minivmac4ios/Mini vMac/mnvm_core/SONYEMDV.c
2016-05-01 19:05:36 +02:00

1 line
34 KiB
C
Executable File

/*
SONYEMDV.c
Copyright (C) 2009 Philip Cummins, Jesus A. Alvarez, Paul C. Pratt
You can redistribute this file and/or modify it under the terms
of version 2 of the GNU General Public License as published by
the Free Software Foundation. You should have received a copy
of the license along with this file; see the file COPYING.
This file is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
license for more details.
*/
/*
SONY floppy disk EMulated DeVice
The Sony hardware is not actually emulated. Instead the
ROM is patched to replace the Sony disk driver with
code that calls Mini vMac extensions implemented in
the file.
Information neeeded to better support the Disk Copy 4.2
format was found in libdc42.c of the Lisa Emulator Project
by Ray A. Arachelian, and adapted to Mini vMac
by Jesus A. Alvarez.
*/
#ifndef AllFiles
#include "SYSDEPNS.h"
#include "MYOSGLUE.h"
#include "ENDIANAC.h"
#include "EMCONFIG.h"
#include "GLOBGLUE.h"
#include "MINEM68K.h"
#endif
#include "SONYEMDV.h"
LOCALVAR ui5b vSonyMountedMask = 0;
#define vSonyIsLocked(Drive_No) \
((vSonyWritableMask & ((ui5b)1 << (Drive_No))) == 0)
#define vSonyIsMounted(Drive_No) \
((vSonyMountedMask & ((ui5b)1 << (Drive_No))) != 0)
LOCALFUNC blnr vSonyNextPendingInsert0(tDrive *Drive_No)
{
/* find next drive to Mount */
ui5b MountPending = vSonyInsertedMask & (~ vSonyMountedMask);
if (MountPending != 0) {
tDrive i;
for (i = 0; i < NumDrives; ++i) {
if ((MountPending & ((ui5b)1 << i)) != 0) {
*Drive_No = i;
return trueblnr; /* only one disk at a time */
}
}
}
return falseblnr;
}
LOCALFUNC tMacErr CheckReadableDrive(tDrive Drive_No)
{
tMacErr result;
if (Drive_No >= NumDrives) {
result = mnvm_nsDrvErr;
} else if (! vSonyIsMounted(Drive_No)) {
result = mnvm_offLinErr;
} else {
result = mnvm_noErr;
}
return result;
}
LOCALFUNC tMacErr vSonyTransferVM(blnr IsWrite,
CPTR Buffera, tDrive Drive_No,
ui5r Sony_Start, ui5r Sony_Count, ui5r *Sony_ActCount)
{
/*
Transfer data between emulated disk and emulated memory. Taking
into account that the emulated memory may not be contiguous in
real memory. (Though it generally is for macintosh emulation.)
*/
tMacErr result;
ui5b contig;
ui5r actual;
ui3p Buffer;
ui5r offset = Sony_Start;
ui5r n = Sony_Count;
label_1:
if (0 == n) {
result = mnvm_noErr;
} else {
Buffer = get_real_address0(n, ! IsWrite, Buffera, &contig);
if (0 == contig) {
result = mnvm_miscErr;
} else {
result = vSonyTransfer(IsWrite, Buffer, Drive_No,
offset, contig, &actual);
offset += actual;
Buffera += actual;
n -= actual;
if (mnvm_noErr == result) {
goto label_1;
}
}
}
if (nullpr != Sony_ActCount) {
*Sony_ActCount = Sony_Count - n;
}
return result;
}
LOCALPROC MyMoveBytesVM(CPTR srcPtr, CPTR dstPtr, si5b byteCount)
{
ui3p src;
ui3p dst;
ui5b contigSrc;
ui5b contigDst;
ui5r contig;
label_1:
if (0 != byteCount) {
src = get_real_address0(byteCount, falseblnr, srcPtr,
&contigSrc);
dst = get_real_address0(byteCount, trueblnr, dstPtr,
&contigDst);
if ((0 == contigSrc) || (0 == contigDst)) {
ReportAbnormal("MyMoveBytesVM fails");
} else {
contig = (contigSrc < contigDst) ? contigSrc : contigDst;
MyMoveBytes(src, dst, contig);
srcPtr += contig;
dstPtr += contig;
byteCount -= contig;
goto label_1;
}
}
}
LOCALVAR ui5r ImageDataOffset[NumDrives];
/* size of any header in disk image file */
LOCALVAR ui5r ImageDataSize[NumDrives];
/* size of disk image file contents */
#if Sony_SupportTags
LOCALVAR ui5r ImageTagOffset[NumDrives];
/* offset to disk image file tags */
#endif
#if Sony_SupportDC42
#define kDC42offset_diskName 0
#define kDC42offset_dataSize 64
#define kDC42offset_tagSize 68
#define kDC42offset_dataChecksum 72
#define kDC42offset_tagChecksum 76
#define kDC42offset_diskFormat 80
#define kDC42offset_formatByte 81
