/* * Copyright (c) 1999 Apple Computer, Inc. All rights reserved. * * @APPLE_LICENSE_HEADER_START@ * * "Portions Copyright (c) 1999 Apple Computer, Inc. All Rights * Reserved. This file contains Original Code and/or Modifications of * Original Code as defined in and that are subject to the Apple Public * Source License Version 1.0 (the 'License'). You may not use this file * except in compliance with the License. Please obtain a copy of the * License at http://www.apple.com/publicsource and read it before using * this file. * * The Original Code and all software distributed under the License are * distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES, * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE OR NON-INFRINGEMENT. Please see the * License for the specific language governing rights and limitations * under the License." * * @APPLE_LICENSE_HEADER_END@ */ /* File: SRepair.c Contains: This file contains the Scavenger repair routines. Written by: Bill Bruffey Copyright: © 1986, 1990, 1992-1999 by Apple Computer, Inc., all rights reserved. */ #include "Scavenger.h" enum { clearBlocks, addBitmapBit, deleteExtents }; /* internal routine prototypes */ void SetOffset (void *buffer, UInt16 btNodeSize, SInt16 recOffset, SInt16 vecOffset); #define SetOffset(buffer,nodesize,offset,record) (*(SInt16 *) ((Byte *) (buffer) + (nodesize) + (-2 * (record))) = (offset)) static OSErr UpdateBTreeHeader( SFCB * fcbPtr ); static OSErr FixBTreeHeaderReservedFields( SGlobPtr GPtr, short refNum ); static OSErr UpdBTM( SGlobPtr GPtr, short refNum); static OSErr UpdateVolumeBitMap( SGlobPtr GPtr, Boolean preAllocateOverlappedExtents ); static OSErr DoMinorOrders( SGlobPtr GPtr ); static OSErr UpdVal( SGlobPtr GPtr, RepairOrderPtr rP ); static int DelFThd( SGlobPtr GPtr, UInt32 fid ); static OSErr FixDirThread( SGlobPtr GPtr, UInt32 did ); static OSErr FixOrphanedFiles ( SGlobPtr GPtr ); static OSErr RepairReservedBTreeFields ( SGlobPtr GPtr ); static OSErr FixFinderFlags( SGlobPtr GPtr, RepairOrderPtr p ); static OSErr FixLinkCount( SGlobPtr GPtr, RepairOrderPtr p ); static OSErr FixBSDInfo( SGlobPtr GPtr, RepairOrderPtr p ); static OSErr DeleteUnlinkedFile( SGlobPtr GPtr, RepairOrderPtr p ); static OSErr FixOrphanedExtent( SGlobPtr GPtr ); static OSErr FixFileSize(SGlobPtr GPtr, RepairOrderPtr p); extern OSErr FindExtentRecord( const SVCB *vcb, UInt8 forkType, UInt32 fileID, UInt32 startBlock, Boolean allowPrevious, HFSPlusExtentKey *foundKey, HFSPlusExtentRecord foundData, UInt32 *foundHint); extern OSErr DeleteExtentRecord( const SVCB *vcb, UInt8 forkType, UInt32 fileID, UInt32 startBlock ); OSErr GetFCBExtentRecord( const SVCB *vcb, const SFCB *fcb, HFSPlusExtentRecord extents ); static OSErr FixOverlappingExtents( SGlobPtr GPtr ); OSErr CopyDiskBlocks( SGlobPtr GPtr, UInt32 startAllocationBlock, UInt32 blockCount, UInt32 newStartAllocationBlock ); static OSErr FixBloatedThreadRecords( SGlob *GPtr ); static OSErr FixMissingThreadRecords( SGlob *GPtr ); static OSErr FixEmbededVolDescription( SGlobPtr GPtr, RepairOrderPtr p ); static OSErr FixWrapperExtents( SGlobPtr GPtr, RepairOrderPtr p ); OSErr RepairVolume( SGlobPtr GPtr ) { OSErr err; OSErr unmountResult; Boolean volumeMounted; SetDFAStage( kAboutToRepairStage ); // Notify callers repair is starting... err = CheckForStop( GPtr ); ReturnIfError( err ); // Permit the user to interrupt volumeMounted = ( GPtr->volumeFeatures & volumeIsMountedMask ); unmountResult = fBsyErr; if ( volumeMounted ) // If the volume is mounted { unmountResult = fBsyErr; err = GetVolumeFeatures( GPtr ); // Sets up GPtr->volumeFeatures and GPtr->realVCB // If the volume cannot be unmounted, it may be the boot volume if ( unmountResult != noErr ) { SetDFAStage( kRepairStage ); // Stops GNE from being called, and changes behavior of MountCheck } } // // Do the repair // SetDFAStage( kRepairStage ); // Stops GNE from being called, and changes behavior of MountCheck err = MRepair( GPtr ); return( err ); } /*------------------------------------------------------------------------------ Routine: MRepair - (Minor Repair) Function: Performs minor repair operations. Input: GPtr - pointer to scavenger global area Output: MRepair - function result: ------------------------------------------------------------------------------*/ int MRepair( SGlobPtr GPtr ) { OSErr err; SVCB *calculatedVCB = GPtr->calculatedVCB; Boolean isHFSPlus = GPtr->isHFSPlus; #if 1 // turn on catalog B-Tree rebuild magic if ( GPtr->CBTStat & S_RebuildBTree ) { /* we currently only support rebuilding the catalog B-Tree file. */ /* once we do the rebuild we will force another verify since the */ /* first verify was aborted when we determined a rebuild was necessary */ err = RebuildCatalogBTree( GPtr ); return( err ); } #endif // Handle repair orders. Note that these must be done *BEFORE* the MDB is updated. err = DoMinorOrders( GPtr ); ReturnIfError( err ); err = CheckForStop( GPtr ); ReturnIfError( err ); /* Clear Catalog status for things repaired by DoMinorOrders */ GPtr->CatStat &= ~(S_FileAllocation | S_Permissions | S_UnlinkedFile | S_LinkCount); /* * Fix missing thread records */ if (GPtr->CatStat & S_MissingThread) { err = FixMissingThreadRecords(GPtr); ReturnIfError(err); GPtr->CatStat &= ~S_MissingThread; GPtr->CBTStat |= S_BTH; /* leaf record count changed */ } // 2210409, in System 8.1, moving file or folder would cause HFS+ thread records to be // 520 bytes in size. We only shrink the threads if other repairs are needed. if ( GPtr->VeryMinorErrorsStat & S_BloatedThreadRecordFound ) { (void) FixBloatedThreadRecords( GPtr ); GPtr->VeryMinorErrorsStat &= ~S_BloatedThreadRecordFound; } // // we will update the following data structures regardless of whether we have done // major or minor repairs, so we might end up doing this multiple times. Look into this. // // // Isolate and fix Overlapping Extents // err = CheckForStop( GPtr ); ReturnIfError( err ); // Permit the user to interrupt if ( (GPtr->VIStat & S_OverlappingExtents) != 0 ) { err = FixOverlappingExtents( GPtr ); // Isolate and fix Overlapping Extents ReturnIfError( err ); GPtr->VIStat &= ~S_OverlappingExtents; GPtr->VIStat |= S_VBM; // Now that we changed the extents, we need to rebuild the bitmap InvalidateCalculatedVolumeBitMap( GPtr ); // Invalidate our BitMap } // // FixOrphanedFiles // err = CheckForStop( GPtr ); ReturnIfError( err ); // Permit the user to interrupt if ( (GPtr->CBTStat & S_Orphan) != 0 ) { err = FixOrphanedFiles ( GPtr ); // Orphaned