; Sonic - unused - dc.l $F3018000 ; 1st (internal) SCSI96 - valid - dc.l $F3010000 ; 2nd (external) SCSI96 - valid - dc.l $00000000 ; Civic - unused - dc.l $00000000 ; PSC DMA - unused - dc.l $00000000 ; ROMPhysAddr - unused - dc.l $00000000 ; PatchROMAddr - unused - dc.l $00000000 ; NewAge - unused - dc.l $00000000 ; Unused31 - dc.l $00000000 ; Singer - unused - dc.l $00000000 ; DSP (really PSC's base address) - unused - dc.l $F3011000 ; MACE - valid - dc.l $00000000 ; MUNI - unused - dc.l $00000000 ; AMIC DMA controller - unused - dc.l $00000000 ; Pratt decoder - unused - dc.l $F3015000 ; SWIM3 chip - valid - dc.l $F3014000 ; AWACS chip - valid - dc.l $00000000 ; Civic - unused - dc.l $00000000 ; Sebastian - unused - dc.l $00000000 ; BART - unused - dc.l $F3000000 ; Grand Central - valid - - ENDIF ; {hasGrandCentral} - - - -;----------------------------------------------------------------------------------------- -; Unknown Decoder -;----------------------------------------------------------------------------------------- - IMPORT CheckForUnknown - - BitVector32 ; Default valid addresses 0-31 - BitVector32 ; Default valid addresses 32-63 - BitVector32 ; Default valid addresses 64-95 - dc.l 0 ; Default ext features 0-31 - dc.l 0 ; Default ext features 32-63 - dc.l 0 ; Default ext features 64-95 - dc.b $00,$00,$00,$00 ; no special VIA bits to avoid changing - dc.l CheckForUnknown-UnknownDecoderTable ; routine to identify this map - dc.b UnknownDecoder - dc.b DecoderInfoVersion ; DecoderInfo version - dcb.b 2,0 - dc.l $FFFFFFFF ; No Base Address for this decoder -UnknownDecoderTable - dc.l $00000000 ; ROM - unused - dc.l $00000000 ; DiagROM - unused - dc.l $00000000 ; VIA1 - unused - dc.l $00000000 ; SCC read - unused - dc.l $00000000 ; SCC write - unused - dc.l $00000000 ; IWM - unused - dc.l $00000000 ; PWM - unused - dc.l $00000000 ; Sound - unused - dc.l $00000000 ; SCSI - unused - dc.l $00000000 ; SCSIDack - unused - dc.l $00000000 ; SCSIHsk - unused - dc.l $00000000 ; VIA2 - unused - dc.l $00000000 ; ASC - unused - dc.l $00000000 ; RBV - unused - dc.l $00000000 ; VDAC - unused - dc.l $00000000 ; SCSIDMA - unused - dc.l $00000000 ; SWIMIOP - unused - dc.l $00000000 ; SCCIOP - unused - dc.l $00000000 ; OSS - unused - dc.l $00000000 ; FMC - unused - dc.l $00000000 ; RPU - unused - dc.l $00000000 ; unused 21 - dc.l $00000000 ; JAWS - unused <25> - dc.l $00000000 ; Sonic - unused <45> - dc.l $00000000 ; 1st (internal) SCSI96 - unused - dc.l $00000000 ; 2nd (external) SCSI96 - unused - dc.l $00000000 ; DAFB - unused - dc.l $00000000 ; unused 27 - dc.l $00000000 ; ROMPhysAddr - unused - dc.l $00000000 ; unused 29 - dc.l $00000000 ; unused 30 - dc.l $00000000 ; unused 31 - - ;——————————————————————————————————————————————————————————————————————————————————————————————— ; RAM Info Tables ;——————————————————————————————————————————————————————————————————————————————————————————————— - IF hasMDU THEN ; -RAMInfo2Bank1Meg ; common 2 bank RAM model: - dc.l $00100000 ; 1 Meg is smallest bank - dc.l $00000000,$04000000 ; 64 Meg Bank A - dc.l $04000000,$08000000 ; 64 Meg Bank B - dc.l $FFFFFFFF ; end of table - ENDIF ; - - IF hasOrwell | hasYMCA THEN ; -RAMInfo2Bank4Meg ; common 2 bank RAM model: - dc.l $00400000 ; 4 MB is smallest bank - dc.l $00000000,$04000000 ; 64 MB Bank A - dc.l $04000000,$08000000 ; 64 MB Bank B - dc.l $FFFFFFFF ; end of table - ENDIF ; - - IF hasVISADecoder THEN -RamInfoVISA - dc.l $00100000 ; 1 MB is smallest bank - dc.l $00000000,$00800000 ; 8 MB Bank A - dc.l $00800000,$00A00000 ; 2 MB Bank B - dc.l $FFFFFFFF ; end of table -RamInfoMacLCII ; Special case 4MB on PCB for LC II - dc.l $00100000 ; 1 MB is smallest bank - dc.l $00000000,$00400000 ; 4 MB Bank A - dc.l $00400000,$00800000 ; 4 MB Bank B +RamInfoNewWorld + dc.l $00800000 ; 8 MB is smallest bank + dc.l $00000000,$40000000 ; 1 GB Bank A dc.l $FFFFFFFF ; end of table - ENDIF ; {hasVISADecoder} - - IF hasOrwell THEN -RamInfoQuadra900 ; Quadra 900 supports 4 banks of memory - dc.l $00400000 ; 4 MB is smallest bank - dc.l $00000000,$04000000 ; 64 MB Bank A - dc.l $04000000,$08000000 ; 64 MB Bank B - dc.l $08000000,$0C000000 ; 64 MB Bank C - dc.l $0C000000,$10000000 ; 64 MB Bank D - dc.l $FFFFFFFF ; End of table - - IF forSmurf THEN -RamInfoRiscQuadra ; Smurf Card supports 1 12M bank of memory - dc.l $00C00000 ; 12 MB is smallest bank - dc.l $00000000,$00C00000 ; 12 MB Bank - dc.l $FFFFFFFF ; End of table - ENDIF ; {forSmurf} - ENDIF ; {hasOrwell} - - IF hasJaws THEN -RAMInfoJaws - dc.l $00080000 ; 512K is smallest bank - dc.l $00000000,$00200000 ; 2 Meg Bank A - dc.l $00200000,$00400000 ; 2 Meg Bank B - dc.l $00400000,$00600000 ; 2 Meg Bank C - dc.l $00600000,$00800000 ; 2 Meg Bank D - dc.l $FFFFFFFF ; End of table - ENDIF ; {hasJaws} - - IF hasNiagra THEN -RamInfoNiagra - dc.l $00080000 ; 512K is smallest bank - dc.l $00000000,$00200000 ; 2 Meg Bank 0 - dc.l $00200000,$00400000 ; 2 Meg Bank 1 - dc.l $00400000,$00600000 ; 2 Meg Bank 2 - dc.l $00600000,$00800000 ; 2 Meg Bank 3 - dc.l $00800000,$00A00000 ; 2 Meg Bank 4 - dc.l $00A00000,$00C00000 ; 2 Meg Bank 5 - dc.l $00C00000,$00E00000 ; 2 Meg Bank 6 - dc.l $00E00000,$01000000 ; 2 Meg Bank 7 (16 Meg Total) - dc.l $FFFFFFFF ; End of table - ENDIF ; {hasNiagra} - - IF hasMSC THEN -RAMInfoMSC - dc.l $00200000 ; 2 Meg is smallest bank allowed - dc.l $00000000,$00200000 ; 2 Meg Bank A - dc.l $00200000,$00400000 ; 2 Meg Bank B - dc.l $00400000,$00600000 ; 2 Meg Bank C - dc.l $00600000,$00800000 ; 2 Meg Bank D - dc.l $00800000,$01000000 ; 8 Meg Bank E - dc.l $01000000,$01800000 ; 8 Meg Bank F - dc.l $01800000,$02000000 ; 8 Meg Bank G - dc.l $02000000,$02800000 ; 8 Meg Bank H - dc.l $FFFFFFFF ; end of table - ENDIF ; {hasMSC} - - IF hasPratt THEN -RAMInfoPratt - dc.l $00200000 ; 2 Meg is smallest bank allowed - dc.l $00000000,$00800000 ; 8 Meg Bank A - dc.l $00800000,$01000000 ; 4 Meg Bank B - dc.l $01000000,$01800000 ; 8 Meg Bank C - dc.l $01800000,$02000000 ; 8 Meg Bank D - dc.l $02000000,$02800000 ; 8 Meg Bank E - dc.l $02800000,$03000000 ; 8 Meg Bank F - dc.l $FFFFFFFF ; end of table - ENDIF ; {hasPratt} - - IF hasPratt THEN - EXPORT RamInfoPrattFlash -RamInfoPrattFlash - dc.l $00200000 ; 2 Meg is smallest bank allowed - dc.l $00000000,$00800000 ; 8 Meg Bank A - dc.l $00800000,$01000000 ; 8 Meg Bank B - dc.l $01000000,$01800000 ; 8 Meg Bank C - dc.l $01800000,$02000000 ; 8 Meg Bank D - dc.l $FFFFFFFF ; end of table - ENDIF ; {hasPratt} - - IF hasSonora THEN -RamInfoVail - dc.l $00100000 ; 1 Meg is smallest bank allowed - dc.l $00000000,$01000000 ; 16 Meg Bank A/0 - dc.l $01000000,$02000000 ; 16 Meg Bank B/1 - dc.l $02000000,$03000000 ; 16 Meg Bank C/2 - dc.l $03000000,$04000000 ; 16 Meg Bank D/3 - dc.l $04000000,$05000000 ; 16 Meg Bank E/4 - dc.l $FFFFFFFF ; end of table - ENDIF ; {hasSonora} - - IF hasDJMEMC THEN -RamInfoDJMEMC - dc.l $00400000 ; 4 Meg is smallest bank allowed - dc.l $00000000,$04000000 ; 64 Meg Bank 0 (built in) - dc.l $04000000,$08000000 ; 64 Meg Bank 1 (built in) - dc.l $08000000,$0C000000 ; 64 Meg Bank 2 (SIMM 0A) socket 0 - dc.l $0C000000,$10000000 ; 64 Meg Bank 3 (SIMM 1A) - dc.l $10000000,$14000000 ; 64 Meg Bank 4 (SIMM 0B) socket 1 - dc.l $14000000,$18000000 ; 64 Meg Bank 5 (SIMM 1B) - dc.l $18000000,$1C000000 ; 64 Meg Bank 6 (SIMM 2A) socket 2 - dc.l $1C000000,$20000000 ; 64 Meg Bank 7 (SIMM 3A) - dc.l $53616D42 ; ('SamB') End of 1st half table (Sizebanks can - ; only handle 8 banks. So we must break the sizing - dc.l $00400000 ; into two parts.) - dc.l $20000000,$24000000 ; 64 Meg Bank 8 (SIMM 2B) socket 3 - dc.l $24000000,$28000000 ; 64 Meg Bank 9 (SIMM 3B) 640 Meg! Yeah! Can you say - dc.l $FFFFFFFF ; end of table long RAM test?!! - - IF forSmurf THEN -RamInfoRiscDJMEMC ; Smurf Card supports 1 12M bank of memory - dc.l $00C00000 ; 12 MB is smallest bank - dc.l $00000000,$00C00000 ; 12 MB Bank - dc.l $FFFFFFFF ; End of table - ENDIF ; {forSmurf} - - ENDIF ; {hasDJMEMC} - - IF hasYMCA THEN ; - -RamInfoCyclone ; Cyclone EVT4 supports 8 banks of memory - dc.l $00100000 ; 1 MB is smallest bank - dc.l $00000000,$01000000 ; 16 MB Bank 0 - dc.l $01000000,$02000000 ; 16 MB Bank 1 - dc.l $02000000,$03000000 ; 16 MB Bank 2 - dc.l $03000000,$04000000 ; 16 MB Bank 3 - dc.l $04000000,$05000000 ; 16 MB Bank 4 - dc.l $05000000,$06000000 ; 16 MB Bank 5 - dc.l $06000000,$07000000 ; 16 MB Bank 6 - dc.l $07000000,$08000000 ; 16 MB Bank 7 - dc.l $FFFFFFFF ; End of table - -RamInfoTempest ; Tempest supports 8 banks of memory ???? - dc.l $00100000 ; 1 MB is smallest bank - dc.l $00000000,$01000000 ; 16 MB Bank 0 - dc.l $01000000,$02000000 ; 16 MB Bank 1 - dc.l $02000000,$03000000 ; 16 MB Bank 2 - dc.l $03000000,$04000000 ; 16 MB Bank 3 - dc.l $04000000,$05000000 ; 16 MB Bank 4 - dc.l $05000000,$06000000 ; 16 MB Bank 5 - dc.l $06000000,$07000000 ; 16 MB Bank 6 - dc.l $07000000,$08000000 ; 16 MB Bank 7 - dc.l $FFFFFFFF ; End of table - - ENDIF ; - - - IF hasHMC THEN -RamInfoPDM ; PDM supports .. memory (Emulator maps all into 1 bank) - dc.l $10000000 ; 256 MB - dc.l $00000000,$10000000 ; - dc.l $FFFFFFFF ; End of table - - ENDIF - - IF hasGrandCentral THEN -RamInfoTNT ; PDM supports .. memory (Emulator maps all into 1 bank) - dc.l $10000000 ; 256 MB - dc.l $00000000,$10000000 ; - dc.l $FFFFFFFF ; End of table - - ENDIF ; (hasGrandCentral) ;——————————————————————————————————————————————————————————————————————————————————————————————— ; Video Info Tables ;——————————————————————————————————————————————————————————————————————————————————————————————— - IF hasVISADecoder THEN ; -VideoInfoVISA - dc.l $50F40000 ; Physical base address of screen - dc.l $50F40000 ; Logical 32 bit base address of screen - dc.l $50F40000 ; Logical 24 bit base address of screen - dc.b $0B ; Slot number to use for PRAM storage - dc.b SmPRAMTop+(($0B-$09)*sizeSPRAMRec) ; PRAM address for RBV slot zero - dc.b sRsrcBFBasedDir ; Use the BoxFlag-based sRsrc directory directory. - dc.b 0 ; Use boxFlag to identify board sRsrc. - dc.w 0 ; - ENDIF ; - - IF hasJaws THEN -VideoInfoJaws - dc.l $FEE08000 ; Physical base address of screen - dc.l $FEE08000 ; Logical 32 bit base address of screen - dc.l $FEE08000 ; Logical 24 bit base address of screen <39> - dc.b $0B ; Slot number to use for PRAM storage <25> - dc.b SmPRAMTop+(($0B-$09)*sizeSPRAMRec) ; PRAM address for slot zero <25> - dc.b sRsrcBFBasedDir ; Use the BoxFlag-based sRsrc directory directory. - dc.b 0 ; Use boxFlag to identify board sRsrc. - dc.w 0 ; - ENDIF ; {hasJaws} - - IF hasDAFB THEN -VideoInfoDAFB ; - dc.l $F9000000 ; Physical base address of screen - dc.l $F9000000 ; Logical 32 bit base address of screen - dc.l 0 ; no Logical 24 bit base address for DAFB - dc.b $09 ; Slot number to use for PRAM storage - dc.b SmPRAMTop+(($09-$09)*sizeSPRAMRec) ; PRAM address for slot zero - dc.b sRsrcBFBasedDir ; Use the BoxFlag-based sRsrc directory directory. - dc.b 0 ; Use boxFlag to identify board sRsrc. - dc.w drHwDAFB ; Uses the DAFB video driver. - ENDIF ; {hasDAFB} - - IF hasNiagra THEN -VideoInfoNiagra - dc.l $60040000 ; Physical base address of screen - dc.l $60040000 ; Logical 32 bit base address of screen - dc.l $00000000 ; Logical 24 bit base address of screen - dc.b $0B ; Slot number to use for PRAM storage - dc.b SmPRAMTop+(($0B-$09)*sizeSPRAMRec) ; PRAM address for slot zero - dc.b sRsrcBFBasedDir ; Use the BoxFlag-based sRsrc directory directory. - dc.b 0 ; Use boxFlag to identify board sRsrc. - dc.w drHwGSC ; Uses the GSC (DBLite) video driver. - ENDIF ; {hasNiagra} - - IF hasMSC THEN -VideoInfoMSC - dc.l $60000000 ; Physical base address of screen - dc.l $60000000 ; Logical 32 bit base address of screen - dc.l $00000000 ; Logical 24 bit base address of screen (always access in 32-bit mode) - dc.b $0B ; Slot number to use for PRAM storage - dc.b SmPRAMTop+(($0B-$09)*sizeSPRAMRec) ; PRAM address for slot zero - dc.b sRsrcBFBasedDir ; Use the BoxFlag-based sRsrc directory directory. - dc.b 0 ; Use boxFlag to identify board sRsrc. - dc.w drHwGSC ; Uses the GSC (DBLite) video driver. - -VideoInfoEscher - dc.l $60000000 ; Physical base address of screen - dc.l $60000000 ; Logical 32 bit base address of screen - dc.l 0 ; No logical 24-bit address. - dc.b $0B ; Slot number to use for PRAM storage - dc.b SmPRAMTop+(($0B-$09)*\ ; PRAM address for slot zero - sizeSPRAMRec) - dc.b sRsrcCSCDir ; Use the CSC sRsrc directory directory. - dc.b sRsrc_BdEscher ; Use the Escher-family board sRsrc. - dc.w drHwCSC ; Uses the CSC video driver. - -VideoInfoYeager - dc.l $60000000 ; Physical base address of screen - dc.l $60000000 ; Logical 32 bit base address of screen - dc.l 0 ; No logical 24-bit address. - dc.b $0B ; Slot number to use for PRAM storage - dc.b SmPRAMTop+(($0B-$09)*\ ; PRAM address for slot zero - sizeSPRAMRec) - dc.b sRsrcCSCDir ; Use the CSC sRsrc directory directory. - dc.b sRsrc_BdYeager ; Use the Yeager-family board sRsrc. - dc.w drHwCSC ; Uses the CSC video driver. - - ENDIF ; {hasMSC} - - IF hasPratt THEN -VideoInfoPratt - dc.l $60000000 ; Physical base address of screen - dc.l $60000000 ; Logical 32 bit base address of screen - dc.l $00000000 ; No logical 24-bit base address? - dc.b $0C ; Slot number to use for PRAM storage - dc.b SmPRAMTop+(($0C-$09)*sizeSPRAMRec) ; PRAM address for slot zero - dc.b sRsrcCSCDir ; Use the CSC sRsrc directory directory. - dc.b sRsrc_BdBlackBird ; Use the BlackBird-family board sRsrc. - dc.w drHwCSC ; Uses the CSC video driver. - ENDIF ; {hasPratt} - - IF hasSonora THEN -VideoInfoVail - dc.l $60B00000 ; Physical base address of screen - dc.l $60B00000 ; Logical 32-bit base address of screen - dc.l $00B00000 ; Logical 24-bit base address of screen - dc.b $0B ; Slot number to use for PRAM storage - dc.b SmPRAMTop+(($0B-$09)*sizeSPRAMRec) ; PRAM address for slot zero - dc.b sRsrcSonoraDir ; Use the Sonora sRsrc directory directory. - dc.b sRsrc_BDVail ; Use the Vail-Family board sRsrc. - dc.w drHwSonora ; Uses the Sonora video driver. - ENDIF ; {hasSonora} - - IF hasYMCA THEN ; -VideoInfoCyclone ; - dc.l $50100000 ; Physical base address of screen - dc.l $50100000 ; Logical 32 bit base address of screen - dc.l 0 ; No logical 24-bit base address. - dc.b $09 ; Slot number to use for PRAM storage - dc.b SmPRAMTop+(($09-$09)*sizeSPRAMRec) ; PRAM address for slot zero - dc.b sRsrcCivicDir ; Use the Civic sRsrc directory directory. - dc.b sRsrc_BDCyclone ; Use the Cyclone-Family board sRsrc. - dc.w drHwCivic ; Uses the Civic video driver. - -VideoInfoTempest ; - dc.l $50100000 ; Physical base address of screen - dc.l $50100000 ; Logical 32 bit base address of screen - dc.l 0 ; No logical 24-bit base address. - dc.b $09 ; Slot number to use for PRAM storage - dc.b SmPRAMTop+(($09-$09)*sizeSPRAMRec) ; PRAM address for slot zero - dc.b sRsrcCivicDir ; Use the Civic sRsrc directory directory. - dc.b sRsrc_BDTempest ; Use the Tempest-Family board sRsrc. - dc.w drHwCivic ; Uses the Civic video driver. - ENDIF ; - - IF hasHMC THEN ; -VideoInfoPDM - dc.l $00000000 ; Physical base address of screen - dc.l $60B00000 ; Logical 32-bit base address of screen - dc.l 0 ; No logical 24-bit base address. - dc.b $09 ; Slot number to use for PRAM storage - dc.b SmPRAMTop+(($09-$09)*sizeSPRAMRec) ; PRAM address for slot zero - dc.b sRsrcSonoraDir ; Use the Sonora sRsrc directory directory. - dc.b sRsrc_BdPDM ; Use the PDM-family board sRsrc. - dc.w drHwSonora ; Uses the Sonora video driver. - ENDIF ; - - IF hasGrandCentral THEN ; -VideoInfoTNT - dc.l $E0200000 ; Physical base address of screen - dc.l $E0200000 ; Logical 32-bit base address of screen - dc.l 0 ; No logical 24-bit base address. - dc.b $0E ; Slot number to use for PRAM storage - dc.b SmPRAMTop+(($0E-$09)*sizeSPRAMRec) ; PRAM address for slot zero - dc.b sRsrcATIDir ; Use the ATI sRsrc directory directory. - dc.b 1 ; Use the ATI-family board sRsrc. -; dc.b sRsrc_BdATI ; Use the PDM-family board sRsrc. - dc.w drHwATI ; Uses the ATI video driver. - ENDIF ; - +VideoInfoNewWorld + dc.w -1 ;——————————————————————————————————————————————————————————————————————————————————————————————— ; NuBus Info Tables ;——————————————————————————————————————————————————————————————————————————————————————————————— - IF hasVISADecoder THEN -NuBusInfoVISA ; beginning of change <24><4> - dc.b 0|(1< - dc.b 0|\ ; slot B - (1< - dc.b 0|\ ; slot C - (1< - dc.b 0|\ ; slot D - (1< - dc.b 0|\ ; slot E - (1< - dc.b 0|(1< - dc.b 0|(1< - (1< - (1< - dc.b 0|\ ; slot A - (1< - (1< - (1< - (1< - dc.b 0 ; slot F - ENDIF ; {hasOrwell} - - IF hasJaws THEN -NuBusInfoJaws - dc.b 0|(1< - (1< - ENDIF ; {hasNiagra} - - IF hasMSC THEN -NuBusInfoMSC - dc.b 0|(1< - (1< - dc.b 0 ; slot 7 - dc.b 0 ; slot 8 - dc.b 0 ; slot 9 - dc.b 0 ; slot A - dc.b 0|(1< - dc.b 0|(1< thru next - dc.b 0|(1< - ENDIF ; {hasDJMEMC} - - IF hasYMCA THEN ; -NuBusInfoCyclone ; - dc.b 0|(1< Built-in Video, Ethernet, etc…. - dc.b 0 ; slot 1 - dc.b 0 ; slot 2 - dc.b 0 ; slot 3 - dc.b 0 ; slot 4 - dc.b 0|(1< Built-in video’s VRAM is here (Super5). - dc.b 0 ; slot 6 - dc.b 0 ; slot 7 - dc.b 0 ; slot 8 - dc.b 0|(1< Built-in Video PRAM - dc.b 0|\ ; slot A - (1< Physical Slot. - (1< Physical Slot. - (1< Physical Slot. - (1< End of table (Slot Manager/VM doesn’t use). - -NuBusInfoTempest ; - dc.b 0|(1< Built-in Video, Ethernet, etc…. - dc.b 0 ; slot 1 - dc.b 0 ; slot 2 - dc.b 0 ; slot 3 - dc.b 0 ; slot 4 - dc.b 0|(1< Built-in video’s VRAM is here (Super5). - dc.b 0 ; slot 6 - dc.b 0 ; slot 7 - dc.b 0 ; slot 8 - dc.b 0|(1< Built-in Video PRAM - dc.b 0|\ ; slot A - (1< Physical Slot. - (1< End of table (Slot Manager/VM doesn’t use). - ENDIF ; {hasYMCA} - - IF hasHMC THEN ; -NuBusInfoPDM - dc.b 0|(1< Built-in Video, Ethernet, etc…. - dc.b 0 ; slot 1 -> ??? - dc.b 0 ; slot 2 -> ??? - dc.b 0 ; slot 3 -> ??? - dc.b 0 ; slot 4 -> ??? - dc.b 0 ; slot 5 -> - dc.b 0|\ ; slot 6 -> ??? - (1< ??? - dc.b 0 ; slot 8 -> ??? - dc.b 0|\ ; slot 9 -> Built-in Video PRAM, Ethernet interrupts, - (1< ??? - dc.b 0 ; slot B -> ??? - dc.b 0 ; slot C -> ??? - dc.b 0 ; slot D -> ??? - dc.b 0|\ ; slot E -> Physical Slot. - (1< End of table (Slot Manager/VM doesn’t use). - -NuBusInfoCFusion - dc.b 0|(1< Built-in Video, Ethernet, etc…. - dc.b 0 ; slot 1 -> ??? - dc.b 0 ; slot 2 -> ??? - dc.b 0 ; slot 3 -> ??? - dc.b 0 ; slot 4 -> ??? - dc.b 0 ; slot 5 -> - dc.b 0|\ ; slot 6 -> ??? - (1< ??? - dc.b 0 ; slot 8 -> ??? - dc.b 0|\ ; slot 9 -> Built-in Video PRAM, Ethernet interrupts, - (1< ??? - dc.b 0|\ ; slot B -> Physical Slot. - (1< Physical Slot. - (1< Physical Slot. - (1< Video Expansion (HPV or Plinaria). - (1< End of table (Slot Manager/VM doesn’t use). - - ENDIF ; {hasHMC} - - IF hasGrandCentral THEN ; -NuBusInfoTNT - dc.b 0|(1< Built-in Video, Ethernet, etc…. - dc.b 0|\ ; slot 1 -> ??? - (1< ??? - (1< ??? - (1< ??? - (1< ??? - (1< ??? - (1< ??? - (1< ??? - (1< ??? - (1< ??? - (1< ??? - (1< ??? - (1< ??? - (1< ???. - (1< End of table (Slot Manager/VM doesn’t use). - - ENDIF ; (hasGrandCentral) IconTable ; - IF hasOSS THEN -IconInfo6Slot ; Macintosh II,IIx,IIfx table - dc.l DisketteIcon-IconInfo6Slot ; drive 1 logical icon, - dc.l Right6SlotIcon-IconInfo6Slot ; physical icon, - dc.w $0003 ; primary int removable, 800K Sony - - dc.l DisketteIcon-IconInfo6Slot ; drive 2 logical icon, - dc.l Left6SlotIcon-IconInfo6Slot ; physical icon, - dc.w $0803 ; secondary int removable, 800K Sony - ENDIF - - IF hasMDU THEN ; -IconInfo3Slot ; Macintosh IIcx/Aurora table - dc.l DisketteIcon-IconInfo3Slot ; drive 1 logical icon, - dc.l Int3SlotIcon-IconInfo3Slot ; physical icon (small box) - dc.w $0003 ; primary int removable, 800K Sony - - dc.l DisketteIcon-IconInfo3Slot ; drive 2 logical icon, - dc.l Ext3SlotIcon-IconInfo3Slot ; physical icon, (small box) - dc.w $0103 ; primary ext removable 800K Sony - -IconInfoMacIIsi ; Macintosh IIsi table - dc.l DisketteIcon-IconInfoMacIIsi ; drive 1 logical icon, - dc.l IntMacIIsiIcon-IconInfoMacIIsi ; physical icon (small box) - dc.w $0003 ; primary int removable, 800K Sony - - dc.l DisketteIcon-IconInfoMacIIsi ; drive 2 logical icon, - dc.l ExtMacIIsiIcon-IconInfoMacIIsi ; physical icon, (small box) - dc.w $0103 ; primary ext removable 800K Sony - ENDIF - - IF hasVISADecoder | hasSonora THEN -IconInfoMacLC ; Macintosh LC Table - dc.l DisketteIcon-IconInfoMacLC ; drive 1 logical icon, - dc.l RightMacLCIcon-IconInfoMacLC ; physical icon, - dc.w $0004 ; primary int removable, SuperDrive - - dc.l DisketteIcon-IconInfoMacLC ; drive 2 logical icon, - dc.l LeftMacLCIcon-IconInfoMacLC ; physical icon, - dc.w $0804 ; secondary int removable, SuperDrive - ENDIF - - IF hasOrwell THEN -IconInfoQuadra700 ; Quadra 700 Table - dc.l DisketteIcon-IconInfoQuadra700 ; drive 1 logical icon, - dc.l Quadra700Icon-IconInfoQuadra700 ; physical icon, - dc.w $0004 ; primary int removable, SuperDrive - - dc.l DisketteIcon-IconInfoQuadra700 ; drive 2 logical icon, - dc.l Quadra700Icon-IconInfoQuadra700 ; physical icon, - dc.w $0104 ; secondary ext removable, SuperDrive (Actually there is none...) - -IconInfoQuadra900 ; Quadra 900/950 Table - dc.l DisketteIcon-IconInfoQuadra900 ; drive 1 logical icon, - dc.l Quadra900Icon-IconInfoQuadra900 ; physical icon, - dc.w $0004 ; primary int removable, SuperDrive - - dc.l DisketteIcon-IconInfoQuadra900 ; drive 2 logical icon, - dc.l Quadra900Icon-IconInfoQuadra900 ; physical icon, - dc.w $0104 ; secondary ext removable, SuperDrive (Actually there is none...) - ENDIF - - IF hasJaws | hasNiagra | hasPratt THEN ; -IconInfoTim ; Tim Table - dc.l DisketteIcon-IconInfoTim ; drive 1 logical icon, - dc.l TimIcon-IconInfoTim ; physical icon, - dc.w $0004 ; primary int removable, SuperDrive - - dc.l DisketteIcon-IconInfoTim ; drive 2 logical icon, - dc.l TimIcon-IconInfoTim ; physical icon, - dc.w $0104 ; secondary ext removable, SuperDrive (Actually there is none...) - ENDIF - - IF hasMSC THEN -IconInfoDBLite ; DB-Lite table - dc.l DisketteIcon-IconInfoDBLite ; drive 1 logical icon, - dc.l DBLiteIcon-IconInfoDBLite ; physical icon, - dc.w $0104 ; primary ext removable, SuperDrive - - dc.l DisketteIcon-IconInfoDBLite ; drive 2 logical icon, - dc.l DBLiteIcon-IconInfoDBLite ; physical icon, - dc.w $0904 ; secondary ext removable, SuperDrive - ENDIF - - IF hasDJMEMC | hasYMCA | hasHMC THEN ; -IconInfoLego ; Wombat (or others) in a Lego package - dc.l DisketteIcon-IconInfoLego ; drive 1 logical icon, - dc.l LegoIcon-IconInfoLego ; physical icon, - dc.w $0004 ; primary int removable, SuperDrive - - dc.l DisketteIcon-IconInfoLego ; drive 2 logical icon, - dc.l LegoIcon-IconInfoLego ; physical icon, - dc.w $0104 ; secondary ext removable, SuperDrive (Actually there is none...) - -IconInfoFrigidaire ; Wombat (or others) in a Frigidaire package - dc.l DisketteIcon-IconInfoFrigidaire ; drive 1 logical icon, - dc.l FrigidaireIcon-IconInfoFrigidaire ; physical icon, - dc.w $0004 ; primary int removable, SuperDrive - - dc.l DisketteIcon-IconInfoFrigidaire ; drive 2 logical icon, - dc.l FrigidaireIcon-IconInfoFrigidaire ; physical icon, - dc.w $0104 ; secondary ext removable, SuperDrive (Actually there is none...) - -IconInfoQFC ; WLCD, PDM (or others) in a QFC package - dc.l DisketteIcon-IconInfoQFC ; drive 1 logical icon, - dc.l QFCIcon-IconInfoQFC ; physical icon, +IconInfoNewWorld + dc.l DisketteIcon-IconInfoNewWorld ; drive 1 logical icon, + dc.l DisketteIcon-IconInfoNewWorld ; physical icon, dc.w $0004 ; primary int removable, SuperDrive - dc.l DisketteIcon-IconInfoQFC ; drive 2 logical icon, - dc.l QFCIcon-IconInfoQFC ; physical icon, + dc.l DisketteIcon-IconInfoNewWorld ; drive 2 logical icon, + dc.l DisketteIcon-IconInfoNewWorld ; physical icon, dc.w $0104 ; secondary ext removable, SuperDrive (Actually there is none...) - ENDIF ; @@ -5948,387 +690,6 @@ DisketteIcon _AssumeEq (DisketteIcon-IconTable),((DisketteIcon-IconTable)>>1)<<1 - IF hasOSS THEN -; Mac II Left Sony icon - -Left6SlotIcon - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$FFFF,$FFFF - dc.w $8000,$0001,$8000,$0001,$903F,$C7F9,$8000,$0001 - dc.w $8004,$0001,$800E,$0001,$801F,$0001,$8004,$0001 - dc.w $8004,$0001,$8004,$0001,$8000,$0001,$FFFF,$FFFF - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$FFFF,$FFFF - dc.w $FFFF,$FFFF,$FFFF,$FFFF,$FFFF,$FFFF,$FFFF,$FFFF - dc.w $FFFF,$FFFF,$FFFF,$FFFF,$FFFF,$FFFF,$FFFF,$FFFF - dc.w $FFFF,$FFFF,$FFFF,$FFFF,$FFFF,$FFFF,$FFFF,$FFFF - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $0 ;old HD-20 driver drive ID string (null here) - - _AssumeEq (Left6SlotIcon-IconTable),((Left6SlotIcon-IconTable)>>1)<<1 - -; Mac II Right Sony icon - -Right6SlotIcon - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$FFFF,$FFFF - dc.w $8000,$0001,$8000,$0001,$903F,$C7F9,$8000,$0001 - dc.w $8000,$0081,$8000,$01C1,$8000,$03E1,$8000,$0081 - dc.w $8000,$0081,$8000,$0081,$8000,$0001,$FFFF,$FFFF - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$FFFF,$FFFF - dc.w $FFFF,$FFFF,$FFFF,$FFFF,$FFFF,$FFFF,$FFFF,$FFFF - dc.w $FFFF,$FFFF,$FFFF,$FFFF,$FFFF,$FFFF,$FFFF,$FFFF - dc.w $FFFF,$FFFF,$FFFF,$FFFF,$FFFF,$FFFF,$FFFF,$FFFF - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $0 ;old HD-20 driver drive ID string (null here) - - _AssumeEq (Right6SlotIcon-IconTable),((Right6SlotIcon-IconTable)>>1)<<1 - ENDIF - - - IF hasMDU THEN -; small box Mac II Internal Sony icon - -Int3SlotIcon - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $0000,$0000,$0000,$0080,$0000,$0080,$0000,$0080 - dc.w $0000,$0080,$0000,$03E0,$0000,$01C0,$0000,$0080 - dc.w $0000,$0000,$FFFF,$FFFF,$8000,$0001,$FFFF,$FFFF - dc.w $8000,$0001,$8000,$0001,$8000,$0001,$FFFF,$FFFF - dc.w $8000,$0FF9,$8000,$0001,$8000,$0001,$A000,$0001 - dc.w $8000,$0001,$FFFF,$FFFF,$8000,$0001,$FFFF,$FFFF - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $0000,$0000,$0000,$0080,$0000,$0080,$0000,$0080 - dc.w $0000,$0080,$0000,$03E0,$0000,$01C0,$0000,$0080 - dc.w $0000,$0000,$FFFF,$FFFF,$FFFF,$FFFF,$FFFF,$FFFF - dc.w $FFFF,$FFFF,$FFFF,$FFFF,$FFFF,$FFFF,$FFFF,$FFFF - dc.w $FFFF,$FFFF,$FFFF,$FFFF,$FFFF,$FFFF,$FFFF,$FFFF - dc.w $FFFF,$FFFF,$FFFF,$FFFF,$FFFF,$FFFF,$FFFF,$FFFF - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $0 ;old HD-20 driver drive ID string (null here) - - _AssumeEq (Int3SlotIcon-IconTable),((Int3SlotIcon-IconTable)>>1)<<1 - -; small box Mac II External Sony icon - -Ext3SlotIcon - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0010 - dc.w $0000,$0010,$FFFF,$FC10,$8000,$0410,$FFFF,$FC7C - dc.w $8000,$0438,$FFFF,$FC10,$8001,$F400,$A000,$05FF - dc.w $8000,$0501,$FFFF,$FD7D,$8000,$0501,$FFFF,$FDFF - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0010 - dc.w $0000,$0010,$FFFF,$FC10,$FFFF,$FC10,$FFFF,$FC7C - dc.w $FFFF,$FC38,$FFFF,$FC10,$FFFF,$FC00,$FFFF,$FDFF - dc.w $FFFF,$FDFF,$FFFF,$FDFF,$FFFF,$FDFF,$FFFF,$FDFF - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $0 ;old HD-20 driver drive ID string (null here) - - _AssumeEq (Ext3SlotIcon-IconTable),((Ext3SlotIcon-IconTable)>>1)<<1 - -; Macintosh IIsi internal drive icon. - -IntMacIIsiIcon - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $0000,$0000,$0000,$0400,$0000,$0400,$0000,$0400 - dc.w $0000,$1F00,$0000,$0E00,$0000,$0400,$0000,$0000 - dc.w $1FFF,$FFF8,$1000,$0008,$1000,$7FC8,$1000,$0008 - dc.w $1300,$0008,$1000,$0008,$1FFF,$FFF8,$0800,$0010 - dc.w $0FFF,$FFF0,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - - - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $0000,$0000,$0000,$0400,$0000,$0400,$0000,$0400 - dc.w $0000,$1F00,$0000,$0E00,$0000,$0400,$0000,$0000 - dc.w $1FFF,$FFF8,$1FFF,$FFF8,$1FFF,$FFF8,$1FFF,$FFF8 - dc.w $1FFF,$FFF8,$1FFF,$FFF8,$1FFF,$FFF8,$0FFF,$FFF0 - dc.w $0FFF,$FFF0,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $0 ;old HD-20 driver drive ID string (null here) - - _AssumeEq (IntMacIIsiIcon-IconTable),((IntMacIIsiIcon-IconTable)>>1)<<1 - -; Macintosh IIsi external drive icon. - -ExtMacIIsiIcon - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $0000,$0010,$0000,$0010,$0000,$0010,$FFFF,$FC7C - dc.w $8000,$0438,$803F,$E410,$8000,$0400,$A000,$05FF - dc.w $8000,$0501,$FFFF,$FD7D,$4000,$0901,$7FFF,$F9FF - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - - - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $0000,$0010,$0000,$0010,$0000,$0010,$FFFF,$FC7C - dc.w $FFFF,$FC38,$FFFF,$FC10,$FFFF,$FC00,$FFFF,$FDFF - dc.w $FFFF,$FDFF,$FFFF,$FDFF,$7FFF,$F9FF,$7FFF,$F9FF - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $0 ;old HD-20 driver drive ID string (null here) - - _AssumeEq (ExtMacIIsiIcon-IconTable),((ExtMacIIsiIcon-IconTable)>>1)<<1 - ENDIF - - - IF hasVISADecoder | hasSonora THEN -; Macintosh LC left drive icon. - -LeftMacLCIcon - dc.w $0000,$0000,$0080,$0000,$0080,$0000,$0080,$0000 - dc.w $0080,$0000,$03E0,$0000,$01C0,$0000,$0080,$0000 - dc.w $0000,$0000,$FFFF,$FFFF,$8000,$0001,$8FF8,$1FF1 - dc.w $8000,$0001,$8000,$0001,$FFFF,$FFFF,$2000,$0004 - dc.w $3FFF,$FFFC,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - - dc.w $01C0,$0000,$01C0,$0000,$01C0,$0000,$01C0,$0000 - dc.w $0FF8,$0000,$07F0,$0000,$03E0,$0000,$01C0,$0000 - dc.w $0080,$0000,$FFFF,$FFFF,$FFFF,$FFFF,$FFFF,$FFFF - dc.w $FFFF,$FFFF,$FFFF,$FFFF,$FFFF,$FFFF,$3FFF,$FFFC - dc.w $3FFF,$FFFC,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $0 ;old HD-20 driver drive ID string (null here) - - _AssumeEq (LeftMacLCIcon-IconTable),((LeftMacLCIcon-IconTable)>>1)<<1 - -; Macintosh LC right drive icon. - -RightMacLCIcon - dc.w $0000,$0000,$0000,$0100,$0000,$0100,$0000,$0100 - dc.w $0000,$0100,$0000,$07C0,$0000,$0380,$0000,$0100 - dc.w $0000,$0000,$FFFF,$FFFF,$8000,$0001,$8000,$1FF1 - dc.w $8000,$0001,$8000,$0001,$FFFF,$FFFF,$2000,$0004 - dc.w $3FFF,$FFFC,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - - dc.w $0000,$0380,$0000,$0380,$0000,$0380,$0000,$0380 - dc.w $0000,$1FF0,$0000,$0FE0,$0000,$07C0,$0000,$0380 - dc.w $0000,$0100,$FFFF,$FFFF,$FFFF,$FFFF,$FFFF,$FFFF - dc.w $FFFF,$FFFF,$FFFF,$FFFF,$FFFF,$FFFF,$3FFF,$FFFC - dc.w $3FFF,$FFFC,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $0 ;old HD-20 driver drive ID string (null here) - - _AssumeEq (RightMacLCIcon-IconTable),((RightMacLCIcon-IconTable)>>1)<<1 - ENDIF - - - IF hasOrwell THEN -; Quadra 900 icon. - -Quadra900Icon - dc.w $0000,$0000,$0FFF,$F000,$0800,$1000,$08FF,$F000 - dc.w $0880,$1080,$0880,$1180,$08BF,$D3F8,$0880,$1180 - dc.w $0880,$1080,$0880,$1000,$0880,$1000,$0880,$1000 - dc.w $0880,$1000,$0880,$1000,$0880,$1000,$0880,$1000 - dc.w $0880,$1000,$0880,$1000,$0880,$1000,$0880,$1000 - dc.w $0880,$1000,$08BF,$D000,$0880,$1000,$08BF,$D000 - dc.w $0880,$1000,$08BF,$D000,$0880,$1000,$08BF,$D000 - dc.w $0880,$1000,$08BF,$D000,$0880,$1000,$0FFF,$F000 - - dc.w $0000,$0000,$0FFF,$F000,$0FFF,$F000,$0FFF,$F000 - dc.w $0FFF,$F080,$0FFF,$F180,$0FFF,$F3F8,$0FFF,$F180 - dc.w $0FFF,$F080,$0FFF,$F000,$0FFF,$F000,$0FFF,$F000 - dc.w $0FFF,$F000,$0FFF,$F000,$0FFF,$F000,$0FFF,$F000 - dc.w $0FFF,$F000,$0FFF,$F000,$0FFF,$F000,$0FFF,$F000 - dc.w $0FFF,$F000,$0FFF,$F000,$0FFF,$F000,$0FFF,$F000 - dc.w $0FFF,$F000,$0FFF,$F000,$0FFF,$F000,$0FFF,$F000 - dc.w $0FFF,$F000,$0FFF,$F000,$0FFF,$F000,$0FFF,$F000 - dc.w $0 ;old HD-20 driver drive ID string (null here) - - _AssumeEq (Quadra900Icon-IconTable),((Quadra900Icon-IconTable)>>1)<<1 - - -; Quadra 700 icon. - -Quadra700Icon - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $1FFF,$8000,$1000,$8000,$1000,$8000,$17A0,$8000 - dc.w $1020,$8400,$17A0,$8C00,$1020,$9FC0,$17A0,$8C00 - dc.w $1020,$8400,$17A6,$8000,$1026,$8000,$1780,$8000 - dc.w $1000,$8000,$1780,$8000,$1000,$8000,$1780,$8000 - dc.w $1000,$8000,$1780,$8000,$1000,$8000,$1780,$8000 - dc.w $1000,$8000,$1780,$8000,$1000,$8000,$1782,$8000 - dc.w $1000,$8000,$1782,$8000,$1000,$8000,$1FFF,$8000 - - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $1FFF,$8000,$1FFF,$8000,$1FFF,$8000,$1FFF,$8000 - dc.w $1FFF,$8400,$1FFF,$8C00,$1FFF,$9FC0,$1FFF,$8C00 - dc.w $1FFF,$8400,$1FFF,$8000,$1FFF,$8000,$1FFF,$8000 - dc.w $1FFF,$8000,$1FFF,$8000,$1FFF,$8000,$1FFF,$8000 - dc.w $1FFF,$8000,$1FFF,$8000,$1FFF,$8000,$1FFF,$8000 - dc.w $1FFF,$8000,$1FFF,$8000,$1FFF,$8000,$1FFF,$8000 - dc.w $1FFF,$8000,$1FFF,$8000,$1FFF,$8000,$1FFF,$8000 - dc.w $0 ;old HD-20 driver drive ID string (null here) - - _AssumeEq (Quadra700Icon-IconTable),((Quadra700Icon-IconTable)>>1)<<1 - ENDIF - - - IF hasJaws | hasNiagra | hasPratt THEN -; PowerBook 140/170, Dartanian/Dartanian LC icon. - -TimIcon - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $0000,$0000,$0000,$0002,$0000,$0005,$0000,$0009 - dc.w $0000,$0012,$0000,$0024,$0000,$0048,$0000,$0090 - dc.w $0000,$0120,$0000,$0240,$0000,$0480,$0000,$0900 - dc.w $0000,$0E00,$0000,$1C00,$00DB,$7E00,$01FF,$C210 - dc.w $7F00,$4230,$803F,$427F,$8000,$4230,$FFFF,$FC10 - - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $0000,$0000,$0000,$0002,$0000,$0007,$0000,$000F - dc.w $0000,$001E,$0000,$003C,$0000,$0078,$0000,$00F0 - dc.w $0000,$01E0,$0000,$03C0,$0000,$0780,$0000,$0F00 - dc.w $0000,$0E00,$0000,$1C00,$00DB,$7E00,$01FF,$FE10 - dc.w $7FFF,$FE30,$FFFF,$FE7F,$FFFF,$FE30,$FFFF,$FC10 - dc.w $0 ;old HD-20 driver drive ID string (null here) - - _AssumeEq (TimIcon-IconTable),((TimIcon-IconTable)>>1)<<1 - ENDIF - - - IF hasMSC THEN -; DBLite icon. - -DBLiteIcon dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0002 - dc.w $0000,$0005,$0000,$0009,$0000,$0012,$0000,$0024 - dc.w $0000,$0048,$0000,$0090,$0000,$0120,$0000,$0240 - dc.w $0000,$0480,$0000,$0900,$0000,$1E00,$006D,$9C00 - dc.w $7FFF,$FE00,$8000,$0200,$8000,$0200,$7FFF,$FC00 - dc.w $0000,$0000,$0000,$0000,$003F,$FE20,$0020,$0260 - dc.w $0027,$F2FE,$0020,$0260,$003F,$FE20,$0000,$0000 - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0002 - dc.w $0000,$0007,$0000,$000F,$0000,$001E,$0000,$003C - dc.w $0000,$0078,$0000,$00F0,$0000,$01E0,$0000,$03C0 - dc.w $0000,$0780,$0000,$0F00,$0000,$1E00,$006D,$9C00 - dc.w $7FFF,$FE00,$FFFF,$FE00,$FFFF,$FE00,$7FFF,$FC00 - dc.w $0000,$0000,$0000,$0000,$003F,$FE20,$003F,$FE60 - dc.w $003F,$FEFE,$003F,$FE60,$003F,$FE20,$0000,$0000 - dc.w $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - dc.w $0 ;old HD-20 driver drive ID string (null here) - - _AssumeEq (DBLiteIcon-IconTable),((DBLiteIcon-IconTable)>>1)<<1 - ENDIF - - - IF hasDJMEMC | hasYMCA | hasHMC THEN -; Lego icon - -LegoIcon - DC.W $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - DC.W $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - DC.W $0000,$0080,$0000,$0080,$0000,$0080,$0000,$0080 - DC.W $0000,$03E0,$0000,$01C0,$0000,$0080,$0000,$0000 - DC.W $0000,$0000,$7FFF,$FFFE,$4000,$0002,$5800,$0FF2 - DC.W $5800,$0002,$4000,$0002,$7FFF,$FFFE,$4004,$0002 - DC.W $5554,$0002,$4004,$0002,$5554,$0002,$4004,$0002 - DC.W $7FFF,$FFFE,$4000,$0002,$4000,$0002,$7FFF,$FFFE - - DC.W $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - DC.W $0000,$0000,$0000,$0000,$0000,$0000,$0000,$01C0 - DC.W $0000,$01C0,$0000,$01C0,$0000,$01C0,$0000,$07F0 - DC.W $0000,$07F0,$0000,$03E0,$0000,$01C0,$0000,$0080 - DC.W $0000,$0000,$7FFF,$FFFE,$7FFF,$FFFE,$7FFF,$FFFE - DC.W $7FFF,$FFFE,$7FFF,$FFFE,$7FFF,$FFFE,$7FFF,$FFFE - DC.W $7FFF,$FFFE,$7FFF,$FFFE,$7FFF,$FFFE,$7FFF,$FFFE - DC.W $7FFF,$FFFE,$7FFF,$FFFE,$7FFF,$FFFE,$7FFF,$FFFE - DC.W $0 ;old HD-20 driver drive ID string (null here) - - _AssumeEq (LegoIcon-IconTable),((LegoIcon-IconTable)>>1)<<1 - - -; Fridgidaire Sony icon - -FrigidaireIcon - DC.W $0000,$0000,$0000,$0000,$000F,$FFC0,$0010,$0120 - DC.W $0010,$0120,$0010,$0120,$0010,$0120,$021F,$FF20 - DC.W $0310,$0120,$3F93,$F920,$0310,$0120,$021F,$FF20 - DC.W $0010,$0120,$0010,$0120,$0010,$0120,$0010,$0120 - DC.W $001F,$FF20,$0010,$0120,$0010,$0120,$0010,$0120 - DC.W $0010,$0120,$0010,$0120,$0010,$0120,$0030,$01B0 - DC.W $0030,$0130,$0030,$61B0,$0030,$6130,$0030,$01B0 - DC.W $0030,$0130,$003F,$FFF0,$003E,$01F0,$0000,$0000 - - DC.W $0000,$0000,$0000,$0000,$000F,$FFC0,$001F,$FFE0 - DC.W $001F,$FFE0,$001F,$FFE0,$061F,$FFE0,$071F,$FFE0 - DC.W $7F9F,$FFE0,$7FDF,$FFE0,$7F9F,$FFE0,$071F,$FFE0 - DC.W $061F,$FFE0,$001F,$FFE0,$001F,$FFE0,$001F,$FFE0 - DC.W $001F,$FFE0,$001F,$FFE0,$001F,$FFE0,$001F,$FFE0 - DC.W $001F,$FFE0,$001F,$FFE0,$001F,$FFE0,$003F,$FFF0 - DC.W $003F,$FFF0,$003F,$FFF0,$003F,$FFF0,$003F,$FFF0 - DC.W $003F,$FFF0,$003F,$FFF0,$003E,$01F0,$0000,$0000 - DC.W $0 ;old HD-20 driver drive ID string (null here) - - _AssumeEq (FrigidaireIcon-IconTable),((FrigidaireIcon-IconTable)>>1)<<1 - - -; QFC Sony icon - -QFCIcon - DC.W $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - DC.W $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - DC.W $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - DC.W $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0040 - DC.W $0000,$0040,$0000,$0040,$0000,$0040,$0000,$01F0 - DC.W $0000,$00E0,$0000,$0040,$0000,$0000,$0000,$0000 - DC.W $7FFF,$FFFE,$4020,$0802,$5820,$0BFA,$5820,$0802 - DC.W $4020,$0802,$4820,$081A,$7FFF,$FFE6,$3FFF,$FFFC - - DC.W $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - DC.W $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - DC.W $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - DC.W $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - DC.W $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - DC.W $0000,$0000,$0000,$0000,$0000,$0000,$0000,$0000 - DC.W $7FFF,$FFFE,$7FFF,$FFFE,$7FFF,$FFFE,$7FFF,$FFFE - DC.W $7FFF,$FFFE,$7FFF,$FFFE,$7FFF,$FFFE,$7FFF,$FFFE - DC.W $0 ;old HD-20 driver drive ID string (null here) - - _AssumeEq (QFCIcon-IconTable),((QFCIcon-IconTable)>>1)<<1 - ENDIF - - @@ -6343,31 +704,21 @@ QFCIcon dINPUT EQU 0 dOUTPUT EQU 1 - - IF hasVISADecoder | hasMDU THEN -VIA1InitMacIIsi -VIA1InitMacLC - dc.b \ ; vBufA initial value <9> - (6)|\ ; sound volume level initially 1 +VIA1InitNewWorld + dc.b \ ; vBufA initial value (0< - (%0<<4)|\ ; CB1 input neg active edge (ADB clock) - (%001<<5) ; CB2 ind input neg active edge (ADB data) - - dc.b \ ; vACR initial value - (%0<<0)|\ ; PA latch disable - (%0<<1)|\ ; PB latch disable - (%000<<2)|\ ; SR disabled - (%0<<5)|\ ; T2 timed interrupt - (%00<<6) ; T1 timed interrupt, PB7 disabled - -VIA1InitQuadra900 - dc.b \ ; vBufA initial value - (0< - (1< - (0< - (0< - (1< - (dINPUT< - (dOUTPUT< - (dOUTPUT< - (dOUTPUT< - (%0<<4)|\ ; CB1 input neg active edge (ADB clock) <47> - (%001<<5) ; CB2 ind input neg active edge (ADB data) - - dc.b \ ; vACR initial value - (%0<<0)|\ ; PA latch disable - (%0<<1)|\ ; PB latch disable - (%111<<2)|\ ; SR enabled for Egret <47> - (%0<<5)|\ ; T2 timed interrupt - (%00<<6) ; T1 timed interrupt, PB7 disabled - -VIA2InitQuadra700 ; - dc.b \ ; vBufA initial value - (0< - - dc.b \ ; vDIRA initial value - (dINPUT< - - dc.b \ ; vBufB initial value - (0< - (1< - (0< - (0< - (0< - (dINPUT< - (dOUTPUT< - (dOUTPUT< - (dINPUT< - (%0<<4)|\ ; CB1 input neg active edge (ASC interrupt) - (%001<<5) ; CB2 ind input neg active edge (SCSI DMA IRQ interrupt) - - dc.b \ ; vACR initial value - (%0<<0)|\ ; PA latch disable - (%0<<1)|\ ; PB latch disable - (%000<<2)|\ ; SR disabled - (%0<<5)|\ ; T2 timed interrupt - (%11<<6) ; T1 continuous interrupt, square wave output - -VIA2InitQuadra900 ; <13> - dc.b \ ; vBufA initial value - (0< - (0< - - dc.b \ ; vDIRA initial value - (dINPUT< - (dINPUT< - - dc.b \ ; vBufB initial value - (1< - (1< - (dINPUT< - (dINPUT< - (dINPUT< - (dOUTPUT< - (%0<<4)|\ ; CB1 input neg active edge (ASC interrupt) - (%001<<5) ; CB2 ind input neg active edge (SCSI DMA IRQ interrupt) - - dc.b \ ; vACR initial value - (%0<<0)|\ ; PA latch disable - (%0<<1)|\ ; PB latch disable - (%000<<2)|\ ; SR disabled - (%0<<5)|\ ; T2 timed interrupt - (%11<<6) ; T1 continuous interrupt, square wave output - ENDIF ; {hasOrwell} - - IF hasJaws | hasNiagra THEN -VIA1InitNiagra -VIA1InitJaws ; <8> HJR - dc.b \ ; vBufA initial value <25> - (1)|\ ; 0 via test - (0< - (%0<<4)|\ ; CB1 input neg active edge (PwrMgr interrupt) - (%001<<5) ; CB2 ind input neg active edge (modem snd enable) - - dc.b \ ; vACR initial value - (%0<<0)|\ ; PA latch disable - (%0<<1)|\ ; PB latch disable - (%000<<2)|\ ; SR disabled - (%0<<5)|\ ; T2 timed interrupt - (%00<<6) ; T1 timed interrupt, PB7 disabled - -VIA2InitNiagra -VIA2InitJaws ; <8> HJR - dc.b $00 ; vBufA initial value (all zeros) - dc.b $00 ; vDIRA initial value (all inputs) - - dc.b \ ; vBufB initial value - (0< - (1< - (0< - (1< - (1< - (1<< v2ModemRST ) ; 7 modem reset <25> - - dc.b \ ; vDIRB initial value - (dOUTPUT< - (dINPUT< - (dOUTPUT< - (dOUTPUT<< v2HMMU )|\ ; 5 HMMU <25> - (dINPUT< - (dOUTPUT< - - dc.b \ ; vPCR initial value - (%0<<0)|\ ; CA1 input neg active edge (Any Slot interrupt) - (%001<<1)|\ ; CA2 ind input neg active edge (SCSI DRQ interrupt) - (%0<<4)|\ ; CB1 input neg active edge (ASC interrupt) - (%001<<5) ; CB2 ind input neg active edge (SCSI IRQ interrupt) - - dc.b \ ; vACR initial value - (%0<<0)|\ ; PA latch disable - (%0<<1)|\ ; PB latch disable - (%000<<2)|\ ; SR disabled - (%0<<5)|\ ; T2 timed interrupt - (%00<<6) ; T1 timed interrupt, PB7 disabled - ENDIF ; {hasJaws | hasNiagra} - - IF hasMSC THEN -VIA1InitMSC ; via1 initialization - dc.b 0 ; vBufA initial value (all bits are inputs) - - dc.b 0 ; vDIRA initial value (all bits are inputs) - - dc.b 0 ; vBufB initial value (all bits are inputs) - - dc.b 0 ; vDIRB initial value (all bits are inputs) - - dc.b \ ; vPCR initial value - (%0<<0)|\ ; CA1 input neg active edge (60Hz interrupt) - (%001<<1)|\ ; CA2 (PG&E interrupt) - (%0<<4)|\ ; CB1 (no connection) - (%000<<5) ; CB2 (no connection) - - dc.b \ ; vACR initial value - (%0<<0)|\ ; PA latch disable - (%0<<1)|\ ; PB latch disable - (%111<<2)|\ ; SR shifts out with CB1 (external clock) -> PMGR - (%0<<5)|\ ; T2 timed interrupt - (%00<<6) ; T1 timed interrupt, PB7 disabled - ENDIF ; {hasMSC} - - IF hasPratt THEN -VIA1InitPratt - dc.b \ ; vBufA initial value - (0< PMGR - (%0<<5)|\ ; T2 timed interrupt - (%00<<6) ; T1 timed interrupt, PB7 disabled - -VIA2InitPratt - dc.b \ ; vBufA initial value - (0< - (0< - (dOUTPUT< - - dc.b \ ; vDIRB initial value - (dINPUT< - (0< - (dINPUT< - (%0<<4)|\ ; CB1 input neg active edge (ADB clock) - (%001<<5) ; CB2 ind input neg active edge (ADB data) - -; This is here because the Proto1&2 VIA cell in BIOS does not correctly -; deal with writes to Port{A,B} before the direction bits for the that -; port are set correctly (output enables, that is). -; IF forWombat THEN -; dc.b \ ; vACR initial value -; (%0<<0)|\ ; PA latch disable -; (%0<<1)|\ ; PB latch disable -; (%111<<2)|\ ; SR disabled -; (%0<<5)|\ ; T2 timed interrupt -; (%00<<6) ; T1 timed interrupt, PB7 disabled -; ELSE - dc.b \ ; vACR initial value - (%0<<0)|\ ; PA latch disable - (%0<<1)|\ ; PB latch disable - (%000<<2)|\ ; SR disabled - (%0<<5)|\ ; T2 timed interrupt - (%00<<6) ; T1 timed interrupt, PB7 disabled -; ENDIF - -VIA2InitWombat - dc.b \ ; vBufA initial value - (0< - ENDIF ; {hasDJMEMC} - - - IF hasYMCA THEN ; - -; Initialize the VIA1 Direction Register before the Data Register - -VIA1InitCyclone - -; PSC VIA1 vDirA/vBufA Notes: -; -; Because ReqA and ReqB are really used for DMA, they are not wire-ORed to the vSCCWrReq bit -; as on most Macintoshes. This bit instead reads the logical OR of ReqA and ReqB, either of -; which can be masked. This allows WReqA to be used in the traditional sense even while WReqB -; is indicating DMA activity. -; -; NOTE: PSC revisions earlier than 343S1100-a do not support masking! -; For these revisions, vSCCWrReq should be reprogrammed as an ouput and latched with -; a "1" so that polling does not occur on port A due to DMA activity on port B. - - dc.b \ ; vDIRA initial value - (dOUTPUT< - (dOUTPUT< - (dINPUT< - - dc.b \ ; vBufA initial value - (0< - (1< - - dc.b \ ; vDIRB initial value - (dOUTPUT< - (0< - (1< - (0< - dc.b \ ; vBufA initial value - (0< - - - IF hasHMC THEN ; -VIA1InitPDM ; - dc.b \ ; vBufA initial value - (0< - (1< - (1< - - dc.b \ ; vDIRB initial value - (dINPUT< - - IF hasGrandCentral THEN ; -VIA1InitTNT ; - dc.b \ ; vBufA initial value - (0< - (1< - - dc.b \ ; vDIRA initial value - (dOUTPUT< - (dOUTPUT< - (dINPUT< - (1< - - dc.b \ ; vDIRB initial value - (dINPUT< - - - IF hasMDU THEN ; - - IMPORT SndCntlMacIIsi ; - ALIGN 4 -InfoMacIIsi - dc.l MDUTable-InfoMacIIsi ; offset to decoder info - dc.l RAMInfo2Bank1Meg-InfoMacIIsi ; offset to ram bank info - dc.l VideoInfoMacIIsi-InfoMacIIsi ; offset to video info - dc.l NuBusInfoMacIIsi-InfoMacIIsi ; offset to NuBus info - dc.w 0|\ ; hwCfgFlags - (1< - dc.b MDUDecoder ; decoder kind - dc.w $3FFF ; ROM85, New ROMs, Power Off ability. - dc.b 4 ; default ROM Resource configuration - dc.b ProductInfoVersion ; ProductInfo version - BitVector32 \ ; Flags for valid base addresses 0-31 - ROMExists,\ ; ROMAddr is valid - DiagROMExists,\ ; DiagROMAddr is valid - VIA1Exists,\ ; VIA1Addr is valid - SCCRdExists,\ ; SCCRdAddr is valid - SCCWrExists,\ ; SCCWrAddr is valid - IWMExists,\ ; IWMAddr is valid - SCSIExists,\ ; SCSIAddr is valid - SCSIDackExists,\ ; SCSIDackAddr is valid - SCSIHskExists,\ ; SCSIHskAddr is valid - ASCExists,\ ; ASCAddr is valid - RBVExists,\ ; RBVAddr is valid - VDACExists ; VDACAddr is valid - BitVector32 ; Flags for valid base addresses 32-63 - BitVector32 ; Flags for valid base addresses 64-95 - dc.l \ ; Flags for valid ext feature flags 0-31 - (ClockEgret)|\ ; Has Egret clock/pram - (ADBEgret)|\ ; Egret ADB - (Egret8)|\ ; Egret Eight firmware - (SoundHasSoundIn)|\ ; Has 8-bit mono sound input <23> - (SoundStereoOut)|\ ; has stereo output - (SoundPlayAndRecord)|\ ; can Play and Record simultaneously - (SoundStereoMixing) ; has stereo mixing - dc.l 0 ; Flags for valid ext feature flags 32-63 - dc.l 0 ; Flags for valid ext feature flags 64-95 - dc.b $56,$00,$00,$00 ; Check VIA1 PA6, PA4, PA2, PA1 - dc.b $16,$00,$00,$00 ; VIA1 PA6 = 0, PA4 = 1, PA2 = 1, PA1 = 1 - dc.l VIA1InitMacIIsi-InfoMacIIsi ; VIA1 init info - dc.l 0 ; no VIA2 init info - dc.l SndCntlMacIIsi-InfoMacIIsi ; sound control vector table PN - dc.l EgretClockPRAM-InfoMacIIsi ; clock/PRAM vector table

