supermario/base/SuperMarioProj.1994-02-09/OS/SCSIMgr4pt3/XPToldCall.c
2019-06-29 23:17:50 +08:00

660 lines
17 KiB
C

/*
File: XPT.c
Contains: routines that implement the CAM Transport layer
Old API Emulation Calls
OSErr SCSIReset (void)
short SCSIStat (void)
OSErr SCSIGet (void)
OSErr SCSISelect (short targetID)
OSErr SCSISelAtn (short targetID)
OSErr SCSICmd (Ptr buffer, short count)
OSErr SCSIRead (Ptr tibPtr)
OSErr SCSIRBlind (Ptr tibPtr)
OSErr SCSIWrite (Ptr tibPtr)
OSErr SCSIWBlind (Ptr tibPtr)
OSErr SCSIMsgIn (short *message)
OSErr SCSIMsgOut (short message)
OSErr SCSIComplete (short *stat, short *message, unsigned long wait)
Written by: Paul Wolf
Copyright: © 1992-1994 by Apple Computer, Inc., all rights reserved.
Change History (most recent first):
<ML2> 1/5/94 pdw Changed over to new SCSIGlobals format.
<SM19> 11/22/93 pdw Rolling in from <MCxx>.
<MC6> 11/8/93 pdw Fixed a bug that, when SCSIGet was done during sync-unsafe time,
we would set old-API busy and not clear it.
<MC5> 11/5/93 pdw Series of attempts and re-attempts to fix various VM/FileShare
problems.
<SM18> 10/14/93 pdw <MC> roll-in.
<MC4> 10/12/93 pdw Fixed yet another bug - added return(noErr).
<MC3> 10/12/93 pdw Added support for Synchronous data transfers, rewrote State
Machine, message handling etc.
<MC2> 9/26/93 pdw Style and comment changes.
<SM17> 9/9/93 pdw Lots of little changes. Name changes, temporary cache_bug
stuff.
<SM16> 7/17/93 pdw Changed phz to phase.
<SM15> 6/29/93 pdw Massive checkins: Change asynchronicity mechanism to CallMachine
stack switching mechanism. Adding support for Cold Fusion.
Rearranging HW/SW Init code. Some code optimizations. Resolving
with my Ludwig sources.
<SM14> 5/29/93 PW Adding SCSIDebug.h to includes.
<SM13> 5/25/93 DCB (PW) Fixing up DebugStrs and trying to do something in those
cases.
<SM12> 5/5/93 PW Converted names to meanies-friendly names. Updated with latest
from Ludwig stuff.
<LW11> 5/1/93 PW Getting rid of support for Ludwig A10's VirtualIDInfo structure
(it was only meant to be in there for one build).
<LW9> 3/26/93 PW Removing aack_XPT in favor of DebugStrs.
<LW8> 3/1/93 DCB Fixed SCSIReset and changed SCSIComplete to use new timeout
mechanism.
<LW7> 3/1/93 PW Worked around compiler "bug" in checking of scsiOldCallResult after
issuing SCSI command - pulled assignment out of IF statement.
<LW6> 2/18/93 DCB Setting SIMNOQFREEZE to prevent hangs with SCSI Reset.
<LW5> 2/17/93 PW TIB is now put in scsiDataPtr instead of scsiHandshake. Changed
ittLess ROM w/1 bus case to start with no bus assigned to each
virtual ID.
<LW4> 1/27/93 PW Added temporary hack to keep people's A10 drivers working.
<LW3> 1/27/93 PW Changed bogus to syncUnsafeCount.
<LW2> 12/18/92 PW Added general SyncRequestsEnabled counter support to fix
SCSIGets at VBL time bug.
<SM8> 12/9/92 PW Fixed HD Setup timeout on format bug by returning proper
SCSIStat after an incomplete SCSICmd completes.
<SM7> 12/5/92 PW Added support for early return from SCSICmd. Removed phase check
for data calls.
<SM6> 11/20/92 PW Removed GetBusInfo func. Removed SIMQHead flag and added
NoParityCk flag to old API calls. Added SCSIMsgIn, Out. Clear
diReserved and LUN fields in GetVirtualIDInfo.
