/* * Copyright (c) 2012 Frantisek Princ * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * - Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * - Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * - The name of the author may not be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ /** @addtogroup libext4 * @{ */ /** * @file libext4_directory.c * @brief Ext4 directory structure operations. */ #include #include #include #include #include "libext4.h" /** Get i-node number from directory entry. * * @param de directory entry * @return i-node number */ uint32_t ext4_directory_entry_ll_get_inode(ext4_directory_entry_ll_t *de) { return uint32_t_le2host(de->inode); } /** Set i-node number to directory entry. * * @param de directory entry * @param inode i-node number */ void ext4_directory_entry_ll_set_inode(ext4_directory_entry_ll_t *de, uint32_t inode) { de->inode = host2uint32_t_le(inode); } /** Get directory entry length. * * @param de directory entry * @return entry length */ uint16_t ext4_directory_entry_ll_get_entry_length( ext4_directory_entry_ll_t *de) { return uint16_t_le2host(de->entry_length); } /** Set directory entry length. * * @param de directory entry * @param length entry length */ void ext4_directory_entry_ll_set_entry_length(ext4_directory_entry_ll_t *de, uint16_t length) { de->entry_length = host2uint16_t_le(length); } /** Get directory entry name length. * * @param sb superblock * @param de directory entry * @return entry name length */ uint16_t ext4_directory_entry_ll_get_name_length( ext4_superblock_t *sb, ext4_directory_entry_ll_t *de) { if (ext4_superblock_get_rev_level(sb) == 0 && ext4_superblock_get_minor_rev_level(sb) < 5) { return ((uint16_t)de->name_length_high) << 8 | ((uint16_t)de->name_length); } return de->name_length; } /** Set directory entry name length. * * @param sb superblock * @param de directory entry * @param length entry name length */ void ext4_directory_entry_ll_set_name_length(ext4_superblock_t *sb, ext4_directory_entry_ll_t *de, uint16_t length) { de->name_length = (length << 8) >> 8; if (ext4_superblock_get_rev_level(sb) == 0 && ext4_superblock_get_minor_rev_level(sb) < 5) { de->name_length_high = length >> 8; } } /** Get i-node type of directory entry. * * @param sb superblock * @param de directory entry * @return i-node type (file, dir, etc.) */ uint8_t ext4_directory_entry_ll_get_inode_type( ext4_superblock_t *sb, ext4_directory_entry_ll_t *de) { if (ext4_superblock_get_rev_level(sb) > 0 || ext4_superblock_get_minor_rev_level(sb) >= 5) { return de->inode_type; } return EXT4_DIRECTORY_FILETYPE_UNKNOWN; } /** Set i-node type of directory entry. * * @param sb superblock * @param de directory entry * @param type i-node type (file, dir, etc.) */ void ext4_directory_entry_ll_set_inode_type( ext4_superblock_t *sb, ext4_directory_entry_ll_t *de, uint8_t type) { if (ext4_superblock_get_rev_level(sb) > 0 || ext4_superblock_get_minor_rev_level(sb) >= 5) { de->inode_type = type; } // else do nothing } static int ext4_directory_iterator_seek( ext4_directory_iterator_t *, aoff64_t); static int ext4_directory_iterator_set( ext4_directory_iterator_t *, uint32_t); /** Initialize directory iterator. * * Set position to the first valid entry from the required position. * * @param it pointer to iterator to be initialized * @param inode_ref directory i-node * @param pos position to start reading entries from * @return error code */ int ext4_directory_iterator_init(ext4_directory_iterator_t *it, ext4_inode_ref_t *inode_ref, aoff64_t pos) { it->inode_ref = inode_ref; it->current = NULL; it->current_offset = 0; it->current_block = NULL; return ext4_directory_iterator_seek(it, pos); } /** Jump to the next valid entry * * @param it initialized iterator * @return error code */ int ext4_directory_iterator_next(ext4_directory_iterator_t *it) { uint16_t skip; assert(it->current != NULL); skip = ext4_directory_entry_ll_get_entry_length(it->current); return ext4_directory_iterator_seek(it, it->current_offset + skip); } /** Seek to next valid directory entry. * * Here can be jumped to the next data block. * * @param it initialized iterator * @param pos position of the next entry * @return error code */ int ext4_directory_iterator_seek(ext4_directory_iterator_t *it, aoff64_t pos) { int rc; uint64_t size = ext4_inode_get_size( it->inode_ref->fs->superblock, it->inode_ref->inode); /* The iterator is not valid until we seek to the desired