- dc.l EgretADBTable-InfoMacIIsi ; ADB/DebugUtil vector table - dc.l 0 ; no Power Manager primitives - dc.l RBVEgretIntTbl-InfoMacIIsi ; interrupt handlers table PN - dc.w 0 ; no CPU ID register - dc.w 0 ; spare - dc.l IconInfoMacIIsi-InfoMacIIsi ; offset to ICON info - - - - ALIGN 4 - IMPORT CheckForMDU - - BitVector32 \ ; Default valid addresses 0-31 - ROMExists,\ ; ROMAddr is valid - DiagROMExists,\ ; DiagROMAddr is valid - VIA1Exists,\ ; VIA1Addr is valid - SCCRdExists,\ ; SCCRdAddr is valid - SCCWrExists,\ ; SCCWrAddr is valid - IWMExists,\ ; IWMAddr is valid - SCSIExists,\ ; SCSIAddr is valid - SCSIDackExists,\ ; SCSIDackAddr is valid - SCSIHskExists,\ ; SCSIHskAddr is valid - VIA2Exists,\ ; VIA2Addr is valid - ASCExists,\ ; ASCAddr is valid - RBVExists,\ ; RBVAddr is valid - VDACExists ; VDACAddr is valid - BitVector32 ; Default valid addresses 32-63 - BitVector32 ; Default valid addresses 64-95 - dc.l \ ; Default ext features 0-31 - (ClockRTC)|\ ; Has RTC clock/pram - (ADBXcvr) ; transceiver ADB - dc.l 0 ; Default ext features 32-63 - dc.l 0 ; Default ext features 64-95 - dc.b $00,$00,$00,$00 ; no special VIA bits to avoid changing - dc.l CheckForMDU-MDUtable ; routine to identify this map - dc.b MDUDecoder - dc.b DecoderInfoVersion ; DecoderInfo version - dcb.b 2,0 - dc.l $FFFFFFFF ; No Base Address for this decoder -MDUtable - dc.l $40800000 ; ROM - valid - dc.l $58000000 ; DiagROM - valid - dc.l $50F00000 ; VIA1 - valid - dc.l $50F04000 ; SCC read - optional - dc.l $50F04000 ; SCC write - optional - dc.l $50F16000 ; IWM - optional - dc.l $00000000 ; PWM - unused - dc.l $00000000 ; Sound - unused - dc.l $50F10000 ; SCSI - optional - dc.l $50F12000 ; SCSIDack - optional - dc.l $50F06000 ; SCSIHsk - optional - dc.l $50F02000 ; VIA2 - optional - dc.l $50F14000 ; ASC - valid - dc.l $50F26000 ; RBV - optional - dc.l $50F24000 ; VDAC - optional - dc.l $50F18000 ; SCSIDMA - optional - dc.l $50F1E020 ; SWIMIOP - optional - dc.l $50F0C020 ; SCCIOP - optional - dc.l $00000000 ; OSS - unused - dc.l $00000000 ; FMC - unused - dc.l $00000000 ; RPU - unused - dc.l $00000000 ; unused 21 - dc.l $00000000 ; JAWS - unused <25> - dc.l $00000000 ; Sonic - unused <45> - dc.l $00000000 ; 1st (internal) SCSI96 - unused - dc.l $00000000 ; 2nd (external) SCSI96 - unused - dc.l $00000000 ; DAFB - unused - dc.l $00000000 ; unused 27 - dc.l $00000000 ; ROMPhysAddr - unused - dc.l $00000000 ; unused 29 - dc.l $00000000 ; unused 30 - dc.l $00000000 ; unused 31 - - -VideoInfoMDU - dc.l 0 ; Physical base address of screen - dc.l $FBB08000 ; Logical 32 bit base address of screen - dc.l $FBB08000 ; Logical 24 bit base address of screen - dc.b $0B ; Slot number to use for PRAM storage - dc.b SmPRAMTop+(($0B-$09)*sizeSPRAMRec) ; PRAM address for RBV slot zero - dc.b sRsrcBFBasedDir ; Use the BoxFlag-based sRsrc directory directory. - dc.b 0 ; Use boxFlag to identify board sRsrc. - -VideoInfoMacIIsi ; <33> - dc.l 0 ; Physical base address of screen <33> - dc.l $FEE08000 ; Logical 32 bit base address of screen <33> - dc.l $FEE08000 ; Logical 24 bit base address of screen <40> - dc.b $0E ; Slot number to use for PRAM storage <33> - dc.b SmPRAMTop+(($0E-$09)*\ ; PRAM address for RBV slot zero <33> - sizeSPRAMRec) - dc.b sRsrcBFBasedDir ; Use the BoxFlag-based sRsrc directory directory. - dc.b 0 ; Use boxFlag to identify board sRsrc. - -NuBusInfoMacIIsi ; slot info for Macintosh IIsi <24> - dc.b 0|(1< - - - - IF 0 THEN ; -;•••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••• -;• • -;• This is the old CPU graveyard. All of the universal tables for the old CPUs will be put here until • -;• it's decided that they'll never be used again, at which point, they can be removed entirely. • -;• • -;•••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••• - -ProductLookup - IF hasMDU THEN - dc.l InfoMacIIci-* ; Macintosh IIci - dc.l InfoMacIIciPGC-* ; Macintosh IIci, PGC installed - ENDIF - IF hasOSS THEN - dc.l InfoMacIIfx-* ; Macintosh IIfx - ENDIF - IF hasMDU THEN - dc.l InfoMDUUnknown-* ; unknown MDU based machine - ENDIF - IF hasOss THEN - dc.l InfoOSSUnknown-* ; unknown OSS based machine - ENDIF - DC.L 0 - - -DecoderLookup - IF hasOSS THEN - dc.l OSSFMCtable-* ; check for OSS/FMC decoder - ENDIF - DC.L 0 - - - IF hasMDU THEN - - ALIGN 4 -InfoMacIIci dc.l MDUTable-InfoMacIIci ; offset to decoder info - dc.l RAMInfo2Bank1Meg-InfoMacIIci ; offset to ram bank info - dc.l VideoInfoMDU-InfoMacIIci ; offset to video info - dc.l NuBusInfoMacIIci-InfoMacIIci ; offset to NuBus info - dc.w 0|\ ; hwCfgFlags - (1< - dc.l ViaADBTable-InfoMacIIci ; ADB/DebugUtil vector table - dc.l 0 ; no Power Manager primitives - dc.w 0 ; no CPU ID register - dc.w 0 ; allow room for expansion - dc.l IconInfo3Slot-InfoMacIIci ; offset to ICON info - - - ALIGN 4 -InfoMacIIciPGC - dc.l MDUTable-InfoMacIIciPGC ; offset to decoder info - dc.l RAMInfo2Bank1Meg-InfoMacIIciPGC ; offset to ram bank info - dc.l VideoInfoMDU-InfoMacIIciPGC ; offset to video info - dc.l NuBusInfoMacIIci-InfoMacIIciPGC ; offset to NuBus info - dc.w 0|\ ; hwCfgFlags - (1< - dc.l ViaADBTable-InfoMacIIciPGC ; ADB/DebugUtil vector table - dc.l 0 ; no Power Manager primitives - dc.w 0 ; no CPU ID register - dc.w 0 ; spare - dc.l IconInfo3Slot-InfoMacIIciPGC ; offset to ICON info - - - ALIGN 4 -InfoMDUUnknown - dc.l MDUTable-InfoMDUUnknown ; offset to decoder info - dc.l RAMInfo2Bank1Meg-InfoMDUUnknown ; offset to ram bank info - dc.l VideoInfoMDU-InfoMDUUnknown ; offset to video info - dc.l NuBusInfoSixSlotNoVid-InfoMDUUnknown; offset to NuBus info - dc.w 0|\ ; hwCfgFlags - (1< - dc.l ViaADBTable-InfoMDUUnknown ; ADB/DebugUtil vector table - dc.l 0 ; no Power Manager primitives - dc.w 0 ; no CPU ID register - dc.w 0 ; spare - dc.l IconInfo3Slot-InfoMDUUnknown ; offset to ICON info - - - -NuBusInfoMacIIci - dc.b 0|(1< - dc.l IOPADBTable-InfoMacIIfx ; ADB/DebugUtil vector table - dc.l 0 ; no Power Manager primitives - dc.w 0 ; no CPU ID register - dc.w 0 ; allow room for expansion - dc.l IconInfo6Slot-InfoMacIIfx ; offset to ICON info - - - ALIGN 4 -InfoOSSUnknown - dc.l OSSFMCTable-InfoOSSUnknown ; offset to decoder info - dc.l RAMInfo2Bank1Meg-InfoOSSUnknown ; offset to ram bank info - dc.l 0 ; no built in video - dc.l NuBusInfoSixSlotNoVid-InfoOSSUnknown; offset to NuBus info - dc.w 0|\ ; hwCfgFlags - (1< - dc.l IOPADBTable-InfoOSSUnknown ; ADB/DebugUtil vector table - dc.l 0 ; no Power Manager primitives - dc.w 0 ; no CPU ID register - dc.w 0 ; spare - dc.l IconInfo6Slot-InfoOSSUnknown ; offset to ICON info - - - ALIGN 4 - IMPORT CheckForOSSFMC - - BitVector32 \ ; Default valid addresses 0-31 - ROMExists,\ ; ROMAddr is valid - DiagROMExists,\ ; DiagROMAddr is valid - VIA1Exists,\ ; VIA1Addr is valid - ASCExists,\ ; ASCAddr is valid - SCSIDMAExists,\ ; SCSIDMAAddr is valid - SWIMIOPExists,\ ; SWIMIOPAddr is valid - SCCIOPExists,\ ; SCCIOPAddr is valid - OSSExists,\ ; OSSAddr is valid - FMCExists,\ ; FMCAddr is valid - RPUExists ; RPUAddr is valid - BitVector32 ; Default valid addresses 32-63 - BitVector32 ; Default valid addresses 64-95 - dc.l \ ; Default ext features 0-31 - (ClockRTC)|\ ; Has RTC clock/pram - (ADBIop) ; Has IOP ADB - dc.l 0 ; Default ext features 32-63 - dc.l 0 ; Default ext features 64-95 - dc.b $00,$00,$00,$00 ; no special VIA bits to avoid changing - dc.l CheckForOSSFMC-OSSFMCtable ; routine to identify this map - dc.b OSSFMCDecoder - dc.b DecoderInfoVersion ; DecoderInfo version - dcb.b 2,0 - dc.l $50F1C000 ; FMC Base Address -OSSFMCtable dc.l $40800000 ; ROM - valid - dc.l $58000000 ; DiagROM - valid - dc.l $50F00000 ; VIA1 - valid - dc.l $00000000 ; SCC read - unused - dc.l $00000000 ; SCC write - unused - dc.l $00000000 ; IWM - unused - dc.l $00000000 ; PWM - unused - dc.l $00000000 ; Sound - unused - dc.l $00000000 ; SCSI - unused - dc.l $00000000 ; SCSIDack - unused - dc.l $00000000 ; SCSIHsk - unused - dc.l $00000000 ; VIA2 - unused - dc.l $50F10000 ; ASC - valid - dc.l $00000000 ; RBV - unused - dc.l $00000000 ; VDAC - unused - dc.l $50F08000 ; SCSIDMA - valid - dc.l $50F12020 ; SWIMIOP - valid - dc.l $50F04020 ; SCCIOP - valid - dc.l $50F1A000 ; OSS - valid - dc.l $50F1C000 ; FMC - valid - dc.l $50F1E000 ; RPU - (optional) - dc.l $00000000 ; unused 21 - dc.l $00000000 ; JAWS - unused <25> - dc.l $00000000 ; Sonic - unused <45> - dc.l $00000000 ; 1st (internal) SCSI96 - unused - dc.l $00000000 ; 2nd (external) SCSI96 - unused - dc.l $00000000 ; DAFB - unused - dc.l $00000000 ; unused 27 - dc.l $00000000 ; ROMPhysAddr - unused - dc.l $00000000 ; unused 29 - dc.l $00000000 ; unused 30 - dc.l $00000000 ; unused 31 - - -VIA1InitOSS - dc.b \ ; vBufA initial value - (1)|\ ; sound volume level initially 1 - (0< - - - - ENDWITH ; {DecoderKinds,DecoderInfo,ProductInfo,NuBusInfo} + dc.b $00 + dc.b $58 + dc.b $00 + dc.b $00 + dc.b $00 + dc.b $00 + dc.b $00 + dc.b $00 EndProc diff --git a/OS/VerticalRetraceMgr.a b/OS/VerticalRetraceMgr.a --- a/OS/VerticalRetraceMgr.a +++ b/OS/VerticalRetraceMgr.a @@ -115,7 +115,18 @@ VBLCore proc export ; Registers Used: D0,D1,D2,A0,A1 <30Apr85> ;_______________________________________________________________________ -VInstall lea VBLQueue,a1 ; get address of queue <1.4> +VInstall + + lea VBLQueue+2,a1 +@loop move.l (a1),d1 + beq.s @dontflunk + move.l d1,a1 + cmp.l a0,a1 + bne.s @loop + moveq.l #0,d0 + rts + +@dontflunk lea VBLQueue,a1 ; get address of queue <1.4> VInstallCommon ; common code shared with SlotVInstall cmpi.w #vType,VBLType(a0) ; is it the proper type? @@ -197,7 +208,6 @@ PseudoVBLInt jsr (a1) ; restart time manager task bra.s BumpTicks VBLInt - eieioSTP move.b #1< include 'universalEqu.a' include 'PowerPrivEqu.a' + include 'Processes.a' + include 'TextServices.a' PwrCycCount EQU $AA ; <1> @@ -243,19 +245,46 @@ SynchIdleTimeProc PatchProc _SynchIdleTime _PPC ; PPC trap WITH PMgrRec,PowerDispRec ; - BRA.S @Done ; branch always because we are SM ROM - Testfor hwCbPwrMgr ; do we have a power manager? + BTST.B #0,$DD5 BEQ.S @Done ; no power cycling - MOVE.L PMgrBase,A0 ; Get the Power Manager Globals - MOVE.W PwrCycSyncCount(A0),D0 ; Get the number of syncIdle before IdleMind - ADDI.W #1,PMgrScratch.SyncCounter(A0) ; Increment scratch counter - CMP.W PMgrScratch.SyncCounter(A0),D0 ; Have we done enough SyncIdles - BLT.S @Done - CLR.W PMgrScratch.SyncCounter(A0) ; reset counter MOVEQ #IdleMindDisp,D0 ; Set the selector to IdleMind _PowerDispatch @Done - rts + + BTst.B #$1, ($2409) + BEQ.B @skipDriverCall + IMPORT PMIdleRelatedDriverCall + MACHINE MC68030 + Bsr.L PMIdleRelatedDriverCall +@skipDriverCall + + MoveA.L ([$2B6],$288), A0 + Move.L A0, D0 + BEQ.B @return + MoveM.L D1-D3/A1-A2, -(A7) + Move $6(A0), D1 + MoveQ.L #$0, D2 + +@loop MoveA.L $14(A0,D2.L), A1 + Move.L A1, D0 + BEQ.B @continue + Move $C8(A1), D0 + Clr D3 + Cmp D3, D0 + BEQ.B @continue + MoveA.L $C4(A1), A2 + Move.L A2, D0 + BEQ.B @continue + Jsr (A2) + Bra.B @exit +@continue AddQ #$4, D2 + SubQ #$1, D1 + BNE.B @loop + +@exit MoveM.L (A7)+, D1-D3/A1-A2 + +@return Rts + ENDPROC ; SynchIdleTimeProc @@ -314,30 +343,48 @@ CleanupApp PatchProc _CleanupApplication MOVE.L applZone,A0 ; point to zone hdr MOVE.L A0,-(SP) ; push start ptr MOVE.L (A0),-(SP) ; push zone trailer - _sbKillSomeCaches + MOVE.W #sbKillSomeCaches,D0 + _SplineMgr ; like _sbKillSomeCaches but with non-quick move ADDQ #4,SP ; ignore result - IF hasCommToolbox THEN - ; - ; Clean up CommToolbox if necessary - ; - import CleanUpCommToolbox - JSR CleanupCommToolbox - ENDIF - - IF hasEditionMgr THEN ; <36> - ; - ; Check if app was doing Edition Manager stuff that needs cleaning up - ; - MOVE.L ExpandMem, A0 ; get expanded memory area - MOVE.L ExpandMemRec.emDataPub(A0), D0 ; get dp globals - BEQ.S @noEditionMgr ; if not allocated, no need to do cleanup - SUBQ #2,SP ; place holder for result - _QuitEditionPack ; call pack11 clean up - TST.W (SP)+ ; ignore result -@noEditionMgr - ENDIF - + + MoveA.L ExpandMem, A0 + MoveA.L $64(A0), A0 + + Tst.L $70(A0) + BEQ.B @skipAll + + SubQ #$8, SP + Clr -(SP) + Pea.L $2(SP) + + _GetCurrentProcess + + Tst (SP)+ + BNE.B @dont + + Clr -(SP) + Pea.L $2(SP) + Clr -(SP) + + _InlineAware + + Tst.B (SP)+ + BEQ.B @dont + + Clr -(SP) + Move #$2, -(SP) + Pea.L $4(SP) + + Move #$16, D0 + _TSMDispatch + AddQ #$2, SP +@dont + + AddQ #$8, SP +@skipAll + + ; ; Clean up Compoents and Component insetances belong to this app. ; @@ -346,10 +393,8 @@ CleanupApp PatchProc _CleanupApplication ; ; Clean up the Palette Manager if there is one. ; - CMP.W #$3FFF,ROM85 ; do we have color QD? - BHI.S @noPMgrExit - _PMgrExit -@noPmgrExit + MOVE.W #selectPMgrExit,D0 ; _PMgrExit + _PaletteDispatch ; ; Clean up Sound Manager @@ -409,107 +454,5 @@ CleanupApp PatchProc _CleanupApplication ENDPROC ; CleanupApp -;___________________________________________________________________________________ -; -; FUNCTION get70MgrAttr(selector : OSType; VAR response : LONGINT) : OSErr; -; -; Generic Gestalt function for testing for existence of System 7.0 -; features. Since this patch is for 7.0 only, it always returns 1 in the -; response. If your particular feature requires more bits set in the -; response, don't use this routine. Currently, this is the function -; for the gestaltDBAccessMgrAttr and gestaltEditionMgrAttr selectors. -; -; Registers A0 and A1 are destroyed. -; -;___________________________________________________________________________________ - -get70MgrAttr PROC - - MOVE.L (SP)+,A0 ; return address - MOVE.L (SP)+,A1 ; address of result - - MOVE.L #1,(A1) ; 7.0 features always under 7.0! - - ADDA.W #4,SP ; pop the selector type - MOVE.W #noErr,(SP) ; it always works - JMP (A0) - - ENDPROC ; get70MgrAttr - - - -;___________________________________________________________________________________ -; -; Additional patch code goes here -; -;___________________________________________________________________________________ - -;___________________________________________________________________________________ -; -; dimg entry - Dictionary Manager -; -;___________________________________________________________________________________ - -DictionaryDispatch PatchProc _DictionaryDispatch - -DictionaryHandle EQU ExpandMemRec.emDictionaryMgrPackHandle -DictionaryUseCount EQU ExpandMemRec.emDictionaryMgrUseCount - - MOVE.L ExpandMem,A1 ; get expand mem into A1 - MOVE.L DictionaryHandle(A1),A0 ; move the handle to the code into A0 - ADD.W #DictionaryUseCount,A1 ; A1 = pointer to use count - _ProcHelper ; let ProcHelper take over - - ENDPROC ; DictionaryDispatch - -;___________________________________________________________________________________ -; -; Install Gestalt functions for gestaltDBAccessMgrAttr, gestaltEditionMgr, -; gestaltStandardFileAttr, and gestaltAppleEventsAttr -; -; !!!! all just return 1 for system 7.0 !!!!! -; -;___________________________________________________________________________________ - -MiscPatchesInstall InstallProc - - IMPORT get70MgrAttr - - IF hasDataAccessMgr THEN ; <37> - MOVE.L #gestaltDBAccessMgrAttr, D0 ; Data Access Manager - lea get70MgrAttr, A0 - _NewGestalt - ENDIF - - - IF hasEditionMgr THEN ; <37> - MOVE.L #gestaltEditionMgrAttr, D0 ; Edition Manager - lea get70MgrAttr, A0 - _NewGestalt - ENDIF - - MOVE.L #gestaltStandardFileAttr, D0 ; Standard File - leaResident get70MgrAttr, A0 - _NewGestalt - - IF hasAppleEventMgr THEN ; <37> - MOVE.L #gestaltAppleEventsAttr, D0 ; AppleEvent Manager - lea get70MgrAttr, A0 - _NewGestalt - ENDIF - -;___________________________________________________________________________________ -; Gestalt function for the dictionary manager. -; just returns 1 for CubeE -;____________________________________________________________________________________ - MOVE.L #gestaltDictionaryMgrAttr, D0 ; Dictionary Manager - lea get70MgrAttr, A0 - _NewGestalt - - - RTS - - ENDPROC - END ; of file \ No newline at end of file diff --git a/QuickDraw/BitMaps.a b/QuickDraw/BitMaps.a --- a/QuickDraw/BitMaps.a +++ b/QuickDraw/BitMaps.a @@ -1071,12 +1071,42 @@ NXTDST MOVE.L (A4)+,D1 ;GET NEXT DST DEVICE MOVE.L srcDevice,A1 ;handle to source gDevice move.l (a1),a1 ;pointer to source gDevice move.l gdRect(a1),d0 ;get rect top.left - move.l theGDevice,a1 ;handle to destination gDevice - move.l (a1),a1 ;pointer to destination gDevice - cmp.l gdRect(a1),d0 ;dest and src gDevice have same top-left? - beq.s nxtdst ;devices overlap, skip drawing - - + move.l theGDevice,a0 ;handle to destination gDevice + move.l (a0),a0 ;pointer to destination gDevice + + CMP $24(A0), D0 + BGT.S @L5 + BLT.S @L2 + SWAP D0 + CMP gdRect+0(A0), D0 + BGT.S @L6 + BLT.S @L3 + MOVE.L gdRect+4(A1), D0 + CMP gdRect+6(A0), D0 + BLT.S @L7 + BGT.S @L4 + BRA.S nxtdst +@L2 SWAP D0 + CMP gdRect+0(A0), D0 + BGT.S @cont +@L3 MOVE.L gdRect+4(A1), D0 + CMP gdRect+6(A0), D0 + BLT.S @cont +@L4 SWAP D0 + CMP gdRect+4(A0), D0 + BLT.S @cont + BRA.S nxtdst +@L5 SWAP D0 + CMP gdRect+0(A0), D0 + BLT.S @cont +@L6 MOVE.L gdRect+4(A1), D0 + CMP gdRect+6(A0), D0 + BGT.S @cont +@L7 SWAP D0 + CMP gdRect+4(A0), D0 + BGT.S @cont + BRA.S nxtdst + @cont ; ; End of @@ -1711,11 +1741,91 @@ DSTRECT EQU MASKRECT-4 ;long, addr of Rect MODE EQU DSTRECT-2 ;WORD MASKRGN EQU MODE-4 ;LONG, RGNHANDLE -VARSIZE EQU 0 +VARSIZE EQU -4 share LINK A6,#VARSIZE ;ALLOCATE STACK FRAME MOVEM.L D3-D7/A2-A4,-(SP) ;SAVE WORK REGISTERS FOR DEVLOOP - + + CLR.L -4(A6) + MOVE.L MASKBITS(A6), D0 + BEQ @skip + MOVEA.L D0, A0 + CMPI #$1, $20(A0) + BNE @skip + MOVEA.L $16(A6), A0 + MOVEA.L $E(A6), A1 + MOVE $4(A0), D0 + SUB (A0), D0 + SUB $4(A1), D0 + ADD (A1), D0 + BGT.B @L0 + MOVE $6(A0), D0 + SUB $2(A0), D0 + SUB $6(A1), D0 + ADD $2(A0), D0 + BLE @skip +@L0 SUBQ #$4, SP + DC.W $AA18 ;_GetCTable + MOVE.L (SP)+, D3 + BEQ @skip + SUBQ #$2, SP + PEA.L -4(A6) + MOVE #$2, -(SP) + PEA.L MASKRECT(A6) + MOVE.L D3, -(SP) + CLR.L -(SP) + PEA 4 + MOVE.L #$160000,D0 ;_QDExtensions -> _NewGWorld + DC.W $AB1D + MOVE (SP)+, D4 + BNE.B @L1 + TST.L -4(A6) + BNE.B @L2 +@L1 SUBQ #$2, SP + PEA.L -4(A6) + MOVE #$2, -(SP) + PEA.L MASKRECT(A6) + MOVE.L D3, -(SP) + CLR.L -(SP) + CLR.L -(SP) + MOVE.L #$160000,D0 ;_QDExtensions -> _NewGWorld + DC.W $AB1D + MOVE (SP)+, D4 +@L2 MOVE.L D3, -(SP) + DC.W $AA24 ;_DisposCTable + TST D4 + BNE.B @skip + MOVE.L -4(A6), D0 + BEQ.B @skip + MOVEA.L D0, A3 + SUBQ #$8, SP + PEA.L $4(SP) + PEA.L $4(SP) + MOVE.L #$80005,D0 ;_QDExtensions -> _GetGWorld + DC.W $AB1D + MOVE.L -4(A6), -(SP) + CLR.L -(SP) + MOVE.L #$80006,D0 ;_QDExtensions -> _SetGWorld + DC.W $AB1D + MOVE.L MASKBITS(A6), -(SP) + PEA.L $2(A3) + MOVE.L MASKRECT(A6), -(SP) + PEA.L $10(A3) + CLR -(SP) + CLR.L -(SP) + DC.W $A8EC ;_CopyBits + SUBQ #$2, SP + MOVE.L $2(A3), -(SP) + MOVE.L #$40001,D0 ;_QDExtensions -> _LockPixels + DC.W $AB1D + ADDQ #$2, SP + MOVEA.L $2(A3), A0 + _HLock + MOVE.L (A0), MASKBITS(A6) + MOVE.L #$80005,D0 ;_QDExtensions -> _GetGWorld + DC.W $AB1D +@skip + ; SET UP REGISTERS FOR CALLING CMDEVLOOP MOVE.L DSTBITS(A6),A1 ;GET DST BIT/PIXMAP @@ -1763,7 +1873,15 @@ SRCOK MOVE.L DSTBITS(A6),A0 ;POINT TO DSTBITS NOTPORT MOVE.L DSTBITS(A6),A1 ;Pass DSTBITS (not derefed) JSR CMDevLoop ;AND DRAW THE IMAGE - + + MOVE.L -4(A6),D0 + BEQ.S @skipQDCall + + MOVE.L D0,-(SP) + MOVE.L #$40004,D0 ;_QDExtensions -> _DisposeGWorld + DC.W $AB1D +@skipQDCall + MOVEM.L (SP)+,D3-D7/A2-A4 ;RESTORE WORK REGISTERS UNLINK PARAMSIZE,'KopyMask' @@ -2296,9 +2414,9 @@ cutOutDevices move.l pmTable(a0),a0 ;get handle to source color table move.l (a0),a0 ;deref it cmp.l ctSeed(a0),d1 ;do the color tables seeds match ? - beq.s @next + beq @next - movem.l d1/a1,-(sp) ;save our scratch registers + movem.l d1/a1-a3,-(sp) ;save our scratch registers clr.b -(sp) ;make space for boolean result pea tempRect1(a6) ;pointer to the SrcRect in global coordinates @@ -2307,7 +2425,34 @@ cutOutDevices pea tempRect2(a6) ;pointer to the result _SectRect ;get the intersection tst.b (sp)+ ;if they didn't intersect at all, then skip to - beq.s @skip ;..the next device + beq @skip ;..the next device + + move.l (a1),a0 + move.l GDPMap(a0),a0 + move.l (a0),a0 + move.l pmTable(a0),a0 + move.l (a0),a0 + move.l (DeviceList),a2 +@again move.l (a2),a2 + move.l GDPMap(a2),a3 + move.l (a3),a3 + move.l pmTable(a3),a3 + move.l (a3),a3 + move.l (a3),d0 + cmp.l (a0),d0 + bne @done + sub.l #8,sp + clr.b -(sp) + pea.l tempRect1(a6) + pea.l $22(a2) + pea.l $a(sp) + _SectRect + tst.b (sp)+ + add.l #8,sp + bne @skip +@done move.l GDNextGD(a2),d0 + move.l d0,a2 + bne.s @again lea tempRect2(a6),a0 ;point to our temp rect pea topleft(a0) ;convert the temp rect back to local coordinates @@ -2323,7 +2468,7 @@ cutOutDevices move.l d6,-(sp) _DiffRgn -@skip movem.l (sp)+,d1/a1 ;restore our scratch registers +@skip movem.l (sp)+,d1/a1-a3 ;restore our scratch registers @next move.l (a1),a0 ;deref the current device list handle move.l GDNextGD(a0),d0 ;get the next device handle into D0 diff --git a/QuickDraw/CCrsrCore.a b/QuickDraw/CCrsrCore.a --- a/QuickDraw/CCrsrCore.a +++ b/QuickDraw/CCrsrCore.a @@ -102,330 +102,60 @@ cursorShadow EQU 0 + +ShieldCursor PROC EXPORT +;--------------------------------------------------------- +; +; PROCEDURE ShieldCursor(shieldRect: Rect; offset: Point); +; +; ALL REGS PRESERVED. +; +; Lifted from LCursor.a +; + IMPORT QDNew_OtherShieldCursor + + MOVEM.L D0-D2/A0-A1,-(SP) ;SAVE REGS + MOVE.L 28(SP),D0 + MOVE.L 24(SP),D1 + MOVE.L D0,-(SP) ;PUSH GLOBAL TOP + MOVE.L D1,-(SP) ;PUSH GLOBAL LEFT + JSR QDNew_OtherShieldCursor + MOVEM.L (SP)+,D0-D2/A0-A1 ;RESTORE REGS + RTD #8 + + CRSRCORE PROC EXPORT - EXPORT CrsrVBLTask - EXPORT InitCrTable EXPORT PinRect - IMPORT ScrnAddress - IMPORT ScrnSize - IMPORT ScrnBitMap - IMPORT PATCONVERT ; expand routine for color cursors/patterns - IMPORT AllocCrsr ; proc at end of file - IMPORT SETCRSRDATA ; PROC AT END OF FILE - IMPORT SHFTTBL ; TO CONVERT DEPTH TO SHIFT - IMPORT RGetHSize + IMPORT _HideCursor + IMPORT _ShowCursor + IMPORT _ShieldCursor + IMPORT _ScrnAddress + IMPORT _ScrnSize + IMPORT _InitCursor + IMPORT _SetCursor + IMPORT _ObscureCursor + IMPORT AllocCrsr + IMPORT _SetCCursor - IMPORT BLITCURSOR,UNBLITCURSOR ; Cursor Pixelling - EXPORT DRAWCURSOR,ERASECURSOR ; Cursor Displaying - EXPORT CursorSect - EXPORT GETMAINCRSR ;JUST USED INTERNALLY ; ; offset table for jump table initialization ; InitCrTable - DC.W HideCursor-InitCrTable - DC.W ShowCursor-InitCrTable - DC.W ShieldCursor-InitCrTable - DC.W ScrnAddress-InitCrTable - DC.W ScrnSize-InitCrTable - DC.W InitCursor-InitCrTable - DC.W SetCursor-InitCrTable - DC.W ObscureCursor-InitCrTable + DC.W _HideCursor-InitCrTable + DC.W _ShowCursor-InitCrTable + DC.W _ShieldCursor-InitCrTable + DC.W _ScrnAddress-InitCrTable + DC.W _ScrnSize-InitCrTable + DC.W _InitCursor-InitCrTable + DC.W _SetCursor-InitCrTable + DC.W _ObscureCursor-InitCrTable DC.W AllocCrsr-InitCrTable - DC.W SetCCursor-InitCrTable + DC.W _SetCCursor-InitCrTable ;_______________________________________________________________________ -; -; CrsrVBLTask - executed once each vertical retrace -; - -; ugly equs - stay here for now! -adbCount EQU 0 ; word: number of valid error deltas -MaxCnt EQU adbCount+2 ; word: limit on number of error deltas -Err7 EQU MaxCnt+2 ; word: time-7 error magnitude -Err6 EQU Err7+2 ; word: time-6 error magnitude -Err5 EQU Err6+2 ; word: time-5 error magnitude -Err4 EQU Err5+2 ; word: time-4 error magnitude -Err3 EQU Err4+2 ; word: time-3 error magnitude -Err2 EQU Err3+2 ; word: time-2 error magnitude -Err1 EQU Err2+2 ; word: time-1 error magnitude -Error EQU Err1+2 ; word: accumulated error -GSize EQU Error+2 - -CrsrVBLTask ;COME HERE ON VERTICAL RETRACE - - If Not forRom Then ;

- TST.B CrsrNew ; Mouse changed? - BEQ TrackDone ; No … return - TST.B CrsrBusy ; Cursor locked? - BNE TrackDone ; Yes … return - - TST.B CrsrCouple ; Cursor coupled to mouse? - BEQ NoComp ; No … skip computation - - MOVE.W MTemp+H,D0 ; Find ∆Mx - SUB.W RawMouse+H,D0 - - MOVE.W MTemp+V,D1 ; Find ∆My - SUB.W RawMouse+V,D1 - - MOVE.W D0,D2 ; x := |∆Mx| - BGE.S AbslXl - NEG.W D2 -AbslXl - - MOVE.W D1,D3 ; y := |∆My| - BGE.S AbslYl - NEG.W D3 -AbslYl - - move.l MickeyBytes,a0 ; <10/7/86 SMH> get globals - CMP.W D2,D3 ; D3 := magnitude(x,y) - BLS.S MagDone - EXG D2,D3 -MagDone ASR.W #1,D3 - ADD.W D2,D3 - - BNE.S DoComp ; Zero magnitude … don’t compute - MOVE.W #1,adbCount(A0) ; No hits - CLR.W Error(A0) ; No errors - BRA DoPin ; Update the cursor -DoComp -; - MOVEM.L D4-D5,-(A7) ; Save off registers - MOVE.W adbCount(A0),D4 ; D4 is the number of samples - CMP.W MaxCnt(A0),D4 ; Is Count less than MaxCnt - BGE.S CountOK - ADD.W #1,adbCount(A0) ; Yes … we will have one more error -CountOK - - MOVE.W D3,D5 ; Magnitude at current time - - MOVE.W D4,D2 ; Get Count - SUB.W #1,D2 ; Index into JTab - ASL.W #1,D2 ; REQUIRES BRA.S’s IN JUMP TABLES - JMP JTab(PC,D2.W) ; Jump to the right code per Count - -JTab BRA.S E1 ; Count = 1 - BRA.S E2 ; Count = 2 - BRA.S E3 ; Count = 3 - BRA.S E4 ; Count = 4 - BRA.S E5 ; Count = 5 - BRA.S E6 ; Count = 6 - BRA.S E7 ; Count = 7 - -E8 ADD.W Err7(A0),D5 ; Accumulate time-7 magnitude - -E7 ADD.W Err6(A0),D5 ; Accumulate time-6 magnitude - MOVE.W Err6(A0),Err7(A0) ; Shift out time-6 magnitude - -E6 ADD.W Err5(A0),D5 ; Accumulate time-5 magnitude - MOVE.W Err5(A0),Err6(A0) ; Shift out time-5 magnitude - -E5 ADD.W Err4(A0),D5 ; Accumulate time-4 magnitude - MOVE.W Err4(A0),Err5(A0) ; Shift out time-4 magnitude - -E4 ADD.W Err3(A0),D5 ; Accumulate time-3 magnitude - MOVE.W Err3(A0),Err4(A0) ; Shift out time-3 magnitude - -E3 ADD.W Err2(A0),D5 ; Accumulate time-2 magnitude - MOVE.W Err2(A0),Err3(A0) ; Shift out time-2 magnitude - -E2 ADD.W Err1(A0),D5 ; Accumulate time-1 magnitude - MOVE.W Err1(A0),Err2(A0) ; Shift out time-1 magnitude - -E1 MOVE.W D3,Err1(A0) ; Shift out current magnitude - - MOVE.W D4,D2 ; Round up the divide - ASR.W #1,D2 ; by half the denominator - ADD.W D2,D5 - EXT.L D5 ; Set up for the divide - DIVU D4,D5 ; Find the average magnitude - - MOVE.W D3,D4 ; Get the original magnitude - SUB.W D5,D3 ; Find distance to average magnitude - ADD.W Error(A0),D3 ; Add on the accumulated error - CMP.W #-1,D3 ; Define -1 div 2 = 0 - BNE.S DivOK - CLR.W D3 -DivOK ASR.W #1,D3 ; Get half of it - MOVE.W D3,Error(A0) ; Update it - ADD.W D5,D3 ; Desired mag is average+Error - - CMP.W #255,D5 ; mag := MAX(mag,255) - BLS.S MaxDone - MOVE.B #255,D5 -MaxDone - - move.l MickeyBytes,a0 ; <10/7/86 SMH> get at globals - add #GSize,a0 ; <10/24/86 SMH> point to table - - CLR.W D2 ; i := 0 - -Search ADD.B #1,D2 ; repeat - CMP.B (A0)+,D5 ; i := i+1 - BHI.S Search ; until mag ≤ Table[i] - - MULS D2,D3 ; D4 := i*(Mag(∆M)+Error) - - MULS D3,D0 ; ∆Cx := (∆Mx*i*(Mag(∆M)+Error))/Mag(∆M) - DIVS D4,D0 ; <<<<<< D3 >>>>>>> - BMI.S @1 ; branch if minus - ANDI.W #$007F,D0 ; control max displacement (fix mouse jump) - BRA.S @3 -@1 - ORI.W #$FF80,D0 ; control max displacement (fix mouse jump) -@3 - MULS D3,D1 ; ∆Cy := (∆My*i*(Mag(∆M)+Error))/Mag(∆M) - DIVS D4,D1 ; <<<<<< D3 >>>>>>> - BMI.S @5 ; branch if minus - ANDI.W #$007F,D1 ; control max displacement (fix mouse jump) - BRA.S @7 -@5 - ORI.W #$FF80,D1 ; control max displacement (fix mouse jump) -@7 - MOVEM.L (A7)+,D4-D5 ; Restore registers - ADD.W D0,RawMouse+H ; Update raw mouse location - ADD.W D1,RawMouse+V -; -DoPin ; - LEA CrsrPin,A0 ; Bounding rect for cursor - MOVE.L RawMouse,D0 ; Pin mouse inside rect - - Endif ; Not forRom

- - BSR.S ScrnPin ; return to SHOWIT if screen changes - - MOVE.L D0,RawMOUSE ; update cursor loc with clipped pt - MOVE.L D0,MTEMP ; Update real mouse location with "" - - AND.L MOUSEMASK,D0 ; do jerky masking to drop low order bits - MOVE.L MOUSEOffset,D1 ; Get the offset - BEQ.S skipPin ; and skip 2nd pin if not - ADD.L D1,D0 ; do jerky offset - BSR.S ScrnPin ; return to SHOWIT if screen changes - -skipPin MOVE.L D0,MOUSE - -NotCup BSR ERASECURSOR ; HIDE THE CURSOR -SHOWIT CLR.B CRSRNEW ; RESET THE CURSOR CHANGED FLAG - CLR.B CRSROBSCURE ; it's no longer obscured - BSR DRAWCURSOR ; AND SHOW CURSOR IN NEW POSITION - -CRSRDONE ;AND RETURN - RTS - -TrackDone - move.l MickeyBytes,a0 ; <10/7/86 SMH> get globals - MOVE.W #1,adbCount(A0) ; No hits - CLR.W Error(A0) ; No errors - RTS ; Goodbye - -NoComp move.l MickeyBytes,a0 ; <10/7/86 SMH> get globals - MOVE.W #1,adbCount(A0) ; No hits - CLR.W Error(A0) ; No errors - BRA.S NotCup ; Update the cursor - - -; --------end of ugly jcrsrcoreTask - - - -ScrnPin CMP LEFT(A0),D0 ;less than left? - BGE.S LEFTOK ;if not, no problem - BSR.S FindScreen ;=>look for new screen - MOVE LEFT(A0),D0 ;pin to the left - -LEFTOK CMP RIGHT(A0),D0 ;greater than right? - BLT.S RIGHTOK ;if not, no problem WAS BLE!! <05Apr85> - BSR.S FindScreen ;=>look for new screen - MOVE RIGHT(A0),D0 ;pin to the right - SUBQ #1,D0 ;really want one less - -RIGHTOK SWAP D0 ;consider y - CMP TOP(A0),D0 ;less than top? - BGE.S TOPOK ;if not, no problem - SWAP D0 - BSR.S FindScreen ;=>look for new screen - SWAP D0 - MOVE TOP(A0),D0 ;pin to the top - -TOPOK CMP BOTTOM(A0),D0 ;greater than bottom? - BLT.S BOTOK ;if not, no problem WAS BLE!! <05Apr85> - SWAP D0 - BSR.S FindScreen ;=>look for new screen - SWAP D0 - MOVE BOTTOM(A0),D0 ;pin to the bottom - SUBQ #1,D0 ;really want one less - -BOTOK SWAP D0 - RTS ;and return - -; Check to see if cursor has moved to another screen. -; If not, returns with D0 unchanged. -; If so, hides the cursor, updates cursor globals and does messy return. -; -; Clobbers D1-D3/A0-A3 which are preserved by interrupt handler - -FindScreen MOVE D0,D3 ;pt.h in D3 - MOVE.L D0,D1 ;pt.v in D1 - SWAP D1 ;pt.v in D1 - MOVE.L DeviceList,D2 ;get the first GDevice - BMI.S NoDev ;=>just in case no GDevice -DoDev MOVE.L D2,A3 ;get device handle - MOVE.L (A3),A3 ;get device pointer - TST GDFlags(A3) ;is screen active? - BPL.S NxtDev ;=>no, try next device - LEA GDRect(A3),A1 ;point to rect - CMP (A1)+,D1 ;above top? - BLT.S NxtDev ;=>yes, check next device - CMP (A1)+,D3 ;to left of screen? - BLT.S NxtDev ;=>yes, check next device - CMP (A1)+,D1 ;to bottom of screen? - BGE.S NxtDev ;=>yes, check next device - CMP (A1)+,D3 ;to right of screen? - BLT.S GotDev ;=>no, cursor is on this screen -NxtDev MOVE.L GDNextGD(A3),D2 ;get next device in chain - BNE.S DoDev ;=>there is one, check it -NoDev RTS ;else return and pin to current screen - -; cursor has changed devices, update depth and rowbytes for current device - -GotDev MOVE.L CRSRPTR,A0 ;get handle to cursor data - MOVE.L (A0),A0 ;get pointer to cursor data - MOVE.L CrsrDevice,A1 ;get handle to current device - MOVE.L (A1),A1 ;point to current device - MOVE CCDEPTH(A0),GDCCDEPTH(A1) ;copy depth - MOVE CCBYTES(A0),GDCCBYTES(A1) ;copy expanded rowbytes - -; now get the data, depth and rowbytes for the new device - - BSR ERASECURSOR ;else erase the cursor -@0 SWAP D3 ;get pt.h in high word - MOVE D1,D3 ;get pt.v in low word - SWAP D3 ;now get them in the right order - MOVE.L D3,MTEMP ;update real mouse location with "" - MOVE.L D3,RawMOUSE ;update cursor loc with clipped pt - MOVE.L D3,MOUSE ;update mouse position - MOVE.L D2,CrsrDevice ;set the current cursor device - MOVE.L A3,A1 ;get pointer to grafDevice - JSR SetCrsrData ;and set up low-memory stuff for cursor - - MOVE GDREFNUM(A3),D0 ;get the refNum - NOT D0 ;refNum -> unitnum - ASL #2,D0 ;get offset in unitTable - MOVE.L UTableBase,A0 ;get the base of the unit table - MOVE.L (A0,D0),A3 ;A3 = handle to the DCE - MOVE.L (A3),A0 ;get pointer to the DCE - MOVEQ #0,D0 ;clear out D0 - MOVE.B dCtlSlot(A0),D0 ;get the slot number - _ATTACHVBL ;attach vbl to this slot - - ADDQ #8,SP ;strip 2 RTS's from stack - BRA SHOWIT ;=>and go display cursor on new screen ; This routine is used by the pinrect routine below and is also called directly @@ -473,53 +203,78 @@ PinRect JMP (A0) ;return to caller -;_______________________________________________________________________ ; -; ; -; PROCEDURE CursorSect -- called by shieldcursor, showcursor ; -; ; -; Does a sectrect of CrsrRect and ShieldRect, all global-coörd like. ; -; CLEAR the z-flag if they DO intersect: BNE YesTheyIntersect. -; This code is was moved out of ShieldCursor. ; -; -; Since CrsrRect is in local screen coörds, and ShieldRect is in globals, -; the CrsrDevice's GDRect is used as an offset. -;_______________________________________________________________________ ; -CursorSect MOVEM.L A0/A1/D0,-(SP) ;save the approprate regs - - TST ShieldDepth ;Any shielding? - BEQ.s @NoSect - - LEA CrsrRect,A0 ;point to crsr rect ; - MOVE.L CrsrDevice,A1 ;GET CURSOR DEVICE ; - MOVE.L (A1),A1 ;POINT TO CURSOR DEVICE ; - ADD #GDRECT,A1 ;POINT TO DEVICE'S RECT ; - - MOVE ShieldRect+Bottom,D0 ;GET SHIELD BOTTOM ; - SUB TOP(A1),D0 ;CONVERT TO SCREEN LOCAL; - CMP (A0)+,D0 ;IS SHIELDBOTTOM < SAVETOP ? ; - BLT.S @NOSECT ;YES, NO INTERSECTION ; - - MOVE ShieldRect+Right,D0 ;GET SHIELD RIGHT - SUB LEFT(A1),D0 ;CONVERT TO SCREEN LOCAL - CMP (A0)+,D0 ;IS SHIELDRIGHT <= SAVELEFT ? - BLE.S @NOSECT ;YES, NO INTERSECTION - - MOVE ShieldRect+Top,D0 ;GET SHIELD TOP - SUB TOP(A1),D0 ;CONVERT TO SCREEN LOCAL - CMP (A0)+,D0 ;IS SHIELDTOP >= SAVEBOTTOM ? - BGE.S @NOSECT ;YES, NO INTERSECTION - - MOVE ShieldRect+Left,D0 ;GET SHIELD LEFT - SUB LEFT(A1),D0 ;CONVERT TO SCREEN LOCAL - CMP (A0),D0 ;IS SHIELDLEFT >= SAVERIGHT ? - BGE.S @NOSECT ;YES, NO INTERSECTION - -@SECT MOVEQ #1,D0 ;Clear the Z-flag - BRA.S @out ; - -@NOSECT CLR D0 ;Set the Z-flag -@out MOVEM.L (SP)+,A0/A1/D0 ;Restore regs - RTS ;bye. +;_______________________________________________________________________ +; +; HIDECURSOR - is called from CrsrVBLTask, and via jump table. +; +; Subtracts 1 from crsrstate and hides the cursor if visible. +; +; +_HideCursor PROC EXPORT + MOVEM.L D0-D2/A0-A1,-(SP) + IMPORT QDNEW_HIDECURSOR + JSR QDNEW_HIDECURSOR + MOVEM.L (SP)+,D0-D2/A0-A1 + RTS + +;_______________________________________________________________________ +; +; SHOWCURSOR - Called from CrsrVBLTask and via Jump Table. +; +; Adds 1 to CRSRSTATE and paints cursor if zero and cursor is +; not already visible. +; + +_ShowCursor PROC EXPORT + MOVEM.L D0-D2/A0-A1,-(SP) + IMPORT QDNEW_SHOWCURSOR + JSR QDNEW_SHOWCURSOR + MOVEM.L (SP)+,D0-D2/A0-A1 + RTS + +;_______________________________________________________________________ +; +; CURSHIELD - Called via Jump Table +; +; PROCEDURE ShieldCursor(left,top,right,bottom: INTEGER); +; +; Subtracts 1 from CRSRSTATE, hides cursor only if it intersects SHIELDRECT. +; left,top,right bottom is the shieldRect in global coordinates +; +; ALL REGISTERS RESTORED. +; + +_ShieldCursor PROC EXPORT + IMPORT QDNEW_SHIELDCURSOR + JMP QDNEW_SHIELDCURSOR + +;_______________________________________________________________________ +; +; PROCEDURE InitCursor; +; +; Definitely redisplay the cursor, independent of previous calls to +; HideCursor, ShieldCursor and ObscureCursor. It falls into showCursor. +; + +_InitCursor PROC EXPORT + IMPORT QDNEW_INITCURSOR + JMP QDNEW_INITCURSOR + +;_______________________________________________________________________ +; +; PROCEDURE SetCursor(hotSpot: Point; height: INTEGER; data: Ptr; mask:Ptr); +; +; This procedure sets THECRSR pointer in the system global area. +; A reasonable hotSpot is ENFORCED! Also fix bug to note changed when only hotspot does. <05Apr85> +; +; WARNING: to save code, this routine really doesn't use the above interface. +; It ignores the height and mask parameters. It assumes that the mask immediately +; follows the data (as it does when called from LisaGraf) +; + +_SetCursor PROC EXPORT + IMPORT QDNEW_SETCURSOR + JMP QDNEW_SETCURSOR ;_______________________________________________________________________ ; @@ -528,1446 +283,33 @@ CursorSect MOVEM.L A0/A1/D0,-(SP) ;save the approprate regs ; Removes the cursor from the screen without hiding it, so the next ; time the mouse moves, it will show up again. ; -;_______________________________________________________________________ -ObscureCursor - MOVE.B #1,CrsrBusy ;"Occupado" - MOVE.B #1,CrsrObscure ;Mark it as obscure - BRA.S EraseCursor ;and erase it +_ObscureCursor PROC EXPORT + IMPORT QDNEW_OBSCURECURSOR + JMP QDNEW_OBSCURECURSOR -;_______________________________________________________________________ +;-------------------------------------------------- ; -; HIDECURSOR - is called from CrsrVBLTask, and via jump table. +; PROCEDURE AllocCrsr; ; -; Subtracts 1 from crsrstate and hides the cursor if visible. +; Allocates all global cursor data structures. A maximum depth of 8 is assumed. ; -; -HideCursor - MOVE.B #1,CrsrBusy ;MARK CHANGE IN PROGRESS - SUB #1,CRSRSTATE ;CURSOR HIDDEN ONE DEEPER - - ;Fall into EraseCursor - -;________________________________________________________________________ -; CSS Horror vectorized this vector. We are supporting this to be -; compatible with Horror. -; EraseCursor calls a vectorized version of the routine via lomem. -; EraseCursor is vectorized to gain access to low level cursor blit routines. -; (NOTE: Vector is initialized in StartInit.a to routine named VEraseCursor.) - -; EraseCursor is much like HideCursor, but doesn't decrement the CrsrState - -EraseCursor - move.l EraseCrsrVector,-(sp) ; CSS - rts ;jump to the vectored routine CSS -DoneHid CLR.B CRSRBUSY ;CHANGE COMPLETE - RTS - - -;_______________________________________________________________________ -; -; PROCEDURE InitCursor; -; -; Definitely redisplay the cursor, independent of previous calls to -; HideCursor, ShieldCursor and ObscureCursor. It falls into showCursor. -; -InitCursor - MOVE.B #1,CrsrBusy ;mark it busy - CLR.B CrsrObscure ;we wont be obscure no more - CLR CrsrState ;reset state to 0 - CLR ShieldDepth -; -; fall into ShowCursor -; - -;_______________________________________________________________________ -; -; SHOWCURSOR - Called from CrsrVBLTask and via Jump Table. -; -; Adds 1 to CRSRSTATE and paints cursor if zero and cursor is -; not already visible. -; -; this reflects the fix from QDciPatchROM.a where obscure/show/hide left stb -; the cursor hidden only, and obscure/hide/show left the cursor obscured only. stb - -ShowCursor - MOVE.B #1,CRSRBUSY ;MARK CHANGE IN PROGRESS - - TST ShieldDepth ;Any shielding? - BEQ.s @2 - -@1 SUBQ #1,ShieldDepth ;If so, this ShowCursor unshields, - BRA.s DrawCursor ;but doesn't up the cursor level. - -@2 ADDQ #1,CRSRSTATE ;CURSOR HIDDEN ONE LESS DEEP - bmi.s DoneSho - beq.s DrawCursor ; - clr.b CrsrObscure ;unobscure cursor if level went past zero - - ;fall into DrawCursor - -;________________________________________________________________________ -; CSS Horror vectorized this vector. We are supporting this to be -; compatible with Horror. -; DrawCursor calls a vectorized version of the routine via lomem. -; DrawCursor is vectorized to gain access to low level cursor blit routines. -; (NOTE: Vector is initialized in StartInit.a to routine named VDrawCursor.) - -; DrawCursor is much like ShowCursor, but doesn't increment the CrsrState - -DrawCursor - move.l DrawCrsrVector,-(sp) ; CSS - rts ;jump to the vectored routine CSS - -DoneSho CLR.B CRSRBUSY ;CHANGE COMPLETE - RTS - -;_______________________________________________________________________ -; -; CURSHIELD - Called via Jump Table -; -; PROCEDURE ShieldCursor(left,top,right,bottom: INTEGER); -; -; Subtracts 1 from CRSRSTATE, hides cursor only if it intersects SHIELDRECT. -; left,top,right bottom is the shieldRect in global coordinates -; -; ALL REGISTERS RESTORED. -; - -ShieldVars RECORD {return},DECREMENT ; -ShieldLeft DS.W 1 ; -ShieldTop DS.W 1 ; -ShieldRight DS.W 1 ; -ShieldBot DS.W 1 ; -return DS.L 1 ; - ENDR - - WITH ShieldVars -ShieldCursor - TST ShieldDepth ;Any shielding already? ; - BEQ.s @2 ;No=>don't unionrect - - MOVEM.L D0/A0,-(SP) ;Save some regs (and +8 our vars below*) - LEA ShieldRect+right,A0 ;A0->ShieldRect.right - - MOVE.L ShieldBot+8(SP),D0 ;D0 = New shield bot,right (*) - CMP (A0),D0 ;Compare to ShieldRect.right - BLE.s @u1 ;Is the new right bigger? - MOVE D0,(A0) - -@u1 SWAP D0 ;D0 = New shield bottom - CMP -(A0),D0 ;Compare to ShieldRect.bottom - BLE.s @u2 ;Is the new bottom bigger? - MOVE D0,(A0) ;If so, replace with it. - -@u2 MOVE.L ShieldTop+8(SP),D0 ;D0 = New shield top,left (*) - CMP -(A0),D0 ;Compare to ShieldRect.left - BGE.s @u3 ;Is the new left smaller? - MOVE D0,(A0) - -@u3 SWAP D0 ;D0 = New shield top - CMP -(A0),D0 ;Compare to ShieldRect.top - BGE.s @u4 ;Is the new top smaller? - MOVE D0,(A0) - -@u4 MOVEM.L (SP)+,D0/A0 - BRA.s @3 - -@2 MOVE.L ShieldBot(SP),ShieldRect+botRight ;save shieldrect ; - MOVE.L ShieldTop(SP),ShieldRect+topLeft ; -@3 ADDQ #1,ShieldDepth ;Shielding officially on - MOVE.B #1,CrsrBusy - BSR CursorSect ; - BEQ.s @1 ; - - BSR EraseCursor ;IT DOES INTERSECT, REMOVE IT - -@1 CLR.B CrsrBusy - MOVE.L (SP)+,(SP) ;STRIP 8 bytes of PARAMETERS, MOVING - MOVE.L (SP)+,(SP) ;RETURN ADDR UP ON STACK - RTS - ENDWITH +AllocCrsr PROC EXPORT + IMPORT QDNEW_ALLOCCRSR + JMP QDNEW_ALLOCCRSR - IMPORT CopyHandle,PatConvert ;_______________________________________________________________________ ; ; PROCEDURE SetCCursor(cCrsr: CCrsrHandle); ; ; This procedure copies the data in the specified color cursor into the ; system's cursor save area. If the depth > 2, it expands it. - -; this routine was taken from QDciPatchROM.a because A2 was getting trashed stb -; when setting CCursor on multiple device systems stb - -SetCCursor MOVEM.L D3-D4/A2-A4,-(SP) ;save work registers - move.l 24(sp),a2 ;get ccrsrHandle - move.l a2,a0 ;make a copy - _HGetState - move d0,-(sp) ;save state for later - move.l a2,a0 ;make a copy - _HLock - MOVE.L (a2),A2 ;GET POINTER TO NEW CURSOR - - MOVE.L ([CRSRPTR]),A3 ;point to current cursor (LOCKED) - MOVE.L crsrID(A2),D0 ;and get ID of new cursor - CMP #CCrsrPat,ccType(A3) ;is current cursor a color cursor? - BNE.S NotCC ;=>no, it has definitely changed - CMP.L ccID(A3),D0 ;same as current one? - BEQ SCCDONE ;=>yes, just return - -NotCC MOVE.B #1,CRSRBUSY ;flag the cursor as busy - MOVE.L D0,ccID(A3) ;set new ID - LEA crsr1Data(A2),A0 ;point to old-cursor data - LEA THECRSR,A1 ;put it here - MOVEQ #16,D0 ;data+mask+hotspot = 17 longs -@0 MOVE.L (A0)+,(A1)+ ;copy data - DBRA D0,@0 ;until done - - LEA crsr1Data(A2),A0 ;point to old-cursor data - LEA CCLASTCRSR(A3),A1 ;save here to indicate cursor changed - MOVEQ #7,D0 ;move 8 longs -@1 MOVE.L (A0)+,(A1)+ ;copy data - DBRA D0,@1 ;=>loop until done - - MOVE crsrType(A2),ccType(A3) ;copy the type - -; NOTE: ALL THE DST HANDLES ARE LOCKED, BUT THEY HAVE BEEN SET TO THE PROPER SIZE - - MOVE.L crsrMap(A2),-(SP) ;push src pixMap handle - MOVE.L ccMap(A3),-(SP) ;push dst pixMap handle - _CopyPixMap ;copy the pixMap - - MOVE.L crsrData(A2),-(SP) ;push src data handle - MOVE.L ccData(A3),-(SP) ;push dst data handle - _CopyHandle ;copy the cursor data - -; FOR EACH ACTIVE SCREEN DEVICE, EXPAND CURSOR, IF NECESSARY - - MOVE.L DEVICELIST,D4 ;D4 = CURRENT DEVICE - MOVE.L D4,A4 ;GET HANDLE TO CURRENT DEVICE -NXTSCR MOVE.L (A4),A4 ;A4 = POINTER TO CURRENT DEVICE - TST.W GDFLAGS(A4) ;IS THE DEVICE ACTIVE? - BPL CHKNXT ;=>NO, CHECK NEXT DEVICE - ;ACTIVE DEVICES ARE LOCKED DOWN - MOVE.L GDPMAP(A4),A0 ;GET HANDLE TO DEVICE'S PIXMAP - MOVE.L (A0),A0 ;POINT TO DEVICE'S PIXMAP - MOVE PIXELSIZE(A0),D3 ;GET DEVICE'S PIXELSIZE - -; IF THE PATTERN IS PRE-EXPANDED TO THE RIGHT DEPTH, JUST COPY THAT DATA - - CLR GDCCDEPTH(A4) ;flag to expand one-bit data - MOVE CRSRXVALID(A2),D0 ;is there pre-expanded data? - BEQ.S GOEXP ;=>no, do expansion - CMP D3,D0 ;is the expanded data the right depth? - BNE.S GOEXP ;=>no, expand from the source - MOVE D0,GDCCDEPTH(A4) ;else copy the expanded depth - MOVE.L crsrXData(A2),-(SP) ;push the src xdata handle - MOVE.L CCXDATA(A3),-(SP) ;push the dst xdata handle - _CopyHandle ;and copy it - BRA.S CHKNXT ;=>data already expanded, just exit - -GOEXP CMP #CCRSRPAT,CCTYPE(A3) ;IS IT A COLOR CURSOR? - BNE.S DONEONE ;=>NO, EXIT WITH DEPTH = 0 - CMP #2,D3 ;IS DEPTH GREATER THAN 2? - BLE.S DONEONE ;=>NO, EXIT WITH DEPTH = 0 - - MOVE D3,GDCCDEPTH(A4) ;RECORD THE EXPANDED DEPTH - MOVE.L GDCCXDATA(A4),CCXDATA(A3) ;GET DEVICE'S EXPANDED DATA FOR PATCONVERT - MOVE.L THEGDEVICE,-(SP) ;SAVE GRAFDEVICE (USED BY PATCONVERT) - MOVE.L D4,THEGDEVICE ;SET IT TO CURRENT DEVICE - MOVE.L CRSRPTR,-(SP) ;PUSH HANDLE TO CURSOR (LOCKED) - _PATCONVERT ;AND EXPAND TO CURRENT DEPTH - MOVE.L (SP)+,THEGDEVICE ;RESTORE GRAFDEVICE - -; EXPAND THE MASK TO THE CURRENT DEPTH - - MOVE D3,D0 ;GET DEPTH - MOVEQ #0,D1 ;DEFAULT SHIFT = 0 -NXTSHFT1 LSR #1,D0 ;CHECK NEXT DEPTH BIT - BCS.S GOTSHFT1 ;=>GOT SHIFT - ADDQ #1,D1 ;ELSE ADD ONE TO SHIFT - BRA.S NXTSHFT1 ;LOOP UNTIL WE HIT A ONE - -GOTSHFT1 LEA THECRSR+MASK,A0 ;SRC = CURSOR MASK - MOVE.L ([GDCCXMASK,A4]),A1 ;POINT TO EXPANDED MASK (LOCKED) - - move.l a2,d4 ;save pointer to new cursor <25APR91 KON> - MOVE.L A1,A2 ;GET START OF DST BUFFER <27May87 EHB> - MOVE #32,D0 ;GET #BYTES OF SOURCE <27May87 EHB> - LSL D1,D0 ;MULTIPLY BY DEPTH <27May87 EHB> - ADD D0,A2 ;POINT TO END OF BUFFER <27May87 EHB> - - move.l ExTblPtr,A3 ;POINT TO ROUTINE TABLE - add.l 0(A3,D1*4),A3 ;USE DEPTH TO SELECT ROUTINE - MOVEQ #0,D0 ;CLEAR HIGH PART OF D0 - JSR (A3) ;EXPAND 32*DEPTH BYTES - MOVE.L ([CRSRPTR]),A3 ;GET BACK POINTER TO CURSOR (LOCKED) - move.l d4,a2 ;restore pointer to new cursor <25APR91 KON> - -DONEONE MOVE GDCCDEPTH(A4),D0 ;GET EXPANDED DEPTH - ADD D0,D0 ;DOUBLE IT - MOVE D0,GDCCBYTES(A4) ;AND SAVE AS CURSOR'S ROWBYTES - -CHKNXT MOVE.L GDNEXTGD(A4),D4 ;IS THERE A NEXT DEVICE? - MOVE.L D4,A4 ;GET HANDLE TO NEXT DEVICE - BNE NXTSCR ;=>THERE IS ONE, PREPARE