/* * CiderPress * Copyright (C) 2007 by faddenSoft, LLC. All Rights Reserved. * See the file LICENSE for distribution terms. */ /* * The "MacPart" DiskFS is a container class for multiple ProDOS and HFS * volumes. It represents a partitioned disk device, such as a hard * drive or CD-ROM. */ #include "StdAfx.h" #include "DiskImgPriv.h" const int kBlkSize = 512; const int kDDRBlock = 0; // Driver Descriptor Record block const int kPartMapStart = 1; // start of partition map /* * Format of DDR (block 0). */ typedef struct DiskFSMacPart::DriverDescriptorRecord { uint16_t sbSig; // {device signature} uint16_t sbBlkSize; // {block size of the device} uint32_t sbBlkCount; // {number of blocks on the device} uint16_t sbDevType; // {reserved} uint16_t sbDevId; // {reserved} uint32_t sbData; // {reserved} uint16_t sbDrvrCount; // {number of driver descriptor entries} uint16_t hiddenPad; // implicit in specification uint32_t ddBlock; // {first driver's starting block} uint16_t ddSize; // {size of the driver, in 512-byte blocks} uint16_t ddType; // {operating system type (MacOS = 1)} uint16_t ddPad[242]; // {additional drivers, if any} } DriverDescriptorRecord; /* * Format of partition map blocks. The partition map is an array of these. */ typedef struct DiskFSMacPart::PartitionMap { uint16_t pmSig; // {partition signature} uint16_t pmSigPad; // {reserved} uint32_t pmMapBlkCnt; // {number of blocks in partition map} uint32_t pmPyPartStart; // {first physical block of partition} uint32_t pmPartBlkCnt; // {number of blocks in partition} uint8_t pmPartName[32]; // {partition name} uint8_t pmParType[32]; // {partition type} uint32_t pmLgDataStart; // {first logical block of data area} uint32_t pmDataCnt; // {number of blocks in data area} uint32_t pmPartStatus; // {partition status information} uint32_t pmLgBootStart; // {first logical block of boot code} uint32_t pmBootSize; // {size of boot code, in bytes} uint32_t pmBootAddr; // {boot code load address} uint32_t pmBootAddr2; // {reserved} uint32_t pmBootEntry; // {boot code entry point} uint32_t pmBootEntry2; // {reserved} uint32_t pmBootCksum; // {boot code checksum} uint8_t pmProcessor[16]; // {processor type} uint16_t pmPad[188]; // {reserved} } PartitionMap; /* * Figure out if this is a Macintosh-style partition. * * The "imageOrder" parameter has no use here, because (in the current * version) embedded parent volumes are implicitly ProDOS-ordered. * * It would be difficult to guess the block order based on the partition * structure, because the partition map entries can appear in any order. */ /*static*/ DIError DiskFSMacPart::TestImage(DiskImg* pImg, DiskImg::SectorOrder imageOrder) { DIError dierr = kDIErrNone; uint8_t blkBuf[kBlkSize]; DriverDescriptorRecord ddr; long pmMapBlkCnt; assert(sizeof(PartitionMap) == kBlkSize); assert(sizeof(DriverDescriptorRecord) == kBlkSize); /* check the DDR block */ dierr = pImg->ReadBlockSwapped(kDDRBlock, blkBuf, imageOrder, DiskImg::kSectorOrderProDOS); if (dierr != kDIErrNone) goto bail; UnpackDDR(blkBuf, &ddr); if (ddr.sbSig != kDDRSignature) { dierr = kDIErrFilesystemNotFound; goto bail; } if (ddr.sbBlkSize != kBlkSize || ddr.sbBlkCount == 0) { if (ddr.sbBlkSize == 0 && ddr.sbBlkCount == 0) { /* * This is invalid, but it's the way floptical images formatted * by the C.V.Tech format utilities look. */ LOGI(" MacPart NOTE: found zeroed-out DDR, continuing anyway"); } else if (ddr.sbBlkSize == kBlkSize && ddr.sbBlkCount == 0) { /* * This showed up on a disc, so handle it too. */ LOGI(" MacPart NOTE: found partially-zeroed-out DDR, continuing"); } else { LOGI(" MacPart found 'ER' signature but blkSize=%d blkCount=%d", ddr.sbBlkSize, ddr.sbBlkCount); dierr = kDIErrFilesystemNotFound; goto bail; } } DumpDDR(&ddr); /* make sure block 1 is a partition */ dierr = pImg->ReadBlockSwapped(kPartMapStart, blkBuf, imageOrder, DiskImg::kSectorOrderProDOS); if (dierr != kDIErrNone) goto bail; if (GetShortBE(&blkBuf[0x00]) != kPartitionSignature) { LOGI(" MacPart partition signature not found in first part block"); dierr = kDIErrFilesystemNotFound; goto bail; } pmMapBlkCnt = GetLongBE(&blkBuf[0x04]); if (pmMapBlkCnt <= 0 || pmMapBlkCnt > 256) { LOGI(" MacPart unreasonable pmMapBlkCnt value %ld", pmMapBlkCnt); dierr = kDIErrFilesystemNotFound; goto bail; } /* could test the rest -- might fix "imageOrder", might not -- but the format is pretty unambiguous, and we don't care about the order */ // success! LOGI(" MacPart partition map block count = %ld", pmMapBlkCnt); bail: return dierr; } /* * Unpack a DDR disk block into a DDR data structure. */ /*static*/ void DiskFSMacPart::UnpackDDR(const uint8_t* buf, DriverDescriptorRecord* pDDR) { pDDR->sbSig = GetShortBE(&buf[0x00]); pDDR->sbBlkSize = GetShortBE(&buf[0x02]); pDDR->sbBlkCount = GetLongBE(&buf[0x04]); pDDR->sbDevType = GetShortBE(&buf[0x08]); pDDR->sbDevId = GetShortBE(&buf[0x0a]); pDDR->sbData = GetLongBE(&buf[0x0c]); pDDR->sbDrvrCount = GetShortBE(&buf[0x10]); pDDR->hiddenPad = GetShortBE(&buf[0x12]); pDDR->ddBlock = GetLongBE(&buf[0x14]); pDDR->ddSize = GetShortBE(&buf[0x18]); pDDR->ddType = GetShortBE(&buf[0x1a]); int i; for (i = 0; i < (int) NELEM(pDDR->ddPad); i++) { pDDR->ddPad[i] = GetShortBE(&buf[0x1c] + i * sizeof(pDDR->ddPad[0])); } assert(0x1c + i * sizeof(pDDR->ddPad[0]) == (unsigned int) kBlkSize); } /* * Debug: dump the contents of the DDR. */ /*static*/ void DiskFSMacPart::DumpDDR(const DriverDescriptorRecord* pDDR) { LOGI(" MacPart driver descriptor record"); LOGI(" sbSig=0x%04x sbBlkSize=%d sbBlkCount=%d", pDDR->sbSig, pDDR->sbBlkSize, pDDR->sbBlkCount); LOGI(" sbDevType=%d sbDevId=%d sbData=%d sbDrvrCount=%d", pDDR->sbDevType, pDDR->sbDevId, pDDR->sbData, pDDR->sbDrvrCount); LOGI(" (pad=%d) ddBlock=%d ddSize=%d ddType=%d", pDDR->hiddenPad, pDDR->ddBlock, pDDR->ddSize, pDDR->ddType); } /* * Unpack a partition map disk block into a partition map data structure. */ /*static*/ void DiskFSMacPart::UnpackPartitionMap(const uint8_t* buf, PartitionMap* pMap) { pMap->pmSig = GetShortBE(&buf[0x00]); pMap->pmSigPad = GetShortBE(&buf[0x02]); pMap->pmMapBlkCnt = GetLongBE(&buf[0x04]); pMap->pmPyPartStart = GetLongBE(&buf[0x08]); pMap->pmPartBlkCnt = GetLongBE(&buf[0x0c]); memcpy(pMap->pmPartName, &buf[0x10], sizeof(pMap->pmPartName)); pMap->pmPartName[sizeof(pMap->pmPartName)-1] = '\0'; memcpy(pMap->pmParType, &buf[0x30], sizeof(pMap->pmParType)); pMap->pmParType[sizeof(pMap->pmParType)-1] = '\0'; pMap->pmLgDataStart = GetLongBE(&buf[0x50]); pMap->pmDataCnt = GetLongBE(&buf[0x54]); pMap->pmPartStatus = GetLongBE(&buf[0x58]); pMap->pmLgBootStart = GetLongBE(&buf[0x5c]); pMap->pmBootSize = GetLongBE(&buf[0x60]); pMap->pmBootAddr = GetLongBE(&buf[0x64]); pMap->pmBootAddr2 = GetLongBE(&buf[0x68]); pMap->pmBootEntry = GetLongBE(&buf[0x6c]); pMap->pmBootEntry2 = GetLongBE(&buf[0x70]); pMap->pmBootCksum = GetLongBE(&buf[0x74]); memcpy((char*) pMap->pmProcessor, &buf[0x78], sizeof(pMap->pmProcessor)); pMap->pmProcessor[sizeof(pMap->pmProcessor)-1] = '\0'; int i; for (i = 0; i < (int) NELEM(pMap->pmPad); i++) { pMap->pmPad[i] = GetShortBE(&buf[0x88] + i * sizeof(pMap->pmPad[0])); } assert(0x88 + i * sizeof(pMap->pmPad[0]) == (unsigned int) kBlkSize); } /* * Debug: dump the contents of the partition map. */ /*static*/ void DiskFSMacPart::DumpPartitionMap(long block, const PartitionMap* pMap) { LOGI(" MacPart partition map: block=%ld", block); LOGI(" pmSig=0x%04x (pad=0x%04x) pmMapBlkCnt=%d", pMap->pmSig, pMap->pmSigPad, pMap->pmMapBlkCnt); LOGI(" pmPartName='%s' pmParType='%s'", pMap->pmPartName, pMap->pmParType); LOGI(" pmPyPartStart=%d pmPartBlkCnt=%d", pMap->pmPyPartStart, pMap->pmPartBlkCnt); LOGI(" pmLgDataStart=%d pmDataCnt=%d", pMap->pmLgDataStart, pMap->pmDataCnt); LOGI(" pmPartStatus=%d", pMap->pmPartStatus); LOGI(" pmLgBootStart=%d pmBootSize=%d", pMap->pmLgBootStart, pMap->pmBootSize); LOGI(" pmBootAddr=%d pmBootAddr2=%d pmBootEntry=%d pmBootEntry2=%d", pMap->pmBootAddr, pMap->pmBootAddr2, pMap->pmBootEntry, pMap->pmBootEntry2); LOGI(" pmBootCksum=%d pmProcessor='%s'", pMap->pmBootCksum, pMap->pmProcessor); } /* * Open up a sub-volume. */ DIError DiskFSMacPart::OpenSubVolume(const PartitionMap* pMap) { DIError dierr = kDIErrNone; DiskFS* pNewFS = NULL; DiskImg* pNewImg = NULL; long startBlock, numBlocks; bool tweaked = false; assert(pMap != NULL); startBlock = pMap->pmPyPartStart; numBlocks = pMap->pmPartBlkCnt; LOGI("Adding '%s' (%s) %ld +%ld", pMap->pmPartName, pMap->pmParType, startBlock, numBlocks); if (startBlock > fpImg->GetNumBlocks()) { LOGI("MacPart start block out of range (%ld vs %ld)", startBlock, fpImg->GetNumBlocks()); return kDIErrBadPartition; } if (startBlock + numBlocks > fpImg->GetNumBlocks()) { LOGI("MacPart partition too large (%ld vs %ld avail)", numBlocks, fpImg->GetNumBlocks() - startBlock); fpImg->AddNote(DiskImg::kNoteInfo, "Reduced partition '%s' (%s) from %ld blocks to %ld.\n", pMap->pmPartName, pMap->pmParType, numBlocks, fpImg->GetNumBlocks() - startBlock); numBlocks = fpImg->GetNumBlocks() - startBlock; tweaked = true; } pNewImg = new DiskImg; if (pNewImg == NULL) { dierr = kDIErrMalloc; goto bail; } /* * If "tweaked" is true, we want to make the volume read-only, so that the * volume copier doesn't stomp on it (on the off chance we've got it * wrong). However, that won't stop the volume copier from stomping on * the entire thing, so we really need to change *all* members of the * diskimg tree to be read-only. This seems counter-productive though. * * So far the only actual occurrence of tweakedness was from the first * Apple "develop" CD-ROM, which had a bad Apple_Extra partition on the * end. */ (void) tweaked; dierr = pNewImg->OpenImage(fpImg, startBlock, numBlocks); if (dierr != kDIErrNone) { LOGI(" MacPartSub: OpenImage(%ld,%ld) failed (err=%d)", startBlock, numBlocks, dierr); goto bail; } //LOGI(" +++ CFFASub: new image has ro=%d (parent=%d)", // pNewImg->GetReadOnly(), pImg->GetReadOnly()); /* the partition is typed; currently no way to give hints to analyzer */ dierr = pNewImg->AnalyzeImage(); if (dierr != kDIErrNone) { LOGI(" MacPartSub: analysis failed (err=%d)", dierr); goto bail; } /* we allow unrecognized partitions */ if (pNewImg->GetFSFormat() == DiskImg::kFormatUnknown || pNewImg->GetSectorOrder() == DiskImg::kSectorOrderUnknown) { LOGI(" MacPartSub (%ld,%ld): unable to identify filesystem", startBlock, numBlocks); DiskFSUnknown* pUnknownFS = new DiskFSUnknown; if (pUnknownFS == NULL) { dierr = kDIErrInternal; goto bail; } pUnknownFS->SetVolumeInfo((const char*)pMap->pmParType); pNewFS = pUnknownFS; pNewImg->AddNote(DiskImg::kNoteInfo, "Partition