position */ it->current = NULL; /* Are we at the end? */ if (pos >= size) { if (it->current_block) { rc = block_put(it->current_block); it->current_block = NULL; if (rc != EOK) { return rc; } } it->current_offset = pos; return EOK; } // Compute next block address uint32_t block_size = ext4_superblock_get_block_size( it->inode_ref->fs->superblock); aoff64_t current_block_idx = it->current_offset / block_size; aoff64_t next_block_idx = pos / block_size; /* If we don't have a block or are moving accross block boundary, * we need to get another block */ if (it->current_block == NULL || current_block_idx != next_block_idx) { if (it->current_block) { rc = block_put(it->current_block); it->current_block = NULL; if (rc != EOK) { return rc; } } uint32_t next_block_phys_idx; rc = ext4_filesystem_get_inode_data_block_index(it->inode_ref, next_block_idx, &next_block_phys_idx); if (rc != EOK) { return rc; } rc = block_get(&it->current_block, it->inode_ref->fs->device, next_block_phys_idx, BLOCK_FLAGS_NONE); if (rc != EOK) { it->current_block = NULL; return rc; } } it->current_offset = pos; return ext4_directory_iterator_set(it, block_size); } /** Do some checks before returning iterator. * * @param it iterator to be checked * @param block_size size of data block * @return error code */ static int ext4_directory_iterator_set(ext4_directory_iterator_t *it, uint32_t block_size) { it->current = NULL; uint32_t offset_in_block = it->current_offset % block_size; /* Ensure proper alignment */ if ((offset_in_block % 4) != 0) { return EIO; } /* Ensure that the core of the entry does not overflow the block */ if (offset_in_block > block_size - 8) { return EIO; } ext4_directory_entry_ll_t *entry = it->current_block->data + offset_in_block; /* Ensure that the whole entry does not overflow the block */ uint16_t length = ext4_directory_entry_ll_get_entry_length(entry); if (offset_in_block + length > block_size) { return EIO; } /* Ensure the name length is not too large */ if (ext4_directory_entry_ll_get_name_length(it->inode_ref->fs->superblock, entry) > length-8) { return EIO; } // Everything OK - "publish" the entry it->current = entry; return EOK; } /** Uninitialize directory iterator. * * Release all allocated structures. * * @param it iterator to be finished * @return error code */ int ext4_directory_iterator_fini(ext4_directory_iterator_t *it) { int rc; it->inode_ref = NULL; it->current = NULL; if (it->current_block) { rc = block_put(it->current_block); if (rc != EOK) { return rc; } } return EOK; } /** Write directory entry to concrete data block. * * @param sb superblock * @param entry pointer to entry to be written * @param entry_len lenght of new entry * @param child child i-node to be written to new entry * @param name name of the new entry * @param name_len length of entry name */ void ext4_directory_write_entry(ext4_superblock_t *sb, ext4_directory_entry_ll_t *entry, uint16_t entry_len, ext4_inode_ref_t *child, const char *name, size_t name_len) { // Check maximum entry length uint32_t block_size = ext4_superblock_get_block_size(sb); assert(entry_len <= block_size); // Set basic attributes ext4_directory_entry_ll_set_inode(entry, child->index); ext4_directory_entry_ll_set_entry_length(entry, entry_len); ext4_directory_entry_ll_set_name_length(sb, entry, name_len); // Write name memcpy(entry->name, name, name_len); // Set type of entry if (ext4_inode_is_type(sb, child->inode, EXT4_INODE_MODE_DIRECTORY)) { ext4_directory_entry_ll_set_inode_type( sb, entry, EXT4_DIRECTORY_FILETYPE_DIR); } else { ext4_directory_entry_ll_set_inode_type( sb, entry, EXT4_DIRECTORY_FILETYPE_REG_FILE); } } /** Add new entry to the directory. * * @param parent directory i-node * @param name name of new entry * @param child i-node to be referenced from new entry * @return error code */ int ext4_directory_add_entry(ext4_inode_ref_t * parent, const char *name, ext4_inode_ref_t *child) { int rc; ext4_filesystem_t *fs = parent->fs; // Index adding (if allowed) if (ext4_superblock_has_feature_compatible(fs->superblock, EXT4_FEATURE_COMPAT_DIR_INDEX) && ext4_inode_has_flag(parent->inode, EXT4_INODE_FLAG_INDEX)) { rc = ext4_directory_dx_add_entry(parent, child, name); // Check if index is not corrupted if (rc != EXT4_ERR_BAD_DX_DIR) { if (rc != EOK) { return rc; } return EOK; } // Needed to clear dir index flag if corrupted ext4_inode_clear_flag(parent->inode, EXT4_INODE_FLAG_INDEX); parent->dirty = true; EXT4FS_DBG("index