ITS CURSOR - - BSR.S GETMAINCRSR ;RESTORE EXPAND DATA FOR MAIN CURSOR - BSR ERASECURSOR ;HIDE THE OLD CURSOR - BSR DRAWCURSOR ;DISPLAY THE NEW CURSOR -SCCDONE CLR.B CRSRBUSY ;CURSOR NOT BUSY ANYMORE - move (sp)+,d0 ;get ccrsrhandle state - move.l 24(sp),a0 ;get ccrsrHandle - _HSetState - MOVEM.L (SP)+,D3-D4/A2-A4 ;restore work registers - MOVE.L (SP)+,(SP) ;strip parameter - RTS ;and return - -;_______________________________________________________________________ - -GETMAINCRSR MOVE.L CRSRDEVICE,A0 ;GET HANDLE TO CURSOR DEVICE - MOVE.L (A0),A0 ;GET POINTER TO CURSOR DEVICE - MOVE.L CRSRPTR,A1 ;GET HANDLE TO CURSOR SAVE AREA - MOVE.L (A1),A1 ;GET POINTER TO CURSOR SAVE - MOVE.L GDCCXDATA(A0),CCXDATA(A1) ;GET CURRENT EXPANDED DATA - MOVE.L GDCCXMASK(A0),CCXMASK(A1) ;GET CURRENT EXPANDED MASK - MOVE GDCCDEPTH(A0),CCDEPTH(A1) ;GET EXPANDED DEPTH - MOVE GDCCBYTES(A0),CCBYTES(A1) ;GET EXPANDED ROWBYTES - RTS ;AND RETURN - -;_______________________________________________________________________ -; -; PROCEDURE SetCursor(hotSpot: Point; height: INTEGER; data: Ptr; mask:Ptr); -; -; This procedure sets THECRSR pointer in the system global area. -; A reasonable hotSpot is ENFORCED! Also fix bug to note changed when only hotspot does. <05Apr85> -; -; WARNING: to save code, this routine really doesn't use the above interface. -; It ignores the height and mask parameters. It assumes that the mask immediately -; follows the data (as it does when called from LisaGraf) -; -SetCursor MOVE.L ([CRSRPTR]),A0 ;point to crsr data structure (LOCKED) - move.b #1,crsrBusy ;don't allow vbl drawing until we're done <09Aug88> - MOVE #oldCrsrPat,ccType(A0) ;say that it's an old cursor - - MOVE.L 8(SP),A0 ;get address of data mask - LEA THECRSR,A1 ;point to system cursor buffer - MOVEQ #15,D2 ;have 16 longs to move - MOVEQ #0,D1 ;flag that its not different - -SetCurLoop MOVE.L (A0)+,D0 ;get next longWord of new cursor - CMP.L (A1),D0 ;is it the same as what's there - BEQ.S @1 ;if so, skip - ADDQ #1,D1 ;flag that its different -@1 MOVE.L D0,(A1)+ ;move it into the cursor buffer - DBRA D2,SetCurLoop ;move all 64 bytes - - MOVE.L 14(SP),D0 ;get the alleged hotspot <23Apr85> - -; Clean up the two coordinates to lie between 0 and 16. <23Apr85> - - MOVEQ #16,D2 ; VERY handy temp, from loop above <23Apr85> - CMP.W D2,D0 ; <23Apr85> - BLS.S @31 ; D0 LowerorSame as 16 is ok <23Apr85> - MOVE.W D2,D0 ;pin it at 16 <23Apr85> - -@31 SWAP D0 ;align the high-order coord <23Apr85> - CMP.W D2,D0 ; <23Apr85> - BLS.S @33 ; D0 LowerorSame as 16 is ok <23Apr85> - MOVE.W D2,D0 ; <23Apr85> - -@33 SWAP D0 ;realign coords <23Apr85> - CMP.L TheCrsr+HotSpot,D0 ;is it new? <05Apr85> - BEQ.S @3 ; <05Apr85> - ADDQ #1,D1 ;flag it's different <05Apr85> - MOVE.L D0,TheCrsr+HotSpot ;move in the hotSpot <05Apr85> -@3 - -; DID THE CURSOR CHANGE? - - clr.b crsrBusy ;re-allow vbl drawing <09Aug88> - TST D1 ;did it change? - BEQ.S @6 ;skip if it didn't - -; IF SO, FORCE THE CURSOR TO BE REDISPLAYED BY HIDING AND THEN SHOWING IT - - BSR EraseCursor ;hide it - BSR DrawCursor ;then show it again to redraw it - -@6 MOVE.L (SP)+,A0 ;get return address - ADD #14,SP ;strip parameters - JMP (A0) ;return to caller - - - -SetCrsrData PROC EXPORT -;------------------------------------------------ -; UTILITY SetCrsrData -; -; This routine is called to initialize low-memory locations -; to the necessary values for the grafDevice pointer in A1. -; - IMPORT SetCrsrDelay ; CSS - bsr.l SetCrsrDelay ; CSS - MOVE.L CRSRPTR,A0 ;get handle to cursor data - MOVE.L (A0),A0 ;get pointer to cursor data - -; initialize the grafDevice's cursor variables - - MOVE.L GDCCXDATA(A1),CCXDATA(A0) ;copy handle to expanded data - MOVE.L GDCCXMASK(A1),CCXMASK(A0) ;copy handle to expanded mask - MOVE GDCCDEPTH(A1),CCDEPTH(A0) ;copy depth - MOVE GDCCBYTES(A1),CCBYTES(A0) ;copy expanded rowbytes - -; set the pinning rectangle to the current screen - - LEA GDRect(A1),A0 ;get rect for current device - MOVE.L (A0)+,crsrPin ;and set pinning rectangle - MOVE.L (A0),crsrPin+4 ;from device's rectangle - -; set the depth, rowbytes, height, and width of the current screen - - MOVE.L GDPMap(A1),A0 ;get pixMap of current device - MOVE.L (A0),A0 ;point at pixmap - MOVE PixelSize(A0),chunkyDepth ;set depth of cursor's screen - MOVE.L (A0)+,crsrBase ;update base address for cursor - MOVE (A0)+,D0 ;get rowbytes - AND #nuRBMask,D0 ;clear flag bits - MOVE D0,crsrRow ;set cursor rowbytes - MOVE bottom(A0),D0 ;get bottom of cursor's screen - SUB top(A0),D0 ;calc height of cursor's screen - MOVE D0,ColLines ;save height of cursor's screen - MOVE right(A0),D0 ;get right of cursor's screen - SUB left(A0),D0 ;calc width of cursor's screen - MOVE D0,RowBits ;save width of cursor's screen - RTS - - -ALLOCCRSR PROC EXPORT - IMPORT PatConvert,GETMAINCRSR,SetCrsrData - IMPORT RNEWHANDLE,ERASECURSOR,DRAWCURSOR -;-------------------------------------------------- -; -; PROCEDURE AllocCrsr; -; -; Allocates all global cursor data structures. A maximum depth of 8 is assumed. -; -; CRSRPTR IS USED AS A HANDLE TO AN EXTENDED PATTERN WHICH CONTAINS THESE FIELDS: -; -; CCTYPE EQU 0 ;[WORD] CURSOR TYPE -; CCMAP EQU CCTYPE+2 ;[LONG] HANDLE TO CURSOR'S PIXMAP -; CCDATA EQU CCMAP+4 ;[LONG] HANDLE TO CURSOR'S COLOR DATA -; CCXDATA EQU CCDATA+4 ;[LONG] HANDLE TO EXPANDED DATA -; CCXMASK EQU CCXDATA+4 ;[LONG] HANDLE TO EXPANDED MASK -; CCSAVE EQU CCXMASK+4 ;[LONG] HANDLE TO SAVE BITS UNDER CURSOR -; CCLASTCRSR EQU CCSAVE+4 ;[32 BYTES] DATA FOR LAST B/W CURSOR DRAWN -; CCID EQU CCLASTCRSR ;[LONG] ID FOR LAST COLOR CURSOR DRAWN -; CCTABLE EQU CCID+4 ;[LONG] TABLE ID FOR LAST COLOR CURSOR -; CCDEPTH EQU CCLASTCRSR+32 ;[WORD] DEPTH FOR LAST CURSOR DRAWN -; CCSTATEREGS EQU CCDEPTH+2 ;[20 BYTES] STATE INFO OF SAVED DATA -; CCBYTES EQU CCSTATEREGS+16 ;[WORD] ROWBYTES OF EXPANDED DATA -; CCMAXDEPTH EQU CCBYTES+2 ;[WORD] MAXIMUM CURSOR DEPTH - - - MOVEM.L D0-D6/A0-A4/A6,-(SP) ;PRESERVE ALL REGS - MOVE.L THEZONE,-(SP) ;SAVE THE CURRENT HEAP ZONE - MOVE.L SYSZONE,THEZONE ;SET CURRENT ZONE TO SYS ZONE - -; ALLOCATE MAIN CURSOR STRUCTURE AND DATA AREAS IF NECESSARY - - BSR ERASECURSOR ;HIDE THE CURSOR - MOVE.B #1,CRSRBUSY ;MARK CHANGE IN PROGRESS - - MOVE.L CRSRPTR,D0 ;GET CRSRPTR (REALLY HANDLE) - CMP.L MINUSONE,D0 ;IS IT ALLOCATED? - BNE.S MAINOK ;=>ALREADY ALLOCATED, CONTINUE - -; RESERVE MEMORY FOR AND ALLOCATE CURSOR STRUCTURE. -; THE CURSOR SAVE RECORD CONTAINS A PIXMAP, A DATA HANDLE, AND A SAVE HANDLE. - - clr.b CrsrObscure ;we wont be obscure no more - clr CrsrState ;reset state to 0 - clr ShieldDepth ;no more shielding - - MOVEQ #CCSAVEREC,D1 ;GET SIZE OF CURSOR SAVE RECORD - BSR GETLOWHANDLE ;ALLOCATE RECORD DOWN LOW AND LOCK - MOVE.L A0,CRSRPTR ;SAVE HANDLE TO CURSOR - MOVE.L (A0),A4 ;KEEP POINTER IN A4 - - MOVEQ #PMREC,D0 ;WE'RE GOING TO LOCK THIS - _RESRVMEM ;SO RESERVE SPACE DOWN LOW - CLR.L -(SP) ;MAKE ROOM FOR FUNCTION RESULT - _NEWPIXMAP ;ALLOCATE A PIXMAP - MOVE.L (SP)+,A0 ;GET HANDLE TO PIXMAP - MOVE.L A0,CCMAP(A4) ;SAVE PIXMAP IN CURSOR RECORD - _HLOCK ;LOCK IT DOWN - - MOVEQ #2,D0 ;DEFAULT SIZE OF DATA HANDLE - JSR RNEWHANDLE ;ALLOCATE IT - MOVE.L A0,CCDATA(A4) ;AND SAVE FOR CURSOR DATA - -; RESERVE AND ALLOCATE MEMORY IN WHICH TO SAVE THE BITS BEHIND THE CURSOR. -; MAGIC AMOUNT OF MEMORY RESERVED IS FOR 32 BIT DEEP, LONG ALIGNED CURSOR. - - if cursorShadow then - MOVE.L #$400*4,D1 ;GET REQUIRED SIZE 32*32*4 - else - MOVE.L #$400,D1 ;GET REQUIRED SIZE 16*16*4 - endif - BSR GETLOWHANDLE ;GET LOW,LOCKED HANDLE - MOVE.L A0,CCSAVE(A4) ;SAVE INTO RECORD - -; INITIALIZE THE CURSOR TO THE ARROW CURSOR. - - MOVE #OLDCRSRPAT,CCTYPE(A4) ;SAY THAT IT'S AN OLD CURSOR - CLR CCDEPTH(A4) ;CLEAR DEPTH TO SAY NOT EXPANDED - - MOVE.L GRAFGLOBALS(A5),A0 ;POINT TO GRAFGLOBALS - LEA ARROW(A0),A0 ;POINT TO ARROW CURSOR - LEA THECRSR,A1 ;PUT IT HERE - MOVEQ #16,D0 ;DATA+MASK+HOTSPOT = 17 LONGS -@2 MOVE.L (A0)+,(A1)+ ;COPY DATA - DBRA D0,@2 ;UNTIL DONE - - -; FOR EACH ACTIVE SCREEN DEVICE, ALLOCATE EXPANDED CURSOR MEMORY IF NECESSARY -; ALL DEVICES ARE GUARANTEED TO BE LOCKED. - -MAINOK MOVE.L CRSRPTR,A4 ;GET HANDLE TO CURSOR STUFF - MOVE.L (A4),A4 ;GET POINTER (LOCKED) - MOVE.L DEVICELIST,D4 ;D4 = CURRENT DEVICE - MOVE.L D4,A6 ;GET HANDLE TO CURRENT DEVICE -NXTDEVICE MOVE.L (A6),A6 ;A6 = POINTER TO CURRENT DEVICE - TST.W GDFLAGS(A6) ;IS THE DEVICE ACTIVE? - BPL CHKNEXT ;=>NO, CHECK NEXT DEVICE - - TST GDCCDEPTH(A6) ;HAS MEMORY BEEN ALLOCATED? - BNE.S DOEXPAND ;=>YES, EXPAND CURSOR IF NECESSARY - - MOVE.L GDCCXDATA(A6),A0 ;GET HANDLE TO EXPANDED DATA - _DISPOSHANDLE ;DISPOSE THE CURRENT HANDLE - MOVE.L #$400,D1 ;GET SIZE OF EXPANDED HANDLE @@@@ used to be $100 - BSR GETLOWHANDLE ;GET A LOW, LOCKED HANDLE - MOVE.L A0,GDCCXDATA(A6) ;AND SAVE IT - - MOVE.L GDCCXMASK(A6),A0 ;GET HANDLE TO EXPANDED DATA - _DISPOSHANDLE ;DISPOSE THE CURRENT HANDLE - BSR GETLOWHANDLE ;GET A LOW, LOCKED HANDLE - MOVE.L A0,GDCCXMASK(A6) ;AND SAVE IT - -DOEXPAND -; MAKE SURE ALL THE HANDLES ARE THE RIGHT SIZE FOR THE CURRENT DEPTH. -; IF COLOR CURSOR AND DEPTH IS > 2 BITS PER PIXEL, THEN EXPAND TO CURRENT DEPTH. -; BLACK AND WHITE (AND 2 BIT) CURSORS ARE EXPANDED BY SHOWCURSOR. - - MOVE.L GDPMAP(A6),A0 ;GET HANDLE TO DEVICE'S PIXMAP - MOVE.L (A0),A0 ;POINT TO DEVICE'S PIXMAP - MOVE PIXELSIZE(A0),D3 ;GET DEVICE'S PIXELSIZE - CMP GDCCDEPTH(A6),D3 ;HAS DEPTH CHANGED? - BEQ.S CHKNEXT ;=>NO, THIS DEVICE IS OK - -; CONVERT DEPTH TO SHIFT AMOUNT IN D6 - - MOVE D3,D0 ;GET DEPTH - MOVEQ #0,D6 ;DEFAULT SHIFT = 0 -NXTSHFT LSR #1,D0 ;CHECK NEXT DEPTH BIT - BCS.S GOTSHFT ;=>GOT SHIFT - ADDQ #1,D6 ;ELSE ADD ONE TO SHIFT - BRA.S NXTSHFT ;LOOP UNTIL WE HIT A ONE - -GOTSHFT CMP #CCRSRPAT,CCTYPE(A4) ;IS IT A COLOR CURSOR? - BNE.S CHKNEXT ;=>NO - CMP #2,D3 ;IS DEPTH GREATER THAN 2? - BLE.S CHKNEXT ;=>NO - - MOVE.L GDCCXDATA(A6),CCXDATA(A4) ;GET EXPAND HANDLE FOR PATCONVERT - MOVE.L THEGDEVICE,-(SP) ;SAVE GRAFDEVICE - MOVE.L D4,THEGDEVICE ;SET IT TO CURRENT DEVICE - MOVE.L CRSRPTR,-(SP) ;PUSH HANDLE TO CURSOR - _PATCONVERT ;AND EXPAND TO CURRENT DEPTH - MOVE.L (SP)+,THEGDEVICE ;RESTORE GRAFDEVICE - -; EXPAND THE MASK TO THE CURRENT DEPTH - - LEA THECRSR+MASK,A0 ;SRC = CURSOR MASK - MOVE.L ([GDCCXMASK,A6]),A1 ;POINT TO EXPANDED MASK (LOCKED) - MOVE.L A1,A2 ;GET START OF DST BUFFER - MOVE #32,D0 ;GET #BYTES OF SOURCE - LSL D6,D0 ;MULTIPLY BY DEPTH - ADD D0,A2 ;POINT TO END OF BUFFER - - move.l ExTblPtr,A3 ;POINT TO ROUTINE TABLE - add.l 0(A3,D6*4),A3 ;USE DEPTH TO SELECT ROUTINE - MOVEQ #0,D0 ;CLEAR HIGH PART OF D0 - JSR (A3) ;EXPAND 32*DEPTH BYTES - - MOVE D3,GDCCDEPTH(A6) ;SAVE DEPTH OF EXPANDED CURSOR - ADD D3,D3 ;GET 2*DEPTH - MOVE D3,GDCCBYTES(A6) ;SAVE ROWBYTES FOR EXPANDED CURSOR - -CHKNEXT MOVE.L GDNEXTGD(A6),D4 ;IS THERE A NEXT DEVICE? - MOVE.L D4,A6 ;GET HANDLE TO NEXT DEVICE - BNE NXTDEVICE ;=>THERE IS ONE, PREPARE ITS CURSOR - - BSR GETMAINCRSR ;SET UP FIELDS FOR MAIN CURSOR - MOVE.L CRSRDEVICE,A1 ;GET HANDLE TO CURSOR DEVICE - MOVE.L (A1),A1 ;GET POINTER TO CURSOR DEVICE - JSR SetCrsrData ;AND SET UP LOW-MEM FOR THIS DEVICE - - MOVE.L (SP)+,THEZONE ;RESTORE THE ZONE - CLR.B CRSRBUSY ;CHANGE COMPLETE - BSR DRAWCURSOR - MOVEM.L (SP)+,D0-D6/A0-A4/A6 ;RESTORE ALL REGS - RTS - - -GETLOWHANDLE -;-------------------------------------------------- -; UTILITY GETLOWHANDLE -; -; THIS ROUTINE RESERVES MEMORY FOR A HANDLE, ALLOCATES THE HANDLE -; AND THEN LOCKS IT DOWN. THE DESIRED SIZE IS IN D1. THE RETURNED HANDLE IS IN A0 -; ONLY D0 IS TRASHED - - MOVE.L D1,D0 ;GET THE DESIRED SIZE - _RESRVMEM ;RESERVE SPACE FOR THE HANDLE DOWN LOW - BNE.S MEMFULL ;=>ON ERROR, JUST BOMB - MOVE.L D1,D0 ;GET THE DESIRED SIZE - _NEWHANDLE ,CLEAR ;ALLOCATE THE HANDLE - _HLOCK ;LOCK IT - RTS ;AND RETURN - -MEMFULL MOVEQ #25,D0 ;MEM FULL ERROR - _SYSERROR ;FLAG IT - DC.W $A9FF ;JUST IN CASE WE RETURN - -;_______________________________________________________________________ -; -; BLITCURSOR -; -; The only thing that will stop this routine from blitting the cursor -; to the screen is ShieldRect. Since the new CrsrRect isn't known -; until pretty far through the process, it's checked here, not -; DrawCursor. CrsrState and CrsrObscure are _not_ checked here. -; It seems likely that patching this routine will have use on accelerator -; cards etc. - -BLITCURSOR PROC EXPORT - IMPORT CursorSect, SHFTTBL - - TST.L CRSRPTR ;CURSOR ALLOCATED? - BMI NoBlit ;=>NO, JUST RETURN - MOVEM.L D0-D7/A0-A6,-(SP) ;SAVE REGISTERS - LEA THECRSR+DATA,A2 ;POINT TO THE CURSOR - - -;----------------------------------------------- -; -; CONVERT CHUNKY DEPTH TO SHIFT AMOUNT IN D7 -; - LEA SHFTTBL,A0 ;TO CONVERT DEPTH TO SHIFT - MOVE CHUNKYDEPTH,D1 ;GET DEPTH - MOVEQ #0,D7 ;DEFAULT SHIFT = 0 - MOVE.B 0(A0,D1),D7 ;GET SHIFT AMOUNT IN D7 - - -;----------------------------------------------- -; -; CHECK THE CURSOR TO SEE IF IT HAS CHANGED -; OLD CURSORS: CHECK CURSOR DATA AND DEPTH -; NEW CURSORS: CHECK DEPTH -; -GOTSHFT MOVE.L ([CRSRPTR]),A4 ;GET POINTER TO CURSOR DATA (LOCKED) - CMP #CCRSRPAT,CCTYPE(A4) ;IS IT A COLOR CURSOR? - BNE.S OLDCUR ;=>NO, JUST AN OLD ONE - CMP CCDEPTH(A4),D1 ;HAS DEPTH CHANGED? - BEQ NOEXPAND ;=>NO, DON'T EXPAND - CMP #2,D1 ;IS DEPTH 2 or 1? - BGT EXPMASK ;=>NO, JUST EXPAND MASK - BRA.S CPYDATA ;=>ELSE JUST COPY DATA - -OLDCUR LEA CCLASTCRSR(A4),A0 ;POINT TO SAVED DATA - MOVE.L A2,A1 ;GET POINTER TO CURSOR - MOVEQ #7,D0 ;CHECK 8 LONGS -@0 CMP.L (A0)+,(A1)+ ;ARE THEY THE SAME? - BNE.S GOEXPAND ;=>NO, EXPAND IT - DBRA D0,@0 ;=>LOOP UNTIL DONE - - CMP CCDEPTH(A4),D1 ;HAS DEPTH CHANGED? - BEQ NOEXPAND ;=>NO, DON'T EXPAND - -GOEXPAND -;----------------------------------------------- -; -; INVALIDATE EXPANDED DATA FOR EACH DEVICE BY CLEARING DEPTH -; THIS MUST BE DONE SO THAT ALL EXPANDED CURSOR IMAGES ARE RENDERED INVALID AFTER -; AN OLD CURSOR HAS BEEN SET. IF THE CURSOR IS NEW, SETCCURSOR ALREADY DID THIS. - - MOVE.L DEVICELIST,A0 ;GET FIRST HANDLE IN DEVICE LIST -NXTGD MOVE.L (A0),A0 ;POINT TO FIRST DEVICE - TST GDFLAGS(A0) ;IS IT ACTIVE? - BPL.S NOTACT ;=>NO, SKIP TO NEXT - CLR GDCCDEPTH(A0) ;ELSE INVALIDATE EXPANDED DATA -NOTACT MOVE.L GDNEXTGD(A0),D0 ;GET NEXT GRAFDEVICE - MOVE.L D0,A0 ;GET INTO A0 - BNE.S NXTGD ;=>REPEAT FOR ALL DEVICES - -; COPY THE CURSOR DATA TO IDENTIFY THIS CURSOR - -CPYDATA LEA CCLASTCRSR(A4),A0 ;POINT TO SAVED DATA - MOVE.L A2,A1 ;GET CURSOR - MOVEQ #7,D0 ;MOVE 8 LONGS -@0 MOVE.L (A1)+,(A0)+ ;MOVE A LONG - DBRA D0,@0 ;=>LOOP UNTIL DONE - -; UPDATE THE ROWBYTES AND DEPTH FOR THE EXPANDED DATA - - ; MOVE D1,(A0)+ ;COPY THE DEPTH TOO - MOVE D1,CCDEPTH(A4) ;SET DEPTH TO SAY IT'S EXPANDED - ADD D1,D1 ;DOUBLE FOR CURSOR'S ROWBYTES - MOVE D1,CCBYTES(A4) ;AND UPDATE ROWBYTES - - -;----------------------------------------------- -; -; EXPAND THE CURSOR TO THE CURRENT DEPTH -; - MOVE.L A2,A0 ;SRC = CURSOR - MOVE.L ([CCXDATA,A4]),A1 ;POINT TO EXPANDED DATA (LOCKED) - MOVE.L A1,A2 ;GET START OF DST BUFFER - MOVE #32,D5 ;GET #BYTES OF SOURCE - LSL D7,D5 ;MULTIPLY BY DEPTH - ADD D5,A2 ;POINT TO END OF BUFFER - - move d7,d0 - cmp #4,d0 ;16/32 bits per pixel? - blt.s @1 ;no, don't hack depth conversion - addq #2,d0 ;get address of spiffy 1 to 15/24 bit expand - -@1 move.l ExTblPtr,A3 ;POINT TO ROUTINE TABLE - add.l 0(A3,D0*4),A3 ;USE DEPTH TO SELECT ROUTINE - MOVEQ #0,D0 ;CLEAR HIGH PART OF D0 - JSR (A3) ;EXPAND 32*DEPTH BYTES - - -;----------------------------------------------- -; -; EXPAND THE MASK TO THE CURRENT DEPTH -; -EXPMASK LEA THECRSR+MASK,A0 ;SRC = CURSOR MASK - MOVE.L ([CCXMASK,A4]),A1 ;POINT TO EXPANDED MASK (LOCKED) - MOVE.L A1,A2 ;GET START OF DST BUFFER - MOVE #32,D5 ;GET #BYTES OF SOURCE - LSL D7,D5 ;MULTIPLY BY DEPTH - ADD D5,A2 ;POINT TO END OF BUFFER - - move.l ExTblPtr,A3 ;POINT TO ROUTINE TABLE - add.l 0(A3,D7*4),A3 ;USE DEPTH TO SELECT ROUTINE - MOVEQ #0,D0 ;CLEAR HIGH PART OF D0 - JSR (A3) ;EXPAND 32*DEPTH BYTES - -;----------------------------------------------- -; -; PREPARE TO BLT THE CURSOR ON THE SCREEN IN ANY DEPTH -; (SUBTITLE: WALTZ OF THE REGISTERS) ; -NOEXPAND - MOVE.L ([CCXDATA,A4]),d0 ;A2 = EXPANDED DATA FOR BLT (LOCKED) - _rTranslate24To32 ;strip off high byte - move.l d0,a2 - MOVE.L ([CCXMASK,A4]),d0 ;A3 = EXPANDED MASK FOR BLT (LOCKED) - _rTranslate24To32 ;strip off high byte - move.l d0,a3 - MOVEQ #16,D5 ;D5 = 16 - -;----------------------------------------------- -; -; CLIP THE CURSOR VERTICALLY AND GET THE TOP AND BOTTOM INTO D2 AND D3. -; IF THE TOP IS CLIPPED, UPDATE THE DATA BASE ADDRESSES IN A2 AND A3. -; - MOVE MOUSE+V,D2 ;MOUSE POSITION Y - SUB CRSRPIN+TOP,D2 ;CONVERT TO SCREEN LOCAL COORDS - SUB THECRSR+HOTSPOT+V,D2 ; - HOTSPOT = TOP EDGE - MOVE D2,D3 ;GET CURSOR BOTTOM - ADD D5,D3 ; = TOP + 16 - CMP D5,D3 ;AT TOP? - BGE.S CHKBOT ;=>NOT AT TOP - NEG D2 ;GET NUMBER OF CLIPPED ROWS - CMP D5,D2 ;ARE ALL 16 CLIPPED? - BEQ SkipBlit ;=>IF SO, NOTHING TO SHOW - MULU CCBYTES(A4),D2 ; * ROWBYTES FOR OFFSET - ADD.L D2,A2 ;ADD VERTICAL OFFSET INTO CURSOR - ADD.L D2,A3 ;ADD VERTICAL OFFSET INTO MASK - MOVEQ #0,D2 ;AND PIN CURSOR TO TOP - -CHKBOT MOVE COLLINES,D4 ;GET BOTTOM OF SCREEN - CMP D4,D3 ;PAST BOTTOM? - BLE.S CHKLFT ;=>NO, VERTICAL OK - MOVE D4,D3 ;ELSE PIN TO BOTTOM EDGE - - -;----------------------------------------------- -; -; CLIP THE CURSOR HORIZONTALLY AND GET THE LEFT AND RIGHT INTO D0 AND D1 -; IF THE LEFT OF THE CURSOR IS CLIPPED, ADJUST THE OFFET IN D6. - -CHKLFT MOVEQ #0,D6 ;INIT SRC/DST OFFSET TO 0 - MOVE MOUSE+H,D0 ;MOUSE POSITION X - SUB CRSRPIN+LEFT,D0 ;CONVERT TO SCREEN LOCAL COORDS - SUB THECRSR+HOTSPOT+H,D0 ; - HOTSPOT = CURSOR LEFT - MOVE D0,D1 ;GET CURSOR RIGHT - ADD D5,D1 ; = LEFT + 16 - CMP D5,D1 ;AT LEFT EDGE? - BGE.S CHKRT ;=>NOT AT LEFT EDGE - SUB D0,D6 ;OFFSET = AMOUNT CLIPPED - MOVEQ #0,D0 ;AND PIN TO LEFT EDGE - -CHKRT MOVE ROWBITS,D4 ;GET RIGHT EDGE OF SCREEN - CMP D4,D1 ;PAST RIGHT EDGE? - BLE.S RTOK ;=>NO, HORIZONTAL OK - MOVE D4,D1 ;ELSE PIN TO RIGHT EDGE -RTOK - -;----------------------------------------------- -; -; USE TOP AND LEFT TO CALCULATE THE LONG ALIGNED SCREEN BASE ADDRESS - - MOVE.L CRSRBASE,A5 ;A5 = POINTER TO BASE OF SCREEN - MOVE CRSRROW,A0 ;A0 = SCREEN ROWBYTES - MOVE A0,D4 ;COPY FOR MULU - MULU D2,D4 ;TOP * ROWBYTES - ADD.L D4,A5 ;ADD VERT OFFSET INTO SCREEN - ext.l d0 ;make it a long - LSL.l D7,D0 ;CONVERT LEFT PIXELS TO BITS - MOVE.l D0,D4 ;GET LEFT EDGE - AND.l #~$1F,D4 ;LONGWORD ALIGNED - MOVE.l D4,D5 ;MAKE A COPY - ASR.l #3,D5 ;CONVERT BITS TO BYTES - ADD.l D5,A5 ;GET BASE OFFSET IN SCREEN - -;----------------------------------------------- -; -; SAVE THE CRSRRECT FOR CURSHIELD - - LEA CrsrRect,A1 ;SET UP CRSRRECT - MOVE D2,(A1)+ ;TOP - MOVE.l D4,D5 ;GET LONG ALIGNED LEFT IN BITS - LSR.l D7,D5 ;CONVERT TO PIXELS - MOVE D5,(A1)+ ;LONG ALIGNED LEFT - MOVE D3,(A1)+ ;BOTTOM - MOVE D5,(A1) ;RIGHT = LEFT + longcount/pixs in long - - if cursorShadow then - add.w #16,-2(a1) ;grow height for shadow - add.w #16,(a1) ;grow width for shadow - endif - -SAMELONG -;----------------------------------------------- -; -; ADJUST DST/SRC OFFSET IN D6 -; GET NUMBER OF ROWS TO DO IN D3 -; GET LONGCNT IN D5 AND USE TO ADJUST DSTBUMP IN A0 - - AND #$1F,D0 ;GET LEFT EDGE MOD 32 - LSL D7,D6 ;CONVERT OFFSET TO BITS - SUB D0,D6 ; = NEG OFFSET FROM SOURCE - - ext.l d1 ;make it a long - LSL.l D7,D1 ;CONVERT RIGHT EDGE TO BITS - MOVE.l D1,D5 ;MAKE COPY - SUB.l D4,D5 ;GET WIDTH OF CURSOR - ble SkipBlit ;crsr fits in 0 or fewer longs so don't draw - subq #1,d5 ;force multiples of 32 to round down - - LSR.l #5,D5 ;GET LONGS-1 - - SUB D2,D3 ;D3 = # ROWS TO DO - SUBQ #1,D3 ;MAKE IT 0 BASED - - MOVE.l D5,D2 ;GET LONGS - ADDQ.l #1,D2 ;MAKE ONE BASED - LSL.l #2,D2 ;CONVERT TO BYTES - SUB.l D2,A0 ;ADJUST DST BUMP - - lsl.l #3,d2 ;get long aligned bit width - lsr.l d7,d2 ;get effective cursr pixel width - add d2,(a1) ;adjust crsrRect.right = left+width - - BSR CursorSect ;Now then, do we intersect shield? - BNE SkipBlit ;If so, ththat's all. - -;----------------------------------------------- -; -; CONVERT LEFT EDGE AND RIGHT EDGE TO LEFTMASK AND RIGHTMASK IN D4 AND D2 - - MOVEQ #-1,D4 ;FILL LONG WITH ONES - LSR.L D0,D4 ;AND SHIFT IN 0'S FOR LEFTMASK - - MOVEQ #-1,D2 ;FILL LONG WITH ONES - AND #$1F,D1 ;GET RIGHT MOD 32 - beq.s @1 ;does right have a real mask? no, flush it - LSR.L D1,D2 ;AND SHIFT 0'S IN FROM RIGHT - NOT.L D2 ;GET RIGHTMASK - -;----------------------------------------------- -; -; SAVE DSTLEFT/DSTBUMP/LONGCNT/ROWCNT INTO CRSRPTR SO THAT -; HIDECURSOR KNOWS HOW MUCH SCREEN TO REPLACE. - -@1 LEA CCBYTES(A4),A6 ;POINT TO END OF SAVE STATE AREA - MOVE (A6),A1 ;A1 = ROWBYTES FOR EXPANDED CURSOR - MOVE.L ([CCSAVE,A4]),d0 ;A4 = POINTER TO SAVE AREA (LOCKED) - _rTranslate24To32 ;strip off high byte - move.l d0,a4 - MOVEM.L A5/A0/D5/D3,-(A6) ;SAVE DSTLEFT/DSTBUMP/LONGCNT/ROWCNT - - moveq #true32b,d0 ;switch to 32 bit addressing - movem.l a0-a2,-(sp) ;save off registers - _rSwapMMUMode ;get previous mode in d0.b (can trash a0/a2, d0/d2) - movem.l (sp)+,a0-a2 ;restore registers - move.b d0,-(sp) ;save previous state for later - - MOVE.L D5,A6 ;SAVE LONGCNT - EXT.L D6 ;BFEXTU LIKES LONG OFFSETS - MOVE.L D6,-(SP) ;SAVE OFFSET ON STACK - MOVE.L D4,-(SP) ;SAVE LEFTMASK ON STACK - - ;use alternate loop if on Direct Device - - cmp #4,d7 ;are we 16 or 32 bits/pixel (direct device) ? - bge Direct ;no, don't hack - - if cursorShadow then - cmp #3,d7 - beq Shadow8 - endif - - TST D5 ;CHECK FOR JUST ONE LONG - BRA.S START ;AND JUMP INTO MIDDLE - -;----------------------------------------------- -; -; DISPLAY THE CURSOR AND SAVE THE BITS BEHIND IT (DO THE CURSOR LIMBO!!) -; -; THE FUNNY TRANSFER MODE USED HERE WORKS THE SAME AS BEFORE FOR ONE BIT -; MODE, AND SIMILARLY FOR COLOR. IN COLOR, THE DATA PIXELS WITHIN THE MASK -; REPLACE THE DESTINATION; THE DATA PIXELS OUTSIDE THE MASK ARE XORED WITH -; THE DST. IF THE DATA PIXELS OUTSIDE OF THE MASK ARE BLACK (ALL F'S), -; THEN THE DST IS SIMPLY INVERTED. IF THEY ARE OTHER COLORS, INTERESTING -; EFFECTS WILL MANIFEST THEMSELVES. -; -; REGISTER USE: D0: SCRATCH A0: DSTBUMP -; D1: SCRATCH A1: SRCBUMP -; D2: RIGHTMASK A2: SRCPTR -; D3: ROWCNT A3: MASKPTR -; D4: LEFTMASK A4: SAVEPTR -; D5: LONGCNT A5: DSTPTR -; D6: OFFSET A6: COPY LONGCNT -; D7: SCRATCH (A7): LEFTMASK -; 4(A7): COPY OFFSET - -END AND.L D2,D4 ;AND RIGHTMASK INTO LEFTMASK -MAIN BFEXTU (A2){D6:0},D0 ;EXTRACT A LONG OF SRC - BFEXTU (A3){D6:0},D1 ;EXTRACT A LONG OF MASK - ADD.L #32,D6 ;BUMP TO NEXT LONG - AND.L D4,D0 ;AND SRC WITH LEFTMASK - AND.L D4,D1 ;AND MASK WITH LEFTMASK - MOVE.L D0,D7 ;COPY SRC - - AND.L D1,D7 ;GET MASK AND SRC (PIXELS TO REPLACE) - NOT.L D1 ;GET NOTMASK - MOVE.L (A5),d4 ;get a long of screen - move.l d4,(A4)+ ;SAVE A LONG OF SCREEN - - AND.L D1,D0 ;GET NOTMASK AND SRC (PIXELS TO INVERT) - AND.L d4,D1 ;PUNCH HOLE FOR PIXELS TO REPLACE (used to be A5) - OR.L D7,D1 ;REPLACE PIXELS WITHIN MASK - EOR.L D0,D1 ;INVERT PIXELS OUTSIDE OF MASK - MOVE.L D1,(A5)+ ;AND PUT TO DST - MOVEQ #-1,D4 ;FLUSH LEFTMASK - SUB #1,D5 ;DECREMENT LONGCNT -START BGT.S MAIN ;=>MORE THAN ONE TO DO - BEQ.S END ;=>DO LAST LONG - MOVE.L 4(SP),D6 ;RESTORE OFFSET - MOVE.L (SP),D4 ;RESTORE LEFTMASK - ADD.L A1,A3 ;BUMP CURSOR DATA - ADD.L A1,A2 ;BUMP CURSOR MASK - ADD.L A0,A5 ;BUMP SCREEN POINTER - MOVE.L A6,D5 ;RESTORE LONGCNT (TEST D5) - DBRA D3,START ;=>DO NEXT ROW - - bra DoneBlit - - -Direct - bgt.s Direct32 - -;----------------------------------------------- -; -; DISPLAY THE CURSOR AND SAVE THE BITS BEHIND IT (DO THE CURSOR LIMBO!!) -; -; THE FUNNY TRANSFER MODE USED HERE WORKS THE SAME AS BEFORE FOR ONE BIT -; MODE, AND SIMILARLY FOR COLOR. IN COLOR, THE DATA PIXELS WITHIN THE MASK -; REPLACE THE DESTINATION; THE DATA PIXELS OUTSIDE THE MASK ARE XORED WITH -; THE DST. IF THE DATA PIXELS OUTSIDE OF THE MASK ARE BLACK (ALL F'S), -; THEN THE DST IS SIMPLY INVERTED. IF THEY ARE OTHER COLORS, INTERESTING -; EFFECTS WILL MANIFEST THEMSELVES. -; -; REGISTER USE: D0: SCRATCH A0: DSTBUMP -; D1: SCRATCH A1: SRCBUMP -; D2: RIGHTMASK A2: SRCPTR -; D3: ROWCNT A3: MASKPTR -; D4: LEFTMASK A4: SAVEPTR -; D5: LONGCNT A5: DSTPTR -; D6: OFFSET A6: COPY LONGCNT -; D7: SCRATCH (A7): LEFTMASK -; 4(A7): COPY OFFSET -Direct16 - swap d4 - - addq #1,d5 ;make one based - add d5,d5 ;convert longcnt to word cnt - move d5,d0 ;save pixel cnt - subq #2,d5 ;make zero based - 1 - move d5,a6 ;save a copy for later scans - - moveq #-1,d7 - lsr.w #1,d7 ;make into low15bits mask - - add d0,d0 ;make into byte cnt - sub d0,a1 ;make srcRow into srcBump - - asr #3,d6 ;make offset into bytes - add d6,a2 ;adjust src ptr - add d6,a3 ;adjust mask ptr - -@first tst d4 ;is left pixel masked? - bne.s @MAIN ;no, go to it - move.w (a5)+,(a4)+ ;save first pixel - addq #2,a2 ;bump past first src pixel - addq #2,a3 ;bump past first mask pixel - bra.s @next - -@MAIN move.w (A2)+,D0 ;EXTRACT A LONG OF SRC - MOVE.w (A5),d1 ;get a long of screen - move.w d1,(A4)+ ;SAVE A LONG OF SCREEN - tst.w (A3)+ ;EXTRACT A LONG OF MASK - bne.s @inside - not.w d0 ;flip src so that black is all 1's - and.w d7,d0 ;mask off high bit - beq.s @skipit ;no use in xoring with zero - eor.w d1,d0 ;xor dst with src -@inside - move.w d0,(a5) -@skipit addq #2,a5 -@next dbra D5,@MAIN ;DECREMENT LONGCNT - - tst d2 ;is right pixel masked? - bne.s @last ;no, go to it - move.w (a5)+,(a4)+ ;save first pixel - addq #2,a2 ;bump past first src pixel - addq #2,a3 ;bump past first mask pixel - bra.s @nxtScn - -@last move.w (A2)+,D0 ;EXTRACT A LONG OF SRC - MOVE.w (A5),d1 ;get a long of screen - move.w d1,(A4)+ ;SAVE A LONG OF SCREEN - tst.w (A3)+ ;EXTRACT A LONG OF MASK - bne.s @in - not.w d0 ;flip src so that black is all 1's - and.w d7,d0 ;mask off high bit - beq.s @skip ;no use in xoring with zero - eor.w d1,d0 ;xor dst with src -@in - move.w d0,(a5) -@skip addq #2,a5 -@nxtScn ADD.L A1,A3 ;BUMP CURSOR DATA - ADD.L A1,A2 ;BUMP CURSOR MASK - ADD.L A0,A5 ;BUMP SCREEN POINTER - MOVE.L A6,D5 ;RESTORE LONGCNT - DBRA D3,@First ;=>DO NEXT ROW - bra DoneBlit - - - - -;----------------------------------------------- -; -; DISPLAY THE CURSOR AND SAVE THE BITS BEHIND IT (DO THE CURSOR LIMBO!!) -; -; THE FUNNY TRANSFER MODE USED HERE WORKS THE SAME AS BEFORE FOR ONE BIT -; MODE, AND SIMILARLY FOR COLOR. IN COLOR, THE DATA PIXELS WITHIN THE MASK -; REPLACE THE DESTINATION; THE DATA PIXELS OUTSIDE THE MASK ARE XORED WITH -; THE DST. IF THE DATA PIXELS OUTSIDE OF THE MASK ARE BLACK (ALL F'S), -; THEN THE DST IS SIMPLY INVERTED. IF THEY ARE OTHER COLORS, INTERESTING -; EFFECTS WILL MANIFEST THEMSELVES. -; -; REGISTER USE: D0: SCRATCH A0: DSTBUMP -; D1: SCRATCH A1: SRCBUMP -; D2: RIGHTMASK A2: SRCPTR -; D3: ROWCNT A3: MASKPTR -; D4: LEFTMASK A4: SAVEPTR -; D5: LONGCNT A5: DSTPTR -; D6: OFFSET A6: COPY LONGCNT -; D7: SCRATCH (A7): LEFTMASK -; 4(A7): COPY OFFSET - - if cursorShadow then - -Direct32 - move d5,d0 ;get a copy of long cnt - addq #1,d0 ;make one based - lsl #2,d0 ;make into byte cnt - sub d0,a1 ;make srcRow into srcBump - - asr #3,d6 ;make offset into bytes - add d6,a2 ;adjust src ptr - add d6,a3 ;adjust mask ptr - - -voff equ 4 -hoff equ 4 - -;----------------------------------------------- -; -; SAVE DSTLEFT/DSTBUMP/LONGCNT/ROWCNT INTO CRSRPTR SO THAT -; HIDECURSOR KNOWS HOW MUCH SCREEN TO REPLACE. - - movem.l d3/d5/a6/a5/a0,-(sp) - MOVE.L ([CRSRPTR]),D0 ;GET POINTER TO CURSOR DATA (LOCKED) - _rTranslate24To32 - MOVE.L D0,A6 - LEA CCBYTES(A6),A6 ;POINT TO END OF SAVE STATE AREA - move.w mouse,d0 ;get vert pos - lsr.w #6,d0 - ; add.w #voff,d3 - add.w d0,d3 - move.w mouse+2,d0 ;get horiz pos - lsr.w #6,d0 - ; add.w #hoff,d5 - add.w d0,d5 - lsl.w #2,d0 - ; sub.w #hoff*4,a0 - sub.w d0,a0 - MOVEM.L A5/A0/D5/D3,-(A6) ;SAVE DSTLEFT/DSTBUMP/LONGCNT/ROWCNT - MOVE.L D5,A6 ;SAVE LONGCNT - -@MAIN2 MOVE.L (A5)+,d1 ;get a long of screen - move.l d1,(a4)+ ;save a long of screen - dbra D5,@MAIN2 ;DECREMENT LONGCNT - - ADD.L A0,A5 ;BUMP SCREEN POINTER - MOVE.L A6,D5 ;RESTORE LONGCNT - DBRA D3,@MAIN2 ;=>DO NEXT ROW - movem.l (sp)+,a5/d3/d5/a6/a0 - - - movem.l d3/a2-a5,-(sp) - - ; moveq #voff,d0 - move.w mouse,d0 ;get vert pos - lsr.w #6,d0 - bra.s @1 - -@0 ADD.w CRSRROW,A5 ;offset SCREEN POINTER vertically -@1 dbra d0,@0 - - move.w mouse+2,d0 ;get horiz pos - lsr.w #6,d0 - lsl.w #2,d0 - ; add.w #hoff*4,a5 - add.w d0,a5 - -@MAIN1 MOVE.L (A5),d1 ;get a long of screen - move.l (A2)+,d0 ;combine A LONG OF src - not.l d0 ;interested in nothing , dammit!!@! - and.l $31a,d0 ; shit line - or.l (A3)+,d0 ;EXTRACT A LONG OF MASK - beq.s @skipit1 - ;d0 = 0 - moveq #0,d0 ;assume result is black - moveq #$3f,d4 ;amount to remove from screen - swap d4 ;d4 = $3f0000 - sub.l d4,d1 ;darken the red channel - bcs.s @pinred - move.l d1,d0 ;take the red channel -@pinred - lsr.l #8,d4 - sub.w d4,d1 ;darken the grn channel - bcs.s @pingrn - move.w d1,d0 ;take the grn channel -@pingrn - lsr.w #8,d4 - sub.b d4,d1 ;darken the blu channel - bcs.s @pinblu - move.b d1,d0 ;take the blu channel -@pinblu - - move.l d0,(a5) -@skipit1 - addq #4,a5 - dbra D5,@MAIN1 ;DECREMENT LONGCNT - - ADD.L A1,A3 ;BUMP CURSOR DATA - ADD.L A1,A2 ;BUMP CURSOR MASK - ADD.L A0,A5 ;BUMP SCREEN POINTER - MOVE.L A6,D5 ;RESTORE LONGCNT - DBRA D3,@MAIN1 ;=>DO NEXT ROW - - movem.l (sp)+,d3/a2-a5 - - - -@MAIN move.l (A2)+,D0 ;EXTRACT A LONG OF SRC - MOVE.L (A5),d1 ;get a long of screen - tst.l (A3)+ ;EXTRACT A LONG OF MASK - bne.s @inside - not.l d0 ;flip src so that black is all 1's - beq.s @skipit ;no use in xoring with zero - eor.l d1,d0 ;xor dst with src -@inside - move.l d0,(a5) -@skipit addq #4,a5 - dbra D5,@MAIN ;DECREMENT LONGCNT - - ADD.L A1,A3 ;BUMP CURSOR DATA - ADD.L A1,A2 ;BUMP CURSOR MASK - ADD.L A0,A5 ;BUMP SCREEN POINTER - MOVE.L A6,D5 ;RESTORE LONGCNT - DBRA D3,@MAIN ;=>DO NEXT ROW - bra DoneBlit - - -; REGISTER USE: D0: SCRATCH A0: DSTBUMP -; D1: SCRATCH A1: SRCBUMP -; D2: RIGHTMASK A2: SRCPTR -; D3: ROWCNT A3: MASKPTR -; D4: LEFTMASK A4: SAVEPTR -; D5: LONGCNT A5: DSTPTR -; D6: OFFSET A6: COPY LONGCNT -; D7: SCRATCH (A7): LEFTMASK -; 4(A7): COPY OFFSET -Shadow8 - move d5,d0 ;get a copy of long cnt - addq #1,d0 ;make one based - lsl #2,d0 ;make into byte cnt - sub d0,a1 ;make srcRow into srcBump - - asr #3,d6 ;make offset into bytes - add d6,a2 ;adjust src ptr - add d6,a3 ;adjust mask ptr - - -;----------------------------------------------- -; -; SAVE DSTLEFT/DSTBUMP/LONGCNT/ROWCNT INTO CRSRPTR SO THAT -; HIDECURSOR KNOWS HOW MUCH SCREEN TO REPLACE. - - movem.l d3/d5/a6/a5/a0,-(sp) - MOVE.L ([CRSRPTR]),D0 ;GET POINTER TO CURSOR DATA (LOCKED) - _rTranslate24To32 - MOVE.L D0,A6 - LEA CCBYTES(A6),A6 ;POINT TO END OF SAVE STATE AREA - move.w mouse,d0 ;get vert pos - lsr.w #6,d0 ;d0=voff - ; add.w #voff,d3 - add.w d0,d3 - move.w mouse+2,d0 ;get horiz pos - lsr.w #6,d0 ;d0=hoff - ; add.w #hoff,d5 - addq #3,d0 - lsr.w #2,d0 ;d0=shadow width longs - add.w d0,d5 - - lsl.w #2,d0 - ; sub.w #hoff*4,a0 - sub.w d0,a0 - MOVEM.L A5/A0/D5/D3,-(A6) ;SAVE DSTLEFT/DSTBUMP/LONGCNT/ROWCNT - MOVE.L D5,A6 ;SAVE LONGCNT - -;------------------------------------------- -; Save bits under cursor/shadow -;------------------------------------------- -@MAIN2 MOVE.L (A5)+,d1 ;get a long of screen - move.l d1,(a4)+ ;save a long of screen - dbra D5,@MAIN2 ;DECREMENT LONGCNT - - ADD.L A0,A5 ;BUMP SCREEN POINTER - MOVE.L A6,D5 ;RESTORE LONGCNT - DBRA D3,@MAIN2 ;=>DO NEXT ROW - movem.l (sp)+,a5/d3/d5/a6/a0 - - -;------------------------------------------- -; Draw Shadow -;------------------------------------------- - movem.l d3/a2-a5,-(sp) - - ; moveq #voff-1,d0 - move.w mouse,d0 ;get vert pos - lsr.w #6,d0 - bra.s @1 - -@0 ADD.w CRSRROW,A5 ;offset SCREEN POINTER vertically -@1 dbra d0,@0 - - move.w mouse+2,d0 ;get horiz pos - lsr.w #6,d0 - add.w d0,a5 - ; add.w #hoff,a5 - -@MAIN1 MOVE.l (A5),d1 ;get a long of screen - move.l (A2)+,d0 ;combine A LONG OF src - or.l (A3)+,d0 ;EXTRACT A LONG OF MASK - beq.s @skipit1 - ;d0 = 0 - moveq #0,d0 ;assume result is black - moveq #$3f,d4 ;amount to remove from screen - swap d4 ;d4 = $3f0000 - sub.l d4,d1 ;darken the red channel - bcs.s @pinred - move.l d1,d0 ;take the red channel -@pinred - lsr.l #8,d4 - sub.w d4,d1 ;darken the grn channel - bcs.s @pingrn - move.w d1,d0 ;take the grn channel -@pingrn - lsr.w #8,d4 - sub.b d4,d1 ;darken the blu channel - bcs.s @pinblu - move.b d1,d0 ;take the blu channel -@pinblu - - ; move.l d0,(a5) -@skipit1 - addq #4,a5 - dbra D5,@MAIN1 ;DECREMENT LONGCNT - - ADD.L A1,A3 ;BUMP CURSOR DATA - ADD.L A1,A2 ;BUMP CURSOR MASK - ADD.L A0,A5 ;BUMP SCREEN POINTER - MOVE.L A6,D5 ;RESTORE LONGCNT - DBRA D3,@MAIN1 ;=>DO NEXT ROW - - movem.l (sp)+,d3/a2-a5 - -;------------------------------------------- -; Draw cursor atop shadow -;------------------------------------------- - -@MAIN move.l (A2)+,D0 ;EXTRACT A LONG OF SRC - tst.l (A3)+ ;EXTRACT A LONG OF MASK - bne.s @inside - tst.l d0 ;flip src so that black is all 1's - beq.s @skipit ;no use in xoring with zero - MOVE.L (A5),d1 ;get a long of screen - eor.l d1,d0 ;xor dst with src -@inside - move.l d0,(a5) -@skipit addq #4,a5 - dbra D5,@MAIN ;DECREMENT LONGCNT - - ADD.L A1,A3 ;BUMP CURSOR DATA - ADD.L A1,A2 ;BUMP CURSOR MASK - ADD.L A0,A5 ;BUMP SCREEN POINTER - MOVE.L A6,D5 ;RESTORE LONGCNT - DBRA D3,@MAIN ;=>DO NEXT ROW - - else - -Direct32 - moveq #-1,d4 - lsr.l #8,d4 ;get low3bytes in d4 - move d5,d0 ;get a copy of long cnt - addq #1,d0 ;make one based - lsl #2,d0 ;make into byte cnt - sub d0,a1 ;make srcRow into srcBump - - asr #3,d6 ;make offset into bytes - add d6,a2 ;adjust src ptr - add d6,a3 ;adjust mask ptr - -@MAIN move.l (A2)+,D0 ;EXTRACT A LONG OF SRC - MOVE.L (A5),d1 ;get a long of screen - move.l d1,(A4)+ ;SAVE A LONG OF SCREEN - tst.l (A3)+ ;EXTRACT A LONG OF MASK - bne.s @inside - not.l d0 ;flip src so that black is all 1's - and.l d4,d0 ;mask off high byte - beq.s @skipit ;no use in xoring with zero - eor.l d1,d0 ;xor dst with src -@inside - move.l d0,(a5) -@skipit addq #4,a5 - dbra D5,@MAIN ;DECREMENT LONGCNT - - ADD.L A1,A3 ;BUMP CURSOR DATA - ADD.L A1,A2 ;BUMP CURSOR MASK - ADD.L A0,A5 ;BUMP SCREEN POINTER - MOVE.L A6,D5 ;RESTORE LONGCNT - DBRA D3,@MAIN ;=>DO NEXT ROW - - endif - - -DoneBlit - ADDQ #8,SP ;STRIP LEFTMASK AND OFFSET - MOVE.B #1,CrsrVis ;CURSOR VISIBLE - - moveq #0,d0 - move.b (sp)+,d0 ;get previous MMU state in d0 - _rSwapMMUMode ;restore MMU mode from d0.b -SkipBlit - MOVEM.L (SP)+,D0-D7/A0-A6 ;THE WALTZ IS OVER...(TANGO VERY MUCH) -NoBlit - RTS - - - -;_______________________________________________________________________ -; -; UNBLITCURSOR -; -; This routine unconditionally removes cursor according to the data in -; CCSTATEREGS. -; Such things as crsrstate, crsrvis, and other nonsense have already been -; checked. Vectoring this routine may prove useful for later cursor -; enhancements. - -UNBLITCURSOR PROC EXPORT - TST.L CRSRPTR ;CURSOR ALLOCATED? - BMI.S DONEHIDE ;=>NO, JUST RETURN - MOVEM.L D1-D4/A0-A2,-(SP) ;SAVE REGS USED - - MOVE.L ([CRSRPTR]),A0 ;GET POINTER TO CURSOR SAVE DATA (LOCKED) - MOVE.L CCSAVE(A0),A1 ;GET HANDLE TO SAVED BITS - MOVE.L (A1),d0 ;POINT TO SAVED BITS - _rTranslate24To32 ;mask off high byte - move.l d0,a1 - LEA CCSTATEREGS(A0),A0 ;POINT TO SAVE STATE AREA - MOVEM.L (A0)+,D2/D3/D4/A2 ;GET /ROWCNT/LONGCNT/DSTBUMP/DSTLEFT - - moveq #true32b,d0 ;switch to 32 bit mode - movem.l d2/a1/a2,-(sp) ;save off registers - _rSwapMMUMode ;get previous mode in d0.b (can trash a0/a2, d0/d2) - movem.l (sp)+,d2/a1/a2 ;restore registers - - MOVE.L D3,A0 ;SAVE LONGCNT -@1 MOVE.L (A1)+,(A2)+ ;RESTORE A LONG OF SOURCE - DBRA D3,@1 ;=>DO ENTIRE ROW - MOVE.L A0,D3 ;RESTORE LONGCNT - ADD D4,A2 ;BUMP DST - DBRA D2,@1 ;=>DO FOR ALL LINES - - _rSwapMMUMode ;restore original mode from d0.b - - CLR.B CRSRVIS ;MARK IT AS INVISIBLE - MOVEM.L (SP)+,D1-D4/A0-A2 ;RESTORE REGS USED -DONEHIDE RTS +_SetCCursor PROC EXPORT + IMPORT QDNEW_SETCCURSOR + JMP QDNEW_SETCCURSOR ; ;_______________________________________________________________________ @@ -1976,7 +318,7 @@ DONEHIDE RTS ; ; return a pointer to the start of the bit-map display ; -ScrnAddress PROC EXPORT +_ScrnAddress PROC EXPORT MOVE.L ScrnBase,4(SP) ;get screenBase set up by OS RTS ;that was easy! @@ -1987,7 +329,7 @@ ScrnAddress PROC EXPORT ; ; return the size of the screen in pixels ; -ScrnSize PROC EXPORT +_ScrnSize PROC EXPORT MOVE.L (SP)+,D0 ;get the return address MOVE.L MainDevice,A0 ;get handle to main screen device MOVE.L (A0),A0 ;point to main screen device diff --git a/QuickDraw/CQD.a b/QuickDraw/CQD.a --- a/QuickDraw/CQD.a +++ b/QuickDraw/CQD.a @@ -50,6 +50,7 @@ PrNonPortable EQU 1 WholeErrors EQU 1 AddrModeFlag EQU 0 Quicker EQU 1 +has32BitQD EQU 1 ROMPaletteMgr EQU 1 ;set to zero for System Disk, 1 for ROM build @@ -155,6 +156,7 @@ BlockHead PROC EXPORT endif INCLUDE 'BITBLT.a' INCLUDE 'cCrsrCore.a' + INCLUDE 'QDExtensions2.a' INCLUDE 'QDUtil.a' INCLUDE 'Colorasm.a' INCLUDE 'Patterns.a' diff --git a/QuickDraw/CheckDevicesINIT.a b/QuickDraw/CheckDevicesINIT.a --- a/QuickDraw/CheckDevicesINIT.a +++ b/QuickDraw/CheckDevicesINIT.a @@ -221,8 +221,8 @@ SlotParms EQU IOPBlk-spBlock.SPBlockSize ; parameter block for slot manag VidParms EQU SlotParms-12 ; [12] size of mode params StartList EQU VidParms-4 ; [long] pointer to start of resource -VARSIZE EQU StartList ; size of local vars for CheckDevices -UTILVARS EQU VidParms ; size of local vars for utility routines +VARSIZE EQU StartList-4 ; size of local vars for CheckDevices +UTILVARS EQU VidParms-$30 ; size of local vars for utility routines ; ••• Start of Code ••• ; @@ -317,557 +317,42 @@ SetDevGamma ; ---------------------------------------------------------------------------------------------------------- + +NewFunc + + Link A6,#-$B4 + Move.l A2,-(SP) + Move.l (A0),A2 + + Lea.l -$94(A6),A1 + Move.l #-2,(A1) + + Lea.l -$B4(A6),A0 + Move.l A0,$C(A1) + Lea.l -$40(A6),A0 + + Move (A2),$18(A0) + Move #$14,$1A(A0) + Move.l A1,$1C(A0) + dc.w $A205 ; _PBStatusImmed + Move.l (SP)+,A2 + Unlk A6 + Rts + + + CheckDevices ; <19>: Moved label from within if-endif to embed utility ; routines. It would be nice to be able to the the LINK ; stuff AFTER the GotScrn entrypoint. LINK A6,#VARSIZE ; allocate local stack frame - MOVEM.L A0-A6/D0-D7,-(SP) ; so we don’t screw up the boot process -;+++ MOVEM.L D6-D7/A2-A4,-(SP) ; save work registers + MOVEM.L A0-A4/D0-D7,-(SP) ; so we don’t screw up the boot process -;+++; check to see if the device list needs to be initialized -;+++ -;+++ MOVE.L DeviceList,A0 ; get handle to device list -;+++ MOVE.L (A0),A0 ; point to head of device list -;+++ MOVE GDFlags(A0),D0 ; get the flags word -;+++ BTST #allInit,D0 ; test initialize flag? -;+++ BNE GoHome ; => devices already initialized - -; ••• 1st INIT ••• -; -; Try to load in the resource. If none, then just do a SetEntries on the boot device (see -; the comments on the NoScrn code below). -; -GetScrn - CLR.L -(SP) ; make room for function result - MOVE.L #'scrn',-(SP) ; push desired resource type - CLR -(SP) ; resource ID = 0 - _GetResource ; get the resource - MOVE.L (SP)+,D0 ; get the resource handle - Beq.s NoScrn ; if nil, do the no 'scrn' code - -; ••• 2nd INIT ••• -; -; Test the scrnInval low-mem to make sure the screen resource is valid. (Note: scrnInval -; will generally be cleared by the video card’s primaryInit IF the information in -; pRAM doesn’t match the current set up). This is ALSO a case where we need to -; make a SetEntries call so the screen colors don’t change on the the first SetEntries -; and/or SetGamma call. -; -ChkScrn - Tst.b scrnInval ; If the 'scrn' resource is not invalid, - Bne.s GotScrn ; then just go on. - - Move.l D0,A4 ; Save the 'scrn' resource handle. - - Move.l #gestaltDisplayMgrAttr,D0 ; We need to know if the Display Manager is around. - _Gestalt ; Ask, and ye shall receive. - Bne.s @NoDM ; Oops, got an error. - Move.l A0,D0 ; Get the result into D0. - Btst #gestaltDisplayMgrPresent,D0 ; If the Display Manager is around, then - Bne.s NoScrn ; don’t dispose of the 'scrn' resource so -@NoDM ; so that the Display Manager can deal with it. - - Clr.w -(Sp) ; Make room for resFile refNum. - Move.l A4,-(Sp) ; Push 'scrn' resource handle for resFile. - _HomeResFile ; Get refNum. - - Move.l A4,-(Sp) ; Push 'scrn' resource handle for remove. - _RmveResource ; Try to remove it. - Tst.w ResErr ; If everything is okay, then - Beq.s @DisposeIt ; just go on. - - Tst.w (Sp)+ ; Clean up the stack. - Move.l A4,D0 ; Get 'scrn' resource handle back into D0. - Bra.s GotScrn ; And we’re screwed. - -@DisposeIt Movea.l A4,A0 ; Get 'scrn' resource handle into A0. - _DisposHandle ; Dispose it. - - _UpdateResFile ; Update the 'scrn's resFile lest we die later. - -; If a 'scrn' resource is NOT around we’ll get here. The only thing we want to do at this -; point is to call SetDevEntries on the boot device so that the screen will not change colors -; after a SetEntries/SetGamma call is made later. -; -NoScrn Move.l DeviceList,A0 ; A0 contains gDevice. Move.l #-1,A1 ; Use gDevice’s PixMap for colorTable. Bsr.s SetDevEntries ; Bra NoGammaFix -; ••• 3rd INIT ••• -; -; Lock down the 'scrn' handle, and point at the data (in A4). -; -GotScrn - MOVE.L DeviceList,A0 ; get handle to device list - MOVE.L (A0),A0 ; point to head of device list - BSET #allInit,GDFlags(A0) ; say list has been initialized - - MOVE.L D0,-(SP) ; save 'scrn' resource for ReleaseResource - MOVE.L D0,A0 ; get the resource - _HLock ; lock it down - MOVE.L (A0),A4 ; A4 = resource pointer - -; Validate the 'scrn' resource. There must be a descriptor for every screen device. -; I assume that there are no duplicate entries and that screens don't overlap. -; In addition the devices in the 'scrn' resource must be in slot order. -; - MOVE.L A4,StartList(A6) ; save pointer to start of list - MOVE (A4)+,D7 ; get the number of screens in resource - - WITH spBlock,vpBlock - - LEA SlotParms(A6),A0 ; get pointer to parameter block - MOVE.L #((CatDisplay << 16) ++ TypVideo),spCategory(A0) - ; set category ID, type - MOVE.W #drSwApple,spDrvrSw(A0) ; set software, hardware ID - MOVE.B #$01,spTBMask(A0) ; ignore spDrvrHw - MOVE.B #0,spSlot(A0) ; start with desired slot (0 to check built-in devices) - MOVE.B #0,spID(A0) ; start with first (zeroth) ID - CLR.B spExtDev(A0) ; -NxtDev _sNextTypesRsrc ; get next video device - BEQ.S GotDev ; => there is one - -; There are no more screens; are there any more entries in the 'scrn' resource? -; - TST D7 ; there should have been one per device - BEQ GoodRsrc ; => there was, go initialize them - BRA BadScrn ; - -; Scan through 'scrn' resource entry for this device. -; -GotDev MOVE (A4)+,D0 ; get type - CMP spDrvrHw(A0),D0 ; does it match? - BNE BadScrn ; => nope, bad screen resource - MOVE (A4)+,D0 ; get slot - CMP.B spSlot(A0),D0 ; does it match? - BNE.S BadScrn ; => nope, bad screen resource - -; Get the DCE entry for the device and check dCtlDevBase. -; If no match, look for other devices in the same slot. -; -SlotOK MOVE spRefNum(A0),D0 ; get the refNum - NOT D0 ; refNum to unitnum - ASL #2,D0 ; offset in unitTable - MOVE.L UTableBase,A1 ; get the base of the unit table - MOVE.L (A1,D0),A3 ; A3 = handle to the DCE - MOVE.L (A3),A1 ; get pointer to the DCE - MOVE.L dCtlDevBase(A1),D0 ; get dCtlDevBase - CMP.L (A4)+,D0 ; do they match? - BNE.S BadScrn ; => nope, bad screen resource - -; Test to make sure that the requested mode (screen depth) is valid in this video -; sRsrc list. -; - MOVE.B spID(A0),D1 ; save the spID (so that it’s correct for the sNextTypesRsrc) - MOVE.W (A4)+,D0 ; get the mode - MOVE.B D0,spID(A0) ; insert into spBlock - _sFindStruct ; find the sRsrc list entry for this mode - BNE.S BadScrn ; if not, then the scrn resource is no good - MOVE.B D1,spID(A0) ; restore the spID - -; To be completely compulsive about it, make sure there's a gDevice. -; - MOVE.L DeviceList,A3 ; A3 = first gDevice in list - MOVE spRefNum(A0),D1 ; get refnum (unaffected by sFindStruct) -@NxtGD MOVE.L (A3),A1 ; get pointer to device - CMP gdRefNum(A1),D1 ; does refnum match? - BEQ.S RectCheck ; => yes, this device matches! - MOVE.L gdNextGD(A1),D0 ; get handle of next device - MOVE.L D0,A3 ; get in A3 - BNE.S @NxtGD ; => check all gDevices - BRA.S BadScrn ; => no such gDevice, bad 'scrn' - -; Compare the size of the remembered screenRect to the size of this gDevice's -; gdRect. At this point, the gdRects are still topleft={0,0} from InitGDevice -; so we can just check 'scrn' rect against botRight. -; -RectCheck - ADD #8,A4 ; skip to global rect in 'scrn' - MOVE.W bottom(A4),D0 ; get bottom - SUB.W top(A4),D0 ; = height - CMP.W gdRect+bottom(A1),D0 ; is it equal? - BNE.S BadScrn ; nope, we're out - MOVE.W right(A4),D0 ; get right - SUB.W left(A4),D0 ; = width - CMP.W gdRect+right(A1),D0 ; is it equal? - BNE.S BadScrn ; nope, we're out - -; This device matches! Go check the next one. -; -SkipData ADD #8,A4 ; skip to control field - MOVE (A4)+,D0 ; get number of control calls - BRA.S SkipCtl ; skip control call -SkipNxt MOVE.L (A4)+,D1 ; get control code, size of params - ADD D1,A4 ; add size of params to skip block -SkipCtl DBRA D0,SkipNxt ; => skip next control - - SUBQ #1,D7 ; decrement device count - BMI.S BadScrn ; => oops, bad screen resource - - LEA SlotParms(A6),A0 ; get pointer to parameter block <14> - BRA.s NxtDev ; => check next device <19>: .s - -; If the 'scrn' resource is bad, then let's walk down the device list and offset -; the invalid screens' gdRects so that they don't all pile up at (0,0). Let's keep -; it simple--just put them all edge-to-edge, with the top edge at 0 (unchanged) and -; to the right of the previous guys'. Offset the gdPMap's rect also. -; -BadScrn - MOVE.L DeviceList,A0 ; get the head of the list (the boot screen) - MOVE.L (A0),A0 ; hndl->ptr - MOVE.W gdRect+right(A0),D1 ; get the boot screen's right edge (if the scrn - ; is invalid, then this is the real right edge) -@Loop MOVE.L gdNextGD(A0),D0 ; get handle to next screen - BEQ ScrnDone ; when NIL we're out of here <19>: Done -> ScrnDone - MOVE.L D0,A0 ; get this device - MOVE.L (A0),A0 ; handle to ptr - ADD.W D1,gdRect+left(A0) ; offset the left edge (normally zero) - ADD.W D1,gdRect+right(A0) ; offset the right edge - MOVE.L gdPMap(A0),A1 ; get the gdPMap handle - MOVE.L (A1),A1 ; get the gdPMap pointer - ADD.W D1,pmBounds+left(A1) ; offset the left edge (normally zero) - ADD.W D1,pmBounds+right(A1) ; offset the right edge - - MOVE.W gdRect+right(A0),D1 ; get the new right edge for the next device - BRA.S @Loop ; for each screen - -GoodRsrc _HideCursor ; cursor must be hidden here - MOVE.B #true,CrsrBusy ; MARK CHANGE IN PROGRESS - -; Configure each entry in the scrn resource -; - MOVE.L StartList(A6),A4 ; save pointer to start of list - MOVE (A4)+,D7 ; get the number of screens in resource - SUBQ #1,D7 ; make it 0 based - -; It would be nice if this routine could use sRsrcInfo or sNextsRsrc here, but we -; don't keep the video sRsrc spID in the scrn resource, just the hw ID!!! To -; make up for this, we must do a search by type. -; -DoNxt LEA SlotParms(A6),A0 ; get pointer to parameter block - MOVE.L #((CatDisplay << 16) ++ TypVideo),spCategory(A0) - ; set category ID, type - MOVE.W #drSwApple,spDrvrSw(A0) ; - ; set software, (invalid) hardware ID - MOVE (A4)+,spDrvrHw(A0) ; set driver hardware ID - MOVE.B #$00,spTBMask(A0) ; all fields valid - MOVE (A4)+,D0 ; get slot - MOVE.B D0,spSlot(A0) ; does it match? - MOVE.B #0,spID(A0) ; start with first ID - CLR.B spExtDev(A0) ; - _sNextTypesRsrc ; get next video device -;+++ BNE BadScrn ; => this should never be taken (so let’s comment it out) <12> - -; We found a device that matches the given description! Find its gDevice and configure it. -; - MOVE spRefNum(A0),D1 ; D1 = refnum - - MOVE.L DeviceList,A3 ; A3 = first gDevice in list -@NxtGD MOVE.L (A3),A0 ; get pointer to device - CMP gdRefNum(A0),D1 ; does refnum match? - BEQ.S @GotGD ; => yes, got the gDevice - MOVE.L gdNextGD(A0),D0 ; get handle of next device - MOVE.L D0,A3 ; get in A3 - BNE.S @NxtGD ; => check all gDevices -;+++ BRA BadScrn ; => this should never be taken (so let’s comment it out) <12> - -@GotGD MOVE.L (A4)+,D0 ; discard dCtlDevBase - -; Set up the GDFlags word before calling InitGDevice. -; - MOVE.L (A3),A1 ; point at the grafDevice - MOVE gdFlags(A1),D0 ; get the flags word - AND 2(A4),D0 ; turn off the bits that are used - OR 4(A4),D0 ; turn on new bits - BSET #ramInit,D0 ; say we've initialized it - BSET #screenDevice,D0 ; and flag it as a screen device - MOVE D0,GDFlags(A1) ; set the flags word - -; If main device, set up low-memory handles. (Wait: If the ramInit and screenDevice -; flags are NOT setup, then why would the mainScreen flag be setup? -- jmp) -; - MOVE gdFlags(A1),D0 ; get the flags word - BTST #mainScreen,D0 ; is it the main scrn? - BEQ.S @InitGD ; => no, go init device - - MOVE.L A3,MainDevice ; set up as main screen device - MOVE.L A3,TheGDevice ; set up as default destination device - MOVE.L A3,SrcDevice ; set up as default source device - ; AllocCursor called by InitCursor to init cursor - MOVE.L (A3),A0 ; point to gDevice - MOVE.L gdPMap(A0),A0 ; get pixMap handle - MOVE.L (A0),A0 ; point to pixMap - MOVE.L baseAddr(A0),D0 ; get base address - MOVE.L D0,scrnBase ; and set up screen base - - LEA SlotParms(A6),A0 ; point at slot manager block again (it's still positioned from above) - MOVE (A4),D0 ; get the requested mode - MOVE.B #oneBitMode,spId(A0) ; pass the default mode (assumed to be 1-bit mode) - _sFindStruct ; point to this mode information - - MOVE.B #mVidParams,spID(A0) ; now get the device pixmap - _sGetBlock ; on the current heap (system normally here) - MOVE.L spResult(A0),A1 ; get the result pointer - MOVE.w vpRowBytes(A1),screenRow ; get the screen row bytes (WORD) - -; Set up the low-mem for screen resolution too. They’re only WORD/WORD rather then FIXED/FIXED. -; - MOVE.W vpHRes(A1),ScrHRes ; Take the high word of vpHRes - MOVE.W vpVRes(A1),ScrVRes ; Take the high word of vpVRes - - MOVE.L spResult(A0),A0 ; Do what it says in IM V (p 446) instead of - _DisposPtr ; of using _sDispose. <12> - -@InitGD MOVE D1,-(SP) ; push refnum - MOVE (A4)+,-(SP) ; push mode - CLR -(SP) ; which should be long - MOVE.L A3,-(SP) ; push gDevice - _InitGDevice ; configure the gDevice - ADDQ #4,A4 ; mask and flags already used - -; If there is a gamma table resource id, get the gamma correction table and call the driver. -; We need to do this before setting the color table (via SetEntries) to make sure it takes -; effect right away. -; - MOVE 2(A4),D0 ; get the gamma table resource id - CMP #-1,D0 ; is it -1? - BEQ.S ChkTbl ; => yes, no table - -; If the gamma table resource id = -2, then request linear gamma from the driver. -; - CMP #-2,D0 ; is it -2? - BNE.S @GetFromSys ; nope, so load the system resource - -;+++ LEA VidParms(A6),A1 ; point to parameter block -;+++ CLR.L csGTable(A1) ; pass NIL to tell new drivers to set linear -;+++ BSR.S GammaControl ; call a common routine to set gamma - -; <19>: Use SetDevGamma instead of GammaControl -; - Move.l A3,A0 ; Put gDevice in A0 for SetDevGamma call. - Move.l #0,A1 ; (nil) gammaTable Ptr in A1 (to set linear). - Bsr.s SetDevGamma -; - BRA.S ChkTbl - -; Load the gamma resource from the system and set it. -; -@GetFromSys CLR.L -(SP) ; make room for function result - MOVE.L #'gama',-(SP) ; push gamma table rsrc type - MOVE D0,-(SP) ; else push resource id - _GetResource ; try to read in gamma table - MOVE.L (SP)+,D0 ; get the result - BEQ.S ChkTbl ; => couldn't find it, use default - MOVE.L D0,-(SP) ; save a copy for later - MOVE.L D0,A0 ; setup for HLock - _HLock ; - -;+++ LEA VidParms(A6),A1 ; point to params for SetGamma -;+++ MOVE.L (A0),csGTable(A1) ; gamma table pointer is only param -;+++ BSR.S GammaControl ; call a common routine - -; <19>: Use SetDevGamma instead of GammaControl. For <23>, the setup for the -; SetDevGamma call was backwards. -; - Move.l (A0),A1 ; Put pointer to gammaTable in A1, and - Move.l A3,A0 ; put pointer to GDevice in A0. - Bsr.s SetDevGamma -; - MOVE.L (SP),A0 ; get the resource handle back - _HUnlock ; free it - _ReleaseResource ; and release it (fixing the stack) - -; <19>: Commented out GammaControl as it is replaced by the SetDevGamma utility -; above. Also, the branch around the GammaControl routine is commented -; out. -; -;+++ BRA.S ChkTbl ; continue on -; -; Here's an imbedded utility. I know I burn 2 bytes always BSRing around it, but I -; would burn two with a word branch if the utility were outside. This routine sets -; up the iopb and csParam block for a SetGamma control call. It expects the csGTable -; field to be set up, the csParam block pointer in A1, and the gdevice pointer in A3. -; -;GammaControl -; -; LEA IOPBlk(A6),A0 ; point to parameter block -; MOVE.L A1,csParam(A0) ; move addr of parms into block -; MOVE.W #cscSetGamma,csCode(A0) ; cscSetGamma <12> -;+++ CLR.L ioCompletion(A0) ; no completion routine <16>: not necessary -;+++ CLR.W ioVRefNum(A0) ; no volRefNum <16>: not necessary -; MOVE.L (A3),A1 ; point to gdevice -; MOVE GDRefNum(A1),ioRefNum(A0) ; set device's refnum -; _Control ,IMMED ; SetGamma(GammaTable) -; ; if error here (likely if -2 were passed to -; ; and old driver) then just use default table -; RTS ; and back -; -; -; Previously, if there was a color table resource id, this part loaded that table. Now, -; it checks the state of the gdDevType bit. If it is monochrome (=0), then this routine -; substitutes pixelSize+32 for the resID. If it is color (=1) and in 2- or 4-bit mode, then -; pixelSize+64 is substituted to yield a modified color table that includes the highlight -; color. -; -; If we EVER have a gamma ID <> -1 (not default), then be sure to set the color table -; to flush this gamma into the CLUT hardware. -; -; The pointer to the gDevice is still in A1. -; -; -ChkTbl - MOVE.L (A3),A1 ; point to the gDevice again - MOVE.L gdPMap(A1),A0 ; get pixmap - MOVE.L (A0),A0 ; get pixmap ptr - MOVE.W pmPixelSize(A0),D0 ; get depth - - CMP #clutType,gdType(A1) ; is it a direct/fixed (SKH) device? - BNE SetGRect ; if so, then do nothing <19>:s CSS - - BTST #gdDevType,gdFlags+1(A1) ; is it color or monochrome mode? - BNE.S @ClrMode ; if set, then this is color - CMP.W #2,D0 ; 1 or 2 bit/pixel? - BLE.S @RegClr ; don't do anything funky -@MonoMode - ADD #32,D0 ; add 32 to pixelsize in all modes for linear gray - BRA.S @GetClut ; -@ClrMode - MOVE.W D0,D1 ; copy the depth - AND #9,D1 ; is it 1- or 8-bit mode? - BNE.S @RegClr ; if so, then do regular behavior -@Is2or4 - ADD #64,D0 ; for 2- or 4-bit, add 64 to pixel depth (gives color+highlight) -;!!! BRA.S @GetClut ; - -@RegClr -;!!! MOVE (A4),D1 ; get the color table resource id -;!!! CMP #-1,D1 ; is it -1? -;!!! BNE.S @GetClut ; if not, then set the CLUT -;!!! CMP #-1,2(A4) ; if CLUTid=-1, and gammaID<>-1, then set CLUT to flush -;!!! BEQ.S SetGRect ; if both are default, then continue - -@GetClut CLR.L -(SP) ; make room for function result - MOVE D0,-(SP) ; push resource id - _GetCTable ; get a color table - MOVE.L (SP)+,D0 ; get the result - BEQ.S SetGRect ; => couldn't find it, use default - - MOVE.L D0,A0 ; save source handle in A0 - MOVE.L (A3),A1 ; point at the gDevice - MOVE.L gdPMap(A1),A1 ; get handle to its pixMap - MOVE.L (A1),A1 ; point at the pixMap - MOVE.L pmTable(A1),A1 ; get handle to existing color table - MOVE.L A1,-(SP) ; push the color table for later - MOVE.L A0,-(SP) ; push new table handle for dispose - - _GetHandleSize ; get the source size - MOVE.L D0,D1 ; save size in D1 - EXG A0,A1 ; get dest handle in A0 - _SetHandleSize ; set the dest handle size - EXG A0,A1 ; swap dest back to A1, src to A0 - - MOVE.L (A0),A0 ; get source ptr - MOVE.L (A1),A1 ; get dst ptr - MOVE.L D1,D0 ; get size to move - _BlockMove ; copy it - - _DisposCTable ; and dispose new handle - -; Now call the driver to set this color table (handle on stack) -; <19>: Use SetDevEntries call instead of in-line code. -; - Move.l A3,A0 ; A0 contains gDevice. - Move.l (Sp),A1 ; A1 contain colorTable Handle - Bsr.s SetDevEntries ; - -; MOVE.L (SP),A0 ; get handle to color table -; _HLock ; lock down the color table -; LEA VidParms(A6),A1 ; point to params for SetEntries -; MOVE.L (A0),A0 ; get ctabPtr -; CLR.W csStart(A1) ; start at zero, use sequence mode -; MOVE.W ctSize(A0),csCount(A1) ; for the length of the table -; LEA ctTable(A0),A0 ; get pointer to colorspecs -; MOVE.L A0,csTable(A1) ; color table pointer is first param -; LEA IOPBlk(A6),A0 ; point to parameter block -; MOVE.L A1,csParam(A0) ; move addr of parms into block -; MOVE.W #cscSetEntries,csCode(A0) ; cscSetEntries <12> -;+++ CLR.L ioCompletion(A0) ; no completion routine <14>: not necessary -;+++ CLR.W ioVRefNum(A0) ; no volRefNum <14>: not necessary -; MOVE.L (A3),A1 ; point to gdevice -; MOVE gdRefNum(A1),ioRefNum(A0) ; set device's refnum -; _Control ,IMMED ; do a SetEntries on color table -; -; MOVE.L (SP),A0 ; get handle to color table -; _HUnLock ; unlock the color table - -; Finally, generate an inverse table for the table (handle on stack) -; - MOVE.L (A3),A1 ; point at the gDevice - MOVE.L gdITable(A1),-(SP) ; push inverse table handle - MOVEQ #4,D0 ; make 4-4-4 inverse tables - MOVE D0,gdResPref(A1) ; save in GDevice - MOVE D0,-(SP) ; and push res - _MakeITable ; and generate inverse table (color/inverse table handles still on stack) - -; Use the specified rectangle to determine the device's global coordinates -; -SetGRect - ADDA #4,A4 ; skip the CLUT and gamma resID's - MOVE.L (A3),A0 ; point to the grafDevice - MOVE.L gdPmap(A0),A1 ; get handle to pixMap - MOVE.L (A1),A1 ; get pointer to pixMap - ADDQ #bounds,A1 ; point to pixMap.bounds - LEA gdRect(A0),A0 ; point to its rectangle - MOVE.L (A4)+,D0 ; get topLeft for mouse offset - MOVE.L D0,(A1)+ ; copy topLeft to pixMap.bounds - MOVE.L D0,(A0)+ ; copy topLeft to GDRect - MOVE.L (A4),(A1) ; copy botRight to pixMap.bounds - MOVE.L (A4)+,(A0)+ ; copy botRight to GDRect - -; Parse and execute the additional control commands -; - MOVE (A4)+,D6 ; get number of control calls - BRA.S ChkNxtCtl ; => jump into end of dbra loop -DoCtl LEA IOPBlk(A6),A0 ; point to parameter block - LEA 4(A4),A1 ; point to call parameters - MOVE.L A1,csParam(A0) ; move addr of parms into block - MOVE.W (A4)+,csCode(A0) ; set control code -;+++ CLR.L ioCompletion(A0) ; no completion routine <14>: not necessary -;+++ CLR.W ioVRefNum(A0) ; no volRefNum <14>: not necessary - MOVE.L (A3),A1 ; point to gdevice - MOVE gdRefNum(A1),ioRefNum(A0) ; set device's refnum - _Control ,IMMED ; and issue the control call - - MOVE (A4)+,D0 ; get size of param block - ADD D0,A4 ; skip param block -ChkNxtCtl DBRA D6,DoCtl ; loop for all control calls - -ChkNxt DBRA D7,DoNxt ; loop for all screens in resource - - MOVE.L MainDevice,a0 - move.l a0,CrsrDevice ; cursor is now on main device, no longer on boot device - - import GetDCtlEntry - - subq #4,sp ; room for resulting DCE handle - move.l (a0),a0 - move.w gdRefnum(a0),-(sp) ; get the refNum - jsr GetDCtlEntry - move.l (sp)+,a0 ; get handle to DCE - move.l (a0),a0 ; get pointer to DCE - move.l #0,d0 ; clear out D0 - move.b dCtlSlot(a0),d0 ; get the slot number - _AttachVBL ; attach VBL to this slot - - CLR.B CrsrBusy ; end of change - _AllocCursor ; make sure all cursor structs are updated - _ShowCursor ; now redisplay cursor - -ScrnDone _ReleaseResource ; all done with the resource <19>: Done -> ScrnDone - ; ••• 4th INIT ••• ; ; As explained above in the SixPack update notes, the NoGammaFix is for $067C-class @@ -879,14 +364,7 @@ ScrnDone _ReleaseResource ; all done with the resource <19>: Done -> ScrnDone ; NoGammaFix - Move.l ROMBase,A0 ; Point to ROMBase with A0. - If Not ForROM Then - Cmp.w #$067C,8(A0) ; If we’re not running on a $67C - Bne GoHome ; ROM, then just go on. - Else - Cmp.w #$077D,8(A0) ; If we’re not running on a $77D - Bne GoHome ; ROM, then just go on. - Endif + WITH spBlock,vpBlock ; Get the default gamma table from ROM (so we don’t have to get it every time ; we find a card that needs it -- if we don’t find any cards that need @@ -925,6 +403,15 @@ NoGammaFix Move.l (A0),A0 ; DCE Ptr. Move.b dCtlSlot(A0),D0 ; Save slot number. + + Cmp.b #15,D0 + Bcs.b @dont + Move.l A3,A0 + Bsr.w NewFunc + Bne.s @reallyDont + Bra.s @skipGD +@dont + Lea SlotParms(A6),A0 ; Fill out SpBlock: Move.b D0,spSlot(A0) ; spSlot = slot number Clr.w spID(A0) ; spID = 0 @@ -947,6 +434,8 @@ NoGammaFix ; We found a non-TFB card that contains no gamma table directory. So, we need to ; employ our fix, which is to make a SetGamma and then a SetEntries call. +@reallyDont + Move.l A2,A0 ; Lock down the gammaTable Handle. _Hlock @@ -969,11 +458,6 @@ NoGammaFix Move.l A2,A0 ; Dispose of the storage used for the _DisposHandle ; gammaTable Handle. -GoHome -;+++ MOVEM.L (SP)+,D6-D7/A2-A4 ; restore work registers - MOVEM.L (SP)+,A0-A6/D0-D7 ; so we don’t screw up the boot process - UNLK A6 - ; ••• 5th INIT ••• ; ;---------------------------------------------------------------- @@ -1139,7 +623,7 @@ DoDrvrPatches ; ; Save all registers to prevent problems with the ROM INIT running code. ; - MOVEM.L A0-A6/D0-D7,-(SP) ; so we don’t screw up the boot process + MOVEM.L A5-A6,-(SP) ; so we don’t screw up the boot process ; ; Point to UnitTable in A2. @@ -1195,7 +679,12 @@ NxtSlotLoop MOVE.L (A2,D0*4),A1 ; get DCE handle MOVE.L (A1),A1 ; get DCE pointer - MOVE.L A1,A4 ; save this for driver patching code below + MOVE.L (A1),A4 + MOVE dCtlFlags(A1),D0 + BTST.L #6,D0 + BEQ.S @dont + MOVE.L (A4),A4 +@dont ; ; Point to spBlock. @@ -1235,13 +724,7 @@ NxtSlotLoop ; Take the DCE pointer in A4 (from above), and test to see if we want to patch this driver. ; @IntPtch - If Not ForROM Then - BTST #dRAMBased,dCtlFlags+1(A4) ; test if this is a driver in ROM (Erickson overpatch) <7.0> - BEQ NxtSlot ; if so, then continue to next slot <7.0> - Endif - - MOVE.L dCtlDriver(A4),A1 ; get handle to driver - MOVE.L (A1),A1 ; get pointer to driver + MOVE.L A4,A1 ; get pointer to driver MOVE.L drvrName+2(A1),D0 ; get a unique long from the name CMP.L #'DrWV',D0 ; is it the 2-Page card? @@ -1342,201 +825,10 @@ Out LEA spBlockSize(SP),SP ; clean up the stack ; ; Lets restore more registers than have ever been restored before. (Hey, you can never be too careful.) ; - MOVEM.L (SP)+,A0-A6/D0-D7 ; so we don’t screw up the boot process + MOVEM.L (SP)+,A5-A6 + MOVEM.L (SP)+,A0-A4/D0-D7 ; so we don’t screw up the boot process -; ••• 6th INIT ••• -; - if asINIT then -; -; Early in the boot process an _InitGraf was performed (for the Welcome to Mac box). -; It's not correct if the main screen moved away from the boot screen, so let's call -; InitGraf on these early globals to correct the problem. This will fix a problem -; with the LMgr "init" which didn't do an InitGraf while setting up the environment -; for an alert dialog. -; -; Note that for the new boot process this is no longer necessary. -; - - PEA -4(A5) - _InitGraf - - endif - -; ••• 7th INIT ••• -; - If Not ForROM Then - -;--------------------------------------------------------------------- -; Local variables, definitions, etc.... -;--------------------------------------------------------------------- - -drHwDAFB Equ $001C ; Built-in Video Hardware ID for Macintosh Quadras 700/900/950. -DrvrVer950 Equ $0001 ; Version number of the Macintosh Quadra 950’s video driver. - -badEntry Equ $38 ; Location of bad table entry in the Macintosh Quadra 950 driver. - -; Straight from the Macintosh Quadra 950 ROM’s source code… -; -DAFBVidPrivates RECORD 0 -saveBaseAddr DS.L 1 ; the screen base address (NOT ST corrected!) -saveScreenBase DS.L 1 ; ST corrected version of saveBaseAddr. -saveSQElPtr DS.L 1 ; the SQ element pointer (for _SIntRemove) -saveGammaPtr DS.L 1 ; the pointer to the Gamma correction table -saveGamDispPtr DS.L 1 ; the pointer to the Gamma block -saveVDACBase DS.L 1 ; the base addr of the VDAC -saveDAFBBase DS.L 1 ; the base addr of the DAFB -saveVidPtr DS.L 1 ; pointer to a big block of DAFB video parameters -GFlags DS.W 1 ; flags word -has16bppACDC Ds.b 1 ; true if AC842A is around -pageModeSet Ds.b 1 ; true if the pRam PageMode enable bit is set -saveMode DS.W 1 ; the current mode setting (in lo-byte) -saveMonID DS.W 1 ; monitor type ID (in lo-byte) -saveSlotId DS.W 1 ; spID of video sRsrc (hi-order byte only!) -DAFBVidPrivSize EQU * - ENDR - -; Flags within GFlags word… -; -GrayFlag EQU 15 ; luminance mapped if GFlags(GrayFlag) = 1 -IntDisFlag EQU 14 ; interrupts disabled if GFlags(IntFlag) =1 -IsMono EQU 13 ; true if monochrome only display (Portrait/Kong) -UseSeq EQU 12 ; true if sequence mode SetEntries -UseTrans Equ 12 ; True if we’re supposed to translate 5-bit into 8 (DAFB 16bpp). -Is16 EQU 11 ; true if 16Mhz (Slow) CPU -IsSlow Equ 11 ; True if Slow CPU (for DAFB, 25Mhz is slow). -IsDirect EQU 10 ; true if direct video mode, else chunkyIndexed -PsuedoIndex EQU 9 ; true if SetEntries request was mapped to indexed from sequential - ; (due to screen depth hardware requirements) -Has16bppSRsrc Equ 9 ; True if FifthVidMode is 16bpp instead of 32bpp (DAFB). -SyncOnGreen Equ 8 ; True if we’re supposed to put sync on green (DAFB). - - - bra.s PatchQuadra950Driver ; skip over the title - - String Pascal - -DAFBVideoTitle Dc.b '.Display_Video_Apple_DAFB' - Align 2 - -;--------------------------------------------------------------------- -; Main -;--------------------------------------------------------------------- - -PatchQuadra950Driver - String AsIs - With SpBlock,DAFBVidPrivates - -Quadra950SaveRegs Reg D4-D6 ; Define work registers. - - If AsInit Then - Cmp.w #$3FFF,ROM85 ; If Color QuickDraw is not around, - Bne @ExitNow ; then just leave. - EndIf - - Tst.l DeviceList ; If the device list is empty, - Beq @ExitNow ; then just leave. - - Move.l DeviceList,A0 ; Get the DeviceList Handle. - Move.l (A0),A0 ; Make it a pointer. - Move.w gdRefNum(A0),D0 ; If there’s no driver, then - Beq @ExitNow ; we can’t do anything here. - - Movem.l Quadra950SaveRegs,-(Sp) ; Save work registers. - Suba.w #spBlockSize,Sp ; Allocate SpBlock - -; The shipping version of the Macintosh Quadra 950’s ROM (1.7F2) has a bug in the built-in video -; driver which prevents the DirectSetEntries call from working correctly when the attached display -; is put into 32 bit-per-pixel mode. To fix this problem, we just patch the bad table in place -; since it resides in the System heap. -; - Move.l Sp,A0 ; Get spBlock ptr into A0. - Clr.b spId(A0) ; Begin at id 0. - Clr.b spSlot(A0) ; We only care about Slot $0. - Clr.b spExtDev(A0) ; No external device. - Clr.b spTBMask(A0) ; No mask in search. - Move.w #catDisplay,spCategory(A0) ; Look for: Display, - Move.w #typVideo,spCType(A0) ; Video, - Move.w #drSwApple,spDrvrSW(A0) ; Apple, - Move.w #drHwDAFB,spDrvrHW(A0) ; DAFB. - Clr.l spParamData(A0) ; Look only for enabled sRsrcs. - Bset #foneslot,spParamData+3(A0) ; Limit search to this slot only. - _GetTypeSRsrc ; If built-in video is not enabled, then - Bne.s @AllDone ; just quit. - -; We found the DAFB-based (Macintosh Quadra 700/900/950) built-in video in Slot $0. -; - Moveq #0,D5 ; Prepare D5. - Move.w spRefNum(A0),D5 ; Get the refNum. - Beq.s @AllDone ; If nil, then just leave (no driver). - Not.w D5 ; Convert the refNum into… - Lsl.w #2,D5 ; …a UTable index. - - Add.l UTableBase,D5 ; Get a ptr to the AuxDCEHandle. - Move.l D5,A0 ; Get it into A0. - - Move.l (A0),A0 ; Get the AuxDCEHandle. - Move.l (A0),A0 ; Get the AuxDCEPtr. - Move.l A0,D5 ; Save it for later. - - move.w dCtlFlags(a0),d0 ; <27> Get driver flags - Move.l dCtlDriver(A0),A0 ; Get driver. - btst #dRAMBased,d0 ; <27> Check to see if dCtlDriver is a handle or a pointer - bz.s @gotDriverPointer ; <27> A ROM based driver means it’s a pointer - Move.l (A0),A0 ; Get ptr to driver. -@gotDriverPointer - Move.l A0,D6 ; Save it for later. - - Moveq #0,D0 ; Prepare D0. - Lea drvrName(A0),A0 ; Point to the driver name. - Move.l A0,D4 ; Save it for later. - Move.b (A0)+,D0 ; Get its length. - Swap D0 ; Save it. - Lea DAFBVideoTitle,A1 ; Point to the driver name we want. - Move.b (A1)+,D0 ; Get its length. - _CmpString ; Compare the names. - Tst.w D0 ; If they are not equal, then we don’t know about - Bne.s @AllDone ; this DAFB driver, so just leave. - - Moveq #0,D0 ; Re-prepare D0. - Move.l D4,A0 ; Re-point to the driver name. - Move.b (A0),D0 ; Get its length. - Addq #2,D0 ; Adjust offset to version field. - Bclr #0,D0 ; Adjust offset for word alignment. - Move.w (A0,D0),D4 ; Get the driver’s version number. - Cmp.w #DrvrVer950,D4 ; If this isn’t the Quadra 950’s driver version, - Bne.s @AllDone ; then just leave. - - Adda.w D0,A0 ; Point to version part of driver name. - Move.l A0,D4 ; Save it for later. - -; We found the Macintosh Quadra 950’s version of the DAFB driver. -; - Move.l D5,A0 ; Re-point to the AuxDCEPtr. - Move.l dCtlStorage(A0),A0 ; Get the Handle to DAFB private storage. - Move.l (A0),A0 ; Make it a pointer. - - Btst #Has16bppSRsrc,GFlags(A0) ; If a 16bpp-capable sRsrc is not in use, - Beq.s @AllDone ; then just leave. - - Move.l D6,A0 ; Re-point to the DAFB driver. - Move.b #$FF,badEntry(A0) ; Fix the bad table entry. - - Move.l D4,A0 ; Re-point to the DAFB driver version number. - Move.w #DrvrVer950+1,(A0) ; Update it. - -@AllDone - Add.w #spBlockSize,Sp ; Deallocate SpBlock. - Movem.l (Sp)+,Quadra950SaveRegs ; Restore work registers. - -@ExitNow ; Outta here, dudes. - Rts - - Endwith - - Else - - Rts - - Endif + UNLK A6 + RTS END diff --git a/QuickDraw/ColorMgr.a b/QuickDraw/ColorMgr.a --- a/QuickDraw/ColorMgr.a +++ b/QuickDraw/ColorMgr.a @@ -637,7 +637,7 @@ Seed MOVE.L D5,D4 ; copy total # of color (and cleared hi word) SUBQ #2,D4 ; this is the number of colors remaining - BLE.S QVille ; if zero or negative, all done + BLT.S QVille ; if zero or negative, all done MOVEQ #1,D5 ; start at color #1 (zero based) @TheRestOfUs ; a temporary label for the rest of us BSR.S QUtil ; queue it diff --git a/QuickDraw/ColorQD.make b/QuickDraw/ColorQD.make --- a/QuickDraw/ColorQD.make +++ b/QuickDraw/ColorQD.make @@ -21,6 +21,7 @@ QDPatchesDir = {ColorQDDir}Patches: CQDObjs = "{ObjDir}CheckDevicesINIT.a.o" ∂ "{ObjDir}CQD.a.o" ∂ + "{LibDir}MoreCQD.lib" ∂ "{ObjDir}DeviceLoop.a.o" diff --git a/QuickDraw/DeviceLoop.a b/QuickDraw/DeviceLoop.a --- a/QuickDraw/DeviceLoop.a +++ b/QuickDraw/DeviceLoop.a @@ -105,8 +105,38 @@ LocalSize EQU * link A6, #LocalSize movem.l D3-D7/A2-A4, callerRegs(A6) ; save the callers registers - btst #6, ROM85 ; Color QuickDraw available? - bnz @classicQD ; if not, handle old case + machine MC68030 + move.l ([$2b6],$1fc),a0 + machine MC68020 + + tst.b $b5(a0) + beq.s @noShield + + move.l drawingRgn(a6),d0 + beq.s @noConversion + + move.l d0,a0 + move.l (a0),a0 + move.l $2(a0),localRect+0(a6) + move.l $6(a0),localRect+4(a6) + + pea localRect+0(a6) + _LocalToGlobal + + pea localRect+4(a6) + _LocalToGlobal + + bra.s @proceedWithShield +@noConversion + + move.l #$80008000,localRect+0(a6) + move.l #$7fff7fff,localRect+4(a6) + +@proceedWithShield + pea localRect+0(a6) + clr.l -(sp) + _ShieldCursor +@noShield move.l TheGDevice, D0 ; Get the handle to the current GDevice move.l MainDevice, D1 ; Get the handle to the main device @@ -149,11 +179,11 @@ LocalSize EQU * beq @noMore ; if so, no more devices move.l (A4), A3 ; point at the GDevice record bsr TestAndIntersect ; is device good for drawing? - bz.s @nextDevice ; if not, keep searching + bz @nextDevice ; if not, keep searching move.l flags(A6), D0 ; get the caller’s options btst #allDevicesBit, D0 ; are we ignoring regions? - bnz.s @visRgnSetup ; if so, don’t change the visRgn + bnz @visRgnSetup ; if so, don’t change the visRgn move.l D4, -(SP) ; rectangle region handle pea localRect(A6) ; this device (local coords) @@ -175,10 +205,12 @@ LocalSize EQU * move.l ctSeed(A0), D7 ; stash device’s ctab seed move.l flags(A6), D0 ; get caller’s flags btst #singleDevicesBit, D0 ; should we group devices? - bnz.s @groupingDone ; if not, don’t call AddSimilar + bnz @groupingDone ; if not, don’t call AddSimilar bsr AddSimilarDevices ; find all the like devices @groupingDone movem.l D3-D7/A2-A4/A6, -(SP) ; save OUR registers + bsr NewFunc1 + move D2,-(SP) swap D6 move.l D6, -(SP) ; pass depth and flags move.l A4, -(SP) ; and the GDHandle @@ -187,6 +219,8 @@ LocalSize EQU * movem.l callerRegs(A6), D3-D7/A2-A4 ; restore caller’s registers move.l A6Link(A6), A6 ; and restore caller’s A6 jsr (A0) ; call the drawing procedure + move (SP)+,D2 + bsr NewFunc2 movem.l (SP)+, D3-D7/A2-A4/A6 ; get OUR register set back move.l (A4), A3 ; fix GDevicePtr @nextDevice @@ -194,13 +228,6 @@ LocalSize EQU * addq #1, D3 ; increment device number bra.s @deviceIntersect ; try this one -@classicQD - move.l A6, -(SP) ; save our stack frame ptr - move.w #1, -(SP) ; pass depth (always 1) - move.w #fakeDeviceFlags, -(SP) ; and gdflags (something reasonable) - clr.l -(SP) ; NIL for GDHandle - bra.s @simpleDeviceCommon - @oneDevice move.l A6, -(SP) ; save our stack frame ptr move.l gdPMap(A0), A1 ; PixMapHandle @@ -230,6 +257,17 @@ LocalSize EQU * _DisposRgn move.l savedVis(A6), visRgn(A2) ; put original visRgn back @exit + + machine MC68030 + move.l ([$2b6],$1fc),a0 + machine MC68020 + + tst.b $b5(a0) + beq.s @noShow + + _ShowCursor +@noShow + movem.l callerRegs(A6), D3-D7/A2-A4 ; restore regs unlk A6 move.l (SP)+, A0 ; clean stack and return @@ -252,27 +290,30 @@ AddSimilarDevices movem.l A3-A4/D3/D6, -(SP) ; save original state andi.w #importantFlagsMask, D6 ; keep only pertinent flags + move.l A3, A1 move.l gdNextGD(A3), A4 ; start with next device addq #1, D3 ; which is next in number, too @addLoop move.l A4, D0 ; is there a GDHandle? - bz.s @noMore ; if NIL, then we’re done + bz @noMore ; if NIL, then we’re done move.l (A4), A3 ; handle->ptr - bsr.s TestAndIntersect ; see if device is okay by itself - bz.s @nextDevice ; if not, try next one + move.l A1, -(SP) + bsr TestAndIntersect ; see if device is okay by itself + move.l (SP)+, A1 + bz @nextDevice ; if not, try next one move.w gdFlags(A3), D0 ; get device attributes andi.w #importantFlagsMask, D0 ; strip unimportant ones cmp.w D0, D6 ; is this device similar to test device? - bne.s @nextDevice ; if not, don’t use it + bne @nextDevice ; if not, don’t use it move.l gdPMap(A3), A0 ; get device’s PixMapHandle move.l (A0), A0 ; get device’s PixMapPtr move.l D6, D0 ; get depth and flags swap D0 ; get depth into low word cmp.w pmPixelSize(A0), D0 ; save depth as test device? - bne.s @nextDevice ; if not, don’t use it + bne @nextDevice ; if not, don’t use it move.l flags(A6), D0 ; get the option flags btst #dontMatchSeedsBit, D0 ; should we check ctSeeds? @@ -280,12 +321,49 @@ AddSimilarDevices move.l pmTable(A0), A0 ; handle to color table move.l (A0), A0 cmp.l ctSeed(A0), D7 ; are the seeds the same? - bne.s @nextDevice ; if not, don’t use this one + bne @nextDevice ; if not, don’t use this one @seedsChecked + move.l A3, A0 + move.l $22(A1), D0 + cmp $24(A0), D0 + bgt.s @L4 + blt.s @L1 + swap D0 + cmp $22(A0), D0 + bgt.s @L5 + blt.s @L2 + move.l $26(A1), D0 + cmp $28(A0), D0 + blt.s @L6 + bgt.s @L3 + bra.s @nextDevice +@L1 swap D0 + cmp $22(A0), D0 + bgt.s @doneWhateverThatWas +@L2 move.l $26(A1), D0 + cmp $28(A0), D0 + blt.s @doneWhateverThatWas +@L3 swap D0 + cmp $26(A0), D0 + blt.s @doneWhateverThatWas + bra.s @nextDevice +@L4 swap D0 + cmp $22(A0), D0 + blt.s @doneWhateverThatWas +@L5 move.l $26(A1), D0 + cmp $28(A0), D0 + bgt.s @doneWhateverThatWas +@L6 swap D0 + cmp $26(A0), D0 + bgt.s @doneWhateverThatWas + bra.s @nextDevice +@doneWhateverThatWas + move.l flags(A6), D0 ; what are the current options? btst #allDevicesBit, D0 ; are we ignoring drawingRgn? bnz.s @visRgnSetup ; if so, no regions to setup + move.l A1, -(SP) move.l D4, -(SP) ; rectangle region handle pea localRect(A6) ; this device (local coords) @@ -299,6 +377,7 @@ AddSimilarDevices move.l (SP), -(SP) ; get ORed together _XorRgn ; XOr is a fast way to Union when guaranteed no overlap move.l (A4), A3 ; fix GDevicePtr + move.l (SP)+, A1 @visRgnSetup bset.l D3, D5 ; mark this device done @@ -347,4 +426,73 @@ TestAndIntersect @exit rts + +NewFunc1 + moveq #0, D2 + move.l (DeviceList), D0 + beq.s @return + moveq #0, D1 +@L0 movea.l D0, A0 + movea.l (A0), A0 + cmp D3, D1 + beq.s @L8 + tst $14(A0) + bpl.s @L8 + movea.l (A4), A1 + move.l $22(A1), D0 + cmp $24(A0), D0 + bgt.s @L4 + blt.s @L1 + swap D0 + cmp $22(A0), D0 + bgt.s @L5 + blt.s @L2 + move.l $26(A1), D0 + cmp $28(A0), D0 + blt.s @L6 + bgt.s @L3 + bra.s @L7 +@L1 swap D0 + cmp $22(A0), D0 + bgt.s @L8 +@L2 move.l $26(A1), D0 + cmp $28(A0), D0 + blt.s @L8 +@L3 swap D0 + cmp $26(A0), D0 + blt.s @L8 + bra.s @L7 +@L4 swap D0 + cmp $22(A0), D0 + blt.s @L8 +@L5 move.l $26(A1), D0 + cmp $28(A0), D0 + bgt.s @L8 +@L6 swap D0 + cmp $26(A0), D0 + bgt.s @L8 +@L7 bclr.s #7, $14(A0) + bset.l D1, D2 +@L8 addq #1, D1 + move.l $1E(A0), D0 + bne.s @L0 +@return Rts + + +NewFunc2 + tst D2 + beq.s @return + move.l (DeviceList), D0 + beq.s @return +@L10 move.l D0, A0 + move.l (A0), A0 + lsr #1, D2 + bcc.s @L11 + bset.s #7, $14(A0) + tst D2 + beq.s @return +@L11 move.l $1E(A0), D0 + bne.s @L10 +@return Rts + END diff --git a/QuickDraw/DrawText.a b/QuickDraw/DrawText.a --- a/QuickDraw/DrawText.a +++ b/QuickDraw/DrawText.a @@ -2868,7 +2868,6 @@ renderIt TST.B needs32bit(A6) ;running 32 bit clean BEQ.S @skip32 ;NOPE, so skip it move.b MMUsave(a6),d0 ;get previous MMU state in d0 - _rSwapMMUMode ;get previous mode in d0.b (can trash a0/a1/a2, d0/d1/d2) _sbRetrieveGlyph ;Call the routine via SplineDispatch moveq #true32b,d0 ;switch to 32 bit addressing _rSwapMMUMode ;get previous mode in d0.b (can trash a0/a1/a2, d0/d1/d2) diff --git a/QuickDraw/FastTraps.a b/QuickDraw/FastTraps.a --- a/QuickDraw/FastTraps.a +++ b/QuickDraw/FastTraps.a @@ -1005,7 +1005,7 @@ selectGetGray equ 25 MACRO _ZapLinks - DoPaletteDispatch selectZapLinks,0 + DoPaletteDispatch selectZapLinks,4 ENDM MACRO @@ -2921,6 +2921,7 @@ _EmptyHandle OPWORD $A000+43 _InitApplZone OPWORD $A000+44 _SetApplLimit OPWORD $A000+45 _BlockMove OPWORD $A000+46 +_BlockMoveData OPWORD $A000+46+$200 ; Here are the event manager routines diff --git a/QuickDraw/GDevice.a b/QuickDraw/GDevice.a --- a/QuickDraw/GDevice.a +++ b/QuickDraw/GDevice.a @@ -201,8 +201,6 @@ MODE EQU REFNUM-4 ; LONG, Mode for video card CMP.L #-1,D0 ; if mode = -1, then don't init beq.s Done ; => go home - CMP.W #OneBitMode,D0 ; is it one bit per pixel? - BEQ.S @Mono ; => yes, default to black and white Bsr TestForGray ; is it monochrome only? Bne.s @Mono ; => yes, leave GDevice mono BSET #GDDevType,GDFlags+1(A3) ; else default to color @@ -210,7 +208,7 @@ MODE EQU REFNUM-4 ; LONG, Mode for video card @Mono MOVE.W REFNUM(A6),-(SP) ; pass device to initialize MOVE.L MODE(A6),-(SP) ; pass mode to initialize MOVE.L A2,-(SP) ; and pass gDevice handle - _InitGDevice ; initialize the device port + JSR ([$16B8]) ; initialize the device port DONE MOVE.L (SP)+,theZone ; restore the zone MOVE.L A2,RESULT(A6) ; return graf device handle @@ -364,6 +362,8 @@ oldBaseAddr DS.B 4 ; old base address, for later comparison oldPort DS.B 4 ; thePort, before we got here oldColor DS.B 8 ; a colorSpec used to reinstantiate fg/bk + DS.B 356 + VARSIZE DS.B 0 ; size of locals ENDR @@ -372,6 +372,13 @@ VARSIZE DS.B 0 ; size of locals LINK A6,#VARSIZE ; allocate stack frame MOVEM.L D3/A2-A4,-(SP) ; save off work registers + MOVE.L ExpandMem,A0 + MOVE.L $1FC(A0),A1 + TST.B $B5(A1) + BNE.S @true + CLR $276(A0) +@true + MOVE.L GDH(A6),A0 ; get the gDevice handle _HGetState ; get the current lock state MOVE D0,GDHState(A6) ; save the state @@ -390,16 +397,13 @@ VARSIZE DS.B 0 ; size of locals BNE.S @noShield ; no, don't shield cursor BTST #screenDevice,gdFlags(A2) ; is it screen (check hi byte with #>8) BEQ.S @noShield -;+++ PEA gdRect(A2) -;+++ CLR.L -(SP) ; in global coörds -;+++ _ShieldCursor - _HideCursor ; changed to Hide from Shield to fix - ; problems when cursor is on the move - ; during InitGDevice + JSR ([$F48]) + @noShield ; initialize the GDevice's mode and refnum + SF.B -$6E(A6) MOVE REFNUM(A6),GDRefNum(A2) ; set up RefNum MOVE.L MODE(A6),D0 ; get the mode CMP.L MinusOne,D0 ; is the mode -1? @@ -415,7 +419,8 @@ VARSIZE DS.B 0 ; size of locals MOVE.L A1,csParam(A0) ; point to param list CMP.L GDMode(A2),D0 ; has the mode changed? - BEQ GrayOrColor ; => no, so don't set depth + BEQ.S GrayOrColor ; => no, so don't set depth + ST.B -$6E(A6) MOVE.L D0,GDMode(A2) ; set up mode ; setup the gDevice fields for the new screen depth @@ -491,97 +496,246 @@ NoTbl MOVEQ #4,D0 ; make 4-4-4 inverse tables MOVE D0,GDResPref(A2) ; save in GDevice MOVE D0,-(SP) ; and push res - _MakeITable ; and generate table + JSR ([$16E4]) ; and generate table -; If this device has not been initialized from the system file, then copy the -; bounds from the pixMap to the GDRect. Otherwise copy the GDRect to the Bounds. ModeOK - LEA BOUNDS(A3),A0 ; point to pixmap.bounds - LEA GDRECT(A2),A1 ; point to device's global rect - MOVE GDFlags(A2),D0 ; get the flags word - BTST #RAMInit,D0 ; initialized from RAM? - BEQ.S BndsOK ; => no, copy pixMap.bounds to GDRect - EXG A0,A1 ; else copy GDRect to pixMap.bounds -BndsOK MOVE.L (A0)+,(A1)+ ; copy topLeft - MOVE.L (A0)+,(A1)+ ; copy botRight - -; -; if we're about the main device, then fix all those -; potentially errant ports. -; - TST.B QDExist ; (Unless QuickDraw don't exist) - BNE @noQD - MOVE.L portList,D1 ; or if portlist = 0 or -1 - BEQ @noQD - ADDQ.L #1,D1 - BEQ @noQD - - BTST #mainScreen,D0 ; is it the main scrn? (flags already in D0) - BEQ @notMain - - PEA oldPort(A6) ; Save the current port + MOVE.L ([$2B6],$1FC),A0 + TST.B $B5(A0) + BEQ @L13 + MOVE $14(A2),D0 + BTST.L #$D,D0 + BEQ @L13 + BTST.L #$A,D0 + BEQ @L13 + TST (A2) + BEQ @L13 + TST.B -$6E(A6) + BEQ @L13 + MOVE.L $22(A2),-$6C(A6) + MOVE.L $26(A2),-$68(A6) + TST.B (QDExist) + BNE @L9 + MOVE.L A5,-$7A(A6) + LEA.L -$7E(A6),A5 + MOVE.L $6(A3),$22(A2) + MOVE.L $A(A3),$26(A2) + MOVE.L (ScrnBase),-$1BC(A6) + MOVE.L -$58(A6),D1 + CMP.L (ScrnBase),D1 + BNE.S @L0 + MOVE $14(A2),D0 + BTST.L #$B,D0 + BEQ @L0 + MOVE.L (A3),(ScrnBase) +@L0 PEA.L -$82(A6) + _InitGraf + PEA.L -$1B8(A6) + _OpenPort + MOVE.L D2,-(SP) + MOVEQ.L #$0,D1 + MOVEQ.L #$1,D2 + MOVE.L (DeviceList),D0 +@L1 BEQ.S @L5 + MOVE.L D0,A0 + CMPA.L $8(A6),A0 + MOVE.L (A0),A0 + BNE.S @L2 + BSET.B #$7,$14(A0) + BNE.S @L4 + BRA.S @L3 +@L2 BTST.B #$7,$14(A0) + BEQ.S @L4 + BCLR.B #$7,$14(A0) +@L3 OR D2,D1 +@L4 LSL #$1,D2 + MOVE.L $1E(A0),D0 + BRA.S @L1 +@L5 MOVE.L (SP)+,D2 + MOVE D1,-(SP) + SUBQ.L #$4,SP + _NewRgn + MOVE.L (SP),-(SP) + MOVE.L (SP),-(SP) + PEA.L $6(A3) + _RectRgn + LEA.L -$1B8(A6),A0 + MOVE.L $18(A0),-(SP) + MOVE.L (SP),-(SP) + _UnionRgn + _DisposRgn + MOVE $C(A3),D0 + SUB $8(A3),D0 + MOVE -$66(A6),D1 + SUB -$6A(A6),D1 + SUB D1,D0 + ASR #$1,D0 + MOVE D0,-$1C6(A6) + MOVE $A(A3),D0 + SUB $6(A3),D0 + MOVE -$68(A6),D1 + SUB -$6C(A6),D1 + SUB D1,D0 + ASR #$1,D0 + MOVE D0,-$1C8(A6) + MOVE $8(A3),D0 + ADD -$1C6(A6),D0 + MOVE.L $6(A3),-$76(A6) + MOVE $A(A3),-$72(A6) + MOVE D0,-$70(A6) + PEA.L -$76(A6) + MOVE.L (A5),A1 + PEA.L -$10(A1) + _FillRect + MOVE $6(A3),D0 + ADD -$1C8(A6),D0 + MOVE $C(A3),-$70(A6) + MOVE D0,-$72(A6) + PEA.L -$76(A6) + MOVE.L (A5),A1 + PEA.L -$10(A1) + _FillRect + MOVE $A(A3),D0 + SUB -$1C8(A6),D0 + MOVE.L $A(A3),-$72(A6) + MOVE $8(A3),-$74(A6) + MOVE D0,-$76(A6) + PEA.L -$76(A6) + MOVE.L (A5),A1 + PEA.L -$10(A1) + _FillRect + MOVE $C(A3),D0 + SUB -$1C6(A6),D0 + MOVE $6(A3),-$76(A6) + MOVE D0,-$74(A6) + PEA.L -$76(A6) + MOVE.L (A5),A1 + PEA.L -$10(A1) + _FillRect + MOVE (SP)+,D1 + BEQ.S @L8 + MOVE.L (DeviceList),D0 +@L6 BEQ.S @L8 + MOVE.L D0,A0 + MOVE.L (A0),A0 + LSR #$1,D1 + BCC.S @L7 + BSET.B #$7,$14(A0) + TST D1 + BEQ.S @L8 +@L7 MOVE.L $1E(A0),D0 + BRA.S @L6 +@L8 PEA.L -$1B8(A6) + _ClosePort + MOVE.L -$1BC(A6),(ScrnBase) + MOVE.L -$6C(A6),$22(A2) + MOVE.L -$68(A6),$26(A2) + MOVE.L -$7A(A6),A5 +@L9 MOVE D2,-(SP) + MOVE.L $16(A2),A0 + MOVE.L (A0),A0 + MOVE $4(A0),D0 + ANDI #$7FFF,D0 + MOVE $A(A0),D1 + SUB $6(A0),D1 + ADD -$6C(A6),D1 + SUB -$68(A6),D1 + ASR #$1,D1 + MULU D1,D0 + MOVE $C(A0),D1 + SUB $8(A0),D1 + ADD -$6A(A6),D1 + SUB -$66(A6),D1 + ASR #$1,D1 + MOVE $20(A0),D2 + CMPI #$8,D2 + BGT.S @L11 + BEQ.S @L12 +@L10 ASR #$1,D1 + ASL #$1,D2 + CMPI #$8,D2 + BLT.S @L10 + BRA.S @L12 +@L11 ASR #$3,D2 + MULU D2,D1 +@L12 EXT.L D1 + ADD.L D1,D0 + ADD.L D0,(A0) + MOVE (SP)+,D2 +@L13 LEA.L $6(A3),A0 + LEA.L $22(A2),A1 + MOVE $14(A2),D0 + BTST.L #$A,D0 + BEQ.S @L14 + EXG.L A0,A1 +@L14 MOVE.L (A0)+,(A1)+ + MOVE.L (A0)+,(A1)+ + TST.B (QDExist) + BNE @L20 + MOVE.L (PortList),D1 + BEQ @L20 + ADDQ.L #$1,D1 + BEQ @L20 + BTST.L #$B,D0 + BEQ @L19 + PEA.L -$5C(A6) _GetPort - MOVE.L mainDevice,theGDevice ; and set to the screen - - MOVE.L PortList,A4 ; A4 = handle to list of ALL ports - MOVE.L (A4),A4 ; A4->list of all ports - MOVE (A4),D3 ; D3 = number of ports that exist - BRA.S @portWalkEnd - -@portWalkLoop - MOVE.L PortList,A4 + MOVE.L (MainDevice),(TheGDevice) + MOVE.L (PortList),A4 MOVE.L (A4),A4 - MOVE.L 2(A4,D3.W*4),A4 ; A4 = this port - MOVE.L A4,-(SP) ; Set to each port in the port list + MOVE (A4),D3 + BRA.S @L17 +@L15 MOVE.L (PortList),A4 + MOVE.L (A4),A4 + MOVE.L $2(A4,D3.W*4),A4 + MOVE.L A4,-(SP) _SetPort - - MOVE.L oldBaseAddr(A6),D1 ; D1 = the scrnbase of ports to change - BTST #7,portVersion(A4) ; high bit set? - BEQ.S @oldPort - MOVE.L portPixMap(A4),A4 ; A4 = handle to the port's pixmap - MOVE.L (A4),A4 ; A4->port's pixmap - CMP.L baseAddr(A4),D1 ; same as the screen's? - BNE.S @portWalkEnd ; no, skip this port - - MOVE.L baseAddr(A3),baseAddr(A4) ; replace a bunch of fields - MOVE rowBytes(A3),rowBytes(A4) - MOVE.L pixelType(A3),pixelType(A4) ; (gets pixelSize, too) - MOVE.L cmpCount(A3),cmpCount(A4) ; (gets cmpSize, too) - MOVE.L planeBytes(A3),planeBytes(A4) - - PEA oldColor(A6) ; placeholder for reinstantiating colors + MOVE.L -$58(A6),D1 + BTST.B #$7,$6(A4) + BEQ.S @L16 + MOVE.L $2(A4),A4 + MOVE.L (A4),A4 + CMP.L (A4),D1 + BNE.S @L17 + MOVE.L (A3),(A4) + MOVE $4(A3),$4(A4) + MOVE.L $1E(A3),$1E(A4) + MOVE.L $22(A3),$22(A4) + MOVE.L $26(A3),$26(A4) + PEA.L -$64(A6) MOVE.L (SP),-(SP) MOVE.L (SP),-(SP) MOVE.L (SP),-(SP) - _SaveFore ; Save and restore the foreground color - _RestoreFore ; (Allowing for pmFore) - _SaveBack ; And the same for the background + _SaveFore + _RestoreFore + _SaveBack _RestoreBack - BRA.S @portWalkEnd - -@oldPort - CMP.L portBits+baseAddr(A4),D1 ; same base on old port? - BNE.S @portWalkEnd - MOVE.L baseAddr(A3),portBits+baseAddr(A4) - MOVE rowBytes(A3),D1 - AND #nurbMask,D1 ; handle NURBs here - MOVE D1,portBits+rowBytes(A4) - -@portWalkEnd - DBRA D3,@portWalkLoop - MOVE.L oldPort(A6),-(SP) ; restore the pre-existing port + BRA.S @L17 +@L16 CMP.L $2(A4),D1 + BNE.S @L17 + MOVE.L (A3),$2(A4) + MOVE $4(A3),D1 + ANDI #$7FFF,D1 + MOVE D1,$6(A4) +@L17 DBF D3,@L15 + MOVE.L -$5C(A6),-(SP) _SetPort - - MOVE.L oldBaseAddr(A6),D1 - CMP.L scrnBase,D1 ; fix scrnBase too, if neede - BNE.S @notMain - MOVE.L baseAddr(A3),scrnBase - -@notMain + MOVE.L -$58(A6),D1 + CMP.L (ScrnBase),D1 + BNE.S @L18 + MOVE.L (A3),(ScrnBase) +@L18 MOVE.L -$58(A6),D1 + MOVE.L (A5),A0 + CMP.L -$7A(A0),D1 + BNE.S @L19 + MOVE.L (A3),-$7A(A0) +@L19 BTST.B #$D,$14(A2) + BEQ.S @L20 _AllocCursor _ShowCursor -@noQD +@L20 BSR.S NewFunc + MOVE.L (ExpandMem),A0 + MOVE D0,$276(A0) ; ; notify the Palette Manager that the mode has changed @@ -605,6 +759,62 @@ BndsOK MOVE.L (A0)+,(A1)+ ; copy topLeft UNLINK result-return-4,'INITGDEV' +NewFunc + MOVE.L (TheGDevice),D0 + BEQ @L32 + MOVE.L (MainDevice),D1 + CMP.L D0,D0 + BNE.S @L22 + MOVE.L (DeviceList),D0 + BEQ.S @L32 +@L22 MOVE.L D0,A0 + MOVE.L (A0),A0 + MOVE.L $1E(A0),D1 + BEQ.S @L32 +@L23 MOVE.L D1,A1 + MOVE.L (A1),A1 + MOVE.L $22(A1),D0 + CMP $24(A0),D0 + BGT.S @L27 + BLT.S @L24 + SWAP D0 + CMP $22(A0),D0 + BGT.S @L28 + BLT.S @L25 + MOVE.L $26(A1),D0 + CMP $28(A0),D0 + BLT.S @L29 + BGT.S @L26 + BRA.S @L30 +@L24 SWAP D0 + CMP $22(A0),D0 + BGT.S @L31 +@L25 MOVE.L $26(A1),D0 + CMP $28(A0),D0 + BLT.S @L31 +@L26 SWAP D0 + CMP $26(A0),D0 + BLT.S @L31 + BRA.S @L30 +@L27 SWAP D0 + CMP $22(A0),D0 + BLT.S @L31 +@L28 MOVE.L $26(A1),D0 + CMP $28(A0),D0 + BGT.S @L31 +@L29 SWAP D0 + CMP $26(A0),D0 + BGT.S @L31 +@L30 MOVEQ.L #$1,D0 + RTS +@L31 MOVE.L $1E(A1),D1 + BNE.S @L23 + MOVE.L $1E(A0),D0 + BNE.S @L22 +@L32 MOVEQ.L #$0,D0 + RTS + + GetDevPixMap PROC EXPORT IMPORT CopyHandle, GetCTSeed, RSetHSize ;---------------------------------------------------------------- @@ -627,7 +837,7 @@ DEVTYPE EQU PMH-4 ; LONG, VAR DevType MYBLOCK EQU -spBlock.SPBLOCKSIZE ; allocate room for parameter block PMHState EQU MyBlock-2 ; save pixMap lockState -VARSIZE EQU PMHState ; size of locals +VARSIZE EQU PMHState-$9A ; size of locals WITH spBlock,vpBlock ; @@ -636,6 +846,7 @@ VARSIZE EQU PMHState ; size of locals ; lock down the pixMap and get pointer in A2 + CLR.B -$D3(A6) MOVE.L PMH(A6),A0 ; get handle to pixMap _HGetState ; get the current state MOVE D0,PMHState(A6) ; save current state @@ -651,6 +862,46 @@ VARSIZE EQU PMHState ; size of locals MOVE.L (A1,D0),A3 ; A3 = handle to the DCE MOVE.L (A3),A1 ; get pointer to the DCE + LEA.L -$D2(A6),A4 + LEA.L -$82(A6),A0 + MOVE.L A4,$1C(A0) + MOVE $18(A1),$18(A0) + MOVE #$A,$1A(A0) + CLR.L $C(A0) + CLR.L $12(A0) + CLR $16(A0) + DC.W $A205 ; _PBStatusImmed + BNE.S @nope + MOVE.L $2(A4),-$3E(A6) + MOVE.L $8(A4),-$42(A6) + MOVE.L $2A(A1),D3 + LEA.L -$AC(A6),A0 + LEA.L -$C2(A6),A4 + MOVE.L A0,$6(A4) + MOVE.L $10(A6),D0 + MOVE D0,$4(A4) + MOVE.L -$3E(A6),(A4) + LEA.L -$82(A6),A0 + MOVE.L A4,$1C(A0) + MOVE $14(A6),$18(A0) + MOVE #$12,$1A(A0) + CLR.L $C(A0) + CLR.L $12(A0) + CLR $16(A0) + DC.W $A205 ; _PBStatusImmed + BNE.S @nope + LEA.L -$C2(A6),A4 + MOVE.B #$1,-$D3(A6) + MOVE.L -$42(A6),D3 + MOVE.L D3,$2A(A1) + MOVE.L $8(A6),A1 + MOVE.L $E(A4),D4 + MOVE D4,(A1) + LEA.L -$38(A6),A0 + LEA.L -$AC(A6),A1 + BRA.S @saveVals +@nope + ; get the resource list for the specified device LEA MYBLOCK(A6),A0 ; point to parameter block @@ -687,6 +938,7 @@ VARSIZE EQU PMHState ; size of locals BNE BadSlot ; => something wrong MOVE.L spResult(A0),A1 ; save the pointer to the block +@saveVals ADD.L vpBaseOffset(A1),D3 ; calculate baseAddr MOVE.L D3,(A2)+ ; save baseAddr @@ -731,11 +983,13 @@ VARSIZE EQU PMHState ; size of locals MOVE.L vpPlaneBytes(A1),(A2)+ ; offset from one plane to another - ; dispose of the sBlock + TST.B -$D3(A6) + BNE.S @dont MOVE.L A1,spsPointer(A0) ; - _sDisposePtr ; + _SDisposePtr ; MOVE.L A4,spsPointer(A0) ; restore pointer to list +@dont ; use DevType to initialize the color table @@ -748,14 +1002,14 @@ VARSIZE EQU PMHState ; size of locals GetClut CLR.L -(SP) ; make room for function result MOVE D5,-(SP) ; push resource ID - _GetCTable ; load in the color table resource + JSR ([$1660]) ; load in the color table resource MOVE.L (SP)+,D0 ; did we get one? BEQ TableOK ; => no, just punt MOVE.L D0,-(SP) ; push new handle for dispose MOVE.L D0,-(SP) ; push source handle MOVE.L (A2),-(SP) ; push destination handle - _CopyHandle ; copy table into our handle - _DisposCTable ; and dispose of new color table + JSR ([$1A14]) ; copy table into our handle + JSR ([$1690]) ; and dispose of new color table BRA.S TableOK ; => and continue ; @@ -788,10 +1042,11 @@ GetFromSlot MOVE.B #mTable,spID(A0) ; the fixed table <2.3> CMPI.L #minSeed,D0 ; is it a resource ID?