#define kDC42offset_private 82
#define kDC42offset_userData 84
#endif
#define ChecksumBlockSize 1024
#if Sony_SupportDC42 && Sony_WantChecksumsUpdated
LOCALFUNC tMacErr DC42BlockChecksum(tDrive Drive_No,
ui5r Sony_Start, ui5r Sony_Count, ui5r *r)
{
tMacErr result;
ui5r n;
ui3b Buffer[ChecksumBlockSize];
ui3b *p;
ui5b sum = 0;
ui5r offset = Sony_Start;
ui5r remaining = Sony_Count;
while (0 != remaining) {
/* read a block */
if (remaining > ChecksumBlockSize) {
n = ChecksumBlockSize;
} else {
n = remaining;
}
result = vSonyTransfer(falseblnr, Buffer, Drive_No, offset,
n, nullpr);
if (mnvm_noErr != result) {
return result;
}
offset += n;
remaining -= n;
/* add to Checksum */
p = Buffer;
n >>= 1; /* n = number of words */
while (0 != n) {
--n;
/* ROR.l sum+word */
sum += do_get_mem_word(p);
p += 2;
sum = (sum >> 1) | ((sum & 1) << 31);
}
}
*r = sum;
return mnvm_noErr;
}
#endif
#if Sony_SupportDC42 && Sony_WantChecksumsUpdated
#if Sony_SupportTags
#define SizeCheckSumsToUpdate 8
#else
#define SizeCheckSumsToUpdate 4
#endif
#endif
#if Sony_WantChecksumsUpdated
LOCALPROC Drive_UpdateChecksums(tDrive Drive_No)
{
if (! vSonyIsLocked(Drive_No)) {
ui5r DataOffset = ImageDataOffset[Drive_No];
#if Sony_SupportDC42
if (kDC42offset_userData == DataOffset) {
/* a disk copy 4.2 image */
tMacErr result;
ui5r dataChecksum;
ui3b Buffer[SizeCheckSumsToUpdate];
ui5r Sony_Count = SizeCheckSumsToUpdate;
ui5r DataSize = ImageDataSize[Drive_No];
/* Checksum image data */
result = DC42BlockChecksum(Drive_No,
DataOffset, DataSize, &dataChecksum);
if (mnvm_noErr != result) {
ReportAbnormal("Failed to find dataChecksum");
dataChecksum = 0;
}
do_put_mem_long(Buffer, dataChecksum);
#if Sony_SupportTags
{
ui5r tagChecksum;
ui5r TagOffset = ImageTagOffset[Drive_No];
ui5r TagSize =
(0 == TagOffset) ? 0 : ((DataSize >> 9) * 12);
if (TagSize < 12) {
tagChecksum = 0;
} else {
/*
Checksum of tags doesn't include first block.
presumably because of bug in original disk
copy program.
*/
result = DC42BlockChecksum(Drive_No,
TagOffset + 12, TagSize - 12, &tagChecksum);
if (mnvm_noErr != result) {
ReportAbnormal("Failed to find tagChecksum");
tagChecksum = 0;
}
}
do_put_mem_long(Buffer + 4, tagChecksum);
}
#endif
/* write Checksums */
vSonyTransfer(trueblnr, Buffer, Drive_No,
kDC42offset_dataChecksum, Sony_Count, nullpr);
}
#endif
}
}
#endif
#define checkheaderoffset 0
#define checkheadersize 128
#define Sony_SupportOtherFormats Sony_SupportDC42
LOCALFUNC tMacErr vSonyNextPendingInsert(tDrive *Drive_No)
{
tDrive i;
tMacErr result;
ui5r L;
if (! vSonyNextPendingInsert0(&i)) {
result = mnvm_nsDrvErr;
} else {
result = vSonyGetSize(i, &L);
if (mnvm_noErr == result) {
/* first, set up for default format */
ui5r DataOffset = 0;
ui5r DataSize = L;
#if Sony_SupportTags
ui5r TagOffset = 0;
#endif
#if Sony_SupportOtherFormats
#if IncludeSonyRawMode
if (! vSonyRawMode)
#endif
{
ui5r DataOffset0;
ui5r DataSize0;
ui5r TagOffset0;
ui5r TagSize0;
ui3b Temp[checkheadersize];
ui5r Sony_Count = checkheadersize;
blnr gotFormat = falseblnr;
result = vSonyTransfer(falseblnr, Temp, i,
checkheaderoffset, Sony_Count, nullpr);
if (mnvm_noErr == result) {
#if Sony_SupportDC42
/* Detect Disk Copy 4.2 image */
if (0x0100 == do_get_mem_word(
&Temp[kDC42offset_private]))
{
/* DC42 signature found, check sizes */
DataSize0 = do_get_mem_long(
&Temp[kDC42offset_dataSize]);
TagSize0 = do_get_mem_long(
&Temp[kDC42offset_tagSize]);
DataOffset0 = kDC42offset_userData;
TagOffset0 = DataOffset0 + DataSize0;
if (L >= (TagOffset0 + TagSize0))
if (0 == (DataSize0 & 0x01FF))
if ((DataSize0 >> 9) >= 4)
if (Temp[kDC42offset_diskName] < 64)
/* length of pascal string */
{
if (0 == TagSize0) {
/* no tags */
gotFormat = trueblnr;
} else if ((DataSize0 >> 9) * 12
== TagSize0)
{
/* 12 byte tags */
gotFormat = trueblnr;
}
if (gotFormat) {