file were found ReturnIfError( err ); GPtr->CBTStat |= S_BTH; // leaf record count may change - 2913311 } // // FixOrphanedExtent records // if ( (GPtr->EBTStat & S_OrphanedExtent) != 0 ) // Orphaned extents were found { err = FixOrphanedExtent( GPtr ); GPtr->EBTStat &= ~S_OrphanedExtent; // if ( err == errRebuildBtree ) // goto RebuildBtrees; ReturnIfError( err ); } err = CheckForStop( GPtr ); ReturnIfError( err ); // Permit the user to interrupt // // Update the extent BTree header and bit map // err = CheckForStop( GPtr ); ReturnIfError( err ); // Permit the user to interrupt if ( (GPtr->EBTStat & S_BTH) || (GPtr->EBTStat & S_ReservedBTH) ) { err = UpdateBTreeHeader( GPtr->calculatedExtentsFCB ); // update extent file BTH if ( (err == noErr) && (GPtr->EBTStat & S_ReservedBTH) ) { err = FixBTreeHeaderReservedFields( GPtr, kCalculatedExtentRefNum ); } ReturnIfError( err ); } if ( (GPtr->EBTStat & S_BTM) != 0 ) { err = UpdBTM( GPtr, kCalculatedExtentRefNum ); // update extent file BTM ReturnIfError( err ); } // // Update the catalog BTree header and bit map // err = CheckForStop( GPtr ); ReturnIfError( err ); // Permit the user to interrupt if ( (GPtr->CBTStat & S_BTH) || (GPtr->CBTStat & S_ReservedBTH) ) { err = UpdateBTreeHeader( GPtr->calculatedCatalogFCB ); // update catalog BTH if ( (err == noErr) && (GPtr->CBTStat & S_ReservedBTH) ) { err = FixBTreeHeaderReservedFields( GPtr, kCalculatedCatalogRefNum ); } ReturnIfError( err ); } if ( GPtr->CBTStat & S_BTM ) { err = UpdBTM( GPtr, kCalculatedCatalogRefNum ); // update catalog BTM ReturnIfError( err ); } if ( (GPtr->CBTStat & S_ReservedNotZero) != 0 ) { err = RepairReservedBTreeFields( GPtr ); // update catalog fields ReturnIfError( err ); } // // Update the volume bit map // // Note, moved volume bit map update to end after other repairs // (except the MDB / VolumeHeader) have been completed // err = CheckForStop( GPtr ); ReturnIfError( err ); // Permit the user to interrupt if ( (GPtr->VIStat & S_VBM) != 0 ) { err = UpdateVolumeBitMap( GPtr, false ); // update VolumeBitMap ReturnIfError( err ); InvalidateCalculatedVolumeBitMap( GPtr ); // Invalidate our BitMap } // // Update the MDB / VolumeHeader // // Note, moved MDB / VolumeHeader update to end // after all other repairs have been completed // err = CheckForStop( GPtr ); ReturnIfError( err ); // Permit the user to interrupt if ( ((GPtr->VIStat & S_MDB) != 0) || IsVCBDirty(calculatedVCB) ) // update MDB / VolumeHeader { MarkVCBDirty(calculatedVCB); // make sure its dirty calculatedVCB->vcbAttributes |= kHFSVolumeUnmountedMask; err = FlushAlternateVolumeControlBlock( calculatedVCB, isHFSPlus ); // Writes real & alt blocks ReturnIfError( err ); } err = CheckForStop( GPtr ); ReturnIfError( err ); // Permit the user to interrupt return( err ); // all done } // // Internal Routines // /*------------------------------------------------------------------------------ Routine: UpdateBTreeHeader - (Update BTree Header) Function: Replaces a BTH on disk with info from a scavenger BTCB. Input: GPtr - pointer to scavenger global area refNum - file refnum Output: UpdateBTreeHeader - function result: 0 = no error n = error ------------------------------------------------------------------------------*/ static OSErr UpdateBTreeHeader( SFCB * fcbPtr ) { OSErr err; M_BTreeHeaderDirty( ((BTreeControlBlockPtr) fcbPtr->fcbBtree) ); err = BTFlushPath( fcbPtr ); return( err ); } /* End UpdateBTreeHeader */ /*------------------------------------------------------------------------------ Routine: FixBTreeHeaderReservedFields Function: Fix reserved fields in BTree Header Input: GPtr - pointer to scavenger global area refNum - file refnum Output: 0 = no error n = error ------------------------------------------------------------------------------*/ static OSErr FixBTreeHeaderReservedFields( SGlobPtr GPtr, short refNum ) { OSErr err; BTHeaderRec header; err = GetBTreeHeader(GPtr, ResolveFCB(refNum), &header); ReturnIfError( err ); if ( (header.clumpSize % GPtr->calculatedVCB->vcbBlockSize) != 0 ) header.clumpSize = GPtr->calculatedVCB->vcbBlockSize; header.reserved1 = 0; header.btreeType = kHFSBTreeType; // control file header.reserved2 = 0; ClearMemory( header.reserved3, sizeof(header.reserved3) ); return( err ); } /*------------------------------------------------------------------------------ Routine: UpdBTM - (Update BTree Map) Function: Replaces a BTM on disk with a scavenger BTM. Input: GPtr - pointer to scavenger global area refNum - file refnum Output: UpdBTM - function result: 0 = no error n = error ------------------------------------------------------------------------------*/ static OSErr UpdBTM( SGlobPtr GPtr, short refNum ) { OSErr err; UInt16 recSize; SInt32 mapSize; SInt16 size; SInt16 recIndx; Ptr p; Ptr btmP; Ptr sbtmP; UInt32 nodeNum; NodeRec node; UInt32 fLink; BTreeControlBlock *calculatedBTCB = GetBTreeControlBlock( refNum ); // Set up mapSize = ((BTreeExtensionsRec*)calculatedBTCB->refCon)->BTCBMSize; // // update the map records // if ( mapSize > 0 ) { nodeNum = 0; recIndx = 2; sbtmP = ((BTreeExtensionsRec*)calculatedBTCB->refCon)->BTCBMPtr; do { GPtr->TarBlock = nodeNum; // set target node number err = GetNode( calculatedBTCB, nodeNum, &node ); ReturnIfError( err ); // could't get map node // Locate the map record recSize = GetRecordSize( calculatedBTCB, (BTNodeDescriptor *)node.buffer, recIndx ); btmP = (Ptr)GetRecordAddress( calculatedBTCB, (BTNodeDescriptor *)node.buffer, recIndx ); fLink = ((NodeDescPtr)node.buffer)->fLink; size = ( recSize > mapSize ) ? mapSize : recSize; CopyMemory( sbtmP, btmP, size ); // update it err = UpdateNode( calculatedBTCB, &node ); // write it, and unlock buffer mapSize -= size; // move to next map record if ( mapSize == 0 ) // more to go? break; // no, zero remainder of record if ( fLink == 0 ) // out of bitmap blocks in file? { RcdError( GPtr, E_ShortBTM ); (void) ReleaseNode(calculatedBTCB, &node); return( E_ShortBTM ); } nodeNum = fLink; sbtmP += size; recIndx = 0; } while ( mapSize > 0 ); // clear the unused portion of the map record for ( p = btmP + size ; p < btmP + recSize ; p++ ) *p = 0; err = UpdateNode( calculatedBTCB, &node ); // Write it, and unlock buffer } return( noErr ); // All done } // end UpdBTM /*------------------------------------------------------------------------------ Routine: UpdateVolumeBitMap - (Update Volume Bit Map) Function: Replaces the VBM on disk with the scavenger VBM. Input: GPtr - pointer to scavenger global area Output: UpdateVolumeBitMap - function result: 0 = no error n = error GPtr->VIStat - S_VBM flag set if VBM is damaged. ------------------------------------------------------------------------------*/ static OSErr UpdateVolumeBitMap( SGlobPtr GPtr, Boolean preAllocateOverlappedExtents ) { GPtr->TarID = VBM_FNum; return ( CheckVolumeBitMap(GPtr, true) ); } /*------------------------------------------------------------------------------ Routine: DoMinorOrders Function: Execute minor repair orders. Input: GPtr - ptr to scavenger global data Outut: function result: 0 - no error n - error ------------------------------------------------------------------------------*/ static OSErr DoMinorOrders( SGlobPtr GPtr ) // the globals { RepairOrderPtr p; OSErr err = noErr; // initialize to "no error" while( (p = GPtr->MinorRepairsP) && (err == noErr) ) // loop over each repair order { GPtr->MinorRepairsP = p->link; // unlink next from list switch( p->type ) // branch on repair type { case E_RtDirCnt: // the valence errors case E_RtFilCnt: // (of which there are several) case E_DirCnt: case E_FilCnt: case E_DirVal: err = UpdVal( GPtr, p ); // handle a valence error break; case E_LockedDirName: err = FixFinderFlags( GPtr, p ); break; case E_UnlinkedFile: err = DeleteUnlinkedFile( GPtr, p ); break; case E_InvalidLinkCount: err = FixLinkCount( GPtr, p ); break; case E_InvalidPermissions: case E_InvalidUID: err = FixBSDInfo( GPtr, p ); break; case E_NoFile: // dangling file thread err = DelFThd( GPtr, p->parid ); // delete the dangling thread break; //¥¥ E_NoFile case is never hit since VLockedChk() registers the error, //¥¥ and returns the error causing the verification to quit. case E_EntryNotFound: GPtr->EBTStat |= S_OrphanedExtent; break; //¥¥ Same with E_NoDir case E_NoDir: // missing directory record err = FixDirThread( GPtr, p->parid ); // fix the directory thread record break; case E_InvalidMDBdrAlBlSt: err = FixEmbededVolDescription( GPtr, p ); break; case E_InvalidWrapperExtents: err = FixWrapperExtents(GPtr, p); break; case E_PEOF: case E_LEOF: err = FixFileSize(GPtr, p); break; default: // unknown repair type err = IntError( GPtr, R_IntErr ); // treat as an internal error break; } DisposeMemory( p ); // free the node } return( err ); // return error code to our caller } /*------------------------------------------------------------------------------ Routine: DelFThd - (delete file thread) Function: Executes the delete dangling file thread repair orders. These are typically threads left after system 6 deletes an aliased file, since system 6 is not aware of aliases and thus will not delete the thread along with the file. Input: GPtr - global data fid - the thread record's key's parent-ID Output: 0 - no error n - deletion failed Modification History: 29Oct90 KST CBTDelete was using "k" as key which points to cache buffer. -------------------------------------------------------------------------------*/ static int DelFThd( SGlobPtr GPtr, UInt32 fid ) // the file ID { CatalogRecord record; CatalogKey foundKey; CatalogKey key; UInt32 hint; // as returned by CBTSearch OSErr result; // status return UInt16 recSize; ExtentRecord zeroExtents; BuildCatalogKey( fid, (const CatalogName*) nil, GPtr->isHFSPlus, &key ); result = SearchBTreeRecord( GPtr->calculatedCatalogFCB, &key, kNoHint, &foundKey, &record, &recSize, &hint ); if ( result ) return ( IntError( GPtr, result ) ); if ( (record.recordType != kHFSFileThreadRecord) && (record.recordType != kHFSPlusFileThreadRecord) ) // quit if not a file thread return ( IntError( GPtr, R_IntErr ) ); // Zero the record on disk ClearMemory( (Ptr)&zeroExtents, sizeof(ExtentRecord) ); result = ReplaceBTreeRecord( GPtr->calculatedCatalogFCB, &key, hint, &zeroExtents, recSize, &hint ); if ( result ) return ( IntError( GPtr, result ) ); result = DeleteBTreeRecord( GPtr->calculatedCatalogFCB, &key ); if ( result ) return ( IntError( GPtr, result ) ); // After deleting a record, we'll need to write back the BT header and map, // to reflect the updated record count etc. GPtr->CBTStat |= S_BTH + S_BTM; // set flags to write back hdr and map return( noErr ); // successful return } /*------------------------------------------------------------------------------ Routine: FixDirThread - (fix directory thread record's parent ID info) Function: Executes the missing directory record repair orders most likely caused by disappearing folder bug. This bug causes some folders to jump to Desktop from the root window. The catalog directory record for such a folder has the Desktop folder as the parent but its thread record still the root directory as its parent. Input: GPtr - global data did - the thread record's key's parent-ID Output: 0 - no error n - deletion failed -------------------------------------------------------------------------------*/ static OSErr FixDirThread( SGlobPtr GPtr, UInt32 did ) // the dir ID { UInt8 *dataPtr; UInt32 hint; // as returned by CBTSearch OSErr result; // status return UInt16 recSize; CatalogName catalogName; // temporary name record CatalogName *keyName; // temporary name record register short index; // loop index for all records in the node UInt32 curLeafNode; // current leaf node being checked CatalogRecord record; CatalogKey foundKey; CatalogKey key; CatalogKey *keyP; SInt16 recordType; UInt32 folderID; NodeRec node; NodeDescPtr nodeDescP; UInt32 newParDirID = 0; // the parent ID where the dir record is really located Boolean isHFSPlus = GPtr->isHFSPlus; BTreeControlBlock *calculatedBTCB = GetBTreeControlBlock( kCalculatedCatalogRefNum ); BuildCatalogKey( did, (const CatalogName*) nil, isHFSPlus, &key ); result = SearchBTreeRecord( GPtr->calculatedCatalogFCB, &key, kNoHint, &foundKey, &record, &recSize, &hint ); if ( result ) return( IntError( GPtr, result ) ); if ( (record.recordType != kHFSFolderThreadRecord) && (record.recordType != kHFSPlusFolderThreadRecord) ) // quit if not a directory thread return ( IntError( GPtr, R_IntErr ) ); curLeafNode = calculatedBTCB->freeNodes; while ( curLeafNode ) { result = GetNode( calculatedBTCB, curLeafNode, &node ); if ( result != noErr ) return( IntError( GPtr, result ) ); nodeDescP = node.buffer; // loop on number of records in node for ( index = 0 ; index < nodeDescP->numRecords ; index++ ) { GetRecordByIndex( calculatedBTCB, (NodeDescPtr)nodeDescP, index, (BTreeKey **)&keyP, &dataPtr, &recSize ); recordType = ((CatalogRecord *)dataPtr)->recordType; folderID = recordType == kHFSPlusFolderRecord ? ((HFSPlusCatalogFolder *)dataPtr)->folderID : ((HFSCatalogFolder *)dataPtr)->folderID; // did we locate a directory record whode dirID match the the thread's key's parent dir ID? if ( (folderID == did) && ( recordType == kHFSPlusFolderRecord || recordType == kHFSFolderRecord ) ) { newParDirID = recordType == kHFSPlusFolderRecord ? keyP->hfsPlus.parentID : keyP->hfs.parentID; keyName = recordType == kHFSPlusFolderRecord ? (CatalogName *)&keyP->hfsPlus.nodeName : (CatalogName *)&keyP->hfs.nodeName; CopyCatalogName( keyName, &catalogName, isHFSPlus ); break; } } if ( newParDirID ) { (void) ReleaseNode(calculatedBTCB, &node); break; } curLeafNode = nodeDescP->fLink; // sibling of this leaf node (void) ReleaseNode(calculatedBTCB, &node); } if ( newParDirID == 0 ) { return ( IntError( GPtr, R_IntErr ) ); // ¥¥ Try fixing by creating a new directory record? } else { (void) SearchBTreeRecord( GPtr->calculatedCatalogFCB, &key, kNoHint, &foundKey, &record, &recSize, &hint ); if ( isHFSPlus ) { HFSPlusCatalogThread *largeCatalogThreadP = (HFSPlusCatalogThread *) &record; largeCatalogThreadP->parentID = newParDirID; CopyCatalogName( &catalogName, (CatalogName *) &largeCatalogThreadP->nodeName, isHFSPlus ); } else { HFSCatalogThread *smallCatalogThreadP = (HFSCatalogThread *) &record; smallCatalogThreadP->parentID = newParDirID; CopyCatalogName( &catalogName, (CatalogName *)&smallCatalogThreadP->nodeName, isHFSPlus ); } result = ReplaceBTreeRecord( GPtr->calculatedCatalogFCB, &foundKey, hint, &record, recSize, &hint ); } return( noErr ); // successful return } /*------------------------------------------------------------------------------ Routine: UpdVal - (Update Valence) Function: Replaces out of date valences with correct vals computed during scavenge. Input: GPtr - pointer to scavenger global area p - pointer to the repair order Output: UpdVal - function result: 0 = no error n = error ------------------------------------------------------------------------------*/ static OSErr UpdVal( SGlobPtr GPtr, RepairOrderPtr p ) // the valence repair order { OSErr result; // status return UInt32 hint; // as returned by CBTSearch UInt16 recSize; CatalogRecord record; CatalogKey foundKey; CatalogKey key; SVCB *calculatedVCB = GPtr->calculatedVCB; switch( p->type ) { case E_RtDirCnt: // invalid count of Dirs in Root if ( (UInt16)p->incorrect != calculatedVCB->vcbNmRtDirs ) return ( IntError( GPtr, R_IntErr ) ); calculatedVCB->vcbNmRtDirs = (UInt16)p->correct; GPtr->VIStat |= S_MDB; break; case E_RtFilCnt: if ( (UInt16)p->incorrect != calculatedVCB->vcbNmFls ) return ( IntError( GPtr, R_IntErr ) ); calculatedVCB->vcbNmFls = (UInt16)p->correct; GPtr->VIStat |= S_MDB; break; case E_DirCnt: if ( (UInt32)p->incorrect != calculatedVCB->vcbFolderCount ) return ( IntError( GPtr, R_IntErr ) ); calculatedVCB->vcbFolderCount = (UInt32)p->correct; GPtr->VIStat |= S_MDB; break; case E_FilCnt: if ( (UInt32)p->incorrect != calculatedVCB->vcbFileCount ) return ( IntError( GPtr, R_IntErr ) ); calculatedVCB->vcbFileCount = (UInt32)p->correct; GPtr->VIStat |= S_MDB; break; case E_DirVal: BuildCatalogKey( p->parid, (CatalogName *)&p->name, GPtr->isHFSPlus, &key ); result = SearchBTreeRecord( GPtr->calculatedCatalogFCB, &key, kNoHint, &foundKey, &record, &recSize, &hint ); if ( result ) return ( IntError( GPtr, result ) ); if ( record.recordType == kHFSPlusFolderRecord ) { if ( (UInt32)p->incorrect != record.hfsPlusFolder.valence) return ( IntError( GPtr, R_IntErr ) ); record.hfsPlusFolder.valence = (UInt32)p->correct; } else { if ( (UInt16)p->incorrect != record.hfsFolder.valence ) return ( IntError( GPtr, R_IntErr ) ); record.hfsFolder.valence = (UInt16)p->correct; } result = ReplaceBTreeRecord( GPtr->calculatedCatalogFCB, &key, hint,\ &record, recSize, &hint ); if ( result ) return ( IntError( GPtr, result ) ); break; } return( noErr ); // no error } /*------------------------------------------------------------------------------ Routine: FixFinderFlags Function: Changes some of the Finder flag bits for directories. Input: GPtr - pointer to scavenger global area p - pointer to the repair order Output: FixFinderFlags - function result: 0 = no error n = error ------------------------------------------------------------------------------*/ static OSErr FixFinderFlags( SGlobPtr GPtr, RepairOrderPtr p ) // the repair order { CatalogRecord record; CatalogKey foundKey; CatalogKey key; UInt32 hint; // as returned by CBTSearch OSErr result; // status return UInt16 recSize; BuildCatalogKey( p->parid, (CatalogName *)&p->name, GPtr->isHFSPlus, &key ); result = SearchBTreeRecord( GPtr->calculatedCatalogFCB, &key, kNoHint, &foundKey, &record, &recSize, &hint ); if ( result ) return ( IntError( GPtr, result ) ); if ( record.recordType == kHFSPlusFolderRecord ) { HFSPlusCatalogFolder *largeCatalogFolderP = (HFSPlusCatalogFolder *) &record; if ( (UInt16) p->incorrect != largeCatalogFolderP->userInfo.frFlags ) { // Another repar order may have affected the flags if ( p->correct < p->incorrect ) largeCatalogFolderP->userInfo.frFlags &= ~((UInt16)p->maskBit); else largeCatalogFolderP->userInfo.frFlags |= (UInt16)p->maskBit; } else { largeCatalogFolderP->userInfo.frFlags = (UInt16)p->correct; } // largeCatalogFolderP->contentModDate = timeStamp; } else { HFSCatalogFolder *smallCatalogFolderP = (HFSCatalogFolder *) &record; if ( p->incorrect != smallCatalogFolderP->userInfo.frFlags ) // do we know what we're doing? { // Another repar order may have affected the flags if ( p->correct < p->incorrect ) smallCatalogFolderP->userInfo.frFlags &= ~((UInt16)p->maskBit); else smallCatalogFolderP->userInfo.frFlags |= (UInt16)p->maskBit; } else { smallCatalogFolderP->userInfo.frFlags = (UInt16)p->correct; } // smallCatalogFolderP->modifyDate = timeStamp; // also update the modify date! -DJB } result = ReplaceBTreeRecord( GPtr->calculatedCatalogFCB, &foundKey, hint, &record, recSize, &hint ); // write the node back to the file if ( result ) return( IntError( GPtr, result ) ); return( noErr ); // no error } /*------------------------------------------------------------------------------ FixLinkCount: Adjust a data node link count (BSD hard link) (HFS Plus volumes only) ------------------------------------------------------------------------------*/ static OSErr FixLinkCount(SGlobPtr GPtr, RepairOrderPtr p) { SFCB *fcb; CatalogRecord rec; HFSPlusCatalogKey * keyp; FSBufferDescriptor btRecord; BTreeIterator btIterator; size_t len; OSErr result; UInt16 recSize; if (!GPtr->isHFSPlus) return (0); fcb = GPtr->calculatedCatalogFCB; ClearMemory(&btIterator, sizeof(btIterator)); btIterator.hint.nodeNum = p->hint; keyp = (HFSPlusCatalogKey*)&btIterator.key; keyp->parentID = p->parid; /* name was stored in UTF-8 */ (void) utf_decodestr(&p->name[1], p->name[0], keyp->nodeName.unicode, &len); keyp->nodeName.length = len / 2; keyp->keyLength = kHFSPlusCatalogKeyMinimumLength + len; btRecord.bufferAddress = &rec; btRecord.itemCount = 1; btRecord.itemSize = sizeof(rec); result = BTSearchRecord(fcb, &btIterator, kInvalidMRUCacheKey, &btRecord, &recSize, &btIterator); if (result) return (IntError(GPtr, result)); if (rec.recordType != kHFSPlusFileRecord) return (noErr); if ((UInt32)p->correct != rec.hfsPlusFile.bsdInfo.special.linkCount) { if (GPtr->logLevel >= kDebugLog) printf("\t%s: fixing link count from %d to %d\n", &p->name[1], rec.hfsPlusFile.bsdInfo.special.linkCount, (int)p->correct); rec.hfsPlusFile.bsdInfo.special.linkCount = (UInt32)p->correct; result = BTReplaceRecord(fcb, &btIterator, &btRecord, recSize); if (result) return (IntError(GPtr, result)); } return (noErr); } /*------------------------------------------------------------------------------ FixBSDInfo: Reset or repair BSD info (HFS Plus volumes only) ------------------------------------------------------------------------------*/ static OSErr FixBSDInfo(SGlobPtr GPtr, RepairOrderPtr p) { SFCB *fcb; CatalogRecord rec; FSBufferDescriptor btRecord; BTreeIterator btIterator; OSErr result; UInt16 recSize; size_t namelen; unsigned char filename[256]; if (!GPtr->isHFSPlus) return (0); fcb = GPtr->calculatedCatalogFCB; ClearMemory(&btIterator, sizeof(btIterator)); btIterator.hint.nodeNum = p->hint; BuildCatalogKey(p->parid, (CatalogName *)&p->name, true, (CatalogKey*)&btIterator.key); btRecord.bufferAddress = &rec; btRecord.itemCount = 1; btRecord.itemSize = sizeof(rec); result = BTSearchRecord(fcb, &btIterator, kInvalidMRUCacheKey, &btRecord, &recSize, &btIterator); if (result) return (IntError(GPtr, result)); if (rec.recordType != kHFSPlusFileRecord && rec.recordType != kHFSPlusFolderRecord) return (noErr); utf_encodestr(((HFSUniStr255 *)&p->name)->unicode, ((HFSUniStr255 *)&p->name)->length << 1, filename, &namelen); filename[namelen] = '\0'; if (p->type == E_InvalidPermissions && ((UInt16)p->incorrect == rec.hfsPlusFile.bsdInfo.fileMode)) { if (GPtr->logLevel >= kDebugLog) printf("\t\"%s\": fixing mode from %07o to %07o\n", filename, (int)p->incorrect, (int)p->correct); rec.hfsPlusFile.bsdInfo.fileMode = (UInt16)p->correct; result = BTReplaceRecord(fcb, &btIterator, &btRecord, recSize); } if (p->type == E_InvalidUID) { if ((UInt32)p->incorrect == rec.hfsPlusFile.bsdInfo.ownerID) { if (GPtr->logLevel >= kDebugLog) { printf("\t\"%s\": replacing UID %d with %d\n", filename, (int)p->incorrect, (int)p->correct); } rec.hfsPlusFile.bsdInfo.ownerID = (UInt32)p->correct; } /* Fix group ID if neccessary */ if ((UInt32)p->incorrect == rec.hfsPlusFile.bsdInfo.groupID) rec.hfsPlusFile.bsdInfo.groupID = (UInt32)p->correct; result = BTReplaceRecord(fcb, &btIterator, &btRecord, recSize); } if (result) return (IntError(GPtr, result)); else return (noErr); } /*------------------------------------------------------------------------------ DeleteUnlinkedFile: Delete orphaned data node (BSD unlinked file) Also used to delete empty "HFS+ Private Data" directories (HFS Plus volumes only) ------------------------------------------------------------------------------*/ static OSErr DeleteUnlinkedFile(SGlobPtr GPtr, RepairOrderPtr p) { CatalogName name; CatalogName *cNameP; size_t len; if (!GPtr->isHFSPlus) return (0); if (p->name[0] > 0) { /* name was stored in UTF-8 */ (void) utf_decodestr(&p->name[1], p->name[0], name.ustr.unicode, &len); name.ustr.length = len / 2; cNameP = &name; } else { cNameP = NULL; } (void) DeleteCatalogNode(GPtr->calculatedVCB, p->parid, cNameP, p->hint); GPtr->VIStat |= S_MDB; GPtr->VIStat |= S_VBM; return (noErr); } /* * Fix a file's PEOF or LEOF (truncate) * (HFS Plus volumes only) */ static OSErr FixFileSize(SGlobPtr GPtr, RepairOrderPtr p) { SFCB *fcb; CatalogRecord rec; HFSPlusCatalogKey * keyp; FSBufferDescriptor btRecord; BTreeIterator btIterator; size_t len; Boolean replace; OSErr result; UInt16 recSize; UInt64 bytes; if (!GPtr->isHFSPlus) return (0); fcb = GPtr->calculatedCatalogFCB; replace = false; ClearMemory(&btIterator, sizeof(btIterator)); btIterator.hint.nodeNum = p->hint; keyp = (HFSPlusCatalogKey*)&btIterator.key; keyp->parentID = p->parid; /* name was stored in UTF-8 */ (void) utf_decodestr(&p->name[1], p->name[0], keyp->nodeName.unicode, &len); keyp->nodeName.length = len / 2; keyp->keyLength = kHFSPlusCatalogKeyMinimumLength + len; btRecord.bufferAddress = &rec; btRecord.itemCount = 1; btRecord.itemSize = sizeof(rec); result = BTSearchRecord(fcb, &btIterator, kInvalidMRUCacheKey, &btRecord, &recSize, &btIterator); if (result) return (IntError(GPtr, result)); if (rec.recordType != kHFSPlusFileRecord) return (noErr); if (p->type == E_PEOF) { bytes = p->correct * (UInt64)GPtr->calculatedVCB->vcbBlockSize; if ((p->forkType == kRsrcFork) && ((UInt32)p->incorrect == rec.hfsPlusFile.resourceFork.totalBlocks)) { rec.hfsPlusFile.resourceFork.totalBlocks = (UInt32)p->correct; replace = true; /* * Make sure our new block count is large * enough to cover the current LEOF. If * its not we must truncate the fork. */ if (rec.hfsPlusFile.resourceFork.logicalSize > bytes) { rec.hfsPlusFile.resourceFork.logicalSize = bytes; } } else if ((p->forkType == kDataFork) && ((UInt32)p->incorrect == rec.hfsPlusFile.dataFork.totalBlocks)) { rec.hfsPlusFile.dataFork.totalBlocks = (UInt32)p->correct; replace = true; /* * Make sure our new block count is large * enough to cover the current LEOF. If * its not we must truncate the fork. */ if (rec.hfsPlusFile.dataFork.logicalSize > bytes) { rec.hfsPlusFile.dataFork.logicalSize = bytes; } } } else /* E_LEOF */ { if ((p->forkType == kRsrcFork) && (p->incorrect == rec.hfsPlusFile.resourceFork.logicalSize)) { rec.hfsPlusFile.resourceFork.logicalSize = p->correct; replace = true; } else if ((p->forkType == kDataFork) && (p->incorrect == rec.hfsPlusFile.dataFork.logicalSize)) { rec.hfsPlusFile.dataFork.logicalSize = p->correct; replace = true; } } if (replace) { result = BTReplaceRecord(fcb, &btIterator, &btRecord, recSize); if (result) return (IntError(GPtr, result)); } return (noErr); } /*------------------------------------------------------------------------------ Routine: FixEmbededVolDescription Function: If the "mdb->drAlBlSt" field has been modified, i.e. Norton Disk Doctor 3.5 tried to "Fix" an HFS+ volume, it reduces the value in the "mdb->drAlBlSt" field. If this field is changed, the file system can no longer find the VolumeHeader or AltVolumeHeader. Input: GPtr - pointer to scavenger global area p - pointer to the repair order Output: FixMDBdrAlBlSt - function result: 0 = no error n = error ------------------------------------------------------------------------------*/ static OSErr FixEmbededVolDescription( SGlobPtr GPtr, RepairOrderPtr p ) { OSErr err; UInt64 totalSectors; UInt32 sectorSize; HFSMasterDirectoryBlock *mdb; EmbededVolDescription *desc; SVCB *vcb = GPtr->calculatedVCB; BlockDescriptor block; desc = (EmbededVolDescription *) &(p->name); /* Fix the Alternate MDB */ err = GetDeviceSize( vcb->vcbDriveNumber, &totalSectors, §orSize ); ReturnIfError( err ); err = GetVolumeBlock(vcb, totalSectors - 2, kGetBlock, &block); ReturnIfError( err ); mdb = (HFSMasterDirectoryBlock *) block.buffer; mdb->drAlBlSt = desc->drAlBlSt; mdb->drEmbedSigWord = desc->drEmbedSigWord; mdb->drEmbedExtent.startBlock = desc->drEmbedExtent.startBlock; mdb->drEmbedExtent.blockCount = desc->drEmbedExtent.blockCount; err = ReleaseVolumeBlock(vcb, &block, kForceWriteBlock); ReturnIfError( err ); /* Fix the MDB */ err = GetVolumeBlock(vcb, 2, kGetBlock, &block); ReturnIfError( err ); mdb = (HFSMasterDirectoryBlock *) block.buffer; mdb->drAlBlSt = desc->drAlBlSt; mdb->drEmbedSigWord = desc->drEmbedSigWord; mdb->drEmbedExtent.startBlock = desc->drEmbedExtent.startBlock; mdb->drEmbedExtent.blockCount = desc->drEmbedExtent.blockCount; err = ReleaseVolumeBlock(vcb, &block, kForceWriteBlock); return( err ); } /*------------------------------------------------------------------------------ Routine: FixWrapperExtents Function: When Norton Disk Doctor 2.0 tries to repair an HFS Plus volume, it assumes that the first catalog extent must be a fixed number of allocation blocks after the start of the first extents extent (in the wrapper). In reality, the first catalog extent should start immediately after the first extents extent. Input: GPtr - pointer to scavenger global area p - pointer to the repair order Output: 0 = no error n = error ------------------------------------------------------------------------------*/ static OSErr FixWrapperExtents( SGlobPtr GPtr, RepairOrderPtr p ) { #pragma unused (p) OSErr err; UInt64 totalSectors; UInt32 sectorSize; HFSMasterDirectoryBlock *mdb; SVCB *vcb = GPtr->calculatedVCB; BlockDescriptor block; /* Get the Alternate MDB */ err = GetDeviceSize( vcb->vcbDriveNumber, &totalSectors, §orSize ); ReturnIfError( err ); err = GetVolumeBlock(vcb, totalSectors - 2, kGetBlock, &block); ReturnIfError( err ); mdb = (HFSMasterDirectoryBlock *) block.buffer; /* Fix the wrapper catalog's first (and only) extent */ mdb->drCTExtRec[0].startBlock = mdb->drXTExtRec[0].startBlock + mdb->drXTExtRec[0].blockCount; err = ReleaseVolumeBlock(vcb, &block, kForceWriteBlock); ReturnIfError( err ); /* Fix the MDB */ err = GetVolumeBlock(vcb, 2, kGetBlock, &block); ReturnIfError( err ); mdb = (HFSMasterDirectoryBlock *) block.buffer; mdb->drCTExtRec[0].startBlock = mdb->drXTExtRec[0].startBlock + mdb->drXTExtRec[0].blockCount; err = ReleaseVolumeBlock(vcb, &block, kForceWriteBlock); return( err ); } // // Entries in the extents BTree which do not have a corresponding catalog entry get fixed here // This routine will run slowly if the extents file is large because we require a Catalog BTree // search for each extent record. // static OSErr FixOrphanedExtent( SGlobPtr GPtr ) { #if 0 OSErr err; UInt32 hint; UInt32 recordSize; UInt32 maxRecords; UInt32 numberOfFilesInList; ExtentKey *extentKeyPtr; ExtentRecord *extentDataPtr; ExtentRecord extents; ExtentRecord zeroExtents; CatalogKey foundExtentKey; CatalogRecord catalogData; CatalogRecord threadData; HFSCatalogNodeID fileID; BTScanState scanState; HFSCatalogNodeID lastFileID = -1; UInt32 recordsFound = 0; Boolean mustRebuildBTree = false; Boolean isHFSPlus = GPtr->isHFSPlus; SVCB *calculatedVCB = GPtr->calculatedVCB; UInt32 **dataHandle = GPtr->validFilesList; SFCB * fcb = GPtr->calculatedExtentsFCB; // Set Up // // Use the BTree scanner since we use MountCheck to find orphaned extents, and MountCheck uses the scanner err = BTScanInitialize( fcb, 0, 0, 0, gFSBufferPtr, gFSBufferSize, &scanState ); if ( err != noErr ) return( badMDBErr ); ClearMemory( (Ptr)&zeroExtents, sizeof(ExtentRecord) ); if ( isHFSPlus ) { maxRecords = fcb->fcbLogicalSize / sizeof(HFSPlusExtentRecord); } else { maxRecords = fcb->fcbLogicalSize / sizeof(HFSExtentRecord); numberOfFilesInList = GetHandleSize((Handle) dataHandle) / sizeof(UInt32); qsort( *dataHandle, numberOfFilesInList, sizeof (UInt32), cmpLongs ); // Sort the list of found file IDs } while ( recordsFound < maxRecords ) { err = BTScanNextRecord( &scanState, false, (void **) &extentKeyPtr, (void **) &extentDataPtr, &recordSize ); if ( err != noErr ) { if ( err == btNotFound ) err = noErr; break; } ++recordsFound; fileID = (isHFSPlus == true) ? extentKeyPtr->hfsPlus.fileID : extentKeyPtr->hfs.fileID; if ( (fileID > kHFSBadBlockFileID) && (lastFileID != fileID) ) // Keep us out of reserved file trouble { lastFileID = fileID; if ( isHFSPlus ) { err = LocateCatalogThread( calculatedVCB, fileID, &threadData, (UInt16*)&recordSize, &hint ); // This call returns nodeName as either Str31 or HFSUniStr255, no need to call PrepareInputName() if ( err == noErr ) // Thread is found, just verify actual record exists. { err = LocateCatalogNode( calculatedVCB, threadData.hfsPlusThread.parentID, (const CatalogName *) &(threadData.hfsPlusThread.nodeName), kNoHint, &foundExtentKey, &catalogData, &hint ); } else if ( err == cmNotFound ) { err = SearchBTreeRecord( GPtr->calculatedExtentsFCB, extentKeyPtr, kNoHint, &foundExtentKey, &extents, (UInt16*)&recordSize, &hint ); if ( err == noErr ) { //¥¥ can't we just delete btree record? err = ReplaceBTreeRecord( GPtr->calculatedExtentsFCB, &foundExtentKey, hint, &zeroExtents, recordSize, &hint ); err = DeleteBTreeRecord( GPtr->calculatedExtentsFCB, &foundExtentKey ); // Delete the orphaned extent } } if ( err != noErr ) mustRebuildBTree = true; // if we have errors here we should rebuild the extents btree } else { if ( ! bsearch( &fileID, *dataHandle, numberOfFilesInList, sizeof(UInt32), cmpLongs ) ) { err = SearchBTreeRecord( GPtr->calculatedExtentsFCB, extentKeyPtr, kNoHint, &foundExtentKey, &extents, (UInt16*)&recordSize, &hint ); if ( err == noErr ) { //¥¥ can't we just delete btree record? err = ReplaceBTreeRecord( GPtr->calculatedExtentsFCB, &foundExtentKey, hint, &zeroExtents, recordSize, &hint ); err = DeleteBTreeRecord( GPtr->calculatedExtentsFCB, &foundExtentKey ); // Delete the orphaned extent } if ( err != noErr ) mustRebuildBTree = true; // if we have errors here we should rebuild the extents btree } } } } if ( mustRebuildBTree == true ) { GPtr->EBTStat |= S_RebuildBTree; err = errRebuildBtree; } return( err ); #else return (0); #endif } // // File records, which have the kHFSThreadExistsMask set, but do not have a corresponding // thread, or threads which do not have corresponding records get fixed here. // static OSErr FixOrphanedFiles ( SGlobPtr GPtr ) { CatalogKey key; CatalogKey foundKey; CatalogKey tempKey; CatalogRecord record; CatalogRecord threadRecord; CatalogRecord record2; HFSCatalogNodeID parentID; HFSCatalogNodeID cNodeID = 0; BTreeIterator savedIterator; UInt32 hint; UInt32 hint2; UInt32 threadHint; OSErr err; UInt16 recordSize; SInt16 recordType; SInt16 threadRecordType = 0; SInt16 selCode = 0x8001; Boolean isHFSPlus = GPtr->isHFSPlus; BTreeControlBlock *btcb = GetBTreeControlBlock( kCalculatedCatalogRefNum ); CopyMemory( &btcb->lastIterator, &savedIterator, sizeof(BTreeIterator) ); do { // Save/Restore Iterator around calls to GetBTreeRecord CopyMemory( &savedIterator, &btcb->lastIterator, sizeof(BTreeIterator) ); err = GetBTreeRecord( GPtr->calculatedCatalogFCB, selCode, &foundKey, &record, &recordSize, &hint ); if ( err != noErr ) break; CopyMemory( &btcb->lastIterator, &savedIterator, sizeof(BTreeIterator) ); selCode = 1; // kNextRecord recordType = record.recordType; switch( recordType ) { case kHFSFileRecord: // If the small file is not supposed to have a thread, just break if ( ( record.hfsFile.flags & kHFSThreadExistsMask ) == 0 ) break; case kHFSFolderRecord: case kHFSPlusFolderRecord: case kHFSPlusFileRecord: // Locate the thread associated with this record (void) CheckForStop( GPtr ); // rotate cursor parentID = isHFSPlus == true ? foundKey.hfsPlus.parentID : foundKey.hfs.parentID; threadHint = hint; switch( recordType ) { case kHFSFolderRecord: cNodeID = record.hfsFolder.folderID; break; case kHFSFileRecord: cNodeID = record.hfsFile.fileID; break; case kHFSPlusFolderRecord: cNodeID = record.hfsPlusFolder.folderID; break; case kHFSPlusFileRecord: cNodeID = record.hfsPlusFile.fileID; break; } //-- Build the key for the file thread BuildCatalogKey( cNodeID, nil, isHFSPlus, &key ); err = SearchBTreeRecord ( GPtr->calculatedCatalogFCB, &key, kNoHint, &foundKey, &threadRecord, &recordSize, &hint2 ); if ( err != noErr ) { // For missing thread records, just create the thread if ( err == btNotFound ) { // Create the missing thread record. switch( recordType ) { case kHFSFolderRecord: threadRecordType = kHFSFolderThreadRecord; break; case kHFSFileRecord: threadRecordType = kHFSFileThreadRecord; break; case kHFSPlusFolderRecord: threadRecordType = kHFSPlusFolderThreadRecord; break; case kHFSPlusFileRecord: threadRecordType = kHFSPlusFileThreadRecord; break; } //-- Fill out the data for the new file thread if ( isHFSPlus ) { HFSPlusCatalogThread threadData; UInt16 recSize; ClearMemory( (Ptr)&threadData, sizeof(HFSPlusCatalogThread) ); threadData.recordType = threadRecordType; threadData.parentID = parentID; CopyCatalogName( (CatalogName *)&foundKey.hfsPlus.nodeName, (CatalogName *)&threadData.nodeName, isHFSPlus ); recSize = 10 + (foundKey.hfsPlus.nodeName.length * 2); err = InsertBTreeRecord( GPtr->calculatedCatalogFCB, &key, &threadData, recSize, &threadHint ); } else { HFSCatalogThread threadData; ClearMemory( (Ptr)&threadData, sizeof(HFSCatalogThread) ); threadData.recordType = threadRecordType; threadData.parentID = parentID; CopyCatalogName( (CatalogName *)&foundKey.hfs.nodeName, (CatalogName *)&threadData.nodeName, isHFSPlus ); err = InsertBTreeRecord( GPtr->calculatedCatalogFCB, &key, &threadData, sizeof(HFSCatalogThread), &threadHint ); } } else { break; } } break; case kHFSFolderThreadRecord: case kHFSFileThreadRecord: case kHFSPlusFolderThreadRecord: case kHFSPlusFileThreadRecord: // Find the catalog record, if it does not exist, delete the existing thread. if ( isHFSPlus ) BuildCatalogKey( record.hfsPlusThread.parentID, (const CatalogName *)&record.hfsPlusThread.nodeName, isHFSPlus, &key ); else BuildCatalogKey( record.hfsThread.parentID, (const CatalogName *)&record.hfsThread.nodeName, isHFSPlus, &key ); err = SearchBTreeRecord ( GPtr->calculatedCatalogFCB, &key, kNoHint, &tempKey, &record2, &recordSize, &hint2 ); if ( err != noErr ) { err = DeleteBTreeRecord( GPtr->calculatedCatalogFCB, &foundKey ); } break; default: M_DebugStr("\p Unknown record type"); break; } } while ( err == noErr ); if ( err == btNotFound ) err = noErr; // all done, no more catalog records // if (err == noErr) // err = BTFlushPath( GPtr->calculatedCatalogFCB ); return( err ); } static OSErr RepairReservedBTreeFields ( SGlobPtr GPtr ) { CatalogRecord record; CatalogKey foundKey; UInt16 recordSize; SInt16 selCode; UInt32 hint; UInt32 *reserved; OSErr err; selCode = 0x8001; // start with 1st record err = GetBTreeRecord( GPtr->calculatedCatalogFCB, selCode, &foundKey, &record, &recordSize, &hint ); if ( err != noErr ) goto EXIT; selCode = 1; // get next record from now on do { switch( record.recordType ) { case kHFSPlusFolderRecord: if ( record.hfsPlusFolder.flags != 0 ) { record.hfsPlusFolder.flags = 0; err = ReplaceBTreeRecord( GPtr->calculatedCatalogFCB, &foundKey, hint, &record, recordSize, &hint ); } break; case kHFSPlusFileRecord: // Note: bit 7 (mask 0x80) of flags is unused in HFS or HFS Plus. However, Inside Macintosh: Files // describes it as meaning the file record is in use. Some non-Apple implementations end up setting // this bit, so we just ignore it. if ( ( record.hfsPlusFile.flags & (UInt16) ~(0X83) ) != 0 ) { record.hfsPlusFile.flags &= 0X83; err = ReplaceBTreeRecord( GPtr->calculatedCatalogFCB, &foundKey, hint, &record, recordSize, &hint ); } break; case kHFSFolderRecord: if ( record.hfsFolder.flags != 0 ) { record.hfsFolder.flags = 0; err = ReplaceBTreeRecord( GPtr->calculatedCatalogFCB, &foundKey, hint, &record, recordSize, &hint ); } break; case kHFSFolderThreadRecord: case kHFSFileThreadRecord: reserved = (UInt32*) &(record.hfsThread.reserved); if ( reserved[0] || reserved[1] ) { reserved[0] = 0; reserved[1] = 0; err = ReplaceBTreeRecord( GPtr->calculatedCatalogFCB, &foundKey, hint, &record, recordSize, &hint ); } break; case kHFSFileRecord: // Note: bit 7 (mask 0x80) of flags is unused in HFS or HFS Plus. However, Inside Macintosh: Files // describes it as meaning the file record is in use. Some non-Apple implementations end up setting // this bit, so we just ignore it. if ( ( ( record.hfsFile.flags & (UInt8) ~(0X83) ) != 0 ) || ( record.hfsFile.dataStartBlock != 0 ) || ( record.hfsFile.rsrcStartBlock != 0 ) || ( record.hfsFile.reserved != 0 ) ) { record.hfsFile.flags &= 0X83; record.hfsFile.dataStartBlock = 0; record.hfsFile.rsrcStartBlock = 0; record.hfsFile.reserved = 0; err = ReplaceBTreeRecord( GPtr->calculatedCatalogFCB, &foundKey, hint, &record, recordSize, &hint ); } break; default: break; } if ( err != noErr ) goto EXIT; err = GetBTreeRecord( GPtr->calculatedCatalogFCB, selCode, &foundKey, &record, &recordSize, &hint ); } while ( err == noErr ); if ( err == btNotFound ) err = noErr; // all done, no more catalog records EXIT: return( err ); } OSErr ProcessFileExtents( SGlobPtr GPtr, SFCB *fcb, UInt8 forkType, UInt16 flags, Boolean isExtentsBTree, Boolean *hasOverflowExtents, UInt32 *blocksUsed ) { OSErr err = noErr; #if 0 UInt32 extentBlockCount; UInt32 extentStartBlock; UInt32 hint; SInt16 i; HFSPlusExtentKey key; HFSPlusExtentRecord extents; Boolean done = false; SVCB *vcb = GPtr->calculatedVCB; UInt32 fileNumber = fcb->fcbFileID; UInt32 blockCount = 0; OSErr err = noErr; *hasOverflowExtents = false; extentBlockCount = 0; // default err = GetFCBExtentRecord( vcb, fcb, extents ); // Gets extents in a HFSPlusExtentRecord while ( (done == false) && (err == noErr) ) { // err = ChkExtRec( GPtr, extents ); // checkout the extent record first // if ( err != noErr ) break; for ( i=0 ; inumExtents ; i++ ) // now checkout the extents { extentBlockCount = extents[i].blockCount; extentStartBlock = extents[i].startBlock; if ( extentBlockCount == 0 ) break; if ( flags == addBitmapBit ) { err = AllocExt( GPtr, extentStartBlock, extentBlockCount ); if ( err != noErr ) { M_DebugStr("\p Problem Allocating Extents"); break; } } blockCount += extentBlockCount; } if ( (err != noErr) || isExtentsBTree ) // Extents file has no extents break; err = FindExtentRecord( vcb, forkType, fileNumber, blockCount, false, &key, extents, &hint ); if ( err == noErr ) { *hasOverflowExtents = true; } else if ( err == btNotFound ) { err = noErr; // no more extent records done = true; break; } else if ( err != noErr ) { err = IntError( GPtr, err ); break; } if ( flags == deleteExtents ) { err = DeleteExtentRecord( vcb, forkType, fileNumber, blockCount ); if ( err != noErr ) break; vcb->vcbFreeBlocks += extentBlockCount; MarkVCBDirty( vcb ); } } *blocksUsed = blockCount; #endif return( err ); } /*------------------------------------------------------------------------------ Function: cmpLongs Function: compares two longs. Input: *a: pointer to first number *b: pointer to second number Output: <0 if *a < *b 0 if a == b >0 if a > b ------------------------------------------------------------------------------*/ int cmpLongs ( const void *a, const void *b ) { return( *(long*)a - *(long*)b ); } // // Isolate and fix Overlapping Extents // static OSErr FixOverlappingExtents( SGlobPtr GPtr ) { OSErr err = noErr; #if 0 UInt32 i; UInt32 numInitialExtents; ExtentInfo *extentInfo; ExtentsTable **extentsTableH = GPtr->overlappedExtents; if ( extentsTableH == nil ) return( -1 ); numInitialExtents = (**extentsTableH).count; InvalidateCalculatedVolumeBitMap( GPtr ); err = UpdateVolumeBitMap( GPtr, true ); // Update VolumeBitMap, while first allocating the known overlapped extents // Preflight to make sure none of the HFS files are being overlapped for ( i = 0 ; i < (**extentsTableH).count; i++ ) { if ( (**extentsTableH).extentInfo[i].fileNumber < kHFSFirstUserCatalogNodeID ) { char fileNum[32]; GPtr->TarBlock = (**extentsTableH).extentInfo[i].fileNumber; sprintf(fileNum, "%ld", GPtr->TarBlock); PrintError(GPtr, E_InternalFileOverlap, 1, fileNum); return( E_InternalFileOverlap ); } } // We now have a complete list off all the overlapping extents // Duplicate numInitialExtents extents, and change its extent info to point to the copy. for ( i = 0 ; (i < numInitialExtents) && (err == noErr) ; i++ ) { extentInfo = &((**extentsTableH).extentInfo[i]); err = MoveExtent( GPtr, extentInfo ); } InvalidateCalculatedVolumeBitMap( GPtr ); // Invalidate our BitMap, since we modified it if ( err == noErr ) err = CreateFileIdentifiers( GPtr ); #endif return( err ); } // 2210409, in System 8.1, moving file or folder would cause HFS+ thread records to be // 520 bytes in size. We only shrink the threads if other repairs are needed. static OSErr FixBloatedThreadRecords( SGlob *GPtr ) { CatalogRecord record; CatalogKey foundKey; UInt32 hint; UInt16 recordSize; SInt16 i = 0; OSErr err; SInt16 selCode = 0x8001; // Start with 1st record err = GetBTreeRecord( GPtr->calculatedCatalogFCB, selCode, &foundKey, &record, &recordSize, &hint ); ReturnIfError( err ); selCode = 1; // Get next record from now on do { if ( ++i > 10 ) { (void) CheckForStop( GPtr ); i = 0; } // Spin the cursor every 10 entries if ( (recordSize == sizeof(HFSPlusCatalogThread)) && ((record.recordType == kHFSPlusFolderThreadRecord) || (record.recordType == kHFSPlusFileThreadRecord)) ) { // HFS Plus has varaible sized threads so adjust to actual length recordSize -= ( sizeof(record.hfsPlusThread.nodeName.unicode) - (record.hfsPlusThread.nodeName.length * sizeof(UniChar)) ); err = ReplaceBTreeRecord( GPtr->calculatedCatalogFCB, &foundKey, hint, &record, recordSize, &hint ); ReturnIfError( err ); } err = GetBTreeRecord( GPtr->calculatedCatalogFCB, selCode, &foundKey, &record, &recordSize, &hint ); } while ( err == noErr ); if ( err == btNotFound ) err = noErr; return( err ); } static OSErr FixMissingThreadRecords( SGlob *GPtr ) { struct MissingThread *mtp; FSBufferDescriptor btRecord; BTreeIterator iterator; OSStatus result; UInt16 dataSize; for (mtp = GPtr->missingThreadList; mtp != NULL; mtp = mtp->link) { if (mtp->threadID == 0 || mtp->thread.parentID == 0) continue; dataSize = 10 + (mtp->thread.nodeName.length * 2); btRecord.bufferAddress = (void *)&mtp->thread; btRecord.itemSize = dataSize; btRecord.itemCount = 1; iterator.hint.nodeNum = 0; BuildCatalogKey(mtp->threadID, NULL, true, (CatalogKey*)&iterator.key); result = BTInsertRecord(GPtr->calculatedCatalogFCB, &iterator, &btRecord, dataSize); if (result) return (IntError(GPtr, R_IntErr)); mtp->threadID = 0; } return (0); }