BLE.S @UseOriginalSeed ; -> yes, assume we know what we're doing

@GetNewSeed SUBQ #4,SP ; make room for function result <2.3> - _rGetCTSeed ; get a new, unique ctable seed <2.3> + JSR ([$16A0]) ; get a new, unique ctable seed MOVE.L (SP)+,ctSeed(A1) ; put in the new seed <2.3> @UseOriginalSeed ; transindex/ctflags set below <2.3> + ;••• CSS end rollin GetDevPixMapPatch from Horror MOVE.L A4,spsPointer(A0) ; Restore the pointer to mode list. @@ -868,472 +1123,7 @@ CheckDevices PROC EXPORT ; CheckDevices is called by InitGraf. -PARAMSIZE EQU 0 - -IOPBlk EQU -IOVQElSize ; [64] parameter blk for I/O calls -SlotParms EQU IOPBlk-spBlock.SPBlockSize ; parameter block for slot manager calls -VidParms EQU SlotParms-12 ; [12] size of mode params -StartList EQU VidParms-4 ; [long] pointer to start of resource -VARSIZE EQU StartList ; size of locals - - - LINK A6,#VARSIZE ; allocate local stack frame - MOVEM.L D6-D7/A2-A4,-(SP) ; save work registers - -; check to see if the device list needs to be initialized - - MOVE.L DeviceList,A0 ; get handle to device list - MOVE.L (A0),A0 ; point to head of device list - MOVE GDFlags(A0),D0 ; get the flags word - BTST #AllInit,D0 ; test initialize flag? - BNE GoHome ; => devices already initialized - -; test the scrnInval lo-mem to make sure the screen resource is valid. - - TST.B scrnInval ; if this byte is cleared, then invalid - BEQ GoHome ; - -; try to load in the resource. If none, then exit - - CLR.L -(SP) ; make room for function result - MOVE.L #'scrn',-(SP) ; push desired resource type - CLR -(SP) ; resource ID = 0 - _GetResource ; get the resource - MOVE.L (SP)+,D0 ; get the resource handle - BEQ GoHome ; => none, don't configure - -; lock down the handle, and point at the data - - MOVE.L DeviceList,A0 ; get handle to device list - MOVE.L (A0),A0 ; point to head of device list - BSET #AllInit,GDFlags(A0) ; say list has been initialized - - MOVE.L D0,-(SP) ; save resource for ReleaseResource - MOVE.L D0,A0 ; get the resource - _HLock ; lock it down - MOVE.L (A0),A4 ; A4 = resource pointer - -; validate the 'scrn' resource. There must be a descriptor for every screen device. -; I assume that there are no duplicate entries and that screens don't overlap. -; In addition the devices in the 'scrn' resource must be in slot order. - - MOVE.L A4,StartList(A6) ; save pointer to start of list - MOVE (A4)+,D7 ; get the number of screens in resource - - WITH spBlock,vpBlock - - LEA SlotParms(A6),A0 ; get pointer to parameter block - MOVE.L #((CatDisplay << 16) ++ TypVideo),spCategory(A0) ; - ; set category ID, type - MOVE.W #DrSwApple,spDrvrSw(A0) ; set software, hardware ID - MOVE.B #$01,spTBMask(A0) ; ignore spDrvrH - MOVE.B #0,spSlot(A0) ; start with desired slot - MOVE.B #0,spID(A0) ; start with first ID - CLR.B spExtDev(A0) ; -NxtDev LEA SlotParms(A6),A0 ; get pointer to parameter block - _sNextTypesRsrc ; get next video device - BEQ.S GotDev ; => there is one - -; there are no more screens, are there more resources? - - TST D7 ; there should have been one per device - BEQ GoodRsrc ; => there was, go initialize them - BRA.S BadScrn ; - -; scan through scrn resource for this device - -GotDev MOVE (A4)+,D0 ; get type - CMP spDrvrHw(A0),D0 ; does it match? - BNE.S badScrn ; => nope, bad screen resource - MOVE (A4)+,D0 ; get slot - CMP.B spSlot(A0),D0 ; does it match? - BNE.S badScrn ; => nope, bad screen resource - -; get the DCE entry for the device and check dCtlDevBase -; if no match look for more devices in same slot - -SlotOK MOVE spRefNum(A0),D0 ; get the refNum - NOT D0 ; refNum -> unitnum - ASL #2,D0 ; get offset in unitTable - MOVE.L UTableBase,A1 ; get the base of the unit table - MOVE.L (A1,D0),A3 ; A3 = handle to the DCE - MOVE.L (A3),A1 ; get pointer to the DCE - MOVE.L dCtlDevBase(A1),D0 ; get dCtlDevBase - CMP.L (A4)+,D0 ; do they match? - BNE.S badScrn ; => nope, bad screen resource - -; to be completely compulsive about it, make sure there's a grafDevice for it - - MOVE.L DeviceList,A3 ; A3 = first grafdevice in list - MOVE spRefNum(A0),D1 ; get refnum -@NxtGD MOVE.L (A3),A1 ; get pointer to device - CMP GDRefNum(A1),D1 ; does refnum match? - BEQ.S RectCheck ; => yes, this device matches! - MOVE.L GDNextGD(A1),D0 ; get handle of next device - MOVE.L D0,A3 ; get in A3 - BNE.S @NxtGD ; => check all grafDevices - BRA.S badScrn ; => no such grafDevice, bad 'scrn' - -; -; compare the size of the remembered screen rect to the size of this gDevice's -; gdRect. At this point, the GDRects are still topleft=(0,0) from InitGDevice -; so we can just check 'scrn' rect against botRight. - -RectCheck - ADD #10,A4 ; skip to global rect in scrn - MOVE.W bottom(A4),D0 ; get bottom - SUB.W top(A4),D0 ; = height - CMP.W GDRect+bottom(A1),D0 ; is it equal? - BNE.S badScrn ; nope, we're out - MOVE.W right(A4),D0 ; get right - SUB.W left(A4),D0 ; = width - CMP.W GDRect+right(A1),D0 ; is it equal? - BNE.S badScrn ; nope, we're out - -; this device matches! go check next one - -SkipData ADD #8,A4 ; skip to control field - MOVE (A4)+,D0 ; get number of control calls - BRA.S SkipCtl ; skip control call -SkipNxt MOVE.L (A4)+,D1 ; get control code, size of params - ADD D1,A4 ; add size of params to skip block -SkipCtl DBRA D0,SkipNxt ; => skip next control - - SUBQ #1,D7 ; decrement device count - BMI.S badScrn ; => oops, bad screen resource - BRA NxtDev ; => check next device - -BadScrn -; If the screen resource is bad, then let's walk down the device list and offset -; the invalid screens' GDRects so that they don't all pile up at (0,0). Let's keep -; is simple- I just put them all edge to edge, top edge at 0 (unchanged) and to the -; right of the previous guys. Offset the GDPMap's rect also. - - MOVE.L DeviceList,A0 ; get the head of the list (the boot screen) - MOVE.L (A0),A0 ; hndl->ptr - MOVE.W GDRect+right(A0),D1 ; get the boot screen's right edge (if the scrn - ; is invalid, then this is the real right edge) -@Loop MOVE.L GDNextGD(A0),D0 ; get handle to next screen - BEQ Done ; if NIL, then we're out of here - MOVE.L D0,A0 ; get this device - MOVE.L (A0),A0 ; hndl->ptr - ADD.W D1,GDRect+left(A0) ; offset the left edge (normally zero) - ADD.W D1,GDRect+right(A0) ; offset the right edge - MOVE.L gdPMap(A0),A1 ; get the GDPMap handle - MOVE.L (A1),A1 ; get the gdPMap pointer - ADD.W D1,pmBounds+left(A1) ; offset the left edge (normally zero) - ADD.W D1,pmBounds+right(A1) ; offset the right edge - - MOVE.W GDRect+right(A0),D1 ; get the new right edge for the next device - BRA.S @Loop ; for each screen - -GoodRsrc _HideCursor ; cursor must be hidden here - MOVE.B #1,CRSRBUSY ; MARK CHANGE IN PROGRESS - MOVE.L CRSRDEVICE,A0 ; GET HANDLE TO CURSOR DEVICE - MOVE.L (A0),A0 ; POINT TO CURSOR DEVICE - MOVE.L GDRECT+TOPLEFT(A0),D0 ; GET SCREEN TOPLEFT - SUB D0,MOUSE+H ; CONVERT MOUSE TO SCREEN LOCAL - SWAP D0 ; GET SCREEN TOP - SUB D0,MOUSE+V ; CONVERT MOUSE TO SCREEN LOCAL - MOVE.L MOUSE,MTEMP ; copy to mouse temp - MOVE.L MOUSE,RAWMOUSE ; and to raw coordinates - -; configure each entry in the scrn resource - - MOVE.L StartList(A6),A4 ; save pointer to start of list - MOVE (A4)+,D7 ; get the number of screens in resource - SUBQ #1,D7 ; make it 0 based - -DoNxt LEA SlotParms(A6),A0 ; get pointer to parameter block - MOVE.L #((CatDisplay << 16) ++ TypVideo),spCategory(A0) ; - ; set category ID, type - MOVE.W #DrSwApple,spDrvrSw(A0) ; - ; set software, (invalid) hardware ID - MOVE (A4)+,spDrvrHw(A0) ; set driver hardware ID - MOVE.B #$00,spTBMask(A0) ; all fields valid - MOVE (A4)+,D0 ; get slot - MOVE.B D0,spSlot(A0) ; does it match? - MOVE.B #0,spID(A0) ; start with first ID - CLR.B spExtDev(A0) ; - _sNextTypesRsrc ; get next video device - BNE BadScrn ; => this should never be taken - -; we found a device that matches the given description! Find its GDevice and configure it - - MOVE spRefNum(A0),D1 ; D1 = refnum - - MOVE.L DeviceList,A3 ; A3 = first grafdevice in list -@NxtGD MOVE.L (A3),A0 ; get pointer to device - CMP GDRefNum(A0),D1 ; does refnum match? - BEQ.S @GotGD ; => yes, got the grafDevice - MOVE.L GDNextGD(A0),D0 ; get handle of next device - MOVE.L D0,A3 ; get in A0 - BNE.S @NxtGD ; => check all grafDevices - BRA BadScrn ; => this should never be taken - -@GotGD MOVE.L (A4)+,D0 ; discard dCtlDevBase - -; set up the GDFlags word before calling InitGDevice - -@0 MOVE.L (A3),A1 ; point at the grafDevice - MOVE GDFlags(A1),D0 ; get the flags word - AND 2(A4),D0 ; turn off the bits that are used - OR 4(A4),D0 ; turn on new bits - BSET #RAMInit,D0 ; say we've initialized it - BSET #ScreenDevice,D0 ; and flag it as a screen device - MOVE D0,GDFlags(A1) ; set the flags word - -; if main device, set up low-memory handles - -ChkMain MOVE GDFlags(A1),D0 ; get the flags word - BTST #mainScreen,D0 ; is it the main scrn? <2.2> - BEQ.S @InitGD ; => no, go init device - - MOVE.L A3,MainDevice ; set up as main screen device - MOVE.L A3,TheGDevice ; set up as default destination device - MOVE.L A3,SrcDevice ; set up as default source device - ; allocCursor called by initgraf to init cursor - MOVE.L (A3),A0 ; point to gDevice - MOVE.L gdPMap(A0),A0 ; get pixMap handle - MOVE.L (A0),A0 ; point to pixMap - MOVE.L baseAddr(A0),D0 ; get base address - MOVE.L D0,scrnBase ; and set up screen base - - LEA SlotParms(A6),A0 ; point at slot manager block again (it's still positioned from above) - MOVE (A4),D0 ; get the requested mode -;+++ MOVE.B D0,spID(A0) ; put in block - MOVE.B #128,spId(A0) ; pass the default mode (assumed to be 1-bit mode) - _sFindStruct ; point to this mode information - - MOVE.B #mVidParams,spID(A0) ; now get the device pixmap - _sGetBlock ; on the system heap (I guess this is OK) - MOVE.L spResult(A0),A1 ; get the result pointer - MOVE.w vpRowBytes(A1),screenRow ; get the screen row bytes (WORD) - -; set up the lo-mem for screen resolution too. It's only WORD/WORD rather then FIXED/FIXED - MOVE.W vpHRes(A1),ScrHRes ; Take the high word of vpHRes - MOVE.W vpVRes(A1),ScrVRes ; Take the high word of vpVRes - - MOVE.L A1,spsPointer(A0) ; now, release the sBlock - _sDisposePtr ; - -@InitGD - MOVE D1,-(SP) ; push refnum - MOVE (A4)+,-(SP) ; push mode - CLR -(SP) ; which should be long - MOVE.L A3,-(SP) ; push grafDevice - _InitGDevice ; configure the grafDevice - ADDQ #4,A4 ; mask and flags already used - -; -; if there is a gamma table resource id, get the gamma correction table and call the driver -; We need to do this before the color table to make sure it takes effect right away. -; - - MOVE 2(A4),D0 ; get the gamma table resource id - CMP #-1,D0 ; is it -1? - BEQ.S ChkTbl ; => yes, no table - -; -; if the gamma table resource id = -2, then request linear gamma from the driver -; - - CMP #-2,D0 ; is it -2? - BNE.S @GetFromSys ; nope, so load the system resource - - LEA VidParms(A6),A1 ; point to parameter block - CLR.L csGTable(A1) ; pass NIL to tell new drivers to set linear - BSR.S GammaControl ; call a common routine to set gamma - BRA.S ChkTbl ; - -; -; load the gamma resource from the system and set it -; - -@GetFromSys - CLR.L -(SP) ; make room for function result - MOVE.L #'gama',-(SP) ; push gamma table rsrc type - MOVE D0,-(SP) ; else push resource id - _GetResource ; try to read in gamma table - MOVE.L (SP)+,D0 ; get the result - BEQ.S ChkTbl ; => couldn't find it, use default - MOVE.L D0,-(SP) ; save a copy for later - MOVE.L D0,A0 ; setup for HLock - _HLock ; - LEA VidParms(A6),A1 ; point to params for SetGamma - MOVE.L (A0),csGTable(A1) ; gamma table pointer is only param - BSR.S GammaControl ; call a common routine - MOVE.L (SP),A0 ; get the resource handle back - _HUnlock ; free it - _ReleaseResource ; and release it (fixing the stack) - BRA.S ChkTbl ; continue on - -; -; here's an imbedded utility. I know I burn 2 bytes always BSRing around it, but I -; would burn two with a word branch if the utility were outside. This routine sets -; up the iopb and csParam block for a SetGamma control call. It expects the csGTable -; field to be set up, the csParam block pointer in A1, and the gdevice pointer in A3. -; - -GammaControl - LEA IOPBlk(A6),A0 ; point to parameter block - MOVE.L A1,csParam(A0) ; move addr of parms into block - MOVE.W #4,csCode(A0) ; csc_SetGamma - CLR.L ioCompletion(A0) ; no completion routine - CLR.W ioVRefNum(A0) ; no volRefNum - MOVE.L (A3),A1 ; point to gdevice - MOVE GDRefNum(A1),ioRefNum(A0) ; set device's refnum - _Control ,IMMED ; SetGamma(GammaTable) - ; if error here (likely if -2 were passed to - ; and old driver) then just use default table - RTS ; and back - -; -; Previously, if there was a color table resource id, this part loaded that table. Now, -; it checks the state of the gdDevType bit. If it is monochrome (=0), then this routine -; substitutes pixelSize+32 for the resID. If it is color (=1) and 2- or 4-bit mode, then -; pixelSize+64 is substituted to yield a modified color table that includes the highlight -; color. -; -; If we EVER have a gamma ID <> -1 (not default), then be sure to set the color table <2.3> -; to flush this gamma into the CLUT hardware. -; -; The pointer to the gDevice is still in A1. -; - -ChkTbl - MOVE.L (A3),A1 ; point to the gDevice again - MOVE.L gdPMap(A1),A0 ; get pixmap - MOVE.L (A0),A0 ; get pixmap ptr - MOVE.W pmPixelSize(A0),D0 ; get depth - - CMP #DirectType,gdType(A1) ; is it a direct device? - BEQ SetGRect ; if so, then do nothing - - BTST #gdDevType,gdFlags+1(A1) ; is it color or monochrome mode? - BNE.S @ClrMode ; if set, then this is color - cmp.w #2,d0 ; 1 or 2 bit/pixel? <2.1> - ble.s @regClr ; don't do anything funky <2.1> -@MonoMode - ADD #32,D0 ; add 32 to pixelsize in all modes for linear gray - BRA.S @GetClut ; -@ClrMode - MOVE.W D0,D1 ; copy the depth - AND #9,D1 ; is it 1- or 8-bit mode? - BNE.S @regClr ; if so, then do regular behavior -@is2or4 - ADD #64,D0 ; for 2- or 4-bit, add 64 to pixel depth (gives color+highlight) - BRA.S @GetClut ; - -@regClr - MOVE (A4),D1 ; get the color table resource id - CMP #-1,D1 ; is it -1? - BNE @GetClut ; if not, then set the CLUT <2.3> - CMP #-1,2(A4) ; if CLUTid=-1, and gammaID<>-1, then set CLUT to flush <2.3> - BEQ.S SetGRect ; if both are default, then continue <2.3> - -@GetClut CLR.L -(SP) ; make room for function result - MOVE D0,-(SP) ; else push resource id - _GetCTable ; get a color table - MOVE.L (SP)+,D0 ; get the result - BEQ.S SetGRect ; => couldn't find it, use default - - MOVE.L (A3),A0 ; point at the grafDevice - MOVE.L GDPMap(A0),A0 ; get handle to its pixmap - MOVE.L (A0),A0 ; point at the pixmap - MOVE.L pmTable(A0),-(SP) ; push our color table for set entries - MOVE.L D0,-(SP) ; push new table handle for dispose - MOVE.L D0,-(SP) ; push source color table - MOVE.L pmTable(A0),-(SP) ; push destination color table - _CopyHandle ; copy new table into our handle - _DisposCTable ; and dispose new handle - -; now call the driver to set this color table (handle on stack) - - MOVE.L (SP),A0 ; get handle to color table - _HLock ; lock down the color table - LEA VidParms(A6),A1 ; point to params for SetEntries - MOVE.L (A0),A0 ; get ctabPtr - CLR.W csStart(A1) ; start at zero, use sequence mode - MOVE.W ctSize(A0),csCount(A1) ; for the length of the table - LEA ctTable(A0),A0 ; get pointer to colorspecs - MOVE.L A0,csTable(A1) ; color table pointer is first param - LEA IOPBlk(A6),A0 ; point to parameter block - MOVE.L A1,csParam(A0) ; move addr of parms into block - MOVE.W #3,csCode(A0) ; csc_SetEntries - CLR.L ioCompletion(A0) ; no completion routine - CLR.W ioVRefNum(A0) ; no volRefNum - MOVE.L (A3),A1 ; point to gdevice - MOVE GDRefNum(A1),ioRefNum(A0) ; set device's refnum - _Control ,IMMED ; SetEntries(ColorTable); - MOVE.L (SP),A0 ; get handle to color table - _HUnLock ; unlock the color table - -; finally, generate an inverse table for the table (handle on stack) - - ; color table handle on stack - MOVE.L (A3),A1 ; point at the grafDevice - MOVE.L GDITable(A1),-(SP) ; push inverse table handle - MOVEQ #4,D0 ; make 4-4-4 inverse tables - MOVE D0,GDResPref(A1) ; save in GDevice - MOVE D0,-(SP) ; and push res - _MakeITable ; and generate inverse table - -; use the specified rectangle to determine the device's global coordinates - -SetGRect - ADDA #4,A4 ; skip the CLUT and gamma resID's - MOVE.L (A3),A0 ; point to the grafDevice - MOVE.L GDPMap(A0),A1 ; get handle to pixMap - MOVE.L (A1),A1 ; get pointer to pixMap - ADDQ #Bounds,A1 ; point to pixMap.bounds - LEA GDRect(A0),A0 ; point to its rectangle - MOVE.L (A4)+,D0 ; get topLeft for mouse offset - MOVE.L D0,(A1)+ ; copy topLeft to pixMap.bounds - MOVE.L D0,(A0)+ ; copy topLeft to GDRect - MOVE.L (A4),(A1) ; copy botRight to pixMap.bounds - MOVE.L (A4)+,(A0)+ ; copy botRight to GDRect - -; parse and execute the additional control commands - - MOVE (A4)+,D6 ; get number of control calls - BRA.S ChkNxtCtl ; => jump into end of dbra loop -DoCtl LEA IOPBlk(A6),A0 ; point to parameter block - LEA 4(A4),A1 ; point to call parameters - MOVE.L A1,csParam(A0) ; move addr of parms into block - MOVE.W (A4)+,csCode(A0) ; set control code - CLR.L ioCompletion(A0) ; no completion routine - CLR.W ioVRefNum(A0) ; no volRefNum - MOVE.L (A3),A1 ; point to gdevice - MOVE GDRefNum(A1),ioRefNum(A0) ; set device's refnum - _Control ,IMMED ; and issue the control call - - MOVE (A4)+,D0 ; get size of param block - ADD D0,A4 ; skip param block -ChkNxtCtl DBRA D6,DoCtl ; loop for all control calls - -ChkNxt DBRA D7,DoNxt ; loop for all screens in resource - -; NOW UPDATE THE MOUSE TO THE COORDINATE SYSTEM OF ITS SCREEN AND DISPLAY IT - - MOVE.L CRSRDEVICE,A0 ; GET HANDLE TO CURSOR DEVICE - MOVE.L (A0),A0 ; POINT TO CURSOR DEVICE - MOVE.L GDRECT+TOPLEFT(A0),D0 ; GET SCREEN TOPLEFT - ADD D0,MOUSE+H ; CONVERT MOUSE TO GLOBAL - SWAP D0 ; GET SCREEN TOP - ADD D0,MOUSE+V ; CONVERT MOUSE TO GLOBAL - MOVE.L MOUSE,MTEMP ; copy to mouse temp - MOVE.L MOUSE,RAWMOUSE ; and to raw coordinates - CLR.B CRSRBUSY ; end of change - _AllocCursor ; make sure cache structures are OK <5+> - _ShowCursor ; now redisplay cursor - -DONE _ReleaseResource ; all done with the resource - -GoHome MOVEM.L (SP)+,D6-D7/A2-A4 ; restore work registers - UNLINK PARAMSIZE,'CHECKDEV' - - ENDWITH + RTS ;------------------------------------------------------------- ; diff --git a/QuickDraw/GWorld.a b/QuickDraw/GWorld.a --- a/QuickDraw/GWorld.a +++ b/QuickDraw/GWorld.a @@ -695,6 +695,9 @@ varSize equ localRect ; size of local variables move #noErr,result(a6) ; flag a successful operation, + move.l offscreenGWorld(a6),a0 + clr.l (a0) + ;------------------------------------------------------------------------- ; Initialize all offscreen local variables to zero. ; If an error happens during this function, we deallocate the memory for @@ -765,6 +768,14 @@ varSize equ localRect ; size of local variables cmp #32,d7 ; illegal if > 32 bhi badPixelDepth ; exit with error +;------------------------------------------------------------------------- +; Treat 24-bit color as 32-bit. + + cmp #24,d7 + bne.s @dontSetTo32 + moveq #32,d7 +@dontSetTo32 + ;------------------------------------------------------------------------- ; If pixelDepth is not 0, don't try to align offscreen pixmap to screen @@ -1003,6 +1014,17 @@ createPixMap moveq #5,d0 ; no, cmpSize = 5 @0 move d0,pmCmpSize(a1) ; store cmpSize in pixmap + btst.l #$1,d3 + beq.s @skipthisnonsense + move.l ([museDevice,a6]),a0 + move.l ([gdPMap,a0]),a0 + move.l gdMode(a0),a0 + move.l a0,offscreenCTable(a6) + move.l ([offscreenPixMap,a6]),a1 + move.l a0,gdMode(a1) + bra createDevice +@skipthisnonsense + ; Create an empty color table. move #ctRec,d0 ; size of an empty color table @@ -1025,7 +1047,7 @@ createPixMap ; Create a dummy inverse table (doesn't have to be a seed) - moveq #2,d0 ; small handle for dummy inverse table + moveq #4,d0 ; small handle for dummy inverse table _NewHandle ,CLEAR ; allocate it bne reportError ; if Memory Manager error, report it and quit @@ -1149,7 +1171,7 @@ dontCloneCTab ; Allocate inverse table to its initial size - moveq #2,d0 ; initial size is 2 + moveq #4,d0 ; initial size is 2 _NewHandle ,CLEAR ; allocate it bne reportError ; if Memory Manager error, report it and quit @@ -1393,9 +1415,9 @@ disposOffscreenHandles move portVersion(a0),d0 ; get portVersion and #cPortFlag,d0 ; check if cPortFlag set cmp #cPortFlag,d0 ; is it set? - bne @0 ; if not set, don't close port + bne.s @0 ; if not set, don't close port move.l (a0),-(sp) ; push pointer to port - _ClosePort ; close it down + _CloseCPort ; close it down @0 move.l d7,a0 ; get handle to offscreen port _DisposHandle ; dispose it @@ -1732,7 +1754,7 @@ dontDisposeBaseAddr dontDisposeGDevice move.l offscreenGWorld(sp),-(sp) ; push pointer to offscreen port - _ClosePort ; get rid of all substructures + _CloseCPort ; get rid of all substructures move.l offscreenGWorld(sp),a0 ; get pointer to grafport _RecoverHandle ; find handle to grafport diff --git a/QuickDraw/GrafAsm.a b/QuickDraw/GrafAsm.a --- a/QuickDraw/GrafAsm.a +++ b/QuickDraw/GrafAsm.a @@ -72,7 +72,7 @@ SIZEOK _NewHandle ,CLEAR ; ask OS to do request ; handle the memory full error by deep-shitting MemFull MOVEQ #25,D0 ;Deep Shit memory full error code - _SysError + DC.W $A9C9 ;_SysError JacksonPollock DC.W $A9FF ;invoke debugger just in case it comes back @@ -315,7 +315,6 @@ CRSRLP MOVE.L (A0)+,(A4)+ ;COPY A LONG INTO GLOBALS ; IF SCREENS NOT INITIALIZED FROM 'scrn' RESOURCE, INIT THEM - bsr.l CheckDevices ; configure screens, if needed MOVE.L MainDevice,A0 ; get main device MOVE.L A0,theGDevice ; set gDevice MOVE.L A0,srcDevice ; and srcDevice just in case diff --git a/QuickDraw/LCursor.a b/QuickDraw/LCursor.a --- a/QuickDraw/LCursor.a +++ b/QuickDraw/LCursor.a @@ -40,11 +40,7 @@ AllocCursor PROC EXPORT ; PROCEDURE AllocCursor; ; - LEA AllocCrsr,A0 ;get default cursor routine - MOVE.L JAllocCrsr,D0 ;has vector been initialized? - BEQ.S @0 ;=>no, use default routine - MOVE.L D0,A0 ;else use routine in vector -@0 JMP (A0) ;and call it + JMP AllocCrsr InitCursor PROC EXPORT @@ -55,8 +51,8 @@ InitCursor PROC EXPORT MOVE.L GRAFGLOBALS(A5),A0 ;POINT TO QUICKDRAW GLOBALS PEA ARROW(A0) ;PUSH ADDR OF ARROW _SetCursor ;INSTALL ARROW CURSOR - MOVE.L JInitCrsr,A0 ;get lo mem pointer - JMP (A0) ;and call it + IMPORT _InitCursor + JMP _InitCursor @@ -70,8 +66,8 @@ SetCursor PROC EXPORT MOVE #16,-(SP) ;HEIGHT:=16 PEA DATA(A0) ;PUSH ADDR OF DATA PEA MASK(A0) ;PUSH ADDR OF MASK - MOVE.L JSetCrsr,A0 ;get lo mem vector - JSR (A0) ;call vector + IMPORT _SetCursor + JSR _SetCursor MOVE.L (SP)+,(SP) ;strip param RTS ;and return @@ -92,8 +88,8 @@ SetCCursor PROC EXPORT ; _SetCursor ; and set it the old way MOVE.L 4(SP),-(SP) ; Push handle to color cursor - MOVE.L JSetCCrsr,A0 ; get lo mem vector - JSR (A0) ; call vector (but don't call him hector) + IMPORT _SetCCursor + JSR _SetCCursor ; _ShowCursor ; balance is a virtue MOVE.L (SP)+,(SP) ; strip param RTS ; and return @@ -107,8 +103,8 @@ HideCursor PROC EXPORT ; ; ALL REGS PRESERVED. ; - MOVE.L JHideCursor,-(SP) ;get lo mem vector - RTS ;and call it + IMPORT _HideCursor + JMP _HideCursor @@ -119,36 +115,8 @@ ShowCursor PROC EXPORT ; ; ALL REGS PRESERVED. ; - MOVE.L JShowCursor,-(SP) ;get lo mem vector - RTS ;and call it - - - -ShieldCursor PROC EXPORT -;--------------------------------------------------------- -; -; PROCEDURE ShieldCursor(shieldRect: Rect; offset: Point); -; -; ALL REGS PRESERVED. -; - MOVEM.L D0-D3/A0-A1,-(SP) ;SAVE REGS - MOVE.L 32(SP),A0 ;POINT TO SHIELDRECT - MOVEM.W (A0)+,D0/D1/D2/D3 ;GET TOP ... RIGHT - LEA 28(SP),A1 - SUB (A1),D0 ;TOP - OFFSET.V - SUB (A1)+,D2 ;BOTTOM - OFFSET.V - SUB (A1),D1 ;LEFT - OFFSET.H - SUB (A1),D3 ;RIGHT - OFFSET.H - MOVE D1,-(SP) ;PUSH GLOBAL LEFT - MOVE D0,-(SP) ;PUSH GLOBAL TOP - MOVE D3,-(SP) ;PUSH GLOBAL RIGHT - MOVE D2,-(SP) ;PUSH GLOBAL BOTTOM - MOVE.L JShieldCursor,A0 ;get lo mem vector - JSR (A0) ;and call it - MOVEM.L (SP)+,D0-D3/A0-A1 ;RESTORE REGS - MOVE.L (SP)+,(SP) - MOVE.L (SP)+,(SP) ;STRIP 8 BYTES - RTS ;AND RETURN + IMPORT _ShowCursor + JMP _ShowCursor @@ -159,10 +127,8 @@ ObscureCursor PROC EXPORT ; ; Hide the cursor image until the next time the mouse moves. ; - MOVE.L JCrsrObscure,A0 ;get lo mem vector - JMP (A0) ;and call it - - + IMPORT _ObscureCursor + JMP _ObscureCursor ENDPROC diff --git a/QuickDraw/PaletteMgr.a b/QuickDraw/PaletteMgr.a --- a/QuickDraw/PaletteMgr.a +++ b/QuickDraw/PaletteMgr.a @@ -172,7 +172,7 @@ plttUpdates Equ $0002 ; value passed to SetPalette [short] AWC.PB457 ;ctReserveBit EQU 6 ;ctReserveVal EQU $4000 -PMgrVersNum EQU $0202 ; Version number (VVss: version subversion) +PMgrVersNum EQU $0203 ; Version number (VVss: version subversion) ;----------------------------------------------------------- ; Let's talk about PMgrVersNum -- ; @@ -228,6 +228,46 @@ PMgrVersNum EQU $0202 ; Version number (VVss: version subversion) ; GetNewCWindow which is patched in PatchIIROM.a +FlushPalettes PROC EXPORT ; THIEVED FROM THE MEMORY MGR +;----------------------------------------------------------------------- +; Call DisposePalette for all palettes in the app heap. +; +; Registers: D0-D2/A0-A1 +; Called by vIAZInit. +;---------------------------------------------------------------------- + IMPORT AppZoneAddr + + MOVEM.L A2-A3/D3,-(SP) ; save work registers + MOVE.L PMgrHandle,A2 ; get paletteMgr handle + CMP.L MinusOne,A2 ; is it there? + BEQ.S @DONE ; => no, just return + MOVE.L (A2),A1 ; point to data structure + MOVE.L PListHandle(A1),A0 ; get handle to palette list + _HLock ; and lock it down + MOVE.L (A0),A3 ; point to palette list + + Move APalettes(A1),D3 ; get number of active handles + Beq.s @NoPals ; no friends => go home + Add FreeSpaces(A1),D3 ; calculate total number of entries + BRA.S @FindEnd ; => check for no entries + +@FindLoop Move.L PaletteRef(A3),D1 ; get first entry + BEQ.S @FindNext ; => no palette in entry + MOVE.L D1,D0 ; and get for routine + JSR AppZoneAddr ; in application area (or zero)? + BNE.S @FindNext ; => not in app heap + MOVE.L D1,-(SP) ; push palette handle + DC.W $AA93 ; _DisposePalette ; and dispose it in place +@FindNext AddQ #PLstEntrySz,A3 ; bump to the next entry +@FindEnd DBra D3,@FindLoop ; repeat for all spaces + +@NoPals MOVE.L (A2),A1 ; point to palette stuff + MOVE.L PListHandle(A1),A0 ; get handle to palette list + _HUnlock ; and unlock it + +@DONE MOVEM.L (SP)+,A2-A3/D3 ; restore work registers + RTS + ;--------------------------------------------------- ; ; PROCEDURE ActivatePalette(dstWindow: WindowPtr); INLINE $AA94; @@ -584,14 +624,8 @@ gLoopEnd DBRA D3,gLoop ; loop for all devices ; return Z-flag Clear if the process mgr is here (BNE ProcMgrTrue) CheckForProcessMgr PROC EXPORT - MOVE.L #'os ',D0 ; type of question - _Gestalt - TST D0 ; OSErr from Gestalt? - BEQ.S @a ; No=>test result - SUBA A0,A0 ; Yes=>assume there's no procMgr -@a - MOVE.L A0,D0 - BTST #gestaltLaunchControl,D0 ; clear the Z-flag if procmgr here + MOVE.L ExpandMem,A0 + TST $128(A0) RTS ;--------------------------------------------------- @@ -624,7 +658,7 @@ linkSize DS.B 0 ; linky number movem.l a0-a2/d0-d2,-(sp) ; Those pesky c routines sub.l a0,a0 ; Pass the current process (0) - move.w #12,d0 ; _TrashProcess + moveq #12,d0 ; _TrashProcess ;_FigmentDispatch ; let everyone know this stuff is gone dc.w $A0A4 movem.l (sp)+,a0-a2/d0-d2 ; Restore em @@ -660,7 +694,7 @@ linkSize DS.B 0 ; linky number PEA inFront(A6) _SameProcess ; are we the front process? ADDQ #2,SP ; OSErr leaves inFront true from above - TST inFront(A6) + TST.B inFront(A6) BEQ.S @doNothing @front @@ -1805,8 +1839,9 @@ linkSize DS.B 0 ;linky number MOVE.L (A2),A3 ; A3->gDevice TST gdType(A3) ; a clut device? BNE.S GoHome ; No=> go home w/false - TST gdFlags(A3) ; Device active? - BPL.S GoHome ; No=> ditto + MOVE $14(A3),D0 + AND #$8010,D0 + BEQ.S GoHome ; No=> ditto SUBQ #4,SP ; space for result MOVE.L A2,-(SP) ; push gDevice handle JSR GetClut ; get the appropriate default clut @@ -2505,8 +2540,9 @@ FoundAPltt Move.L A2,srcPalette(A6) ; save it so we can unlock it AWC.PB520 BEQ.s @a ; is it a clut device? SUBQ #1,D1 ; fixed type? BNE.S UnlockPltt ; no => we're almost done -@a TST gdFlags(A0) ; is it active? - BPL.S UnlockPltt ; no => ditto +@a MOVE $14(A3),D0 + AND #$8010,D0 + BEQ.S UnlockPltt Move ciUsage(A3),D1 ; get flags MoveQ #0,D0 ; clear high word Move srcEntry(A6),D0 ; set D0 in case it is an explicit index @@ -3152,8 +3188,9 @@ SetDev Move.L (A0),A0 ; dereference it TST gdType(A0) ; is it CLUT type (zero)? dvb1 BNE GoHome ; No => do nothing - TST gdFlags(A0) ; is it active - BPL GoHome ; No=>go home + MOVE $14(A0),D0 + AND #$8010,D0 + BEQ GoHome ; No=>go home Move.L gdPMap(A0),A0 ; get handle to pixmap Move.L (A0),A0 ; dereference pixmap Move.L pmTable(A0),A0 ; get handle to CTab @@ -4542,66 +4579,7 @@ ReleaseList PROC EXPORT ; FindModeID FUNC Export - WITH SpBlock,VPBlock - -FMVars RECORD {A6Link},Decrement -result DS.B 2 ; integer result -gd DS.B 4 ; input: GDevice -depth DS.B 2 ; input: depth -return DS.B 4 ; return address -A6Link DS.B 4 ; link -spBlk DS.B spBlockSize ; slot parameter block -vpPtr DS.B 4 ; pointer to vidParams block -linkSize DS.B 0 ; size of record - ENDR - - WITH FMVars - - LINK A6,#linkSize - MOVEM.L A2/D3,-(SP) ; save 'em - - CLR result(A6) ; default to failure! - - MOVE.L gd(A6),A0 ; A0 = gDevice handle - MOVE.L (A0),A1 ; A1->gDevice - - MOVE.L UTableBase,A0 ; A0->unit table - MOVE gdRefNum(A1),D0 ; D0 = refnum - NEG D0 - SUBQ #1,D0 - MOVE.L (A0,D0.W*4),A1 ; A1 = AuxDCEHandle for gDevice - MOVE.L (A1),A1 ; A1 = AuxDCEPtr for gDevice - LEA spBlk(A6),A0 ; A0 -> spBlock - MOVE.B dCtlSlot(A1),spSlot(A0) ; stash gDevice slot - CLR.B spID(A0) ; clear the ID - MOVE #catDisplay,spCategory(A0) ; category: display - MOVE #typVideo,spCType(A0) - MOVE #drSwApple,spDrvrSW(A0) ; Apple™ style driver - MOVE.B #1,spTBMask(A0) - _sNextTypeSRsrc - BNE.S @goHome ; failure - - MOVE.L spsPointer(A0),A2 ; keep saving it here - MOVE #127,D3 ; the 0th mode we'll look for - -@depthScan - ADDQ #1,D3 ; bump to next mode - MOVE.B D3,spID(A0) ; look for the next mode - MOVE.L A2,spsPointer(A0) ; sFindStruct wipes out each time - _sFindStruct ; look for it - BNE.S @goHome ; failure - MOVE.B #mVidParams,spID(A0) ; now we look for video params - _sGetBlock - BNE.S @goHome ; failure - MOVE.L spResult(A0),A1 ; A1->vidParam block, finally - MOVE vpPixelSize(A1),D0 ; D0 = depth for this description - CMP depth(A6),D0 ; the one we want? - BNE.S @depthScan ; scan 'til found, or slot error - - MOVE D3,result(A6) -@goHome MOVEM.L (SP)+,A2/D3 - UNLK A6 - RTD #result-return-4 + RTS @@ -4625,6 +4603,7 @@ A6Link DS.B 4 ; link r DS.B 4 ; regionhandle oldPort DS.B 4 ; previous port myRect DS.B 8 ; rectangle for little black corners +moreStuff DS.B 10 ; not sure what for? linkSize DS.B 0 ; size of record ENDR @@ -4634,10 +4613,31 @@ linkSize DS.B 0 ; size of record MOVEM.L A2-A3/D3-D5,-(SP) ; <6> MOVE #paramErr,result(A6) ; default to failure! + MOVE.B #1,myRect+6(A6) + MOVEQ #0,D0 + MOVE depth(A6),D0 + MOVE.L D0,r(A6) - MOVE.L gd(A6),A0 ; A0 = gDevice handle - MOVE.L (A0),A1 ; A1->gDevice + CLR -(SP) + MOVE.L gd(A6),-(SP) + CLR.L -(SP) + MOVE.L r(A6),-(SP) + PEA oldPort(A6) + CLR.L -(SP) + PEA myRect+7(A6) + MOVE #$C12,D0 ; _DMRemoveDisplay + DC.W $ABEB + + TST (SP)+ + BNE.S @goHome + + MOVE.L oldPort(A6),D0 + BTST.L #1,D0 + BNE.S @goHome + + MOVE.L gd(A6),A1 + MOVE.L (A1),A1 MOVE whichFlags(A6),D0 ; D0 = mask of flags to change ANDI #whichMask,D0 ; D0 = only the ones we let them change MOVE D0,D1 ; D1 = mask of flags to change @@ -4646,137 +4646,21 @@ linkSize DS.B 0 ; size of record AND gdFlags(A1),D0 ; D0 = all the unchanged gdFlags OR D1,D0 ; D0 = new gdFlags word MOVE D0,gdFlags(A1) ; Put back into gDevice - MOVE gdRefNum(A1),D3 ; D3 = refnum, for later use - - MOVE depth(A6),D4 ; get the depth or mode - TST.B D4 ; see which it is - BMI.S @gotMode - SUBQ #2,SP + CLR -(SP) MOVE.L gd(A6),-(SP) - MOVE D4,-(SP) - Import FindModeID - BSR FindModeID ; find the mode number, if it exists - MOVE (SP)+,D4 ; did we find one? - BEQ @goHome - -@gotMode Movea.l gd(A6),A2 ; Get GDHandle into A2. - Movea.l (A2),A2 ; Get a GDPtr into A2. - Btst #mainScreen,gdFlags(A2) ; If we’re not on the menubar screen, - Beq.s @NotMain1 ; then just keep going. - Move.w theMenu,D5 ; Get the currently hilited menuID. - Clr.w -(Sp) ; And unhilite it. - _HiliteMenu -@NotMain1 - -; Originally, DVB wasn’t getting the current port until corner-rounding code -; was about to be executed (below). That seemed to cause port problems, so -; I move the port getting/setting code to here (which is the way Monitors -; does it). -; -; -- jmp -- - - PEA oldPort(A6) ; Save the current port - _GetPort - MOVE.L WMgrPort,-(SP) ; We want to use the WMgrPort - _SetPort - - MOVE D3,-(SP) ; push refnum - EXT.L D4 - MOVE.L D4,-(SP) ; push new gdev mode - MOVE.L gd(A6),-(SP) ; push the handle - _InitGDevice - - Btst #mainScreen,gdFlags(A2) ; If we’re not on the menubar screen, - Beq.s @NotMain2 ; then just keep going. - Move.w D5,-(Sp) ; Get the hilite state. - _HiliteMenu ; Restore it. - _DrawMenuBar ; Draw the MenuBar. -@NotMain2 - - CLR.L -(SP) ; Activate the front palette - _FrontWindow ; before drawing anything. - _ActivatePalette - -; In Monitors (the cdev) this is the point in the code where -; the PortList is walked to update all the CGrafPorts to the -; new depth. We don’t need to do that here because InitGDevice -; does that for us with Save/ResoreFore and Save/RestoreBack -; calls. -; -; -- jmp -- - -; If the LayerManger is around, we need to start at the root, otherwise -; we just use FrontWindow. Originally, DVB had PaintOne instead of -; PaintBehind here but VL said that was wrong. Also, Monitors uses the -; PaintOne/PaintBehind method instead of PaintOne/PaintOne method. -; -; -- jmp -- - - If HasLayers Then - _RedrawAll ; CheckUpdate on all layers <42> - Else - SUBQ #4,SP - _NewRgn - MOVE.L (SP),r(A6) ; get a fresh region, LEAVE ON STACK - - MOVE.L gd(A6),A0 ; A0 = gd handle - MOVE.L (A0),A0 ; A0->gdevice - PEA gdRect(A0) ; push rectangle to RectRgn - _RectRgn ; r is now our region - CLR.L -(SP) - MOVE.L r(A6),-(SP) - _PaintOne - - SUBQ #4,SP - _FrontWindow - MOVE.L r(A6),-(SP) - _PaintBehind - - MOVE.L r(A6),-(SP) ; Done with region - _DisposRgn - Endif - - CLR.L myRect+topLeft(A6) ; Set the empty rect - CLR.L myRect+botRight(A6) - MOVE.L deviceList,A2 ; A2 = 1st GDHandle -@dloop MOVE.L (A2),A2 ; A2 -> GDevice - BTST #screenActive,gdFlags(A2) ; bit 15 in upper byte of word - BEQ.S @dloopEnd ; Inactive screen? - PEA gdRect(A2) - PEA myRect(A6) - MOVE.L (SP),-(SP) - _UnionRect -@dloopEnd MOVE.L gdNextGD(A2),A2 - MOVE.L A2,D0 - BNE.S @dloop - - PEA myRect(A6) ; Set a nice big clip - _ClipRect - PEA myRect(A6) - MOVE.L #$FFFDFFFD,-(SP) ; outset by three - _InsetRect - MOVE.L #$00030003,-(SP) ; pensize is three - _PenSize - PEA myRect(A6) - MOVE.L #$00160016,-(SP) ; and a radius for nice rounding - _FrameRoundRect ; and black out the corners + PEA r(A6) + CLR.L -(SP) + CLR.L -(SP) - _PenNormal + MOVE #$A11,D0 ; _DMEnableDisplay + DC.W $ABEB - MOVE.L oldPort(A6),-(SP) ; restore the previous port - _SetPort + MOVE (SP)+,result(A6) - MOVE.L gd(A6),A0 - MOVE.L (A0),A0 - BTST #mainScreen,gdFlags(A0) ; (mainScreen=11, in upper byte) - BEQ.S @notMain - _DrawMenuBar -@notMain - CLR result(A6) ; success @goHome - MOVEM.L (SP)+,A2/D3-D5 + MOVEM.L (SP)+,A2-A3/D3-D5 UNLK A6 RTD #result-return-4 @@ -4790,13 +4674,15 @@ HasDepth FUNC EXPORT whichMask EQU $FFFE ; the lowest bit is settable, else fail SDVars RECORD {A6Link},DECREMENT -result DS.B 2 ; boolean result -gd DS.B 4 ; input: GDevice to set -depth DS.B 2 ; input: depth to set to -whichFlags DS.B 2 ; which GDFlags to affect -flags DS.B 2 ; input: various flags -return DS.B 4 ; return address on stack +result DS.B 2 ; 18 $12 boolean result +gd DS.B 4 ; 14 $E input: GDevice to set +depth DS.B 2 ; 12 $C input: depth to set to +whichFlags DS.B 2 ; 10 $A which GDFlags to affect +flags DS.B 2 ; 8 $8 input: various flags +return DS.B 4 ; 4 $4 return address on stack A6Link DS.B 4 ; link +myDepth DS.B 4 +moreStuff DS.B 24 linkSize DS.B 0 ; size of record ENDR @@ -4809,13 +4695,43 @@ linkSize DS.B 0 ; size of record MOVE whichFlags(A6),D0 ; D0 = mask of flags to change AND flags(A6),D0 ; D0 = new flags to set AND #whichMask,D0 ; D0 = all the bits we can't change - BNE.S @goHome ; User tried to set bits we don't yet do! + BNE @goHome ; User tried to set bits we don't yet do! + + MOVEQ #0,D0 + MOVE depth(A6),D0 + MOVE.L D0,myDepth(A6) + + CLR moreStuff+0(A6) + CLR.L moreStuff+2(A6) + CLR moreStuff+6(A6) + CLR.L moreStuff+8(A6) + CLR.L moreStuff+12(A6) + + CLR -(SP) + MOVE.L gd(A6), -(SP) + PEA moreStuff(A6) + MOVE.L myDepth(A6), -(SP) + PEA -$C(A6) + CLR.L -(SP) + + MOVE #$AF3,D0 ; unknown _DisplayDispatch selector + DC.W $ABEB + + TST (SP)+ + BNE.B @goHome + + MOVEQ.L #$7F, D0 + MOVEQ.L #0, D1 + MOVE depth(A6), D1 + CMP.L D1, D0 + BLT.B @whaaa + + MOVE $C(A6), D0 + CMP -$C(A6), D0 + BNE.B @goHome + +@whaaa MOVE -$1C(A6), $12(A6) - SUBQ #2,SP - MOVE.L gd(A6),-(SP) - MOVE depth(A6),-(SP) - BSR FindModeID ; find the mode number, if it exists - MOVE (SP)+,result(A6) ; did we find one? @goHome UNLK A6 RTD #result-return-4 @@ -5087,6 +5003,7 @@ linkSize DS.B 0 ; size of record _HLock MOVE.L (A0),A2 ; A2->color table to check MOVE ctSize(A2),D3 ; D3 = last color in table + BEQ.S @goHome MOVEQ #0, D5 ; initialized number of colors checked ; MOVE D3,D0 ; ADDQ #1,D0 @@ -5108,6 +5025,9 @@ linkSize DS.B 0 ; size of record @next ADDQ #8,A2 ; Bump to next color DBRA D3,@loop ; loop through all colors + TST D5 + BEQ.S @goHome + DIVU D5,D7 ; compute average tolerance ; DIVU colorCount(A6),D7 ; compute average tolerance CMP maxAveTol(A6),D7 ; in range? diff --git a/QuickDraw/Patterns.a b/QuickDraw/Patterns.a --- a/QuickDraw/Patterns.a +++ b/QuickDraw/Patterns.a @@ -2308,12 +2308,12 @@ VARSIZE EQU DstRgnPtr move.w dstPix+pixelSize(A6),d0 ; preload dst depth in case not screen sub.l a0,a0 ; clear maskrgn in case not screen move.w d2,d3 ; remember screen flag in d3 - beq.s NotScreen1 + beq NotScreen1 MOVE.L DEVICELIST,A2 ; GET FIRST ELEMENT IN DEVICE LIST MOVE.L (A2),A1 ; POINT TO DEVICE TST.L GDNEXTGD(A1) ; CHECK NEXT DEVICE - beq.s NotScreen1 ; only 1 device so skip devloop + beq NotScreen1 ; only 1 device so skip devloop ; Copy dst rect and convert to global coordinates @@ -2321,38 +2321,41 @@ VARSIZE EQU DstRgnPtr lea globalRect(a6),a1 ; point at our copy move.l (a0)+,(a1)+ ; copy topleft move.l (a0),(a1)+ ; copy botRight - move.l dstPix+bounds+top(a6),d0 ; get topleft - move.w d0,d1 ; get left - swap d0 ; get top - sub.w d1,-(a1) ; convert right to global - sub.w d0,-(a1) ; convert bottom to global - sub.w d1,-(a1) ; convert left to global - sub.w d0,-(a1) ; convert top to global - - lea DstRectRgn(a6),A0 - move.l a0,DstRgnPtr(a6) ; build master pointer - move.w #10,(a0) ; set region size - -NEXTGD MOVE.L (A2),A0 ; POINT TO DEVICE - TST GDFLAGS(A0) ; IS IT ACTIVE? - BPL.S SKIPGD ; =>NO, SKIP IT + + lea globalRect(a6),a1 + move.l a1,d0 + move.l a1,-(sp) + jsr ([$FC0]) ; _LocalToGlobal? + + add #4,d0 + move.l d0,-(sp) + jsr ([$FC0]) ; _LocalToGlobal? + + lea.l DstRectRgn(a6),a0 + move.l a0,DstRgnPtr(a6) + move #10,(a0) + +NEXTGD move.l (a2),a0 + tst $14(a0) + bpl.s SKIPGD CLR.B -(SP) ; MAKE ROOM FOR BOOLEAN RESULT PEA globalRect(A6) ; PUSH SPECIFIED RECTANGLE PEA gdRect(A0) ; PUSH DEVICE'S RECTANGLE PEA dstRectRgn+rgnBBox(A6) ; PUSH DESTINATION RECT - _SECTRECT ; IS THE RECT IN THE DEVICE + JSR ([$10A8]) ; SECTRECT -- IS THE RECT IN THE DEVICE TST.B (SP)+ ; TEST RESULT BEQ.S SKIPGD ; => NO INTERSECTION - move.l dstPix+bounds+top(a6),d0 ; get topleft - move.w d0,d1 ; get left - swap d0 ; get top - lea dstRectRgn+rgnBBox(a6),a0 ; point to rect - add.w d0,(a0)+ ; convert top to local coords - add.w d1,(a0)+ ; convert left to local coords - add.w d0,(a0)+ ; convert bottom to local coords - add.w d1,(a0) ; convert right to local coords + lea dstRectRgn+rgnBBox(A6),a0 + move.l a0,d0 + move.l a0,-(sp) + jsr ([$FC4]) ; _GlobalToLocal? + + add #4,d0 + move.l d0,-(sp) + jsr ([$FC4]) ; _GlobalToLocal? + MOVE.L (A2),A0 ; POINT TO DEVICE MOVE.L GDPMAP(A0),A0 ; GET PIXMAP MOVE.L (A0),A0 ; POINT TO PIXMAP diff --git a/QuickDraw/PictUtilities/puLowLevel.c b/QuickDraw/PictUtilities/puLowLevel.c --- a/QuickDraw/PictUtilities/puLowLevel.c +++ b/QuickDraw/PictUtilities/puLowLevel.c @@ -35,7 +35,7 @@ */ #include "puPrivate.h" -#include +#include #include diff --git a/QuickDraw/PictUtilities/puPictures.c b/QuickDraw/PictUtilities/puPictures.c --- a/QuickDraw/PictUtilities/puPictures.c +++ b/QuickDraw/PictUtilities/puPictures.c @@ -71,7 +71,7 @@ */ #include -#include +#include #include #include #include diff --git a/QuickDraw/Pictures.a b/QuickDraw/Pictures.a --- a/QuickDraw/Pictures.a +++ b/QuickDraw/Pictures.a @@ -860,77 +860,6 @@ KillPicture PROC EXPORT _DisposHandle ;discard it JMP (A1) ;and return -;-----------------------Calc GCD --------------------- -CalcGCD PROC EXPORT -; Routine returns GCD( d0, d1 ) using Euclidean method -; On Entry: D0 and D1 contain word size values to reduce -; On Exit: D0 and D1 both contain GCD -; - cmp.l d0,d1 ;while d0 != d1 (unsigned word compare) - beq.s @FoundGCD - bgt.s @D1isBigger ; if( d1 < d0 ) - exg d0,d1 ; swap( d1, d0 ) -@D1isBigger - sub d0,d1 ; d1 = d1 - d0 - bra.s CalcGCD ;end while -@FoundGCD - rts ;d0 and d1 contain GCD - ENDPROC - -ReduceD3D4 PROC EXPORT - IMPORT CalcGCD -; Routine returns ReduceD3D4( d3, d4 ) reduces d3.w and d4.w by GCD for -; both the low and high words -; -; On Entry: D3 and D4 contain two word size values to reduce -; On Exit: D3 and D4 contain reduced values -; -; -; Divide Numer and Denom for width and height by GCD to prevent overflow. -; - moveq #0,d0 ;make sure high word is zero for next 2 divides - move.l d0,d1 ;CalcGCD exchanges regs, so both need to be cleared - move.w d3,d0 ;D0 has denom.v, d1 has numer.v - beq.s @Done ;abort if zero. - move.w d4,d1 ;D0 has denom.v, d1 has numer.v - beq.s @Done ;abort if zero. - jsr CalcGCD ;returns GCD in d0 - move.w d3,d1 ;D0 has denom.v, d1 has numer.v - divu.w d0,d1 ;dividing by GCD should never leave remainder - move.w d1,d3 ;save reduced numer.v - move.w d4,d1 ;D0 has denom.v, d1 has numer.v - divu.w d0,d1 - move.w d1,d4 ;save reduced denom.v -; -; Now do width: Could have different scale factor than height did -; - swap d3 ;operate on high word - swap d4 - move.w d3,d0 ;D0 has denom.h, d1 has numer.h - beq.s @DoneSwap ;abort if zero. - move.w d4,d1 ;D0 has denom.h, d1 has numer.h - beq.s @DoneSwap ;abort if zero. - jsr CalcGCD ;returns GCD in d0 - move.w d3,d1 ;D0 has denom.h, d1 has numer.h - divu.w d0,d1 ;dividing by GCD should never leave remainder - move.w d1,d3 ;save reduced numer.h - move.w d4,d1 ;D0 has denom.h, d1 has numer.h - divu.w d0,d1 - move.w d1,d4 ;save reduced denom.h -@DoneSwap - swap d3 ;put things back - swap d4 -@Done - rts ;all done -; -; End -; - ENDPROC - -;-----------------------END GCD --------------------- - -; as seen in QDciPatchROM.a stb - DrawPicture PROC EXPORT IMPORT PicItem1,NewRgn,InitColorStuff,ReduceD3D4 ;------------------------------------------------------------------ @@ -4316,7 +4245,7 @@ MORE1 MOVE.L A3,A0 ;PTR TO FIRST byte of src move.l d5,d0 ;get rowbytes in d0 - _BlockMove ;copy from there to here + _BlockMoveData ;copy from there to here ;assumes here is a 24 bit address moveq #false32b,d0 ;switch back before calling PutPicProc @@ -4339,47 +4268,6 @@ DONE MOVE.L SAVEDSP(A6),SP ;RESTORE STACK POINTER ; -PutBigPicData PROC EXPORT ;17Jun88 BAL -;------------------------------------------------------ -; -; PROCEDURE PutBigPicData(dataPtr: QDPtr; byteCount:LONG); -; ADD many BYTES TO THEPIC. -; -; This is the same as PutPicData except the byteCount is a long -; -partSize EQU $4000 -partShift EQU $E - - MOVEM.L D7/A3-A4,-(SP) ;save a couple of registers - - MOVE.L 20(SP),A3 ;get the pointer to data - MOVE.L 16(SP),A4 ;get data length - MOVE.L A4,D7 ;copy pointer - MOVEQ #partShift,D0 ;get a constant for the upcoming shift - LSR.L D0,D7 ;find the number of 16K "pages" - BEQ.S LeftOvers ;no, so do the remaining part of the picture - -@1 - MOVE.L A3,-(SP) ;PUSH DATA POINTER - MOVE #partSize,-(SP) ;move 16K of data - JSR PutPicData ;AND CALL GET PROC - ADD.W #partSize,A3 ;move data start pointer up - SUB.W #partSize,A4 ;subtract for remainder later - SUBQ.L #1,D7 ;decrease the number of pages - BNE.S @1 ;loop for each page - -LeftOvers - MOVE.L A3,-(SP) ;PUSH DATA POINTER - MOVE.W A4,-(SP) ;move remainder - JSR PutPicData ;AND CALL GET PROC - - MOVEM.L (SP)+,D7/A2-A4 ;restore registers - RTD #8 ;and return - -; -;GetPMData now included in GetPMData.a -; - PutPMData PROC EXPORT IMPORT PutPicByte,PutPicWord,PutPicData ;------------------------------------------------------ @@ -4956,53 +4844,6 @@ MapRect PROC EXPORT BRA MAPPT ;MAP BOTRIGHT AND RETURN -MapRatio PROC EXPORT -;------------------------------------------------------------- -; -; PROCEDURE MapRatio(VAR numer, denom: Point; fromRect: Rect); -; -; Map ratio so that denom.h/.v = height/width of fromRect. -; This is so that later scaling of the numerator will have some -; range to work within. -; -; NOTE: Only necessary because fractional numer, denom not used -; -; numer.h := numer.h * fromWidth / denom.h -; denom.h := fromWidth -; numer.v := numer.v * fromHeight / denom.v -; denom.v := fromHeight - -PARAMSIZE EQU 12 ; TOTAL BYTES OF PARAMS -NUMER EQU PARAMSIZE+8-4 ; LONG, ADDR OF POINT -DENOM EQU NUMER-4 ; LONG, ADDR OF POINT -FROMRECT EQU DENOM-4 ; LONG, ADDR OF RECT - - LINK A6,#0 ; NO LOCALS - MOVEM.L D0-D1/A0-A2,-(SP) ; SAVE REGS - MOVE.L NUMER(A6),A0 ; point to numer - MOVE.L DENOM(A6),A1 ; point to denom - MOVE.L FROMRECT(A6),A2 ; point to fromRect - - MOVE.W right(A2),D0 ; get fromRect right - SUB.W left(A2),D0 ; get fromWidth - MOVE.W h(A0),D1 ; get numer.h - MULU D0,D1 ; multiply by fromWidth - DIVU h(A1),D1 ; divide by denom.h - MOVE.W D1,h(A0) ; update numer.h - MOVE.W D0,h(A1) ; update denom.h - - MOVE.W bottom(A2),D0 ; get fromRect bottom - SUB.W top(A2),D0 ; get fromHeight - MOVE.W v(A0),D1 ; get numer.v - MULU D0,D1 ; multiply by fromHeight - DIVU v(A1),D1 ; divide by denom.v - MOVE.W D1,v(A0) ; update numer.v - MOVE.W D0,v(A1) ; update denom.v - -DONE MOVEM.L (SP)+,D0-D1/A0-A2 ; RESTORE REGS - UNLINK PARAMSIZE,'MAPRATIO' - - ENDPROC diff --git a/QuickDraw/QDExtensions2.a b/QuickDraw/QDExtensions2.a new file mode 100644 --- /dev/null +++ b/QuickDraw/QDExtensions2.a @@ -0,0 +1,44 @@ +QDEXTENSIONS2 PROC EXPORT + + + cmp #10,D0 + bhi @bad_selector + jmp @jmptbl(D0.W * 4) + + +@jmptbl + import QDEXTENSIONS2_SELECTOR_0 + jmp QDEXTENSIONS2_SELECTOR_0 + import QDEXTENSIONS2_SELECTOR_1 + jmp QDEXTENSIONS2_SELECTOR_1 + import QDEXTENSIONS2_SELECTOR_2 + jmp QDEXTENSIONS2_SELECTOR_2 + import QDEXTENSIONS2_SELECTOR_3 + jmp QDEXTENSIONS2_SELECTOR_3 + import QDEXTENSIONS2_SELECTOR_4 + jmp QDEXTENSIONS2_SELECTOR_4 + import QDEXTENSIONS2_SELECTOR_5 + jmp QDEXTENSIONS2_SELECTOR_5 + import QDEXTENSIONS2_SELECTOR_6 + jmp QDEXTENSIONS2_SELECTOR_6 + import QDEXTENSIONS2_SELECTOR_7 + jmp QDEXTENSIONS2_SELECTOR_7 + import QDEXTENSIONS2_SELECTOR_8 + jmp QDEXTENSIONS2_SELECTOR_8 + import QDEXTENSIONS2_SELECTOR_9 + jmp QDEXTENSIONS2_SELECTOR_9 + import QDEXTENSIONS2_SELECTOR_10 + jmp QDEXTENSIONS2_SELECTOR_10 + + +@bad_selector + ; The upper half of D0 contains the number of bytes of parameters + ; on the stack + + move.l (SP)+,A0 + swap D0 + ext.l D0 + add.l D0,SP + move #paramErr,D0 + move D0,QDErr + jmp (A0) diff --git a/QuickDraw/QDExtensions2.a.idump b/QuickDraw/QDExtensions2.a.idump new file mode 100644 --- /dev/null +++ b/QuickDraw/QDExtensions2.a.idump @@ -0,0 +1 @@ +TEXTMPS \ No newline at end of file diff --git a/QuickDraw/QDUtil.a b/QuickDraw/QDUtil.a --- a/QuickDraw/QDUtil.a +++ b/QuickDraw/QDUtil.a @@ -1389,7 +1389,7 @@ GETPIXEL MOVEQ #0,D2 ;ROUTINE = GETPIXEL SHARE LINK A6,#VARSIZE ;ALLOCATE STACKFRAME - MOVEM.L D4-D5/A2-A3,-(SP) ;SAVE WORK REGISTERS + MOVEM.L D4-D6/A2-A3,-(SP) ;SAVE WORK REGISTERS MOVE.L THEGDEVICE,-(SP) ;SAVE CURRENT GRAFDEVICE MOVE.L GRAFGLOBALS(A5),A0 ;POINT TO QUICKDRAW GLOBALS MOVE.L THEPORT(A0),A0 ;GET THEPORT @@ -1420,8 +1420,15 @@ OLDRB MOVE VLOC(A6),D4 ;GET VERTICAL MOVE D4,-(SP) ;PUSH GLOBAL TOP MOVE D5,-(SP) ;PUSH GLOBAL RIGHT MOVE D4,-(SP) ;PUSH GLOBAL BOTTOM - MOVE.L JShieldCursor,A1 ;get lo mem vector - JSR (A1) ;and call it + + MOVE.L SP,A0 + CLR.L -(SP) + MOVE.L A0,-(SP) + CLR.L -(SP) + MOVE.L #$80000,D0 + DC.W $ABE0 ;_QDExtensions2 + MOVE.L (SP)+,D6 + ADDQ #8,SP MOVE.L DEVICELIST,A3 ;GET FIRST IN DEVICE LIST @@ -1518,9 +1525,11 @@ NOCOLOR cmp.w #16,pixelType(a3) ;direct device? DONE tst.b (sp)+ ;pop and check crsrFlag beq.s @noShow ;need to show cursor? - _SHOWCURSOR ;show it + move.l D6,-(SP) + move.l #$40001,D0 + dc.w $ABE0 ;_QDExtensions2 @noShow MOVE.L (SP)+,THEGDEVICE ;RESTORE CURRENT GRAFDEVICE - MOVEM.L (SP)+,D4-D5/A2-A3 ;RESTORE WORK REGISTERS + MOVEM.L (SP)+,D4-D6/A2-A3 ;RESTORE WORK REGISTERS UNLINK PARAMSIZE,'GETCPIXEL' @@ -4722,7 +4731,7 @@ DSTH EQU SRCH-4 MOVE.L (A0),A0 ; get SRC pointer MOVE.L (A1),A1 ; get DST pointer MOVE.L D1,D0 ; D0 = size - _BlockMove ; copy the data + _BlockMoveData ; copy the data DONE MOVE.L (SP)+,A0 ; get return address ADDQ #8,SP ; strip parameters diff --git a/QuickDraw/ScaleBlt.a b/QuickDraw/ScaleBlt.a --- a/QuickDraw/ScaleBlt.a +++ b/QuickDraw/ScaleBlt.a @@ -127,7 +127,7 @@ multColor EQU RGNC-2 ;byte, set if source contains nonblack/white colors ; _StackAvail ;GET STACK AVAIL IN D0.L LSR.L #2,D0 ;CONVERT BYTES TO LONGS - SUB.L #qdStackXtra,D0 ;SUBTRACT SLOP FACTOR <1.2> BAL + SUB.L #$200,D0 ;SUBTRACT SLOP FACTOR <1.2> BAL MOVE.L D0,STACKFREE(A6) ;AND SAVE FREE LONGS ON STACK bpl.s @stkOK _stNoStack ;=>NOT ENOUGH STACK, QUIT diff --git a/QuickDraw/Stretch.a b/QuickDraw/Stretch.a --- a/QuickDraw/Stretch.a +++ b/QuickDraw/Stretch.a @@ -9589,32 +9589,107 @@ Scale32to16 PROC EXPORT ; CLOBBERS A0-A1/D0-D5 ; + tst.b -$a5(a6) + bne.s @different_implementation + + lea @sexy_code,a4 + move.l a4,-$228(a6) + +@sexy_code move.l a2,d2 ;get ptr to end sub.l a1,d2 ;sub ptr to beginning lsr.l #2,d2 ;get long cnt in d1 subq #1,d2 ;make zero based + move.l #$7fff7fff,d3 + @NXTSLNG MOVE.L (A0)+,D0 ;GET NEXT LONG OF SRC - ror.l #8,d0 - lsr.w #3,d0 - ror.l #5,d0 - lsr.w #3,d0 - ror.l #6,d0 ;16 bit pixel in high word + lsr.l #3,d0 + lsl.b #3,d0 + lsl #3,d0 + lsr.l #6,d0 + swap d0 MOVE.L (A0)+,D1 ;GET NEXT LONG OF SRC - ror.l #8,d1 - lsr.w #3,d1 - ror.l #5,d1 - lsr.w #3,d1 - ror.l #6,d1 ;16 bit pixel in high word + lsr.l #3,d1 + lsl.b #3,d1 + lsl #3,d1 + lsr.l #6,d1 - swap d1 ;merge pixels move.w d1,d0 + and.l d3,d0 move.l d0,(a1)+ ;write out 2 pixels dbra d2,@NXTSLNG ;loop for all longs in dst scanline RTS +@different_implementation + clr.b -$2a9(a6) + lea @sexy_code_2,a4 + move.l a4,-$228(a6) + +@sexy_code_2 + move.l a2,d2 + sub.l a1,d2 + lsr.l #2,d2 + subq #1,d2 + moveq.l #3,d0 + and.b -$2a9(a6),d0 + move.l @data_tbl(d0.w*4),d3 + addq.b #1,-$2a9(a6) + +@loop + moveq.l #0,d1 + move.l (a0)+,d0 + swap d0 + add.b d3,d0 + scs.b d1 + or.b d0,d1 + lsl.l #5,d1 + swap d0 + move.b d0,d4 + lsr #8,d0 + add.b d3,d0 + scs.b d1 + or.b d0,d1 + lsl.l #5,d1 + add.b d3,d4 + scs.b d1 + or.b d4,d1 + lsr.l #3,d1 + move d1,d5 + rol.l #8,d3 + swap d5 + moveq.l #0,d1 + move.l (a0)+,d0 + swap d0 + add.b d3,d0 + scs.b d1 + or.b d0,d1 + lsl.l #5,d1 + swap d0 + move.b d0,d4 + lsr #8,d0 + add.b d3,d0 + scs.b d1 + or.b d0,d1 + lsl.l #5,d1 + add.b d3,d4 + scs.b d1 + or.b d4,d1 + lsr.l #3,d1 + move d1,d5 + move.l d5,(a1)+ + rol.l #8,d3 + dbf d2,@loop + rts + +@data_tbl + dc.l $05010400 + dc.l $03070206 + dc.l $04000501 + dc.l $02060307 + ; from QDciPatchROM.a verbatim stb diff --git a/Resources/MiscROMRsrcs.r b/Resources/MiscROMRsrcs.r --- a/Resources/MiscROMRsrcs.r +++ b/Resources/MiscROMRsrcs.r @@ -47,12 +47,14 @@ */ #include "GestaltPriv.r" -#include "GestaltEqu.h" +#include "Gestalt.r" #define oldTemp /* The “old” templates provide greater flexibility (less constraint), and we NEED that in some cases. */ /* So, let your hair down -- go bungy jumping or something, but don’t baby sit my resource formats! */ -#include "SysTypes.r" +//#include "SysTypes.r" +#include "OSUtils.r" +#include "Slots.r" #include "Types.r" @@ -223,110 +225,119 @@ resource 'accl' (7) { } }; -resource 'accl' (8) { - 'tpad', - { /* array AcclTable: 6 elements */ - /* [1] */ - 0x2000, - { /* array AcclPoint: 5 elements */ - /* [1] */ - 0x4692C, 0x10000, - /* [2] */ - 0xB9555, 0x38000, - /* [3] */ - 0x149555, 0x78000, - /* [4] */ - 0x1FAAAB, 0x110000, - /* [5] */ - 0x27D555, 0x1C8000 - }, - /* [2] */ - 0x5000, - { /* array AcclPoint: 5 elements */ - /* [1] */ - 0x4692C, 0x10000, - /* [2] */ - 0xB9555, 0x38000, - /* [3] */ - 0x14AAAB, 0xB0000, - /* [4] */ - 0x1FAAAB, 0x1A0000, - /* [5] */ - 0x27AAAB, 0x2E0000 - }, - /* [3] */ - 0x8000, - { /* array AcclPoint: 5 elements */ - /* [1] */ - 0x4692C, 0x10000, - /* [2] */ - 0xB1AAB, 0x39000, - /* [3] */ - 0x152AAB, 0xE8000, - /* [4] */ - 0x1FAAAB, 0x210000, - /* [5] */ - 0x276AAB, 0x368000 - }, - /* [4] */ - 0xB000, - { /* array AcclPoint: 7 elements */ - /* [1] */ - 0x4692C, 0x10000, - /* [2] */ - 0x6D332, 0x28000, - /* [3] */ - 0xA9555, 0x48000, - /* [4] */ - 0x10C000, 0xC0000, - /* [5] */ - 0x178000, 0x198000, - /* [6] */ - 0x1E5555, 0x288000, - /* [7] */ - 0x278000, 0x460000 - }, - /* [5] */ - 0xE000, - { /* array AcclPoint: 7 elements */ - /* [1] */ - 0x4692C, 0x10000, - /* [2] */ - 0x6D332, 0x28000, - /* [3] */ - 0xA1555, 0x58000, - /* [4] */ - 0xF8000, 0xE0000, - /* [5] */ - 0x161555, 0x1D0000, - /* [6] */ - 0x1D1555, 0x310000, - /* [7] */ - 0x27C000, 0x590000 - }, - /* [6] */ - 0x10000, - { /* array AcclPoint: 9 elements */ - /* [1] */ - 0x46AAB, 0x10000, - /* [2] */ - 0x69555, 0x28000, - /* [3] */ - 0x92AAB, 0x58000, - /* [4] */ - 0xE8000, 0xF0000, - /* [5] */ - 0x121555, 0x188000, - /* [6] */ - 0x158000, 0x248000, - /* [7] */ - 0x1C8000, 0x410000, - /* [8] */ - 0x224000, 0x580000, - /* [9] */ - 0x282AAB, 0x6D0000 - } - } +data 'accl' (8) { + $"0000 0003 0007 0000 0000 0001 0001 0000" + $"0001 0000 0000 2000 0005 0001 23C6 0001" + $"0000 0002 FE3C 0003 8000 0005 5719 000B" + $"0000 0008 2EBF 001A 0000 000A 3FF1 002E" + $"0000 0000 5000 0005 0001 23C6 0001 0000" + $"0002 DE8A 0004 1000 0005 682C 000F E000" + $"0008 1EBF 0022 6000 000A 1F68 0037 E000" + $"0000 8000 0007 0001 23C6 0001 0000 0001" + $"C378 0002 8000 0002 AC15 0004 A000 0004" + $"5402 000D C000 0006 1285 001B B000 0007" + $"E68B 002D 1000 000A 44EB 004A 9000 0000" + $"B000 0009 0001 2429 0001 0000 0001 B37C" + $"0002 8000 0002 5E5F 0005 8000 0003 BF2C" + $"000F 0000 0004 BC35 0017 A000 0006 1E38" + $"0027 B000 0007 5D45 0038 5000 0008 99A2" + $"004B B000 000A 9105 0066 B000 0000 E000" + $"000A 0001 1855 0001 3000 0001 B228 0002" + $"F000 0002 5369 0006 A000 0003 6F4A 0010" + $"D000 0004 6AAB 001F 1000 0005 4AAB 002D" + $"5000 0006 2555 003F 4000 0007 1AAB 0051" + $"C000 0008 9AAB 0066 3000 000A 8AAB 007D" + $"7000 0001 0000 000B 0001 1855 0001 3000" + $"0001 B228 0003 1000 0002 5369 0007 1000" + $"0003 2F4A 0011 8000 0003 ACFB 001C 8800" + $"0004 3AAB 0028 E000 0004 CAAB 0038 4000" + $"0005 5555 0048 F000 0006 