#if Sony_VerifyChecksums /* mostly useful to check the Checksum code */
ui5r dataChecksum;
ui5r tagChecksum;
ui5r dataChecksum0 = do_get_mem_long(
&Temp[kDC42offset_dataChecksum]);
ui5r tagChecksum0 = do_get_mem_long(
&Temp[kDC42offset_tagChecksum]);
result = DC42BlockChecksum(i,
DataOffset0, DataSize0,
&dataChecksum);
if (TagSize0 >= 12) {
result = DC42BlockChecksum(i,
TagOffset0 + 12, TagSize0 - 12,
&tagChecksum);
} else {
tagChecksum = 0;
}
if (dataChecksum != dataChecksum0) {
ReportAbnormal("bad dataChecksum");
}
if (tagChecksum != tagChecksum0) {
ReportAbnormal("bad tagChecksum");
}
#endif
DataOffset = DataOffset0;
DataSize = DataSize0;
#if Sony_SupportTags
TagOffset =
(0 == TagSize0) ? 0 : TagOffset0;
#endif
#if (! Sony_SupportTags) || (! Sony_WantChecksumsUpdated)
if (! vSonyIsLocked(i)) {
#if ! Sony_WantChecksumsUpdated
/* unconditionally revoke */
#else
if (0 != TagSize0)
#endif
{
DiskRevokeWritable(i);
}
}
#endif
}
}
}
#endif /* Sony_SupportDC42 */
}
}
if (mnvm_noErr == result)
#endif /* Sony_SupportOtherFormats */
{
vSonyMountedMask |= ((ui5b)1 << i);
ImageDataOffset[i] = DataOffset;
ImageDataSize[i] = DataSize;
#if Sony_SupportTags
ImageTagOffset[i] = TagOffset;
#endif
*Drive_No = i;
}
}
if (mnvm_noErr != result) {
(void) vSonyEject(i);
}
}
return result;
}
#define MinTicksBetweenInsert 60
/*
if call PostEvent too frequently, insert events seem to get lost
*/
LOCALVAR ui4r DelayUntilNextInsert;
LOCALVAR CPTR MountCallBack = 0;
/* This checks to see if a disk (image) has been inserted */
GLOBALPROC Sony_Update (void)
{
if (DelayUntilNextInsert != 0) {
--DelayUntilNextInsert;
} else {
if (MountCallBack != 0) {
tDrive i;
if (mnvm_noErr == vSonyNextPendingInsert(&i)) {
ui5b data = i;
if (vSonyIsLocked(i)) {
data |= ((ui5b)0x00FF) << 16;
}
DiskInsertedPsuedoException(MountCallBack, data);
DelayUntilNextInsert = MinTicksBetweenInsert;
}
}
}
}
LOCALFUNC tMacErr Drive_Transfer(blnr IsWrite, CPTR Buffera,
tDrive Drive_No, ui5r Sony_Start, ui5r Sony_Count,
ui5r *Sony_ActCount)
{
tMacErr result;
QuietEnds();
if (nullpr != Sony_ActCount) {
*Sony_ActCount = 0;
}
result = CheckReadableDrive(Drive_No);
if (mnvm_noErr == result) {
if (IsWrite && vSonyIsLocked(Drive_No)) {
result = mnvm_vLckdErr;
} else {
ui5r DataSize = ImageDataSize[Drive_No];
if (Sony_Start > DataSize) {
result = mnvm_eofErr;
} else {
blnr hit_eof = falseblnr;
ui5r L = DataSize - Sony_Start;
if (L >= Sony_Count) {
L = Sony_Count;
} else {
hit_eof = trueblnr;
}
result = vSonyTransferVM(IsWrite, Buffera, Drive_No,
ImageDataOffset[Drive_No] + Sony_Start, L,
Sony_ActCount);
if ((mnvm_noErr == result) && hit_eof) {
result = mnvm_eofErr;
}
}
}
}
return result;
}
LOCALVAR blnr QuitOnEject = falseblnr;
GLOBALPROC Sony_SetQuitOnEject(void)
{
QuitOnEject = trueblnr;
}
LOCALFUNC tMacErr Drive_Eject(tDrive Drive_No)
{
tMacErr result;
result = CheckReadableDrive(Drive_No);
if (mnvm_noErr == result) {
vSonyMountedMask &= ~ ((ui5b)1 << Drive_No);
#if Sony_WantChecksumsUpdated
Drive_UpdateChecksums(Drive_No);
#endif
result = vSonyEject(Drive_No);
if (QuitOnEject != 0) {
if (! AnyDiskInserted()) {
ForceMacOff = trueblnr;
}
}
}
return result;
}
#if IncludeSonyNew
LOCALFUNC tMacErr Drive_EjectDelete(tDrive Drive_No)
{
tMacErr result;
result = CheckReadableDrive(Drive_No);
if (mnvm_noErr == result) {
if (vSonyIsLocked(Drive_No)) {
result = mnvm_vLckdErr;
} else {
vSonyMountedMask &= ~ ((ui5b)1 << Drive_No);
result = vSonyEjectDelete(Drive_No);
}
}
return result;
}
#endif
GLOBALPROC Sony_EjectAllDisks(void)
{
tDrive i;
vSonyMountedMask = 0;
for (i = 0; i < NumDrives; ++i) {
if (vSonyIsInserted(i)) {
#if Sony_WantChecksumsUpdated
Drive_UpdateChecksums(i);
#endif
(void) vSonyEject(i);
}
}
}
GLOBALPROC Sony_Reset(void)
{
DelayUntilNextInsert = 0;
QuitOnEject = falseblnr;
MountCallBack = 0;
}
/*
Mini vMac extension for low level access to disk operations.
