/** * index.c - NTFS index handling. Originated from the Linux-NTFS project. * * Copyright (c) 2004-2005 Anton Altaparmakov * Copyright (c) 2004-2005 Richard Russon * Copyright (c) 2005-2006 Yura Pakhuchiy * Copyright (c) 2005-2008 Szabolcs Szakacsits * Copyright (c) 2007 Jean-Pierre Andre * * This program/include file is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License as published * by the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program/include file is distributed in the hope that it will be * useful, but WITHOUT ANY WARRANTY; without even the implied warranty * of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program (in the main directory of the NTFS-3G * distribution in the file COPYING); if not, write to the Free Software * Foundation,Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #ifdef HAVE_STDLIB_H #include #endif #ifdef HAVE_STRING_H #include #endif #ifdef HAVE_ERRNO_H #include #endif #include "attrib.h" #include "debug.h" #include "index.h" #include "collate.h" #include "mst.h" #include "dir.h" #include "logging.h" #include "bitmap.h" #include "reparse.h" #include "misc.h" /** * ntfs_index_entry_mark_dirty - mark an index entry dirty * @ictx: ntfs index context describing the index entry * * Mark the index entry described by the index entry context @ictx dirty. * * If the index entry is in the index root attribute, simply mark the inode * containing the index root attribute dirty. This ensures the mftrecord, and * hence the index root attribute, will be written out to disk later. * * If the index entry is in an index block belonging to the index allocation * attribute, set ib_dirty to TRUE, thus index block will be updated during * ntfs_index_ctx_put. */ void ntfs_index_entry_mark_dirty(ntfs_index_context *ictx) { if (ictx->is_in_root) ntfs_inode_mark_dirty(ictx->actx->ntfs_ino); else ictx->ib_dirty = TRUE; } static s64 ntfs_ib_vcn_to_pos(ntfs_index_context *icx, VCN vcn) { return vcn << icx->vcn_size_bits; } static VCN ntfs_ib_pos_to_vcn(ntfs_index_context *icx, s64 pos) { return pos >> icx->vcn_size_bits; } static int ntfs_ib_write(ntfs_index_context *icx, INDEX_BLOCK *ib) { s64 ret, vcn = sle64_to_cpu(ib->index_block_vcn); ntfs_log_trace("vcn: %lld\n", (long long)vcn); ret = ntfs_attr_mst_pwrite(icx->ia_na, ntfs_ib_vcn_to_pos(icx, vcn), 1, icx->block_size, ib); if (ret != 1) { ntfs_log_perror("Failed to write index block %lld, inode %llu", (long long)vcn, (unsigned long long)icx->ni->mft_no); return STATUS_ERROR; } return STATUS_OK; } static int ntfs_icx_ib_write(ntfs_index_context *icx) { if (ntfs_ib_write(icx, icx->ib)) return STATUS_ERROR; icx->ib_dirty = FALSE; return STATUS_OK; } /** * ntfs_index_ctx_get - allocate and initialize a new index context * @ni: ntfs inode with which to initialize the context * @name: name of the which context describes * @name_len: length of the index name * * Allocate a new index context, initialize it with @ni and return it. * Return NULL if allocation failed. */ ntfs_index_context *ntfs_index_ctx_get(ntfs_inode *ni, ntfschar *name, u32 name_len) { ntfs_index_context *icx; ntfs_log_trace("Entering\n"); if (!ni) { errno = EINVAL; return NULL; } if (ni->nr_extents == -1) ni = ni->base_ni; icx = ntfs_calloc(sizeof(ntfs_index_context)); if (icx) *icx = (ntfs_index_context) { .ni = ni, .name = name, .name_len = name_len, }; return icx; } static void ntfs_index_ctx_free(ntfs_index_context *icx) { ntfs_log_trace("Entering\n"); if (!icx->entry) return; if (icx->actx) ntfs_attr_put_search_ctx(icx->actx); if (!icx->is_in_root) { if (icx->ib_dirty) { /* FIXME: Error handling!!! */ ntfs_ib_write(icx, icx->ib); } free(icx->ib); } ntfs_attr_close(icx->ia_na); } /** * ntfs_index_ctx_put - release an index context * @icx: index context to free * * Release the index context @icx, releasing all associated resources. */ void ntfs_index_ctx_put(ntfs_index_context *icx) { ntfs_index_ctx_free(icx); free(icx); } /** * ntfs_index_ctx_reinit - reinitialize an index context * @icx: index context to reinitialize * * Reinitialize the index context @icx so it can be used for ntfs_index_lookup. */ void ntfs_index_ctx_reinit(ntfs_index_context *icx) { ntfs_log_trace("Entering\n"); ntfs_index_ctx_free(icx); *icx = (ntfs_index_context) { .ni = icx->ni, .name = icx->name, .name_len = icx->name_len, }; } static VCN *ntfs_ie_get_vcn_addr(INDEX_ENTRY *ie) { return (VCN *)((u8 *)ie + le16_to_cpu(ie->length) - sizeof(VCN)); } /** * Get the subnode vcn to which the index entry refers. */ VCN ntfs_ie_get_vcn(INDEX_ENTRY *ie) { return sle64_to_cpup(ntfs_ie_get_vcn_addr(ie)); } static INDEX_ENTRY *ntfs_ie_get_first(INDEX_HEADER *ih) { return (INDEX_ENTRY *)((u8 *)ih + le32_to_cpu(ih->entries_offset)); } static INDEX_ENTRY *ntfs_ie_get_next(INDEX_ENTRY *ie) { return (INDEX_ENTRY *)((char *)ie + le16_to_cpu(ie->length)); } static u8 *ntfs_ie_get_end(INDEX_HEADER *ih) { /* FIXME: check if it isn't overflowing the index block size */ return (u8 *)ih + le32_to_cpu(ih->index_length); } static int ntfs_ie_end(INDEX_ENTRY *ie) { return ie->ie_flags & INDEX_ENTRY_END || !ie->length; } /** * Find the last entry in the index block */ static INDEX_ENTRY *ntfs_ie_get_last(INDEX_ENTRY *ie, char *ies_end) { ntfs_log_trace("Entering\n"); while ((char *)ie < ies_end && !ntfs_ie_end(ie)) ie = ntfs_ie_get_next(ie); return ie; } static INDEX_ENTRY *ntfs_ie_get_by_pos(INDEX_HEADER *ih, int pos) { INDEX_ENTRY *ie; ntfs_log_trace("pos: %d\n", pos); ie = ntfs_ie_get_first(ih); while (pos-- > 0) ie = ntfs_ie_get_next(ie); return ie; } static INDEX_ENTRY *ntfs_ie_prev(INDEX_HEADER *ih, INDEX_ENTRY *ie) { INDEX_ENTRY *ie_prev = NULL; INDEX_ENTRY *tmp; ntfs_log_trace("Entering\n"); tmp = ntfs_ie_get_first(ih); while (tmp != ie) { ie_prev = tmp; tmp = ntfs_ie_get_next(tmp); } return ie_prev; } char *ntfs_ie_filename_get(INDEX_ENTRY *ie) { FILE_NAME_ATTR *fn; fn = (FILE_NAME_ATTR *)&ie->key; return ntfs_attr_name_get(fn->file_name, fn->file_name_length); } void ntfs_ie_filename_dump(INDEX_ENTRY *ie) { char *s; s = ntfs_ie_filename_get(ie); ntfs_log_debug("'%s' ", s); ntfs_attr_name_free(&s); } void ntfs_ih_filename_dump(INDEX_HEADER *ih) { INDEX_ENTRY *ie; ntfs_log_trace("Entering\n"); ie = ntfs_ie_get_first(ih); while (!ntfs_ie_end(ie)) { ntfs_ie_filename_dump(ie); ie = ntfs_ie_get_next(ie); } } static int ntfs_ih_numof_entries(INDEX_HEADER *ih) { int n; INDEX_ENTRY *ie; u8 *end; ntfs_log_trace("Entering\n"); end = ntfs_ie_get_end(ih); ie = ntfs_ie_get_first(ih); for (n = 0; !ntfs_ie_end(ie) && (u8 *)ie < end; n++) ie = ntfs_ie_get_next(ie); return n; } static int ntfs_ih_one_entry(INDEX_HEADER *ih) { return (ntfs_ih_numof_entries(ih) == 1); } static int ntfs_ih_zero_entry(INDEX_HEADER *ih) { return (ntfs_ih_numof_entries(ih) == 0); } static void ntfs_ie_delete(INDEX_HEADER *ih, INDEX_ENTRY *ie) { u32 new_size; ntfs_log_trace("Entering\n"); new_size = le32_to_cpu(ih->index_length) - le16_to_cpu(ie->length); ih->index_length = cpu_to_le32(new_size); memmove(ie, (u8 *)ie + le16_to_cpu(ie->length), new_size - ((u8 *)ie - (u8 *)ih)); } static void ntfs_ie_set_vcn(INDEX_ENTRY *ie, VCN vcn) { *ntfs_ie_get_vcn_addr(ie) = cpu_to_le64(vcn); } /** * Insert @ie index entry at @pos entry. Used @ih values should be ok already. */ static void ntfs_ie_insert(INDEX_HEADER *ih, INDEX_ENTRY *ie, INDEX_ENTRY *pos) { int ie_size = le16_to_cpu(ie->length); ntfs_log_trace("Entering\n"); ih->index_length = cpu_to_le32(le32_to_cpu(ih->index_length) + ie_size); memmove((u8 *)pos + ie_size, pos, le32_to_cpu(ih->index_length) - ((u8 *)pos - (u8 *)ih) - ie_size); memcpy(pos, ie, ie_size); } static INDEX_ENTRY *ntfs_ie_dup(INDEX_ENTRY *ie) { INDEX_ENTRY *dup; ntfs_log_trace("Entering\n"); dup = ntfs_malloc(le16_to_cpu(ie->length)); if (dup) memcpy(dup, ie, le16_to_cpu(ie->length)); return dup; } static INDEX_ENTRY *ntfs_ie_dup_novcn(INDEX_ENTRY *ie) { INDEX_ENTRY *dup; int size = le16_to_cpu(ie->length); ntfs_log_trace("Entering\n"); if (ie->ie_flags & INDEX_ENTRY_NODE) size -= sizeof(VCN); dup = ntfs_malloc(size); if (dup) { memcpy(dup, ie, size); dup->ie_flags &= ~INDEX_ENTRY_NODE; dup->length = cpu_to_le16(size); } return dup; } static int ntfs_ia_check(ntfs_index_context *icx, INDEX_BLOCK *ib, VCN vcn) { u32 ib_size = (unsigned)le32_to_cpu(ib->index.allocated_size) + 0x18; ntfs_log_trace("Entering\n"); if (!ntfs_is_indx_record(ib->magic)) { ntfs_log_error("Corrupt index block signature: vcn %lld inode " "%llu\n", (long long)vcn, (unsigned long long)icx->ni->mft_no); return -1; } if (sle64_to_cpu(ib->index_block_vcn) != vcn) { ntfs_log_error("Corrupt index block: VCN (%lld) is different " "from expected VCN (%lld) in inode %llu\n", (long long)sle64_to_cpu(ib->index_block_vcn), (long long)vcn, (unsigned long long)icx->ni->mft_no); return -1; } if (ib_size != icx->block_size) { ntfs_log_error("Corrupt index block : VCN (%lld) of inode %llu " "has a size (%u) differing from the index " "specified size (%u)\n", (long long)vcn, (unsigned long long)icx->ni->mft_no, ib_size, icx->block_size); return -1; } return 0; } static INDEX_ROOT *ntfs_ir_lookup(ntfs_inode *ni, ntfschar *name, u32 name_len, ntfs_attr_search_ctx **ctx) { ATTR_RECORD *a; INDEX_ROOT *ir = NULL; ntfs_log_trace("Entering\n"); *ctx = ntfs_attr_get_search_ctx(ni, NULL); if (!*ctx) return NULL; if (ntfs_attr_lookup(AT_INDEX_ROOT, name, name_len, CASE_SENSITIVE, 0, NULL, 0, *ctx)) { ntfs_log_perror("Failed to lookup $INDEX_ROOT"); goto err_out; } a = (*ctx)->attr; if (a->non_resident) { errno = EINVAL; ntfs_log_perror("Non-resident $INDEX_ROOT detected"); goto err_out; } ir = (INDEX_ROOT *)((char *)a + le16_to_cpu(a->value_offset)); err_out: if (!ir) { ntfs_attr_put_search_ctx(*ctx); *ctx = NULL; } return ir; } static INDEX_ROOT *ntfs_ir_lookup2(ntfs_inode *ni, ntfschar *name, u32 len) { ntfs_attr_search_ctx *ctx; INDEX_ROOT *ir; ir = ntfs_ir_lookup(ni, name, len, &ctx); if (ir) ntfs_attr_put_search_ctx(ctx); return ir; } /** * Find a key in the index block. * * Return values: * STATUS_OK with errno set to ESUCCESS if we know for sure that the * entry exists and @ie_out points to this entry. * STATUS_NOT_FOUND with errno set to ENOENT if we know for sure the * entry doesn't exist and @ie_out is the insertion point. * STATUS_KEEP_SEARCHING if we can't answer the above question and * @vcn will contain the node index block. * STATUS_ERROR with errno set if on unexpected error during lookup. */ static int ntfs_ie_lookup(const void *key, const int key_len, ntfs_index_context *icx, INDEX_HEADER *ih, VCN *vcn, INDEX_ENTRY **ie_out) { INDEX_ENTRY *ie; u8 *index_end; int rc, item = 0; ntfs_log_trace("Entering\n"); index_end = ntfs_ie_get_end(ih); /* * Loop until we exceed valid memory (corruption case) or until we * reach the last entry. */ for (ie = ntfs_ie_get_first(ih); ; ie = ntfs_ie_get_next(ie)) { /* Bounds checks. */ if ((u8 *)ie + sizeof(INDEX_ENTRY_HEADER) > index_end || (u8 *)ie + le16_to_cpu(ie->length) > index_end) { errno = ERANGE; ntfs_log_error("Index entry out of bounds in inode " "%llu.\n", (unsigned long long)icx->ni->mft_no); return STATUS_ERROR; } /* * The last entry cannot contain a key. It can however contain * a pointer to a child node in the B+tree so we just break out. */ if (ntfs_ie_end(ie)) break; /* * Not a perfect match, need to do full blown collation so we * know which way in the B+tree we have to go. */ if (!icx->collate) { ntfs_log_error("Collation function not defined\n"); errno = EOPNOTSUPP; return STATUS_ERROR; } rc = icx->collate(icx->ni->vol, key, key_len, &ie->key, le16_to_cpu(ie->key_length)); if (rc == NTFS_COLLATION_ERROR) { ntfs_log_error("Collation error. Perhaps a filename " "contains invalid characters?