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[/] [or1k/] [trunk/] [linux/] [linux-2.4/] [fs/] [hfs/] [mdb.c] - Rev 1765
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/* * linux/fs/hfs/mdb.c * * Copyright (C) 1995-1997 Paul H. Hargrove * This file may be distributed under the terms of the GNU General Public License. * * This file contains functions for reading/writing the MDB. * * "XXX" in a comment is a note to myself to consider changing something. * * In function preconditions the term "valid" applied to a pointer to * a structure means that the pointer is non-NULL and the structure it * points to has all fields initialized to consistent values. * * The code in this file initializes some structures which contain * pointers by calling memset(&foo, 0, sizeof(foo)). * This produces the desired behavior only due to the non-ANSI * assumption that the machine representation of NULL is all zeros. */ #include "hfs.h" /*================ File-local data types ================*/ /* * The HFS Master Directory Block (MDB). * * Also known as the Volume Information Block (VIB), this structure is * the HFS equivalent of a superblock. * * Reference: _Inside Macintosh: Files_ pages 2-59 through 2-62 * * modified for HFS Extended */ struct raw_mdb { hfs_word_t drSigWord; /* Signature word indicating fs type */ hfs_lword_t drCrDate; /* fs creation date/time */ hfs_lword_t drLsMod; /* fs modification date/time */ hfs_word_t drAtrb; /* fs attributes */ hfs_word_t drNmFls; /* number of files in root directory */ hfs_word_t drVBMSt; /* location (in 512-byte blocks) of the volume bitmap */ hfs_word_t drAllocPtr; /* location (in allocation blocks) to begin next allocation search */ hfs_word_t drNmAlBlks; /* number of allocation blocks */ hfs_lword_t drAlBlkSiz; /* bytes in an allocation block */ hfs_lword_t drClpSiz; /* clumpsize, the number of bytes to allocate when extending a file */ hfs_word_t drAlBlSt; /* location (in 512-byte blocks) of the first allocation block */ hfs_lword_t drNxtCNID; /* CNID to assign to the next file or directory created */ hfs_word_t drFreeBks; /* number of free allocation blocks */ hfs_byte_t drVN[28]; /* the volume label */ hfs_lword_t drVolBkUp; /* fs backup date/time */ hfs_word_t drVSeqNum; /* backup sequence number */ hfs_lword_t drWrCnt; /* fs write count */ hfs_lword_t drXTClpSiz; /* clumpsize for the extents B-tree */ hfs_lword_t drCTClpSiz; /* clumpsize for the catalog B-tree */ hfs_word_t drNmRtDirs; /* number of directories in the root directory */ hfs_lword_t drFilCnt; /* number of files in the fs */ hfs_lword_t drDirCnt; /* number of directories in the fs */ hfs_byte_t drFndrInfo[32]; /* data used by the Finder */ hfs_word_t drEmbedSigWord; /* embedded volume signature */ hfs_lword_t drEmbedExtent; /* starting block number (xdrStABN) and number of allocation blocks (xdrNumABlks) occupied by embedded volume */ hfs_lword_t drXTFlSize; /* bytes in the extents B-tree */ hfs_byte_t drXTExtRec[12]; /* extents B-tree's first 3 extents */ hfs_lword_t drCTFlSize; /* bytes in the catalog B-tree */ hfs_byte_t drCTExtRec[12]; /* catalog B-tree's first 3 extents */ } __attribute__((packed)); /*================ Global functions ================*/ /* * hfs_mdb_get() * * Build the in-core MDB for a filesystem, including * the