*/
#define kCmndDiskNDrives 1
#define kCmndDiskRead 2
#define kCmndDiskWrite 3
#define kCmndDiskEject 4
#define kCmndDiskGetSize 5
#define kCmndDiskGetCallBack 6
#define kCmndDiskSetCallBack 7
#define kCmndDiskQuitOnEject 8
#define kCmndDiskFeatures 9
#define kCmndDiskNextPendingInsert 10
#if IncludeSonyRawMode
#define kCmndDiskGetRawMode 11
#define kCmndDiskSetRawMode 12
#endif
#if IncludeSonyNew
#define kCmndDiskNew 13
#define kCmndDiskGetNewWanted 14
#define kCmndDiskEjectDelete 15
#endif
#if IncludeSonyGetName
#define kCmndDiskGetName 16
#endif
#define kFeatureCmndDisk_RawMode 0
#define kFeatureCmndDisk_New 1
#define kFeatureCmndDisk_NewName 2
#define kFeatureCmndDisk_GetName 3
#define kParamDiskNumDrives 8
#define kParamDiskStart 8
#define kParamDiskCount 12
#define kParamDiskBuffer 16
#define kParamDiskDrive_No 20
GLOBALPROC ExtnDisk_Access(CPTR p)
{
tMacErr result = mnvm_controlErr;
switch (get_vm_word(p + ExtnDat_commnd)) {
case kCmndVersion:
put_vm_word(p + ExtnDat_version, 2);
result = mnvm_noErr;
break;
case kCmndDiskNDrives: /* count drives */
put_vm_word(p + kParamDiskNumDrives, NumDrives);
result = mnvm_noErr;
break;
case kCmndDiskRead:
{
ui5r Sony_ActCount;
CPTR Buffera = get_vm_long(p + kParamDiskBuffer);
tDrive Drive_No = get_vm_word(p + kParamDiskDrive_No);
ui5r Sony_Start = get_vm_long(p + kParamDiskStart);
ui5r Sony_Count = get_vm_long(p + kParamDiskCount);
result = Drive_Transfer(falseblnr, Buffera, Drive_No,
Sony_Start, Sony_Count, &Sony_ActCount);
put_vm_long(p + kParamDiskCount, Sony_ActCount);
}
break;
case kCmndDiskWrite:
{
ui5r Sony_ActCount;
CPTR Buffera = get_vm_long(p + kParamDiskBuffer);
tDrive Drive_No = get_vm_word(p + kParamDiskDrive_No);
ui5r Sony_Start = get_vm_long(p + kParamDiskStart);
ui5r Sony_Count = get_vm_long(p + kParamDiskCount);
result = Drive_Transfer(trueblnr, Buffera, Drive_No,
Sony_Start, Sony_Count, &Sony_ActCount);
put_vm_long(p + kParamDiskCount, Sony_ActCount);
}
break;
case kCmndDiskEject:
{
tDrive Drive_No = get_vm_word(p + kParamDiskDrive_No);
result = Drive_Eject(Drive_No);
}
break;
case kCmndDiskGetSize:
{
tDrive Drive_No = get_vm_word(p + kParamDiskDrive_No);
result = CheckReadableDrive(Drive_No);
if (mnvm_noErr == result) {
put_vm_long(p + kParamDiskCount,
ImageDataSize[Drive_No]);
result = mnvm_noErr;
}
}
break;
case kCmndDiskGetCallBack:
put_vm_long(p + kParamDiskBuffer, MountCallBack);
result = mnvm_noErr;
break;
case kCmndDiskSetCallBack:
MountCallBack = get_vm_long(p + kParamDiskBuffer);
result = mnvm_noErr;
break;
case kCmndDiskQuitOnEject:
QuitOnEject = trueblnr;
result = mnvm_noErr;
break;
case kCmndDiskFeatures:
{
ui5r v = (0
#if IncludeSonyRawMode
| ((ui5b)1 << kFeatureCmndDisk_RawMode)
#endif
#if IncludeSonyNew
| ((ui5b)1 << kFeatureCmndDisk_New)
#endif
#if IncludeSonyNameNew
| ((ui5b)1 << kFeatureCmndDisk_NewName)
#endif
#if IncludeSonyGetName
| ((ui5b)1 << kFeatureCmndDisk_GetName)
#endif
);
put_vm_long(p + ExtnDat_params + 0, v);
result = mnvm_noErr;
}
break;
case kCmndDiskNextPendingInsert:
{
tDrive i;
result = vSonyNextPendingInsert(&i);
if (mnvm_noErr == result) {
put_vm_word(p + kParamDiskDrive_No, i);
}
}
break;
#if IncludeSonyRawMode
case kCmndDiskGetRawMode:
put_vm_word(p + kParamDiskBuffer, vSonyRawMode);
result = mnvm_noErr;
break;
case kCmndDiskSetRawMode:
vSonyRawMode = get_vm_word(p + kParamDiskBuffer);
result = mnvm_noErr;
break;
#endif
#if IncludeSonyNew
case kCmndDiskNew:
{
ui5b count = get_vm_long(p + ExtnDat_params + 0);
tPbuf Pbuf_No = get_vm_word(p + ExtnDat_params + 4);
/* reserved word at offset 6, should be zero */
result = mnvm_noErr;
#if IncludePbufs
if (Pbuf_No != NotAPbuf) {
result = CheckPbuf(Pbuf_No);
if (mnvm_noErr == result) {
vSonyNewDiskWanted = trueblnr;
vSonyNewDiskSize = count;
#if IncludeSonyNameNew
if (vSonyNewDiskName != NotAPbuf) {
PbufDispose(vSonyNewDiskName);
}
vSonyNewDiskName = Pbuf_No;
#else
PbufDispose(Pbuf_No);
#endif
}
} else
#endif
{
vSonyNewDiskWanted = trueblnr;
vSonyNewDiskSize = count;
}
}
break;
case kCmndDiskGetNewWanted:
put_vm_word(p + kParamDiskBuffer, vSonyNewDiskWanted);
result = mnvm_noErr;
break;
case kCmndDiskEjectDelete:
{
tDrive Drive_No = get_vm_word(p + kParamDiskDrive_No);
result = Drive_EjectDelete(Drive_No);
}
break;
#endif
#if IncludeSonyGetName
case kCmndDiskGetName:
{
tDrive Drive_No = get_vm_word(p + ExtnDat_params + 0);
/* reserved word at offset 2, should be zero */
result = CheckReadableDrive(Drive_No);
if (mnvm_noErr == result) {
tPbuf Pbuf_No;
result = vSonyGetName(Drive_No, &Pbuf_No);
put_vm_word(p + ExtnDat_params + 4, Pbuf_No);
}
}
break;
#endif
}
put_vm_word(p + ExtnDat_result, result);
}
/*
Mini vMac extension that implements most of the logic
of the replacement disk driver patched into the emulated ROM.