\n"); errno = ERANGE; return STATUS_ERROR; } /* * If @key collates before the key of the current entry, there * is definitely no such key in this index but we might need to * descend into the B+tree so we just break out of the loop. */ if (rc == -1) break; if (!rc) { *ie_out = ie; errno = 0; icx->parent_pos[icx->pindex] = item; return STATUS_OK; } item++; } /* * We have finished with this index block without success. Check for the * presence of a child node and if not present return with errno ENOENT, * otherwise we will keep searching in another index block. */ if (!(ie->ie_flags & INDEX_ENTRY_NODE)) { ntfs_log_debug("Index entry wasn't found.\n"); *ie_out = ie; errno = ENOENT; return STATUS_NOT_FOUND; } /* Get the starting vcn of the index_block holding the child node. */ *vcn = ntfs_ie_get_vcn(ie); if (*vcn < 0) { errno = EINVAL; ntfs_log_perror("Negative vcn in inode %llu", (unsigned long long)icx->ni->mft_no); return STATUS_ERROR; } ntfs_log_trace("Parent entry number %d\n", item); icx->parent_pos[icx->pindex] = item; return STATUS_KEEP_SEARCHING; } static ntfs_attr *ntfs_ia_open(ntfs_index_context *icx, ntfs_inode *ni) { ntfs_attr *na; na = ntfs_attr_open(ni, AT_INDEX_ALLOCATION, icx->name, icx->name_len); if (!na) { ntfs_log_perror("Failed to open index allocation of inode " "%llu", (unsigned long long)ni->mft_no); return NULL; } return na; } static int ntfs_ib_read(ntfs_index_context *icx, VCN vcn, INDEX_BLOCK *dst) { s64 pos, ret; ntfs_log_trace("vcn: %lld\n", (long long)vcn); pos = ntfs_ib_vcn_to_pos(icx, vcn); ret = ntfs_attr_mst_pread(icx->ia_na, pos, 1, icx->block_size, (u8 *)dst); if (ret != 1) { if (ret == -1) ntfs_log_perror("Failed to read index block"); else ntfs_log_error("Failed to read full index block at " "%lld\n", (long long)pos); return -1; } if (ntfs_ia_check(icx, dst, vcn)) return -1; return 0; } static int ntfs_icx_parent_inc(ntfs_index_context *icx) { icx->pindex++; if (icx->pindex >= MAX_PARENT_VCN) { errno = EOPNOTSUPP; ntfs_log_perror("Index is over %d level deep", MAX_PARENT_VCN); return STATUS_ERROR; } return STATUS_OK; } static int ntfs_icx_parent_dec(ntfs_index_context *icx) { icx->pindex--; if (icx->pindex < 0) { errno = EINVAL; ntfs_log_perror("Corrupt index pointer (%d)", icx->pindex); return STATUS_ERROR; } return STATUS_OK; } /** * ntfs_index_lookup - find a key in an index and return its index entry * @key: [IN] key for which to search in the index * @key_len: [IN] length of @key in bytes * @icx: [IN/OUT] context describing the index and the returned entry * * Before calling ntfs_index_lookup(), @icx must have been obtained from a * call to ntfs_index_ctx_get(). * * Look for the @key in the index specified by the index lookup context @icx. * ntfs_index_lookup() walks the contents of the index looking for the @key. * * If the @key is found in the index, 0 is returned and @icx is setup to * describe the index entry containing the matching @key. @icx->entry is the * index entry and @icx->data and @icx->data_len are the index entry data and * its length in bytes, respectively. * * If the @key is not found in the index, -1 is returned, errno = ENOENT and * @icx is setup to describe the index entry whose key collates immediately * after the search @key, i.e. this is the position in the index at which * an index entry with a key of @key would need to be inserted. * * If an error occurs return -1, set errno to error code and @icx is left * untouched. * * When finished with the entry and its data, call ntfs_index_ctx_put() to free * the context and other associated resources. * * If the index entry was modified, call ntfs_index_entry_mark_dirty() before * the call to ntfs_index_ctx_put() to ensure that the changes are written * to disk. */ int ntfs_index_lookup(const void *key, const int key_len, ntfs_index_context *icx) { VCN old_vcn, vcn; ntfs_inode *ni = icx->ni; INDEX_ROOT *ir; INDEX_ENTRY *ie; INDEX_BLOCK *ib = NULL; int ret, err = 0; ntfs_log_trace("Entering\n"); if (!key || key_len <= 0) { errno = EINVAL; ntfs_log_perror("key: %p key_len: %d", key, key_len); return -1; } ir = ntfs_ir_lookup(ni, icx->name, icx->name_len, &icx->actx); if (!ir) { if (errno == ENOENT) errno = EIO; return -1; } icx->block_size = le32_to_cpu(ir->index_block_size); if (icx->block_size < NTFS_BLOCK_SIZE) { errno = EINVAL; ntfs_log_perror("Index block size (%d) is smaller than the " "sector size (%d)", icx->block_size, NTFS_BLOCK_SIZE); goto err_out; } if (ni->vol->cluster_size <= icx->block_size) icx->vcn_size_bits = ni->vol->cluster_size_bits; else icx->vcn_size_bits = NTFS_BLOCK_SIZE_BITS; /* get the appropriate collation function */ icx->collate = ntfs_get_collate_function(ir->collation_rule); if (!icx->collate) { err = errno = EOPNOTSUPP; ntfs_log_perror("Unknown collation rule 0x%x", (unsigned)le32_to_cpu(ir->collation_rule)); goto err_out; } old_vcn = VCN_INDEX_ROOT_PARENT; /* * FIXME: check for both ir and ib that the first index entry is * within the index block. */ ret = ntfs_ie_lookup(key, key_len, icx, &ir->index, &vcn, &ie); if (ret == STATUS_ERROR) { err = errno; goto err_out; } icx->ir = ir; if (ret != STATUS_KEEP_SEARCHING) { /* STATUS_OK or STATUS_NOT_FOUND */ err = errno; icx->is_in_root = TRUE; icx->parent_vcn[icx->pindex] = old_vcn; goto done; } /* Child node present, descend into it. */ icx->ia_na = ntfs_ia_open(icx, ni); if (!icx->ia_na) goto err_out; ib = ntfs_malloc(icx->block_size); if (!ib) { err = errno; goto err_out; } descend_into_child_node: icx->parent_vcn[icx->pindex] = old_vcn; if (ntfs_icx_parent_inc(icx)) { err = errno; goto err_out; } old_vcn = vcn; ntfs_log_debug("Descend into node with VCN %lld\n", (long long)vcn); if (ntfs_ib_read(icx, vcn, ib)) goto err_out; ret = ntfs_ie_lookup(key, key_len, icx, &ib->index, &vcn, &ie); if (ret != STATUS_KEEP_SEARCHING) { err = errno; if (ret == STATUS_ERROR) goto err_out; /* STATUS_OK or STATUS_NOT_FOUND */ icx->is_in_root = FALSE; icx->ib = ib; icx->parent_vcn[icx->pindex] = vcn; goto done; } if ((ib->index.ih_flags & NODE_MASK) == LEAF_NODE) { ntfs_log_error("Index entry with child node found in a leaf " "node in inode 0x%llx.