is corrupted - doing linear algorithm, index flag cleared"); } // Linear algorithm uint32_t iblock = 0, fblock = 0; uint32_t block_size = ext4_superblock_get_block_size(fs->superblock); uint32_t inode_size = ext4_inode_get_size(fs->superblock, parent->inode); uint32_t total_blocks = inode_size / block_size; uint32_t name_len = strlen(name); // Find block, where is space for new entry and try to add bool success = false; for (iblock = 0; iblock < total_blocks; ++iblock) { rc = ext4_filesystem_get_inode_data_block_index(parent, iblock, &fblock); if (rc != EOK) { return rc; } block_t *block; rc = block_get(&block, fs->device, fblock, BLOCK_FLAGS_NONE); if (rc != EOK) { return rc; } // If adding is successful, function can finish rc = ext4_directory_try_insert_entry(fs->superblock, block, child, name, name_len); if (rc == EOK) { success = true; } rc = block_put(block); if (rc != EOK) { return rc; } if (success) { return EOK; } } // No free block found - needed to allocate next data block iblock = 0; fblock = 0; rc = ext4_filesystem_append_inode_block(parent, &fblock, &iblock); if (rc != EOK) { return rc; } // Load new block block_t *new_block; rc = block_get(&new_block, fs->device, fblock, BLOCK_FLAGS_NOREAD); if (rc != EOK) { return rc; } // Fill block with zeroes memset(new_block->data, 0, block_size); ext4_directory_entry_ll_t *block_entry = new_block->data; ext4_directory_write_entry(fs->superblock, block_entry, block_size, child, name, name_len); // Save new block new_block->dirty = true; rc = block_put(new_block); if (rc != EOK) { return rc; } return EOK; } /** Find directory entry with passed name. * * @param result result structure to be returned if entry found * @param parent directory i-node * @param name name of entry to be found * @return error code */ int ext4_directory_find_entry(ext4_directory_search_result_t *result, ext4_inode_ref_t *parent, const char *name) { int rc; uint32_t name_len = strlen(name); ext4_superblock_t *sb = parent->fs->superblock; // Index search if (ext4_superblock_has_feature_compatible(sb, EXT4_FEATURE_COMPAT_DIR_INDEX) && ext4_inode_has_flag(parent->inode, EXT4_INODE_FLAG_INDEX)) { rc = ext4_directory_dx_find_entry(result, parent, name_len, name); // Check if index is not corrupted if (rc != EXT4_ERR_BAD_DX_DIR) { if (rc != EOK) { return rc; } return EOK; } // Needed to clear dir index flag if corrupted ext4_inode_clear_flag(parent->inode, EXT4_INODE_FLAG_INDEX); parent->dirty = true; EXT4FS_DBG("index is corrupted - doing linear search"); } // Linear algorithm uint32_t iblock, fblock; uint32_t block_size = ext4_superblock_get_block_size(sb); uint32_t inode_size = ext4_inode_get_size(sb, parent->inode); uint32_t total_blocks = inode_size / block_size; // Walk through all data blocks for (iblock = 0; iblock < total_blocks; ++iblock) { // Load block address rc = ext4_filesystem_get_inode_data_block_index(parent, iblock, &fblock); if (rc != EOK) { return rc; } // Load data block block_t *block; rc = block_get(&block, parent->fs->device, fblock, BLOCK_FLAGS_NONE); if (rc != EOK) { return rc; } // Try to find entry in block ext4_directory_entry_ll_t *res_entry; rc = ext4_directory_find_in_block(block, sb, name_len, name, &res_entry); if (rc == EOK) { result->block = block; result->dentry = res_entry; return EOK; } // Entry not found - put block and continue to the next block rc = block_put(block); if (rc != EOK) { return rc; } } // Entry was not found result->block = NULL; result->dentry = NULL; return ENOENT; } /** Remove directory entry. * * @param parent directory i-node * @param name name of the entry to be removed * @return error code */ int ext4_directory_remove_entry(ext4_inode_ref_t *parent, const char *name) { int rc; // Check if removing from directory if (!ext4_inode_is_type(parent->fs->superblock, parent->inode, EXT4_INODE_MODE_DIRECTORY)) { return ENOTDIR; } // Try to find entry ext4_directory_search_result_t result; rc = ext4_directory_find_entry(&result, parent, name); if (rc != EOK) { return rc; } // Invalidate entry ext4_directory_entry_ll_set_inode(result.dentry, 0); // Store entry position in block uint32_t pos = (void *)result.dentry - result.block->data; // If entry is not the first in block, it must be merged // with previous entry if (pos != 0) { uint32_t offset = 0; // Start from the first entry in block ext4_directory_entry_ll_t *tmp_dentry = result.block->data; uint16_t tmp_dentry_length = ext4_directory_entry_ll_get_entry_length(tmp_dentry); // Find direct predecessor of removed entry while ((offset + tmp_dentry_length) < pos) { offset += ext4_directory_entry_ll_get_entry_length(tmp_dentry); tmp_dentry = result.block->data + offset; tmp_dentry_length = ext4_directory_entry_ll_get_entry_length(tmp_dentry); } assert(tmp_dentry_length + offset == pos); // Add to removed entry length to predecessor's length uint16_t del_entry_length = ext4_directory_entry_ll_get_entry_length(result.dentry); ext4_directory_entry_ll_set_entry_length(tmp_dentry, tmp_dentry_length + del_entry_length); } result.block->dirty = true; return ext4_directory_destroy_result(&result); } /** Try to insert entry to concrete data block. * * @param sb superblock * @param target_block block to try to insert entry to * @param child child i-node to be inserted by new entry * @param name name of the new entry * @param name_len length of the new entry name * @return error code */ int ext4_directory_try_insert_entry(ext4_superblock_t *sb, block_t *target_block, ext4_inode_ref_t *child, const char *name, uint32_t name_len) { // Compute required length entry and align it to 4 bytes uint32_t block_size = ext4_superblock_get_block_size(sb); uint16_t required_len = sizeof(ext4_fake_directory_entry_t) + name_len; if ((required_len % 4) != 0) { required_len += 4 - (required_len % 4); } // Initialize pointers, stop means to upper bound ext4_directory_entry_ll_t *dentry = target_block->data; ext4_directory_entry_ll_t *stop = target_block->data + block_size; // Walk through the block and check for invalid entries // or entries with free space for new entry while (dentry < stop) { uint32_t inode = ext4_directory_entry_ll_get_inode(dentry); uint16_t rec_len = ext4_directory_entry_ll_get_entry_length(dentry); // If invalid and large enough entry, use it if ((inode == 0) && (rec_len >= required_len)) { ext4_directory_write_entry(sb, dentry, rec_len, child, name, name_len); target_block->dirty = true; return EOK; } // Valid entry, try to split it if (inode != 0) { uint16_t used_name_len = ext4_directory_entry_ll_get_name_length(sb, dentry); uint16_t used_space = sizeof(ext4_fake_directory_entry_t) + used_name_len; if ((used_name_len % 4) != 0) { used_space += 4 - (used_name_len % 4); } uint16_t free_space = rec_len - used_space; // There is free space for new entry if (free_space >= required_len) { // Cut tail of current entry ext4_directory_entry_ll_set_entry_length(dentry, used_space); ext4_directory_entry_ll_t *new_entry = (void *)dentry + used_space; ext4_directory_write_entry(sb, new_entry, free_space, child, name, name_len); target_block->dirty = true; return EOK; } } // Jump to the next entry dentry = (void *)dentry + rec_len; } // No free space found for new entry return ENOSPC; } /** Try to find entry in block by name. * * @param block block containing entries * @param sb superblock * @param name_len length of entry name * @param name name of entry to be found * @param res_entry output pointer to found entry, NULL if not found * @return error code */ int ext4_directory_find_in_block(block_t *block, ext4_superblock_t *sb, size_t name_len, const char *name, ext4_directory_entry_ll_t **res_entry) { // Start from the first entry in block ext4_directory_entry_ll_t *dentry = (ext4_directory_entry_ll_t *)block->data; //Set upper bound for cycling uint8_t *addr_limit = block->data + ext4_superblock_get_block_size(sb); // Walk through the block and check entries while ((uint8_t *)dentry < addr_limit) { // Termination condition if ((uint8_t*) dentry + name_len > addr_limit) { break; } // Valid entry - check it if (dentry->inode != 0) { // For more effectivity compare firstly only lengths if (name_len == ext4_directory_entry_ll_get_name_length(sb, dentry)) { // Compare names if (bcmp((uint8_t *)name, dentry->name, name_len) == 0) { *res_entry = dentry; return EOK; } } } uint16_t dentry_len = ext4_directory_entry_ll_get_entry_length(dentry); // Corrupted entry if (dentry_len == 0) { return EINVAL; } // Jump to next entry dentry = (ext4_directory_entry_ll_t *)((uint8_t *)dentry + dentry_len); } // Entry not found return ENOENT; } /** Simple function to release allocated data from result. * * @param result search result to destroy * @return error code */ int ext4_directory_destroy_result(ext4_directory_search_result_t *result) { if (result->block) { return block_put(result->block); } return EOK; } /** * @} */