//+------------------------------------------------------------------------- // // Microsoft Windows // Copyright (C) Microsoft Corporation, 1992 - 1992. // // File: difat.cxx // // Contents: Double Indirected Fat Code // // Classes: None. // // Functions: // // History: 11-May-92 PhilipLa Created. // //-------------------------------------------------------------------------- #include #pragma hdrstop #include #include #ifdef DIFAT_OPTIMIZATIONS #define OPTIMIZE_LOOKUP #define OPTIMIZE_FIXUP #endif //+------------------------------------------------------------------------- // // Method: CDIFat::CDIFat, public // // Synopsis: CDIFat copy constructor // // Arguments: [fatOld] -- reference to CDIFat to be copied. // // History: 11-May-92 PhilipLa Created. // //-------------------------------------------------------------------------- CDIFat::CDIFat(CDIFat *pfatOld) : _pmsParent(NULL), _fv(SIDDIF) { #ifdef DIFAT_LOOKUP_ARRAY _cUnmarked = 0; _fDoingFixup = FALSE; #endif } //+------------------------------------------------------------------------- // // Method: CDIFat::CDIFat, public // // Synopsis: CDIFat constructor // // Arguments: [pmsParent] -- Pointer to parent CMStream // // History: 11-May-92 PhilipLa Created. // //-------------------------------------------------------------------------- CDIFat::CDIFat() : _pmsParent(NULL), _fv(SIDDIF) { msfDebugOut((DEB_ITRACE,"In CDIFat constructor\n")); _cfsTable = 0; #ifdef DIFAT_LOOKUP_ARRAY _cUnmarked = 0; _fDoingFixup = FALSE; #endif msfDebugOut((DEB_ITRACE,"Out CDIFat constructor\n")); } //+--------------------------------------------------------------------------- // // Member: CDIFat::Empty, public // // Synopsis: Empty all the control structures of this instance // // Arguments: None. // // Returns: void. // // History: 04-Dec-92 PhilipLa Created // //---------------------------------------------------------------------------- void CDIFat::Empty(void) { _fv.Empty(); _pmsParent = NULL; _cfsTable = 0; } //+------------------------------------------------------------------------- // // Method: CIDFat::Flush, private // // Synopsis: Flush a sector to disk // // Arguments: [oSect] -- Indicated which sector to flush // // Returns: S_OK if call completed OK. // // Algorithm: Write sector up to parent mstream. // // History: 11-May-92 PhilipLa Created. // // Notes: // //-------------------------------------------------------------------------- SCODE CDIFat::Flush(void) { return _fv.Flush(); } //+------------------------------------------------------------------------- // // Method: CDIFat::GetFatSect, public // // Synopsis: Given an offset into the Fat chain, return the sector // value for that FatSect. // // Arguments: [oSect] -- offset in Fat chain // // Returns: Sector value of FatSect. // // Algorithm: If sector is stored in the header, retrieve it from // there. // If not, retrieve it from the FatVector. // // History: 11-May-92 PhilipLa Created. // //-------------------------------------------------------------------------- SCODE CDIFat::GetFatSect(const FSINDEX oSect, SECT *psect) { SCODE sc = S_OK; SECT sectReturn; msfDebugOut((DEB_ITRACE,"In CDIFat::GetFatSect(%lu)\n",oSect)); if (oSect < CSECTFAT) { msfDebugOut((DEB_ITRACE,"Getting sect from header\n")); sectReturn = _pmsParent->GetHeader()->GetFatSect(oSect); } else { FSINDEX ipfs; FSOFFSET isect; SectToPair(oSect,&ipfs,&isect); msfAssert(ipfs < _cfsTable); CFatSect *pfs; msfChk(_fv.GetTable(ipfs, FB_NONE, &pfs)); sectReturn = pfs->GetSect(isect); _fv.ReleaseTable(ipfs); } msfDebugOut((DEB_ITRACE,"Out CDIFat::GetFatSect(%lu)=>%lu\n",oSect,sectReturn)); *psect = sectReturn; Err: return sc; } //+------------------------------------------------------------------------- // // Method: CDIFat::SetFatSect, public // // Synopsis: Given an offset into the Fat chain, set the sector // value. // // Arguments: [oSect] -- Offset into fat chain // [sect] -- New sector value for that offset. // // Returns: S_OK if call completed OK. // // Algorithm: If the sector is stored in the header, set it and // flush the header. // Otherwise, if the sector will not fit in the current // CFatVector, resize it. // Set the sector in the FatVector and flush it. // // History: 11-May-92 PhilipLa Created. // //-------------------------------------------------------------------------- SCODE CDIFat::SetFatSect(const FSINDEX oSect, const SECT sect) { msfDebugOut((DEB_ITRACE,"In CDIFat::SetFatSect(%lu,%lu)\n",oSect,sect)); SCODE sc = S_OK; if (oSect < CSECTFAT) { msfDebugOut((DEB_ITRACE,"Setting sect in header: %lu, %lu\n",oSect,sect)); _pmsParent->GetHeader()->SetFatSect(oSect, sect); } else { FSINDEX ipfs; FSOFFSET isect; SectToPair(oSect,&ipfs,&isect); if (ipfs >= _cfsTable) { msfChk(Resize(_cfsTable + 1)); } CFatSect *pfs; msfChk(_fv.GetTable(ipfs, FB_DIRTY, &pfs)); pfs->SetSect(isect, sect); _fv.ReleaseTable(ipfs); msfDebugOut((DEB_ITRACE,"In CDIFat::SetFatSect(%lu,%lu)\n",oSect,sect)); } Err: return sc; } //+------------------------------------------------------------------------- // // Method: CDIFat::GetSect, public // // Synopsis: Given an offset into the DIFat chain, return the // sector value // // Arguments: [oSect] -- Offset into DIFat chain. // // Returns: Sector value for given offset. // // Algorithm: Retrieve the information from the NextFat fields of // the CFatVector // // History: 11-May-92 PhilipLa Created. // //-------------------------------------------------------------------------- SCODE CDIFat::GetSect(const FSINDEX oSect, SECT *psect) { SCODE sc = S_OK; SECT sectReturn; msfDebugOut((DEB_ITRACE,"In CDIFat::GetSect(%lu)\n",oSect)); msfAssert(oSect < _cfsTable); sectReturn = _pmsParent->GetHeader()->GetDifStart(); //Possible optimization here: Do some sort of check to //find the last page that's actually cached in the vector, //then start the loop from there. Probably not a terribly //important optimization, but it is possible. for (FSINDEX oCurrent = 0; oCurrent < oSect; oCurrent++) { msfAssert(sectReturn != ENDOFCHAIN); CFatSect *pfs; msfChk(_fv.GetTableWithSect(oCurrent, FB_NONE, sectReturn, (void **)&pfs)); sectReturn = pfs->GetNextFat(_fv.GetSectTable()); _fv.ReleaseTable(oCurrent); } msfDebugOut((DEB_ITRACE,"Out CDIFat::GetSect(%lu)=>%lu\n",oSect,sectReturn)); *psect = sectReturn; Err: return sc; } //+------------------------------------------------------------------------- // // Method: CDIFat::Init, public // // Synopsis: Init function for previously stored DIFat. // // Arguments: [cFatSect] -- Length of DIFat in sectors // // Returns: S_OK if call completed properly. // // Algorithm: *Finish This* // // History: 11-May-92 PhilipLa Created. // //-------------------------------------------------------------------------- SCODE CDIFat::Init(CMStream * pmsParent, const FSINDEX cFatSect) { msfDebugOut((DEB_ITRACE,"In CDIFat::Init(%lu)\n",cFatSect)); SCODE sc; _pmsParent = P_TO_BP(CBasedMStreamPtr, pmsParent); ULONG cbSector = pmsParent->GetSectorSize(); _fv.InitCommon( (FSOFFSET)(cbSector / sizeof(SECT)), (FSOFFSET)((cbSector / sizeof(SECT)) - 1)); msfChk(_fv.Init(pmsParent, cFatSect)); _cfsTable = cFatSect; msfDebugOut((DEB_ITRACE,"Out CDIFat::Init(%lu)\n",cFatSect)); Err: return sc; } //+------------------------------------------------------------------------- // // Method: CDIFat::InitNew, public // // Synopsis: Init function for new DIFat // // Arguments: [pmsParent] -- Pointer to parent multistream // // Returns: S_OK if call completed successfully. // // History: 11-May-92 PhilipLa Created. // //-------------------------------------------------------------------------- SCODE CDIFat::InitNew(CMStream *pmsParent) { _pmsParent = P_TO_BP(CBasedMStreamPtr, pmsParent); ULONG cbSector = pmsParent->GetSectorSize(); _fv.InitCommon( (FSOFFSET)(cbSector / sizeof(SECT)), (FSOFFSET)((cbSector / sizeof(SECT)) - 1)); _fv.Init(pmsParent, 0); _cfsTable = 0; return S_OK; } //+------------------------------------------------------------------------- // // Method: CDIFat::InitConvert, public // // Synopsis: Init function for conversion // // Arguments: [sectMax] -- Last used sector in existing file // // Returns: S_OK if call completed OK. // // Algorithm: *Finish This* // // History: 02-Jun-92 PhilipLa Created. // // Notes: // //-------------------------------------------------------------------------- SCODE CDIFat::InitConvert(CMStream *pmsParent, SECT sectMax) { msfDebugOut((DEB_ITRACE,"In CDIFat::InitConvert(%lu)\n",sectMax)); SCODE sc; _pmsParent = P_TO_BP(CBasedMStreamPtr, pmsParent); USHORT cbSector = pmsParent->GetSectorSize(); FSOFFSET csectPer = cbSector / sizeof(SECT); cbSector = pmsParent->GetSectorSize(); _fv.InitCommon(cbSector / sizeof(SECT), (cbSector / sizeof(SECT)) - 1); FSINDEX csectFat = 0; FSINDEX csectFatLast; FSINDEX csectDif = 0; FSINDEX csectDifLast; do { //Number of fat sectors needed to represent: // Number of Data Sectors (sectMax) + // Number of Fat Sectors (csectFat) + // Number of DIF sectors (csectDif) + // Number of Directory Sectors (1) //We must use a loop here, since the fat must be large // enough to represent itself and the DIFat. See // CFat::InitConvert for a more lengthy discussion of // this method. csectFatLast = csectFat; csectFat = (sectMax + csectFatLast + csectDif + 1 + csectPer - 1) / csectPer; csectDifLast = csectDif; if (csectFat < CSECTFAT) { csectDif = 0; } else { FSOFFSET ciSect; SectToPair(csectFat, &csectDif, &ciSect); csectDif++; } } while ((csectDif != csectDifLast) || (csectFat != csectFatLast)); _cfsTable = csectDif; msfChk(_fv.Init(pmsParent, _cfsTable)); pmsParent->GetHeader()->SetDifLength(_cfsTable); if (_cfsTable > 0) { pmsParent->GetHeader()->SetDifStart(sectMax); FSINDEX i; for (i = 0; i < _cfsTable; i++) { CFatSect *pfs; msfChk(_fv.GetTable(i, FB_NEW, &pfs)); _fv.SetSect(i, sectMax); sectMax++; pfs->SetNextFat(_fv.GetSectTable(),sectMax); _fv.ReleaseTable(i); } } msfDebugOut((DEB_ITRACE,"Out CDIFat::InitConvert()\n")); Err: return sc; } //+------------------------------------------------------------------------- // // Method: CDIFat::Remap, public // // Synopsis: Remap a Fat sector for copy-on-write // // Arguments: [oSect] -- Offset into fat chain to be remapped. // [psectReturn] -- pointer to return value // // Returns: S_OK if call was successful. // // Algorithm: *Finish This* // // History: 11-May-92 PhilipLa Created. // // Notes: // //-------------------------------------------------------------------------- SCODE CDIFat::Remap(const FSINDEX oSect, SECT * psectReturn) { msfDebugOut((DEB_ITRACE,"In CDIFat::Remap(%lu)\n",oSect)); SCODE sc = S_OK; SECT sectNew; SECT sectTemp; msfChk(GetFatSect(oSect, §Temp)); msfChk(_pmsParent->GetFat()->QueryRemapped(sectTemp)); if (sc == S_FALSE) { msfChk(_pmsParent->GetFat()->GetFree(1, §New, GF_READONLY)); #ifdef DIFAT_LOOKUP_ARRAY CacheUnmarkedSect(sectNew, FATSECT, sectTemp); #endif msfDebugOut((DEB_ITRACE,"Remapping fat sector %lu from %lu to %lu\n",oSect,sectTemp,sectNew)); msfChk(SetFatSect(oSect, sectNew)); } else { sectNew = ENDOFCHAIN; } msfDebugOut((DEB_ITRACE,"In CDIFat::Remap(%lu)=>%lu\n",oSect,sectNew)); *psectReturn = sectNew; Err: return sc; } //+------------------------------------------------------------------------- // // Method: CDIFat::RemapSelf, public // // Synopsis: Remap the entire DIFat for copy-on-write. // // Arguments: None. // // Returns: S_OK if DIFat was remapped successfully. // // Algorithm: *Finish This* // // History: 11-May-92 PhilipLa Created. // // Notes: // //-------------------------------------------------------------------------- SCODE CDIFat::RemapSelf(VOID) { msfDebugOut((DEB_ITRACE,"In CDIFat::RemapSelf()\n")); SECT sectNew, sect; SCODE sc = S_OK; CFatSect *pfs; FSINDEX i = 0; if (_cfsTable > 0) { sect = _pmsParent->GetHeader()->GetDifStart(); msfChk(_fv.GetTable(0, FB_DIRTY, &pfs)); msfChkTo(Err_Rel0, _pmsParent->GetFat()->GetFree(1, §New, GF_READONLY)); #ifdef DIFAT_LOOKUP_ARRAY SECT sectOld; sectOld = _pmsParent->GetHeader()->GetDifStart(); CacheUnmarkedSect(sectNew, DIFSECT, sectOld); #endif _pmsParent->GetHeader()->SetDifStart(sectNew); _fv.SetSect(0, sectNew); _fv.ReleaseTable(0); } for (i = 1; i < _cfsTable; i++) { CFatSect *pfs2; msfChk(_fv.GetTable(i - 1, FB_DIRTY, &pfs)); msfChkTo(Err_Rel1, _fv.GetTable(i, FB_DIRTY, &pfs2)); msfChkTo(Err_Rel, _pmsParent->GetFat()->GetFree( 1, §New, GF_READONLY)); #ifdef DIFAT_LOOKUP_ARRAY SECT sectOld; sectOld = pfs->GetNextFat(_fv.GetSectTable()); CacheUnmarkedSect(sectNew, DIFSECT, sectOld); #endif pfs->SetNextFat(_fv.GetSectTable(), sectNew); _fv.SetSect(i, sectNew); _fv.ReleaseTable(i - 1); _fv.ReleaseTable(i); } msfDebugOut((DEB_ITRACE,"In CDIFat::RemapSelf()\n")); Err: return sc; Err_Rel0: _fv.ReleaseTable(0); return sc; Err_Rel: _fv.ReleaseTable(i); Err_Rel1: _fv.ReleaseTable(i - 1); return