<SM5> 10/30/92 DCB Changes to reflect new ACAM.h
<SM4> 10/14/92 PW Added check for valid SCSI ID on SCSISelect calls.
<SM3> 10/8/92 PW Moved GetVirtualID stuff into here (from XPT.c). Lots of
trivial name changes.
<SM2> 7/28/92 PW Resolved differences between pdw and dcb sources.
<SM0> 7/27/92 PW Initial Check-in.
*/
#include <Types.h>
#include <Memory.h>
#include <Errors.h>
#include <OSUtils.h>
#include <SCSIStandard.h>
#include <SCSI.h>
#include "ACAM.h"
#include "SCSIDebug.h"
#include "CUtils.h"
#include "Recorder.h"
#include "XPT.h"
#include "XPTpriv.h"
extern short BlockInterrupts(void);
extern void UnblockInterrupts( short oldSR);
/********* External Function Prototypes **********/
Boolean TestFor_SCSI96_2Exists( void);
/********* Function Prototypes **********/
short EnumPhaseToSCSIStat( SCSIphase inputPhase);
long CallSIMNewOldCall(SCSI_IO *pbPtr, XPTglobals *XPTg);
void OldCallWait(SCSI_IO *pbPtr, XPTglobals *XPTg);
/*********************************************************************************
XlateOldSCSIGlobals - Get what data we need from the old SCSI Manager globals
*********************************************************************************/
void
XlateOldSCSIGlobals( XPTglobals *XPTg)
{
uchar devMap0, devMap1;
short id;
if (TestFor_SCSI96_2Exists())
{
devMap0 = SCSIGlobals->G_SCSIDevMap0;
devMap1 = SCSIGlobals->G_SCSIDevMap1;
for (id = 7; id>=0; --id) {
if ( btst(id, &devMap0) )
XPTg-> oldIDBusNumber[id] = 0; // on bus 0
else if ( btst(id, &devMap1) )
XPTg-> oldIDBusNumber[id] = 1; // on bus 1
else
XPTg-> oldIDBusNumber[id] = -1; // not seen on either bus yet
}
}
else
{
// potential problem if oldCallCap NuBus card shows up and the already seen drives on
// motherboard bus (0) don't select and we have a device at that ID on the NuBus card
for (id = 7; id>=0; --id) {
XPTg-> oldIDBusNumber[id] = -1; // not seen on any bus yet
}
}
}
/*********************************************************************************
NewXPTioPB - allocate and initialize SCSI_IO used for old API handling
*********************************************************************************/
OSErr
NewXPTioPB( ulong pbSize, XPTglobals *XPTg)
{
SCSI_IO * ioPtr;
ioPtr = (SCSI_IO *) NewPtrSysClear( pbSize);
if (ioPtr == 0)
return (memFullErr);
XPTg->xptIOptr = ioPtr;
XPTg->xptIOpbSize = pbSize;
// we're always SCSIOldCall
// we don't understand freezing
// old API don't do parity
// we're always TIBs
ioPtr->scsiFunctionCode = SCSIOldCall;
ioPtr->scsiPBLength = pbSize;
ioPtr->scsiFlags = scsiSIMQNoFreeze | scsiCDBIsPointer;
ioPtr->scsiIOFlags = scsiNoParityCheck;
ioPtr->scsiDataType = scsiDataTIB;
return (noErr);
}
/*********************************************************************************
OldSCSICall - This is our new entry point for our old SCSI calls
