// // hfs_misc.c - hfs routines // // Written by Eryk Vershen // /* * Copyright 2000 by Eryk Vershen */ // for *printf() #include // for malloc(), calloc() & free() #include // for strncpy() & strcmp() #include // for O_RDONLY & O_RDWR #include // for errno #include #include "hfs_misc.h" #include "partition_map.h" #include "convert.h" #include "errors.h" // // Defines // #define MDB_OFFSET 2 #define HFS_SIG 0x4244 /* i.e 'BD' */ #define HFS_PLUS_SIG 0x482B /* i.e 'H+' */ #define get_align_long(x) (*(u32*)(x)) // // Types // typedef long long u64; typedef struct ExtDescriptor { // extent descriptor u16 xdrStABN; // first allocation block u16 xdrNumABlks; // number of allocation blocks } ext_descriptor; typedef struct ExtDataRec { ext_descriptor ed[3]; // extent data record } ext_data_rec; /* * The crazy "u16 x[2]" stuff here is to get around the fact * that I can't convince the Mac compiler to align on 32 bit * quantities on 16 bit boundaries... */ struct mdb_record { // master directory block u16 drSigWord; // volume signature u16 drCrDate[2]; // date and time of volume creation u16 drLsMod[2]; // date and time of last modification u16 drAtrb; // volume attributes u16 drNmFls; // number of files in root directory u16 drVBMSt; // first block of volume bitmap u16 drAllocPtr; // start of next allocation search u16 drNmAlBlks; // number of allocation blocks in volume u32 drAlBlkSiz; // size (in bytes) of allocation blocks u32 drClpSiz; // default clump size u16 drAlBlSt; // first allocation block in volume u16 drNxtCNID[2]; // next unused catalog node ID u16 drFreeBks; // number of unused allocation blocks char drVN[28]; // volume name u16 drVolBkUp[2]; // date and time of last backup u16 drVSeqNum; // volume backup sequence number u16 drWrCnt[2]; // volume write count u16 drXTClpSiz[2]; // clump size for extents overflow file u16 drCTClpSiz[2]; // clump size for catalog file u16 drNmRtDirs; // number of directories in root directory u32 drFilCnt; // number of files in volume u32 drDirCnt; // number of directories in volume u32 drFndrInfo[8]; // information used by the Finder #ifdef notdef u16 drVCSize; // size (in blocks) of volume cache u16 drVBMCSize; // size (in blocks) of volume bitmap cache u16 drCtlCSize; // size (in blocks) of common volume cache #else u16 drEmbedSigWord; // type of embedded volume ext_descriptor drEmbedExtent; // embedded volume extent #endif u16 drXTFlSize[2]; // size of extents overflow file ext_data_rec drXTExtRec; // extent record for extents overflow file u16 drCTFlSize[2]; // size of catalog file ext_data_rec drCTExtRec; // extent record for catalog file }; typedef u32 HFSCatalogNodeID; typedef struct HFSPlusExtentDescriptor { u32 startBlock; u32 blockCount; } HFSPlusExtentDescriptor; typedef HFSPlusExtentDescriptor HFSPlusExtentRecord[ 8]; typedef struct HFSPlusForkData { u64 logicalSize; u32 clumpSize; u32 totalBlocks; HFSPlusExtentRecord extents; } HFSPlusForkData; struct HFSPlusVolumeHeader { u16 signature; u16 version; u32 attributes; u32 lastMountedVersion; u32 reserved; u32 createDate; u32 modifyDate; u32 backupDate; u32 checkedDate; u32 fileCount; u32 folderCount; u32 blockSize; u32 totalBlocks; u32 freeBlocks; u32 nextAllocation; u32 rsrcClumpSize; u32 dataClumpSize; HFSCatalogNodeID nextCatalogID; u32 writeCount; u64 encodingsBitmap; u8 finderInfo[ 32]; HFSPlusForkData allocationFile; HFSPlusForkData extentsFile; HFSPlusForkData catalogFile; HFSPlusForkData attributesFile; HFSPlusForkData startupFile; } HFSPlusVolumeHeader; // // Global Constants // // // Global Variables // // // Forward declarations // int read_partition_block(partition_map *entry, unsigned long num, char *buf); // // Routines // char * get_HFS_name(partition_map *entry, int *kind) { DPME *data; struct mdb_record *mdb; //struct HFSPlusVolumeHeader *mdb2; char *name = NULL; int len; *kind = kHFS_not; mdb = (struct mdb_record *) malloc(PBLOCK_SIZE); if (mdb == NULL) { error(errno, "can't allocate memory for MDB"); return NULL; } data = entry->data; if (strcmp(data->dpme_type, kHFSType) == 0) { if (read_partition_block(entry, 2, (char *)mdb) == 0) { error(-1, "Can't read block %d from partition %d", 2, entry->disk_address); goto not_hfs; } if (mdb->drSigWord == HFS_PLUS_SIG) { // pure HFS Plus // printf("%lu HFS Plus\n", entry->disk_address); *kind = kHFS_plus; } else if (mdb->drSigWord != HFS_SIG) { // not HFS !!! printf("%lu not HFS\n", entry->disk_address); *kind = kHFS_not; } else if (mdb->drEmbedSigWord != HFS_PLUS_SIG) { // HFS // printf("%lu HFS\n", entry->disk_address); *kind = kHFS_std; len = mdb->drVN[0]; name = (char *) malloc(len+1); strncpy(name, &mdb->drVN[1], len); name[len] = 0; } else { // embedded HFS plus // printf("%lu embedded HFS Plus\n", entry->disk_address); *kind = kHFS_embed; len = mdb->drVN[0]; name = (char *) malloc(len+1); strncpy(name, &mdb->drVN[1], len); name[len] = 0; } } not_hfs: free(mdb); return name; } // really need a function to read block n from partition m int read_partition_block(partition_map *entry, unsigned long num, char *buf) { DPME *data; partition_map_header * map; u32 base; u64 offset; map = entry->the_map; data = entry->data; base = data->dpme_pblock_start; if (num >= data->dpme_pblocks) { return 0; } offset = ((long long) base) * map->logical_block + num * 512; return read_media(map->m, offset, 512, (void *)buf); }