sc; } //+------------------------------------------------------------------------- // // Method: CDIFat::Resize, private // // Synopsis: Resize an existing DIFat. // // Arguments: [fsiSize] -- New size for object // // Returns: Nothing right now. // // Algorithm: *Finish This* // // History: 11-May-92 PhilipLa Created. // // Notes: // //-------------------------------------------------------------------------- SCODE CDIFat::Resize(FSINDEX fsiSize) { msfDebugOut((DEB_ITRACE,"In CDIFat::Resize(%lu)\n",fsiSize)); msfAssert(fsiSize == _cfsTable + 1); SCODE sc; msfChk(_fv.Resize(fsiSize)); ULONG ipfs; ipfs = fsiSize - 1; CFatSect *pfs; msfChk(_fv.GetTable(ipfs, FB_NEW, &pfs)); FSINDEX csect; csect = _cfsTable; _cfsTable = fsiSize; SECT sectNew; #ifdef USE_NOSCRATCH //If we're in no-scratch mode, passing GF_WRITE to the fat here can // cause a nasty loop on Resize(). Do a read-only GetFree in that // case, and don't try to update the fat. if ((_pmsParent->HasNoScratch() #ifdef USE_NOSNAPSHOT || (_pmsParent->GetFat()->GetNoSnapshotFree() != ENDOFCHAIN) #endif )) { msfChk(_pmsParent->GetFat()->GetFree(1, §New, GF_READONLY)); #ifdef DIFAT_LOOKUP_ARRAY CacheUnmarkedSect(sectNew, DIFSECT, ENDOFCHAIN); #endif } else { #endif msfChk(_pmsParent->GetFat()->GetFree(1, §New, GF_WRITE)); msfChk(_pmsParent->GetFat()->SetNext(sectNew, DIFSECT)); #ifdef USE_NOSCRATCH } #endif #if DBG == 1 STATSTG stat; msfHChk(_pmsParent->GetILB()->Stat(&stat, STATFLAG_NONAME)); #ifdef LARGE_DOCFILE //msfAssert( // ConvertSectOffset(sectNew + 1, 0, _pmsParent->GetSectorShift()) <= // stat.cbSize.QuadPart); #else //msfAssert( // ConvertSectOffset(sectNew + 1, 0, _pmsParent->GetSectorShift()) <= // ULIGetLow(stat.cbSize)); #endif #endif _fv.SetSect(ipfs, sectNew); _fv.ReleaseTable(ipfs); if (csect == 0) { _pmsParent->GetHeader()->SetDifStart(sectNew); } else { CFatSect *pfs; msfChk(_fv.GetTable(csect - 1, FB_DIRTY, &pfs)); pfs->SetNextFat(_fv.GetSectTable(),sectNew); _fv.ReleaseTable(csect - 1); } _pmsParent->GetHeader()->SetDifLength(_cfsTable); msfDebugOut((DEB_ITRACE,"Out CDIFat::Resize(%lu)\n",fsiSize)); Err: return sc; } //+--------------------------------------------------------------------------- // // Member: CDIFat::Lookup, public // // Synopsis: Lookup a sector and see if it is in the DIFat. If it // is, return FATSECT if it is allocated to a fat sector // or DIFSECT if it is allocated to the DIF. // // Arguments: [sect] -- Sector to look up // [psectRet] -- Location for return value // [fReadOnly] -- If FALSE, decrement the dirty count // after returning the page. // // Returns: Appropriate status code // // Modifies: // // History: 23-Feb-93 PhilipLa Created // // Notes: // //---------------------------------------------------------------------------- SCODE CDIFat::Lookup(const SECT sect, SECT *psectRet) { SCODE sc = S_OK; *psectRet = FREESECT; #ifdef DIFAT_LOOKUP_ARRAY if (_cUnmarked <= DIFAT_ARRAY_SIZE) { for (USHORT iArray = 0; iArray < _cUnmarked; iArray++) { if (_sectUnmarked[iArray] == sect) { *psectRet = _sectMarkTo[iArray]; return S_OK; } } return S_OK; } #endif for (FSINDEX i = 0; i < _pmsParent->GetHeader()->GetDifLength(); i++) { SECT sectDif; msfChk(GetSect(i, §Dif)); if (sectDif == sect) { *psectRet = DIFSECT; return S_OK; } } #ifdef OPTIMIZE_LOOKUP CFatSect *pfs; pfs = NULL; FSINDEX ipfsLast; ipfsLast = (FSOFFSET) -1; FSINDEX ipfs; FSOFFSET isect; #endif for (i = 0; i < _pmsParent->GetHeader()->GetFatLength(); i++) { #ifndef OPTIMIZE_LOOKUP SECT sectFat; msfChk(GetFatSect(i, §Fat)); if (sectFat == sect) { *psectRet = FATSECT; return S_OK; } #else SECT sectFat; if (i < CSECTFAT) { sectFat = _pmsParent->GetHeader()->GetFatSect(i); } else { SectToPair(i, &ipfs, &isect); if (ipfs != ipfsLast) { if (pfs != NULL) { _fv.ReleaseTable(ipfsLast); } msfChk(_fv.GetTable(ipfs, FB_NONE, &pfs)); } sectFat = pfs->GetSect(isect); ipfsLast = ipfs; } if (sect == sectFat) { if (pfs != NULL) { _fv.ReleaseTable(ipfs); } *psectRet = FATSECT; return S_OK; } #endif } #ifdef OPTIMIZE_LOOKUP if (pfs != NULL) { _fv.ReleaseTable(ipfs); } #endif Err: return sc; } //+--------------------------------------------------------------------------- // // Member: CDIFat::Fixup, public // // Synopsis: Fixup the Fat after a copy-on-write commit. // // Arguments: [pmsShadow] -- Pointer to shadow multistream // // Returns: Appropriate status code // // Modifies: // // History: 23-Feb-93 PhilipLa Created // // Notes: // //---------------------------------------------------------------------------- SCODE CDIFat::Fixup(CMStream *pmsShadow) { SCODE sc = S_OK; BOOL fChanged; CFat *pfat = _pmsParent->GetFat(); #if DBG == 1 pfat->CheckFreeCount(); #endif #ifdef DIFAT_LOOKUP_ARRAY if (_fDoingFixup) return S_OK; _fDoingFixup = TRUE; if (_cUnmarked <= DIFAT_ARRAY_SIZE) { for (USHORT iArray = 0; (iArray < _cUnmarked) && (_cUnmarked <= DIFAT_ARRAY_SIZE); iArray++) { //sectNew may be out of the range of the current fat. //Check and resize if necessary. This is needed for //no-scratch mode. FSINDEX ipfs; FSOFFSET isect; pfat->SectToPair(_sectUnmarked[iArray], &ipfs, &isect); if (ipfs >= pfat->GetFatVectorLength()) { msfChk(pfat->Resize(ipfs + 1)); } msfChk(pfat->SetNext(_sectUnmarked[iArray], _sectMarkTo[iArray])); if (_sectFree[iArray] != ENDOFCHAIN) { msfChk(pfat->SetNext(_sectFree[iArray], FREESECT)); } } } if (_cUnmarked <= DIFAT_ARRAY_SIZE) { _cUnmarked = 0; pfat->ResetUnmarkedSects(); _fDoingFixup = FALSE; return S_OK; } #endif #ifdef USE_NOSCRATCH if (pmsShadow != NULL) { #endif CDIFat *pdifOld = pmsShadow->GetDIFat(); FSINDEX cFatOld = pmsShadow->GetHeader()->GetFatLength(); FSINDEX cDifOld = pmsShadow->GetHeader()->GetDifLength(); for (FSINDEX i = 0; i < _pmsParent->GetHeader()->GetDifLength(); i++) { SECT sectNew; SECT sectOld = ENDOFCHAIN; SECT sectCurrent; msfChk(GetSect(i, §New)); if (i < cDifOld) msfChk(pdifOld->GetSect(i, §Old)); if ((sectNew != sectOld) || (sectOld == ENDOFCHAIN)) { #ifdef USE_NOSCRATCH //sectNew may be out of the range of the current fat. //Check and resize if necessary. FSINDEX ipfs; FSOFFSET isect; pfat->SectToPair(sectNew, &ipfs, &isect); if (ipfs >= pfat->GetFatVectorLength()) { msfChk(pfat->Resize(ipfs + 1)); } #endif msfChk(pfat->GetNext(sectNew, §Current)); if (sectCurrent != DIFSECT) { msfChk(pfat->SetNext(sectNew, DIFSECT)); } if (sectOld != ENDOFCHAIN) { //sectOld should always be within the range of the //fat, so we don't need to check and