(sony_driver in ROMEMDEV.c)
This logic used to be completely contained in the 68k code
of the replacement driver, using only the low level
disk access extension.
*/
/* Sony Variable Drive Setting Offsets */
#define kTrack 0 /* Current Track */
#define kWriteProt 2 /* FF if Write Protected, 00 if readable */
#define kDiskInPlace 3
/*
00 = No Disk, 01 = Disk In,
2 = MacOS Read, FC-FF = Just Ejected
*/
#define kInstalled 4
/* 00 = Unknown, 01 = Installed, FF = Not Installed */
#define kSides 5
/* 00 if Single Sided Drive, FF if Doubled Sided Drive */
#define kQLink 6 /* Link to Next Drive */
#define kQType 10 /* Drive Type (0 = Size Saved, 1 = Very Large) */
#define kQDriveNo 12 /* Drive Number (1 = Internal, 2 = External) */
#define kQRefNum 14
/* Driver Reference Number (-5 for .Sony, FFFB) */
#define kQFSID 16 /* File System ID (0 = MacOS) */
#define kQDrvSz 18 /* size, low-order word */
#define kQDrvSz2 20 /* size, hi-order word */
#define kTwoSideFmt 18
/* FF if double-sided format, 00 if single-sided format */
#define kNewIntf 19
/* FF if new 800K interface or 00 if old 400K interface */
#define kDriveErrs 20 /* Drive Soft Errors */
/* Sony Driver Control Call csCodes */
#define kKillIO 1
#define kVerifyDisk 5
#define kFormatDisk 6
#define kEjectDisk 7
#define kSetTagBuffer 8
#define kTrackCacheControl 9
#define kGetIconID 20
#define kDriveIcon 21
#define kMediaIcon 22
#define kDriveInfo 23
#define kFormatCopy 21315
/* Sony Driver Status Call csCodes */
#define kReturnFormatList 6
#define kDriveStatus 8
#define kMFMStatus 10
#define kDuplicatorVersionSupport 17494
/* Parameter Block Offsets */
#define kqLink 0
#define kqType 4
#define kioTrap 6
#define kioCmdAddr 8
#define kioCompletion 12
#define kioResult 16
#define kioNamePtr 18
#define kioVRefNum 22
#define kioRefNum 24
#define kcsCode 26
#define kcsParam 28
#define kioBuffer 32 /* Buffer to store data into */
#define kioReqCount 36 /* Requested Number of Bytes */
#define kioActCount 40 /* Actual Number of Bytes obtained */
#define kioPosMode 44 /* Positioning Mode */
#define kioPosOffset 46 /* Position Offset */
/* Positioning Modes */
#define kfsAtMark 0 /* At Mark (Ignore PosOffset) */
#define kfsFromStart 1 /* At Start (PosOffset is absolute) */
#define kfsFromLEOF 2 /* From Logical End of File - PosOffset */
#define kfsFromMark 3 /* At Mark + PosOffset */
/* Device Control Entry Offsets */
#define kdCtlPosition 16
#if 0
struct MyDriverDat_R {
ui5b zeroes[4]; /* 0 */
ui5b checkval; /* 16 */
ui5b pokeaddr; /* 20 */
ui4b NumDrives; /* 24 */
ui4b DiskExtn; /* 26 */
TMTask NullTask; /* 28 */
/* total size must be <= FirstDriveVarsOffset */
};
typedef struct MyDriverDat_R MyDriverDat_R;
#endif
#define SonyVarsPtr 0x0134
#define FirstDriveVarsOffset 74
#define EachDriveVarsSize 66
#if CurEmMd <= kEmMd_128K
#define MinSonVarsSize 0x000000FA
#else
#define MinSonVarsSize 0x00000310
#endif
#define kcom_checkval 0x841339E2
#if Sony_SupportTags
LOCALVAR CPTR TheTagBuffer;
#endif
LOCALFUNC ui5b DriveVarsLocation(tDrive Drive_No)
{
CPTR SonyVars = get_vm_long(SonyVarsPtr);
if (Drive_No < NumDrives) {
return SonyVars + FirstDriveVarsOffset
+ EachDriveVarsSize * Drive_No;
} else {
return 0;
}
}
LOCALFUNC tMacErr Sony_Mount(CPTR p)
{
ui5b data = get_vm_long(p + ExtnDat_params + 0);
tMacErr result = mnvm_miscErr;
tDrive i = data & 0x0000FFFF;
CPTR dvl = DriveVarsLocation(i);
if (0 == dvl) {
result = mnvm_nsDrvErr;
} else if (get_vm_byte(dvl + kDiskInPlace) == 0x00) {
ui5b L = ImageDataSize[i] >> 9; /* block count */
if ((L == 800)
#if CurEmMd > kEmMd_128K
|| (L == 1600)
#endif
)
{
#if CurEmMd <= kEmMd_128K
put_vm_byte(dvl + kTwoSideFmt, 0x00);
/* Drive i Single Format */
put_vm_byte(dvl + kNewIntf, 0x00);
/* Drive i doesn't use new interface */
#else