*********************************************************************************/
short
OldSCSICall( short selector, long parm1, long parm2, long parm3)
{
XPTglobals *XPTg;
short busID;
short result;
Boolean wasInOldCall, wasBusy, busFound;
SCSI_IO * ioPtr;
SCSIResetBusPB rstPB; // <LW8>
result = noErr; // assume no error
XPTg = GetXPTg();
ioPtr = XPTg->xptIOptr;
//==== if SCSIReset, ====
if( selector == kSCSIReset ) {
XPTg->oldAPIstate = kNotConnected;
for( busID = 0 ; busID < XPTg->numBuses ; busID+=1 ) {
if( XPTg->BusInfoPtr[busID] == nil )
continue; /* Not a valid bus */
if( XPTg->BusInfoPtr[busID]->initInfo.oldCallCapable) {
Clear( &rstPB, sizeof(rstPB));
rstPB.scsiFunctionCode = SCSIResetBus;
rstPB.scsiPBLength = sizeof(rstPB);
rstPB.scsiFlags = (scsiSIMQNoFreeze); // Old API doesn't understand freezing
rstPB.scsiDevice.bus = busID;
CallSIMaction( &rstPB, XPTg);
}
}
return(0);
}
//==== if SCSIStat, ====
if (selector == kSCSIStat)
{
switch (XPTg->oldAPIstate)
{
case kNotConnected:
if ( btst(kbOldAPIBusy, &XPTg->flags) || XPTg->syncUnsafeCount) {
return ( kmStatBSY); // = bus is busy
}
else
return ( 0); // = bus free phase
case kGotGet:
return ( kmStatBSY+kmStatSEL); // = arbitrate successful phase
case kSelectInProgress:
return ( kmStatSEL); // = select in progress
case kSCSICmdInProgress:
if ( ioPtr->scsiOldCallResult == scsiRequestInProgress)
return ( EnumPhaseToSCSIStat( kCommandPhase - kmStatREQ));
//else (i.e. if SCSICmd completed) fall thru to kConnected case
XPTg->oldAPIstate = kConnected;
XPTg->latestOldCallPhase = ioPtr->scsiCurrentPhase;
case kConnected:
return ( EnumPhaseToSCSIStat( XPTg->latestOldCallPhase));
}
}
//---- Check if we are currently working on an old call
wasInOldCall = bset(kbInOldCall, &XPTg->flags);
if (wasInOldCall)
return( scSequenceErr);
//==== if SCSIGet, we shouldn't be busy ====
if (selector == kSCSIGet)
{
wasBusy = bset(kbOldAPIBusy, &XPTg->flags);
if (wasBusy || XPTg->syncUnsafeCount) {
result = scMgrBusyErr;
if (wasBusy) {
IfRecordError( (long)'busy');
}
else {
bclr(kbOldAPIBusy, &XPTg->flags); // we're no longer busy
IfRecordError( (long)'unsf');
}
}
else
{
XPTg->oldAPIstate = kGotGet;
XPTg->latestOldCallPhase = 0;
ioPtr->scsiOldCallResult = 0;
result = noErr;
}
bclr(kbInOldCall, &XPTg->flags);
return (result);
}
//==== if SCSISelect, we need to do an Arbitrate/Select on the appropriate bus ====
if (selector == kSCSISelect || selector == kSCSISelAtn)
{
bset(kbOldAPIBusy, &XPTg->flags); // for SCSIEvaluator (no SCSIGet-ugh)
XPTg->oldAPIstate = kSelectInProgress;
//---- Is the SCSI ID valid? <SM4> pdw
if ( parm1<0 || parm1>6)
{
result = scBadParmsErr;
bclr(kbInOldCall, &XPTg->flags);
bclr(kbOldAPIBusy, &XPTg->flags); // we're no longer busy
XPTg->oldAPIstate = kNotConnected; // nor are we connected
return (result);
}
//---- Do we know which Bus to use?