resize here. msfChk(pfat->GetNext(sectOld, §Current)); if (sectCurrent != FREESECT) { msfChk(pfat->SetNext(sectOld, FREESECT)); } } } } do { fChanged = FALSE; #ifdef OPTIMIZE_FIXUP CFatSect *pfs; pfs = NULL; FSINDEX ipfsLast; ipfsLast = (FSOFFSET) - 1; FSINDEX ipfs; FSOFFSET isect; CFatSect *pfsShadow; pfsShadow = NULL; FSINDEX ipfsLastShadow; ipfsLastShadow = (FSOFFSET) - 1; FSINDEX ipfsShadow; FSOFFSET isectShadow; #endif for (i = 0; i < _pmsParent->GetHeader()->GetFatLength(); i++) { SECT sectNew; SECT sectCurrent; SECT sectOld = ENDOFCHAIN; #ifndef OPTIMIZE_FIXUP msfChk(GetFatSect(i, §New)); #else if (i < CSECTFAT) { sectNew = _pmsParent->GetHeader()->GetFatSect(i); } else { SectToPair(i, &ipfs, &isect); if (ipfs != ipfsLast) { if (pfs != NULL) { _fv.ReleaseTable(ipfsLast); } msfChk(_fv.GetTable(ipfs, FB_NONE, &pfs)); } sectNew = pfs->GetSect(isect); ipfsLast = ipfs; } #endif #ifndef OPTIMIZE_FIXUP if (i < cFatOld) msfChk(pdifOld->GetFatSect(i, §Old)); #else if (i < cFatOld) { if (i < CSECTFAT) { sectOld = pmsShadow->GetHeader()->GetFatSect(i); } else { SectToPair(i, &ipfsShadow, &isectShadow); if (ipfsShadow != ipfsLastShadow) { if (pfsShadow != NULL) { pdifOld->_fv.ReleaseTable(ipfsLastShadow); } msfChk(pdifOld->_fv.GetTable(ipfsShadow, FB_NONE, &pfsShadow)); } sectOld = pfsShadow->GetSect(isectShadow); ipfsLastShadow = ipfsShadow; } } #endif if ((sectNew != sectOld) || (sectOld == ENDOFCHAIN)) { //Sector has been remapped. #ifdef USE_NOSCRATCH //sectNew may be outside the range of the current //fat. Check and resize if necessary. //If we resize, set fChanged, since we may need to //go through again. FSINDEX ipfs; FSOFFSET isect; pfat->SectToPair(sectNew, &ipfs, &isect); if (ipfs >= pfat->GetFatVectorLength()) { msfChk(pfat->Resize(ipfs + 1)); fChanged = TRUE; } #endif msfChk(pfat->GetNext(sectNew, §Current)); if (sectCurrent != FATSECT) { msfChk(pfat->SetNext(sectNew, FATSECT)); fChanged = TRUE; } if (sectOld != ENDOFCHAIN) { //sectOld is always inside the existing fat, //so we don't need to check and resize. msfChk(pfat->GetNext(sectOld, §Current)); if (sectCurrent != FREESECT) { msfChk(pfat->SetNext(sectOld, FREESECT)); fChanged = TRUE; } } } } #ifdef OPTIMIZE_FIXUP if (pfs != NULL) _fv.ReleaseTable(ipfsLast); if (pfsShadow != NULL) pdifOld->_fv.ReleaseTable(ipfsLastShadow); #endif } while (fChanged); #ifdef USE_NOSCRATCH } else { //This is for fixing the fat while in overwrite mode with // no-scratch. do { fChanged = FALSE; for (FSINDEX i = 0; i < _pmsParent->GetHeader()->GetFatLength(); i++) { SECT sectNew; SECT sectCurrent; msfChk(GetFatSect(i, §New)); //sectNew may be outside the range of the current fat. If //so, resize the fat. FSINDEX ipfs; FSOFFSET isect; pfat->SectToPair(sectNew, &ipfs, &isect); if (ipfs >= pfat->GetFatVectorLength()) { msfChk(pfat->Resize(ipfs + 1)); fChanged = TRUE; } msfChk(pfat->GetNext(sectNew, §Current)); if (sectCurrent != FATSECT) { msfChk(pfat->SetNext(sectNew, FATSECT)); fChanged = TRUE; } } } while (fChanged); } #endif pfat->ResetUnmarkedSects(); #ifdef DIFAT_LOOKUP_ARRAY _cUnmarked = 0; #endif Err: #ifdef DIFAT_LOOKUP_ARRAY _fDoingFixup = FALSE; #endif #if DBG == 1 pfat->CheckFreeCount(); #endif return sc; }