if (L == 800) {
put_vm_byte(dvl + kTwoSideFmt, 0x00);
/* Drive i Single Format */
} else {
put_vm_byte(dvl + kTwoSideFmt, 0xFF);
/* Drive Double Format */
}
put_vm_byte(dvl + kNewIntf, 0xFF);
/* Drive i uses new interface */
#endif
put_vm_word(dvl + kQType, 0x00); /* Drive Type */
put_vm_word(dvl + kDriveErrs, 0x0000);
/* Drive i has no errors */
} else {
put_vm_word(dvl + kQRefNum, 0xFFFE); /* Driver */
put_vm_word(dvl + kQType, 0x01); /* Drive Type */
put_vm_word(dvl + kQDrvSz , L);
put_vm_word(dvl + kQDrvSz2, L >> 16);
}
put_vm_byte(dvl + kWriteProt, data >> 16);
put_vm_byte(dvl + kDiskInPlace, 0x01); /* Drive Disk Inserted */
put_vm_long(p + ExtnDat_params + 4, i + 1);
/* PostEvent Disk Inserted eventMsg */
result = mnvm_noErr;
}
/* else, if disk already in place, a mistake has been made */
return result;
}
#if Sony_SupportTags
LOCALFUNC tMacErr Sony_PrimeTags(tDrive Drive_No,
ui5r Sony_Start, ui5r Sony_Count, blnr IsWrite)
{
tMacErr result = mnvm_noErr;
ui5r TagOffset = ImageTagOffset[Drive_No];
if ((0 != TagOffset) && (Sony_Count > 0)) {
ui5r block = Sony_Start >> 9;
ui5r n = Sony_Count >> 9; /* is >= 1 if get here */
TagOffset += block * 12;
if (0 != TheTagBuffer) {
ui5r count = 12 * n;
result = vSonyTransferVM(IsWrite, TheTagBuffer, Drive_No,
TagOffset, count, nullpr);
if (mnvm_noErr == result) {
MyMoveBytesVM(TheTagBuffer + count - 12, 0x02FC, 12);
}
} else {
if (! IsWrite) {
/* only need to read the last block tags */
ui5r count = 12;
TagOffset += 12 * (n - 1);
result = vSonyTransferVM(falseblnr, 0x02FC, Drive_No,
TagOffset, count, nullpr);
} else {
ui5r count = 12;
ui4r BufTgFBkNum = get_vm_word(0x0302);
do {
put_vm_word(0x0302, BufTgFBkNum);
result = vSonyTransferVM(trueblnr, 0x02FC, Drive_No,
TagOffset, count, nullpr);
if (mnvm_noErr != result) {
goto label_fail;
}
BufTgFBkNum += 1;
TagOffset += 12;
} while (--n != 0);
}
}
}
label_fail:
return result;
}
#endif
/* Handles I/O to disks */
LOCALFUNC tMacErr Sony_Prime(CPTR p)
{
tMacErr result;
ui5r Sony_Count;
ui5r Sony_Start;
ui5r Sony_ActCount = 0;
CPTR ParamBlk = get_vm_long(p + ExtnDat_params + 0);
CPTR DeviceCtl = get_vm_long(p + ExtnDat_params + 4);
tDrive Drive_No = get_vm_word(ParamBlk + kioVRefNum) - 1;
ui4r IOTrap = get_vm_word(ParamBlk + kioTrap);
CPTR dvl = DriveVarsLocation(Drive_No);
if (0 == dvl) {
result = mnvm_nsDrvErr;
} else if (0xA002 != (IOTrap & 0xF0FE)) {
/* not read (0xA002) or write (0xA003) */
result = mnvm_controlErr;
} else {
blnr IsWrite = (0 != (IOTrap & 0x0001));
ui3b DiskInPlaceV = get_vm_byte(dvl + kDiskInPlace);
if (DiskInPlaceV != 0x02) {
if (DiskInPlaceV == 0x01) {
put_vm_byte(dvl + kDiskInPlace, 0x02); /* Clamp Drive */
} else {
result = mnvm_offLinErr;
goto label_fail;
/*
if don't check for this, will go right
ahead and boot off a disk that hasn't
been mounted yet by Sony_Update.
(disks other than the boot disk aren't
seen unless mounted by Sony_Update)
*/
}
}
#if 0
ui4r PosMode = get_vm_word(ParamBlk + kioPosMode);
if (0 != (PosMode & 64)) {
#if ExtraAbnormalReports
/*
This is used when copy to floppy
disk with Finder. But not implemented
yet.
*/
ReportAbnormal("read verify mode requested");
#endif
PosMode &= ~ 64;
}
/*
Don't use the following code, because
according to Apple's Technical Note FL24
the Device Manager takes care of this,
and puts the result in dCtlPosition.
(The RAMDisk example in Apple's sample
code serves to confirm this. Further
evidence found in Basilisk II emulator,
and disassembly of Mac Plus disk driver.)
*/
ui5r PosOffset = get_vm_long(ParamBlk + kioPosOffset);
switch (PosMode) {
case kfsAtMark:
Sony_Start = get_vm_long(DeviceCtl + kdCtlPosition);
break;
case kfsFromStart:
Sony_Start = PosOffset;
break;
#if 0
/*
not valid for device driver.
actually only kfsFromStart seems to be used.