3AAB 005C 9000" + $"0007 AAAB 0073 1000 000A 3AAB 008B 7000" +}; + +data 'accl' (9) { + $"5553 422A 0007 0000 0000 0001 0001 0000" + $"0001 0000 0000 2000 0010 0000 713B 0000" + $"4CE3 0004 4EC5 000D 3704 0005 4400 0014" + $"8000 0007 2C00 0023 E000 0009 0000 0034" + $"B000 000A D800 0045 F000 000D 0800 0057" + $"9000 000F 6000 0069 0000 0012 1000 007A" + $"8000 0015 0000 0089 0000 0017 C000 0091" + $"0000 001A C000 0096 B000 001D 9000 0099" + $"B000 0020 A000 009B 3000 0023 F000 009C" + $"3000 0027 B000 009C 3000 0000 8000 0012" + $"0000 713B 0000 567F 0004 4A00 000E A000" + $"0006 3A00 001F 4000 0007 2800 0029 0000" + $"0008 D800 003C 6000 0009 B800 0047 4000" + $"000A B000 0053 3000 000B C000 0060 3000" + $"000C C000 006C 2000 000E E000 0084 2000" + $"0011 6000 009D 2000 0014 0000 00B4 0000" + $"0016 C000 00C7 0000 0019 A000 00D4 0000" + $"001C E000 00DB 0000 0020 8000 00E0 0000" + $"0024 4000 00E3 0000 0027 A000 00E3 0000" + $"0000 B000 0014 0000 713B 0000 614E 0004" + $"4A00 000F 6000 0005 3200 0017 6000 0006" + $"3200 0020 A000 0007 2C00 002C 2000 0008" + $"0800 0037 A000 0008 E400 0043 4000 0009" + $"C000 0050 8000 000A A000 005F 2200 000B" + $"9000 006D 7000 000C 7000 007B 0000 000E" + $"8000 0098 A000 0010 C000 00B6 0000 0013" + $"4000 00D2 0000 0016 6000 00E9 0000 001A" + $"2000 00FA 0000 001D A000 0103 0000 0021" + $"2000 0107 0000 0024 8000 010A 0000 0027" + $"A000 010C 0000 0000 E000 0011 0000 713B" + $"0000 6D77 0004 1A00 0011 F000 0005 1A00" + $"001B F000 0005 F000 0026 6000 0006 FC00" + $"0034 0000 0008 4C00 004F E000 0009 6C00" + $"006D E000 000A 7800 008D C000 000B B000" + $"00B6 4000 000D 5000 00D9 8000 0011 0000" + $"00F7 8000 0015 C000 0111 0000 0019 6000" + $"0120 0000 001D 4000 0128 0000 0021 0000" + $"012E 0000 0024 8000 0132 0000 0027 8000" + $"0135 0000 0000 5000 0012 0000 713B 0000" + $"4BB0 0004 4C00 000E 0000 0005 4000 0015" + $"5000 0007 2400 0026 2000 0008 B400 0035" + $"C000 000A 9000 0049 8000 000B E800 0056" + $"8000 000D 2000 0062 0000 000E 1800 006A" + $"D000 000F 1800 0074 0000 0011 9000 0087" + $"8000 0014 5000 009A 0000 0017 6000 00A9" + $"8000 001A 6000 00B4 0000 001D 5000 00B9" + $"0000 0020 D000 00BC 8000 0024 2000 00BD" + $"8000 0027 B000 00BE 8000 0001 0000 0010" + $"0000 713B 0000 567F 0003 B800 0012 A000" + $"0005 2000 0025 4000 0006 0800 0037 8000" + $"0006 F000 005F 0000 0007 F000 008A 0000" + $"0009 2800 00CB 2000 000A F000 00F7 8000" + $"000D 2000 011C 8000 0010 0000 0138 0000" + $"0014 4000 014A 0000 0019 0000 0153 0000" + $"001C D000 0157 0000 0020 E000 015B 8000" + $"0024 2000 015D 8000 0027 A000 015E 0000" + $"0052 7000 0009 94D1 0059 3000 000A 1269" + $"005F F000 000A 9000 0066 B000 0000 E000" + $"001C 0001 1855 0001 3000 0001 B228 0002" + $"F000 0002 5369 0006 A000 0003 6F4A 0010" + $"D000 0003 AD78 0014 5800 0003 EBA5 0017" + $"E000 0004 29D3 001B 6800 0004 6800 001E" + $"F000 0004 A201 0022 9800 0004 D956 0026" + $"2000 0005 14AB 0029 6800 0005 5000 002C" + $"B000 0005 8001 0031 C800 0005 B556 0036" + $"4000 0005 EAAB 003A B800 0006 2000 003F" + $"3000 0006 6200 0043 DC00 0006 9EAB 0048" + $"7800 0006 DB56 004D 1400 0007 1800 0051" + $"B000 0007 7A01 0056 DC00 0007 D956 005B" + $"F800 0008 38AB 0061 1400 0008 9800 0066" + $"3000 0009 1601 006C 0000 0009 9156 0071" + $"D000 000A 0CAB 0077 A000 000A 8800 007D" + $"7000 0001 0000 0013 0001 1855 0001 3000" + $"0001 B228 0003 1000 0002 5369 0007 1000" + $"0003 2F4A 0011 8000 0003 ACFB 001C 8800" + $"0004 3AAB 0028 E000 0004 8156 0030 8800" + $"0004 C800 0038 3000 0005 0D56 0040 9800" + $"0005 5000 0048 F000 0005 C6AB 0052 B000" + $"0006 3800 005C 7000 0006 F156 0067 C000" + $"0007 4CAB 006D 5800 0007 A800 0072 F000" + $"0008 4C00 0079 0400 0008 F000 007F 1800" + $"0009 9400 0085 2C00 000A 3800 008B 4000" }; resource 'pslt' (gestaltQuadra950, sysheap, locked) { @@ -341,172 +352,6 @@ resource 'pslt' (gestaltQuadra950, sysheap, locked) { } }; -resource 'pslt' (gestaltCentris650, sysheap, locked) { - horizAscending, - 0, - { - $C,1; - $D,2; - $E,3; - } -}; - -resource 'pslt' (gestaltQuadra800, sysheap, locked) { - vertAscending, - 0, - { - $C,1; - $D,2; - $E,3; - } -}; - -resource 'pslt' (gestaltCentris610, sysheap, locked) { - horizAscending, - 0, - { - $E,1; - } -}; - -resource 'pslt' (gestaltPowerBookDuo210, sysheap, locked) { - horizAscending, - 0, - { - $E,1; - } -}; - -resource 'pslt' (gestaltPowerBookDuo230, sysheap, locked) { - horizAscending, - 0, - { - $E,1; - } -}; - - -resource 'pslt' (gestaltQuadra840AV, sysheap, locked) { /* */ - 0, - { - $E,1; - } -}; - -resource 'pslt' (gestaltTempest33, sysheap, locked) { /* */ - 0, - { - $E,1; - } -}; - -resource 'pslt' (gestaltPDM50WLCD, sysheap, locked) { - horizAscending, - 0, - { - $E,1; - } -}; - -resource 'pslt' (gestaltPDM66WLCD, sysheap, locked) { - horizAscending, - 0, - { - $E,1; - } -}; - -resource 'pslt' (gestaltPDM80WLCD, sysheap, locked) { - horizAscending, - 0, - { - $E,1; - } -}; - -resource 'pslt' (gestaltPDM50L, sysheap, locked) { - horizAscending, - 0, - { - $D,1; - $C,2; - $B,3; - } -}; - -resource 'pslt' (gestaltPDM66L, sysheap, locked) { - horizAscending, - 0, - { - $D,1; - $C,2; - $B,3; - } -}; - -resource 'pslt' (gestaltPDM80L, sysheap, locked) { - horizAscending, - 0, - { - $D,1; - $C,2; - $B,3; - } -}; - -resource 'pslt' (gestaltPDM66F, sysheap, locked) { - vertAscending, - 0, - { - $D,1; - $C,2; - $B,3; - } -}; - -resource 'pslt' (gestaltPDM80F, sysheap, locked) { - vertAscending, - 0, - { - $D,1; - $C,2; - $B,3; - } -}; - -resource 'pslt' (gestaltPDM100F, sysheap, locked) { - vertAscending, - 0, - { - $D,1; - $C,2; - $B,3; - } -}; - - /* SCSI Disk Mode pictures */ data 'PICT' (95, "DiskMode SCSI") { @@ -1165,6 +1010,264 @@ data 'PICT' (106, "DiskMode 6") { }; +// XDiskIcon + +data 'cicn' (-20023) { + $"0000 0000 8010 0000 0000 0020 0020 0000" + $"0000 0000 0000 0048 0000 0048 0000 0000" + $"0004 0001 0004 0000 0000 0000 0000 0000" + $"0000 0000 0000 0004 0000 0000 0020 0020" + $"0000 0000 0004 0000 0000 0020 0020 0000" + $"0000 7FFF FFF0 FFFF FFF8 FFFF FFFC FFFF" + $"FFFE FFFF FFFF FFFF FFFF FFFF FFFF FFFF" + $"FFFF FFFF FFFF FFFF FFFF FFFF FFFF FFFF" + $"FFFF FFFF FFFF FFFF FFFF FFFF FFFF FFFF" + $"FFFF FFFF FFFF FFFF FFFF FFFF FFFF FFFF" + $"FFFF FFFF FFFF FFFF FFFF FFFF FFFF FFFF" + $"FFFF FFFF FFFF FFFF FFFF FFFF FFFF FFFF" + $"FFFF FFFF FFFF FFFF FFFF FFFF FFFF 7FFF" + $"FFFE 7FFF FFF0 8100 0108 8100 7104 8100" + $"8902 8100 8901 8100 8901 8100 8901 8100" + $"8901 8100 7101 8100 0101 80FF FE01 8000" + $"0001 8000 0001 8000 0001 87FF FFE1 8800" + $"0011 8800 0011 8810 0811 8838 1C11 881C" + $"3811 880E 7011 8807 E011 8803 C011 8803" + $"C011 8807 E011 880E 7011 881C 3811 8838" + $"1C11 8810 0811 8800 0011 8800 0011 FFFF" + $"FFFE 0000 0000 0000 0007 0000 FFFF FFFF" + $"FFFF 0001 EEEE EEEE EEEE 0002 CCCC CCCC" + $"CCCC 0003 AAAA AAAA AAAA 0004 8888 8888" + $"8888 0005 7777 7777 7777 0006 2222 2222" + $"2222 000F 0000 0000 0000 0FFF FFFF FFFF" + $"FFFF FFFF FFFF FFFF 0000 F222 3224 4444" + $"4444 4444 4444 1225 F000 F222 3224 4444" + $"4444 4666 4444 1222 5F00 F222 3224 4444" + $"4444 6222 1444 1222 25F0 F222 3224 4444" + $"4444 6222 1444 1222 225F F222 3224 4444" + $"4444 6222 1444 1222 222F F222 3224 4444" + $"4444 6222 1444 1222 222F F222 3224 4444" + $"4444 6222 1444 1222 222F F222 3224 4444" + $"4444 6222 1444 1222 222F F222 3224 4444" + $"4444 4111 2444 1222 222F F222 3222 4444" + $"4444 4444 4442 1222 222F F222 2111 1111" + $"1111 1111 1111 1222 222F F222 2222 2222" + $"2222 2222 2222 2222 222F F222 2222 2222" + $"2222 2222 2222 2222 222F F222 2333 3333" + $"3333 3333 3333 3332 222F F222 3222 2222" + $"2222 2222 2222 2221 222F F222 3222 2222" + $"2222 2222 2222 2221 222F F222 3222 2226" + $"2222 2222 6222 2221 222F F222 3222 2266" + $"6222 2226 6622 2221 222F F222 3222 2226" + $"6622 2266 6222 2221 222F F222 3222 2222" + $"6662 2666 2222 2221 222F F222 3222 2222" + $"2666 6662 2222 2221 222F F222 3222 2222" + $"2266 6622 2222 2221 222F F222 3222 2222" + $"2266 6622 2222 2221 222F F222 3222 2222" + $"2666 6662 2222 2221 222F F222 3222 2222" + $"6662 2666 2222 2221 222F F222 3222 2226" + $"6622 2266 6222 2221 222F F244 3222 2266" + $"6222 2226 6622 2221 222F F244 3222 2226" + $"2222 2222 6222 2221 222F F222 3222 2222" + $"2222 2222 2222 2221 222F F222 3222 2222" + $"2222 2222 2222 2221 222F 0FFF FFFF FFFF" + $"FFFF FFFF FFFF FFFF FFF0" +}; + + +// QDiskIcon + +data 'cicn' (-20022) { + $"0000 0000 8010 0000 0000 0020 0020 0000" + $"0000 0000 0000 0048 0000 0048 0000 0000" + $"0004 0001 0004 0000 0000 0000 0000 0000" + $"0000 0000 0000 0004 0000 0000 0020 0020" + $"0000 0000 0004 0000 0000 0020 0020 0000" + $"0000 7FFF FFF0 FFFF FFF8 FFFF FFFC FFFF" + $"FFFE FFFF FFFF FFFF FFFF FFFF FFFF FFFF" + $"FFFF FFFF FFFF FFFF FFFF FFFF FFFF FFFF" + $"FFFF FFFF FFFF FFFF FFFF FFFF FFFF FFFF" + $"FFFF FFFF FFFF FFFF FFFF FFFF FFFF FFFF" + $"FFFF FFFF FFFF FFFF FFFF FFFF FFFF FFFF" + $"FFFF FFFF FFFF FFFF FFFF FFFF FFFF FFFF" + $"FFFF FFFF FFFF FFFF FFFF FFFF FFFF 7FFF" + $"FFFE 7FFF FFF0 8100 0108 8100 7104 8100" + $"8902 8100 8901 8100 8901 8100 8901 8100" + $"8901 8100 7101 8100 0101 80FF FE01 8000" + $"0001 8000 0001 8000 0001 87FF FFE1 8800" + $"0011 8800 0011 8807 E011 880F F011 880C" + $"3011 880C 3011 8800 7011 8800 E011 8801" + $"C011 8801 8011 8801 8011 8800 0011 8801" + $"8011 8801 8011 8800 0011 8800 0011 FFFF" + $"FFFE 0000 0000 0000 0007 0000 FFFF FFFF" + $"FFFF 0001 EEEE EEEE EEEE 0002 CCCC CCCC" + $"CCCC 0003 AAAA AAAA AAAA 0004 8888 8888" + $"8888 0005 7777 7777 7777 0006 2222 2222" + $"2222 000F 0000 0000 0000 0FFF FFFF FFFF" + $"FFFF FFFF FFFF FFFF 0000 F222 3224 4444" + $"4444 4444 4444 1225 F000 F222 3224 4444" + $"4444 4666 4444 1222 5F00 F222 3224 4444" + $"4444 6222 1444 1222 25F0 F222 3224 4444" + $"4444 6222 1444 1222 225F F222 3224 4444" + $"4444 6222 1444 1222 222F F222 3224 4444" + $"4444 6222 1444 1222 222F F222 3224 4444" + $"4444 6222 1444 1222 222F F222 3224 4444" + $"4444 6222 1444 1222 222F F222 3224 4444" + $"4444 4111 2444 1222 222F F222 3222 4444" + $"4444 4444 4442 1222 222F F222 2111 1111" + $"1111 1111 1111 1222 222F F222 2222 2222" + $"2222 2222 2222 2222 222F F222 2222 2222" + $"2222 2222 2222 2222 222F F222 2333 3333" + $"3333 3333 3333 3332 222F F222 3222 2222" + $"2222 2222 2222 2221 222F F222 3222 2222" + $"2222 2222 2222 2221 222F F222 3222 2222" + $"2666 6662 2222 2221 222F F222 3222 2222" + $"6666 6666 2222 2221 222F F222 3222 2222" + $"6622 2266 2222 2221 222F F222 3222 2222" + $"6622 2266 2222 2221 222F F222 3222 2222" + $"2222 2666 2222 2221 222F F222 3222 2222" + $"2222 6662 2222 2221 222F F222 3222 2222" + $"2226 6622 2222 2221 222F F222 3222 2222" + $"2226 6222 2222 2221 222F F222 3222 2222" + $"2226 6222 2222 2221 222F F222 3222 2222" + $"2222 2222 2222 2221 222F F244 3222 2222" + $"2226 6222 2222 2221 222F F244 3222 2222" + $"2226 6222 2222 2221 222F F222 3222 2222" + $"2222 2222 2222 2221 222F F222 3222 2222" + $"2222 2222 2222 2221 222F 0FFF FFFF FFFF" + $"FFFF FFFF FFFF FFFF FFF0" +}; + + +// DiskIcon + +data 'cicn' (-20021) { + $"0000 0000 8010 0000 0000 0020 0020 0000" + $"0000 0000 0000 0048 0000 0048 0000 0000" + $"0004 0001 0004 0000 0000 0000 0000 0000" + $"0000 0000 0000 0004 0000 0000 0020 0020" + $"0000 0000 0004 0000 0000 0020 0020 0000" + $"0000 7FFF FFF0 FFFF FFF8 FFFF FFFC FFFF" + $"FFFE FFFF FFFF FFFF FFFF FFFF FFFF FFFF" + $"FFFF FFFF FFFF FFFF FFFF FFFF FFFF FFFF" + $"FFFF FFFF FFFF FFFF FFFF FFFF FFFF FFFF" + $"FFFF FFFF FFFF FFFF FFFF FFFF FFFF FFFF" + $"FFFF FFFF FFFF FFFF FFFF FFFF FFFF FFFF" + $"FFFF FFFF FFFF FFFF FFFF FFFF FFFF FFFF" + $"FFFF FFFF FFFF FFFF FFFF FFFF FFFF 7FFF" + $"FFFE 7FFF FFF0 8100 0108 8100 7104 8100" + $"8902 8100 8901 8100 8901 8100 8901 8100" + $"8901 8100 7101 8100 0101 80FF FE01 8000" + $"0001 8000 0001 8000 0001 87FF FFE1 8800" + $"0011 8800 0011 8800 0011 8800 0011 8800" + $"0011 8800 0011 8800 0011 8800 0011 8800" + $"0011 8800 0011 8800 0011 8800 0011 8800" + $"0011 8800 0011 8800 0011 8800 0011 FFFF" + $"FFFE 0000 0000 0000 0007 0000 FFFF FFFF" + $"FFFF 0001 EEEE EEEE EEEE 0002 CCCC CCCC" + $"CCCC 0003 AAAA AAAA AAAA 0004 8888 8888" + $"8888 0005 7777 7777 7777 0006 2222 2222" + $"2222 000F 0000 0000 0000 0FFF FFFF FFFF" + $"FFFF FFFF FFFF FFFF 0000 F222 3224 4444" + $"4444 4444 4444 1225 F000 F222 3224 4444" + $"4444 4666 4444 1222 5F00 F222 3224 4444" + $"4444 6222 1444 1222 25F0 F222 3224 4444" + $"4444 6222 1444 1222 225F F222 3224 4444" + $"4444 6222 1444 1222 222F F222 3224 4444" + $"4444 6222 1444 1222 222F F222 3224 4444" + $"4444 6222 1444 1222 222F F222 3224 4444" + $"4444 6222 1444 1222 222F F222 3224 4444" + $"4444 4111 2444 1222 222F F222 3222 4444" + $"4444 4444 4442 1222 222F F222 2111 1111" + $"1111 1111 1111 1222 222F F222 2222 2222" + $"2222 2222 2222 2222 222F F222 2222 2222" + $"2222 2222 2222 2222 222F F222 2333 3333" + $"3333 3333 3333 3332 222F F222 3222 2222" + $"2222 2222 2222 2221 222F F222 3222 2222" + $"2222 2222 2222 2221 222F F222 3222 2222" + $"2222 2222 2222 2221 222F F222 3222 2222" + $"2222 2222 2222 2221 222F F222 3222 2222" + $"2222 2222 2222 2221 222F F222 3222 2222" + $"2222 2222 2222 2221 222F F222 3222 2222" + $"2222 2222 2222 2221 222F F222 3222 2222" + $"2222 2222 2222 2221 222F F222 3222 2222" + $"2222 2222 2222 2221 222F F222 3222 2222" + $"2222 2222 2222 2221 222F F222 3222 2222" + $"2222 2222 2222 2221 222F F222 3222 2222" + $"2222 2222 2222 2221 222F F244 3222 2222" + $"2222 2222 2222 2221 222F F244 3222 2222" + $"2222 2222 2222 2221 222F F222 3222 2222" + $"2222 2222 2222 2221 222F F222 3222 2222" + $"2222 2222 2222 2221 222F 0FFF FFFF FFFF" + $"FFFF FFFF FFFF FFFF FFF0" +}; + + +// HappyIcon + +data 'cicn' (-20020) { + $"0000 0000 8010 0000 0000 0020 0020 0000" + $"0000 0000 0000 0048 0000 0048 0000 0000" + $"0004 0001 0004 0000 0000 0000 0000 0000" + $"0000 0000 0000 0004 0000 0000 0020 0020" + $"0000 0000 0004 0000 0000 0020 0020 0000" + $"0000 0FFF FFE0 1FFF FFF0 1FFF FFF0 1FFF" + $"FFF0 1FFF FFF0 1FFF FFF0 1FFF FFF0 1FFF" + $"FFF0 1FFF FFF0 1FFF FFF0 1FFF FFF0 1FFF" + $"FFF0 1FFF FFF0 1FFF FFF0 1FFF FFF0 1FFF" + $"FFF0 1FFF FFF0 1FFF FFF0 1FFF FFF0 1FFF" + $"FFF0 1FFF FFF0 1FFF FFF0 1FFF FFF0 1FFF" + $"FFF0 1FFF FFF0 1FFF FFF0 1FFF FFF0 0FFF" + $"FFE0 0FFF FFE0 0FFF FFE0 0FFF FFE0 0FFF" + $"FFE0 0FFF FFE0 1000 0010 1000 0010 11FF" + $"FF10 1200 0090 1200 0090 1200 0090 1211" + $"1090 1211 1090 1201 0090 1201 0090 1203" + $"0090 1200 0090 1208 4090 1207 8090 1200" + $"0090 1200 0090 11FF FF10 1000 0010 1000" + $"0010 1000 0010 1000 0010 1300 FF10 1000" + $"0010 1000 0010 1000 0010 1000 0010 0FFF" + $"FFE0 0800 0020 0800 0020 0800 0020 0FFF" + $"FFE0 0000 0000 0000 000A 0000 FFFF FFFF" + $"FFFF 0001 0000 BBBB 0000 0002 CCCC CCCC" + $"FFFF 0003 CCCC CCCC CCCC 0004 8888 8888" + $"8888 0005 7777 7777 7777 0006 5555 5555" + $"5555 0007 4444 4444 4444 0008 2222 2222" + $"2222 0009 DDDD 0000 0000 000F 0000 0000" + $"0000 0000 FFFF FFFF FFFF FFFF FFFF FFF0" + $"0000 000F 3333 3333 3333 3333 3333 333F" + $"0000 000F 3333 3333 3333 3333 3333 333F" + $"0000 000F 3337 7777 7777 7777 7777 333F" + $"0000 000F 3372 2222 2222 2222 2222 033F" + $"0000 000F 3372 2222 2222 2222 2222 033F" + $"0000 000F 3372 2222 2222 2222 2222 033F" + $"0000 000F 3372 222F 222F 222F 2222 033F" + $"0000 000F 3372 222F 222F 222F 2222 033F" + $"0000 000F 3372 2222 222F 2222 2222 033F" + $"0000 000F 3372 2222 222F 2222 2222 033F" + $"0000 000F 3372 2222 22FF 2222 2222 033F" + $"0000 000F 3372 2222 2222 2222 2222 033F" + $"0000 000F 3372 2222 F222 2F22 2222 033F" + $"0000 000F 3372 2222 2FFF F222 2222 033F" + $"0000 000F 3372 2222 2222 2222 2222 033F" + $"0000 000F 3372 2222 2222 2222 2222 033F" + $"0000 000F 3330 0000 0000 0000 0000 333F" + $"0000 000F 3333 3333 3333 3333 3333 333F" + $"0000 000F 3333 3333 3333 3333 3333 333F" + $"0000 000F 3333 3333 3333 3333 3333 333F" + $"0000 000F 3333 3333 3333 3333 3333 333F" + $"0000 000F 3311 3333 3333 FFFF FFFF 333F" + $"0000 000F 3399 3333 3333 0000 0000 333F" + $"0000 000F 3333 3333 3333 3333 3333 333F" + $"0000 000F 3333 3333 3333 3333 3333 333F" + $"0000 000F 3333 3333 3333 3333 3333 333F" + $"0000 0000 FFFF FFFF FFFF FFFF FFFF FFF0" + $"0000 0000 F666 6667 7777 8888 8888 8FF0" + $"0000 0000 F555 5555 5667 7778 8888 8FF0" + $"0000 0000 F444 4444 4555 6677 7788 8FF0" + $"0000 0000 FFFF FFFF FFFF FFFF FFFF FFF0" + $"0000" +}; + + type 'clut' (5) { unsigned hex longint = 5; /* ctSeed */ hex integer = $8000; /* ctFlags */ @@ -1528,7 +1631,7 @@ resource 'ppat' (18, sysheap, locked) { 0, $"0000 0000 0000 0300 0200 0000 0000 0000" $"0000 0000 0030 0000 0000 0020 0000 0000", - 0x1A0B, + 0, 0, { /* array ColorSpec: 8 elements */ /* [1] */ diff --git a/Resources/ROMFonts.r b/Resources/ROMFonts.r --- a/Resources/ROMFonts.r +++ b/Resources/ROMFonts.r @@ -837,44 +837,6 @@ data 'FONT' (12, sysheap) { $"00 00 00 00 00 00 00 00 01 0B 03 0A 6D B6" /* ............m∂ */ }; -#if !hasAMIC /* on PDM, use sample simple beep */ - -resource 'snd ' (1, "Simple Beep", purgeable) { - FormatOne {{squareWaveSynth, 0}}, - { - noData, timbreCmd {90}, - noData, ampCmd {224}, - noData, freqCmd {69}, - noData, waitCmd {40}, - noData, ampCmd {200}, - noData, waitCmd {40}, - noData, ampCmd {192}, - noData, waitCmd {40}, - noData, ampCmd {184}, - noData, waitCmd {40}, - noData, ampCmd {176}, - noData, waitCmd {40}, - noData, ampCmd {168}, - noData, waitCmd {40}, - noData, ampCmd {160}, - noData, waitCmd {40}, - noData, ampCmd {144}, - noData, waitCmd {40}, - noData, ampCmd {128}, - noData, waitCmd {40}, - noData, ampCmd {96}, - noData, waitCmd {40}, - noData, ampCmd {64}, - noData, waitCmd {40}, - noData, ampCmd {32}, - noData, waitCmd {40}, - noData, ampCmd {0} - }, - { } -}; - -#else /* we're a PDM with a manly simple beep */ - data 'snd ' (1, "Simple Beep", purgeable) { $"0001 0001 0005 0000 00A0 0001 8051 0000" /* .........†..ÄQ.. */ $"0000 0014 0000 0000 0000 15D4 5622 0000" /* ...........‘V".. */ @@ -1229,5 +1191,3 @@ data 'snd ' (1, "Simple Beep", purgeable) { $"7676 7777 7878 797A 7B7C 7C7D 7F7F 8082" /* vvwwxxyz{||}..ÄÇ */ $"8285 8789 8A8C 8D8D 8D8D 8C8B 8987 8583" /* ÇÖáâäåççççåãâáÖÉ */ }; - -#endif diff --git a/Resources/RomResources.r b/Resources/RomResources.r --- a/Resources/RomResources.r +++ b/Resources/RomResources.r @@ -174,7 +174,7 @@ #include "RomTypes.r" #include "GestaltPriv.r" -#include "GestaltEqu.h" +#include "Gestalt.r" #include "SysTypes.r" #include "Types.r" @@ -195,9 +195,6 @@ resource 'rrsc' (10, "Gibbly Guts") { "Gibbly.rsrc", { - 'boot', - { 3 }; - 'rovm', { 0 }; } @@ -247,11 +244,21 @@ resource 'rrsc' (30, "kbd") { 'KCHR', { 0 }; + 'vadb', + { + 0 /*ISO Cosmo*/, + 1 /*JIS Cosmo*/, + 2 /*ANSI Cosmo*/, + 3 /*ISO Andy*/, + 4 /*JIS Andy*/, + 5 /*ANSI Andy*/ + }; + 'KMAP', - { 0, 2 }; + { 0, 2, 27, 198, 199, 200, 204, 205, 206 }; 'KCAP', - { 1,2,4,5 }; + { 1,2,4,5,14,16,17,198,199,200,204,205,206 }; } }; @@ -302,16 +309,7 @@ resource 'rrsc' (60, "MiscROMRsrcs") { { 'accl', - { 0, 1, 2, 3, 4, 5, 6, 7, 8 }; - - 'pslt', - { gestaltQuadra950, - gestaltPowerBookDuo210, gestaltPowerBookDuo230, - gestaltCyclone33, gestaltTempest33, - gestaltCentris660AV, gestaltQuadra840AV, - gestaltPDM50WLCD, gestaltPDM66WLCD, gestaltPDM80WLCD, - gestaltPDM50L, gestaltPDM66L, gestaltPDM80L, - gestaltPDM66F, gestaltPDM80F, gestaltPDM100F}; + { 0, 1, 2, 4, 5, 6, 7, 8, 9 }; 'ics#', { -16386 }; @@ -322,6 +320,9 @@ resource 'rrsc' (60, "MiscROMRsrcs") { 'ics8', { -16386 }; + 'cicn', + { -20023, -20022, -20021, -20020 }; + 'clut', { 5, 9 }; @@ -549,18 +550,6 @@ resource 'rrsc' (200, "DataAccessMgr") { }; -resource 'rrsc' (500, "DictionaryMgr") { - kUniversal, - AllCombos, - {RsrcDir}, - "DictionaryMgr.rsrc", - - { - 'dimg', - { -16385 }; - } -}; - resource 'rrsc' (210, "HelpMgr") { hasSysSevenResources, AllCombos, @@ -588,18 +577,6 @@ resource 'rrsc' (220, "PictUtilities") { } }; -resource 'rrsc' (230, "Sony") { - kUniversal, - AllCombos, - {RsrcDir}, - "Sony.rsrc", - - { - 'DRVR', - { 4 }; - } -}; - resource 'rrsc' (240, "SCCIOP") { hasIopScc, AllCombos, @@ -612,38 +589,14 @@ resource 'rrsc' (240, "SCCIOP") { } }; -resource 'rrsc' (250, "Serial") { - kUniversal, - AllCombos, - {RsrcDir}, - "Serial.rsrc", - - { - 'SERD', /* common IOP/Bypass serial driver */ - { 0 }; - } -}; - -resource 'rrsc' (260, "SerialIOP") { - hasIopScc, - AllCombos, - {RsrcDir}, - "Serial.rsrc", - - { - 'SERD', /* port A, B IOP serial drivers */ - { 60, 61 }; - } -}; - resource 'rrsc' (270, "SerialDMA") { - hasPSC || hasAMIC, + kUniversal, AllCombos, - {RsrcDir}, + {MiscDir}, "SerialDMA.rsrc", { - 'SERD', /* universal driver */ + 'nsrd', { 1 }; } }; @@ -952,28 +905,6 @@ resource 'rrsc' (455, "I2CC") { } }; -resource 'rrsc' (460, "Ethernet") { - kUniversal, - AllCombos, - {MiscDir}, /* */ - "Ethernet.RSRC", - - { -/* 'DRVR', DRVR from Ethernet.RSRC is out-of-date */ -/* { 127 }; We want the one from AppleTalk.ROM.RSRC */ - - 'enet', /* ENET Driver for LC Ethernet Card */ - { 46 }; /* ONLY in ROM to allow ELAN PSD enet card */ - /* to work when netbooting, ie. before a system */ - /* file is opened which has a good enet drvr in it, - /* on 030 cpus, LCII, etc. */ - - 'ecfg', /* Enet Config resources for new Enet Driver */ /* */ - { 19, 20, 22, 26, 27, 30, 35, 36, - 116,117,118,119,120,121,122,123}; /* Rsrc ID's are gestaltMachineType codes */ /* */ - } -}; - resource 'rrsc' (461, "Ethernet2") { hasMace, AllCombos, @@ -1011,95 +942,29 @@ resource 'rrsc' (480, "Backlight") { } }; -// Sound Manager resources - -// sifter 'thng' resource IDs -#define kRate8ResID -16557 -#define kRate16ResID -16558 -#define kConverterResID -16559 -#define kSndSourceResID -16560 -#define kMixerResID -16561 -#define kASCResID -16563 -#define kClassicResID -16564 -#define kDSPResID -16565 -#define kMace3ResID -16566 -#define kMace6ResID -16567 -#define kCDXAResID -16576 -#define kAwacsResID -16569 -#define kAwacsPhoneResID -16570 - -// component descriptor string IDs -#define kRate8StringResID -16577 -#define kRate16StringResID -16578 -#define kConverterStringResID -16579 -#define kSndSourceStringResID -16580 -#define kMixerStringResID -16581 -#define kASCStringResID -16583 -#define kClassicStringResID -16584 -#define kDSPStringResID -16585 -#define kMace3StringResID -16586 -#define kMace6StringResID -16587 -#define kCDXAStringResID -16588 -#define kAwacsStringResID -16569 -#define kAwacsPhoneStringResID -16571 - -// sound 'proc' resource IDs -#define kSoundInputResID -16497 -#define kPlayFromDiskResID -16498 - -// Sound Manager resource IDs -#define kMeterControlDefID 62 -#define kSoundDriverID 3 -#define kBatmanInputDriverID -16499 -#define kAwacsInputDriverID -16500 -#define kPreferenceNameID -16568 -#define iWrongOutputSampleRate -16526 - -resource 'rrsc' (490, "Sound") { +resource 'rrsc' (335, "LANDisk") { kUniversal, AllCombos, - {RsrcDir}, - "SoundMgr.rsrc", + {MiscDir}, + "LANDisk.rsrc", { - 'CDEF', - { kMeterControlDefID }; - - 'DRVR', - { kSoundDriverID,kBatmanInputDriverID,kAwacsInputDriverID }; - - 'proc', - { kPlayFromDiskResID, kSoundInputResID }; - - 'sift', - { kRate8ResID, kRate16ResID, kConverterResID, kSndSourceResID, - kMixerResID, kASCResID, kMace3ResID, kAwacsResID }; - - 'adio', - { kAwacsPhoneResID }; - - 'thng', - { kRate8ResID, kRate16ResID, kConverterResID, kSndSourceResID, - kMixerResID, kASCResID, kMace3ResID, kMace6ResID, kAwacsResID, kAwacsPhoneResID }; - - 'ICON', - { kRate8ResID, kSndSourceResID, kMixerResID, kASCResID, kAwacsPhoneResID }; - - -/* re: we'll leave these resources in here so sound will work without a gibbly. They'll be on */ -/* disk too. */ - - 'STR ', - { kRate8ResID, kRate16ResID, kConverterResID, kSndSourceResID, kMixerResID, - kASCResID, kMace3ResID, kMace6ResID, kPreferenceNameID, kRate8StringResID, - kRate16StringResID, kConverterStringResID, kMixerStringResID, kASCStringResID, - kMace3StringResID, kMace6StringResID, kAwacsStringResID, kAwacsPhoneResID, - kAwacsPhoneStringResID }; + 'dfrg', + { -20722 }; } }; +resource 'rrsc' (435, "BCScreen") { + kUniversal, + AllCombos, + {MiscDir}, + "BCScreen.rsrc", -// End of SoundMgr items + { + 'ndrv', + { -16515 }; + } +}; resource 'rrsc' (501, "EmulatorAccelerations") { hasMixedMode, @@ -1113,6 +978,20 @@ resource 'rrsc' (501, "EmulatorAccelerations") { } }; +resource 'rrsc' (599, "Multiprocessing") { + hasMixedMode, + AllCombos, + {MiscDir}, + "MultiprocessingServices.rsrc", + + { + 'ncod', + { 2 /*MPLibrary*/ }; + 'nlib', + { 3 /*MPSharedGlobals*/ }; + } +}; + resource 'rrsc' (502, "GoNative") { hasMixedMode, AllCombos, @@ -1120,56 +999,174 @@ resource 'rrsc' (502, "GoNative") { "GoNativeResources", { + 'cfrf', + { 0 }; + 'ncod', { 0,1,8 }; 'nlib', - { 5,6,9,10,11,15,16,17,18,19,20 }; + { + 5 /*InterfaceLib*/, + 6 /*PrivateInterfaceLib*/, + 7 /*BootStdCLib*/, + 8 /*MathLibGlobals*/, + 9 /*MathLib*/, + 10 /*StdCLib*/, + -16420 /*Math64Lib*/, + -20264 /*CursorDevicesLib*/ + }; } }; -resource 'rrsc' (504, "Password") { - kUnused, +resource 'rrsc' (503, "DriverServices") { + hasMixedMode, AllCombos, - {RsrcDir}, - "MiscROMRsrcs.rsrc", + {MiscDir}, + "DriverServices.rsrc", { - 'ICON', - {29296} + 'ntrb', + { -16400 /*NameRegistryTraps*/ }; + + 'nlib', + { -16400 /*NameRegistryLib*/, -16407 /*DSLGlobalsLib*/, -16401 /*DriverServicesLib*/, -16402 /*DriverLoaderLib*/, -16404 /*PCILib*/, -16403 /*VideoServicesLib*/, -16405 /*VideoServicesGlobals*/ }; + } +}; + +resource 'rrsc' (504, "PowerMgr") { + kUniversal, + AllCombos, + {MiscDir}, + "PowerMgr.rsrc", + + { + 'nlib', + { -16411 /*PowerMgrLib*/ }; + + 'scod', + { -20961, -20984 }; + } +}; + +resource 'rrsc' (605, "ATAMgr") { + kUniversal, + AllCombos, + {MiscDir}, + "ATAMgr.rsrc", + + { + 'DRVR', + { 53 /*.ATADisk*/, -20175 /*.ATALoad*/ }; + } +}; + +resource 'rrsc' (607, "NativeNub -- for Power Mac Debugger?") { + hasMixedMode, + AllCombos, + {MiscDir}, + "NativeNub.rsrc", + + { + 'ncod', + { 50 /*NativeNub*/ }; + } +}; + +resource 'rrsc' (610, "Native SCSI Mgr 4.3") { + hasMixedMode, + AllCombos, + {MiscDir}, + "NativeItt.rsrc", + + { + 'nitt', + { 43 /*Native 4.3*/ }; + 'gcko', + { 43 /*Main*/ }; } }; -resource 'rraa' (105, "TNT Boot beep") { +resource 'rrsc' (620, "PCCard") { + kUniversal, + AllCombos, + {MiscDir}, + "PCCard.rsrc", + + { + 'ndrv', + { -20166 /*DefaultPCCardEnabler*/, -20181 /*pccard-ata*/ }; + } +}; + +resource 'rrsc' (630, "MediaBay") { + kUniversal, + AllCombos, + {MiscDir}, + "MediaBay.rsrc", - hasGrandCentral, + { + 'ndrv', + { -20164 /*media-bay*/ }; + 'code', + { -20164 /*Main*/ }; + } +}; +resource 'rrsc' (640, "Native ATAMgr") { + hasMixedMode, AllCombos, + {MiscDir}, + "ATAMgr.rsrc", - {MiscDir}, /* Path Name */ - - "BootBeep.rsrc", /* File Name */ - - 'beep', /* Resource Type */ - - 0x0000, /* Resource ID */ - - 0x00200000 /* ROM Address */ + { + 'nlib', + { -20186 /*ATAManager*/ }; + } }; -resource 'rraa' (110, "TNT error beep") { +resource 'rrsc' (650, "USB") { + kUniversal, + AllCombos, + {MiscDir}, + "USB.rsrc", - hasGrandCentral, + { + 'nlib', + { -20776 /*USBServicesLib*/, -20777 /*USBFamilyExpertLib*/, -20778 /*USBManagerLib*/ }; + 'ndrv', + { -20776 /*pciclass,0c0310*/ }; + 'usbd', + { -20776 /*USBHubDriver0*/, -20777 /*USBHubDriver1*/, -20778 /*USBHIDKeyboardModule*/, -20779 /*USBHIDMouseModule*/, -20780 /*USBCompositeDriver*/ }; + 'usbf', + { -20776 }; + 'usbs', + { -20781 /*USBShimKeyboard*/, -20782 /*USBShimMouse*/ }; + 'ndrv', + { -20777 /*USBUnitTableStorageDriver*/ }; + 'usbs', + { -20776 /*USBMassStorageLoader*/ }; + 'usbd', + { -20781 /*USBMassStorageClassDriver*/, -20782 /*USBMassStorageVSDriver*/ }; + } +}; +resource 'rrsc' (660, "FireWire") { + kUniversal, AllCombos, + {MiscDir}, + "FireWire.rsrc", - {MiscDir}, /* Path Name */ - - "ErrorBeep.rsrc", /* File Name */ - - 'beep', /* Resource Type */ - - 0x0000, /* Resource ID */ - - 0x00220000 /* ROM Address */ + { + 'ndrv', + { -21143 /*fw609e,10483*/ }; + 'fexp', + { -21140 /*ComponentDriverExpert*/, -21141 /*GenericDriverFamilyExpert*/ }; + 'frag', + { -21140 /*FWPCIScanner*/, -21141 /*FWExpertRegistration*/, -21142 /*sbp609e,104d8*/ }; + 'gpch', + { 1207 /*Main*/ }; + 'ndrv', + { -20994 /*sbp609e,104d8*/ }; + } }; diff --git a/Toolbox/AliasMgr/alUtil.c b/Toolbox/AliasMgr/alUtil.c --- a/Toolbox/AliasMgr/alUtil.c +++ b/Toolbox/AliasMgr/alUtil.c @@ -186,8 +186,8 @@ #ifndef __PPCTOOLBOX__ #include #endif -#ifndef __GESTALTEQU__ -#include +#ifndef __GESTALT__ +#include #endif /********************************************************************* diff --git a/Toolbox/CommToolbox/ConnectionMgr/ConnectionMgrExtensions.c b/Toolbox/CommToolbox/ConnectionMgr/ConnectionMgrExtensions.c --- a/Toolbox/CommToolbox/ConnectionMgr/ConnectionMgrExtensions.c +++ b/Toolbox/CommToolbox/ConnectionMgr/ConnectionMgrExtensions.c @@ -115,7 +115,7 @@ pascal CMErr __CMPBRead(hConn, theIOPB, async) CMErr rval; pascal long (*callProc) (ConnHandle, short, long, long, long); - (ProcPtr) callProc = (**hConn).defProc; + (ConnectionToolDefProcPtr) callProc = (**hConn).defProc; rval = (CMErr)(*callProc) (hConn, cmPBReadMsg, (long) theIOPB, (async ? 1 : 0), 0 ); @@ -130,7 +130,7 @@ pascal CMErr __CMPBWrite(hConn, theIOPB, async) CMErr rval; pascal long (*callProc) (ConnHandle, short, long, long, long); - (ProcPtr) callProc = (**hConn).defProc; + (ConnectionToolDefProcPtr) callProc = (**hConn).defProc; rval = (CMErr)(*callProc) ( hConn, cmPBWriteMsg, (long) theIOPB, (async ? 1 : 0), 0 ); return(rval); @@ -143,7 +143,7 @@ pascal CMErr __CMPBIOKill(hConn, theIOPB) CMErr rval; pascal long (*callProc) (ConnHandle, short, long, long, long); - (ProcPtr) callProc = (**hConn).defProc; + (ConnectionToolDefProcPtr) callProc = (**hConn).defProc; rval = (CMErr)(*callProc) ( hConn, cmPBIOKillMsg, (long) theIOPB, 0, 0 ); return(rval); diff --git a/Toolbox/CommToolbox/FileTransferMgr/FileTransferMgrUtilities.c b/Toolbox/CommToolbox/FileTransferMgr/FileTransferMgrUtilities.c --- a/Toolbox/CommToolbox/FileTransferMgr/FileTransferMgrUtilities.c +++ b/Toolbox/CommToolbox/FileTransferMgr/FileTransferMgrUtilities.c @@ -35,7 +35,7 @@ FDEFExecuteFDEF(FTHandle theHandle, short msg, long p1, long p2, long p3) pascal long (*callProc) (FTHandle, short, long, long, long); CRMToolPreflight((**theHandle).procID, &context); - (ProcPtr) callProc = (**theHandle).defProc; + (FileTransferDefProcPtr) callProc = (**theHandle).defProc; rval = (*callProc) (theHandle, msg, p1, p2, p3); /* and away she goes */ CRMToolPostflight(&context); return(rval); diff --git a/Toolbox/ComponentMgr/ThingManager.c b/Toolbox/ComponentMgr/ThingManager.c --- a/Toolbox/ComponentMgr/ThingManager.c +++ b/Toolbox/ComponentMgr/ThingManager.c @@ -290,6 +290,22 @@ pascal long goComponentRegister(long theComponent ) = ComponentCallNow( kCompone pascal long goComponentUnregister(long theComponent ) = ComponentCallNow( kComponentUnregisterSelect,0); +// (CDG5) moved up here for no obvious reason +long RegisteredComponentPointerToComponentID(register RegisteredComponent *rt) /* should be a macro */ + { /* don't let valid components be negative */ + return rt ? ( rt - ComponentManagerGlobals->rtTable + ((long)rt->rtEntryUseCount<<16) ) : 0; + } + + +// (CDG5) moved up here for no obvious reason +long ComponentInstancePointerToComponentInstanceID(register RegisteredComponentInstance *rti) /* should be a macro */ + { + return rti ? ( rti - ComponentManagerGlobals->rtInstanceTable + ((long)rti->rtiEntryUseCount<<16) ) : 0; + } + + + + // Gestalt proc for returning the version of the installed Component Mgr pascal OSErr GestaltComponentMgrVersion(OSType selector, long* responsePtr) { @@ -502,12 +518,6 @@ pascal long __GetComponentListModSeed( ) } -long RegisteredComponentPointerToComponentID(register RegisteredComponent *rt) /* should be a macro */ - { /* don't let valid components be negative */ - return rt ? ( rt - ComponentManagerGlobals->rtTable + ((long)rt->rtEntryUseCount<<16) ) : 0; - } - - #if 1 #define ComponentIDtoRegisteredComponentPointer(t) ((RegisteredComponent *)( ComponentManagerGlobals->rtTable + (short)(t & 0xffff))) #else @@ -713,7 +723,7 @@ pascal Component __RegisterComponent(ComponentDescription *td, ComponentRoutine saveZone = (THz)GetZone(); if (global & registerComponentGlobal) - SetZone(*(THz *)SysZone); + SetZone(SystemZone()); new->rtNameHand = cmHandToHand( ComponentName ); new->rtInfoHand = cmHandToHand( ComponentInfo ); new->rtIconHand = cmHandToHand( ComponentIcon ); @@ -772,8 +782,10 @@ pascal Component __RegisterComponentResource(ComponentResource **htr, short glob long version = 0; short platformType; + if (global & 0x80) TempInsertROMMap(true); + GetResInfo((Handle)htr, &resID, &resType, wastedName); // don't need the name under system 7 - if (result = ResError()) return 0; + if (ResError()) return 0; saveState = HGetState((Handle)htr); HLock((Handle)htr); @@ -820,15 +832,20 @@ pascal Component __RegisterComponentResource(ComponentResource **htr, short glob new->rtFlags |= rtfHasIconSuite; } + if (global & 0x80) { + new->rtFileNumber = -1; + } else { new->rtFileNumber = AddComponentResFile( (Handle)htr ); if ( new->rtFileNumber < 0) { #ifdef WARHOL_DEBUG Debugger(); /* should never fail (can fail if no memory and couldn't get a file id)*/ #endif + new->rtFileNumber = -2; UnregisterComponent(result); return 0; } + } componentRoutine = NewHandleSys(0); EmptyHandle(componentRoutine); @@ -853,6 +870,10 @@ pascal Component __RegisterComponentResource(ComponentResource **htr, short glob UnregisterComponent(result); return 0; } + else + { + new = ComponentIDtoRegisteredComponentPointer(result); + } // scan the Component table for possible duplicates and kill the older one(s) (if auto versioning on) // (can't do this before the register message since we might call GetComponentVersion on the component, @@ -890,16 +911,62 @@ pascal long __RegisterComponentResourceFile(short resRefNum, short global) { register short count, i; - if ((count = Count1Resources(kComponentResourceType)) > 0) + // ALL of the new variable definitions + short listResCount; short j, k; Handle subhdl; short elCnt; + + short resID; // -$0112(A6) + OSType resType; // -$0116(A6) + Str255 wastedName; // -$0110(A6) + + // (CDG5) First load component resources in the order specified + // by any 'thn#' resources, which are arrays of (type, id). + listResCount = Count1Resources('thn#'); + for (j=1; j<=listResCount; j++) + { + hdl = Get1Resource('thn#', j); + if (hdl) + { + elCnt = GetHandleSize(hdl) / 6; + for (k=0; krtInstanceTable + ((long)rti->rtiEntryUseCount<<16) ) : 0; - } - - - - RegisteredComponentInstance *FindNextComponentInstance( register RegisteredComponentInstance *rti, register RegisteredComponent *rt ) { register short i; @@ -1349,7 +1408,7 @@ pascal long __LoadComponent( long componentID ) saveZone = (THz)GetZone(); if (!rt->rtLocalA5) - SetZone(*(THz *)SysZone); + SetZone(SystemZone()); if (entryPoint = Get1Resource(resSpec.resType, resSpec.resID)) { LoadResource(entryPoint); @@ -1752,7 +1811,7 @@ pascal OSErr __GetComponentInfoPrivate( Component aComponent, Handle nameHand, short saveRes = CurResFile(); short resRef; - SetZone(*(THz *)SysZone); + SetZone(SystemZone()); resRef = OpenComponentResFile(aComponent); if (resRef != -1) { diff --git a/Toolbox/ControlMgr/ControlMgr.a b/Toolbox/ControlMgr/ControlMgr.a --- a/Toolbox/ControlMgr/ControlMgr.a +++ b/Toolbox/ControlMgr/ControlMgr.a @@ -255,6 +255,7 @@ CMGR PROC EXPORT ; External Routines used by Control Manager ; IMPORT GetNewRgn + IMPORT FlushCRange ; ; FUNCTION NewControl( window: windowPtr; @@ -302,8 +303,6 @@ NewControl MOVE.L A0,(A4) ;also, its the function result MOVE.L (A3),A2 ;handle -> pointer - TST.B MMU32Bit ; are we in 32-bit mode? DAF - BEQ.S @1 ; nope, so continue DAF SF.B contrlVis(A2) ; set this temporarily, so SetCtlColor won't try to draw DAF MOVE.L A3,-(SP) ; push controlHandle DAF MOVE.L #-1,-(SP) ; push -1 to make a new rec with default CTab DAF @@ -371,8 +370,6 @@ GetCDefProc MOVE.W (A4),D0 ;get resource ID AND #$000F,D0 ;use only low 4 bits - TST.B MMU32Bit ; is it in 32-bit mode? DAF - BEQ.S @1 ; nope, so hide in hi-byte DAF MOVE.L A0,-(SP) ; save A0 DAF MOVE.L D0,-(SP) ; save D0 too DAF SUBQ #6,SP ; get placeholder for auxCtlHndl, and boolean result DAF @@ -385,10 +382,7 @@ GetCDefProc MOVE.L (SP)+,D0 ; restore D0 (with variant) DAF MOVE.B D0,acReserved(A0) ; put variant in auxRec DAF<1.6> MOVE.L (SP)+,A0 ; restore A0 DAF - BRA.S @2 ; all done DAF -@1 - MOVE.B D0,(A0) ;keep in high byte of handle -@2 + ADDQ #4,A0 ;bump to next field CLR.L (A0)+ ;init dataHandle @@ -470,9 +464,7 @@ CallControl MOVE.W (SP)+,10(SP) ; move from top of stack to placeholder DAF MOVE.L (A3),A0 ;get pointer to control structure - MOVE.L ContrlDefHandle(A0),D0 ;get handle of controlProc DAF - _StripAddress ;clean variant code out of hi byte DAF - MOVE.L D0,A0 ;copy to an A-reg DAF + MOVE.L ContrlDefHandle(A0),A0 ;get handle of controlProc DAF TST.L (A0) ;needs reloading? BNE.S SkipCLoad ;if not,skip @@ -497,7 +489,12 @@ SkipCLoad _GetHandleSize ; How big is our CDEF Handle fau cmp.l #32,D0 ; Is it "small" chp bhi.s @RealCDEF ; no, don't flush the cache fau - jsr ([jCacheFlush]) ; else, flush the caches. fau + move.l A0,-(SP) + move.l (A0),A0 + move.l D0,A1 + bsr.l FlushCRange ; else, flush the caches. fau + move.l (SP)+,A0 + @RealCDEF ; fau _HLock ; lock it down MOVE.L (A0),A0 ;get cDefProc ptr @@ -527,8 +524,6 @@ NoDControl GetCVariant ; DAF MOVE.L 4(SP),A0 ; get ctl handle - TST.B MMU32Bit ; are we in 32-Bit mode? DAF - BEQ.S @1 ; no, so do it the old way DAF SUBQ #6,SP ; leave room for result and boolean DAF MOVE.L A0,-(SP) ; push the controlHandle DAF PEA 6(SP) ; point to result placeholder DAF @@ -538,12 +533,7 @@ GetCVariant ; DAF MOVE.L (A0),A0 ; get the auxRecPtr DAF CLR.W D0 ; clear top byte DAF MOVE.B acReserved(A0),D0 ; get variant code DAF<1.6> - BRA.S @2 ; DAF -@1 - MOVE.L (A0),A0 ; get ctl ptr - MOVE.B ContrlDefHandle(A0),D0 ; get selector parameter - AND.W #$000F,D0 ; lo nybble only -@2 + MOVE.W D0,8(SP) ; return result MOVE.L (SP)+,A0 ; get return addr ADDQ #4,SP ; flush parameters @@ -569,18 +559,10 @@ EraseControl _NewRgn ;allocate a new region MOVE.L (SP),A4 ;keep the region in A4, keep on stack - TST.B MMU32Bit ;are we in 32-bit mode? <1.3> - BEQ.S @24bit ;no, don’t call new message <1.3> MOVEQ #CalcWholeCtlMsg,D0 ;message is calculate whole regions <1.2> MOVE.L A4,D1 ;the region is the parameter <1.2> - BSR.S CallControl ;send it the message <1.2> - BRA.S @doneCalc ; <1.2> -@24bit ; <1.3> - MOVEQ #CalcCtlMsg,D0 ;message is calculate regions - MOVE.L A4,D1 ;the region is the parameter - BCLR #31,D1 ;hi-bit clear means whole thing - BSR.S CallControl ;send it the message -@doneCalc + BSR CallControl ;send it the message <1.2> + ; ; paint white to erase control and add it to the window’s update region ; @@ -657,9 +639,6 @@ DontEraseControl ; <3> MOVE.L (A0),A0 ; get auxCtlRec ptr MOVE.L acCTable(A0),-(SP) ; push default colors hndl <1.6> - TST.B MMU32Bit ; are we in 32-bit mode? <1.4/DAF> - BEQ.S @CtlRec24 ; nope, so get rid of it the easy, old-fashioned way <1.4/DAF> - LEA AuxCtlHead,A1 ; get the head of the auxCtlList (offset is zero so this works!) @10 MOVE.L (A1),A2 ; get the handle to the auxCtlRec @@ -684,11 +663,6 @@ DontEraseControl ; <3> MOVE.L A2,A0 ; release the auxCtlRec _DisposHandle ; ADDQ #4,SP ; get rid of the extra window pointer pushed above - BRA.S @CtlRecDone ; - -@CtlRec24 - _SetCtlColor ; set this control’s colors to default (and delete) -@CtlRecDone ; ; delete it from the window’s controlList @@ -991,7 +965,7 @@ GetCTitle MOVEQ #0,D0 ;clear high part MOVE.B (A0),D0 ;get length of string ADDQ.L #1,D0 ;include the length byte, too - _BLOCKMOVE ;move it in place + _BLOCKMOVEDATA ;move it in place RTS ;all done! ; ; PROCEDURE SetCTitle(theControl: controlHandle; theTitle: Str255); @@ -1034,7 +1008,7 @@ CopyCTitle ; <3> MOVE.L (A3),A1 ;get control pointer LEA ContrlTitle(A1),A1 ;point to title string ADDQ #1,D0 ;dont forget the length byte - _BlockMove ;move it in + _BlockMoveData ;move it in ; ; make it visible if it used to be ; @@ -1221,8 +1195,6 @@ DragCon1 ; JSR GetNewRgn ;allocate a new region - TST.B MMU32Bit ;are we in 32-bit mode? <1.3> - BEQ.S @24bit ;no, don’t call new message <1.3> MOVEQ #CalcWholeCtlMsg,D0 ;message is calculate whole regions <1.2> TST.W DragFlag ;if we’re called as real MoveControl, <1.2> BEQ.S @0 ;then we picked the right message <1.2> @@ -1230,16 +1202,7 @@ DragCon1 @0 ; <1.2> MOVE.L (SP),D1 ;the region is the parameter <1.2> BSR.S CallControl ;send it the message <1.2> - BRA.S @doneCalc ; <1.2> -@24bit ; <1.3> - TST.W DragFlag ;if we’re called as real MoveControl, - SNE (SP) ;high bit off means we want whole thing - MOVE.L (SP),D1 ;parameter goes in D1 - MOVEQ #CalcCtlMsg,D0 ;tell controlProc to calculate it regions - BSR CallControl ;tell the control about it -; - CLR.B (SP) ;clear high byte of region -@doneCalc + MOVE.L (SP)+,A4 ;keep it in A4 ; ; set up the parameters for dragging the region around (careful -- extra reg diff --git a/Toolbox/DeskMgr/DeskMgr.a b/Toolbox/DeskMgr/DeskMgr.a --- a/Toolbox/DeskMgr/DeskMgr.a +++ b/Toolbox/DeskMgr/DeskMgr.a @@ -237,6 +237,8 @@ SearchWindow MOVE windowKind(A0),D0 ; get the unit number from window BPL.S noGoodSearch ; if not sys. kind, ignore it NOT D0 ; flip it (bitwise) + CMP UnitNtryCnt,D0 + BPL.S noGoodSearch ASL #2,D0 ; * 4 MOVE.L UTableBase,A0 ; point to the driver table MOVE.L 0(A0,D0),A0 ; get the handle @@ -255,12 +257,12 @@ SendDrvrMsg MOVEQ #64,D0 ;message 64 is "feedEvent" ; SendDCommon - LINK A6,#-32 ;get some space for the control p-block - LEA IORefNum-32(A6),A0 ;point A0 at the block + LINK A6,#-50 ;get some space for the control p-block + LEA IORefNum-50(A6),A0 ;point A0 at the block MOVE.W DCtlRefNum(A1),(A0)+ ;set up the refNum MOVE.W D0,(A0)+ ;set up the control "opCode" MOVE.L A3,(A0) ;set up event ptr as parameter - LEA -32(A6),A0 ;point to pBlock + LEA -50(A6),A0 ;point to pBlock _Control ,IMMED ;make the control call ; UNLK A6 ;de-allocate parameter block @@ -304,11 +306,11 @@ DiskHandler tst.w EvtMessage(A3) ;if an Eject event, jsr (A0) ;eject the disk bra.s DoneSysEvt ;mark as taken, no error -@1 SUB.W #24,SP ;allocate 24 bytes on stack +@1 SUB.W #64,SP MOVE.L SP,A0 ;point to it MOVE.W EvtMessage+2(A3),IODrvNum(A0) ;get the "disk ID" parameter _MountVol ;tell OS to do its thing - ADD.W #24,SP ;deallocate space on stack + ADD.W #64,SP ;deallocate space on stack MOVE.W D0,EvtMessage(A3) ;return result to application BRA DoneSEvt ;always return "FALSE" @@ -652,10 +654,14 @@ SystemTask ; begin roll-in HMSystemTaskPatch patch <11> - IMPORT ptchHMGetBalloons ; <11> + MOVE.L ExpandMem,A0 ; (This rolled-in HelpMgr patch code has + MOVE.L ExpandMemRec.emHelpGlobals(A0),D0 ; been protected by a check + BEQ.S @BalloonsOff ; of HelpMgr presence in CDG5) - JSR ptchHMGetBalloons ; what is the state of What Is? mode? <11> - BEQ.S @BalloonsOff ; no, let's not scan for a content window <11> + CLR -(SP) ; (ptchHMGetBalloons becomes trap in CDG5) + _HMGetBalloons + TST.B (SP)+ ; what is the state of What Is? mode? + BEQ.S @BalloonsOff ; no, let's not scan for a content window SUBQ #2,SP ; make room for a dummy OSErr <11> _HMBalloonBulk ; <11> @@ -668,7 +674,7 @@ SystemTask IMPORT NMTask ; JSR NMTask ;Give time to Notification Manager - MOVEM.L D3/A3,-(SP) ;save some work registers + MOVEM.L D2-D4/A3-A4,-(SP) ;save some work registers ; ; if this is a re-entrant call, just punt ; @@ -701,7 +707,9 @@ SystemTask NotSWindow MOVE.L UTableBase,A3 ;point to the driver table + MOVE.L A3,A4 MOVE.W UnitNtryCnt,D3 ;get number of entries + MOVE.L D3,D4 ; ; here is the main loop for SystemTask. For each driver that's installed, see if ; it needs time. If so, send it the RUN message. @@ -729,9 +737,10 @@ SysTLoop MOVEQ #0,D0 ;zero high part of D0 MOVE.W DCtlDelay(A1),D0 ;get delay tick count BEQ.S DoItNow ;if zero, always do it - ADD.L DCtlCurTicks(A1),D0 ;figure out next time to call it - CMP.L Ticks,D0 ;has that time passed yet? - BGT.S NextTSys ;if not, don't call it + MOVE.L Ticks,D2 + SUB.L DCtlCurTicks(A1),D2 + CMP.L D0,D2 + BCS.S NextTSys ; ; its time to give it a call ; @@ -741,12 +750,18 @@ DoItNow ; ; here is the bottom of the main loop. See if there are any more entries to process ; + CMP.L UTableBase,A4 + BNE.S NotSWindow + + CMP UnitNtryCnt,D4 + BNE.S NotSWindow + NextTSys SUBQ.W #1,D3 BGT.S SysTLoop ;loop if there's more to do _SetPort ;restore it CLR.B TaskLock ;flag that we're done -TaskDone MOVEM.L (SP)+,D3/A3 ;restore work registers +TaskDone MOVEM.L (SP)+,D2-D4/A3-A4 ;restore work registers RTS ;return to caller ; ; PROCEDURE SystemMenu(menuResult: LongInt); @@ -774,8 +789,8 @@ SystemMenu SWAP D1 ;put the high word back MOVE.L D1,-(SP) ;move it onto the stack PEA (SP) ;push the address - IMPORT CHANGEMENURESULTFORINPUTMETHOD - JSR CHANGEMENURESULTFORINPUTMETHOD ;and send it to the input method + MOVE #35,D0 + _TSMDispatch ;and send it to the input method ADDQ #4,SP ;get rid of space for menuresult MOVE.L (SP)+,(SP) ;strip parameter RTS ;return to caller @@ -893,8 +908,8 @@ DoneSEdit OpenDeskAcc CLR.W 8(SP) ;return 0 as the default - SUB #32,SP ;get 32 bytes for a parameter block - MOVE.L 36(SP),IOFileName(SP) ;set up name + SUB #50,SP ;get 32 bytes for a parameter block + MOVE.L 54(SP),IOFileName(SP) ;set up name CLR.W IODrvNum(SP) ;use default volume MOVE.W #$0040, IOFileType(SP) ;clear type byte, special permissions to ID OpenDeskAcc CLR.L IOOwnBuf(SP) ;use system buffer @@ -904,7 +919,7 @@ OpenDeskAcc BNE.S DoneOpenDAcc ;if an error, don't return refNum MOVE.W IORefNum(SP),D0 ;get the refNum - MOVE D0,40(SP) ;return the refNum + MOVE D0,58(SP) ;return the refNum ; figure out the DCE ptr @@ -926,7 +941,7 @@ OpenDeskAcc _ShowWindow ;show it! DoneOpenDAcc - ADD.W #32,SP ;strip the pBlock + ADD.W #50,SP ;strip the pBlock MOVE.L (SP)+,(SP) ;strip parameter RTS @@ -935,11 +950,11 @@ DoneOpenDAcc CloseDeskAcc MOVE.W 4(SP),D0 ;get the refNum - SUB #30,SP ;get space for param block + SUB #50,SP ;get space for param block MOVE.W D0,IORefNum(SP) ;set up refNum MOVE.L SP,A0 _Close ;close it! - ADD #30,SP ;pop off param block + ADD #50,SP ;pop off param block TwoByteExit MOVE.L (SP)+,A0 ADDQ #2,SP diff --git a/Toolbox/DialogMgr/DialogDispatch.a b/Toolbox/DialogMgr/DialogDispatch.a --- a/Toolbox/DialogMgr/DialogDispatch.a +++ b/Toolbox/DialogMgr/DialogDispatch.a @@ -98,7 +98,9 @@ DialogMgrDispatch BeginDispatcher _DialogDispatch DMgrPushMenuState PROC EXPORT IMPORT PushMenuState - JMP PushMenuState + JSR PushMenuState + MOVE.L (SP)+,4(SP) + RTS ENDPROC ;———————————————————————————————————————————————————————————————————————————————————————————————————— @@ -606,8 +608,6 @@ kBOCorner EQU 16 ; Radius for outline frame tst.b defaultBtn.kind+1(a6) ; is default button enabled? bpl.s @patSet ; if so,l just draw - cmp.w #$3FFF,ROM85 ; if (not on a color system) - bhi.s @bwGrafPort ; or move.w portVersion(a4),d0 ; and.w #$C000,d0 ; (not a color grafport) bne.s @colorGrafport ; diff --git a/Toolbox/DialogMgr/DialogMgr.a b/Toolbox/DialogMgr/DialogMgr.a --- a/Toolbox/DialogMgr/DialogMgr.a +++ b/Toolbox/DialogMgr/DialogMgr.a @@ -359,8 +359,8 @@ eventMeta EQU theEvent+14 ; Meta keys ; —————————————————————————————————————————————————————————————————————————————————— colorDctb EQU theEvent-4 ; handle to color table for dialog item list colorWctb EQU colorDctb-4 ; handle to color table for alert/dialog -unused EQU colorWctb-1 ; -oldVis EQU unused-1 ; byte set if window is to be visible +useShowWind EQU colorWctb-1 ; setUpCDialog to use _ShowWindow vs _ShowHide +oldVis EQU useShowWind-1 ; byte set if window is to be visible returnAddr EQU oldVis-4 ; saved address so common code can access stack frame saveFColor EQU returnAddr-6 ; space for port fore rgb saveBColor EQU saveFColor-6 ; space for port back rgb @@ -590,6 +590,7 @@ DoAlert TST.L colorWctb(A6) ; colors? BEQ.S @useoldDialog ST oldVis(A6) ; make it visible later + ST useShowWind(A6) ; all alerts get a _ShowWindow (all are frontmost) BSR setUpCDialog BRA.S @commonDlg @@ -773,6 +774,13 @@ GetNewDialog MOVE.L A0, -(SP) ; Push copy back on. TST.L colorWctb(A6) ; try for color resource BEQ.S @noDialogColors + + SF useShowWind(A6) ; dialogs are only frontmost if + MOVEQ #-1,D0 ; -1 is passed instead of a + CMP.L 8(A6),D0 ; window ptr + BNE.S @notFrontmost + ST useShowWind(A6) +@notFrontmost BSR.S setUpCDialog BRA.S @getnewDlogCommon @@ -804,9 +812,8 @@ setUpCDialog TST.B oldVis(A6) ; should it be visible? BEQ.S @notVisible MOVE.L (SP),-(SP) ; pass the window - MOVEQ #-1,D0 - CMP.L 8(A6),D0 ; is it the front window? - BEQ.S @useShowWindow + TST.B useShowWind(A6) ; use _ShowWindow instead of _ShowHide + BNZ.S @useShowWindow ST -(SP) ; make it visisble _ShowHide BRA.S @notVisible @@ -853,7 +860,7 @@ GotStorage MOVEQ #30, D0 ; Copy 30 bytes of parameters SUB.L D0, SP ; Subtract for stack frame MOVE.L SP, A1 ; Copy to the stack - _BlockMove ; Copy all parameters except Items + _BlockMoveData ; Copy all parameters except Items TST.L D5 BEQ.S @useOldWindow _NewCWindow @@ -966,12 +973,13 @@ IsDialogEvent IMPORT NotOwnActivator ; from DialogMgrExtensions.a <9> IMPORT FakeUpEvent ; from DialogMgrExtensions.a <9> - IMPORT ptchHMGetBalloons ; rb BSR StdEntry ; Link A6, save regs. - JSR ptchHMGetBalloons ; what is the state of What Is? mode? rb, start - BEQ.S @BalloonsOff ; no, let's not scan for a content window + CLR -(SP) ; (ptchHMGetBalloons becomes trap in CDG5) + _HMGetBalloons + TST.B (SP)+ ; what is the state of What Is? mode? + BEQ.S @BalloonsOff ; no, let's not scan for a content window SUBQ #2,SP ; make space for OsErr _HMTrackModalHelpItems @@ -1131,7 +1139,7 @@ ValidDS ; not an osEvt <9> MOVE.L DSEvent(A6), A0 ; Copy the passed event in DSEvent LEA theEvent(A6), A1 ; to theEvent for easy decomposition MOVEQ #EvtBlkSize,D0 - _BlockMove ; theEvent is the first event. + _BlockMoveData ; theEvent is the first event. BSR EventAD ; Handle event--result in D3 TST.W D3 ; Check to see if my event or not @@ -1181,10 +1189,11 @@ ModalDialog ; begin roll-in ModalDialogSetFlagsAndAddFilter patch <9> IMPORT StdFilter ; from DialogDispatch.a <9> - IMPORT ptchHMGetBalloons ; rb - JSR ptchHMGetBalloons ; what is the state of What Is? mode? rb - BEQ.S @BalloonsOff ; no, let's not scan for a content window rb + CLR -(SP) ; (ptchHMGetBalloons becomes trap in CDG5) + _HMGetBalloons + TST.B (SP)+ ; what is the state of What Is? mode? + BEQ.S @BalloonsOff ; no, let's not scan for a content window SUBQ #2,SP ; make space for OsErr rb _HMTrackModalHelpItems ; rb @@ -1861,7 +1870,7 @@ GetIText okStrLength MOVE.B D0,(A1)+ ; set dest string length MOVE.L (A0), A0 ; Dereference - _BlockMove ; Copy those bytes! + _BlockMoveData ; Copy those bytes! BRA.S TwoLongExit ; ...and exit diff --git a/Toolbox/DialogMgr/DialogMgrExtensions.c b/Toolbox/DialogMgr/DialogMgrExtensions.c --- a/Toolbox/DialogMgr/DialogMgrExtensions.c +++ b/Toolbox/DialogMgr/DialogMgrExtensions.c @@ -68,7 +68,7 @@ pascal void ReplaceCitations(CharsHandle baseString) if (*sp) { HLock((Handle)*sp); // Lock the handle so we can pass a ptr - *cs = (StringPtr)StripAddress((Ptr)**sp); + *cs = **sp; } ++sp; // Point to next string ++cs; // Point to next array loc diff --git a/Toolbox/DialogMgr/ModalDialogMenuExtensions.a b/Toolbox/DialogMgr/ModalDialogMenuExtensions.a --- a/Toolbox/DialogMgr/ModalDialogMenuExtensions.a +++ b/Toolbox/DialogMgr/ModalDialogMenuExtensions.a @@ -116,8 +116,7 @@ MDJGNEFilter Proc Export movem.l (sp)+,d0-d2/a0-a2 IF forROM THEN - import NMGNEFilter ; from NotificationMgr.c - pea NMGNEFilter ; call NMGNEFilter + ; No longer pass on to the Notification Mgr (it does not do modal any more) ELSE peaOld ; call the old filter ; note: we can use peaOld here because diff --git a/Toolbox/DialogMgr/ModalDialogMenuExtensions.c b/Toolbox/DialogMgr/ModalDialogMenuExtensions.c --- a/Toolbox/DialogMgr/ModalDialogMenuExtensions.c +++ b/Toolbox/DialogMgr/ModalDialogMenuExtensions.c @@ -126,6 +126,7 @@ #include #include #include +#include #include #include @@ -139,16 +140,16 @@ typedef struct { - short lastMenu; - short lastRight; - short reserved; + UInt16 lastMenu; + UInt16 lastRight; + UInt16 reserved; } MenuListHeader; typedef struct { MenuHandle handle; - short left; + UInt16 left; } MenuListEntry; @@ -186,7 +187,7 @@ enum kApplicationHandlesMenus, kHandleSystemMenusDisabled, kHandleMenusEditMenuDisabled, - kHandleMenusEditMenuEnabled, + kHandleMenusEditMenuEnabled }; typedef short TAnalyzedWindowState; @@ -609,7 +610,7 @@ pascal void FilterEvent(EventRecord* event) if (key && (result = MenuKey(key))) { - long dummy; + unsigned long dummy; Delay(8, &dummy); } HiliteMenu(0); diff --git a/Toolbox/DisplayMgr/DisplayMgr.c b/Toolbox/DisplayMgr/DisplayMgr.c --- a/Toolbox/DisplayMgr/DisplayMgr.c +++ b/Toolbox/DisplayMgr/DisplayMgr.c @@ -75,8 +75,8 @@ #include #endif -#ifndef __GESTALTEQU__ -#include +#ifndef __GESTALT__ +#include #endif #ifndef __MENUS__ diff --git a/Toolbox/DisplayMgr/DisplayMgrCompatibility.c b/Toolbox/DisplayMgr/DisplayMgrCompatibility.c --- a/Toolbox/DisplayMgr/DisplayMgrCompatibility.c +++ b/Toolbox/DisplayMgr/DisplayMgrCompatibility.c @@ -24,8 +24,8 @@ */ -#ifndef __GESTALTEQU__ -#include +#ifndef __GESTALT__ +#include #endif #ifndef __NOTIFICATION__ diff --git a/Toolbox/DisplayMgr/DisplayMgrOverlap.c b/Toolbox/DisplayMgr/DisplayMgrOverlap.c --- a/Toolbox/DisplayMgr/DisplayMgrOverlap.c +++ b/Toolbox/DisplayMgr/DisplayMgrOverlap.c @@ -28,8 +28,8 @@ #include "Types.h" #endif -#ifndef __GESTALTEQU__ -#include "GestaltEqu.h" +#ifndef __GESTALT__ +#include "Gestalt.h" #endif #ifndef __DISPLAYS__ diff --git a/Toolbox/DisplayMgr/DisplayMgrUtils.c b/Toolbox/DisplayMgr/DisplayMgrUtils.c --- a/Toolbox/DisplayMgr/DisplayMgrUtils.c +++ b/Toolbox/DisplayMgr/DisplayMgrUtils.c @@ -34,8 +34,8 @@ #include #endif -#ifndef __GESTALTEQU__ -#include +#ifndef __GESTALT__ +#include #endif #ifndef __MENUS__ diff --git a/Toolbox/FontMgr/BassExtensions.a b/Toolbox/FontMgr/BassExtensions.a --- a/Toolbox/FontMgr/BassExtensions.a +++ b/Toolbox/FontMgr/BassExtensions.a @@ -357,6 +357,7 @@ INSTALLBASSCOMMON Proc Export import fs_GetGlyphInfo, fs_GetGlyphData import fs_GetBitMapInfo, fs_GetBitMapData endif + import DOINITPARTIALFONTS case obj ;—————————————————————————————————————————————————————————————————————————————————————————— @@ -490,11 +491,13 @@ INSTALLBASSCOMMON Proc Export MOVE.L expandMem, A0 ; get low mem expand MOVE.L ExpandMemRec.emSplineKey(A0),A0 ; Handle to splineKey _HUnlock ; Unlock splineKey globals + BSR DOINITPARTIALFONTS ; Init partial fonts rts ; Exit anyway @bailOut MOVE.L expandMem, A2 ; get low mem expand CLR.L ExpandMemRec.emSplineKey(A2) ; Handle to splineKey + BSR DOINITPARTIALFONTS RTS ; <=== in any case ;—————————————————————————————————————————————————————————————————————————————————————————— @@ -546,6 +549,16 @@ INITZONEGLUE PROC EXPORT _InitZone Add #14,SP ;strip parameters JMP (A1) ;return via A1 + +;—————————————————————————————————————————————————————————————————————————————————————————— +; Init partial font (TrueType) support -- puts big locked block in sys heap, so do early +;—————————————————————————————————————————————————————————————————————————————————————————— +DOINITPARTIALFONTS