if ( (busID = XPTg->oldIDBusNumber[parm1]) < 0)
{
//---- If not, we must do a select on each bus and create a mapping if possible
busFound = false; // assume not found
//---- For each bus, attempt a select, if request_completed then we found the bus
for (busID = 0; busID<XPTg->numBuses && !busFound; busID+=1)
{
//---- only check buses that are oldCallCapable
if ( XPTg->BusInfoPtr[busID]->initInfo.oldCallCapable)
{
RetrySelect1:
ioPtr->scsiDevice.bus = busID;
ioPtr->scsiDevice.targetID = parm1;
//---- CALL SIM ACTION ----
ioPtr->scsiSelector = selector; // may be Select w/Atn
CallSIMaction( ioPtr, XPTg);
OldCallWait( ioPtr, XPTg);
if (ioPtr->scsiOldCallResult == noErr)
{
busFound = true;
break;
}
else if (ioPtr->scsiOldCallResult == scsiSelectTimeout)
;
else {
IfDebugStr("\poldCallResult!=scsiSelTimeout or noErr");
goto RetrySelect1;
}
}
}
//---- if we did find the bus, remember the mapping for all time (until reboot)
if (busFound)
{
XPTg->oldIDBusNumber[parm1] = busID;
result = noErr;
}
//---- if we didn't find the bus, return error
else
{
result = scCommErr;
}
}
//---- if we already had a mapping, just do a select on that bus
else
{
RetrySelect2:
ioPtr->scsiDevice.bus = busID;
ioPtr->scsiDevice.targetID = parm1;
//---- CALL SIM ACTION ----
ioPtr->scsiSelector = selector;
CallSIMaction( ioPtr, XPTg);
OldCallWait( ioPtr, XPTg);
if (ioPtr->scsiOldCallResult == noErr)
;
else if (ioPtr->scsiOldCallResult == scsiSelectTimeout)
{
result = scCommErr;
}
//else if (ioPtr->scsiOldCallResult == privErrSelected)
//{
// goto RetrySelect2;
//}
else {
IfDebugStr( "\poldCallResult !=scsiSelTimeout,16 or noErr");
goto RetrySelect2;
}
}
//=== Check results:
if (result == noErr)
{
XPTg->latestOldCallPhase = ioPtr->scsiCurrentPhase;
XPTg->oldAPIstate = kConnected;
}
//---- if we got error, NotConnected so clear busy flag
else
{
XPTg->oldAPIstate = kNotConnected;
}
if (ioPtr->scsiResult != scsiRequestInProgress) // if io is done
bclr(kbOldAPIBusy, &XPTg->flags); // we're no longer busy
bclr(kbInOldCall, &XPTg->flags);
return (result);
}
//==== All other calls (besides Get, Select and Stat) ====
//---- if not busy, return an error
if ( !btst( kbOldAPIBusy, &XPTg->flags))
{
bclr(kbInOldCall, &XPTg->flags);
return (scSequenceErr);
}
//---- wait until the previous call completes
OldCallWait( ioPtr, XPTg);
XPTg->latestOldCallPhase = ioPtr->scsiCurrentPhase;
XPTg->oldAPIstate = kConnected;
//---- dispatch to appropriate routine handler
switch (selector)
{
//———— SCSICmd ( buffer, count) ————
case kSCSICmd:
if (XPTg->latestOldCallPhase != kCommandPhase) {
result = scPhaseErr;
break;
}
ioPtr->scsiCDB.cdbPtr = (uchar *)parm1;
ioPtr->scsiCDBLength = parm2;
//---- CALL SIM ACTION ----
ioPtr->scsiSelector = selector;
CallSIMNewOldCall( ioPtr, XPTg);
result = ioPtr->scsiOldCallResult; // <LW7> pdw
if (result != scsiRequestInProgress) {
XPTg->latestOldCallPhase = ioPtr->scsiCurrentPhase;
}
else {
XPTg->oldAPIstate = kSCSICmdInProgress;
result = noErr;
}
break;
//———— SCSIDataIn ( tibPtr) ————
case kSCSIRead:
ioPtr->scsiTransferType = scsiTransferPolled;
goto commonReadCalls;
case kSCSIRBlind:
ioPtr->scsiTransferType = scsiTransferBlind;
commonReadCalls:
ioPtr->scsiFlags &= ~scsiDirectionMask;
ioPtr->scsiFlags |= scsiDirectionIn;
goto commonDataCalls;
//———— SCSIDataOut ( tibPtr) ————
case kSCSIWrite:
ioPtr->scsiTransferType = scsiTransferPolled;
goto commonWriteCalls;
case kSCSIWBlind:
ioPtr->scsiTransferType = scsiTransferBlind;
commonWriteCalls:
ioPtr->scsiFlags &= ~scsiDirectionMask;
ioPtr->scsiFlags |= scsiDirectionOut;
commonDataCalls:
ioPtr->scsiDataPtr = (uchar *)parm1; // put TIB into scData
