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https://github.com/fadden/ciderpress.git
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aa3145856c
Focusing on the diskimg library this time, which deals with a lot of filesystem structures that have specific widths. This is still a bit lax in places, e.g. using "long" for lengths. Should either specify a bit width or use di_off_t. Also, added "override" keyword where appropriate. Also, bumped library version to 5.0.0.
360 lines
11 KiB
C++
360 lines
11 KiB
C++
/*
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* CiderPress
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* Copyright (C) 2007 by faddenSoft, LLC. All Rights Reserved.
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* See the file LICENSE for distribution terms.
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*/
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/*
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* Implementation of DiskFSUNIDOS class.
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*
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* The "UNIDOS" filesystem doesn't actually hold files. Instead, it holds
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* two 400K DOS 3.3 volumes on an 800K disk.
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*
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* We do have a test here for "wide" DOS 3.3, which is largely a clone of
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* the standard DOS 3.3 test. The trick is that we have to adjust our
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* detection to account for 32-sector tracks, and do so while the object
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* is still in a state where it believes it has 16 sectors per track.
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*/
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#include "StdAfx.h"
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#include "DiskImgPriv.h"
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/*
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* ===========================================================================
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* DiskFSUNIDOS
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* ===========================================================================
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*/
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const int kExpectedNumBlocks = 1600;
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const int kExpectedTracks = 50;
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const int kExpectedSectors = 32;
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const int kVTOCTrack = 17;
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const int kVTOCSector = 0;
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const int kSctSize = 256;
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const int kCatalogEntrySize = 0x23; // length in bytes of catalog entries
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const int kCatalogEntriesPerSect = 7; // #of entries per catalog sector
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const int kMaxTSPairs = 0x7a; // 122 entries for 256-byte sectors
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const int kTSOffset = 0x0c; // first T/S entry in a T/S list
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const int kMaxTSIterations = 32;
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const int kMaxCatalogIterations = 64;
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/*
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* Read a track/sector, adjusting for 32-sector disks being treated as
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* if they were 16-sector.
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*/
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static DIError ReadTrackSectorAdjusted(DiskImg* pImg, int track, int sector,
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int trackOffset, uint8_t* buf, DiskImg::SectorOrder imageOrder)
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{
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track += trackOffset;
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track *= 2;
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if (sector >= 16) {
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track++;
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sector -= 16;
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}
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return pImg->ReadTrackSectorSwapped(track, sector, buf, imageOrder,
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DiskImg::kSectorOrderDOS);
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}
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/*
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* Test for presence of 400K DOS 3.3 volumes.
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*/
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static DIError TestImageHalf(DiskImg* pImg, int trackOffset,
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DiskImg::SectorOrder imageOrder, int* pGoodCount)
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{
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DIError dierr = kDIErrNone;
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uint8_t sctBuf[kSctSize];
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int numTracks, numSectors;
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int catTrack, catSect;
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int foundGood = 0;
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int iterations = 0;
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*pGoodCount = 0;
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dierr = ReadTrackSectorAdjusted(pImg, kVTOCTrack, kVTOCSector,
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trackOffset, sctBuf, imageOrder);
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if (dierr != kDIErrNone)
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goto bail;
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catTrack = sctBuf[0x01];
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catSect = sctBuf[0x02];
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numTracks = sctBuf[0x34];
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numSectors = sctBuf[0x35];
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if (!(sctBuf[0x27] == kMaxTSPairs) ||
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/*!(sctBuf[0x36] == 0 && sctBuf[0x37] == 1) ||*/ // bytes per sect
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!(numTracks == kExpectedTracks) ||
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!(numSectors == 32) ||
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!(catTrack < numTracks && catSect < numSectors) ||
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0)
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{
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LOGI(" UNI/Wide DOS header test failed");
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dierr = kDIErrFilesystemNotFound;
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goto bail;
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}
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foundGood++; // score one for a valid-looking VTOC
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/*
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* Walk through the catalog track to try to figure out ordering.
