btree.c
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上传日期:2013-04-10
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文件大小:9k
- /*
- * linux/fs/hfs/btree.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 the code to manipulate the B-tree structure.
- * The catalog and extents files are both B-trees.
- *
- * "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_btree.h"
- /*================ File-local functions ================*/
- /*
- * hfs_bnode_ditch()
- *
- * Description:
- * This function deletes an entire linked list of bnodes, so it
- * does not need to keep the linked list consistent as
- * hfs_bnode_delete() does.
- * Called by hfs_btree_init() for error cleanup and by hfs_btree_free().
- * Input Variable(s):
- * struct hfs_bnode *bn: pointer to the first (struct hfs_bnode) in
- * the linked list to be deleted.
- * Output Variable(s):
- * NONE
- * Returns:
- * void
- * Preconditions:
- * 'bn' is NULL or points to a "valid" (struct hfs_bnode) with a 'prev'
- * field of NULL.
- * Postconditions:
- * 'bn' and all (struct hfs_bnode)s in the chain of 'next' pointers
- * are deleted, freeing the associated memory and hfs_buffer_put()ing
- * the associated buffer.
- */
- static void hfs_bnode_ditch(struct hfs_bnode *bn) {
- struct hfs_bnode *tmp;
- #if defined(DEBUG_BNODES) || defined(DEBUG_ALL)
- extern int bnode_count;
- #endif
- while (bn != NULL) {
- tmp = bn->next;
- #if defined(DEBUG_BNODES) || defined(DEBUG_ALL)
- hfs_warn("deleting node %d from tree %d with count %dn",
- bn->node, (int)ntohl(bn->tree->entry.cnid), bn->count);
- --bnode_count;
- #endif
- hfs_buffer_put(bn->buf); /* safe: checks for NULL argument */
- /* free all but the header */
- if (bn->node) {
- HFS_DELETE(bn);
- }
- bn = tmp;
- }
- }
- /*================ Global functions ================*/
- /*
- * hfs_btree_free()
- *
- * Description:
- * This function frees a (struct hfs_btree) obtained from hfs_btree_init().
- * Called by hfs_put_super().
- * Input Variable(s):
- * struct hfs_btree *bt: pointer to the (struct hfs_btree) to free
- * Output Variable(s):
- * NONE
- * Returns:
- * void
- * Preconditions:
- * 'bt' is NULL or points to a "valid" (struct hfs_btree)
- * Postconditions:
- * If 'bt' points to a "valid" (struct hfs_btree) then all (struct
- * hfs_bnode)s associated with 'bt' are freed by calling
- * hfs_bnode_ditch() and the memory associated with the (struct
- * hfs_btree) is freed.
- * If 'bt' is NULL or not "valid" an error is printed and nothing
- * is changed.
- */
- void hfs_btree_free(struct hfs_btree *bt)
- {
- int lcv;
- if (bt && (bt->magic == HFS_BTREE_MAGIC)) {
- hfs_extent_free(&bt->entry.u.file.data_fork);
- for (lcv=0; lcv<HFS_CACHELEN; ++lcv) {
- #if defined(DEBUG_BNODES) || defined(DEBUG_ALL)
- hfs_warn("deleting nodes from bucket %d:n", lcv);
- #endif
- hfs_bnode_ditch(bt->cache[lcv]);
- }
- #if defined(DEBUG_BNODES) || defined(DEBUG_ALL)
- hfs_warn("deleting header and bitmap nodesn");
- #endif
- hfs_bnode_ditch(&bt->head);
- #if defined(DEBUG_BNODES) || defined(DEBUG_ALL)
- hfs_warn("deleting root noden");
- #endif
- hfs_bnode_ditch(bt->root);
- HFS_DELETE(bt);
- } else if (bt) {
- hfs_warn("hfs_btree_free: corrupted hfs_btree.n");
- }
- }
- /*
- * hfs_btree_init()
- *
- * Description:
- * Given some vital information from the MDB (HFS superblock),
- * initializes the fields of a (struct hfs_btree).