Proc Export + SUBQ #2,SP + MOVE.L #48*1024,-(SP) ; size of partial-font heap zone in system heap + _InitializePartialFonts + ADDQ #2,SP + RTS ;••••••••••••••••••••••••••••••••••••••• ;—————————————————————————————————————————————————————————————————————————————————————————— ; END Spline_PatcheeTail.a!!! diff --git a/Toolbox/FontMgr/Bass_Cache.c b/Toolbox/FontMgr/Bass_Cache.c --- a/Toolbox/FontMgr/Bass_Cache.c +++ b/Toolbox/FontMgr/Bass_Cache.c @@ -250,8 +250,7 @@ #include #include #include -#include -#include +#include #include /*********************/ @@ -318,7 +317,6 @@ HeapCheck() #endif extern Boolean MultiFinderExist(); -extern long PurgeSpaceSysTotal(); long sb_SetUpWorkHand(); /***********************************************************************************************/ @@ -857,7 +855,7 @@ Handle sb_SizeTheBlock(sb_SplineKeyHdl splineKey, Handle inputH, THz* inputZone, if (newH = sb_NewZoneHandle(splineKey, size, &newZ)) { - BlockMove( *h, *newH, origSize ); + BlockMoveData( *h, *newH, origSize ); sb_DisposeZoneHandle( h, *zone ); /* <28-CEL> assigned zone before disposing caused problems */ if (cachePlace != -1) { /* <28-CEL> Need to update cache info in cacheList */ @@ -2037,7 +2035,7 @@ long AppendSplineDirectoryToWidthTable( Handle splineHandle, widthTableHdl width SetHandleSize( (Handle) widthTableHandle, sizeof( widthTable ) + splineDirectorySize ); if ( (error = MemError( )) == noErr ) { - BlockMove( (Ptr) splineDirectoryPointer, (Ptr) (*widthTableHandle)->fSplineDirectory, splineDirectorySize ); + BlockMoveData( (Ptr) splineDirectoryPointer, (Ptr) (*widthTableHandle)->fSplineDirectory, splineDirectorySize ); } diff --git a/Toolbox/FontMgr/DiskCache/Source/AddDiskCache.c b/Toolbox/FontMgr/DiskCache/Source/AddDiskCache.c --- a/Toolbox/FontMgr/DiskCache/Source/AddDiskCache.c +++ b/Toolbox/FontMgr/DiskCache/Source/AddDiskCache.c @@ -756,7 +756,7 @@ OSErr AddDiskCache( DiskCacheIndex* cacheIndexPointer, sb_CacheHeadHdl cacheHand error = memFullErr; - } else if ( StripAddress( (Ptr) *cacheHandle ) == nil ) { + } else if ( *cacheHandle == nil ) { error = nilHandleErr; diff --git a/Toolbox/FontMgr/DiskCache/Source/DiskCacheExtensions.c b/Toolbox/FontMgr/DiskCache/Source/DiskCacheExtensions.c --- a/Toolbox/FontMgr/DiskCache/Source/DiskCacheExtensions.c +++ b/Toolbox/FontMgr/DiskCache/Source/DiskCacheExtensions.c @@ -65,6 +65,7 @@ #include "OSUtils.h" #include "Shutdown.h" #include "Resources.h" + #include "Devices.h" #include "DoubleByteBassCache.h" #include "FSCdefs.h" @@ -139,7 +140,7 @@ pascal OSErr InitializeDiskCache( void ) parameterBlock.ioParam.ioVersNum = 0; parameterBlock.ioParam.ioPermssn = fsRdWrPerm; parameterBlock.ioParam.ioMisc = nil; - error = PBOpen( ¶meterBlock, false ); + error = PBOpenSync( ¶meterBlock ); HUnlock(diskCacheFileName); ReleaseResource(diskCacheFileName); @@ -151,7 +152,7 @@ pascal OSErr InitializeDiskCache( void ) error = LoadDiskCacheMap( &diskCacheMapHandle, parameterBlock.ioParam.ioRefNum ); if ( error != noErr ) { - PBClose( ¶meterBlock, false ); + PBCloseSync( ¶meterBlock ); } else @@ -208,7 +209,7 @@ pascal OSErr InitializeDiskCache( void ) ShutDwnInstall( (ShutDwnProcPtr) DiskCacheShutDownProcedure, sdRestartOrPower + sdOnUnmount ); systemZonePointer = SystemZone( ); - systemZonePointer->purgeProc = (ProcPtr) DiskCachePurgeProcedure; + systemZonePointer->purgeProc = (PurgeProcPtr) DiskCachePurgeProcedure; (*splineKeyHandle)->fDiskCacheMap = (Handle) diskCacheMapHandle; (*splineKeyHandle)->fFontCacheExists = true; @@ -517,7 +518,7 @@ OSErr LoadFontCacheFromDisk( sb_CacheHeadHdl* cacheHandlePointer, THz* cacheZone error = FSRead( cacheFileRefNum, &cacheSize, (Ptr) **cacheHandlePointer ); if ( error == noErr ) { - cachePointer = (sb_CacheHeadPtr) StripAddress( (Ptr) **cacheHandlePointer ); + cachePointer = **cacheHandlePointer; cachePointer->familyID = (*widthTableHandle)->fID; cachePointer->StrikeID = (*widthTableHandle)->StrikeID; cachePointer->fEncodingTablePointer = (Ptr) GetEncodingTable( cachePointer->familyID, &scriptNumber ); @@ -627,7 +628,7 @@ OSErr DumpFontCacheToDisk( sb_CacheHeadHdl cacheHandle ) error = noErr; diskCacheMapHandle = (DiskCacheMapStructureHandle) (*splineKeyHandle)->fDiskCacheMap; - if ( (*splineKeyHandle)->fFontCacheExists && (*diskCacheMapHandle)->fFontCacheIsOn && (StripAddress( (Ptr) *cacheHandle ) != nil) && ((*cacheHandle)->bitsCached == true) ) { + if ( (*splineKeyHandle)->fFontCacheExists && (*diskCacheMapHandle)->fFontCacheIsOn && (*cacheHandle != nil) && ((*cacheHandle)->bitsCached == true) ) { error = SearchForDiskCacheUsingCache( &cacheIndex, cacheHandle, diskCacheMapHandle ); if ( error == noErr ) { diff --git a/Toolbox/FontMgr/DiskCache/Source/DiskCacheMap.c b/Toolbox/FontMgr/DiskCache/Source/DiskCacheMap.c --- a/Toolbox/FontMgr/DiskCache/Source/DiskCacheMap.c +++ b/Toolbox/FontMgr/DiskCache/Source/DiskCacheMap.c @@ -28,6 +28,7 @@ #include "BaseIncludes.h" #include "Assertion.h" + #include "Devices.h" #include "Errors.h" #include "Files.h" #include "Fonts.h" @@ -81,7 +82,7 @@ OSErr LoadDiskCacheMap( DiskCacheMapStructureHandle* diskCacheMapHandlePointer, parameterBlock.ioParam.ioReqCount = sizeof( DiskCacheMapStructure ); parameterBlock.ioParam.ioPosMode = fsFromStart; parameterBlock.ioParam.ioPosOffset = 0; - error = PBRead( ¶meterBlock, false ); + error = PBReadSync( ¶meterBlock ); if ( error == noErr ) { if ( diskCacheMapHeader.fFileVersion != kCurrentDiskCacheFileVersion ) { @@ -94,11 +95,11 @@ OSErr LoadDiskCacheMap( DiskCacheMapStructureHandle* diskCacheMapHandlePointer, if ( (error = MemError( )) == noErr ) { parameterBlock.ioParam.ioRefNum = fileRefNum; - parameterBlock.ioParam.ioBuffer = StripAddress( (Ptr) *diskCacheMapHandle ); + parameterBlock.ioParam.ioBuffer = (Ptr) *diskCacheMapHandle; parameterBlock.ioParam.ioReqCount = diskCacheMapHeader.fDiskCacheMapSize; parameterBlock.ioParam.ioPosMode = fsFromStart; parameterBlock.ioParam.ioPosOffset = 0; - error = PBRead( ¶meterBlock, false ); + error = PBReadSync( ¶meterBlock ); if ( error == noErr ) { (*diskCacheMapHandle)->fFileRefNum = fileRefNum; @@ -114,7 +115,7 @@ OSErr LoadDiskCacheMap( DiskCacheMapStructureHandle* diskCacheMapHandlePointer, if ( (error != noErr) && (diskCacheMapHandle != nil) ) { - DisposHandle( (Handle) diskCacheMapHandle ); + DisposeHandle( (Handle) diskCacheMapHandle ); } @@ -239,7 +240,7 @@ void FontNameIndexToFontName( StringPtr fontNamePointer, Integer fontNameIndex, } - BlockMove( (Ptr) stringEntryPointer->fString, (Ptr) fontNamePointer, stringEntryPointer->fString[0] + 1 ); + BlockMoveData( (Ptr) stringEntryPointer->fString, (Ptr) fontNamePointer, stringEntryPointer->fString[0] + 1 ); } @@ -270,7 +271,7 @@ OSErr FontNameToFontNameIndex( Integer *fontNameIndexPointer, StringPtr fontName DiskCacheOffset stringListOffset; StringListEntryStructure *stringEntryPointer; StringListStructure *stringListPointer; - DiskCacheMapStructurePointer strippedDiskCachePointer = StripAddress((Ptr) *diskCacheMapHandle); // We can dereference this once and use it because this routine doesn’t move memory. + DiskCacheMapStructurePointer strippedDiskCachePointer = *diskCacheMapHandle; // We can dereference this once and use it because this routine doesn’t move memory. error = noErr; *fontNameIndexPointer = kFontNameNotFound; @@ -307,7 +308,7 @@ OSErr FontNameToFontNameIndex( Integer *fontNameIndexPointer, StringPtr fontName } else { stringEntryPointer->fReferenceCount = 1; - BlockMove( (Ptr) fontNamePointer, (Ptr) stringEntryPointer->fString, fontNamePointer[0] + 1 ); + BlockMoveData( (Ptr) fontNamePointer, (Ptr) stringEntryPointer->fString, fontNamePointer[0] + 1 ); *fontNameIndexPointer = stringListPointer->fStringCount++; } diff --git a/Toolbox/FontMgr/FontMgr.a b/Toolbox/FontMgr/FontMgr.a --- a/Toolbox/FontMgr/FontMgr.a +++ b/Toolbox/FontMgr/FontMgr.a @@ -1343,7 +1343,7 @@ MoreDifFont MOVE.L 8(A6),A0 ; pick up request pointer LEA copyInput(A6),A1 MOVEQ #$10,D0 - _BlockMove ; make copy of request + _BlockMoveData ; make copy of request MOVE.L A1,A3 MOVE.B fmInFace(A3),FOutCurStyle ; set up desired style @@ -1943,13 +1943,9 @@ LookForColor MOVE.L FOutFontHandle,A0 ; could be a 1 bit ROM font BSR DerefResource ; get a pointer to it - MOVE.L A0,D0 - _StripAddress ; but only look at the valid part of the address - MOVE.L D0,A0 MOVE.L ROMBase,D0 ; do the same to the ROM base pointer - _StripAddress CMP.L D0,A0 ; is it below the ROM? - BLT.S @noEntry ; if so, skip looking for a expanded font in the ROM + BCS.S @noEntry ; if so, skip looking for a expanded font in the ROM MOVE D5,D0 BSR LoadNewStrike ; then look in ROM BEQ.S @noEntry @@ -2160,7 +2156,7 @@ LookForColor ADD.L D0,A1 ; don’t forget header size SUB.L D0,D2 ; take out header from size of post-strike tables MOVE.L D2,D0 - _BlockMove ; move tables after the strike + _BlockMoveData ; move tables after the strike ; put pixel size in stack record for MakeScaleTbl MOVEQ #1,D4 @@ -2255,7 +2251,7 @@ AddToSynList MOVE.L widthNFNT(A0),(A1)+ ; save the font ID, NFNT flag LEA foreBack(A6),A0 MOVEQ #rgbColor*2,D0 ; size of foreground, background colors - _BlockMove ; move foreground, background + _BlockMoveData ; move foreground, background ; new font should only be made purgable at next DifFont time ; this means FontMgr needs to know that it was a “synthetic” font via font flag @@ -3293,7 +3289,7 @@ SetScreenDevice LEA FMDotsPerInch,A1 ; get place to stash info LEA ScreenStyleTab,A0 ; point to the info MOVEQ #28,D0 ; 28 bytes of info to move - _BlockMove ; move it in + _BlockMoveData ; move it in RTS ; ------------------------------------------------------------------------------------- @@ -3365,35 +3361,11 @@ LoadSplineFontResource _SizeRsrc ; get the size of the resource move.l (sp)+,d0 ; pop the resource size cmp.l #128*1024,d0 ; is the spline size greater than 128k? - bgt.s @LoadEmptySplineIntoSystemHeap ; yes, load an empty spline into the system heap + bgt.s @Exit ; yes, so just leave an empty spline handle + ; (old code would force this hdl to system heap) move.l resourceHandle(a6),-(sp) ; push empty resource handle _LoadResource ; load the resource into memory - bra.s @Exit ; return - -; The spline font is bigger than 128K, so don’t load it into memory, but create an empty -; handle for it in it’s resource reference entry. We can probably get rid of the call to -; ReleaseResource and the zone mucking, since it’s pretty unlikely for a font to be loaded -; in the application heap these days. For example, fonts from the system and the Fonts -; folder automatically load in the system heap. Fonts will go in the application heap -; if the application is carrying the font around. But at this point in the code, the -; 'sfnt' is larger than 128K, and it’s unlikely that applications will be carrying around -; fonts of this size. But I’m too chicken to get rid of these lines at this point in -; 7.1’s schedule. - -@LoadEmptySplineIntoSystemHeap - move.l resourceHandle(a6),-(sp) ; push resource handle - _ReleaseResource ; get rid of empty spline from some application heap - - move.w #MapFALSE,ROMMapInsert ; don't load sfnt into memory - move.l TheZone,-(sp) ; save the current zone - move.l SysZone,TheZone ; make the system heap current - subq #4,sp ; reserve space for function result - move.l #'sfnt',-(sp) ; push resource type - move.w resourceID(a6),-(sp) ; push the resource id - _GetResource ; grab the resource handle - move.l (sp)+,resourceHandle(a6) ; pop the spline handle - move.l (sp)+,TheZone ; restore the saved heap zone @Exit _SetResLoad ; <15> Old ResLoad is still on the stack. Restore it before we leave. @@ -4765,7 +4737,7 @@ BWRealFont move.l (sp)+,d0 move.l (sp)+,a1 ; Restore A1 move.l d0,-(sp) ; <60> Save the candidate list - beq.s @oldKindOfFont + beq @oldKindOfFont ; GetCandidateFONDs returns a list of available sizes for this font family. Scan this ; list for the requested size. @@ -4785,7 +4757,7 @@ BWRealFont @nextCandidate add.w #kFONDListSize,A0 ; skip to next entry DBRA D0,@nrfLoop ; check em all out - BRA.S @notReal ; it must not be real... + BRA @notReal ; it must not be real... ; <50> We’ve got an entry for a TrueType font. Instead of automatically ; returning true, call fs_LowestPPEM to see if the TrueType font will be diff --git a/Toolbox/FontMgr/FontScaler.h b/Toolbox/FontMgr/FontScaler.h --- a/Toolbox/FontMgr/FontScaler.h +++ b/Toolbox/FontMgr/FontScaler.h @@ -58,7 +58,7 @@ To Do: */ -#ifndef _MacTypes_ +#ifndef __MACTYPES__ #ifndef __TYPES__ typedef struct Rect { int16 top; diff --git a/Toolbox/FontMgr/MacExtra.c b/Toolbox/FontMgr/MacExtra.c --- a/Toolbox/FontMgr/MacExtra.c +++ b/Toolbox/FontMgr/MacExtra.c @@ -137,6 +137,7 @@ extern pascal EncodingTablePointer GetEncodingTable( short fondID, uint16 *scri #define FIXONEHALF 0x00008000 #define HIGHWORDMASK 0xFFFF0000 +#undef FIXROUND #define FIXROUND(n) FixRound(n) #define ROUND(n) (((n) + FIXONEHALF) & HIGHWORDMASK) diff --git a/Toolbox/FontMgr/PartialFont/Source/Fragment.c b/Toolbox/FontMgr/PartialFont/Source/Fragment.c --- a/Toolbox/FontMgr/PartialFont/Source/Fragment.c +++ b/Toolbox/FontMgr/PartialFont/Source/Fragment.c @@ -535,7 +535,7 @@ void FindFragmentHandle( FragmentStructureHandle* fragmentPointer, Ptr dataPoint while ( (*fragmentPointer == nil) && (fragment != nil) ) { - handleStart = (Ptr) StripAddress( *fragment ); + handleStart = (Ptr) *fragment; handleEnd = handleStart + sizeof( FragmentStructure ) + (*fragment)->fLength; if ( (dataPointer >= handleStart) && (dataPointer < handleEnd) ) { diff --git a/Toolbox/FontMgr/PartialFont/Source/PartialFontExtensions.c b/Toolbox/FontMgr/PartialFont/Source/PartialFontExtensions.c --- a/Toolbox/FontMgr/PartialFont/Source/PartialFontExtensions.c +++ b/Toolbox/FontMgr/PartialFont/Source/PartialFontExtensions.c @@ -428,7 +428,7 @@ void* QDGetFontFrag( Handle splineFont, long offset, long length ) // VerifyPartialFontStructures( ); - if ( (splineMasterPointer = StripAddress( *splineFont )) != nil ) { + if ( (splineMasterPointer = *splineFont) != nil ) { dataPointer = splineMasterPointer + offset; @@ -462,7 +462,7 @@ void* QDGetFontFrag( Handle splineFont, long offset, long length ) } if ((error == noErr) && (fragment != nil)) - dataPointer = StripAddress( (*fragment)->fData + (offset - (*fragment)->fOffset) ); + dataPointer = (*fragment)->fData + (offset - (*fragment)->fOffset); } @@ -504,7 +504,7 @@ void QDUngetFontFrag( Handle splineFont, void* data ) // VerifyPartialFontStructures( ); - if ( (data != nil) && (StripAddress( *splineFont ) == nil) && AssertHandle( splineFont) ) { + if ( (data != nil) && (*splineFont == nil) && AssertHandle( splineFont) ) { fragmentTableCache = GetGlobalFontFragmentTableCache( ); FindFragmentTable( &fragmentTable, splineFont, fragmentTableCache ); diff --git a/Toolbox/FontMgr/fnt.c b/Toolbox/FontMgr/fnt.c --- a/Toolbox/FontMgr/fnt.c +++ b/Toolbox/FontMgr/fnt.c @@ -494,6 +494,9 @@ void CHECK_CONTOUR(fnt_LocalGraphicStateType* gs, fnt_ElementType* elem, int ctr #define ADJUSTBASE 0x8F /* <15> base opcode for adjust instruction */ #define PIXEL 64 #define LG2PIXEL 6 +#undef HALF +#undef HALFM +#undef HALFP #define HALF (PIXEL >> 1) #define HALFM (HALF-1) #define HALFP (HALF+1) diff --git a/Toolbox/GetMgr/GetMgr.a b/Toolbox/GetMgr/GetMgr.a --- a/Toolbox/GetMgr/GetMgr.a +++ b/Toolbox/GetMgr/GetMgr.a @@ -181,13 +181,14 @@ VisState EQU -1 ; flag for resource's vis state DAF Align EQU -2 ; another byte to re-align stack frame DAF IsACPort EQU -4 ; flag for color port -GetNewCWindow LINK A6,#IsACPort ; build stack frame - MOVE #-1,IsACPort(A6) ; flag the color port +GetNewCWindow MOVEQ.L #-1,D0 ; color port BRA.S GNWShare ; =>dive into common code -GetNewWindow LINK A6,#IsACPort ; build stack frame - CLR IsACPort(A6) ; flag black and white port -GNWShare MOVE.L A3,-(SP) ; preserve a work register +GetNewWindow MOVEQ.L #0,D0 ; black and white port + +GNWShare LINK A6,#IsACPort ; build stack frame + MOVE D0,IsACPort(A6) ; flag port + MOVE.L A3,-(SP) ; preserve a work register CLR.L result(A6) ; set result to NIL SUBQ #4,SP ; make space for result @@ -496,18 +497,18 @@ LoadMDEF MOVE.W #MapTRUE,ROMMapInsert ; get the MDEF from the ROM map _GetResource ; get it! - MOVE.L (A3),A0 ; get pointer to menu - MOVE.L (SP)+,MenuDefHandle(A0) ; install the defProc handle (which may be NIL) - - MOVE.L A3,-(SP) ; push the menu handle - _CalcMenuSize ; calculate the size of the menu - ; ; Now try to load a menu color table with the same ID as the menu's ; move.b #1, -(sp) ; force Resource Load to true _SetResLoad + MOVE.L (A3),A0 ; get pointer to menu + MOVE.L (SP)+,MenuDefHandle(A0) ; install the defProc handle (which may be NIL) + + MOVE.L A3,-(SP) ; push the menu handle + _CalcMenuSize ; calculate the size of the menu + subq #4, sp ; make room for the result move.l #'mctb', -(sp) ; push resource type move.w 8(a6), -(sp) ; push menuID @@ -584,6 +585,7 @@ GetNewMBar ; loop, getting and inserting one menu at a time + BRA.S skipAllThis GetMBLoop SUBQ #4,SP ;make room for result MOVE.L (A3),A0 ;get pointer to mBarDef @@ -595,8 +597,9 @@ GetMBLoop CLR.W -(SP) ;insert at end of menuBar _InsertMenu - MOVE.L (A3),A0 ;get ptr to mBarDef ADDQ #1,D3 ;bump to next menu +skipAllThis + MOVE.L (A3),A0 ;get ptr to mBarDef CMP (A0),D3 ;done yet BLT.S GetMBLoop ;loop until done diff --git a/Toolbox/IconUtils/IconUtils.c b/Toolbox/IconUtils/IconUtils.c --- a/Toolbox/IconUtils/IconUtils.c +++ b/Toolbox/IconUtils/IconUtils.c @@ -214,8 +214,8 @@ #include #endif -#ifndef __GESTALTEQU__ -#include +#ifndef __GESTALT__ +#include #endif GrafPtr myGetPort() = diff --git a/Toolbox/Munger/Munger.a b/Toolbox/Munger/Munger.a --- a/Toolbox/Munger/Munger.a +++ b/Toolbox/Munger/Munger.a @@ -267,7 +267,7 @@ bm ; local, faster block move <4May85> SUBQ.L #1,D0 ; only move <=1 byte? <4May85> BLE.S @0 ; small move? <4May85> ADDQ.L #1,D0 ; fix up subtract above <4May85> - _BlockMove ; move 'em on out <4May85 + _BlockMoveData ; move 'em on out <4May85 RTS ; adios <4May85> @0 ; <4May85> BLT.S zeroErr ; nothing to move <4May85> @@ -483,7 +483,7 @@ clone2Common ADD.L D2,A0 ; add in offset (=0 most times) EXG A0,A1 ; switch source/dest MOVE.L D1,D0 ; restore length - _BlockMove ; counts on D0 being returned 0 + _BlockMoveData ; counts on D0 being returned 0 MOVE.L (SP)+,A0 ; get handle for return noRoom diff --git a/Toolbox/NotificationMgr/NotificationMgr.a b/Toolbox/NotificationMgr/NotificationMgr.a --- a/Toolbox/NotificationMgr/NotificationMgr.a +++ b/Toolbox/NotificationMgr/NotificationMgr.a @@ -28,6 +28,7 @@ LOAD 'StandardEqu.d' ; INCLUDE 'HardwarePrivateEqu.a' INCLUDE 'UniversalEqu.a' + INCLUDE 'PowerPrivEqu.a' CASE OBJ STRING ASIS @@ -36,16 +37,6 @@ __NMINSTALL PROC EXPORT MOVE.L A0, -(SP) ; Put A0 on stack IMPORT _NMInstall - if forROM then ; <5> - - TestFor SupportsIdle - BEQ.S @notsupported - - _IdleUpdate ; this is activity, stay at full speed -@notsupported - - endif ; forROM - BSR _NMInstall ; Call the C routine ADDQ.L #4, SP ; Clean up stack RTS @@ -60,7 +51,9 @@ __NMREMOVE PROC EXPORT TestFor SupportsIdle BEQ.S @notsupported - _IdleUpdate ; this is activity, stay at full speed + MOVE.L D0,-(SP) + _IdleUpdateDispatch ; this is activity, stay at full speed + MOVE.L (SP)+,D0 @notsupported endif ; forROM diff --git a/Toolbox/NotificationMgr/NotificationMgr.c b/Toolbox/NotificationMgr/NotificationMgr.c --- a/Toolbox/NotificationMgr/NotificationMgr.c +++ b/Toolbox/NotificationMgr/NotificationMgr.c @@ -135,16 +135,15 @@ typedef struct { #define MapTRUE -1 -#define BufPtr (*(Ptr *) 0x10C) +#define BufPtr (*(void **) 0x10C) #define UnitTable (*(DCtlHandle **) 0x11C) -#define Ticks (*(long *) 0x16A) +#define Ticks (TickCount()) #define AlarmState (*(char *) 0x21F) #define ROM85 (*(unsigned short *) 0x28E) -#define SysZone (*(THz *) 0x2A6) -#define ApplZone (*(THz *) 0x2AA) +#define SysZone (SystemZone()) +#define ApplZone (ApplicationZone()) #define WMgrPort (*(GrafPtr *) 0x9DE) #define MenuList (*(MenuLHdl *) 0xA1C) -#define ROMMapInsert (*(short *) 0xB9E) #define MBarHeight (*(short *) 0xBAA) #define WMgrCPort (*(GrafPtr *) 0xD2C) @@ -202,10 +201,12 @@ typedef struct NMHdr { Handle copyIcon; long lastMoveTime; Boolean useNewIcon; + Boolean shouldClearMarks; /* the following fields were added after the Portable and IIci ROMs */ IconRecPtr curPMIconRec; QHdr pmIcons; Boolean appleMenu; + Boolean shouldRedrawMbar; } NMHdr, *NMHdrPtr; #define NMQHdr (*(NMHdrPtr *) 0xB60) @@ -225,25 +226,26 @@ typedef struct NMHdr { /* The MPW GetDCtlEntry has a bug. This is my substitute. It returns a handle * to the DCE of the driver having the given refnum. + * CDG5 addendum: this now actually incorrect (treats UnitTable as byte array), + * but (?)8.6+ put desk acc's in the app menu so no worries */ -#define MyGetDCtlEntry(refNum) UnitTable[~refNum] +#define MyGetDCtlEntry(refNum) ((char *)UnitTable)[~refNum] /* Returns true iff theAddr is in the range specified by low & high. Uses StripAddress. */ Boolean -AddrInRange(Ptr theAddr, Ptr low, Ptr high) +AddrInRange(void *theAddr, void *low, void *high) { - theAddr = StripAddress(theAddr); - return (StripAddress(low) <= theAddr) && (theAddr <= StripAddress(high)); + return (low <= theAddr) && (theAddr <= high); } #define InSysZone(theAddr) AddrInRange(theAddr, (Ptr) SysZone, SysZone->bkLim) -#define InApplZone(theAddr) AddrInRange(theAddr, (Ptr) ApplZone, BufPtr) +#define InApplZone(theAddr) AddrInRange(theAddr, ApplZone, (void *)ApplZone < BufPtr ? ApplZone->bkLim : BufPtr) /* Gets a process ID, or returns -1 if none is available (MultiFinder not active) */ short GetPID(void) { - if (NGetTrapAddress(0x8F, ToolTrap) != NGetTrapAddress(0x9F, ToolTrap)) { + if (GetToolTrapAddress(0xA88F) != GetToolTrapAddress(0xA89F)) { /* MultiFinder active */ return TWGetPID(); } @@ -303,7 +305,7 @@ short InApplicationMenu(short thePID, short theMarkID) ResType dType; Str255 dName; - ROMMapInsert = MapTRUE; + TempInsertROMMap(true); GetResInfo(GetResource('DRVR', ~theMarkID), &dID, &dType, dName); theItem = FindItem(theApplicationMenu, dName); } @@ -448,7 +450,7 @@ OSErr _NMInstall(NMRecPtr theNMRec) { if (theNMRec->qType != nmType) return nmTypErr; - if (NGetTrapAddress(0xA085,OSTrap) != NGetTrapAddress(0xA89F,ToolTrap)) + if (GetOSTrapAddress(0xA085) != GetToolTrapAddress(0xA89F)) IdleUpdate(); theNMRec->nmFlags = 0; theNMRec->nmPrivate = 0; @@ -473,18 +475,17 @@ _NMRemove(NMRecPtr theNMRec) /* See if we have a dialog up */ if ((theNMRec->nmFlags & (fDlogDisp | fDlogCompl)) == fDlogDisp) NMQHdr->requests.qFlags |= fDlogInval; UnLinkAuxRecs(theNMRec); + if (theNMRec->nmFlags & fIconinRot) { + NMQHdr->shouldClearMarks = true; + if (theNMRec->nmIcon != 0) { + NMQHdr->shouldRedrawMbar = true; + } + } } return rValue; } -/* Copies Pascal style strings. */ -pascal void -CopyString(StringPtr srcString, StringPtr dstString) -{ - BlockMove(srcString, dstString, *srcString + 1); -} - /* Called by InitApplZone via the IAZNotify vector. Removes all requests that * are in the application zone. */ @@ -510,36 +511,21 @@ FLUSHAPPLNM(void) } /* This dialog filter proc is almost identical to the default, except that it will - * also return if aborted by NMRemove. + * also return if aborted by NMRemove. Now calls default rather than including it. */ pascal Boolean NMFilter(DialogPtr theDialog, EventRecord *theEvent, short *itemHit) { - if (theEvent->what == keyDown) { - register unsigned char theChar = theEvent->message & 0xFF; - - if ((theChar == 3) || (theChar == 0xD)) { - /* It's a return or enter. */ - short itemType; - ControlHandle item; - Rect junk; - - GetDItem(theDialog, buttonItem, &itemType, (Handle*)&item, &junk); - if (itemType == (ctrlItem+btnCtrl)) { - /* It's an enabled button - highlight it */ - HiliteControl(item, inButton); - Delay(8, (long*)&junk); - HiliteControl(item, 0); - } - *itemHit = buttonItem; - return true; - } + register Boolean rValue = false; + ModalFilterProcPtr filter; + if (!GetStdFilterProc(&filter)) { + rValue = filter(theDialog, theEvent, itemHit); } if (NMQHdr->requests.qFlags & fDlogInval) { /* The request was removed - punt the dialog */ - return true; + rValue = true; } - return false; + return rValue; } /* This is the user item procedure which displays the default button roundRect. */ @@ -576,7 +562,7 @@ NMCallMBarProc(short message, short param1, long param2) } else return 0; - ROMMapInsert = MapTRUE; + TempInsertROMMap(true); if (MBDFHndl = (MBarProcHandle) GetResource('MBDF', mbResID)) { register short flags = HGetState((Handle)MBDFHndl); register long result; @@ -661,7 +647,7 @@ RotateIcon(NMRecPtr theNMRec, int /*procLevel*/) void DoSound(NMRecPtr theNMRec, int procLevel) { - register Handle theSound = theNMRec->nmSound; + register SndListHandle theSound = theNMRec->nmSound; SndChannelPtr chan = nil; // long sysBeepVolume = 0; SndCommand cmd; @@ -714,7 +700,7 @@ DoDialog(NMRecPtr theNMRec, int procLevel) theNMRec->nmFlags |= fDlogDisp | fReqLocked; /* Copy the string */ - CopyString(theNMRec->nmStr, alertStr); + BlockMoveData(theNMRec->nmStr, alertStr, *(theNMRec->nmStr) + 1); spl(procLevel); @@ -727,8 +713,7 @@ DoDialog(NMRecPtr theNMRec, int procLevel) theDialog = GetNewDialog(NMDialog, nil, (WindowPtr) -1); UseResFile(saveResFile); - GetDItem(theDialog, defButItem, &itemType, &item, &box); - SetDItem(theDialog, defButItem, itemType, (Handle) DefButProc, &box); /* 1.5 type coersion */ + SetDialogDefaultItem(theDialog, 1); GetDItem(theDialog, textItem, &itemType, &item, &box); SetIText(item, alertStr); @@ -794,7 +779,7 @@ NMGNEFilter(void) /* It's not, turn it on */ register Handle theSIcon; - ROMMapInsert = MapTRUE; + TempInsertROMMap(true); if (theSIcon = GetResource('SICN', AlarmSICN)) { /* Build theAlarmRec and copy the alarm icon into the sys heap */ register Size iconSize = GetHandleSize(theSIcon); @@ -826,25 +811,15 @@ NMGNEFilter(void) pascal void NMTask(void) { - register int procLevel; - short selector[4]; - - /* NOTE: If this code seems buggy, take this 'if' statement and move it below after the call to AddIconRec() */ - if (NMQHdr->requests.qHead == nil) - return; + register NMHdrPtr theNMHdr = NMQHdr; + register NMRecPtr theNMRec = theNMHdr->requests.qHead; - selector[0] = MoveSICNToPM; - selector[1] = MoveICSToPM; - selector[2] = MoveSICNToAM; - selector[3] = MoveICSToAM; - - procLevel = disable(); + if (theNMRec != nil) { + register int procLevel = disable(); - { /* Find the first queue element that needs attention. * Note that the response proc is the last thing done. */ - register NMRecPtr theNMRec = NMQHdr->requests.qHead; while ((theNMRec != nil) && (theNMRec->nmFlags & fReqLocked)) theNMRec = (NMRecPtr) theNMRec->qLink; /* 1.5 type coersion */ /* Determine the next thing to be done and call the procedure to do it */ @@ -858,74 +833,96 @@ NMTask(void) else if (!(nmFlags & fRespCompl)) DoRespProc(theNMRec, procLevel); else theNMRec->nmFlags |= fReqLocked | fReqDone; } + + spl(procLevel); } - spl(procLevel); - - AddMarkRec(); - AddIconRec(); + AddAuxRec(sizeof(MarkRec), &theNMHdr->marks); /* AddMarkRec */ + AddAuxRec(sizeof(IconRec), &theNMHdr->amIcons); /* AddIconRec -- apple menu */ + AddAuxRec(sizeof(IconRec), &theNMHdr->pmIcons); /* AddIconRec -- process menu*/ /* Now go through the marks queue, deleting entries and updating menu marks * as needed. */ { - register MenuHandle theApplicationMenu = GetApplicationMenu(); - register MarkRecPtr theMarkRec = NMQHdr->marks.qHead; + register MenuHandle theApplicationMenu = nil; + register MarkRecPtr theMarkRec; - if (theApplicationMenu && (NMQHdr->lastMenuUsed != theApplicationMenu)) ClearMarks(theApplicationMenu); + if (theNMHdr->shouldClearMarks) { + theApplicationMenu = GetApplicationMenu(); - while (theMarkRec != nil) { - register MarkRecPtr nextMarkRec = theMarkRec->hdr.qLink; + if (theApplicationMenu && (theNMHdr->lastMenuUsed != theApplicationMenu)) ClearMarks(theApplicationMenu); - if (theMarkRec->hdr.qType) { - if (!theMarkRec->hdr.aRefCount) { - /* Remove the mark and delete this record */ - UnMarkApp(theMarkRec); - Dequeue((QElemPtr)theMarkRec, &NMQHdr->marks); - DisposPtr((Ptr)theMarkRec); + if (theNMHdr->shouldRedrawMbar) { + NMCallMBarProc(0, 0, 0); /* Draw selector, last arg means "all": see StandardMBDF.a */ + theNMHdr->shouldRedrawMbar = 0; + } + + theNMHdr->shouldClearMarks = 0; + } + + theMarkRec = (MarkRecPtr)theNMHdr->marks.qHead; + if (theMarkRec != nil) { + while (theMarkRec != nil) { + register MarkRecPtr nextMarkRec = theMarkRec->hdr.qLink; + + if (theMarkRec->hdr.qType) { + if (!theMarkRec->hdr.aRefCount) { + /* Remove the mark and delete this record */ + UnMarkApp(theMarkRec); + Dequeue((QElemPtr)theMarkRec, &theNMHdr->marks); + DisposPtr((Ptr)theMarkRec); + } + else if ((theApplicationMenu = GetApplicationMenu()) && theNMHdr->lastMenuUsed != theApplicationMenu) MarkApp(theMarkRec); } - else if (theApplicationMenu && NMQHdr->lastMenuUsed != theApplicationMenu) MarkApp(theMarkRec); + theMarkRec = nextMarkRec; } - theMarkRec = nextMarkRec; } - NMQHdr->lastMenuUsed = theApplicationMenu; + theNMHdr->lastMenuUsed = theApplicationMenu; } - { + if (theNMHdr->requests.qHead != nil) { /* Get the icon to be displayed for the menu bar defproc */ - register long curTime = Ticks, timeSince = curTime - NMQHdr->lastMoveTime; + register long curTime = Ticks, timeSince = curTime - theNMHdr->lastMoveTime; register IconRecPtr *curIconRec; - curIconRec = (NMQHdr->appleMenu ? &NMQHdr->curAMIconRec : &NMQHdr->curPMIconRec); + curIconRec = (theNMHdr->appleMenu ? &theNMHdr->curAMIconRec : &theNMHdr->curPMIconRec); if (timeSince >= MoveSThresh) { register IconRecPtr theIconRec = *curIconRec; + register long selector; - if (NMQHdr->useNewIcon) { + if (theNMHdr->useNewIcon) { /* Get the next icon from the queue. If not enough time has elapsed, * or the new icon is the same as the old, get out. */ - if (timeSince >= WaitSThresh(NMQHdr->amIcons, NMQHdr->pmIcons)) { - register IconRecPtr newIconRec = ValidIconRec(theIconRec, (NMQHdr->appleMenu ? &NMQHdr->amIcons : &NMQHdr->pmIcons)); + if (timeSince >= WaitSThresh(theNMHdr->amIcons, theNMHdr->pmIcons)) { + register IconRecPtr newIconRec = ValidIconRec(theIconRec, (theNMHdr->appleMenu ? &theNMHdr->amIcons : &theNMHdr->pmIcons)); if (newIconRec == theIconRec) { - NMQHdr->appleMenu = !(NMQHdr->appleMenu); + theNMHdr->appleMenu = !(theNMHdr->appleMenu); return; } else { *curIconRec = theIconRec = newIconRec; if (theIconRec) - BlockMove(*(theIconRec->iSIcon), *(NMQHdr->copyIcon), (theIconRec->iconSuite ? sizeof(IconSuite) : SICNsize)); + BlockMoveData(*(theIconRec->iSIcon), *(theNMHdr->copyIcon), (theIconRec->iconSuite ? sizeof(IconSuite) : SICNsize)); } } else return; } - NMQHdr->lastMoveTime = curTime; - NMQHdr->useNewIcon = NMCallMBarProc(selector[(NMQHdr->appleMenu << 1) + (theIconRec ? theIconRec->iconSuite : 0)], + selector = (theNMHdr->appleMenu << 1) + (theIconRec ? theIconRec->iconSuite : 0); + if (selector == 0) selector = MoveSICNToPM; + else if (selector == 1) selector = MoveICSToPM; + else if (selector == 2) selector = MoveSICNToAM; + else selector = MoveICSToAM; + + theNMHdr->lastMoveTime = curTime; + theNMHdr->useNewIcon = NMCallMBarProc(selector, MoveSDist, - (long) (theIconRec ? NMQHdr->copyIcon: nil)); - NMQHdr->appleMenu = !(NMQHdr->appleMenu); + (long) (theIconRec ? theNMHdr->copyIcon: nil)); + theNMHdr->appleMenu = !(theNMHdr->appleMenu); } } } diff --git a/Toolbox/Printing/PrintGlue.a b/Toolbox/Printing/PrintGlue.a --- a/Toolbox/Printing/PrintGlue.a +++ b/Toolbox/Printing/PrintGlue.a @@ -362,7 +362,12 @@ GotPDEF _GetHandleSize ; How big is our PDEF Handle fau cmp.l #32,D0 ; Is it "small" fau bhi.s @RealPDEF ; no, don't flush the cache fau - jsr ([jCacheFlush]) ; else, flush the caches. fau + move.l A0,-(SP) + move.l (A0),A0 + move.l D0,A1 + import FLUSHCRANGE + bsr.l FLUSHCRANGE ; else, flush the caches. + move.l (SP)+,A0 @RealPDEF ; fau _HLock ;<22Feb87> JNP Restore curMap before jumping into the print code. @@ -375,7 +380,7 @@ GotPDEF Add.b ParmByt(a6),d0 Sub.w d0,sp ; We know the thing isn't actually more than a word wide Move.l sp,a1 ; Beginning of destination - _BlockMove ; Note: Leaves d0 = 0 + _BlockMoveData ; Note: Leaves d0 = 0 ; Call the routine. The offset into the PDEF to jump to is given by the glue parameter Move.b CodeOfs(a6),d0 ; Get offset (note high part of d0 is still 0) Andi.b #$7F,d0 ; Mask off the unlock bit that is stored there @@ -544,6 +549,14 @@ LLOut Add.w #IOQElSize,sp ; Strip parameter block Move.w d0,PrintVars+iPrErr ; Set return code GlueOut + Move.l sp,-(sp) ; Let the Blue Box know right after + Moveq.l #0,d0 ; every print call is made (CDG5) + Move.b FuncByt(a6),d0 + Lsr.b #3,d0 + Move.l d0,-(sp) + Import BlueBoxPrintHook + Bsr BlueBoxPrintHook + Addq #8,sp ; ; Get the number of bytes of parameter to this entry in d1 Moveq #0,d1 @@ -670,7 +683,7 @@ kAliasID EQU -8192 ; System Printer alias's resID MOVE.B (A0), D0 ; which is this long ADDQ.B #1, D0 ; plus that length byte! LEA sysFileSpec + FSSpec.name(A6), A1 ; to the FSSpec - _BlockMove + _BlockMoveData ; ResolveDriver: Resolve the alias using the system file's FSSpec. diff --git a/Toolbox/ResourceMgr/ResourceMgr.a b/Toolbox/ResourceMgr/ResourceMgr.a --- a/Toolbox/ResourceMgr/ResourceMgr.a +++ b/Toolbox/ResourceMgr/ResourceMgr.a @@ -1011,9 +1011,6 @@ RMGRVersion DC.W 1 ; Resource Manager version number InitRSRCMgr ST SysMap ; flag that resources are not inited CLR.L TopMapHndl ; tell the res mgr that it's start time - Move.B MMFlags,-(SP) ; save the memory Manager flag - BSET.B #MMStartMode,MMFlags; set for 32 bit system heap - move.l ExpandMem,a0 ; init override flags kc clr.b ExpandMemRec.emScanOverrideMaps(a0) ; turn off ScanOverrideMaps kc clr.w ExpandMemRec.emLastMapOverridden(a0) ; flush override cache. kc @@ -1023,7 +1020,6 @@ InitRSRCMgr ST SysMap ; flag that resources are not inited _InitResources ; Init ROM resource file ADDQ #2, SP ; Assume success - MOVE.B (SP)+,MMFlags ; restore memory manager flag RTS @@ -1126,13 +1122,41 @@ ROVR EQU $524F7672 ; ROVR = 'ROvr' (type of override rsrc) RomOverRide ; new routine <27aug85> BBM SUBQ #4,SP ; Save room on stack for handle - MOVE.L #ROVR,-(SP) ; rsrc type for override + PEA ROVR ; rsrc type for override MOVE.W #0,-(SP) ; rsrc ID of 0 + MOVE #-1,RomMapInsert _GetResource ; get the override rsrc + SUBQ #4,SP ; Save room on stack for handle + PEA ROVR ; rsrc type for override + MOVE.W #0,-(SP) ; rsrc ID of 0 + _GetResource ; get the override rsrc + MOVEQ.L #0,D1 MOVE.L (SP)+,D0 ; Check to see if it exists - BEQ.S ROvrOut ; if handle is zero then just return + BEQ.S @Lx MOVE.L D0,A0 ; get ready to execute this resource MOVE.L (A0),A0 ; dereference handle + + Move $8(A0), D1 +@Lx MoveA.L (SP)+, A1 + Move.L A1, D2 + BEQ.S @L0 + MoveA.L (A1), A0 + Move $8(A0), D2 +@L0 Cmp D2, D1 + BHI.S @L2 + Tst.L D0 + BEQ.S @L1 + Cmp.L A1, D0 + BEQ.S @L1 + Move.L A1, -(SP) + Move.L D0, -(SP) + _ReleaseResource + MoveA.L (SP)+, A1 +@L1 Move.L A1, D0 + BEQ.S ROvrOut +@L2 MoveA.L D0, A0 + MoveA.L (A0), A0 + FPCallROvr ; FlashPort hint attachment point JSR (A0) ; and execute handle ROvrOut RTS ; and return @@ -1280,7 +1304,7 @@ ReDoMap ; new routine moveq #$20,d0 ; size of null map lea NullRF,a0 ; get null map from rom move.l (A4),A1 ; Dereference handle to destination - _BlockMove ; move map down + _BlockMoveData ; move map down move.w #1,MRefNum(a1) ; and stuff the rom map refnum (so getcurmap works) clr.w -(sp) ; get a buffer on the stack to read in index @@ -1783,7 +1807,7 @@ vNewMap ; Def to build dispatch entry <27oct85> BBM ADDA.L #HdrSize,A0 ; ... finish calc for source LEA HSCache,A1 ; Destination for blockmove MOVE.L #PreSize,D0 ; size for blockmove <11jul85> BBM - _BlockMove ; move the key data to the stack + _BlockMoveData ; move the key data to the stack MOVEA.L A0,A1 ; restore A1 SUBA.L #HdrSize,A1 ; ... finish restoring A1 BSR PreFormat ; check the preload format of this file CSS @@ -1824,7 +1848,7 @@ vNewMap ; Def to build dispatch entry <27oct85> BBM ; a new map is first created and only set after the appropriate Resource overrides ; calls have been made. - andi.b #kAllButOverrideAttributesMask,mInMemoryAttr(a1) + andi.b #kDecompressionPasswordMask,mInMemoryAttr(a1) ; Successful load. Return with D6=refnum of file and D0=1 for "newmap" flag @@ -4572,7 +4596,7 @@ vCheckLoad ; Def to build dispatch entry tst.b (sp)+ bne.s @system_rsrc ; if so, branch move.l (a4),a0 ; a0 <- ptr to map - btst.b #mapForceSysHeap,MAttr(a0) ; should all entries in map go in system heap? + btst.b #overrideNextMapBit,MAttr(a0) ; should all entries in map go in system heap? beq.s @GoOnCheckLoad ; if not, branch @system_rsrc bset #ResSysHeap,RAttr(a2) ; get into the system heap (and stay there!) @@ -5806,7 +5830,7 @@ LoadResource MOVE.L D0,A0 ; handle in A0 MOVE.L ROMBASE,A1 CMP.L (A0),A1 ; resource in ROM - BPL.S @2 ; Nope + BHI.S @2 ; Nope CLR.W ResErr ; since we found a ROM resource, and we assume it is ok. CSS BRA.S @9 ; yes, done @2 @@ -6324,7 +6348,7 @@ CopyStr MOVEQ #0, D0 ; Zero high order bits. MOVE.B (A0), D0 ; Get length of string ADDQ.W #1, D0 ; include length byte. <14jun85> BBM - _BlockMove ; Copy the string to A1 + _BlockMoveData ; Copy the string to A1 RTS ; and return. ;_______________________________________________________________________________ diff --git a/Toolbox/ResourceMgr/ResourceMgrExtensions.a b/Toolbox/ResourceMgr/ResourceMgrExtensions.a --- a/Toolbox/ResourceMgr/ResourceMgrExtensions.a +++ b/Toolbox/ResourceMgr/ResourceMgrExtensions.a @@ -922,7 +922,7 @@ ValidateFontResourceIDs Proc Export beq.s @checkForNFNTs ; cmpi.l #'NFNT',d3 ; If it is a NFNT, also check for FONT conflicts beq.s @checkForFONTs ; - bra.s @nextTableEntry ; If it is a sfnt or other, go on to the next one. + bra @nextTableEntry ; If it is a sfnt or other, go on to the next one. @checkForFONTs subq #4,sp ; @@ -930,7 +930,7 @@ ValidateFontResourceIDs Proc Export move.w 4(a3),-(sp) ; Look for this ID. _GetResource ; Does it exist? move.l (sp)+,d0 ; - bz.s @nextTableEntry ; This number is fine + bz @nextTableEntry ; This number is fine bra.s @conflictOccured @checkForNFNTs @@ -939,7 +939,7 @@ ValidateFontResourceIDs Proc Export move.w 4(a3),-(sp) ; Look for this ID. _GetResource ; Does it exist? move.l (sp)+,d0 ; - bz.s @nextTableEntry ; This number is fine + bz @nextTableEntry ; This number is fine @conflictOccured move.l d0,a0 ; <46> @@ -965,6 +965,27 @@ ValidateFontResourceIDs Proc Export ; Make sure this ID is not used in the resource map. ; + cmpi.l #'FONT',D3 + beq.s @isFONT + cmpi.l #'NFNT',D3 + beq.s @isNFNT + bra.s @isNeither + +@isNFNT subq #4,SP + move.l #'FONT',-(SP) + move D2,-(SP) + _GetResource + move.l (SP)+,D0 + beq.s @isNeither + bra.s @getUniqueID +@isFONT subq #4,SP + move.l #'NFNT',-(SP) + move D2,-(SP) + _GetResource + move.l (SP)+,D0 + bne.s @getUniqueID +@isNeither + move.l mapToRenumber(a6),TopMapHndl ; <29> Make sure we’re reading out of the right map move.w refNum(a6),CurMap subq #4,sp @@ -974,6 +995,28 @@ ValidateFontResourceIDs Proc Export move.l (sp)+,d0 ; Check it out bnz.s @getUniqueID ; Try again + cmpi.l #'FONT',D3 + beq.s @isFONT2 + cmpi.l #'NFNT',D3 + beq.s @isNFNT2 + bra.s @@isNeither + +@isNFNT2 subq #4,SP + move.l #'FONT',-(SP) + move D2,-(SP) + _GetResource + move.l (SP)+,D0 + beq.s @@isNeither + bra @getUniqueID +@isFONT2 subq #4,SP + move.l #'NFNT',-(SP) + move D2,-(SP) + _GetResource + move.l (SP)+,D0 + beq.s @@isNeither + bra @getUniqueID +@@isNeither + ; We have a unique ID. Put it and the original in the from-to list. move.w d2,-(sp) ; <57> Pass new ID @@ -1131,26 +1174,6 @@ ReleaseTheFont Proc Export jmp (a0) ; Return to the caller EndProc -;____________________________________________________________________________________________________ -; <53> SetDeanBitIfResourceWillBeLoaded -; -; This routine checks to see if the resource reference entry already contains a handle -; or not. If it does, DeanBit is cleared. If there is no handle (ie, the resource will -; be loaded this time) set DeanBit. This allows people to determine whether they loaded -; a resource, or if someone else did. -; - -SetDeanBitIfResourceWillBeLoaded PatchProc jCheckLoad - tst.l RHndl(a2) ; See if a master pointer has already been allocated - bz.s @setDeanBit - bclr #kDeanBit,kBrianBits ; A master pointer has already been allocated - bra.s @goLoadTheResource -@setDeanBit - bset #kDeanBit,kBrianBits ; We’ll be loading the resource right now -@goLoadTheResource - jmpOld ; Load the resource - EndProc - ;____________________________________________________________________________________________________ ; <48> CloseResFileUnderSystemMap(refNum: Integer); ; @@ -1512,7 +1535,7 @@ IsThisASystemResourceMap Proc Export move.l d1,a0 move.l (a0),a0 move.w mRefNum(a0),d0 ; Get the file reference number of this map - bsr GetPSNFromParallelFCB ; <60> Get the parallel FCB info + bsr.l GetPSNFromParallelFCB ; <60> Get the parallel FCB info ; I really should use EqualProcess, but the Process Manager might not be around yet… @@ -1540,6 +1563,29 @@ IsThisASystemResourceMap Proc Export ; people are picky about how long they can play Tetris on the airplane… GetPSNFromParallelFCB Proc Export + movea.l FSVarsPtr,A0 + btst.b #3,FSVars.fsFlags(A0) + beq.s @dontHitFS + + sub #$32,SP + movea.l SP,A0 + cmp #$3,D0 + bne.s @L0 + moveq.l #$2,D0 +@L0 move D0,$18(A0) + moveq.l #$50,D0 + _HFSDispatch + cmp #$0,D0 + bne.s @L1 + movea.l $1C(A0),A0 + bra.s @L2 +@L1 lea.l 0,A0 + +@L2 dc.w $defc, $0032 + ;add #$32,SP ; can't seem to make this look right! + rts + +@dontHitFS andi.l #$FFFF, d0 ; only the low word is passed. divu.w FSFCBLen,d0 ; convert refnum to an index movea.l FSVarsPtr,a0 ; get address of HFS variable area @@ -1566,7 +1612,7 @@ MarkFileAsOwnedByTheSystem Proc Export Import GetPSNFromParallelFCB move.l a0,-(sp) ; Preserve A0 - bsr GetPSNFromParallelFCB + bsr.l GetPSNFromParallelFCB clr.l (a0)+ ; Clear high word of PSN move.l #kSystemProcess,(a0) ; Set the low word move.l (sp)+,a0 ; Restore A0 @@ -1950,7 +1996,7 @@ MakeOverrideMap Proc Export exg a2,a1 ; Swap reference entry and 'rovm' pointer move.l #RESize,d0 - _BlockMove ; Copy reference data + _BlockMoveData ; Copy reference data clr.b RAttr(a0) ; clear the attributes for the resource (protected, etc.) ; diff --git a/Toolbox/SANE/Str2Dec.a b/Toolbox/SANE/Str2Dec.a --- a/Toolbox/SANE/Str2Dec.a +++ b/Toolbox/SANE/Str2Dec.a @@ -249,9 +249,7 @@ Start MOVEM.L D2-D7/A2-A3,-(SP) ; save working registers MOVEM.L D(A6),D4-D6 ; D4<--&D, D5<--&INDEX, D6<--&S - MOVE.L D6,D0 ; D0 <--&S - _StripAddress ; sanitized address - MOVEA.L D0,A0 ; &S for calc of first char + MOVE.L D6,A0 ; D0 <--&S MOVEA.L D5,A1 ; copy &index for indirect ref MOVEQ #0,D6 ; prepare to reuse D6 MOVE.B (A0),D6 ; length byte of S diff --git a/Toolbox/ScrapMgr/ScrapMgr.a b/Toolbox/ScrapMgr/ScrapMgr.a --- a/Toolbox/ScrapMgr/ScrapMgr.a +++ b/Toolbox/ScrapMgr/ScrapMgr.a @@ -383,6 +383,7 @@ ZeroScrap BSR StdEntry ; D0 set to 0 by above BNE err0Exit + MOVEQ.L #0,D0 ; was missing, which was a bug (CDG5) MOVE.L D0,scrapInfo ; zero out info ADDQ #8,4(A4) ; increment validation word BPL.S @0 @@ -441,7 +442,7 @@ DoGet MOVE.L D5,A2 ; get scrapHandle MOVE.L (A2),A0 ; set up source for move ADD.L D3,A0 ; add in offset - _BlockMove + _BlockMoveData BRA goHome0 ; return zero ; Get the data from the file diff --git a/Toolbox/SegmentLoader/SegmentLoader.a b/Toolbox/SegmentLoader/SegmentLoader.a --- a/Toolbox/SegmentLoader/SegmentLoader.a +++ b/Toolbox/SegmentLoader/SegmentLoader.a @@ -242,9 +242,7 @@ LoadSeg @37 ;Aren't we slick and tight? <02Nov85> JTC _HLock ; <23May85> NoMoveHHi - MOVE.L (A0),D0 ; handle -> dirty pointer - _StripAddress ; D0 <- clean ptr - MOVE.L D0,A0 ; + MOVE.L (A0),A0 ; handle -> dirty pointer MOVE.L A5,A1 ;copy world base address ADD.W CurJTOffset,A1 ;offset by the current offset @@ -530,7 +528,7 @@ LaunchCom move.w (a3)+,CurPageOption ; <28Oct85> LEA CurApName,A1 ;get address to stuff the name MOVEQ #32,D0 ;move 32 bytes worth - _BlockMove ;move it in + _BlockMoveData ;move it in MOVEQ #0,D3 ; assume all flags are zero CMP.W #'LC',(A3)+ ; extension code around? @@ -570,7 +568,7 @@ SkipClose MOVE.L SP,A1 ;set up destination for move MOVE.L (A0),A0 ;set up source for move MOVE.L D0,-(SP) ;remember the size - _BlockMove ;move it! + _BlockMoveData ;move it! ; re-init the application heap zone, destroying the world... ; ...but just before, flush any vbl tasks executing out of that doomed land! <27Mar85> @@ -608,7 +606,7 @@ GoInitAZone MOVE.L D1,D0 ;get size for blockMove MOVE.L (A0),A1 ;get destination pointer MOVE.L SP,A0 ;get source pointer - _BlockMove ;move it in! + _BlockMoveData ;move it in! ADD.L D1,SP ;deallocate scrap save buffer @@ -728,7 +726,9 @@ ExitToShell ; <30Jan85> ; _CloseResFile ; CLR.W CurApRefNum - _PMgrExit ; Empty out the palette manager < 7Jul89> + MOVE #$C, D0 ; Empty out the palette manager < 7Jul89> + _PaletteDispatch + SUB.L A0,A0 ; clear out A0 <30Jan85> _SetGrowZone ; disable application's growZone handler <30Jan85> @@ -836,7 +836,7 @@ GetAppParms LEA CurApName,A0 ;point to name in low memory MOVEQ #32,D0 ;move 32 bytes - _BlockMove ;move it! + _BlockMoveData ;move it! RTS ;return to caller (params already stripped) diff --git a/Toolbox/ShutDownMgr/ShutDownMgr.a b/Toolbox/ShutDownMgr/ShutDownMgr.a --- a/Toolbox/ShutDownMgr/ShutDownMgr.a +++ b/Toolbox/ShutDownMgr/ShutDownMgr.a @@ -333,6 +333,7 @@ sdBitPowerOff EQU 0 ; Call routine just before PowerOff. sdBitReStart EQU 1 ; Call routine just before a Reboot. sdBitUnMount EQU 2 ; Call routine before UnMounting Vols. sdBitDrivers EQU 3 ; before Driver Goodbye Kiss. +sdBitNew EQU 4 ; local equates @@ -354,15 +355,27 @@ ShutInit PROC Export move.l A0,SDHeader pea DoDrivers ; the default routine to unload - move.w #SDOnUnMount,-(SP) ; all drivers with a goodbye + move.w #$8000|SDOnUnMount,-(SP) ; all drivers with a goodbye jsr ShutInstall ; install it in the queue pea DoUnmount ; the default routine to unmount volumes - move.w #sdRestartOrPower,-(SP) ; do before power-off or restart + move.w #$8000|$10,-(SP) ; do before power-off or restart + jsr ShutInstall + + pea DoSomethingAtRestartOrPower + move.w #$8000|sdRestartOrPower,-(SP) + jsr ShutInstall + + pea DoUnmountAtPowerDown + move.w #$8000|sdOnPowerOff,-(SP) + jsr ShutInstall + + pea DoUnmountAtRestart + move.w #$8000|sdOnRestart,-(SP) jsr ShutInstall pea ClearWarmStart - move.w #sdOnPowerOff,-(SP) ; only on 'shut down' <26> + move.w #$8000|sdOnPowerOff,-(SP) ; only on 'shut down' <26> jsr ShutInstall ; install it in the queue <26> Rts @@ -392,17 +405,20 @@ ShutInit PROC Export ShutDown move.l (SP)+,D2 ; save return move.w (SP)+,D0 ; get opcode word move.l D2,-(SP) ; restore the return - subq #SDPowerOff,D0 - bcs.w ShutInit ; if d0=0, _SDInit a selector in ROM versions - beq ShutPower ; if d0=1, Shutdown - subq #SDInstall-SDPowerOff,D0 - bcs ShutRestart ; if d0=2, carry set, bra to restart - beq.s ShutInstall ; if d0=3, Install + cmp.w #5,D0 + bhi.s @unknownSelector + + move.w @tbl(d0*2),d0 + jmp @tbl(d0) + +@tbl dc.w ShutInit-@tbl ; 0 + dc.w ShutPower-@tbl ; 1 + dc.w ShutRestart-@tbl ; 2 + dc.w ShutInstall-@tbl ; 3 + dc.w ShutRemove-@tbl ; 4 + dc.w UserChoice-@tbl ; 5 - subq.w #sdUserChoice-sdInstall,d0 - bmi.s ShutRemove ;if d0=4, Remove - beq UserChoice ; if d0=5, User Choice @unknownSelector rts ; unknown selector (do nothing, assume no parameters) @@ -514,57 +530,118 @@ ShutRemove export ShutRestart + import SHUTDOWNMGRC_2CC90 ShutRestart with ROMHeader + bsr VersionCheckingFunc + beq.s @old + + bsr DoRAMDiskAlert + bne @return + + bsr FindEDisk + beq.s @old + + bsr KillEDisk + bra.s @old + +@return rts +@old + moveq #sdOnPowerOff,d5 ; Remove poweroff routines from the queue <13> bsr RemoveOtherRoutines moveq #SDBitRestart,D0 ; remember that we will reboot. + moveq #1,D1 bsr CallRoutines ; do the shutDown cleanup. - moveq #1,D5 ; Go ahead and hide cursor/close LCDs. - bsr BlankDesktop ; Go blank the desktop. - move.l ROMBase,A2 ; point to the ROM lea ROMHeader.Restart(A2),A2 ; point to the restart routine move.l #emuWarmStartConst,D0 ; Does the upper long match? move.l #WmStConst,D1 ; Does the upper long match? bsr UpdateEmuWarmstart ; Write the warmstart (We may have come from a shutdown...) - - tst.l VMGlobals ; Is VM running? - bmi.s @noVM ; -> No. Assume we're in Supervisor Mode - _EnterSupervisorMode ; Enter supervisor mode (don’t worry about munging the stack...) -@noVM - bsr DockInitSCC ; reset the SCC (if we have Power controls) <3> - TestFor JawsExists ; are we running on a Tim machine with JAWS <5> HJR - beq.s @noJAWS ; -> No JAWS, jump to RESTART now. <43> - - with PmgrRec, pmCommandRec -@JawsRestartSeq ; -- Special Case for JAWS -- <5> HJR - move.l PMgrBase,a0 ; get pointer to the power manager globals - move.l HDVector(a0),a0 ; get pointer to hard disk power down - jsr (a0) ; kill the hard disk - lea -pmBlkSize(sp),sp ; Create stack frame - lea pmData(sp),a0 ; Get pointer to a xmit buffer - move.l a0,pmRBuffer(sp) ; Load pointer to receive buffer - move.l a0,pmSBuffer(sp) ; Load pointer to xmit buffer - clr.l (a0) ; No data - clr.w pmLength(sp) ; No data - move.w #$21,pmCommand(sp) ; ADB autopoll disable - move.l sp,a0 ; a0 get pointer to paramter block - _PmgrOp ; go kill the machine - clr.l pmData(a0) ; clear data - clr.w pmLength(a0) ; clear length - move.w #$d0,pmCommand(sp) ; reset CPU command - move.w Timedbra,d1 ; set-up our counter - lsl.w #2,d1 ; give ourselves 4 milliseconds - _PmgrOp ; go kill the machine - -@waitloop dbra d1,@waitloop ; stick around for 4 milliseconds - ; Fall into the JMP to Restart <43> +E_0 Bsr SHUTDOWNMGRC_2CC90 + MoveQ.L #$0, D0 + _DebugUtil + CmpI.L #$8, D0 + BLT.B @L0 + MoveQ.L #$8, D0 + _DebugUtil +@L0 Move.L #'pwrv', D0 + _Gestalt + BNE.B @L1 + Move.L A0, D0 + CmpI.L #$200, D0 + BLT.B @L1 + MoveQ.L #$20, D0 + _PowerDispatch +@L1 BTst.B #$0, (HWCfgFlags) + BEQ.B @L3 + BTst.B #$3, ($240A) + BNE.B @L3 + Clr.L -(A7) + Clr.L -(A7) + Move.L A7, -(A7) + Move.L (A7), -(A7) + Clr -(A7) + Move #$D0, -(A7) + MoveA.L A7, A0 + _PMgrOp + Lea.L $C(A7), A7 +@L2 Bra.B @L2 +@L3 BTst.B #$1, ($2400) + BNE.B @L4 + Bra.B @L6 +@L4 Move.L #$7000000, D0 + And.L (UnivROMFlags), D0 + SubI.L #$3000000, D0 + BNE.B @L6 + Lea.L -$14(A7), A7 + MoveA.L A7, A0 + Move.B #$1, (A0) + Move.B #$11, $1(A0) + Clr.L $10(A0) + _EgretDispatch + Lea.L $14(A7), A7 +@L5 Bra.B @L5 +@L6 BTst.B #$3, ($2409) + BEQ @L8 + Lea.L -$28(A7), A7 + Move.L A7, D0 + AddQ #$7, D0 + AndI.L #$FFFFFFF8, D0 + Move.L #$FFFFF000, D1 + Move.L D1, D2 + And.L D0, D2 + MoveA.L D0, A1 + Lea.L $F(A1), A1 + Move.L A1, D4 + And.L D4, D1 + Cmp.L D1, D2 + BEQ.B @L7 + Move.L D1, D0 +@L7 MoveA.L D0, A0 + Move.L ([$68FFEFD0.L],$50), (A0) ; NKHWInfo.RTAS_Restart + Clr.L $4(A0) + Move.L #$1, $8(A0) + MoveA.L A0, A1 + MoveQ.L #$10, D0 + DC.W $FE0C + MoveA.L A1, A0 + DC.W $FE20 + Lea.L $28(A7), A7 +@L8 MoveQ.L #$E, D0 + And.L (UnivROMFlags), D0 + CmpI.L #$8, D0 + BNE.B @noJAWS + MoveA.L ([$68FFEFD0.L],$30), A0 ; NKHWInfo.ADB_Base + BSet.B #$4, $A0(A0) + Nop + BSet.B #$4, $110(A0) + Nop ; Finally! Restart the machine by Jumping through the Restart vector in the ROM header @@ -598,15 +675,15 @@ ShutPower bsr.w RemoveOtherRoutines ; Go remove these procedures from the queue <13> moveq #SDBitPowerOff,D0 ; pass parameter: power off. + moveq #1,D1 bsr.w CallRoutines ; do cleanup and check if new mac. - moveq #1,D5 ; Go ahead and hide cursor/close LCDs. - bsr BlankDesktop ; Clear the whole desktop. - bsr FindEDisk ; Do we have an EDisk in the drive Q? beq.s @noEDisk ; -> Nope, continue w/power off bsr KillEDisk ; Clear the EDisk's checksum data (invalidate the disk) @noEDisk + IMPORT SHUTDOWNMGRC_2CC90 + BSR SHUTDOWNMGRC_2CC90 ; Send Sonic a soft reset <16> thru next <16> @@ -660,17 +737,18 @@ DoSysErrDialog ;_______________________________________________________________________ UserChoice + bsr CheckForSoftPowerOff ; does this machine have software power-off? + bz.s @noSoftPowerOff ; no! + moveq #0,D5 ; Don’t hide cursor/close LCDs. bsr BlankDesktop ; Clear the entire desktop for consistency. - bsr CheckForSoftPowerOff ; does this machine have software power-off? - bz.s @noSoftPowerOff ; no! - move.w #dsShutDownOrRestart,d0 ; yes, let the user choose Shut Down or Restart bra.s DoSysErrDialog @noSoftPowerOff moveq #sdBitPowerOff,d0 ; notify just as we would for PowerOff + moveq #0,d1 bsr.s CallRoutines ; go do the notification move.w #dsSwitchOffOrRestart,d0 ; no, let the user switch off or Restart @@ -688,16 +766,27 @@ CallRoutines movem.l A1-A3/D0-D5,-(SP) move.w D0,D4 + swap D4 + move D1,D4 + ; Call Cleanup for Drivers, and Custom cleanup Procs. moveq #SDBitDrivers,D5 ; do Pre-Driver cleanUp bsr.s CallCleanUp + moveq #sdBitUnMount,D5 + bsr.s CallCleanUp + ; Call Cleanup to unmount volumes, and then custom PowerOff/Restart. - moveq #SDBitUnMount,D5 ; do Vol UnMounts + moveq #SDBitNew,D5 bsr.s CallCleanUp move.w D4,D5 ; do PowerOff or ReStart cleanup + + bsr BlankDesktop + swap D4 + move D4,D5 + bsr.s CallCleanUp ; set up the flags for the caller. @@ -786,6 +875,9 @@ CallCleanUp clr.w QType(a2) ; QType holds the shutdown flags @DontCallUs + cmp #0,A3 + beq.s @NotFound + cmp.l A2,D3 ; at the end? move.l A3,A2 Bne.S @ScanLoop @@ -816,54 +908,6 @@ DoDrivers MOVE.L D0,A0 ; get the DCE handle MOVE.L (A0),A0 ; get the DCE pointer -;------------------------------------------------------------------------ <4> jmp - - Btst #dRamBased,DCtlFlags+1(A0) ; If we’ve got a pointer, then just skip - Beq.s @skipVidChk ; this code (our drivers are RamBased). - - Move.l A0,D7 ; Save pointer to DCE. - Move.l A1,D6 ; Save UTable pointer. - - Move.l dCtlDriver(A0),A0 ; Get handle to driver. - Move.l (A0),A0 ; Get pointer to driver. - Lea drvrName(A0),A0 ; Point to driver name. - Move.l A0,D5 ; Save it for later. - - moveq #0,D0 ; Prepare D0. - Move.b (A0),D0 ; Get the length of the driver name. - Move.w D0,D4 ; Make a copy. - Addq #2,D4 ; Adjust offset to version field (len + 1) - Bclr #0,D4 ; Adjust offset for word alignment. - Move.w (A0,D4.w),D4 ; Get the version number. - Bne.s @endVidChk ; If non-zero, then just leave. - - Swap D0 ; Get 1st string length into hi-word. - Addq #1,A0 ; Point to text of driver name. - Lea TimVidTitle,A1 ; Point to TIM/TIM-LC’s video driver name. - Move.b (A1)+,D0 ; Get 2nd string length into lo-word. - _CmpString ; Compare drvrName with TimVidTitle. - Tst.b D0 ; If this is the TIM/TIM-LC driver, - Beq.s @fixFlags ; then don’t kiss it goodbye. - - Move.l D5,A0 ; Restore pointer to driver name. - moveq #0,D0 ; Re-prepare D0. - Move.b (A0)+,D0 ; Get length of 1st string… - Swap D0 ; …into the hi-word. - Lea DAFBVidTitle,A1 ; Point to Spike/Eclipse video driver name. - Move.b (A1)+,D0 ; Get 2nd string length into lo-word. - _CmpString ; Compare drvrName with DAFVidTitle. - Tst.b D0 ; If this is the DAFB (Spike/Eclipse) driver, - Beq.s @fixFlags ; then don’t kiss it goodbye. - Bra.s @endVidChk ; Otherise, just leave. - -@fixFlags Move.l D7,A0 ; Restore pointer to DCE. - Bclr #DNeedGoodbye,DCtlFlags(A0) ; Reset the good-bye kiss flag. - -@endVidChk Move.l D7,A0 ; Restore pointer to DCE. - Move.l D6,A1 ; Restore