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*/
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while (catTrack != 0 && catSect != 0 &&
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iterations < DiskFSDOS33::kMaxCatalogSectors)
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{
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dierr = ReadTrackSectorAdjusted(pImg, catTrack, catSect,
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trackOffset, sctBuf, imageOrder);
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if (dierr != kDIErrNone) {
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dierr = kDIErrNone;
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break; /* allow it if earlier stuff was okay */
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}
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if (catTrack == sctBuf[1] && catSect == sctBuf[2] +1)
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foundGood++;
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else if (catTrack == sctBuf[1] && catSect == sctBuf[2]) {
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LOGI(" WideDOS detected self-reference on cat (%d,%d)",
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catTrack, catSect);
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break;
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}
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catTrack = sctBuf[1];
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catSect = sctBuf[2];
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iterations++; // watch for infinite loops
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}
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if (iterations >= DiskFSDOS33::kMaxCatalogSectors) {
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dierr = kDIErrDirectoryLoop;
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LOGI(" WideDOS directory links cause a loop");
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goto bail;
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}
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LOGI(" WideDOS foundGood=%d off=%d swap=%d", foundGood,
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trackOffset, imageOrder);
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*pGoodCount = foundGood;
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bail:
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return dierr;
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}
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/*
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* Test both of the DOS partitions.
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*/
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static DIError TestImage(DiskImg* pImg, DiskImg::SectorOrder imageOrder,
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int* pGoodCount)
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{
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DIError dierr;
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int goodCount1, goodCount2;
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*pGoodCount = 0;
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LOGI(" UNIDOS checking first half (imageOrder=%d)", imageOrder);
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dierr = TestImageHalf(pImg, 0, imageOrder, &goodCount1);
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if (dierr != kDIErrNone)
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return dierr;
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LOGI(" UNIDOS checking second half (imageOrder=%d)", imageOrder);
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dierr = TestImageHalf(pImg, kExpectedTracks, imageOrder, &goodCount2);
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if (dierr != kDIErrNone)
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return dierr;
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if (goodCount1 > goodCount2)
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*pGoodCount = goodCount1;
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else
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*pGoodCount = goodCount2;
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return kDIErrNone;
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}
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/*
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* Test to see if the image is a UNIDOS volume.
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*/
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/*static*/ DIError DiskFSUNIDOS::TestFS(DiskImg* pImg, DiskImg::SectorOrder* pOrder,
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DiskImg::FSFormat* pFormat, FSLeniency leniency)
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{
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/* only on 800K disks (at the least, insist on numTracks being even) */
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if (pImg->GetNumBlocks() != kExpectedNumBlocks)
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return kDIErrFilesystemNotFound;
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DiskImg::SectorOrder ordering[DiskImg::kSectorOrderMax];
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DiskImg::GetSectorOrderArray(ordering, *pOrder);
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DiskImg::SectorOrder bestOrder = DiskImg::kSectorOrderUnknown;
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int bestCount = 0;
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for (int i = 0; i < DiskImg::kSectorOrderMax; i++) {
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int goodCount = 0;
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if (ordering[i] == DiskImg::kSectorOrderUnknown)
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continue;
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if (TestImage(pImg, ordering[i], &goodCount) == kDIErrNone) {
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if (goodCount > bestCount) {
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bestCount = goodCount;
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bestOrder = ordering[i];
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}
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}
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}
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if (bestCount >= 4 ||
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(leniency == kLeniencyVery && bestCount >= 2))
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{
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LOGI(" WideDOS test: bestCount=%d for order=%d", bestCount, bestOrder);
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assert(bestOrder != DiskImg::kSectorOrderUnknown);
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*pOrder = bestOrder;
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*pFormat = DiskImg::kFormatUNIDOS;
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return kDIErrNone;
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}
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LOGI(" UNIDOS didn't find valid FS");
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return kDIErrFilesystemNotFound;
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}
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/*
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* Test to see if the image is a 'wide' (32-sector) DOS3.3 volume, i.e.
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* half of a UNIDOS volume (usually found embedded in ProDOS).
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*
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* Trying all possible formats is important here, because the wrong value for
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* swap can return a "good" value of 7 (much less than the expected 30, but
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* above a threshold of reasonableness).
