mirror of
https://gitee.com/openharmony/third_party_littlefs
synced 2024-11-23 06:50:37 +00:00
c67a41af7a
littlefs has a mechanism for deleting file entries, but it doesn't have a mechanism for deleting individual tags. This _is_ sufficient for a filesystem, but limits our flexibility. Deleting attributes would be useful in the custom attribute API and for future improvements (hint the child pointers in B-trees). However, deleteing attributes is tricky. We can't just omit the attribute, since we can only add new tags. Additionally, we need a way to track what attributes have been deleted during compaction, which currently relies on writing out attributes to disk. The solution here is pretty nifty. First we have to come up with a way to represent a "deleted" attribute. Rather than adding an additional bit to the already squished tag structure, we use a -1 length field, specifically 0xfff. Now we can commit a delete attribute, and this deleted tag acts as a place holder during compacts. However our delete tag will never leave our metadata log. We need some way to discard our delete tag if we know it's the only representation of that tag on the metadata log. Ah! We know it's the only tag if it's in the first commit on the metadata log. So we add an additional bit to the CRC entry to indicate if we're on the first commit, and use that to decide if we need to keep delete tags around. Now we have working tag deletion. Interestingly enough, tag deletion is actually indirectly more efficient than entry deletion, since compacting entries requires multiple passes, whereas tag deletion gets cleaned up lazily. However we can't adopt the same strategy in entry deletion because of the compact ordering of entries. Tag deletion works because tag types are unique and static. Managing entry deletion in this manner would require static id allocation, which would cause problems when creating files, running out of space, and disallow arbitrary insertions of files.
638 lines
20 KiB
C
638 lines
20 KiB
C
/*
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* The little filesystem
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*
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* Copyright (c) 2017, Arm Limited. All rights reserved.
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* SPDX-License-Identifier: BSD-3-Clause
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*/
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#ifndef LFS_H
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#define LFS_H
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#include <stdint.h>
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#include <stdbool.h>
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#ifdef __cplusplus
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extern "C"
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{
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#endif
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/// Version info ///
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// Software library version
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// Major (top-nibble), incremented on backwards incompatible changes
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// Minor (bottom-nibble), incremented on feature additions
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#define LFS_VERSION 0x00020000
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#define LFS_VERSION_MAJOR (0xffff & (LFS_VERSION >> 16))
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#define LFS_VERSION_MINOR (0xffff & (LFS_VERSION >> 0))
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// Version of On-disk data structures
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// Major (top-nibble), incremented on backwards incompatible changes
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// Minor (bottom-nibble), incremented on feature additions
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#define LFS_DISK_VERSION 0x00020000
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#define LFS_DISK_VERSION_MAJOR (0xffff & (LFS_DISK_VERSION >> 16))
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#define LFS_DISK_VERSION_MINOR (0xffff & (LFS_DISK_VERSION >> 0))
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/// Definitions ///
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// Type definitions
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typedef uint32_t lfs_size_t;
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typedef uint32_t lfs_off_t;
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typedef int32_t lfs_ssize_t;
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typedef int32_t lfs_soff_t;
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typedef uint32_t lfs_block_t;
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// Maximum size of all attributes per file in bytes, may be redefined but a
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// a smaller LFS_ATTR_MAX has no benefit. Stored in 12-bits and limited
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// to <= 0xfff. Stored in superblock and must be respected by other
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// littlefs drivers.
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#ifndef LFS_ATTR_MAX
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#define LFS_ATTR_MAX 0xffe
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#endif
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// Maximum name size in bytes, may be redefined to reduce the size of the
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// info struct. Limited to <= LFS_ATTR_MAX. Stored in superblock and must
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// be respected by other littlefs drivers.
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#ifndef LFS_NAME_MAX
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#define LFS_NAME_MAX 0xff
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#endif
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// Maximum inline file size in bytes. Large inline files require a larger
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// cache size, but if a file can be inline it does not need its own data
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// block. Limited to <= LFS_ATTR_MAX and <= cache_size. Stored in superblock
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// and must be respected by other littlefs drivers.