*/
case kfsFromLEOF:
Sony_Start = ImageDataSize[Drive_No]
+ PosOffset;
break;
#endif
case kfsFromMark:
Sony_Start = PosOffset
+ get_vm_long(DeviceCtl + kdCtlPosition);
break;
default:
ReportAbnormal("unknown PosMode");
result = mnvm_paramErr;
goto label_fail;
break;
}
#endif
Sony_Start = get_vm_long(DeviceCtl + kdCtlPosition);
Sony_Count = get_vm_long(ParamBlk + kioReqCount);
if ((0 != (Sony_Start & 0x1FF))
|| (0 != (Sony_Count & 0x1FF)))
{
/* only whole blocks allowed */
result = mnvm_paramErr;
} else if (IsWrite && (get_vm_byte(dvl + kWriteProt) != 0)) {
result = mnvm_wPrErr;
} else {
CPTR Buffera = get_vm_long(ParamBlk + kioBuffer);
result = Drive_Transfer(IsWrite, Buffera, Drive_No,
Sony_Start, Sony_Count, &Sony_ActCount);
#if Sony_SupportTags
if (mnvm_noErr == result) {
result = Sony_PrimeTags(Drive_No,
Sony_Start, Sony_Count, IsWrite);
}
#endif
put_vm_long(DeviceCtl + kdCtlPosition,
Sony_Start + Sony_ActCount);
}
}
label_fail:
put_vm_word(ParamBlk + kioResult, result);
put_vm_long(ParamBlk + kioActCount, Sony_ActCount);
if (mnvm_noErr != result) {
put_vm_word(0x0142 /* DskErr */, result);
}
return result;
}
/* Implements control csCodes for the Sony driver */
LOCALFUNC tMacErr Sony_Control(CPTR p)
{
tMacErr result;
CPTR ParamBlk = get_vm_long(p + ExtnDat_params + 0);
/* CPTR DeviceCtl = get_vm_long(p + ExtnDat_params + 4); */
ui4r OpCode = get_vm_word(ParamBlk + kcsCode);
if (kKillIO == OpCode) {
result = mnvm_miscErr;
} else if (kSetTagBuffer == OpCode) {
#if Sony_SupportTags
TheTagBuffer = get_vm_long(ParamBlk + kcsParam);
result = mnvm_noErr;
#else
result = mnvm_controlErr;
#endif
} else if (kTrackCacheControl == OpCode) {
#if CurEmMd <= kEmMd_128K
result = mnvm_controlErr;
#else
#if 0
ui3r Arg1 = get_vm_byte(ParamBlk + kcsParam);
ui3r Arg2 = get_vm_byte(ParamBlk + kcsParam + 1);
if (0 == Arg1) {
/* disable track cache */
} else {
/* enable track cache */
}
if (Arg2 < 0) {
/* remove track cache */
} else if (Arg2 > 0) {
/* install track cache */
}
#endif
result = mnvm_noErr;
/* not implemented, but pretend we did it */
#endif
} else {
tDrive Drive_No = get_vm_word(ParamBlk + kioVRefNum) - 1;
CPTR dvl = DriveVarsLocation(Drive_No);
if (0 == dvl) {
result = mnvm_nsDrvErr;
} else if (get_vm_byte(dvl + kDiskInPlace) == 0) {
result = mnvm_offLinErr;
} else {
switch (OpCode) {
case kVerifyDisk :
result = mnvm_noErr;
break;
case kEjectDisk :
put_vm_byte(dvl + kWriteProt, 0x00);
/* Drive Writeable */
put_vm_byte(dvl + kDiskInPlace, 0x00);
/* Drive No Disk */
#if 0
put_vm_byte(dvl + kTwoSideFmt, 0x00);
/* Drive Single Format (Initially) */
#endif
put_vm_word(dvl + kQRefNum, 0xFFFB);
/* Drive i uses .Sony */
result = Drive_Eject(Drive_No);
break;
case kFormatDisk :
result = mnvm_noErr;
break;
case kDriveIcon :
if (get_vm_word(dvl + kQType) != 0) {
put_vm_long(ParamBlk + kcsParam,
my_disk_icon_addr);
result = mnvm_noErr;
} else {
result = mnvm_controlErr;
/*
Driver can't respond to
this Control call (-17)
*/
}
break;
#if CurEmMd >= kEmMd_SE
case kDriveInfo :
{
ui5b v;
if (get_vm_word(dvl + kQType) != 0) {
v = 0x00000001; /* unspecified drive */
} else {
#if CurEmMd <= kEmMd_128K
v = 0x00000002; /* 400K Drive */
#else
v = 0x00000003; /* 800K Drive */
#endif
}
if (Drive_No != 0) {
v += 0x00000900;
/* Secondary External Drive */
}
put_vm_long(ParamBlk + kcsParam, v);
result = mnvm_noErr; /* No error (0) */
}
break;
#endif
default :
#if ExtraAbnormalReports
if ((kGetIconID != OpCode)
&& (kMediaIcon != OpCode)
&& (kDriveInfo != OpCode))
{
ReportAbnormal(
"unexpected OpCode in Sony_Control");
}
#endif
result = mnvm_controlErr;
/*
Driver can't respond to
this Control call (-17)
*/
break;
}
}
}
if (mnvm_noErr != result) {
put_vm_word(0x0142 /* DskErr */, result);
}
return result;
}
/* Handles the DriveStatus call */
LOCALFUNC tMacErr Sony_Status(CPTR p)
{
tMacErr result;
CPTR ParamBlk = get_vm_long(p + ExtnDat_params + 0);
/* CPTR DeviceCtl = get_vm_long(p + ExtnDat_params + 4); */
ui4r OpCode = get_vm_word(ParamBlk + kcsCode);
