Macintosh-SW/mac-rom
1
0
Fork 0
mirror of https://github.com/elliotnunn/mac-rom.git synced 2024-12-22 08:30:05 +00:00
Code Issues Projects Releases Wiki Activity
4325cdcc78
mac-rom/ProcessMgr/OSDispatch.a
Elliot Nunn 4325cdcc78 Bring in CubeE sources 
Resource forks are included only for .rsrc files. These are DeRezzed into their data fork. 'ckid' resources, from the Projector VCS, are not included.

The Tools directory, containing mostly junk, is also excluded.
2017-12-26 09:52:23 +08:00

209 lines
8.2 KiB
Plaintext
Raw Blame History

;
; File: OSDispatch.a
;
; Contains: Assembler code which receives control when OSDispatch is called.
; Kernel data addressing is established, and the requested routine is
; called. The kernel routine returns here, and we restore user data
; addressing and return to him.
;
; Written by: Erich Ringewald
;
; Copyright: © 1986-1991 by Apple Computer, Inc., all rights reserved.
;
; Change History (most recent first):
;
; <2> 12/14/90 DFH BeginKernelStack switches to user mode if that was mode we
; started up in.
; <0> x/xx/86 ELR New Today.
;
;--------------------------------------------------------------------
LOAD 'ProcessMgrIncludes.D'
INCLUDE 'data.a'
CASE OBJECT
;-------------------------------------------------------------------------------
; BeginKernelStack. Utility routine to switch the stack pointer to the Process Mgr
; stack. This is most useful when creating or destroying applications. EndKernelStack
; is the antidote.
; NOTE: QuickDraw assumes abutment of the stack and heap. Older QDs look at HeapEnd,
; newer ones look at HiHeapMark, so we manage both.
; WARNING: This routine changes HiHeapMark and HeapEnd. Beware of traps! Some will
; work *because* we change themÉ others may break because we change them.
; NOTE: Assumes A5 == ProcessMgrGlobals
;
; Eats: d0, a0-a1
; Returns: a0 = original stack frame pointer
;
BeginKernelStack PROC EXPORT
IMPORT (kernelMode, kernelbusy, kernelstack, kernelstackbase):DATA
addq.w #1,kernelbusy ; mark us in
move.l StkLowPt,d0 ; temporary holder
clr.l StkLowPt ; disable stack sniffing
movea.l (sp)+,a1 ; get return address
move.l sp,a0 ; get frame pointer
tst.l kernelstack ; do we want use a new stack?
beq.s @usestack ; if not, branch
; Switch to user mode, if that was what we were in when we started, to keep us
; from setting the supervisor stack pointer up into our stack area. Only an issue
; under VM (currently), since VM is the only way there is a user/supervisor
; dichotomy.
; NOTE: EndKernelStack does not restore supervisor mode. The general solution is
; quite thorny. However, since the only time we'll be switching to user mode here is
; on an ExitToShell made in supervisor mode, we're never going to call EndKernelStack
; anyway. This means that an ExitToShell in supervisor mode orphans the current depth
; of the supervisor stack. This could be remedied (e.g. set ISP back to its stackbase?).
tst.w kernelMode ; were we started in supervisor mode?
bne.s @modeOK ; if so, we can keep current mode
andi.w #$DFFF,sr ; otherwise, switch to user mode
@modeOK
move.l kernelstack,sp ; switch to kernel stack
; save stack and heap info on kernel stack
@usestack
move.l a0,-(sp) ; save frame pointer
move.l HiHeapMark,-(sp) ; save HiHeapMark
move.l d0,-(sp) ; save StkLowPt
; Set heap info that we can deal with. StackSpace, InitZone, et al memory mgr routines
; are wont to compare the stack pointer to HiHeapMark or HeapEnd, which would give very
; inappropriate answers given our new value of SP. We hack their values to prevent
; confusion. Cross your fingers!
move.l kernelstackbase,HeapEnd ; should be called STACKLIMIT
move.l kernelstackbase,HiHeapMark ; higher than any APPLZONE
jmp (a1) ; return to caller (a0 == frame)
ENDPROC ; BeginKernelStack
;-------------------------------------------------------------------------------
; EndKernelStack. Switch back to stack saved by BeginKernelStack.
; NOTE: Assumes A5 == ProcessMgrGlobals
;
; Eats: a0, d0
; Returns: a7 = original stack pointer
;
EndKernelStack PROC EXPORT