\n", (unsigned long long)ni->mft_no); goto err_out; } goto descend_into_child_node; err_out: free(ib); if (!err) err = EIO; errno = err; return -1; done: icx->entry = ie; icx->data = (u8 *)ie + offsetof(INDEX_ENTRY, key); icx->data_len = le16_to_cpu(ie->key_length); ntfs_log_trace("Done.\n"); if (err) { errno = err; return -1; } return 0; } static INDEX_BLOCK *ntfs_ib_alloc(VCN ib_vcn, u32 ib_size, INDEX_HEADER_FLAGS node_type) { INDEX_BLOCK *ib; int ih_size = sizeof(INDEX_HEADER); ntfs_log_trace("ib_vcn: %lld ib_size: %u\n", (long long)ib_vcn, ib_size); ib = ntfs_calloc(ib_size); if (!ib) return NULL; ib->magic = magic_INDX; ib->usa_ofs = cpu_to_le16(sizeof(INDEX_BLOCK)); ib->usa_count = cpu_to_le16(ib_size / NTFS_BLOCK_SIZE + 1); /* Set USN to 1 */ *(u16 *)((char *)ib + le16_to_cpu(ib->usa_ofs)) = cpu_to_le16(1); ib->lsn = cpu_to_le64(0); ib->index_block_vcn = cpu_to_sle64(ib_vcn); ib->index.entries_offset = cpu_to_le32((ih_size + le16_to_cpu(ib->usa_count) * 2 + 7) & ~7); ib->index.index_length = 0; ib->index.allocated_size = cpu_to_le32(ib_size - (sizeof(INDEX_BLOCK) - ih_size)); ib->index.ih_flags = node_type; return ib; } /** * Find the median by going through all the entries */ static INDEX_ENTRY *ntfs_ie_get_median(INDEX_HEADER *ih) { INDEX_ENTRY *ie, *ie_start; u8 *ie_end; int i = 0, median; ntfs_log_trace("Entering\n"); ie = ie_start = ntfs_ie_get_first(ih); ie_end = (u8 *)ntfs_ie_get_end(ih); while ((u8 *)ie < ie_end && !ntfs_ie_end(ie)) { ie = ntfs_ie_get_next(ie); i++; } /* * NOTE: this could be also the entry at the half of the index block. */ median = i / 2 - 1; ntfs_log_trace("Entries: %d median: %d\n", i, median); for (i = 0, ie = ie_start; i <= median; i++) ie = ntfs_ie_get_next(ie); return ie; } static s64 ntfs_ibm_vcn_to_pos(ntfs_index_context *icx, VCN vcn) { return ntfs_ib_vcn_to_pos(icx, vcn) / icx->block_size; } static s64 ntfs_ibm_pos_to_vcn(ntfs_index_context *icx, s64 pos) { return ntfs_ib_pos_to_vcn(icx, pos * icx->block_size); } static int ntfs_ibm_add(ntfs_index_context *icx) { u8 bmp[8]; ntfs_log_trace("Entering\n"); if (ntfs_attr_exist(icx->ni, AT_BITMAP, icx->name, icx->name_len)) return STATUS_OK; /* * AT_BITMAP must be at least 8 bytes. */ memset(bmp, 0, sizeof(bmp)); if (ntfs_attr_add(icx->ni, AT_BITMAP, icx->name, icx->name_len, bmp, sizeof(bmp))) { ntfs_log_perror("Failed to add AT_BITMAP"); return STATUS_ERROR; } return STATUS_OK; } static int ntfs_ibm_modify(ntfs_index_context *icx, VCN vcn, int set) { u8 byte; s64 pos = ntfs_ibm_vcn_to_pos(icx, vcn); u32 bpos = pos / 8; u32 bit = 1 << (pos % 8); ntfs_attr *na; int ret = STATUS_ERROR; ntfs_log_trace("%s vcn: %lld\n", set ? "set" : "clear", (long long)vcn); na = ntfs_attr_open(icx->ni, AT_BITMAP, icx->name, icx->name_len); if (!na) { ntfs_log_perror("Failed to open $BITMAP attribute"); return -1; } if (set) { if (na->data_size < bpos + 1) { if (ntfs_attr_truncate(na, (na->data_size + 8) & ~7)) { ntfs_log_perror("Failed to truncate AT_BITMAP"); goto err_na; } } } if (ntfs_attr_pread(na, bpos, 1, &byte) != 1) { ntfs_log_perror("Failed to read $BITMAP"); goto err_na; } if (set) byte |= bit; else byte &= ~bit; if (ntfs_attr_pwrite(na, bpos, 1, &byte) != 1) { ntfs_log_perror("Failed to write $Bitmap"); goto err_na; } ret = STATUS_OK; err_na: ntfs_attr_close(na); return ret; } static int ntfs_ibm_set(ntfs_index_context *icx, VCN vcn) { return ntfs_ibm_modify(icx, vcn, 1); } static int ntfs_ibm_clear(ntfs_index_context *icx, VCN vcn) { return ntfs_ibm_modify(icx, vcn, 0); } static VCN ntfs_ibm_get_free(ntfs_index_context *icx) { u8 *bm; int bit; s64 vcn, byte, size; ntfs_log_trace("Entering\n"); bm = ntfs_attr_readall(icx->ni, AT_BITMAP, icx->name, icx->name_len, &size); if (!bm) return (VCN)-1; for (byte = 0; byte < size; byte++) { if (bm[byte] == 255) continue; for (bit = 0; bit < 8; bit++) { if (!(bm[byte] & (1 << bit))) { vcn = ntfs_ibm_pos_to_vcn(icx, byte * 8 + bit); goto out; } } } vcn = ntfs_ibm_pos_to_vcn(icx, size * 8); out: ntfs_log_trace("allocated vcn: %lld\n", (long long)vcn); if (ntfs_ibm_set(icx, vcn)) vcn = (VCN)-1; free(bm); return vcn; } static INDEX_BLOCK *ntfs_ir_to_ib(INDEX_ROOT *ir, VCN ib_vcn) { INDEX_BLOCK *ib; INDEX_ENTRY *ie_last; char *ies_start, *ies_end; int i; ntfs_log_trace("Entering\n"); ib = ntfs_ib_alloc(ib_vcn, le32_to_cpu(ir->index_block_size), LEAF_NODE); if (!ib) return NULL; ies_start = (char *)ntfs_ie_get_first(&ir->index); ies_end = (char *)ntfs_ie_get_end(&ir->index); ie_last = ntfs_ie_get_last((INDEX_ENTRY *)ies_start, ies_end); /* * Copy all entries, including the termination entry * as well, which can never have any data. */ i = (char *)ie_last - ies_start + le16_to_cpu(ie_last->length); memcpy(ntfs_ie_get_first(&ib->index), ies_start, i); ib->index.ih_flags = ir->index.ih_flags; ib->index.index_length = cpu_to_le32(i + le32_to_cpu(ib->index.entries_offset)); return ib; } static void ntfs_ir_nill(INDEX_ROOT *ir) { INDEX_ENTRY *ie_last; char *ies_start, *ies_end; ntfs_log_trace("Entering\n"); /* * TODO: This function could be much simpler. */ ies_start = (char *)ntfs_ie_get_first(&ir->index); ies_end = (char *)ntfs_ie_get_end(&ir->index); ie_last = ntfs_ie_get_last((INDEX_ENTRY *)ies_start, ies_end); /* * Move the index root termination entry forward */ if ((char *)ie_last > ies_start) { memmove(ies_start, (char *)ie_last, le16_to_cpu(ie_last->length)); ie_last = (INDEX_ENTRY *)ies_start; } } static int ntfs_ib_copy_tail(ntfs_index_context *icx, INDEX_BLOCK *src, INDEX_ENTRY *median, VCN new_vcn) { u8 *ies_end; INDEX_ENTRY *ie_head; /* first entry after the median */ int tail_size, ret; INDEX_BLOCK *dst; ntfs_log_trace("Entering\n"); dst = ntfs_ib_alloc(new_vcn, icx->block_size, src->index.ih_flags & NODE_MASK); if (!dst) return STATUS_ERROR; ie_head = ntfs_ie_get_next(median); ies_end = (u8 *)ntfs_ie_get_end(&src->index); tail_size = ies_end - (u8 *)ie_head; memcpy(ntfs_ie_get_first(&dst->index), ie_head, tail_size); dst->index.index_length = cpu_to_le32(tail_size + le32_to_cpu(dst->index.entries_offset)); ret = ntfs_ib_write(icx, dst); free(dst); return ret; } static int ntfs_ib_cut_tail(ntfs_index_context *icx, INDEX_BLOCK *ib, INDEX_ENTRY *ie) { char *ies_start, *ies_end; INDEX_ENTRY *ie_last; ntfs_log_trace("Entering\n"); ies_start = (char *)ntfs_ie_get_first(&ib->index); ies_end = (char *)ntfs_ie_get_end(&ib->index); ie_last = ntfs_ie_get_last((INDEX_ENTRY *)ies_start, ies_end); if (ie_last->ie_flags & INDEX_ENTRY_NODE) ntfs_ie_set_vcn(ie_last, ntfs_ie_get_vcn(ie)); memcpy(ie, ie_last, le16_to_cpu(ie_last->length)); ib->index.index_length = cpu_to_le32(((char *)ie - ies_start) + le16_to_cpu(ie->length) + le32_to_cpu(ib->index.entries_offset)); if (ntfs_ib_write(icx, ib)) return STATUS_ERROR; return STATUS_OK; } static int ntfs_ia_add(ntfs_index_context *icx) { ntfs_log_trace("Entering\n"); if (ntfs_ibm_add(icx)) return -1; if (!ntfs_attr_exist(icx->ni, AT_INDEX_ALLOCATION, icx->name, icx->name_len)) { if (ntfs_attr_add(icx->ni, AT_INDEX_ALLOCATION, icx->name, icx->name_len, NULL, 0)) { ntfs_log_perror("Failed to add AT_INDEX_ALLOCATION"); return -1; } } icx->ia_na = ntfs_ia_open(icx, icx->ni); if (!icx->ia_na) return -1; return 0; } static int ntfs_ir_reparent(ntfs_index_context *icx) { ntfs_attr_search_ctx *ctx = NULL; INDEX_ROOT *ir; INDEX_ENTRY *ie; INDEX_BLOCK *ib = NULL; VCN new_ib_vcn; int ix_root_size; int ret = STATUS_ERROR; ntfs_log_trace("Entering\n"); ir = ntfs_ir_lookup2(icx->ni, icx->name, icx->name_len); if (!ir) goto out; if ((ir->index.ih_flags & NODE_MASK) == SMALL_INDEX) if (ntfs_ia_add(icx)) goto out; new_ib_vcn = ntfs_ibm_get_free(icx); if (new_ib_vcn == -1) goto out; ir = ntfs_ir_lookup2(icx->ni, icx->name, icx->name_len); if (!ir) goto clear_bmp; ib = ntfs_ir_to_ib(ir, new_ib_vcn); if (ib == NULL) { ntfs_log_perror("Failed to move index root to index block"); goto clear_bmp; } if (ntfs_ib_write(icx, ib)) goto clear_bmp; retry : ir = ntfs_ir_lookup(icx->ni, icx->name, icx->name_len, &ctx); if (!ir) goto clear_bmp; ntfs_ir_nill(ir); ie = ntfs_ie_get_first(&ir->index); ie->ie_flags |= INDEX_ENTRY_NODE; ie->length = cpu_to_le16(sizeof(INDEX_ENTRY_HEADER) + sizeof(VCN)); ir->index.ih_flags = LARGE_INDEX; ir->index.index_length = cpu_to_le32(le32_to_cpu(ir->index.entries_offset) + le16_to_cpu(ie->length)); ir->index.allocated_size = ir->index.index_length; ix_root_size = sizeof(INDEX_ROOT) - sizeof(INDEX_HEADER) + le32_to_cpu(ir->index.allocated_size); if (ntfs_resident_attr_value_resize(ctx->mrec, ctx->attr, ix_root_size)) { /* * When there is no space to build a non-resident * index, we may have to move the root to an extent */ if ((errno == ENOSPC) && !ctx->al_entry && !ntfs_inode_add_attrlist(icx->ni)) { ntfs_attr_put_search_ctx(ctx); ctx = (ntfs_attr_search_ctx*)NULL; ir = ntfs_ir_lookup(icx->ni, icx->name, icx->name_len, &ctx); if (ir && !ntfs_attr_record_move_away(ctx, ix_root_size - le32_to_cpu(ctx->attr->value_length))) { ntfs_attr_put_search_ctx(ctx); ctx = (ntfs_attr_search_ctx*)NULL; goto retry; } } /* FIXME: revert index root */ goto clear_bmp; } /* * FIXME: do it earlier if we have enough space in IR (should always), * so in error case we wouldn't lose the IB. */ ntfs_ie_set_vcn(ie, new_ib_vcn); ret = STATUS_OK; err_out: free(ib); ntfs_attr_put_search_ctx(ctx); out: return ret; clear_bmp: ntfs_ibm_clear(icx, new_ib_vcn); goto err_out; } /** * ntfs_ir_truncate - Truncate index root attribute * * Returns STATUS_OK, STATUS_RESIDENT_ATTRIBUTE_FILLED_MFT or STATUS_ERROR. */ static int ntfs_ir_truncate(ntfs_index_context *icx, int data_size) { ntfs_attr *na; int ret; ntfs_log_trace("Entering\n"); na = ntfs_attr_open(icx->ni, AT_INDEX_ROOT, icx->name, icx->name_len); if (!na) { ntfs_log_perror("Failed to open INDEX_ROOT"); return STATUS_ERROR; } /* * INDEX_ROOT must be resident and its entries can be moved to * INDEX_BLOCK, so ENOSPC isn't a real error. */ ret = ntfs_attr_truncate(na, data_size + offsetof(INDEX_ROOT, index)); if (ret == STATUS_OK) { icx->ir = ntfs_ir_lookup2(icx->ni, icx->name, icx->name_len); if (!icx->ir) return STATUS_ERROR; icx->ir->index.allocated_size = cpu_to_le32(data_size); } else if (ret == STATUS_ERROR) ntfs_log_perror("Failed to truncate INDEX_ROOT"); ntfs_attr_close(na); return ret; } /** * ntfs_ir_make_space - Make more space for the index root attribute * * On success return STATUS_OK or STATUS_KEEP_SEARCHING. * On error return STATUS_ERROR. */ static int ntfs_ir_make_space(ntfs_index_context *icx, int data_size) { int ret; ntfs_log_trace("Entering\n"); ret = ntfs_ir_truncate(icx, data_size); if (ret == STATUS_RESIDENT_ATTRIBUTE_FILLED_MFT) { ret = ntfs_ir_reparent(icx); if (ret == STATUS_OK) ret = STATUS_KEEP_SEARCHING; else ntfs_log_perror("Failed to nodify INDEX_ROOT"); } return ret; } /* * NOTE: 'ie' must be a copy of a real index entry. */ static int ntfs_ie_add_vcn(INDEX_ENTRY **ie) { INDEX_ENTRY *p, *old = *ie; old->length = cpu_to_le16(le16_to_cpu(old->length) + sizeof(VCN)); p = MEM2_realloc(old, le16_to_cpu(old->length)); if (!p) return STATUS_ERROR; p->ie_flags |= INDEX_ENTRY_NODE; *ie = p; return STATUS_OK; } static int ntfs_ih_insert(INDEX_HEADER *ih, INDEX_ENTRY *orig_ie, VCN new_vcn, int pos) { INDEX_ENTRY *ie_node, *ie; int ret = STATUS_ERROR; VCN old_vcn; ntfs_log_trace("Entering\n"); ie = ntfs_ie_dup(orig_ie); if (!ie) return STATUS_ERROR; if (!