static BOOL RemoveVolume(PVOLINFO pVolInfo) { PVOLINFO pNext; USHORT rc; if (pGlobVolInfo == pVolInfo) { pGlobVolInfo = pVolInfo->pNextVolInfo; return TRUE; } pNext = (PVOLINFO)pGlobVolInfo; while (pNext) { rc = MY_PROBEBUF(PB_OPWRITE, (PBYTE)pNext, sizeof (VOLINFO)); if (rc) { FatalMessage("FAT32: Protection VIOLATION in RemoveVolume!\n"); return FALSE; } if (pNext->pNextVolInfo == pVolInfo) { pNext->pNextVolInfo = pVolInfo->pNextVolInfo; return TRUE; } pNext = (PVOLINFO)pNext->pNextVolInfo; } return FALSE; }
int far pascal __loadds FS_MOUNT(unsigned short usFlag, /* flag */ struct vpfsi far * pvpfsi, /* pvpfsi */ struct vpfsd far * pvpfsd, /* pvpfsd */ unsigned short hVBP, /* hVPB */ char far * pBoot /* pBoot */) { PBOOTSECT pSect; PVOLINFO pVolInfo; PVOLINFO pNext, pPrev; USHORT usVolCount; USHORT hDupVBP; USHORT rc; P_DriverCaps pDevCaps; P_VolChars pVolChars; _asm push es; //_asm push bx; if (f32Parms.fMessageActive & LOG_FS) Message("FS_MOUNT for %c (%d):, flag = %d", pvpfsi->vpi_drive + 'A', pvpfsi->vpi_unit, usFlag); switch (usFlag) { case MOUNT_MOUNT : if (FSH_FINDDUPHVPB(hVBP, &hDupVBP)) hDupVBP = 0; pSect = (PBOOTSECT)pBoot; if (memicmp(pSect->FileSystem, "FAT32", 5)) { rc = ERROR_VOLUME_NOT_MOUNTED; goto FS_MOUNT_EXIT; } if (pSect->bpb.BytesPerSector != SECTOR_SIZE) { rc = ERROR_VOLUME_NOT_MOUNTED; goto FS_MOUNT_EXIT; } if(( ULONG )pSect->bpb.BytesPerSector * pSect->bpb.SectorsPerCluster > MAX_CLUSTER_SIZE ) { rc = ERROR_VOLUME_NOT_MOUNTED; goto FS_MOUNT_EXIT; } pvpfsi->vpi_vid = pSect->ulVolSerial; pvpfsi->vpi_bsize = pSect->bpb.BytesPerSector; pvpfsi->vpi_totsec = pSect->bpb.BigTotalSectors; pvpfsi->vpi_trksec = pSect->bpb.SectorsPerTrack; pvpfsi->vpi_nhead = pSect->bpb.Heads; memset(pvpfsi->vpi_text, 0, sizeof pvpfsi->vpi_text); memcpy(pvpfsi->vpi_text, pSect->VolumeLabel, sizeof pSect->VolumeLabel); pVolInfo = gdtAlloc(STORAGE_NEEDED, FALSE); if (!pVolInfo) { rc = ERROR_NOT_ENOUGH_MEMORY; goto FS_MOUNT_EXIT; } rc = FSH_FORCENOSWAP(SELECTOROF(pVolInfo)); if (rc) FatalMessage("FSH_FORCENOSWAP on VOLINFO Segment failed, rc=%u", rc); memset(pVolInfo, 0, (size_t)STORAGE_NEEDED); InitCache(ulCacheSectors); memcpy(&pVolInfo->BootSect, pSect, sizeof (BOOTSECT)); pVolInfo->ulActiveFatStart = pSect->bpb.ReservedSectors; if (pSect->bpb.ExtFlags & 0x0080) pVolInfo->ulActiveFatStart += pSect->bpb.BigSectorsPerFat * (pSect->bpb.ExtFlags & 0x000F); pVolInfo->ulStartOfData = pSect->bpb.ReservedSectors + pSect->bpb.BigSectorsPerFat * pSect->bpb.NumberOfFATs; pVolInfo->pBootFSInfo = (PBOOTFSINFO)(pVolInfo + 1); pVolInfo->pbFatSector = (PBYTE)(pVolInfo->pBootFSInfo + 1); pVolInfo->ulCurFatSector = -1L; pVolInfo->usClusterSize = pSect->bpb.BytesPerSector * pSect->bpb.SectorsPerCluster; pVolInfo->ulTotalClusters = (pSect->bpb.BigTotalSectors - pVolInfo->ulStartOfData) / pSect->bpb.SectorsPerCluster; pVolInfo->hVBP = hVBP; pVolInfo->hDupVBP = hDupVBP; pVolInfo->bDrive = pvpfsi->vpi_drive; pVolInfo->bUnit = pvpfsi->vpi_unit; pVolInfo->pNextVolInfo = NULL; pVolInfo->fFormatInProgress = FALSE; if (usDefaultRASectors == 0xFFFF) pVolInfo->usRASectors = (pVolInfo->usClusterSize / SECTOR_SIZE ) * 2; else pVolInfo->usRASectors = usDefaultRASectors; #if 1 if( pVolInfo->usRASectors > MAX_RASECTORS ) pVolInfo->usRASectors = MAX_RASECTORS; #else if (pVolInfo->usRASectors > (pVolInfo->usClusterSize / SECTOR_SIZE) * 4) pVolInfo->usRASectors = (pVolInfo->usClusterSize / SECTOR_SIZE ) * 4; #endif if (pSect->bpb.FSinfoSec != 0xFFFF) { ReadSector(pVolInfo, pSect->bpb.FSinfoSec, 1, pVolInfo->pbFatSector, DVIO_OPNCACHE); memcpy(pVolInfo->pBootFSInfo, pVolInfo->pbFatSector + FSINFO_OFFSET, sizeof (BOOTFSINFO)); } else memset(pVolInfo->pBootFSInfo, 0, sizeof (BOOTFSINFO)); *((PVOLINFO *)(pvpfsd->vpd_work)) = pVolInfo; if (!pGlobVolInfo) { pGlobVolInfo = pVolInfo; usVolCount = 1; } else { pNext = pGlobVolInfo; usVolCount = 1; if (pNext->bDrive == pvpfsi->vpi_drive && !pVolInfo->hDupVBP) pVolInfo->hDupVBP = pNext->hVBP; while (pNext->pNextVolInfo) { pNext = (PVOLINFO)pNext->pNextVolInfo; if (pNext->bDrive == pvpfsi->vpi_drive && !pVolInfo->hDupVBP) pVolInfo->hDupVBP = pNext->hVBP; usVolCount++; } pNext->pNextVolInfo = pVolInfo; usVolCount++; } if (f32Parms.fMessageActive & LOG_FS) Message("%u Volumes mounted!", usVolCount); rc = CheckWriteProtect(pVolInfo); if (rc && rc != ERROR_WRITE_PROTECT) { Message("Cannot access drive, rc = %u", rc); goto FS_MOUNT_EXIT; } if (rc == ERROR_WRITE_PROTECT) pVolInfo->fWriteProtected = TRUE; pVolInfo->fDiskCleanOnMount = pVolInfo->fDiskClean = GetDiskStatus(pVolInfo); if (!pVolInfo->fDiskCleanOnMount) Message("DISK IS DIRTY!"); if (pVolInfo->fWriteProtected) pVolInfo->fDiskCleanOnMount = TRUE; if (!pVolInfo->hDupVBP && (f32Parms.fCalcFree || pVolInfo->pBootFSInfo->ulFreeClusters == 0xFFFFFFFF || /*!pVolInfo->fDiskClean ||*/ pVolInfo->BootSect.bpb.FSinfoSec == 0xFFFF)) GetFreeSpace(pVolInfo); pDevCaps = pvpfsi->vpi_pDCS; pVolChars = pvpfsi->vpi_pVCS; if (pDevCaps->Capabilities & GDC_DD_Read2) Message("Read2 supported"); if (pDevCaps->Capabilities & GDC_DD_DMA_Word) Message("DMA on word alligned buffers supported"); if (pDevCaps->Capabilities & GDC_DD_DMA_Byte) Message("DMA on byte alligned buffers supported"); if (pDevCaps->Capabilities & GDC_DD_Mirror) Message("Disk Mirroring supported"); if (pDevCaps->Capabilities & GDC_DD_Duplex) Message("Disk Duplexing supported"); if (pDevCaps->Capabilities & GDC_DD_No_Block) Message("Strategy2 does not block"); if (pDevCaps->Capabilities & GDC_DD_16M) Message(">16M supported"); if (pDevCaps->Strategy2) { Message("Strategy2 address at %lX", pDevCaps->Strategy2); Message("ChgPriority address at %lX", pDevCaps->ChgPriority); pVolInfo->pfnStrategy = (STRATFUNC)pDevCaps->Strategy2; pVolInfo->pfnPriority = (STRATFUNC)pDevCaps->ChgPriority; } rc = 0; break; case MOUNT_ACCEPT : if (FSH_FINDDUPHVPB(hVBP, &hDupVBP)) hDupVBP = 0; if (pvpfsi->vpi_bsize != SECTOR_SIZE) { rc = ERROR_VOLUME_NOT_MOUNTED; goto FS_MOUNT_EXIT; } pVolInfo = gdtAlloc(STORAGE_NEEDED, FALSE); if (!pVolInfo) { rc = ERROR_NOT_ENOUGH_MEMORY; goto FS_MOUNT_EXIT; } rc = FSH_FORCENOSWAP(SELECTOROF(pVolInfo)); if (rc) FatalMessage("FSH_FORCENOSWAP on VOLINFO Segment failed, rc=%u", rc); memset(pVolInfo, 0, (size_t)STORAGE_NEEDED); //InitCache(ulCacheSectors); memset(&pVolInfo->BootSect, 0, sizeof (BOOTSECT)); pVolInfo->BootSect.bpb.BigTotalSectors = pvpfsi->vpi_totsec; pVolInfo->BootSect.bpb.BytesPerSector = pvpfsi->vpi_bsize; pVolInfo->fWriteProtected = FALSE; pVolInfo->fDiskCleanOnMount = FALSE; pVolInfo->hVBP = hVBP; pVolInfo->hDupVBP = hDupVBP; pVolInfo->bDrive = pvpfsi->vpi_drive; pVolInfo->bUnit = pvpfsi->vpi_unit; pVolInfo->pNextVolInfo = NULL; // the volume is being formatted pVolInfo->fFormatInProgress = TRUE; // fake values assuming sector == cluster pVolInfo->usClusterSize = pvpfsi->vpi_bsize; pVolInfo->ulTotalClusters = pvpfsi->vpi_totsec; pVolInfo->usRASectors = usDefaultRASectors; // undefined pVolInfo->ulStartOfData = 0; //*((PVOLINFO *)(pvpfsd->vpd_work)) = pVolInfo; if (!pGlobVolInfo) { pGlobVolInfo = pVolInfo; usVolCount = 1; } else { pNext = pGlobVolInfo; usVolCount = 1; if (pNext->bDrive == pvpfsi->vpi_drive && !pVolInfo->hDupVBP) pVolInfo->hDupVBP = pNext->hVBP; while (pNext->pNextVolInfo) { pNext = (PVOLINFO)pNext->pNextVolInfo; if (pNext->bDrive == pvpfsi->vpi_drive && !pVolInfo->hDupVBP) pVolInfo->hDupVBP = pNext->hVBP; usVolCount++; } pNext->pNextVolInfo = pVolInfo; usVolCount++; } if (f32Parms.fMessageActive & LOG_FS) Message("%u Volumes mounted!", usVolCount); pDevCaps = pvpfsi->vpi_pDCS; pVolChars = pvpfsi->vpi_pVCS; if (pDevCaps->Capabilities & GDC_DD_Read2) Message("Read2 supported"); if (pDevCaps->Capabilities & GDC_DD_DMA_Word) Message("DMA on word alligned buffers supported"); if (pDevCaps->Capabilities & GDC_DD_DMA_Byte) Message("DMA on byte alligned buffers supported"); if (pDevCaps->Capabilities & GDC_DD_Mirror) Message("Disk Mirroring supported"); if (pDevCaps->Capabilities & GDC_DD_Duplex) Message("Disk Duplexing supported"); if (pDevCaps->Capabilities & GDC_DD_No_Block) Message("Strategy2 does not block"); if (pDevCaps->Capabilities & GDC_DD_16M) Message(">16M supported"); if (pDevCaps->Strategy2) { Message("Strategy2 address at %lX", pDevCaps->Strategy2); Message("ChgPriority address at %lX", pDevCaps->ChgPriority); pVolInfo->pfnStrategy = (STRATFUNC)pDevCaps->Strategy2; pVolInfo->pfnPriority = (STRATFUNC)pDevCaps->ChgPriority; } rc = 0; break; case MOUNT_VOL_REMOVED: case MOUNT_RELEASE: pVolInfo = GetVolInfo(hVBP); if (!pVolInfo) { rc = ERROR_VOLUME_NOT_MOUNTED; goto FS_MOUNT_EXIT; } //if (!pVolInfo->hDupVBP) //{ usFlushVolume( pVolInfo, FLUSH_DISCARD, TRUE, PRIO_URGENT ); if (f32Parms.usDirtySectors) // vs UpdateFSInfo(pVolInfo); // MarkDiskStatus(pVolInfo, TRUE); //} // delete pVolInfo from the list if (pGlobVolInfo) { pNext = pPrev = pGlobVolInfo; // search for pVolInfo in the list while (pNext != pVolInfo) { pPrev = pNext; pNext = (PVOLINFO)pNext->pNextVolInfo; } // found if (pNext == pVolInfo) { if (pPrev == pVolInfo) // the very 1st list item pGlobVolInfo = NULL; else { // delete it pNext = pNext->pNextVolInfo; pPrev->pNextVolInfo = pNext; } usVolCount--; } } RemoveVolume(pVolInfo); freeseg(pVolInfo); rc = 0; break; default : rc = ERROR_NOT_SUPPORTED; break; } FS_MOUNT_EXIT: if (f32Parms.fMessageActive & LOG_FS) Message("FS_MOUNT returned %u\n", rc); //_asm int 3 //_asm pop bx; _asm pop es; return rc; }
int far pascal FS_MOUNT(unsigned short usFlag, /* flag */ struct vpfsi far * pvpfsi, /* pvpfsi */ struct vpfsd far * pvpfsd, /* pvpfsd */ unsigned short hVBP, /* hVPB */ char far * pBoot /* pBoot */) { PBOOTSECT pSect; PVOLINFO pVolInfo; PVOLINFO pNext; USHORT usVolCount; USHORT hDupVBP; USHORT rc; P_DriverCaps pDevCaps; P_VolChars pVolChars; if (f32Parms.fMessageActive & LOG_FS) Message("FS_MOUNT for %c (%d):, flag = %d", pvpfsi->vpi_drive + 'A', pvpfsi->vpi_unit, usFlag); switch (usFlag) { case MOUNT_MOUNT : if (FSH_FINDDUPHVPB(hVBP, &hDupVBP)) hDupVBP = 0; pSect = (PBOOTSECT)pBoot; if (memicmp(pSect->FileSystem, "FAT32", 5)) { rc = ERROR_VOLUME_NOT_MOUNTED; goto FS_MOUNT_EXIT; } if (pSect->bpb.BytesPerSector != SECTOR_SIZE) { rc = ERROR_VOLUME_NOT_MOUNTED; goto FS_MOUNT_EXIT; } pvpfsi->vpi_vid = pSect->ulVolSerial; pvpfsi->vpi_bsize = pSect->bpb.BytesPerSector; pvpfsi->vpi_totsec = pSect->bpb.BigTotalSectors; pvpfsi->vpi_trksec = pSect->bpb.SectorsPerTrack; pvpfsi->vpi_nhead = pSect->bpb.Heads; memset(pvpfsi->vpi_text, 0, sizeof pvpfsi->vpi_text); memcpy(pvpfsi->vpi_text, pSect->VolumeLabel, sizeof pSect->VolumeLabel); pVolInfo = gdtAlloc(STORAGE_NEEDED, FALSE); if (!pVolInfo) { rc = ERROR_NOT_ENOUGH_MEMORY; goto FS_MOUNT_EXIT; } rc = FSH_FORCENOSWAP(SELECTOROF(pVolInfo)); if (rc) FatalMessage("FSH_FORCENOSWAP on VOLINFO Segment failed, rc=%u", rc); memset(pVolInfo, 0, (size_t)STORAGE_NEEDED); InitCache(ulCacheSectors); memcpy(&pVolInfo->BootSect, pSect, sizeof (BOOTSECT)); pVolInfo->ulActiveFatStart = pSect->bpb.ReservedSectors; if (pSect->bpb.ExtFlags & 0x0080) pVolInfo->ulActiveFatStart += pSect->bpb.BigSectorsPerFat * (pSect->bpb.ExtFlags & 0x000F); pVolInfo->ulStartOfData = pSect->bpb.ReservedSectors + pSect->bpb.BigSectorsPerFat * pSect->bpb.NumberOfFATs; pVolInfo->pBootFSInfo = (PBOOTFSINFO)(pVolInfo + 1); pVolInfo->pbFatSector = (PBYTE)(pVolInfo->pBootFSInfo + 1); pVolInfo->ulCurFatSector = -1L; pVolInfo->usClusterSize = pSect->bpb.BytesPerSector * pSect->bpb.SectorsPerCluster; pVolInfo->ulTotalClusters = (pSect->bpb.BigTotalSectors - pVolInfo->ulStartOfData) / pSect->bpb.SectorsPerCluster; pVolInfo->hVBP = hVBP; pVolInfo->hDupVBP = hDupVBP; pVolInfo->bDrive = pvpfsi->vpi_drive; pVolInfo->bUnit = pvpfsi->vpi_unit; pVolInfo->pNextVolInfo = NULL; if (usDefaultRASectors == 0xFFFF) pVolInfo->usRASectors = (pVolInfo->usClusterSize * 2) / SECTOR_SIZE; else pVolInfo->usRASectors = usDefaultRASectors; if (pVolInfo->usRASectors > (pVolInfo->usClusterSize * 4) / SECTOR_SIZE) pVolInfo->usRASectors = (pVolInfo->usClusterSize * 4) / SECTOR_SIZE; if (pSect->bpb.FSinfoSec != 0xFFFF) { ReadSector(pVolInfo, pSect->bpb.FSinfoSec, 1, pVolInfo->pbFatSector, DVIO_OPNCACHE); memcpy(pVolInfo->pBootFSInfo, pVolInfo->pbFatSector + FSINFO_OFFSET, sizeof (BOOTFSINFO)); } else memset(pVolInfo->pBootFSInfo, 0, sizeof (BOOTFSINFO)); *((PVOLINFO *)(pvpfsd->vpd_work)) = pVolInfo; if (!pGlobVolInfo) { pGlobVolInfo = pVolInfo; usVolCount = 1; } else { pNext = pGlobVolInfo; usVolCount = 1; if (pNext->bDrive == pvpfsi->vpi_drive && !pVolInfo->hDupVBP) pVolInfo->hDupVBP = pNext->hVBP; while (pNext->pNextVolInfo) { pNext = (PVOLINFO)pNext->pNextVolInfo; if (pNext->bDrive == pvpfsi->vpi_drive && !pVolInfo->hDupVBP) pVolInfo->hDupVBP = pNext->hVBP; usVolCount++; } pNext->pNextVolInfo = pVolInfo; usVolCount++; } if (f32Parms.fMessageActive & LOG_FS) Message("%u Volumes mounted!", usVolCount); rc = CheckWriteProtect(pVolInfo); if (rc && rc != ERROR_WRITE_PROTECT) { Message("Cannot access drive, rc = %u", rc); goto FS_MOUNT_EXIT; } if (rc == ERROR_WRITE_PROTECT) pVolInfo->fWriteProtected = TRUE; pVolInfo->fDiskCleanOnMount = pVolInfo->fDiskClean = GetDiskStatus(pVolInfo); if (!pVolInfo->fDiskCleanOnMount) Message("DISK IS DIRTY!"); if (pVolInfo->fWriteProtected) pVolInfo->fDiskCleanOnMount = TRUE; if (!pVolInfo->hDupVBP && (pVolInfo->pBootFSInfo->ulFreeClusters == 0xFFFFFFFF || !pVolInfo->fDiskClean || pVolInfo->BootSect.bpb.FSinfoSec == 0xFFFF)) GetFreeSpace(pVolInfo); pDevCaps = pvpfsi->vpi_pDCS; pVolChars = pvpfsi->vpi_pVCS; if (pDevCaps->Capabilities & GDC_DD_Read2) Message("Read2 supported"); if (pDevCaps->Capabilities & GDC_DD_DMA_Word) Message("DMA on word alligned buffers supported"); if (pDevCaps->Capabilities & GDC_DD_DMA_Byte) Message("DMA on byte alligned buffers supported"); if (pDevCaps->Capabilities & GDC_DD_Mirror) Message("Disk Mirroring supported"); if (pDevCaps->Capabilities & GDC_DD_Duplex) Message("Disk Duplexing supported"); if (pDevCaps->Capabilities & GDC_DD_No_Block) Message("Strategy2 does not block"); if (pDevCaps->Capabilities & GDC_DD_16M) Message(">16M supported"); if (pDevCaps->Strategy2) { Message("Strategy2 address at %lX", pDevCaps->Strategy2); Message("ChgPriority address at %lX", pDevCaps->ChgPriority); pVolInfo->pfnStrategy = (STRATFUNC)pDevCaps->Strategy2; pVolInfo->pfnPriority = (STRATFUNC)pDevCaps->ChgPriority; } rc = 0; break; case MOUNT_VOL_REMOVED: case MOUNT_RELEASE: pVolInfo = GetVolInfo(hVBP); if (!pVolInfo->hDupVBP) UpdateFSInfo(pVolInfo); RemoveVolume(pVolInfo); freeseg(pVolInfo); rc = 0; break; default : rc = ERROR_NOT_SUPPORTED; break; } FS_MOUNT_EXIT: if (f32Parms.fMessageActive & LOG_FS) Message("FS_MOUNT returned %u\n", rc); return rc; }