name='%s' type='%s'.", pMap->pmPartName, pMap->pmParType); } else { /* open a DiskFS for the sub-image */ LOGI(" MacPartSub (%ld,%ld) analyze succeeded!", startBlock, numBlocks); pNewFS = pNewImg->OpenAppropriateDiskFS(true); if (pNewFS == NULL) { LOGI(" MacPartSub: OpenAppropriateDiskFS failed"); dierr = kDIErrUnsupportedFSFmt; goto bail; } } /* we encapsulate arbitrary stuff, so encourage child to scan */ pNewFS->SetScanForSubVolumes(kScanSubEnabled); /* * Load the files from the sub-image. When doing our initial tests, * or when loading data for the volume copier, we don't want to dig * into our sub-volumes, just figure out what they are and where. * * If "initialize" fails, the sub-volume won't get added to the list. * It's important that a failure at this stage doesn't cause the whole * thing to fall over. */ InitMode initMode; if (GetScanForSubVolumes() == kScanSubContainerOnly) initMode = kInitHeaderOnly; else initMode = kInitFull; dierr = pNewFS->Initialize(pNewImg, initMode); if (dierr != kDIErrNone) { LOGI(" MacPartSub: error %d reading list of files from disk", dierr); goto bail; } /* add it to the list */ AddSubVolumeToList(pNewImg, pNewFS); pNewImg = NULL; pNewFS = NULL; bail: delete pNewFS; delete pNewImg; return dierr; } /* * Check to see if this is a MacPart volume. */ /*static*/ DIError DiskFSMacPart::TestFS(DiskImg* pImg, DiskImg::SectorOrder* pOrder, DiskImg::FSFormat* pFormat, FSLeniency leniency) { if (pImg->GetNumBlocks() < kMinInterestingBlocks) return kDIErrFilesystemNotFound; if (pImg->GetIsEmbedded()) // don't look for partitions inside return kDIErrFilesystemNotFound; /* assume ProDOS -- shouldn't matter, since it's embedded */ if (TestImage(pImg, DiskImg::kSectorOrderProDOS) == kDIErrNone) { *pFormat = DiskImg::kFormatMacPart; *pOrder = DiskImg::kSectorOrderProDOS; return kDIErrNone; } LOGI(" FS didn't find valid MacPart"); return kDIErrFilesystemNotFound; } /* * Prep the MacPart "container" for use. */ DIError DiskFSMacPart::Initialize(void) { DIError dierr = kDIErrNone; LOGI("MacPart initializing (scanForSub=%d)", fScanForSubVolumes); /* seems pointless *not* to, but we just do what we're told */ if (fScanForSubVolumes != kScanSubDisabled) { dierr = FindSubVolumes(); if (dierr != kDIErrNone) return dierr; } /* blank out the volume usage map */ SetVolumeUsageMap(); return dierr; } /* * Find the various sub-volumes and open them. * * Because the partitions are explicitly typed, we don't need to probe * their contents. But we do anyway. */ DIError DiskFSMacPart::FindSubVolumes(void) { DIError dierr = kDIErrNone; uint8_t buf[kBlkSize]; PartitionMap map; int i, numMapBlocks; dierr = fpImg->ReadBlock(kPartMapStart, buf); if (dierr != kDIErrNone) goto bail; UnpackPartitionMap(buf, &map); numMapBlocks = map.pmMapBlkCnt; for (i = 0; i < numMapBlocks; i++) { if (i != 0) { dierr = fpImg->ReadBlock(kPartMapStart+i, buf); if (dierr != kDIErrNone) goto bail; UnpackPartitionMap(buf, &map); } DumpPartitionMap(kPartMapStart+i, &map); dierr = OpenSubVolume(&map); if (dierr != kDIErrNone) { if (dierr == kDIErrCancelled) goto bail; DiskFS* pNewFS = NULL; DiskImg* pNewImg = NULL; LOGI(" MacPart failed opening sub-volume %d", i); dierr = CreatePlaceholder(map.pmPyPartStart, map.pmPartBlkCnt, (const char*)map.pmPartName, (const char*)map.pmParType, &pNewImg, &pNewFS); if (dierr == kDIErrNone) { AddSubVolumeToList(pNewImg, pNewFS); } else { LOGI(" MacPart unable to create placeholder (err=%d)", dierr); break; // something's wrong -- bail out with error } } } bail: return dierr; }