(ie->ie_flags & INDEX_ENTRY_NODE)) if (ntfs_ie_add_vcn(&ie)) goto out; ie_node = ntfs_ie_get_by_pos(ih, pos); old_vcn = ntfs_ie_get_vcn(ie_node); ntfs_ie_set_vcn(ie_node, new_vcn); ntfs_ie_insert(ih, ie, ie_node); ntfs_ie_set_vcn(ie_node, old_vcn); ret = STATUS_OK; out: free(ie); return ret; } static VCN ntfs_icx_parent_vcn(ntfs_index_context *icx) { return icx->parent_vcn[icx->pindex]; } static VCN ntfs_icx_parent_pos(ntfs_index_context *icx) { return icx->parent_pos[icx->pindex]; } static int ntfs_ir_insert_median(ntfs_index_context *icx, INDEX_ENTRY *median, VCN new_vcn) { u32 new_size; int ret; ntfs_log_trace("Entering\n"); icx->ir = ntfs_ir_lookup2(icx->ni, icx->name, icx->name_len); if (!icx->ir) return STATUS_ERROR; new_size = le32_to_cpu(icx->ir->index.index_length) + le16_to_cpu(median->length); if (!(median->ie_flags & INDEX_ENTRY_NODE)) new_size += sizeof(VCN); ret = ntfs_ir_make_space(icx, new_size); if (ret != STATUS_OK) return ret; icx->ir = ntfs_ir_lookup2(icx->ni, icx->name, icx->name_len); if (!icx->ir) return STATUS_ERROR; return ntfs_ih_insert(&icx->ir->index, median, new_vcn, ntfs_icx_parent_pos(icx)); } static int ntfs_ib_split(ntfs_index_context *icx, INDEX_BLOCK *ib); /** * On success return STATUS_OK or STATUS_KEEP_SEARCHING. * On error return STATUS_ERROR. */ static int ntfs_ib_insert(ntfs_index_context *icx, INDEX_ENTRY *ie, VCN new_vcn) { INDEX_BLOCK *ib; u32 idx_size, allocated_size; int err = STATUS_ERROR; VCN old_vcn; ntfs_log_trace("Entering\n"); ib = ntfs_malloc(icx->block_size); if (!ib) return -1; old_vcn = ntfs_icx_parent_vcn(icx); if (ntfs_ib_read(icx, old_vcn, ib)) goto err_out; idx_size = le32_to_cpu(ib->index.index_length); allocated_size = le32_to_cpu(ib->index.allocated_size); /* FIXME: sizeof(VCN) should be included only if ie has no VCN */ if (idx_size + le16_to_cpu(ie->length) + sizeof(VCN) > allocated_size) { err = ntfs_ib_split(icx, ib); if (err == STATUS_OK) err = STATUS_KEEP_SEARCHING; goto err_out; } if (ntfs_ih_insert(&ib->index, ie, new_vcn, ntfs_icx_parent_pos(icx))) goto err_out; if (ntfs_ib_write(icx, ib)) goto err_out; err = STATUS_OK; err_out: free(ib); return err; } /** * ntfs_ib_split - Split an index block * * On success return STATUS_OK or STATUS_KEEP_SEARCHING. * On error return is STATUS_ERROR. */ static int ntfs_ib_split(ntfs_index_context *icx, INDEX_BLOCK *ib) { INDEX_ENTRY *median; VCN new_vcn; int ret; ntfs_log_trace("Entering\n"); if (ntfs_icx_parent_dec(icx)) return STATUS_ERROR; median = ntfs_ie_get_median(&ib->index); new_vcn = ntfs_ibm_get_free(icx); if (new_vcn == -1) return STATUS_ERROR; if (ntfs_ib_copy_tail(icx, ib, median, new_vcn)) { ntfs_ibm_clear(icx, new_vcn); return STATUS_ERROR; } if (ntfs_icx_parent_vcn(icx) == VCN_INDEX_ROOT_PARENT) ret = ntfs_ir_insert_median(icx, median, new_vcn); else ret = ntfs_ib_insert(icx, median, new_vcn); if (ret != STATUS_OK) { ntfs_ibm_clear(icx, new_vcn); return ret; } ret = ntfs_ib_cut_tail(icx, ib, median); return ret; } /* JPA static */ int ntfs_ie_add(ntfs_index_context *icx, INDEX_ENTRY *ie) { INDEX_HEADER *ih; int allocated_size, new_size; int ret = STATUS_ERROR; #ifdef DEBUG /* removed by JPA to make function usable for security indexes char *fn; fn = ntfs_ie_filename_get(ie); ntfs_log_trace("file: '%s'\n", fn); ntfs_attr_name_free(&fn); */ #endif while (1) { if (!ntfs_index_lookup(&ie->key, le16_to_cpu(ie->key_length), icx)) { errno = EEXIST; ntfs_log_perror("Index already have such entry"); goto err_out; } if (errno != ENOENT) { ntfs_log_perror("Failed to find place for new entry"); goto err_out; } if (icx->is_in_root) ih = &icx->ir->index; else ih = &icx->ib->index; allocated_size = le32_to_cpu(ih->allocated_size); new_size = le32_to_cpu(ih->index_length) + le16_to_cpu(ie->length); if (new_size <= allocated_size) break; ntfs_log_trace("index block sizes: allocated: %d needed: %d\n", allocated_size, new_size); if (icx->is_in_root) { if (ntfs_ir_make_space(icx, new_size) == STATUS_ERROR) goto err_out; } else { if (ntfs_ib_split(icx, icx->ib) == STATUS_ERROR) goto err_out; } ntfs_inode_mark_dirty(icx->actx->ntfs_ino); ntfs_index_ctx_reinit(icx); } ntfs_ie_insert(ih, ie, icx->entry); ntfs_index_entry_mark_dirty(icx); ret = STATUS_OK; err_out: ntfs_log_trace("%s\n", ret ? "Failed" : "Done"); return ret; } /** * ntfs_index_add_filename - add filename to directory index * @ni: ntfs inode describing directory to which index add filename * @fn: FILE_NAME attribute to add * @mref: reference of the inode which @fn describes * * Return 0 on success or -1 on error with errno set to the error code. */ int ntfs_index_add_filename(ntfs_inode *ni, FILE_NAME_ATTR *fn, MFT_REF mref) { INDEX_ENTRY *ie; ntfs_index_context *icx; int fn_size, ie_size, err, ret = -1; ntfs_log_trace("Entering\n"); if (!ni || !fn) { ntfs_log_error("Invalid arguments.