pointer to UTable. - -@skipVidChk - ;------------------------------------------------------------------------ <4> jmp BTST #DNeedGoodbye,DCtlFlags(A0) ; need a goodbye kiss? @@ -884,28 +928,43 @@ DoDrivers MOVEM.L (SP)+,D0-D1/D4-D7/A0-A1 ; restore registers <4> jmp RTS -;------------------------------------------------------------------------ <4> jmp - - String Pascal - -TIMVidTitle - DC.W '.Display_Video_Apple_TIM' ; Name of TIM/TIM-LC Video Driver. - -DAFBVidTitle - DC.W '.Display_Video_Apple_DAFB' ; Name of Spike/Eclipse Video Driver. - ;------------------------------------------------------------------------ <4> jmp ;_______________________________________________________________________ ; -; DoUnmount - Unmount all of the volumes on line, so the disks will be updated before our power off. +; DoUnmountCommon - Unmount all of the volumes on line, so the disks will be updated before our power off. ; ; Entry: No parameters. ; ;_______________________________________________________________________ - export DoUnmount +DoUnmountAtPowerDown + MOVE.L D3,-(SP) + MOVE.L #$2,D3 + BSR DoUnmountCommon + MOVE.L (SP)+,D3 + RTS + + +DoUnmountAtRestart + MOVE.L D3,-(SP) + MOVE.L #$1,D3 + BSR DoUnmountCommon + MOVE.L (SP)+,D3 + RTS + + + EXPORT DoUnmount DoUnmount + MOVE.L D3,-(SP) + MOVE.L #$3,D3 + BSR DoUnmountCommon + MOVE.L (SP)+,D3 + RTS + + +DoUnmountCommon + move.l D5,-(SP) sub #IOQElSize,SP ; allocate pBlock ; Go through the VCB Queue to Flush and eject all volumes. @@ -916,6 +975,20 @@ DoUnmount move.l VCBQHdr+QHead,A1 ; get the queue header move.l VCBQHdr+QTail,D2 ; get the tail too beq.s @AllFlushed + + cmp.l D2,A1 + beq.s @AllFlushed + + move.l (A1),A1 + move.l #0,D5 + tst.l $B78 + bmi.s @alreadySetB78 + + move.l $B78,A0 + move.w $4E(A0),D5 + move.l SP,A0 +@alreadySetB78 + bsr ZapVCBQueue ; wipe out the whole queue @AllFlushed @@ -938,6 +1011,7 @@ taskActive equ 7 ; High bit of qType word is active flag. _PrimeTime ; Start the TMTask. move.l DrvQHdr+QHead,D0 ; Now, get a pointer to the first drvQElem. + beq.s @TimedOut @Repeat move.l D0,A1 ; Copy the drvQElem pointer into A1. cmpi.w #-5,dqRefNum(A1) ; If this isn’t a floppy (.Sony) driver drive, bne.s @Until ; then just go on. @@ -954,8 +1028,49 @@ taskActive equ 7 ; High bit of qType word is active flag. @TimedOut _RmvTime ; Remove TMTask. adda.w #tmXQSize,Sp ; Reclaim the stack space. + move.l (SP)+,D5 rts + +;_______________________________________________________________________ +; +; DoSomethingAtRestartOrPower +;_______________________________________________________________________ + +DoSomethingAtRestartOrPower + + movem.l D3/D5,-(SP) + + tst D4 + beq.s @cond1 + + moveq #1,D3 + bra.s @cond2 + +@cond1 moveq #2,D3 +@cond2 sub #IOQElSize,SP ; allocate pBlock + +; Go through the VCB Queue..? + + move.l SP,A0 ; point to the parameter block + clr.L ioVNPtr(A0) + clr.W ioRefNum(A0) + move.l VCBQHdr+QHead,A1 ; get the queue header + move.l VCBQHdr+QTail,D2 ; get the tail too + + beq @noZap + + move.l #0,D5 + bsr ZapVCBQueue +@noZap + + add.w #IOQElSize,SP + + movem.l (SP)+,D3/D5 + + rts + + ;_______________________________________________________________________ <5> ; ; ClearWarmStart - Shutdown task to clear warm start variable if user @@ -996,9 +1111,6 @@ ClearWarmStart UpdateEmuWarmstart With nkDiagInfo - testFor has68kEmulator ; Does this machine have a V0 style emulator? - beq @Done ; -> Nope, we're done. Exit. - move SR,-(SP) ; Save SR ori.w #hiIntMask,SR ; Disable interrupts movem.l D2-D7,-(SP) ; Save some D regs @@ -1023,6 +1135,7 @@ UpdateEmuWarmstart lea 1,A0 ; Get the buffer page number in A0 lea 1,A1 ; Say page is inited (#1) + move.l D1,A1 _nkMMUMarkBacking ; Mark this page as outta here lea 1,A0 ; Logical Page number of the buffer @@ -1039,6 +1152,7 @@ UpdateEmuWarmstart lea 1,A0 ; Get the lo Page number in A0 lea 1,A1 ; Say page is inited (#1) + move.l D1,A1 _nkMMUMarkBacking ; Mark this page as outta here lea 1,A0 ; Get the lo Page number in A0 @@ -1054,6 +1168,12 @@ UpdateEmuWarmstart EndWith + + + rts + + + ;_______________________________________________________________________ <5> ; ZapVCBQueue - This routine goes through the VCB Queue, and calls HUnmountVol for each entry. ; @@ -1064,20 +1184,55 @@ UpdateEmuWarmstart ; D1 - Preserved. ;_______________________________________________________________________ <5> + import SHUTDOWNMGRC_2CB90 + ZapVCBQueue - move.w D1,-(SP) ; save for re-entrancy. + movem.l D1/D4-D6,-(SP) ; save for re-entrancy. + moveq #0,D4 move.w vcbVRefNum(A1),D1 ; get a VRefNum + move.w vcbDrvNum(A1),D6 + move.w vcbDRefNum(A1),D4 move.l QLink(A1),-(SP) ; go on to the next VCB cmp.l D2,A1 move.l (SP)+,A1 beq.s @FlushTime ; have we reached the end? bsr.s ZapVCBQueue ; not yet, save the VRefNum, call self. @FlushTime + + tst D5 + beq.s @defsDo + cmp D5,D6 + beq.s @return +@defsDo + move.w D1,ioVRefNum(A0) ; set up the refNum in the PBlock. - _Eject _HUnMountVol ; shut the volume down. - move.w (SP)+,D1 ; restore crucial VRefNum + + tst D6 + bgt.s @skipCheck + + tst D4 + bge.s @return + + neg D4 + move D4,D6 +@skipCheck + + move.l A0,-(SP) + move.l D4,-(SP) + move.l D3,-(SP) + bsr SHUTDOWNMGRC_2CB90 + addq.l #8,SP + move.l (SP)+,A0 + + tst D0 + bne.s @return + + move D6,ioVRefNum(A0) + _Eject + +@return movem.l (SP)+,D1/D4-D6 Rts ; for reentrancy. ;_______________________________________________________________________ @@ -1099,6 +1254,7 @@ ZapVCBQueue ;_______________________________________________________________________ IMPORT AllocFakeRgns ; + IMPORT SHUTDOWNMGRC_2D4F0, SHUTDOWNMGRC_2D330 BlankDesktop @@ -1138,6 +1294,14 @@ BlankDesktop TST.B D5 ; If we’re not supposed to close LCDs, BEQ.S @SkipClose ; then just go on. + + CLR.B -(SP) + BSR SHUTDOWNMGRC_2D4F0 + + CLR.B -(SP) + BSR SHUTDOWNMGRC_2D330 + + BSR YetAnother BSR CloseLCDVideo ; Otherwise, close ’em. @SkipClose @@ -1182,51 +1346,57 @@ CheckForSoftPowerOff ; if the video is of type LCD. If so, then close the video driver. ;———————————————————————————————————————————————————————————————————————————————————————— -CloseLCDFrame RECORD 0, DECR -CloseLCDCntBlk DS.B IOVQElSize ; control call parm block -CloseLCDSpBlk DS.B spBlock.spBlockSize ; Slot Manager param block. -CloseLCDFrameSize EQU * ; size of frame - ENDR +CloseLCDVideo -CloseLCDVideo -CloseLCDVideoRegs REG D1/A0-A1 - WITH CloseLCDFrame,spBlock - LINK A6,#CloseLCDFrameSize ; allocate variable space - MOVEM.L CloseLCDVideoRegs,-(SP) ; Save them regs - LEA CloseLCDSpBlk(A6),A1 ; Get pointer to spBlock - MOVEA.L A1,A0 ; Set pointer to A0 - CLR.B spSlot(A0) ; Set slot number - MOVEQ #0,D1 ; set spId to 0 - CLR.B spExtDev(A0) ; No external devices - MOVE.W #CatDisplay,spCategory(A0) ; Look for this slot's card - MOVE.W #TypVideo,spCType(A0) ; Make sure it is video - MOVE.W #DrSwApple,spDrvrSW(A0) ; Make sure it is from Apple - MOVE.B #1,spTBMask(A0) ; mark spDrvrHw field as don’t care -@sNextLoop - MOVEA.L A1,A0 ; Get pointer to spBlock - MOVE.B D1,spId(A0) ; Set spID - _sNextTypesRsrc ; get the spsPointer - BNE.S @Done + Move.L (DeviceList), D0 + BEQ.B @L5 + MoveM.L A0-A2, -(A7) + Link A6, #-$40 +@L1 MoveA.L D0, A2 + MoveA.L (A2), A2 + IMPORT ThisLCDScreenChk + Bsr.L ThisLCDScreenChk + BNE.B @L2 + IMPORT PMGRCALLEDBYSHUTDOWNMGRDEE4 + Bsr.L PMGRCALLEDBYSHUTDOWNMGRDEE4 + BEQ.B @L4 +@L2 Move (A2), D0 + MoveA.L (UTableBase), A1 + AddQ #$1, D0 + Neg D0 + AsL #$2, D0 + MoveA.L $0(A1,D0.W), A1 + MoveA.L (A1), A1 + BTst.B #$3, $5(A1) + BEQ.B @L3 + Move.L #$1, -(A7) + Move (A2), D0 + Ext.L D0 + Move.L D0, -(A7) + IMPORT EXPANSIONBUSMGR_VEC01A8 + Bsr.L EXPANSIONBUSMGR_VEC01A8 + AddQ #$8, A7 + Bra.B @L4 +@L3 Lea.L -$40(A6), A0 + Move (A2), $18(A0) + _Close +@L4 Move.L $1E(A2), D0 + BNE.B @L1 + Unlk A6 + MoveM.L (A7)+, A0-A2 +@L5 Rts - MOVE.B spId(A0),D1 ; Save spId for later use - MOVE.B #sVidAttributes,spId(A0) ; read flag field in sRsrc - _sReadWord ; ...pointed to by spsPointer - BNE.S @sNextLoop ; no flags - find next sRsrc - MOVEQ.L #1< HJR - ENDWITH + IMPORT SHUTDOWNMGRC_2CC30 + +YetAnother + MOVEM.L D0-D2/A0-A1,-(SP) + BTST.B #6,$2409 + BEQ.S @return + BSR.L SHUTDOWNMGRC_2CC30 +@return MOVEM.L (SP)+,D0-D2/A0-A1 + RTS @@ -1312,7 +1482,6 @@ KillEDisk BNE.S @noEMMU ; IF we have an EMMU THEN MOVE.L A2,A0 ; get ptr to start of data area MOVE.L #BytesToKill,A1 ; get number of bytes to erase - MOVE.L #(0<<16)|hwEDiskProt,D0 ; _HwPriv EDisk write protect selector and "unprotect" parm BRA.S @unProtect ; ELSE @noEMMU MOVE.L CheckSumPtr(A0),A0 ; Get Ptr to the start of the checksum area, if it exists TST.L A0 ; Check if RAM Disk is using checksums @@ -1320,8 +1489,8 @@ KillEDisk MOVE.L A2,A0 ; base address of RAM disk is same as DataStartPtr @cksumOn ; ENDIF SUB.L A1,A1 ; Protect flag. Zero = Unprotect - MOVEQ #hwEDiskProt,D0 ; _HwPriv EDisk write protect selector @unProtect ; ENDIF + MOVEQ #hwEDiskProt,D0 ; _HwPriv EDisk write protect selector _HwPriv ; Write Enable the EDisk RAM CMPI.W #paramErr,D0 ; Does not clear D0 on success, Check for failure BEQ.S @Done ; -> enable failed. Bail out now or Bus Error! @@ -1445,7 +1614,13 @@ ShutDownCancelButton EQU 2 ; dialog item of Cancel button _ParamText ; set dialog parameters subq #4,sp ; room for DialogPtr + bsr VersionCheckingFunc + beq.s @oldDLOG + move.w #-20601,-(sp) + bra.s @doIt +@oldDLOG move.w #ShutDownDLOGID,-(sp) ; resource ID +@doIt clr.l -(sp) ; use heap storage move.l #-1,-(sp) ; put it in front _GetNewDialog @@ -1488,82 +1663,30 @@ exitFalse move.w #false,d0 ; allow shutdown to continue justExit move.l (sp)+,a2 ; restore a2 rts -;________________________________ -; -; Docking Dispatch Trap -; -DockInitSCC MOVEM.L D0-D2/A0-A2,-(SP) ; <3> - MOVE.W #UnimplementedTrapNumber,D0 ; does the _DockingDispatch trap exist? - _GetTrapAddress ,NEWTOOL - MOVEA.L A0,A1 - MOVE.W #$AA57,D0 - _GetTrapAddress ,NEWTOOL - CMPA.L A0,A1 - BEQ.S @Done ; -> no, skip it - MOVEQ #sccOn-256,D0 ; turn SCC power on - BSR.S @SCCPower - BSR.S InitSCC ; reset the SCC so it doesn't cause us trouble - MOVEQ #sccOff,D0 ; turn SCC power off - BSR.S @SCCPower -@Done MOVEM.L (SP)+,D0-D2/A0-A2 - RTS -@SCCPower - TestFor hwCbPwrMgr ; does this machine have a Power Manager? - BEQ.S @NoPMGR ; -> nope, skip - MOVE.B D0,-(SP) - MOVE.L SP,-(SP) ; pmRBuffer - MOVE.L (SP),-(SP) ; pmSBuffer - MOVE.W #1,-(SP) ; pmLength = 1 byte to send - MOVE.W #powerCntl,-(SP) ; pmCommand = power control - MOVEA.L SP,A0 ; point to the parameter block - _PMgrOp ; turn SCC power on or off - LEA pmRBuffer+4+2(SP),SP ; toss the parameter block and buffer -@NoPMGR RTS -InitBData - DC.B 9,$C0 ; do a hard reset - DC.B 9,$40 ; reset the channel - DC.B 4,$4C ; set async mode (magic?) - DC.B 2,$00 ; zero interrupt vector for dispatcher - DC.B 3,$C0 ; DCD not an auto-enable - DC.B 15,$00 ; no interrupts - DC.B 0,$10 ; reset ext/sts interrupts twice - DC.B 0,$10 - DC.B 1,$00 ; no interrupts -InitBLth EQU *-InitBData - -InitAData DC.B 9,$80 ; reset the channel - DC.B 4,$4C ; set async mode (magic?) - DC.B 3,$C0 ; DCD not an auto-enable - DC.B 15,$00 ; no interrupts - DC.B 0,$10 ; reset ext/sts interrupts twice - DC.B 0,$10 - DC.B 1,$00 ; no interrupts -InitALth EQU *-InitAData - - -InitSCC - TestFor SCCIOPExists ; see if we have a SCC IOP - bne.s @hasIOP ; if so, don't try to initialize it - MOVEA.L SCCWr,A0 ; point to SCC base write address (chan B) - MOVEA.L SCCRd,A1 ; point to SCC base read address (chan B) - LEA InitBData,A2 ; point to channel B init data - MOVEQ #InitBLth,D1 ; and set up the length - BSR.S @WriteSCC ; then init channel B - - ADDQ.W #ACtl,A0 ; adjust SCC addresses for channel A - ADDQ.W #ACtl,A1 - ; A2 points to channel A's init data - MOVEQ #InitALth,D1 ; init data length -@WriteSCC MOVE.B (A1),D2 ; read to make sure SCC is sync'ed up - BRA.S @2 ; delay for timing, too -@1 MOVE.L (SP),(SP) ; delay long for reset - MOVE.L (SP),(SP) - MOVE.B (A2)+,(A0) -@2 DBRA D1,@1 - -@hasIOP RTS - + +VersionCheckingFunc + + move.l ROMBase, a0 + + cmp.w #$077D, ROMHeader.MachineNumber(a0) + bne.s @zero + + cmp.b #$40, ROMHeader.ROMRelease(a0) + beq.s @one + + cmp.b #$45, ROMHeader.ROMRelease(a0) + beq.s @one + + cmp.b #$44, ROMHeader.ROMRelease(a0) + bne.s @zero + +@one moveq.l #1, d0 + rts + +@zero moveq.l #0, d0 + rts + endwith ENDP END diff --git a/Toolbox/TextEdit/TextEdit.a b/Toolbox/TextEdit/TextEdit.a --- a/Toolbox/TextEdit/TextEdit.a +++ b/Toolbox/TextEdit/TextEdit.a @@ -1233,7 +1233,6 @@ TextEdit Proc Export Export vChar2Pixel ; sets up vectors to be used for patching TextEdit and clears ExpandMem TE globals <28June89smb> - Export GestaltTEVersion ; <13> Export TEGlobalInit ; <13> ;------------------------------------------------------------------------------------------------- @@ -1254,6 +1253,7 @@ AddrTable DC.W iTEStylPaste-AddrTable ; 0 DC.W iTECustomHook-AddrTable ; 12 DC.W iTENumStyles-AddrTable ; 13 DC.W iTEFeatureFlag-AddrTable ; 14 + DC.W iTEGetHiliteRgn-AddrTable ; 15 ;------------------------------------------------------------------------------------------------- @@ -1335,44 +1335,8 @@ VectorLoop LoopXit movem.l (sp)+,a2/a3 -; when TextEdit 3.0 is ptch0, need this code - move.l #gestaltTextEditVersion, d0 ; <8Aug89smb> - lea GestaltTEVersion, a0 - _NewGestalt rts -;---------------------------------------------------------------------- -; PROCEDURE GestaltTEVersion -; <8Aug89smb> -; The following Gestalt Function is an interface using the Gestalt -; mechanism to determine the current version of TextEdit. -; -; FUNCTION GestaltTEVersion ( gestaltSelector: OSType; -; VAR gestaltResult: Longint;): OSErr; -; -; The versions for the gestaltTextEditVersion selector are: -; gestaltUndefSelectorErr = old styled TextEdit (pre-MacIIci TE) -; All the following versions of TE are based on the SMgr-compatible version: -; gestaltTE1 (1) = MacIIci ROM/PTCH 67c -; gestaltTE2 (2) = 604 Script Systems PTCH 67c (Script bug fixes for MacIIci) -; gestaltTE3 (3) = 604 Script Systems ptch0/parallels Big Bang (for MacII, MacSE, Mac+) -; gestaltTE4 (4) = Big Bang ptch0/PTCH 67c -; gestaltTE5 (5) = TextWidthHook available in System 7 -; -; THE OBVIOUS: since this is here for the MacIIci ROM patch, we have -; hardcoded the ONLY value that is appropriate to be returned! sigh. -;_________________________________________________________________________________ - -GestaltTEVersion - - move.l (sp)+,a0 ; return address - move.l (sp)+,a1 ; address of result - move.l #gestaltTE5, (a1) ; <19> - adda.w #4,sp ; pop the selector type - move.w #noErr,(sp) ; it always works - jmp (a0) - -;formFeed ;---------------------------------------------------------------------- ; ; PROCEDURE TEInit @@ -8254,7 +8218,7 @@ CopyGuts Bsr GetStyle ; get the style ptr AddQ.L #2,A0 ; skip 1st entry ** ** MoveQ #stRecSize-2,D0 ; size of a style rec-2 ** ** - _BlockMove ; copy style to scrap + _BlockMoveData ; copy style to scrap MoveQ #0,D0 ; it's a long word ** ** Move.W startChar(A2),D0 ; get start offset of this style @@ -8461,7 +8425,7 @@ DeleteStyle Move.L A2,A1 ; destination of move Move.L A2,A0 Add.L D4,A0 ; source of move - _BlockMove + _BlockMoveData @2 MoveM.L (SP)+,D0/D2-D6/A2 ; restore stuff @@ -10937,7 +10901,7 @@ MakeRoom Add.L D2,A1 ; destination Move.L D3,D0 ; length _StripAddress ; clean up high byte of length <5June89smb> - _BlockMove ; make room + _BlockMoveData ; make room MoveM.L (SP)+,D2-D3/A2 @@ -11140,7 +11104,7 @@ AddStyle @1 Sub.W D0,D3 ; get the index Move.L #stRecSize,D0 ; size of record - _BlockMove ; copy it to styleRec array + _BlockMoveData ; copy it to styleRec array Move.W D3,D0 ; return the index @@ -13963,7 +13927,7 @@ styleLoop Move.W styleIndex(A2),D0 ; else, index to style Move.L #stRecSize,D0 ; length of a styleRec Move.L A4,A1 ; ptr to temp storage - _BlockMove ; copy to temp location for mod + _BlockMoveData ; copy to temp location for mod Move.L A2,A0 ; current style Move.L D3,D0 ; selStart, selEnd @@ -14939,7 +14903,7 @@ iGetStylScrap Lea 2(A0),A0 ; skip over stCount to stHeight Move.L #scrpRecSize-4,D0 ; amount to copy - _BlockMove ; from NullStRec to StScrpRec + _BlockMoveData ; from NullStRec to StScrpRec Bra.S EndGet ; we're outta here @05 ; @@ -15496,6 +15460,55 @@ ContGuts EndWith ;contArgs +;formFeed +;---------------------------------------------------------------------- +; +; PROCEDURE TEGetHiliteRgn( region: RgnHandle; hTE: TEHandle ): OSErr; +; +; Obtains the highlight region for the specified edit structure. +; +;---------------------------------------------------------------------- +iTEGetHiliteRgn + Move $20(A3), D0 + Cmp $22(A3), D0 + BLT.B @L1 + Move.L (A2)+, -(SP) + _SetEmptyRgn + Bra.B @L3 +@L1 Move.L $56(A3), -(SP) + Lea.L DT0, A0 + Move.L A0, $56(A3) + _OpenRgn + Move $24(A3), -(SP) + OrI #$FF00, $24(A3) + Pea.L $10(A3) + Move.L A4, -(SP) + _TEUpdate + Move (SP)+, $24(A3) + Move.L (A2), -(SP) + _CloseRgn + SubQ #4, SP + _NewRgn + Move.L (SP)+, D0 + BEQ.B @L2 + Move.L D0, -(SP) + Move.L D0, -(SP) + Move.L (A2), -(SP) + Move.L (A2), -(SP) + Move.L D0, -(SP) + Pea.L $8(A3) + _RectRgn + _SectRgn + _DisposeRgn +@L2 AddQ #4, A2 + Move.L (SP)+, $56(A3) +@L3 Clr (A2) + MoveQ.L #10, D0 + Bra StdExit2 + +DT0 _FrameRect + Rts + ; ************************************************************************************************* ; ************************************************************************************************* diff --git a/Toolbox/ToolboxEventMgr/ToolboxEventMgr.a b/Toolbox/ToolboxEventMgr/ToolboxEventMgr.a --- a/Toolbox/ToolboxEventMgr/ToolboxEventMgr.a +++ b/Toolbox/ToolboxEventMgr/ToolboxEventMgr.a @@ -503,20 +503,6 @@ HandBySys ; <09Apr85> DoneGNE -; The following is a one-time check to see if the internal drive (SCSI ID in low -; memory) is up to speed by now. If so, then clear high bit of PRAM startup -; device timeout value (PRAM address $01, byte length) to indicate that device -; 0 is there (and the startup code will wait for it at the next boot). - - BTST.B #7,SCSIPoll ; bit 7 is cleared by InitSCSIMgr - BNE.S @1 ; don't poll if we've already done it once - CMP.L #20*60,Ticks ; have we been running for 20 seconds? - BLO.S @1 ; no, too early yet - BSET.B #7,SCSIPoll ; set it so we don't do it again - BSR TryDevice ; see if that device is out there - -@1 - ; see if there was no event, if so do a get mouse to tickle tracking ; Historical note: by this time, an FKey is made to look like "no event", in which <13Jan86 JTC> ; case the mouse update is done... @@ -617,75 +603,6 @@ GotDActive CLR D2 ;flag the deactivate BRA.S GotActCommon ;go use common code -;-------------------------------------------------------------------------- -; -; TryDevice -- we do a one-time check of the SCSI ID for the internal hard -; disk some number of seconds after bootup. Since the internal disk is -; powered from the CPU's power supply, it is likely that the startup code -; will be ready to boot off a floppy before the disk has spun up to full -; speed. Unless we have some way to know if there is an internal drive, -; the start code won't know whether or not to wait for the device. This -; 'lightning bolt' happens once per bootup, setting a field in parameter -; RAM that the startup code looks at. If we find a SCSI device ready that -; corresponds to the internal disk SCSI ID stored in parameter RAM, then -; we set a field in parameter RAM so the startup code will wait for it -; at the next bootup. This introduces some hysteresis in the process if the -; user changes the ID of his internal drive, but it was deemed to be more -; preferable than the alternative of a Control Panel setting to enable and -; disable waiting for the internal hard disk. The default ID to check is -; 0, but can be changed in parameter RAM (which gets stored into the SCSIPoll -; variable by InitSCSIMgr). -; - -TryDevice ; This subroutine new - CLR.L -(SP) ; 6-byte Test Unit Ready command block - CLR.L -(SP) ; (6 zeroes) and 2-byte return value - _SCSIGet ; arbitrate for the SCSI bus - TST.W (SP) ; success? - BNE.S TryDevDone ; if arbitrate failed, don't change PRAM - MOVE.B SCSIPoll,D0 ; get SCSI ID of the int. drive - AND.B #$07,D0 ; mask off ID bits - MOVE.W D0,-(SP) ; push SCSI ID for the select - - _SCSISelect ; try to select (max. wait 250 ms.) - TST.W (SP) ; success? - BEQ.S SelectOK ; branch if select succeeded - - _DisableDynWait ; don't wait for that id on bootup - BRA.S TryDevDone ; exit - -SelectOK - PEA 2(SP) ; address of Test Unit Ready command - MOVE.W #6,-(SP) ; length of Test Unit Ready command - _SCSICmd ; do the command - ; - ; If something went wrong with the command, then we need to do - ; SCSIComplete anyway, so it isn't necessary to check the - ; return value. Since we don't need the space for the command - ; block any more, we just reuse it for the status and message - ; values (each a word) returned by SCSIComplete. Before pushing - ; anything else, these EA's are 2(sp) and 4(sp), so we PEA 2(sp) - ; for the first (which adds 4 bytes to the stack), and PEA 8(sp) - ; for the second [PEA 4+4(sp)]. - ; - PEA 2(SP) ; address for status value - PEA 8(SP) ; address for message value - MOVEQ.L #60,D0 ; maximum number of ticks to wait - MOVE.L D0,-(SP) ; push it - _SCSIComplete ; wrap things up, ignore return code - ; - ; If we got this far, then there is a device 0, so enable timeout - ; - _EnableDynWait ; startup code will wait for dev. 0 - -TryDevDone - ADDQ.L #8,sp ; clean up local variables - RTS - - - ENDPROC - - ;____________________________________________________________________________________ ; ; Proc WaitNextEvent diff --git a/Toolbox/ToolboxEventMgr/ToolboxEventMgrPatches.a b/Toolbox/ToolboxEventMgr/ToolboxEventMgrPatches.a --- a/Toolbox/ToolboxEventMgr/ToolboxEventMgrPatches.a +++ b/Toolbox/ToolboxEventMgr/ToolboxEventMgrPatches.a @@ -143,191 +143,4 @@ ClearSysErrorUpdateRect installproc (Plus,SE,II,Portable,IIci) endproc - if not forROM then -;———————————————————————————————————————————————————————————————————————————————————————————————————— -; GetNextEvent/EventAvail — fix 32-bit activation bug - -; A bug occurs in the IIci ROM under 32-bit mode. The high bit of CurActivate and CurDeactivate -; are used as flags to indicate that the events have already been sent. (0 in either also means that -; the event was sent.) The problem is that the ROM code (written for 24-bit machines) refers to the -; windowKind field without stripping off this high bit. Under some circumstances, this would cause -; a bus error. Since the code that checks the window is only used to set the system/application bit -; in the modifiers of the activate/deactivate event, and that bit was never documented in a released -; version of Inside Mac. (and no one uses it), we can fix the bug by getting rid of the code that -; sets the system/application bit. This patch to CheckActivate eliminates the code to set the -; system/application bit. - -FixCheckActivate comefrompatchproc _OSEventAvail,AfterOSEventAvailInCheckActivate,(IIci,using32BitHeaps) - - lea ComeBackHere,a1 ; after doing the OSEventAvail, come back here - move.l a1,ReturnAddressDepth(sp) ; jam in that return address - jmpOld ; go do the OSEventAvail - -ComeBackHere - MOVE.W #activateEvt,(A0)+ ; flag it as (de)activate event - MOVE.L D1,(A0) ; the windowPtr is the message - - jmpROM AfterSystemUserWindowInCheckActivate - - endproc - endif -;———————————————————————————————————————————————————————————————————————————————————————————————————— -; GetNextEvent - Make sure current port is valid before calling _GetMouse - -; This is mostly for the sake of the journalling driver. Before _GetNextEvent calls _GetMouse, check -; to see if the Window Manager exists by checking WWExist. (QDExist is also checked in the process, but -; that’s fine.) If the Window Manager exists, set the port to the Window Manager port before calling -; _GetMouse. If there’s no Window Manager, the call to _GetMouse is skipped. - -SetWindowMgrPort ComeFromPatchProc _GetMouse,AfterGetMouseInGetNextEvent,(Plus,SE,II,Portable,IIci) - - tst.w WWExist ; See if the Window Manager & QuickDraw exist - bne.s @backToGetNextEvent ; If WMgr isn’t there, don’t call _GetMouse - -; Window Mananger exists. Set the port to the Window Manager’s port before calling _GetMouse - - sub.w #4,sp - move.l sp,-(sp) - _GetPort ; Save the current port on the stack - - move.l WMgrPort,-(sp) - _SetPort ; Set the port to the Window Manager’s port - move.l 8(sp),-(sp) ; Copy the original _GetMouse parameter - jsrOld ; Call _GetMouse - - _SetPort ; Old port is already on the stack. - -@backToGetNextEvent - add.w #8,sp ; Remove return address and parameter from stack - jmpROM AfterGetMouseInGetNextEvent - ENDPROC - -;———————————————————————————————————————————————————————————————————————————————————————————————————— -; Come-from patch on _GetResource inside GetNextEvent to ignore FKEYs on the Mac Plus <9> - -; If called from GetNextEvent trying to load an FKEY, abort out so that the -; event record is passed to the application. FKEYs are handled by SystemEvent on the Plus. - -; Note that this FKEY patch is rarely invoked, and only in bizarre circumstances. -; Due to a bug in the Mac Plus ROM, a valid FKEY event always fails the range check (it -; compares ASCII 0 through 9 (i.e. $30 to $39) to decimal 0 through 9), and GetNextEvent -; never tries to invoke the FKEY. However, it may try to load an FKEY when an invalid key -; combination is held down. For example, shift-cmd-enter is really shift-cmd-$03, which because -; of the range checking problem causes FKEY 3 to be loaded. Someday we may want to reassess whether -; this patch is more trouble than it's worth. - -LoadFKEYInGetNextEvent ComeFromPatchProc _GetResource,AfterGetResourceInTryFKey,(Plus) - - LEA 14(SP), SP ; Clean off the stack - jmpROM DoneGNE ; Go where we are supposed to - - endproc - -;———————————————————————————————————————————————————————————————————————————————————————————————————— -; Come-from patch on _GetResource inside GetNextEvent to disable FKEYs from the keypad <9> - -; Note that even though this is a come-from on the same label as LoadFKEYInGetNextEvent on -; the Plus, it's doing different things. On the Plus, FKEY handling was moved into SystemEvent. -; On the SE and II, it was moved back out so that FKEY's are handled before calling SystemEvent. -; So, it's valid for GetNextEvent to get an FKEY on the SE and II where it wasn't valid on the -; Plus. - -KeypadFKEYInGetNextEvent ComeFromPatchProc _GetResource,AfterGetResourceInTryFKey,(SE,II) - - TST.B ScrDmpEnb ; Check the ScrDmpEnb flag <11> - BNE.S moreChecks ; if it is not false, do some more checks <11> - MOVE.L (SP)+, A0 ; otherwise, return NIL. <11> - ADDQ.L #6, SP ; <11> - CLR.L (SP) ; <11> - JMP (A0) ; <11> - -moreChecks ; <11> - MOVE.B evtMessage+2(A3), D0 ; Get the raw keycode - CMP.B #$3F, D0 ; Keyboard or Keypad? - blsOld ; Keyboard -- execute normally - - LEA 14(SP), SP ; Clean off the stack - jmpROM TrySysEvent ; Go where we are suppossed to - - endproc - -;———————————————————————————————————————————————————————————————————————————————————————————————————— -; Come-from patch on _GetResource inside GetNextEvent to honor ScrDmpEnb <11> - -; The portable and IIci ROMS are fixed to do most of what KeypadFKEYInGetNextEvent does. They only -; require a fix to honor the ScrDmpEnable BOOLEAN in low-memory. - -CheckInhibitFKEYInGetNextEvent ComeFromPatchProc _GetResource,AfterGetResourceInTryFKey,(Portable,IIci) - - TST.B ScrDmpEnb ; Check the ScrDmpEnb flag - bneOld ; if it is not false, try to get the FKEY - MOVE.L (SP)+, A0 ; otherwise, return NIL. - ADDQ.L #6, SP - CLR.L (SP) - JMP (A0) - - endproc - -;———————————————————————————————————————————————————————————————————————————————————————————————————— -; GetOSEvent/OSEventAvail -- change ROM GetNextEvent to look for high level (PPC) events. -; This code should be rolled inline into GetNextEvent. We use comefrom patches for -; convenience only. - -HLEAvail ComeFromPatchProc _OSEventAvail,AfterOSEventAvailInGetNextEvent,(Plus,SE,II,Portable,IIci) - import shareHLEPatch:CODE - -; must look for OS events before we waste any more time - jsrOld ; call through - jmp shareHLEPatch ; go share code - - EndProc ; HLEAvail - -GetNextHLE ComeFromPatchProc _GetOSEvent,AfterGetOSEventInGetNextEvent,(Plus,SE,II,Portable,IIci) - entry shareHLEPatch:CODE - -; must try to get OS events before we waste any more time - jsrOld ; call through - -shareHLEPatch - tst.w EvtNum(a3) ; find something? - bne.s Return ; if so, get out without further ado - -; no OS events. Should we look for high-level events? - move.w 12(a6),d0 ; get the caller's event mask - btst #highLevelEvtBit,d0 ; high-level events requested? - beq.s ReturnFalse ; if not, just go on - move.w WeKnowProcMgrExists,d0 ; do we know whether OSDispatch is OK? - bne.s CallGetHLEvent ; if so, go do it right now - -; We need to check for high level events. Determine whether Process Mgr is around yet. - move.l #gestaltOSAttr,d0 ; Gestalt implemented by Process Mgr - _Gestalt ; ask about Process Mgr - blt.s ReturnFalse ; exit now if we're still too early - lea WeKnowProcMgrExists,a0 ; get address of cheater flag - st (a0) ; remember not to check again - -; Ask the Process Mgr for a high level event. -CallGetHLEvent - clr.w -(sp) ; allocate result storage - move.w 12(a6),-(sp) ; pass event mask - move.l a3,-(sp) ; pass address of event record - tst.w d3 ; EventAvail or GetNextEvent? - seq -(sp) ; pass Boolean: GNE - true, EA - false - _GetNextHighLevelEvent ; call Processs Mgr - move.w (sp)+,d0 ; pop result -Return - rts - -; Exit where we have to restore d0 to say “false” -ReturnFalse - moveq #0,d0 ; say false - bra.s Return ; joint exit - -; Flag whether we know Process Mgr exists -WeKnowProcMgrExists dc.w 0 - - EndProc ; GetNextHLE - -;———————————————————————————————————————————————————————————————————————————————————————————————————— - end diff --git a/Toolbox/WindowMgr/LayerMgr.c b/Toolbox/WindowMgr/LayerMgr.c --- a/Toolbox/WindowMgr/LayerMgr.c +++ b/Toolbox/WindowMgr/LayerMgr.c @@ -219,21 +219,21 @@ pascal void VisRgnChanged(WindowPtr) #define PaintWhite (* (short*) 0x9DC) #define WMgrPort (* (GrafPtr*) 0x9DE) #define DeskPort (* (GrafPtr*) 0x9E2) -#define GrayRgn (* (RgnHandle*) 0x9EE) +#define GrayRgn (GetGrayRgn()) #define SaveVisRgn (* (RgnHandle*) 0x9F2) #define CurActivate (* (WindowPeek*) 0xA64) #define GhostWindow (* (WindowPeek*) 0xA84) #define CurLayer (* (LayerPeek*) 0xA90) #define WMgrUpdate (* (WindowPeek*) 0xAFC) #define ROMMapInsert (* (short*) 0xB9E) -#define MBarHeight (* (short*) 0xBAA) -#define MMU32Bit (* (Boolean*) 0xCB2) +#define MBarHeight (GetMBarHeight()) +#define MMU32Bit (1) #define AuxWinHead (* (AuxWinHandle*) 0xCD0) #define AuxCtlHead (* (AuxCtlHandle*) 0xCD4) #define WMgrCPort (* (CGrafPtr*) 0xD2C) -#define MainDevice (* (GDHandle*) 0x8A4) +#define MainDevice (GetMainDevice()) -#define HaveCQD() (ROM85 <= 0x3FFF) +#define HaveCQD() (1) #define dsWDEFNotFound 87 #define kDoPaintWhite -1 @@ -758,11 +758,8 @@ pascal void __PositionWindow(WindowPtr whichWindow, void GetMainScreenRect(Rect *theMainScreenRect) { - if (HaveCQD()) { GDHandle theGDHand = MainDevice; *theMainScreenRect = (*theGDHand)->gdRect; - } else - *theMainScreenRect = WMgrPort->portRect; theMainScreenRect->top += MBarHeight; } @@ -801,7 +798,7 @@ again: // if there is such a window use the bounding box of its structure region - if (parentWind) { + if (parentWind && !EmptyRect(&(*(((WindowPeek) parentWind)->strucRgn))->rgnBBox)) { theRect = (*(((WindowPeek) parentWind)->strucRgn))->rgnBBox; if (where == lcParentWindowScreen) // use containing screen lookup = true; @@ -1089,20 +1086,23 @@ NewWindowCommon(register Ptr wStorage, register const Rect *boundsRect, const St GetPort(&savePort); /* Be sure to allocate the storage */ - wStorage = (wStorage == nil) ? NewPtr(sizeof(WindowRecord)) : StripAddress(wStorage); - - /* Zero out all the fields in the window record. - * Since WindowRecord is 0x9C long, we can use a fast longword clear. - */ { - register int countDown; - register long* longPtr = (long *) wStorage; - for (countDown = sizeof(WindowRecord) >> 2; countDown > 0; countDown--) - *(longPtr++) = 0; + if (wStorage == nil) { + wStorage = NewPtrClear(sizeof(WindowRecord)); + } else { + /* Zero out all the fields in the window record. + * Since WindowRecord is 0x9C long, we can use a fast longword clear. + * The specific form below (short counter >= 0) is needed to get a DBRA + */ + register short countDown; + long* longPtr = (long *) wStorage; + for (countDown = (sizeof(WindowRecord) >> 2) - 1; countDown >= 0; --countDown) + *(longPtr++) = 0; + } } /* Open the correct style port. */ - if (isColor && HaveCQD()) + if (isColor) OpenCPort((CGrafPtr) wStorage); else OpenPort((GrafPtr) wStorage); @@ -1127,9 +1127,9 @@ NewWindowCommon(register Ptr wStorage, register const Rect *boundsRect, const St register short wdefID = theProc >> 4; register Handle wdefHandle; - ROMMapInsert = mapTrue; + TempInsertROMMap(true); if ((wdefHandle = GetResource('WDEF', wdefID)) == nil) { - ROMMapInsert = mapTrue; + TempInsertROMMap(true); if ((wdefHandle = GetResource('WDEF', 0)) == nil) SysError(dsWDEFNotFound); } @@ -1138,7 +1138,7 @@ NewWindowCommon(register Ptr wStorage, register const Rect *boundsRect, const St if (wdefID == layerWDEF) { /* Initialize layer-specific fields. */ ((LayerPeek) wStorage)->parent = CurLayer; - if (HaveCQD()) { + { GetAuxWin(nil, &((LayerPeek) wStorage)->auxWinHead); GetAuxCtl(nil, &((LayerPeek) wStorage)->auxCtlHead); } @@ -1161,15 +1161,12 @@ NewWindowCommon(register Ptr wStorage, register const Rect *boundsRect, const St /* Put the variant in the right place. */ { register unsigned char variant = theProc & 0xF; - if (HaveCQD() && MMU32Bit) { AuxWinHandle awHndl; /* Auxiliary window record is mandatory in 32 bit mode. */ SetWinColor((WindowPtr) wStorage, (WCTabHandle) -1); (void) GetAuxWin((WindowPtr) wStorage, &awHndl); (*(unsigned char *) &((**awHndl).awFlags)) = variant; - } else - (*(unsigned char *) &(((WindowPeek) wStorage)->windowDefProc)) = variant; } /* Initialize windowKind, visible, goAwayFlag, refCon */ @@ -1248,8 +1245,8 @@ NewWindowCommon(register Ptr wStorage, register const Rect *boundsRect, const St CallWindowCalcGlue((WindowPeek) wStorage); if (visible && !FastIsLayer(wStorage)) { ActivatePalette((WindowPtr) wStorage); - PaintOne((WindowPeek) wStorage, ((WindowPeek) wStorage)->strucRgn); - CalcVisBehind((WindowPeek) wStorage, ((WindowPeek) wStorage)->strucRgn); + PaintOne((WindowPtr) wStorage, ((WindowPeek) wStorage)->strucRgn); + CalcVisBehind((WindowPtr) wStorage, ((WindowPeek) wStorage)->strucRgn); CalcDeskPortVisRgn(); } @@ -1506,11 +1503,16 @@ IsAncestor(WindowPtr artifact, LayerPtr child) pascal OSErr __InitLayers(void) { + GrafPtr deskPort = DeskPort; + THz saveZone = GetZone(); CurLayer = nil; + SetZone(SystemZone()); + /* Create the DeskPort, which is a port that has an updateRgn. */ + if (deskPort == 0 || deskPort == -1) { - register GrafPtr deskPort = (GrafPtr) NewPtrClear(sizeof(WindowRecord)); + deskPort = (GrafPtr) NewPtrSysClear(sizeof(WindowRecord)); OpenPort(deskPort); ((WindowPeek) deskPort)->updateRgn = NewRgn(); DeskPort = deskPort; @@ -1523,6 +1525,8 @@ __InitLayers(void) InitWindowsGuts(); #endif + SetZone(saveZone); + /* Create the two layers (one for system stuff). */ { short i; @@ -1585,15 +1589,24 @@ CalcAncestorRgns(WindowPtr window) * It always descends into sub-trees, but skips invisible layers and windows. */ pascal OSErr -CheckUpdateSearch(WindowPeek window, LayerPeek, WindowPeek *updateWindow) +CheckUpdateSearch(WindowPeek window, LayerPeek parent, WindowPeek *updateWindow) { + Boolean thisIsLayer = FastIsLayer((WindowPtr) window); + if (!window->visible) return skipChildren; + if (thisIsLayer && ((LayerPeek)window)->cleanFlag) + return skipChildren; + if (EmptyRgn(window->updateRgn)) + { + if (!thisIsLayer && !window->nextWindow) + parent->cleanFlag = true; return noErr; + } - if (!FastIsLayer((WindowPtr) window) && (window->windowPic != nil)) { + if (!thisIsLayer && (window->windowPic != nil)) { DrawWindowPic(window); return noErr; } @@ -1612,14 +1625,20 @@ __CheckUpdateIn(EventRecord *event, LayerPtr inLayer) { register Boolean result = false; + if (GetRootLayer() != GetParent((WindowPtr)inLayer)) ValidateMenuBar(); + if (((LayerPeek) inLayer)->cleanFlag == false) { + if ((EachWindow((WindowPeek) inLayer, ((WindowPeek) inLayer)->nextWindow, ((LayerPeek) inLayer)->parent, CheckUpdateSearch, &event->message) != noErr)) { /* Make an update event and return true. */ event->what = updateEvt; result = true; } + else ((LayerPeek) inLayer)->cleanFlag = true; + + } return result; } @@ -1641,9 +1660,9 @@ pascal void BeginUpdateOfLayersChildren(WindowPtr window) { if (FastIsLayer(window)) { - PaintOne((WindowPeek) window, ((WindowPeek) window)->updateRgn); + PaintOne((WindowPtr) window, ((WindowPeek) window)->updateRgn); /* Note that only the children of window really need CalcVis. */ - CalcVis((WindowPeek) window); + CalcVis((WindowPtr) window); } } @@ -1722,8 +1741,11 @@ PaintTheDesk(RgnHandle clobberedRgn) SectRgn(clobberedRgn, deskPort->visRgn, wMgrPortClipRgn); /* Accumulate visible clobbered areas into the DeskPort’s updateRgn. */ { + WindowPeek stuffedLayerPtr; register RgnHandle deskUpdate = ((WindowPeek) deskPort)->updateRgn; UnionRgn(deskUpdate, wMgrPortClipRgn, deskUpdate); + if (!EmptyRgn(deskUpdate) && (stuffedLayerPtr = (WindowPeek)((WindowPeek) deskPort)->refCon)) + stuffedLayerPtr->hilited = false; } /* Draw gray, and leave the clipRgn set, for compatibility with old apps. that expect it. * Use the WMgrCPort on CQD machines, so that we can draw color patterns. @@ -1744,7 +1766,7 @@ typedef struct { * It paints the window, clipped to clobberedRgn. */ pascal OSErr -PaintAction(WindowPeek window, LayerPeek, PaintInfoPtr paintInfo) +PaintAction(WindowPeek window, LayerPeek parent, PaintInfoPtr paintInfo) { if (!window->visible) return skipChildren; @@ -1760,6 +1782,11 @@ PaintAction(WindowPeek window, LayerPeek, PaintInfoPtr paintInfo) PaintOneGuts(window, paintInfo->clobberedRgn); } + while (parent) { + parent->cleanFlag = false; + parent = parent->parent; + } + return noErr; } @@ -1770,7 +1797,6 @@ PaintAction(WindowPeek window, LayerPeek, PaintInfoPtr paintInfo) */ void CalcAncestorRgnsForPaintActions(WindowPtr window) { - ExpandMemRec *emRec = ExpandMem; if (GetExpandMemAncestorRgnsCalced() == 0) CalcAncestorRgns(window); // calculate the regions if the one-shot is off else @@ -1802,6 +1828,9 @@ __PaintOne(WindowPeek window, RgnHandle clobberedRgn) } #if !hasLayerlessApps +pascal WindowPeek ProcessMgrGetOtherWindow(void) + = {0x3F3C, 0x0063, 0xA88F}; + /* Paints the given window, and any children, and all windows behind the given window, even * in layers behind its parent, and the desktop, clipped to clobberedRgn. If startWindow is * nil, it paints all windows behind CurLayer. @@ -1812,6 +1841,21 @@ __PaintBehind(WindowPeek startWindow, RgnHandle clobberedRgn) { PaintInfoRec paintInfo; + if (GetExpandMemProcessMgrExists()) { + /* If the clobbered region *could* enclose grayRgn... */ + short *grayBR = &(*GrayRgn)->rgnBBox.bottom; + short *clobTLBR = &(*clobberedRgn)->rgnBBox.top; + if (*clobTLBR++ <= 0 && + *clobTLBR++ <= 0 && + *clobTLBR++ >= *grayBR++ && + *clobTLBR++ >= *grayBR++) + { + /* Ask Process Mgr (via OSDispatch) for a different window */ + WindowPeek otherWindow = ProcessMgrGetOtherWindow(); + if (otherWindow) startWindow = otherWindow; + } + } + CalcAncestorRgnsForPaintActions((WindowPtr) startWindow); PaintTheDesk(clobberedRgn); @@ -1907,7 +1951,7 @@ CalcVisAction(WindowPeek window, LayerPeek parent, RgnHandle clobberedRgn) register long saveClip = (long) *wMgrPortClipRgnPtr; /* get a D register (SLIME) */ CopyRgn(window->contRgn, (RgnHandle) myVis); *wMgrPortClipRgnPtr = (RgnHandle) myVis; - ClipAbove(window); + ClipAbove((WindowPtr)window); *wMgrPortClipRgnPtr = (RgnHandle) saveClip; } @@ -2133,7 +2177,7 @@ Redraw(RgnHandle region) EventRecord discardEvent; Rect menuBarRect; - PaintBehind((WindowPeek) __GetRootLayer(), region); + PaintBehind((WindowPtr) __GetRootLayer(), region); GetPort(&origPort); SetPort(wmgrPort); @@ -2159,3 +2203,32 @@ __RedrawAll(void) Redraw(wideOpenArea); DisposeRgn(wideOpenArea); } + +/* Called by InvalRgn and fast path */ +pascal void +__MarkDirty(WindowPtr window) +{ + LayerPeek ml = NULL; + WindowPeek wc; + + if (CurLayer) { + /* Find the window's parent layer. Quickly check CurLayer first. */ + for (wc = CurLayer->subWindows; wc; wc = wc->nextWindow) { + if (window == wc) { + ml = CurLayer; + break; + } + } + + /* If that didn't work, do a proper check. */ + if (!ml) { + ml = __GetParent(window); + } + + /* Mark the layer and all ancestors as dirty. */ + while (ml) { + ml->cleanFlag = false; + ml = ml->parent; + } + } +} diff --git a/Toolbox/WindowMgr/WindowMgr.a b/Toolbox/WindowMgr/WindowMgr.a --- a/Toolbox/WindowMgr/WindowMgr.a +++ b/Toolbox/WindowMgr/WindowMgr.a @@ -1026,6 +1026,19 @@ GetNewRgn Proc Export JMP (A0) ;return to caller EndProc +; +; Utility EqIfInvalid:longword +; +; Return EQ if D0.L == 0 or -1; else NE +; + +EqIfInvalid Proc Export + TST.L D0 + BEQ.S @return + ADDQ.L #1,D0 +@return RTS + EndProc + ; ; PROCEDURE SaveOld(window) ; @@ -1156,7 +1169,9 @@ ShowHide Proc Export MOVE.L A1,-(SP) ; we have to save this register (Why?, I don't know) - JSR ptchHMGetBalloons ; what is the state of What Is? mode? + CLR -(SP) ; (ptchHMGetBalloons becomes trap in CDG5) + _HMGetBalloons + TST.B (SP)+ ; what is the state of What Is? mode? BEQ.S @BalloonsOff ; EQ means no, so, let's not do anything. SUBQ #2,SP ; room for Boolean @@ -1305,9 +1320,9 @@ AllocPort Proc Export Export AllocP2 Export AllocCPort - MOVEQ #PortRec,D0 ;get size of a grafPort MOVEQ #0,D1 ;say it's a black and white port -AllocP1 _NewPtr ;allocate the grafPort +AllocP1 MOVEQ #PortRec,D0 ;get size of a grafPort + _NewPtr ;allocate the grafPort AllocP2 MOVE.L A0,A3 ;remember it in A3 MOVE.L A0,-(SP) ;push it as parameter to OpenPort TST D1 ;black and white or color? @@ -1337,13 +1352,17 @@ InitWindowsGuts Proc Export Import GetNewRgn Import CalcMBHeight Import DrawMBar + Import EqIfInvalid + Import ThisLCDScreenChk ; Stack Frame definition ; DAF -LocalVar EQU 0 ; stack frame eliminated DAF +LocalVar EQU -6 +MirroringOn EQU -5 +LongThing EQU -4 LINK A6,#LocalVar ; make a stack frame DAF - MOVEM.L D3-D7/A3-A4,-(SP) ;save work registers + MOVEM.L D3-D7/A2-A4,-(SP) ;save work registers ; Added patches: cancel pending PaintBehind; reset alarm parity; and say ; that the window world exists. @@ -1393,6 +1412,11 @@ LocalVar EQU 0 ; stack frame eliminated DAF MOVE.L (SP)+,theZone ; restore the app's zone DAF @12 + MOVE.L WMGRPORT,A3 + MOVE.L A3,D0 + JSR EqIfInvalid + BNE.S @skipNewPort ; port already valid, skip creation + ; ; allocate and init the window manager's port ; @@ -1409,7 +1433,6 @@ LocalVar EQU 0 ; stack frame eliminated DAF MOVE.L A3,A4 ; hold this for a moment DAF MOVE.L visRgn(A4),D6 ; deallocate oldport's regions DAF MOVE.L clipRgn(A4),D7 ; cGrafPort's regions DAF - MOVE.L #PortRec,D0 ; get color port size for NewPtr DAF MOVEQ #-1,D1 ; non-zero means color port DAF BSR AllocP1 ; DAF MOVE.L A3,wmgrCPort ; set up lomem DAF @@ -1417,9 +1440,38 @@ LocalVar EQU 0 ; stack frame eliminated DAF MOVE.L clipRgn(A3),clipRgn(A4) ; DAF MOVE.L A4,A3 + BRA.S @doneNewPort + +@skipNewPort SUBQ #4,SP + _NewRgn + MOVE.L (SP),D6 + _NewRgn + MOVE.L (SP)+,D7 + +@doneNewPort MOVE.L A3,-(SP) ; push the old port _SetPort ; set it back + IF hasDisplayMgrWindows THEN ; +; Now that the WMgr port is initialized, initialize the Display Manager +; We must do this between when the WMgrPort is initialized and when the desktop is drawn + subq.l #2,sp ; init display manager (now that wmgrport is set up) + _DMInitDisplayManager + move.w (sp)+,d0 ; get result + bne.s @err + clr.b -(sp) + move.l sp,a0 ; pass ptr to zero byte, and check it after + subq #2,sp + move.l a0,-(sp) + _DMIsMirroringOn ; pascal OSErr DMIsMirroringOn(Boolean *isMirroringOn) + move.w (sp)+,d0 + move.b (sp)+,d1 ; return that byte that we pointed to + tst.w d0 + beq.s @noerr +@err moveq #0,d1 ; error in either DM call -> mirroring off +@noerr move.b d1,MirroringOn(a6) + ENDIF + ; Initialize DeskRgn, the union of all screen devices. Set WmgrPort.VisRgn to DeskRgn. ; The bounding box of DeskRgn region is what we will use to black out the corners. @@ -1428,6 +1480,10 @@ LocalVar EQU 0 ; stack frame eliminated DAF MOVE.L DEVICELIST,A4 ; get handle to main screen <13Nov86 EHB> DoNextDev MOVE.L (A4),A0 ; point at main screen device <13Nov86 EHB> + TST.B MirroringOn(A6) + BNE.S @mirroring + BCLR #roundedDevice,GDFlags+1(A0) +@mirroring TST GDFlags(A0) ; is device active? BPL.S @NxtDev ; =>no, try next device MOVE.L D6,-(SP) ; push ScreenRgn <13Nov86 EHB> @@ -1449,14 +1505,41 @@ DoNextDev _CopyRgn ; visRgn := DeskRgn <13Nov86 EHB> + TST.B MirroringOn(A6) + BNE.S @mirroringOff + MOVE.L DEVICELIST,A2 +@DeviceLoop + MOVE.L (A2),A2 + BTST #screenActive,GDFlags(A2) + BEQ.S @NextDevice + JSR ThisLCDScreenChk + BNE.S @ExitLoop +@NextDevice + MOVE.L GDNextGD(A2),A2 + MOVE.L A2,D0 + BNE.S @DeviceLoop +@ExitLoop + MOVE.L A2,LongThing(A6) + MOVEQ #0,D0 + CMP.L A2,D0 + BEQ.S @ReallyNo + MOVE.L MainDevice,D0 + BEQ.S @ReallyNo + MOVE.L D0,A0 + MOVE.L (A0),A0 + TST.W GDFlags(A0) + BPL.S @ReallyNo + CLR.B -(SP) + PEA GDRect(A0) + PEA GDRect(A2) + PEA TempRect + _SectRect + TST.B (SP)+ + BEQ.S @ReallyNo +@mirroringOff + CLR.B NTSC +@ReallyNo - IF hasDisplayMgrWindows THEN ; -; Now that the WMgr port is initialized, initialize the Display Manager -; We must do this between when the WMgrPort is initialized and when the desktop is drawn - subq.l #2,sp ; init display manager (now that wmgrport is set up) - _DMInitDisplayManager - move.w (sp)+,d0 ; get result - ENDIF ; initialize the screen by drawing the menu bar, blacking out the corners, and then ; filling the rest with the deskPattern. @@ -1467,50 +1550,59 @@ DoNextDev JSR CalcMBHeight ; use menu mgr routine to calc new size JSR DrawMBar ; use menu mgr routine to save code -; set TempRect to the DeskRgn's bounding box - - MOVE.L D7,A0 ; get deskRgn <13Nov86 EHB> - MOVE.L (A0),A0 ; and point at it <13Nov86 EHB> - LEA RgnBBox(A0),A0 ; point to deskRgn bounding box <13Nov86 EHB> - - LEA TempRect,A4 ; get a temp rect - MOVE.L A4,A1 ; get a copy to trash - MOVE.L (A0)+,(A1)+ ; copy the deskRect - MOVE.L (A0),(A1) - ; initialize the gray region + LEA TempRect,A4 + MOVE.L GRAYRGN,D5 + MOVE.L D5,D0 + JSR EqIfInvalid + BNE.S @grayRgnAlreadyGood + BSR GETNEWRGN ; allocate a region MOVE.L (SP)+,D5 ; keep grayRgn in D5 MOVE.L D5,GRAYRGN ; update grayRgn global +@grayRgnAlreadyGood - _HidePen ; don't really draw this - _OpenRgn ; start recording a region - -; CSS Rollin patch from Horror: InitWindowsRgnPatch -; InitWindowsRgnPatch - Decides whether WMgrCPort part of the GrayRgn should be -; round or square. LCD displays have square regions and -; CRT displays have rounded ones. - IF hasPwrControls THEN ; - IMPORT LCDScreenChk ; CSS - BigJsr LCDScreenChk,a0 ; If we don’t have an LCD screen, - BEQ.S @DoNormalCode ; then just go on. - - Move.l A4,-(Sp) ; Push the temp rect. - _FrameRect ; Draw it. - BRA.S @DontRound -@DoNormalCode - ENDIF - - MOVE.L A4,-(SP) ; push the temp rect <13Nov86 EHB> - MOVE.L #ScreenRadius,-(SP) ; with rounded corners - _FrameRoundRect ; draw it -@DontRound - ; SKH, fixed SM mistake, the grayRgn was not being pushed onto the stack - - MOVE.L D5,-(SP) ; push the grayRgn - _CloseRgn ; initialize the gray region - _ShowPen ; show the pen again + MOVE.L D6,-(SP) + BSR GETNEWRGN + MOVE.L (SP)+,D6 + MOVE.L DEVICELIST,A2 +@UNDeviceLoop + MOVE.L (A2),A2 + BTST #screenActive,GDFlags(A2) + BEQ.S @UNNextDevice + MOVE.L GDRect+TopLeft(A2),TopLeft(A4) + MOVE.L GDRect+BotRight(A2),BotRight(A4) + MOVE.L A4,-(SP) + TST.B MirroringOn(A6) + BNE.S @UNSquareRgn + JSR ThisLCDScreenChk + BNE.S @UNSquareRgn +@UNRoundRgn + _OpenRgn + MOVE.L #ScreenRadius,-(SP) + _FrameRoundRect + MOVE.L D6,-(SP) + _CloseRgn + BRA.S @UNRegionDone +@UNSquareRgn + MOVE.L (SP)+,D0 + MOVE.L D6,-(SP) + MOVE.L D0,-(SP) + _RectRgn +@UNRegionDone + MOVE.L D5,-(SP) + MOVE.L D6,-(SP) + MOVE.L D5,-(SP) + _UnionRgn +@UNNextDevice + MOVE.L GDNextGD(A2),A2 + MOVE.L A2,D0 + BNE.S @UNDeviceLoop +@UNCleanup + MOVE.L D6,-(SP) + _DisposRgn + MOVE.L (SP)+,D6 ; subtract the menu bar from the gray region @@ -1526,41 +1618,59 @@ DoNextDev MOVE.L D5,-(SP) ; get result in gray region <13Nov86 EHB> _SectRgn -; set the wmgrPort clipRgn to the wide open region - - MOVE.L GRAFGLOBALS(A5),A0 ; get grafglobals <13Nov86 EHB> - MOVE.L WIDEOPEN(A0),-(SP) ; push wide open region <13Nov86 EHB> - _SetClip ; set clipRgn to wideopen <13Nov86 EHB> - -; CSS Rollin patch: InitWIndowsRgnPatch from Horror: -; InitWindowsFramePatch - Decides whether the corners of the screen should be rounded -; or not. LCD displays don’t have rounded corners while CRT -; displays do. - - IF hasPwrControls THEN ; CSS - IMPORT LCDScreenChk ; CSS - BigJsr LCDScreenChk,a0 ; do we have an LCD screen? CSS - BNE.S @doneRounding ; don't round the corners - ENDIF - ; black out the corners of the desk + LEA TempRect,A4 + MOVE.L #$00030003,-(SP) ; get a wider pen + _PenSize + + TST.B MirroringOn(A6) + BNE.S @AXMirroringOff + MOVE.L A3,-(SP) ; save A3 for use + MOVE.L LongThing(A6),A3 + MOVE.L DEVICELIST,A2 +@AXDeviceLoop + MOVE.L (A2),A2 + BTST #screenActive,GDFlags(A2) + BEQ.S @AXNextDevice + JSR ThisLCDScreenChk + BNE.S @AXNextDevice + + MOVEQ #0,D0 + CMP.L A3,D0 + BEQ.S @AXPostSect + CLR.B -(SP) + PEA GDRect(A2) + PEA GDRect(A3) + PEA TempRect + _SectRect + TST.B (SP)+ + BNE.S @AXNextDevice +@AXPostSect + MOVE.L GDRect+TopLeft(A2),TopLeft(A4) + MOVE.L GDRect+BotRight(A2),BotRight(A4) + MOVE.L A4,-(SP) + _ClipRect + MOVE.L A4,-(SP) ; push the temp rect MOVE.L #$FFFDFFFD,-(SP) ; and make it bigger _InsetRect ; by 3 pixels on each side - MOVE.L #$00030003,-(SP) ; get a wider pen - _PenSize - MOVE.L A4,-(SP) ; push the port rect MOVE.L #$00160016,-(SP) ; and a radius for nice rounding _FrameRoundRect ; and black out the corners + + BSET #roundedDevice,GDFlags+1(A2) +@AXNextDevice + MOVE.L GDNextGD(A2),A2 + MOVE.L A2,D0 + BNE.S @AXDeviceLoop +@AXCleanup + MOVE.L (SP)+,A3 ; restore A3 +@AXMirroringOff + _PenNormal ; fix the pen back up - IF hasPwrControls THEN ; CSS -@doneRounding - ENDIF - IF hasDisplayMgrWindows THEN ; MOVE.L D5,-(SP) ; push grayRgn <13Nov86 EHB> _DMDrawDesktopRegion @@ -1600,6 +1710,13 @@ DoNextDev ; ; set up the AuxWinList ; DAF ; + MOVE.L AuxWinHead,D0 + JSR EqIfInvalid + BEQ.S @invalidAWL + MOVE.L AuxWinHead,A0 + _DisposHandle +@invalidAWL + MOVE.L #AuxWinSize,D0 ;set up for newHandle DAF _NewHandle ,CLEAR ;allocate a new record (init fields to NIL, too) DAF MOVE.L A0,A4 ;copy the handle DAF @@ -1617,6 +1734,13 @@ DoNextDev ; ; since there's no InitControls, set up the AuxCtlList DAF ; + MOVE.L AuxCtlHead,D0 + JSR EqIfInvalid + BEQ.S @invalidACL + MOVE.L AuxCtlHead,A0 + _DisposHandle +@invalidACL + MOVE.L #acSize,D0 ;set up for newHandle DAF<1.7> _NewHandle ,CLEAR ;allocate a new record (init fields to NIL, too) DAF MOVE.L A0,A4 ;copy the handle DAF @@ -1634,8 +1758,12 @@ DoNextDev ; ; allocate saveVisRgn, a region used to save the visRgn during updates ; + MOVE.L SaveVisRgn,D0 + JSR EqIfInvalid + BNE.S @validSVR BSR GETNEWRGN ;allocate a region MOVE.L (SP)+,SAVEVISRGN ;update saveVisRgn global +@validSVR ; ; initialize window manager globals (and desk mgr) ; @@ -1661,7 +1789,7 @@ DoNextDev ; ; all done -- restore registers return to caller ; - MOVEM.L (SP)+,D3-D7/A3-A4 ;restore work registers + MOVEM.L (SP)+,D3-D7/A2-A4 ;restore work registers UNLK A6 ; bag the stack frame DAF RTS EndProc @@ -2610,6 +2738,7 @@ GetWVariant Proc Export ; DAF ; CallWindow Proc Export + Import FlushCRange MOVE.L A4,-(SP) ;save A4 CLR.L -(SP) ;make room for function result @@ -2628,9 +2757,7 @@ CallWindow Proc Export TST.L (A0) ;has the proc been purged? DAF BNE.S @1 ;if we got it, skip - MOVE.L A0,D0 ;clean the handle (historical) DAF - _StripAddress ;clean the pointer DAF - MOVE.L D0,-(SP) ;better reload the proc DAF + MOVE.L A0,-(SP) ;better reload the proc _LoadResource ;via the resource manager TST.L (A0) ;did we get it this time? DAF BNE.S @1 ;yup, keep going DAF @@ -2648,7 +2775,11 @@ CallWindow Proc Export _GetHandleSize ; How big is our WDEF Handle fau cmp.l #32,D0 ; Is it "small" chp bhi.s @RealWDEF ; no, don't flush the cache fau - jsr ([jCacheFlush]) ; else, flush the caches. fau + move.l A0,-(SP) ; else, flush the caches. preserve a0 + move.l (A0),A0 ; arg a0 = base + move.l D0,A1 ; arg a1 = length + bsr.l FlushCRange + move.l (SP)+,A0 ; restore a0 @RealWDEF ; fau _HLock ;lock the proc handle DAF MOVE.L (A0),A0 ;get the proc pointer DAF @@ -4005,9 +4136,7 @@ DrawDraggedRgn beq.s @paintnormal ; do the normal painting if there's no controldefhandle. move.l d1,a0 move.l (a0),a0 ; get the ptr to control record - move.l contrlDefHandle(a0),d0 ; get the CDEF handle - _StripAddress - move.l d0,a0 + move.l contrlDefHandle(a0),a0 ; get the CDEF handle move.l (a0),a0 ; get the ptr to CDEF cmp.l #'CDEF',4(a0) ; just for yucks make sure this is a CDEF bne.s @paintnormal ; paint normal if our handle is bad @@ -4040,6 +4169,11 @@ InvalRgn Proc Export Export GoExit1 Import PortToBitMap Import NegWords + Import __MarkDirty + + MOVE.L GrafGlobals(A5),A0 ;get LisaGraf globals base + MOVE.L THEPORT(A0),-(SP) ;get current window + BSR __MarkDirty MOVEQ #0,D0 ;signal invalidate diff --git a/Toolbox/WindowMgr/WindowMgrExtensions.a b/Toolbox/WindowMgr/WindowMgrExtensions.a --- a/Toolbox/WindowMgr/WindowMgrExtensions.a +++ b/Toolbox/WindowMgr/WindowMgrExtensions.a @@ -389,18 +389,18 @@ InitFasterInvals InstallProc MOVE.L ExpandMem,A1 ; get expanded memory area WITH ExpandMemRec -; allocate emRectRgn - - MOVE.L #4,D0 ; D0 = size of globals for emRectRgn RLM - _NewPtr SYS,CLEAR ; allocate them in system heap - MOVE.L A0,emRectRgn(A1) ; stuff pointer in our global - MOVE.L A0,A1 ; A1-> ptr to globals - ;store away the region handle + move.l TheZone,-(SP) + move.l SysZone,TheZone + subq #4,sp ;make room for region handle _NewRgn - move.l (sp)+,(a1) ;store away the region handle + move.l ExpandMem,a0 + move.l (sp)+,emRectRgn(a0) + + move.l (sp)+,TheZone + rts EndProc @@ -411,19 +411,20 @@ InitFasterInvals InstallProc FasterInvals Proc Export FasterInvalRect,FasterValidRect + Import __MarkDirty FasterValidRect moveq #-1,d0 ;flag it as a valid bra.s IRectCommon FasterInvalRect + MOVE.L GrafGlobals(A5),A0 ;get LisaGraf globals base + MOVE.L THEPORT(A0),-(SP) ;get current window + BSR __MarkDirty moveq #0,d0 ;flag that it’s an inval IRectCommon move.l 4(sp),a0 ;get pointer to rectangle - move.l a4,-(sp) ;save a4 - MOVE.L ExpandMem,A4 ; A4 -> Expanded Low Memory - MOVE.L ExpandMemRec.emRectRgn(A4),A4 ; A4-> ptr to globals - move.l (a4),a1 ;get handle to region - move.l (sp)+,a4 ;restore a4 + MOVE.L ExpandMem,A1 ; A1 -> Expanded Low Memory + MOVE.L ExpandMemRec.emRectRgn(A1),A1 ; A1-> ptr to globals move.l a1,-(sp) ;pass it on the stack to IvalCommon move.l (a1),a1 add #rgnBBox,a1 ;advance to the bounding box -- 2.18.0