B-trees and the volume bitmap. */ struct hfs_mdb *hfs_mdb_get(hfs_sysmdb sys_mdb, int readonly, hfs_s32 part_start) { struct hfs_mdb *mdb; hfs_buffer buf; struct raw_mdb *raw; unsigned int bs, block; int lcv, limit; hfs_buffer *bmbuf; if (!HFS_NEW(mdb)) { hfs_warn("hfs_fs: out of memory\n"); return NULL; } memset(mdb, 0, sizeof(*mdb)); mdb->magic = HFS_MDB_MAGIC; mdb->sys_mdb = sys_mdb; INIT_LIST_HEAD(&mdb->entry_dirty); hfs_init_waitqueue(&mdb->rename_wait); hfs_init_waitqueue(&mdb->bitmap_wait); /* See if this is an HFS filesystem */ buf = hfs_buffer_get(sys_mdb, part_start + HFS_MDB_BLK, 1); if (!hfs_buffer_ok(buf)) { hfs_warn("hfs_fs: Unable to read superblock\n"); HFS_DELETE(mdb); goto bail2; } raw = (struct raw_mdb *)hfs_buffer_data(buf); if (hfs_get_ns(raw->drSigWord) != htons(HFS_SUPER_MAGIC)) { hfs_buffer_put(buf); HFS_DELETE(mdb); goto bail2; } mdb->buf = buf; bs = hfs_get_hl(raw->drAlBlkSiz); if (!bs || (bs & (HFS_SECTOR_SIZE-1))) { hfs_warn("hfs_fs: bad allocation block size %d != 512\n", bs); hfs_buffer_put(buf); HFS_DELETE(mdb); goto bail2; } mdb->alloc_blksz = bs >> HFS_SECTOR_SIZE_BITS; /* These parameters are read from the MDB, and never written */ mdb->create_date = hfs_get_hl(raw->drCrDate); mdb->fs_ablocks = hfs_get_hs(raw->drNmAlBlks); mdb->fs_start = hfs_get_hs(raw->drAlBlSt) + part_start; mdb->backup_date = hfs_get_hl(raw->drVolBkUp); mdb->clumpablks = (hfs_get_hl(raw->drClpSiz) / mdb->alloc_blksz) >> HFS_SECTOR_SIZE_BITS; memcpy(mdb->vname, raw->drVN, sizeof(raw->drVN)); /* These parameters are read from and written to the MDB */ mdb->modify_date = hfs_get_nl(raw->drLsMod); mdb->attrib = hfs_get_ns(raw->drAtrb); mdb->free_ablocks = hfs_get_hs(raw->drFreeBks); mdb->next_id = hfs_get_hl(raw->drNxtCNID); mdb->write_count = hfs_get_hl(raw->drWrCnt); mdb->root_files = hfs_get_hs(raw->drNmFls); mdb->root_dirs = hfs_get_hs(raw->drNmRtDirs); mdb->file_count = hfs_get_hl(raw->drFilCnt); mdb->dir_count = hfs_get_hl(raw->drDirCnt); /* TRY to get the alternate (backup) MDB. */ lcv = mdb->fs_start + mdb->fs_ablocks * mdb->alloc_blksz; limit = lcv + mdb->alloc_blksz; for (; lcv < limit; ++lcv) { buf = hfs_buffer_get(sys_mdb, lcv, 1); if (hfs_buffer_ok(buf)) { struct raw_mdb *tmp = (struct raw_mdb *)hfs_buffer_data(buf); if (hfs_get_ns(tmp->drSigWord) == htons(HFS_SUPER_MAGIC)) { mdb->alt_buf = buf; break; } } hfs_buffer_put(buf); } if (mdb->alt_buf == NULL) { hfs_warn("hfs_fs: unable to locate alternate MDB\n"); hfs_warn("hfs_fs: continuing without an alternate MDB\n"); } /* read in the bitmap */ block = hfs_get_hs(raw->drVBMSt) + part_start; bmbuf = mdb->bitmap; lcv = (mdb->fs_ablocks + 4095) / 4096; for ( ; lcv; --lcv, ++bmbuf, ++block) { if (!hfs_buffer_ok(*bmbuf = hfs_buffer_get(sys_mdb, block, 1))) { hfs_warn("hfs_fs: unable to read volume bitmap\n"); goto bail1; } } if (!(mdb->ext_tree = hfs_btree_init(mdb, htonl(HFS_EXT_CNID), raw->drXTExtRec, hfs_get_hl(raw->drXTFlSize), hfs_get_hl(raw->drXTClpSiz))) || !(mdb->cat_tree = hfs_btree_init(mdb, htonl(HFS_CAT_CNID), raw->drCTExtRec, hfs_get_hl(raw->drCTFlSize), hfs_get_hl(raw->drCTClpSiz)))) { hfs_warn("hfs_fs: unable to initialize data structures\n"); goto bail1; } if (!(mdb->attrib & htons(HFS_SB_ATTRIB_CLEAN))) { hfs_warn("hfs_fs: WARNING: mounting unclean filesystem.\n"); } else if (!readonly && !