\n"); errno = EINVAL; return -1; } fn_size = (fn->file_name_length * sizeof(ntfschar)) + sizeof(FILE_NAME_ATTR); ie_size = (sizeof(INDEX_ENTRY_HEADER) + fn_size + 7) & ~7; ie = ntfs_calloc(ie_size); if (!ie) return -1; ie->indexed_file = cpu_to_le64(mref); ie->length = cpu_to_le16(ie_size); ie->key_length = cpu_to_le16(fn_size); memcpy(&ie->key, fn, fn_size); icx = ntfs_index_ctx_get(ni, NTFS_INDEX_I30, 4); if (!icx) goto out; ret = ntfs_ie_add(icx, ie); err = errno; ntfs_index_ctx_put(icx); errno = err; out: free(ie); return ret; } static int ntfs_ih_takeout(ntfs_index_context *icx, INDEX_HEADER *ih, INDEX_ENTRY *ie, INDEX_BLOCK *ib) { INDEX_ENTRY *ie_roam; int ret = STATUS_ERROR; ntfs_log_trace("Entering\n"); ie_roam = ntfs_ie_dup_novcn(ie); if (!ie_roam) return STATUS_ERROR; ntfs_ie_delete(ih, ie); if (ntfs_icx_parent_vcn(icx) == VCN_INDEX_ROOT_PARENT) ntfs_inode_mark_dirty(icx->actx->ntfs_ino); else if (ntfs_ib_write(icx, ib)) goto out; ntfs_index_ctx_reinit(icx); ret = ntfs_ie_add(icx, ie_roam); out: free(ie_roam); return ret; } /** * Used if an empty index block to be deleted has END entry as the parent * in the INDEX_ROOT which is the only one there. */ static void ntfs_ir_leafify(ntfs_index_context *icx, INDEX_HEADER *ih) { INDEX_ENTRY *ie; ntfs_log_trace("Entering\n"); ie = ntfs_ie_get_first(ih); ie->ie_flags &= ~INDEX_ENTRY_NODE; ie->length = cpu_to_le16(le16_to_cpu(ie->length) - sizeof(VCN)); ih->index_length = cpu_to_le32(le32_to_cpu(ih->index_length) - sizeof(VCN)); ih->ih_flags &= ~LARGE_INDEX; /* Not fatal error */ ntfs_ir_truncate(icx, le32_to_cpu(ih->index_length)); } /** * Used if an empty index block to be deleted has END entry as the parent * in the INDEX_ROOT which is not the only one there. */ static int ntfs_ih_reparent_end(ntfs_index_context *icx, INDEX_HEADER *ih, INDEX_BLOCK *ib) { INDEX_ENTRY *ie, *ie_prev; ntfs_log_trace("Entering\n"); ie = ntfs_ie_get_by_pos(ih, ntfs_icx_parent_pos(icx)); ie_prev = ntfs_ie_prev(ih, ie); ntfs_ie_set_vcn(ie, ntfs_ie_get_vcn(ie_prev)); return ntfs_ih_takeout(icx, ih, ie_prev, ib); } static int ntfs_index_rm_leaf(ntfs_index_context *icx) { INDEX_BLOCK *ib = NULL; INDEX_HEADER *parent_ih; INDEX_ENTRY *ie; int ret = STATUS_ERROR; ntfs_log_trace("pindex: %d\n", icx->pindex); if (ntfs_icx_parent_dec(icx)) return STATUS_ERROR; if (ntfs_ibm_clear(icx, icx->parent_vcn[icx->pindex + 1])) return STATUS_ERROR; if (ntfs_icx_parent_vcn(icx) == VCN_INDEX_ROOT_PARENT) parent_ih = &icx->ir->index; else { ib = ntfs_malloc(icx->block_size); if (!ib) return STATUS_ERROR; if (ntfs_ib_read(icx, ntfs_icx_parent_vcn(icx), ib)) goto out; parent_ih = &ib->index; } ie = ntfs_ie_get_by_pos(parent_ih, ntfs_icx_parent_pos(icx)); if (!ntfs_ie_end(ie)) { ret = ntfs_ih_takeout(icx, parent_ih, ie, ib); goto out; } if (ntfs_ih_zero_entry(parent_ih)) { if (ntfs_icx_parent_vcn(icx) == VCN_INDEX_ROOT_PARENT) { ntfs_ir_leafify(icx, parent_ih); goto ok; } ret = ntfs_index_rm_leaf(icx); goto out; } if (ntfs_ih_reparent_end(icx, parent_ih, ib)) goto out; ok: ret = STATUS_OK; out: free(ib); return ret; } static int ntfs_index_rm_node(ntfs_index_context *icx) { int entry_pos, pindex; VCN vcn; INDEX_BLOCK *ib = NULL; INDEX_ENTRY *ie_succ, *ie, *entry = icx->entry; INDEX_HEADER *ih; u32 new_size; int delta, ret = STATUS_ERROR; ntfs_log_trace("Entering\n"); if (!icx->ia_na) { icx->ia_na = ntfs_ia_open(icx, icx->ni); if (!icx->ia_na) return STATUS_ERROR; } ib = ntfs_malloc(icx->block_size); if (!ib) return STATUS_ERROR; ie_succ = ntfs_ie_get_next(icx->entry); entry_pos = icx->parent_pos[icx->pindex]++; pindex = icx->pindex; descend: vcn = ntfs_ie_get_vcn(ie_succ); if (ntfs_ib_read(icx, vcn, ib)) goto out; ie_succ = ntfs_ie_get_first(&ib->index); if (ntfs_icx_parent_inc(icx)) goto out; icx->parent_vcn[icx->pindex] = vcn; icx->parent_pos[icx->pindex] = 0; if ((ib->index.ih_flags & NODE_MASK) == INDEX_NODE) goto descend; if (ntfs_ih_zero_entry(&ib->index)) { errno = EIO; ntfs_log_perror("Empty index block"); goto out; } ie = ntfs_ie_dup(ie_succ); if (!ie) goto out; if (ntfs_ie_add_vcn(&ie)) goto out2; ntfs_ie_set_vcn(ie, ntfs_ie_get_vcn(icx->entry)); if (icx->is_in_root) ih = &icx->ir->index; else ih = &icx->ib->index; delta = le16_to_cpu(ie->length) - le16_to_cpu(icx->entry->length); new_size = le32_to_cpu(ih->index_length) + delta; if (delta > 0) { if (icx->is_in_root) { ret = ntfs_ir_make_space(icx, new_size); if (ret != STATUS_OK) goto out2; ih = &icx->ir->index; entry = ntfs_ie_get_by_pos(ih, entry_pos); } else if (new_size > le32_to_cpu(ih->allocated_size)) { icx->pindex = pindex; ret = ntfs_ib_split(icx, icx->ib); if (ret == STATUS_OK) ret = STATUS_KEEP_SEARCHING; goto out2; } } ntfs_ie_delete(ih, entry); ntfs_ie_insert(ih, ie, entry); if (icx->is_in_root) { if (ntfs_ir_truncate(icx, new_size)) goto out2; } else if (ntfs_icx_ib_write(icx)) goto out2; ntfs_ie_delete(&ib->index, ie_succ); if (ntfs_ih_zero_entry(&ib->index)) { if (ntfs_index_rm_leaf(icx)) goto out2; } else if (ntfs_ib_write(icx, ib)) goto out2; ret = STATUS_OK; out2: free(ie); out: free(ib); return ret; } /** * ntfs_index_rm - remove entry from the index * @icx: index context describing entry to delete * * Delete entry described by @icx from the index. Index context is always * reinitialized after use of this function, so it can be used for index * lookup once again. * * Return 0 on success or -1 on error with errno set to the error code. */ /*static JPA*/ int ntfs_index_rm(ntfs_index_context *icx) { INDEX_HEADER *ih; int err, ret = STATUS_OK; ntfs_log_trace("Entering\n"); if (!icx || (!icx->ib && !icx->ir) || ntfs_ie_end(icx->entry)) { ntfs_log_error("Invalid arguments.