/* SPDX-License-Identifier: LGPL-3.0-or-later */ /* * meta_reader.h - This file is part of libsquashfs * * Copyright (C) 2019 David Oberhollenzer * * This program is free software: you can redistribute it and/or modify * it under the terms of the GNU Lesser General Public License as published * by the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * This program 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 Lesser General Public License * along with this program. If not, see . */ #ifndef SQFS_META_READER_H #define SQFS_META_READER_H #include "sqfs/predef.h" /** * @file meta_reader.h * * @brief Contains declarations for the @ref sqfs_meta_reader_t. */ /** * @struct sqfs_meta_reader_t * * @implements sqfs_object_t * * @brief Abstracts reading of meta data blocks. * * SquashFS stores meta data by dividing it into fixed size (8k) chunks * that are written to disk with a small header indicating the on-disk * size and whether it is compressed or not. * * Data written to meta data blocks doesn't have to be aligned, i.e. * SquashFS doesn't care if an object is written across two blocks. * * The main task of the meta data read is to provide a simple read and seek * functions that transparently take care of fetching and uncompressing blocks * from disk and reading transparently across block boarders if required. */ #ifdef __cplusplus extern "C" { #endif /** * @brief Create a meta data reader * * @memberof sqfs_meta_reader_t * * @param file A pointer to a file object to read from * @param cmp A compressor to use for unpacking compressed meta data blocks * @param start A lower limit for the blocks to be read. Every seek to an offset * below that is interpreted as an out-of-bounds read. * @param limit An upper limit for the blocks to read. Every seek to an offset * afer that is interpreted as an out-of-bounds read. * * @return A pointer to a meta data reader on success, NULL on * allocation failure. */ SQFS_API sqfs_meta_reader_t *sqfs_meta_reader_create(sqfs_file_t *file, sqfs_compressor_t *cmp, sqfs_u64 start, sqfs_u64 limit); /** * @brief Seek to a specific meta data block and offset. * * @memberof sqfs_meta_reader_t * * The underlying block is fetched from disk and uncompressed, unless it * already is the current block. * * @param m A pointer to a meta data reader. * @param block_start Absolute position where the block header can be found. * @param offset A byte offset into the uncompressed block. * * @return Zero on success, an @ref SQFS_ERROR value on failure. */ SQFS_API int sqfs_meta_reader_seek(sqfs_meta_reader_t *m, sqfs_u64 block_start, size_t offset); /** * @brief Get the current position that the next read will read from. * * @memberof sqfs_meta_reader_t * * @param m A pointer to a meta data reader. * @param block_start Absolute position where the current block is. * @param offset A byte offset into the uncompressed block. */ SQFS_API void sqfs_meta_reader_get_position(const sqfs_meta_reader_t *m, sqfs_u64 *block_start, size_t *offset); /** * @brief Read a chunk of data from a meta data reader. * * @memberof sqfs_meta_reader_t * * If the meta data reader reaches the end of the current block before filling * the destination buffer, it transparently reads the next block from disk and * uncompresses it. * * @param m A pointer to a meta data reader. * @param data A pointer to copy the data to. * @param size The numbre of bytes to read. * * @return Zero on success, an @ref SQFS_ERROR value on failure. */ SQFS_API int sqfs_meta_reader_read(sqfs_meta_reader_t *m, void *data, size_t size); /** * @brief Read and decode a directory header from a meta data reader. * * @memberof sqfs_meta_reader_t * * This is a convenience function on to of @ref sqfs_meta_reader_read that * reads and decodes a directory header from a meta data block. * * @param m A pointer to a meta data reader. * @param hdr A pointer to a directory header to fill. * * @return Zero on success, an @ref SQFS_ERROR value on failure. */ SQFS_API int sqfs_meta_reader_read_dir_header(sqfs_meta_reader_t *m, sqfs_dir_header_t *hdr); /** * @brief Read and decode a directory header from a meta data reader. * * @memberof sqfs_meta_reader_t * * This is a convenience function on to of @ref sqfs_meta_reader_read that * reads and decodes a directory entry. * * @param m A pointer to a meta data reader. * @param ent Returns a pointer to a directory entry. Can be released with a * single free() call. * * @return Zero on success, an @ref SQFS_ERROR value on failure. */ SQFS_API int sqfs_meta_reader_read_dir_ent(sqfs_meta_reader_t *m, sqfs_dir_entry_t **ent); /** * @brief Read and decode an inode from a meta data reader. * * @memberof sqfs_meta_reader_t * * This is a convenience function on to of @ref sqfs_meta_reader_seek and * @ref sqfs_meta_reader_read that reads and decodes an inode. * * @param ir A pointer to a meta data reader. * @param super A pointer to the super block, required for figuring out the * size of file inodes. * @param block_start The meta data block to seek to for reading the inode. * @param offset A byte offset within the uncompressed block where the * inode is. * @param out Returns a pointer to an inode. Can be released with a * single free() call. * * @return Zero on success, an @ref SQFS_ERROR value on failure. */ SQFS_API int sqfs_meta_reader_read_inode(sqfs_meta_reader_t *ir, const sqfs_super_t *super, sqfs_u64 block_start, size_t offset, sqfs_inode_generic_t **out); #ifdef __cplusplus } #endif #endif /* SQFS_META_READER_H */