if (kDriveStatus == OpCode) {
tDrive Drive_No = get_vm_word(ParamBlk + kioVRefNum) - 1;
CPTR Src = DriveVarsLocation(Drive_No);
if (Src == 0) {
result = mnvm_nsDrvErr;
} else {
MyMoveBytesVM(Src, ParamBlk + kcsParam, 22);
result = mnvm_noErr;
}
} else {
#if ExtraAbnormalReports
if ((kReturnFormatList != OpCode)
&& (kDuplicatorVersionSupport != OpCode))
{
ReportAbnormal("unexpected OpCode in Sony_Control");
}
#endif
result = mnvm_statusErr;
}
if (mnvm_noErr != result) {
put_vm_word(0x0142 /* DskErr */, result);
}
return result;
}
LOCALFUNC tMacErr Sony_Close(CPTR p)
{
#if 0
CPTR ParamBlk = get_vm_long(p + ExtnDat_params + 0);
CPTR DeviceCtl = get_vm_long(p + ExtnDat_params + 4);
#endif
UnusedParam(p);
return mnvm_closErr; /* Can't Close Driver */
}
LOCALFUNC tMacErr Sony_OpenA(CPTR p)
{
if (MountCallBack != 0) {
return mnvm_opWrErr; /* driver already open */
} else {
ui5b L = FirstDriveVarsOffset + EachDriveVarsSize * NumDrives;
if (L < MinSonVarsSize) {
L = MinSonVarsSize;
}
put_vm_long(p + ExtnDat_params + 0, L);
return mnvm_noErr;
}
}
LOCALFUNC tMacErr Sony_OpenB(CPTR p)
{
si4b i;
CPTR dvl;
CPTR SonyVars = get_vm_long(p + ExtnDat_params + 4);
/* CPTR ParamBlk = get_vm_long(p + ExtnDat_params + 24); (unused) */
#if CurEmMd > kEmMd_128K
CPTR DeviceCtl = get_vm_long(p + ExtnDat_params + 28);
#endif
put_vm_long(SonyVars + 16 /* checkval */, kcom_checkval);
put_vm_long(SonyVars + 20 /* pokeaddr */, kExtn_Block_Base);
put_vm_word(SonyVars + 24 /* NumDrives */, NumDrives);
put_vm_word(SonyVars + 26 /* DiskExtn */, kExtnDisk);
put_vm_long(SonyVarsPtr, SonyVars);
for (i = 0; (dvl = DriveVarsLocation(i)) != 0; ++i) {
put_vm_byte(dvl + kDiskInPlace, 0x00); /* Drive i No Disk */
put_vm_byte(dvl + kInstalled, 0x01); /* Drive i Installed */
#if CurEmMd <= kEmMd_128K
put_vm_byte(dvl + kSides, 0x00);
/* Drive i Single Sided */
#else
put_vm_byte(dvl + kSides, 0xFF);
/* Drive i Double Sided */
#endif
put_vm_word(dvl + kQDriveNo, i + 1); /* Drive i is Drive 1 */
put_vm_word(dvl + kQRefNum, 0xFFFB); /* Drive i uses .Sony */
}
{
CPTR UTableBase = get_vm_long(0x011C);
put_vm_long(UTableBase + 4 * 1,
get_vm_long(UTableBase + 4 * 4));
/* use same drive for hard disk as used for sony floppies */
}
#if CurEmMd > kEmMd_128K
/* driver version in driver i/o queue header */
put_vm_byte(DeviceCtl + 7, 1);
#endif
#if CurEmMd <= kEmMd_128K
/* init Drive Queue */
put_vm_word(0x308, 0);
put_vm_long(0x308 + 2, 0);
put_vm_long(0x308 + 6, 0);
#endif
put_vm_long(p + ExtnDat_params + 8,
SonyVars + FirstDriveVarsOffset + kQLink);
put_vm_word(p + ExtnDat_params + 12, EachDriveVarsSize);
put_vm_word(p + ExtnDat_params + 14, NumDrives);
put_vm_word(p + ExtnDat_params + 16, 1);
put_vm_word(p + ExtnDat_params + 18, 0xFFFB);
#if CurEmMd <= kEmMd_128K
put_vm_long(p + ExtnDat_params + 20, 0);
#else
put_vm_long(p + ExtnDat_params + 20, SonyVars + 28 /* NullTask */);
#endif
#if Sony_SupportTags
TheTagBuffer = 0;
#endif
return mnvm_noErr;
}
LOCALFUNC tMacErr Sony_OpenC(CPTR p)
{
MountCallBack = get_vm_long(p + ExtnDat_params + 0)
#if (CurEmMd == kEmMd_II) || (CurEmMd == kEmMd_IIx)
| 0x40000000
#endif
;
return mnvm_noErr;
}
#define kCmndSonyPrime 1
#define kCmndSonyControl 2
#define kCmndSonyStatus 3
#define kCmndSonyClose 4
#define kCmndSonyOpenA 5
#define kCmndSonyOpenB 6
#define kCmndSonyOpenC 7
#define kCmndSonyMount 8
GLOBALPROC ExtnSony_Access(CPTR p)
{
tMacErr result;
switch (get_vm_word(p + ExtnDat_commnd)) {
case kCmndVersion:
put_vm_word(p + ExtnDat_version, 0);
result = mnvm_noErr;
break;
case kCmndSonyPrime:
result = Sony_Prime(p);
break;
case kCmndSonyControl:
result = Sony_Control(p);
break;
case kCmndSonyStatus:
result = Sony_Status(p);
break;
case kCmndSonyClose:
result = Sony_Close(p);
break;
case kCmndSonyOpenA:
result = Sony_OpenA(p);
break;
case kCmndSonyOpenB:
result = Sony_OpenB(p);
break;
case kCmndSonyOpenC:
result = Sony_OpenC(p);
break;
case kCmndSonyMount:
result = Sony_Mount(p);
break;
default:
result = mnvm_controlErr;
break;
}
put_vm_word(p + ExtnDat_result, result);
}