- * Input Variable(s):
- * struct hfs_mdb *mdb: pointer to the MDB
- * ino_t cnid: the CNID (HFS_CAT_CNID or HFS_EXT_CNID) of the B-tree
- * hfs_u32 tsize: the size, in bytes, of the B-tree
- * hfs_u32 csize: the size, in bytes, of the clump size for the B-tree
- * Output Variable(s):
- * NONE
- * Returns:
- * (struct hfs_btree *): pointer to the initialized hfs_btree on success,
- * or NULL on failure
- * Preconditions:
- * 'mdb' points to a "valid" (struct hfs_mdb)
- * Postconditions:
- * Assuming the inputs are what they claim to be, no errors occur
- * reading from disk, and no inconsistencies are noticed in the data
- * read from disk, the return value is a pointer to a "valid"
- * (struct hfs_btree). If there are errors reading from disk or
- * inconsistencies are noticed in the data read from disk, then and
- * all resources that were allocated are released and NULL is
- * returned. If the inputs are not what they claim to be or if they
- * are unnoticed inconsistencies in the data read from disk then the
- * returned hfs_btree is probably going to lead to errors when it is
- * used in a non-trivial way.
- */
- struct hfs_btree * hfs_btree_init(struct hfs_mdb *mdb, ino_t cnid,
- hfs_byte_t ext[12],
- hfs_u32 tsize, hfs_u32 csize)
- {
- struct hfs_btree * bt;
- struct BTHdrRec * th;
- struct hfs_bnode * tmp;
- unsigned int next;
- #if defined(DEBUG_HEADER) || defined(DEBUG_ALL)
- unsigned char *p, *q;
- #endif
- if (!mdb || !ext || !HFS_NEW(bt)) {
- goto bail3;
- }
- bt->magic = HFS_BTREE_MAGIC;
- bt->sys_mdb = mdb->sys_mdb;
- bt->reserved = 0;
- bt->lock = 0;
- hfs_init_waitqueue(&bt->wait);
- bt->dirt = 0;
- memset(bt->cache, 0, sizeof(bt->cache));
- #if 0 /* this is a fake entry. so we don't need to initialize it. */
- memset(&bt->entry, 0, sizeof(bt->entry));
- hfs_init_waitqueue(&bt->entry.wait);
- INIT_LIST_HEAD(&bt->entry.hash);
- INIT_LIST_HEAD(&bt->entry.list);
- #endif
- bt->entry.mdb = mdb;
- bt->entry.cnid = cnid;
- bt->entry.type = HFS_CDR_FIL;
- bt->entry.u.file.magic = HFS_FILE_MAGIC;
- bt->entry.u.file.clumpablks = (csize / mdb->alloc_blksz)
- >> HFS_SECTOR_SIZE_BITS;
- bt->entry.u.file.data_fork.entry = &bt->entry;
- bt->entry.u.file.data_fork.lsize = tsize;
- bt->entry.u.file.data_fork.psize = tsize >> HFS_SECTOR_SIZE_BITS;
- bt->entry.u.file.data_fork.fork = HFS_FK_DATA;
- hfs_extent_in(&bt->entry.u.file.data_fork, ext);
- hfs_bnode_read(&bt->head, bt, 0, HFS_STICKY);
- if (!hfs_buffer_ok(bt->head.buf)) {
- goto bail2;
- }
- th = (struct BTHdrRec *)((char *)hfs_buffer_data(bt->head.buf) +
- sizeof(struct NodeDescriptor));
- /* read in the bitmap nodes (if any) */
- tmp = &bt->head;
- while ((next = tmp->ndFLink)) {
- if (!HFS_NEW(tmp->next)) {
- goto bail2;
- }
- hfs_bnode_read(tmp->next, bt, next, HFS_STICKY);
- if (!hfs_buffer_ok(tmp->next->buf)) {
- goto bail2;
- }
- tmp->next->prev = tmp;
- tmp = tmp->next;
- }
- if (hfs_get_ns(th->bthNodeSize) != htons(HFS_SECTOR_SIZE)) {