(mdb->attrib & (HFS_SB_ATTRIB_HLOCK | HFS_SB_ATTRIB_SLOCK))) { /* Mark the volume uncleanly unmounted in case we crash */ hfs_put_ns(mdb->attrib & htons(~HFS_SB_ATTRIB_CLEAN), raw->drAtrb); hfs_buffer_dirty(mdb->buf); hfs_buffer_sync(mdb->buf); } return mdb; bail1: hfs_mdb_put(mdb, readonly); bail2: return NULL; } /* * hfs_mdb_commit() * * Description: * This updates the MDB on disk (look also at hfs_write_super()). * It does not check, if the superblock has been modified, or * if the filesystem has been mounted read-only. It is mainly * called by hfs_write_super() and hfs_btree_extend(). * Input Variable(s): * struct hfs_mdb *mdb: Pointer to the hfs MDB * int backup; * Output Variable(s): * NONE * Returns: * void * Preconditions: * 'mdb' points to a "valid" (struct hfs_mdb). * Postconditions: * The HFS MDB and on disk will be updated, by copying the possibly * modified fields from the in memory MDB (in native byte order) to * the disk block buffer. * If 'backup' is non-zero then the alternate MDB is also written * and the function doesn't return until it is actually on disk. */ void hfs_mdb_commit(struct hfs_mdb *mdb, int backup) { struct raw_mdb *raw = (struct raw_mdb *)hfs_buffer_data(mdb->buf); /* Commit catalog entries to buffers */ hfs_cat_commit(mdb); /* Commit B-tree data to buffers */ hfs_btree_commit(mdb->cat_tree, raw->drCTExtRec, raw->drCTFlSize); hfs_btree_commit(mdb->ext_tree, raw->drXTExtRec, raw->drXTFlSize); /* Update write_count and modify_date */ ++mdb->write_count; mdb->modify_date = hfs_time(); /* These parameters may have been modified, so write them back */ hfs_put_nl(mdb->modify_date, raw->drLsMod); hfs_put_hs(mdb->free_ablocks, raw->drFreeBks); hfs_put_hl(mdb->next_id, raw->drNxtCNID); hfs_put_hl(mdb->write_count, raw->drWrCnt); hfs_put_hs(mdb->root_files, raw->drNmFls); hfs_put_hs(mdb->root_dirs, raw->drNmRtDirs); hfs_put_hl(mdb->file_count, raw->drFilCnt); hfs_put_hl(mdb->dir_count, raw->drDirCnt); /* write MDB to disk */ hfs_buffer_dirty(mdb->buf); /* write the backup MDB, not returning until it is written. * we only do this when either the catalog or extents overflow * files grow. */ if (backup && hfs_buffer_ok(mdb->alt_buf)) { struct raw_mdb *tmp = (struct raw_mdb *) hfs_buffer_data(mdb->alt_buf); if ((hfs_get_hl(tmp->drCTFlSize) < hfs_get_hl(raw->drCTFlSize)) || (hfs_get_hl(tmp->drXTFlSize) < hfs_get_hl(raw->drXTFlSize))) { memcpy(hfs_buffer_data(mdb->alt_buf), hfs_buffer_data(mdb->buf), HFS_SECTOR_SIZE); hfs_buffer_dirty(mdb->alt_buf); hfs_buffer_sync(mdb->alt_buf); } } } /* * hfs_mdb_put() * * Release the resources associated with the in-core MDB. */ void hfs_mdb_put(struct hfs_mdb *mdb, int readonly) { int lcv; /* invalidate cached catalog entries */ hfs_cat_invalidate(mdb); /* free the B-trees */ hfs_btree_free(mdb->ext_tree); hfs_btree_free(mdb->cat_tree); /* free the volume bitmap */ for (lcv = 0; lcv < HFS_BM_MAXBLOCKS; ++lcv) { hfs_buffer_put(mdb->bitmap[lcv]); } /* update volume attributes */ if (!readonly) { struct raw_mdb *raw = (struct raw_mdb *)hfs_buffer_data(mdb->buf); hfs_put_ns(mdb->attrib, raw->drAtrb); hfs_buffer_dirty(mdb->buf); } /* free the buffers holding the primary and alternate MDBs */ hfs_buffer_put(mdb->buf); hfs_buffer_put(mdb->alt_buf); /* free the MDB */ HFS_DELETE(mdb); }