\n"); errno = EINVAL; goto err_out; } if (icx->is_in_root) ih = &icx->ir->index; else ih = &icx->ib->index; if (icx->entry->ie_flags & INDEX_ENTRY_NODE) { ret = ntfs_index_rm_node(icx); } else if (icx->is_in_root || !ntfs_ih_one_entry(ih)) { ntfs_ie_delete(ih, icx->entry); if (icx->is_in_root) { err = ntfs_ir_truncate(icx, le32_to_cpu(ih->index_length)); if (err != STATUS_OK) goto err_out; } else if (ntfs_icx_ib_write(icx)) goto err_out; } else { if (ntfs_index_rm_leaf(icx)) goto err_out; } out: return ret; err_out: ret = STATUS_ERROR; goto out; } int ntfs_index_remove(ntfs_inode *dir_ni, ntfs_inode *ni, const void *key, const int keylen) { int ret = STATUS_ERROR; ntfs_index_context *icx; icx = ntfs_index_ctx_get(dir_ni, NTFS_INDEX_I30, 4); if (!icx) return -1; while (1) { if (ntfs_index_lookup(key, keylen, icx)) goto err_out; if ((((FILE_NAME_ATTR *)icx->data)->file_attributes & FILE_ATTR_REPARSE_POINT) && !ntfs_possible_symlink(ni)) { errno = EOPNOTSUPP; goto err_out; } ret = ntfs_index_rm(icx); if (ret == STATUS_ERROR) goto err_out; else if (ret == STATUS_OK) break; ntfs_inode_mark_dirty(icx->actx->ntfs_ino); ntfs_index_ctx_reinit(icx); } ntfs_inode_mark_dirty(icx->actx->ntfs_ino); out: ntfs_index_ctx_put(icx); return ret; err_out: ret = STATUS_ERROR; ntfs_log_perror("Delete failed"); goto out; } /** * ntfs_index_root_get - read the index root of an attribute * @ni: open ntfs inode in which the ntfs attribute resides * @attr: attribute for which we want its index root * * This function will read the related index root an ntfs attribute. * * On success a buffer is allocated with the content of the index root * and which needs to be freed when it's not needed anymore. * * On error NULL is returned with errno set to the error code. */ INDEX_ROOT *ntfs_index_root_get(ntfs_inode *ni, ATTR_RECORD *attr) { ntfs_attr_search_ctx *ctx; ntfschar *name; INDEX_ROOT *root = NULL; name = (ntfschar *)((u8 *)attr + le16_to_cpu(attr->name_offset)); if (!ntfs_ir_lookup(ni, name, attr->name_length, &ctx)) return NULL; root = ntfs_malloc(sizeof(INDEX_ROOT)); if (!root) goto out; *root = *((INDEX_ROOT *)((u8 *)ctx->attr + le16_to_cpu(ctx->attr->value_offset))); out: ntfs_attr_put_search_ctx(ctx); return root; } /* * Walk down the index tree (leaf bound) * until there are no subnode in the first index entry * returns the entry at the bottom left in subnode */ static INDEX_ENTRY *ntfs_index_walk_down(INDEX_ENTRY *ie, ntfs_index_context *ictx) { INDEX_ENTRY *entry; s64 vcn; entry = ie; do { vcn = ntfs_ie_get_vcn(entry); if (ictx->is_in_root) { /* down from level zero */ ictx->ir = (INDEX_ROOT*)NULL; ictx->ib = (INDEX_BLOCK*)ntfs_malloc(ictx->block_size); ictx->pindex = 1; ictx->is_in_root = FALSE; } else { /* down from non-zero level */ ictx->pindex++; } ictx->parent_pos[ictx->pindex] = 0; ictx->parent_vcn[ictx->pindex] = vcn; if (!ntfs_ib_read(ictx,vcn,ictx->ib)) { ictx->entry = ntfs_ie_get_first(&ictx->ib->index); entry = ictx->entry; } else entry = (INDEX_ENTRY*)NULL; } while (entry && (entry->ie_flags & INDEX_ENTRY_NODE)); return (entry); } /* * Walk up the index tree (root bound) * until there is a valid data entry in parent * returns the parent entry or NULL if no more parent */ static INDEX_ENTRY *ntfs_index_walk_up(INDEX_ENTRY *ie, ntfs_index_context *ictx) { INDEX_ENTRY *entry; s64 vcn; entry = ie; if (ictx->pindex > 0) { do { ictx->pindex--; if (!ictx->pindex) { /* we have reached the root */ free(ictx->ib); ictx->ib = (INDEX_BLOCK*)NULL; ictx->is_in_root = TRUE; /* a new search context is to be allocated */ if (ictx->actx) free(ictx->actx); ictx->ir = ntfs_ir_lookup(ictx->ni, ictx->name, ictx->name_len, &ictx->actx); if (ictx->ir) entry = ntfs_ie_get_by_pos( &ictx->ir->index, ictx->parent_pos[ictx->pindex]); else entry = (INDEX_ENTRY*)NULL; } else { /* up into non-root node */ vcn = ictx->parent_vcn[ictx->pindex]; if (!ntfs_ib_read(ictx,vcn,ictx->ib)) { entry = ntfs_ie_get_by_pos( &ictx->ib->index, ictx->parent_pos[ictx->pindex]); } else entry = (INDEX_ENTRY*)NULL; } ictx->entry = entry; } while (entry && (ictx->pindex > 0) && (entry->ie_flags & INDEX_ENTRY_END)); } else entry = (INDEX_ENTRY*)NULL; return (entry); } /* * Get next entry in an index according to collating sequence. * Must be initialized through a ntfs_index_lookup() * * Returns next entry or NULL if none * * Sample layout : * * +---+---+---+---+---+---+---+---+ n ptrs to subnodes * | | | 10| 25| 33| | | | n-1 keys in between * +---+---+---+---+---+---+---+---+ no key in last entry * | A | A * | | | +-------------------------------+ * +--------------------------+ | +-----+ | * | +--+ | | * V | V | * +---+---+---+---+---+---+---+---+ | +---+---+---+---+---+---+---+---+ * | 11| 12| 13| 14| 15| 16| 17| | | | 26| 27| 28| 29| 30| 31| 32| | * +---+---+---+---+---+---+---+---+ | +---+---+---+---+---+---+---+---+ * | | * +-----------------------+ | * | | * +---+---+---+---+---+---+---+---+ * | 18| 19| 20| 21| 22| 23| 24| | * +---+---+---+---+---+---+---+---+ */ INDEX_ENTRY *ntfs_index_next(INDEX_ENTRY *ie, ntfs_index_context *ictx) { INDEX_ENTRY *next; int flags; /* * lookup() may have returned an invalid node * when searching for a partial key * if this happens, walk up */ if (ie->ie_flags & INDEX_ENTRY_END) next = ntfs_index_walk_up(ie, ictx); else { /* * get next entry in same node * there is always one after any entry with data */ next = (INDEX_ENTRY*)((char*)ie + le16_to_cpu(ie->length)); ++ictx->parent_pos[ictx->pindex]; flags = next->ie_flags; /* walk down if it has a subnode */ if (flags & INDEX_ENTRY_NODE) { next = ntfs_index_walk_down(next,ictx); } else { /* walk up it has no subnode, nor data */ if (flags & INDEX_ENTRY_END) { next = ntfs_index_walk_up(next, ictx); } } } /* return NULL if stuck at end of a block */ if (next && (next->ie_flags & INDEX_ENTRY_END)) next = (INDEX_ENTRY*)NULL; return (next); }