/* SPDX-License-Identifier: LGPL-3.0-or-later */ /* * block_processor.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 SFQS_BLOCK_PROCESSOR_H #define SFQS_BLOCK_PROCESSOR_H #include "sqfs/predef.h" /** * @file block_processor.h * * @brief Contains declarations for the data block processor. */ /** * @struct sqfs_block_processor_t * * @brief Abstracts generating of file data and fragment blocks. * * This data structure provides a simple begin/append/end interface * to generate file data blocks (see @ref sqfs_block_processor_begin_file, * @ref sqfs_block_processor_append and @ref sqfs_block_processor_end * respectively). * * Internally it takes care of partitioning data in the correct block sizes, * adding tail-ens to fragment blocks, compressing the data, deduplicating data * and finally writing it to disk. */ /** * @struct sqfs_block_hooks_t * * @brief A set of hooks for tapping into the data writer. * * This structure can be registered with an @ref sqfs_block_processor_t and * contains function pointers that will be called during various stages * when writing data to disk. * * The callbacks can not only be used for accounting but may also write extra * data to the output file or make modifications to the blocks before they are * writtien. * * The callbacks can be individually set to NULL to disable them. */ struct sqfs_block_hooks_t { /** * @brief Set this to the size of the struct. * * This is required for future expandabillity while maintaining ABI * compatibillity. At the current time, the implementation of * @ref sqfs_block_processor_set_hooks rejects any hook struct where * this isn't the exact size. If new hooks are added in the future, * the struct grows and the future implementation can tell by the size * whether the application uses the new version or the old one. */ size_t size; /** * @brief Gets called before writing a block to disk. * * If this is not NULL, it gets called before a block is written to * disk. If the block has the @ref SQFS_BLK_ALIGN flag set, the * function is called before padding the file. * * The function may modify the block itself or write data to the file. * which is taken into account when padding the file. * * @param user A user pointer. * @param block The block that is about to be written. * @param file The file that the block will be written to. */ void (*pre_block_write)(void *user, sqfs_block_t *block, sqfs_file_t *file); /** * @brief Gets called after writing a block to disk. * * If this is not NULL, it gets called after a block is written to * disk. If the block has the @ref SQFS_BLK_ALIGN flag set, the * function is called before padding the file. * * Modifying the block is rather pointless, but the function may * write data to the file which is taken into account when padding * the file. * * @param user A user pointer. * @param block The block that is about to be written. * @param file The file that the block was written to. */ void (*post_block_write)(void *user, const sqfs_block_t *block, sqfs_file_t *file); /** * @brief Gets called before storing a fragment in a fragment block. * * The function can modify the block before it is stored. * * @param user A user pointer. * @param block The data chunk that is about to be merged into the * fragment block. */ void (*pre_fragment_store)(void *user, sqfs_block_t *block); /** * @brief Gets called if block deduplication managed to get * rid of the data blocks of a file. * * @param user A user pointer. * @param count The number of blocks that have been erased. * @param bytes The number of bytes that have been erased. Includes * potential padding before and after the end. */ void (*notify_blocks_erased)(void *user, size_t count, sqfs_u64 bytes); /** * @brief Gets called before throwing away a fragment that turned out * to be a duplicate. * * @param user A user pointer. * @param block The data chunk that is about to be merged into the * fragment block. */ void (*notify_fragment_discard)(void *user, const sqfs_block_t *block); /** * @brief Gets called before writing a block of padding bytes to disk. * * @param user A user pointer. * @param block The padding bytes that are about to be written. * @param count The number of padding bytes in the block. */ void (*prepare_padding)(void *user, sqfs_u8 *block, size_t count); }; #ifdef __cplusplus extern "C" { #endif /** * @brief Create a data block writer. * * @memberof sqfs_block_processor_t * * @param max_block_size The maximum size of a data block. Required for the * internal scratch buffer used for compressing data. * @param cmp A pointer to a compressor. If multiple worker threads are used, * the deep copy function of the compressor is used to create * several instances that don't interfere with each other. * @param num_workers The number of worker threads to create. * @param max_backlog The maximum number of blocks currently in flight. When * trying to add more, enqueueing blocks until the in-flight * block count drops below the threshold. * @param devblksz File can optionally be allgined to device block size. This * specifies the desired alignment. * @param file The output file to write the finished blocks to. * * @return A pointer to a data writer object on success, NULL on allocation * failure or on failure to create and initialize the worker threads. */ SQFS_API sqfs_block_processor_t *sqfs_block_processor_create(size_t max_block_size, sqfs_compressor_t *cmp, unsigned int num_workers, size_t max_backlog, size_t devblksz, sqfs_file_t *file); /** * @brief Destroy a data writer and free all memory used by it. * * @memberof sqfs_block_processor_t * * @param proc A pointer to a data writer object. */ SQFS_API void sqfs_block_processor_destroy(sqfs_block_processor_t *proc); /** * @brief Start writing a file. * * @memberof sqfs_block_processor_t * * After calling this function, call @ref sqfs_block_processor_append * repeatedly to add data to the file. Finally * call @ref sqfs_block_processor_end_file when you * are done. After writing all files, use @ref sqfs_block_processor_finish to * wait until all blocks that are still in flight are done and written to disk. * * The specified inode pointer is kept internally and updated with the * compressed block sizes and final destinations of the file and possible * fragment. You need to make sure it has enough backing-store for all blocks * to come. Furthermore, since there can still be blocks in-flight even after * calling @ref sqfs_block_processor_end_file, the data in the inode may still * change. The only point at which the data writer is guarnteed to not touch * them anymore is after @ref sqfs_block_processor_finish has returned. * * @param proc A pointer to a data writer object. * @param inode The regular file inode representing the file. The data writer * internally updates it while writing blocks to disk. * @param flags A combination of @ref E_SQFS_BLK_FLAGS that can be used to * micro manage how the data is processed. * * @return Zero on success, an @ref E_SQFS_ERROR value on failure. */ SQFS_API int sqfs_block_processor_begin_file(sqfs_block_processor_t *proc, sqfs_inode_generic_t *inode, sqfs_u32 flags); /** * @brief Append data to the current file. * * @memberof sqfs_block_processor_t * * Call this after @ref sqfs_block_processor_begin_file to add data to a file. * * @param proc A pointer to a data writer object. * @param data A pointer to a buffer to read data from. * @param size How many bytes should be copied out of the given * buffer and written to disk. * * @return Zero on success, an @ref E_SQFS_ERROR value on failure. */ SQFS_API int sqfs_block_processor_append(sqfs_block_processor_t *proc, const void *data, size_t size); /** * @brief Stop writing the current file and flush everything that is * buffered internally. * * @memberof sqfs_block_processor_t * * The counter part to @ref sqfs_block_processor_begin_file. * * Even after calling this, there might still be data blocks in-flight. * Use @ref sqfs_block_processor_finish when you are done writing files to force * the remaining blocks to be processed and written to disk. * * @param proc A pointer to a data writer object. * * @return Zero on success, an @ref E_SQFS_ERROR value on failure. */ SQFS_API int sqfs_block_processor_end_file(sqfs_block_processor_t *proc); /** * @brief Wait for the in-flight data blocks to finish and finally flush the * current fragment block. * * @memberof sqfs_block_processor_t * * @param proc A pointer to a block processor object. * * @return Zero on success, an @ref E_SQFS_ERROR value on failure. The failure * return value can either be an error encountered during enqueueing, * processing or writing to disk. */ SQFS_API int sqfs_block_processor_finish(sqfs_block_processor_t *proc); /** * @brief Write the completed fragment table to disk. * * @memberof sqfs_block_processor_t * * Call this after producing the inode and directory table to generate * the fragment table for the squashfs image. * * @param proc A pointer to a data writer object. * @param super A pointer to a super block to write information about the * fragment table to. * * @return Zero on success, an @ref E_SQFS_ERROR value on failure. */ SQFS_API int sqfs_block_processor_write_fragment_table(sqfs_block_processor_t *proc, sqfs_super_t *super); /** * @brief Register a set of hooks to be invoked when writing blocks to disk. * * @memberof sqfs_block_processor_t * * @param proc A pointer to a data writer object. * @param user_ptr A user pointer to pass to the callbacks. * @param hooks A structure containing the hooks. * * @return Zero on success, @ref SQFS_ERROR_UNSUPPORTED if the size field of * the hooks doesn't match any size knwon to the library. */ SQFS_API int sqfs_block_processor_set_hooks(sqfs_block_processor_t *proc, void *user_ptr, const sqfs_block_hooks_t *hooks); #ifdef __cplusplus } #endif #endif /* SFQS_BLOCK_PROCESSOR_H */