- hfs_warn("hfs_btree_init: bthNodeSize!=512 not supportedn");
- goto bail2;
- }
- if (cnid == htonl(HFS_CAT_CNID)) {
- bt->compare = (hfs_cmpfn)hfs_cat_compare;
- } else if (cnid == htonl(HFS_EXT_CNID)) {
- bt->compare = (hfs_cmpfn)hfs_ext_compare;
- } else {
- goto bail2;
- }
- bt->bthDepth = hfs_get_hs(th->bthDepth);
- bt->bthRoot = hfs_get_hl(th->bthRoot);
- bt->bthNRecs = hfs_get_hl(th->bthNRecs);
- bt->bthFNode = hfs_get_hl(th->bthFNode);
- bt->bthLNode = hfs_get_hl(th->bthLNode);
- bt->bthNNodes = hfs_get_hl(th->bthNNodes);
- bt->bthFree = hfs_get_hl(th->bthFree);
- bt->bthKeyLen = hfs_get_hs(th->bthKeyLen);
- #if defined(DEBUG_HEADER) || defined(DEBUG_ALL)
- hfs_warn("bthDepth %dn", bt->bthDepth);
- hfs_warn("bthRoot %dn", bt->bthRoot);
- hfs_warn("bthNRecs %dn", bt->bthNRecs);
- hfs_warn("bthFNode %dn", bt->bthFNode);
- hfs_warn("bthLNode %dn", bt->bthLNode);
- hfs_warn("bthKeyLen %dn", bt->bthKeyLen);
- hfs_warn("bthNNodes %dn", bt->bthNNodes);
- hfs_warn("bthFree %dn", bt->bthFree);
- p = (unsigned char *)hfs_buffer_data(bt->head.buf);
- q = p + HFS_SECTOR_SIZE;
- while (p < q) {
- hfs_warn("%02x %02x %02x %02x %02x %02x %02x %02x "
- "%02x %02x %02x %02x %02x %02x %02x %02xn",
- *p++, *p++, *p++, *p++, *p++, *p++, *p++, *p++,
- *p++, *p++, *p++, *p++, *p++, *p++, *p++, *p++);
- }
- #endif
- /* Read in the root if it exists.
- The header always exists, but the root exists only if the
- tree is non-empty */
- if (bt->bthDepth && bt->bthRoot) {
- if (!HFS_NEW(bt->root)) {
- goto bail2;
- }
- hfs_bnode_read(bt->root, bt, bt->bthRoot, HFS_STICKY);
- if (!hfs_buffer_ok(bt->root->buf)) {
- goto bail1;
- }
- } else {
- bt->root = NULL;
- }
- return bt;
- bail1:
- hfs_bnode_ditch(bt->root);
- bail2:
- hfs_bnode_ditch(&bt->head);
- HFS_DELETE(bt);
- bail3:
- return NULL;
- }
- /*
- * hfs_btree_commit()
- *
- * Called to write a possibly dirty btree back to disk.
- */
- void hfs_btree_commit(struct hfs_btree *bt, hfs_byte_t ext[12], hfs_lword_t size)
- {
- if (bt->dirt) {
- struct BTHdrRec *th;
- th = (struct BTHdrRec *)((char *)hfs_buffer_data(bt->head.buf) +
- sizeof(struct NodeDescriptor));
- hfs_put_hs(bt->bthDepth, th->bthDepth);
- hfs_put_hl(bt->bthRoot, th->bthRoot);
- hfs_put_hl(bt->bthNRecs, th->bthNRecs);
- hfs_put_hl(bt->bthFNode, th->bthFNode);
- hfs_put_hl(bt->bthLNode, th->bthLNode);
- hfs_put_hl(bt->bthNNodes, th->bthNNodes);
- hfs_put_hl(bt->bthFree, th->bthFree);
- hfs_buffer_dirty(bt->head.buf);
- /*
- * Commit the bnodes which are not cached.
- * The map nodes don't need to be committed here because
- * they are committed every time they are changed.
- */
- hfs_bnode_commit(&bt->head);
- if (bt->root) {
- hfs_bnode_commit(bt->root);
- }
-
- hfs_put_hl(bt->bthNNodes << HFS_SECTOR_SIZE_BITS, size);
- hfs_extent_out(&bt->entry.u.file.data_fork, ext);
- /* hfs_buffer_dirty(mdb->buf); (Done by caller) */
- bt->dirt = 0;
- }
- }