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*/
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/*static*/ DIError DiskFSUNIDOS::TestWideFS(DiskImg* pImg, DiskImg::SectorOrder* pOrder,
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DiskImg::FSFormat* pFormat, FSLeniency leniency)
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{
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/* only on 400K "disks" */
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if (pImg->GetNumBlocks() != kExpectedNumBlocks/2) {
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LOGI(" WideDOS ignoring volume (numBlocks=%ld)",
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pImg->GetNumBlocks());
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return kDIErrFilesystemNotFound;
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}
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DiskImg::SectorOrder ordering[DiskImg::kSectorOrderMax];
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DiskImg::GetSectorOrderArray(ordering, *pOrder);
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DiskImg::SectorOrder bestOrder = DiskImg::kSectorOrderUnknown;
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int bestCount = 0;
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for (int i = 0; i < DiskImg::kSectorOrderMax; i++) {
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int goodCount = 0;
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if (ordering[i] == DiskImg::kSectorOrderUnknown)
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continue;
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if (TestImageHalf(pImg, 0, ordering[i], &goodCount) == kDIErrNone) {
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if (goodCount > bestCount) {
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bestCount = goodCount;
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bestOrder = ordering[i];
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}
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}
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}
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if (bestCount >= 4 ||
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(leniency == kLeniencyVery && bestCount >= 2))
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{
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LOGI(" UNI/Wide test: bestCount=%d for order=%d", bestCount, bestOrder);
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assert(bestOrder != DiskImg::kSectorOrderUnknown);
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*pOrder = bestOrder;
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*pFormat = DiskImg::kFormatDOS33;
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// up to the caller to adjust numTracks/numSectPerTrack
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return kDIErrNone;
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}
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LOGI(" UNI/Wide didn't find valid FS");
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return kDIErrFilesystemNotFound;
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}
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/*
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* Set up our sub-volumes.
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*/
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DIError DiskFSUNIDOS::Initialize(void)
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{
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DIError dierr = kDIErrNone;
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if (fScanForSubVolumes != kScanSubDisabled) {
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dierr = OpenSubVolume(0);
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if (dierr != kDIErrNone)
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return dierr;
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dierr = OpenSubVolume(1);
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if (dierr != kDIErrNone)
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return dierr;
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} else {
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LOGI(" UNIDOS not scanning for sub-volumes");
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}
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SetVolumeUsageMap();
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return kDIErrNone;
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}
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/*
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* Open up one of the DOS 3.3 sub-volumes.
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*/
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DIError DiskFSUNIDOS::OpenSubVolume(int idx)
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{
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DIError dierr = kDIErrNone;
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DiskFS* pNewFS = NULL;
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DiskImg* pNewImg = NULL;
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pNewImg = new DiskImg;
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if (pNewImg == NULL) {
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dierr = kDIErrMalloc;
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goto bail;
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}
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dierr = pNewImg->OpenImage(fpImg, kExpectedTracks * idx, 0,
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kExpectedTracks * kExpectedSectors);
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if (dierr != kDIErrNone) {
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LOGI(" UNISub: OpenImage(%d,0,%d) failed (err=%d)",
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kExpectedTracks * idx, kExpectedTracks * kExpectedSectors, dierr);
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goto bail;
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}
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dierr = pNewImg->AnalyzeImage();
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if (dierr != kDIErrNone) {
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LOGI(" UNISub: analysis failed (err=%d)", dierr);
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goto bail;
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}
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if (pNewImg->GetFSFormat() == DiskImg::kFormatUnknown ||
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pNewImg->GetSectorOrder() == DiskImg::kSectorOrderUnknown)
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{
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LOGI(" UNISub: unable to identify filesystem");
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dierr = kDIErrUnsupportedFSFmt;
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goto bail;
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}
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/* open a DiskFS for the sub-image */
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LOGI(" UNISub %d succeeded!", idx);
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pNewFS = pNewImg->OpenAppropriateDiskFS();
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if (pNewFS == NULL) {
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LOGI(" UNISub: OpenAppropriateDiskFS failed");
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dierr = kDIErrUnsupportedFSFmt;
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goto bail;
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}
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/* load the files from the sub-image */
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dierr = pNewFS->Initialize(pNewImg, kInitFull);
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if (dierr != kDIErrNone) {
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LOGE(" UNISub: error %d reading list of files from disk", dierr);
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goto bail;
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}
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/* if this really is DOS 3.3, override the "volume name" */
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if (pNewImg->GetFSFormat() == DiskImg::kFormatDOS33) {
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DiskFSDOS33* pDOS = (DiskFSDOS33*) pNewFS; /* eek, a downcast */
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pDOS->SetDiskVolumeNum(idx+1);
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}
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/*
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* Success, add it to the sub-volume list.
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*/
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AddSubVolumeToList(pNewImg, pNewFS);
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bail:
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if (dierr != kDIErrNone) {
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delete pNewFS;
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delete pNewImg;
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}
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return dierr;
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}
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