ioPtr->scsiDataLength = 0;
bset( kbTIB, &ioPtr->XPTprivateFlags);
//==== Common SIM calling code ====
commonCallSIM:
//---- CALL SIM ACTION ----
ioPtr->scsiSelector = selector;
CallSIMNewOldCall( ioPtr, XPTg);
OldCallWait( ioPtr, XPTg);
result = ioPtr->scsiOldCallResult;
XPTg->latestOldCallPhase = ioPtr->scsiCurrentPhase;
break;
//———— SCSIMsgIn ( msgPtr) ———— //<SM6> pdw
case kSCSIMsgIn:
ioPtr->scsiSCSImessage = 0;
//---- CALL SIM ACTION ----
ioPtr->scsiSelector = selector;
CallSIMNewOldCall( ioPtr, XPTg);
OldCallWait( ioPtr, XPTg);
result = ioPtr->scsiOldCallResult;
XPTg->latestOldCallPhase = ioPtr->scsiCurrentPhase;
*(short *)parm1 = ioPtr->scsiSCSImessage;
break;
//———— SCSIMsgOut ( msg) ———— //<SM6> pdw
case kSCSIMsgOut:
ioPtr->scsiSCSImessage = parm1;
goto commonCallSIM;
//———— SCSIComplete ( statPtr, msgPtr, wait) ————
case kSCSIComplete:
/* Convert parm3 to seconds */
ioPtr->scsiTimeout = parm3 * 60;
//---- CALL SIM ACTION ----
ioPtr->scsiSelector = selector;
CallSIMNewOldCall( ioPtr, XPTg);
OldCallWait( ioPtr, XPTg);
XPTg->latestOldCallPhase = ioPtr->scsiCurrentPhase;
*(short *)parm1 = ioPtr->scsiSCSIstatus;
*(short *)parm2 = ioPtr->scsiSCSImessage;
XPTg->oldAPIstate = kNotConnected; // we should check for bus free b4 doing this
break;
}
if (ioPtr->scsiResult != scsiRequestInProgress) // if io is done
bclr(kbOldAPIBusy, &XPTg->flags); // we're no longer busy
bclr(kbInOldCall, &XPTg->flags);
return (result);
}
/*********************************************************************************
EnumPhaseToSCSIStat - translate enum SCSIphase to SCSIStat type result
*********************************************************************************/
short
EnumPhaseToSCSIStat( SCSIphase inputPhase)
{
if (inputPhase < kBusFreePhase)
return( kmStatBSY + kmStatREQ + (inputPhase<<2));
switch (inputPhase)
{
case kBusFreePhase:
return (0);
case kArbitratePhase:
return (kmStatBSY);
case kSelectPhase:
return (kmStatSEL);
case kMessageInPhaseNACK:
return ( EnumPhaseToSCSIStat(kMessageInPhase) - kmStatREQ + kmStatACK);
}
}
/*********************************************************************************
CallSIMNewOldCall - perform an Action (either XPT or pass it to SIM)
*********************************************************************************/
long
CallSIMNewOldCall(SCSI_IO *ioPtr, XPTglobals *XPTg)
{
BusInfo *busInfoPtr;
busInfoPtr = XPTg->BusInfoPtr[ioPtr->scsiDevice.bus];
(busInfoPtr->initInfo.NewOldCall) (ioPtr, (busInfoPtr->initInfo).SIMstaticPtr);
return ( 0);
}
/*********************************************************************************
OldCallWait - wait for an old call request to be completed
*********************************************************************************/
void
OldCallWait(SCSI_IO *ioPtr, XPTglobals *XPTg)
{
do {
CheckInterrupts( XPTg);
} while (ioPtr->scsiOldCallResult == scsiRequestInProgress);
}
/*********************************************************************************
GetVirtualIDInfo - handle this request
*********************************************************************************/
void
GetVirtualIDInfo(SCSIGetVirtualIDInfoPB *pbPtr, XPTglobals *XPTg)
{
uchar oldID;
short busNum;
oldID = pbPtr->scsiOldCallID;
if( oldID > 6 || oldID < 0 ) { // Old IDs are ONLY 0-6!
pbPtr->scsiResult = scsiTIDInvalid;
return;
}
busNum = XPTg-> oldIDBusNumber[ oldID];
if (busNum != -1)
{
pbPtr->scsiExists = true;
pbPtr->scsiDevice.diReserved = 0;
pbPtr->scsiDevice.bus = busNum;
pbPtr->scsiDevice.targetID = oldID;
pbPtr->scsiDevice.LUN = 0; //<SM6> pdw
}
else
{
pbPtr->scsiExists = false;
*(long *)&(pbPtr->scsiDevice) = -1;
}
}