IMPORT (kernelbusy, kernelstack, kernelstackbase):DATA
move.l ApplZone,a0 ; get application zone so we canÉ
move.l bkLim(a0),HeapEnd ; restore HeapEnd
movea.l (sp)+,a0 ; get return address
move.l (sp)+,d0 ; get StkLowPt
move.l (sp)+,HiHeapMark ; restore HiHeapMark
move.l (sp)+,sp ; restore user's stack
move.l d0,StkLowPt ; restore stack sniffing
subq.w #1,kernelbusy ; count me out!
jmp (a0) ; return to caller
ENDPROC ; EndKernelStack
;-------------------------------------------------------------------------------
; a_osdispatch. Wherein we implement the _OSDispatch trap. Mostly just locate the
; correct routine for the particular selector. In the case of _KernelLaunch, switch to the
; kernel stack to avoid problems with the stack sniffer and QuickDraw.
a_osdispatch PROC EXPORT
IMPORT kernelbusy:DATA
IMPORT OSDispatchTable:DATA
Selector EQU 4 ; bytes from caller's stack top to selector
ParamStart EQU 6 ; bytes from caller's stack top to params
SaveRegs REG d1/a2-a3 ; registers we save
WITH OSDispatchEntry
move.l a5,d1 ; save old a5
move.l ProcessMgrGlobals,a5 ; establish data seg
; only this one selector needs "kernel addressing"
cmpi.w #KERNELLAUNCHID,4(sp) ; look at selector word.
bne.s @UseCallersSpace ; mostly never switch stacks (except launch)
tst.w kernelbusy ; are we here already?
bne.s @UseCallersSpace ; don't switch
; switch to the kernel stack
bsr.s BeginKernelStack ; switch to Process Mgr's stack area
movem.l SaveRegs,-(sp) ; save some registers
movea.l a0,a3 ; copy frame ptr to usable register
; allocate output parameter storage on kernel stack
move.w Selector(a3),d0 ; get selector
mulu.w #SizeOfElem,d0 ; calc offset of entry in table
lea OSDispatchTable,a1 ; table address
lea (a1,d0.w),a2 ; OSDispatchEntry address
move.w dispatchRetSize(a2),d0 ; get return value byte size
lsr #1,d0 ; get word size
bra.s @endMakeSpaceLoop ; jump into loop at its end
@makeSpaceLoop
clr.w -(sp) ; allocate and clear another word
@endMakeSpaceLoop
dbra d0,@makeSpaceLoop ; loop for next, or fall through
; copy input parameters from caller's stack to kernel stack
move.w dispatchDepth(a2),d0 ; get stack depth
lea ParamStart(a3,d0.w),a1 ; here is top of parameters
lsr.w #1,d0 ; turn size into words
bra.s @copyInLoopEnd ; and dbra
@copyInLoop
move.w -(a1),-(sp) ; copy another word
@copyInLoopEnd
dbra d0,@copyInLoop ; do 'em all
; fetch the dispatch address, and call it with a JSR
move.l dispatchAddr(a2),d0 ; fetch routine address
beq.s @fncdone ; if none, branch (should check for out of bounds descr)
move.l d0,a0 ; put in addr reg
jsr (a0) ; call the routine
; Kernel routine has completed. Copy output parameters back to caller's stack.
@fncdone
move.w dispatchDepth(a2),d0 ; get stack depth of caller
lea ParamStart(a3,d0.w),a0 ; address of output storage
move.w dispatchRetSize(a2),d0 ; size of output storage
lsr #1,d0 ; (convert to word count)
bra.s @endCopyOutLoop ; jump into loop end
@copyOutLoop
move.w (sp)+,(a0)+ ; copy another return value
@endCopyOutLoop
dbra d0,@copyOutLoop ; loop for next, or fall through
; switch back to the caller's stack
move.l a2,a1 ; use a1 for OSDispatchEntry later
movem.l (sp)+,SaveRegs ; restore registers
bsr EndKernelStack ; switch back to caller's stack area
movea.l d1,a5 ; restore caller's a5
; clean up and return to the caller
move.l (sp)+,a0 ; fetch return address
moveq.l #2,d0 ; calculate sizeof(selector) É
add.w dispatchDepth(a1),d0 ; ÉÊplus stack depth
add.w d0,sp ; skip parameters
jmp (a0) ; return to caller
; No need to switch stacks, just extract the selector and RTS to the handler
@UseCallersSpace
move.l (sp)+,a0 ; get return address
move.w (sp)+,d0 ; routine selector
move.l a0,-(sp) ; replace return address
lea OSDispatchTable,a0 ; point at array top
mulu.w #SizeOfElem,d0 ; multiply array index
move.l dispatchAddr(a0,d0.w),-(sp) ; put routine address on stack
move.l d1,a5 ; restore old a5
rts ; jmp over to routine
ENDWITH ; OSDispatchEntry template
ENDPROC ; a_osdispatch
END
Reference in New Issue View Git Blame Copy Permalink