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#ifndef LFS_INLINE_MAX
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#define LFS_INLINE_MAX 0xffe
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#endif
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// Possible error codes, these are negative to allow
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// valid positive return values
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enum lfs_error {
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LFS_ERR_OK = 0, // No error
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LFS_ERR_IO = -5, // Error during device operation
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LFS_ERR_CORRUPT = -84, // Corrupted
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LFS_ERR_NOENT = -2, // No directory entry
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LFS_ERR_EXIST = -17, // Entry already exists
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LFS_ERR_NOTDIR = -20, // Entry is not a dir
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LFS_ERR_ISDIR = -21, // Entry is a dir
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LFS_ERR_NOTEMPTY = -39, // Dir is not empty
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LFS_ERR_BADF = -9, // Bad file number
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LFS_ERR_INVAL = -22, // Invalid parameter
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LFS_ERR_NOSPC = -28, // No space left on device
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LFS_ERR_NOMEM = -12, // No more memory available
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LFS_ERR_NAMETOOLONG = -36, // File name too long
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};
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// File types
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enum lfs_type {
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// file types
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LFS_TYPE_REG = 0x002,
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LFS_TYPE_DIR = 0x003,
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// internally used types
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LFS_TYPE_USER = 0x100,
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LFS_TYPE_SUPERBLOCK = 0x001,
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LFS_TYPE_ROOT = 0x000,
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LFS_TYPE_NAME = 0x000,
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LFS_TYPE_DELETE = 0x020,
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LFS_TYPE_STRUCT = 0x040,
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LFS_TYPE_GLOBALS = 0x0e0,
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LFS_TYPE_TAIL = 0x080,
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LFS_TYPE_SOFTTAIL = 0x080,
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LFS_TYPE_HARDTAIL = 0x081,
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LFS_TYPE_CRC = 0x0a0,
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LFS_TYPE_DIRSTRUCT = 0x040,
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LFS_TYPE_INLINESTRUCT = 0x041,
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LFS_TYPE_CTZSTRUCT = 0x042,
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// internal chip sources
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LFS_FROM_REGION = 0x000,
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LFS_FROM_DISK = 0x200,
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LFS_FROM_MOVE = 0x0c1,
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LFS_FROM_ATTRS = 0x0c2,
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LFS_FROM_SUPERBLOCK = 0x0c3,
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};
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// File open flags
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enum lfs_open_flags {
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// open flags
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LFS_O_RDONLY = 1, // Open a file as read only
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LFS_O_WRONLY = 2, // Open a file as write only
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LFS_O_RDWR = 3, // Open a file as read and write
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LFS_O_CREAT = 0x0100, // Create a file if it does not exist
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LFS_O_EXCL = 0x0200, // Fail if a file already exists
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LFS_O_TRUNC = 0x0400, // Truncate the existing file to zero size
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LFS_O_APPEND = 0x0800, // Move to end of file on every write
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// internally used flags
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LFS_F_DIRTY = 0x010000, // File does not match storage
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LFS_F_WRITING = 0x020000, // File has been written since last flush
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LFS_F_READING = 0x040000, // File has been read since last flush
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LFS_F_ERRED = 0x080000, // An error occured during write
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LFS_F_INLINE = 0x100000, // Currently inlined in directory entry
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};
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// File seek flags
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enum lfs_whence_flags {
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LFS_SEEK_SET = 0, // Seek relative to an absolute position
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LFS_SEEK_CUR = 1, // Seek relative to the current file position
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LFS_SEEK_END = 2, // Seek relative to the end of the file
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};
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// Configuration provided during initialization of the littlefs
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struct lfs_config {
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// Opaque user provided context that can be used to pass
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// information to the block device operations
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void *context;
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// Read a region in a block. Negative error codes are propogated
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// to the user.
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int (*read)(const struct lfs_config *c, lfs_block_t block,
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lfs_off_t off, void *buffer, lfs_size_t size);
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// Program a region in a block. The block must have previously
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// been erased. Negative error codes are propogated to the user.
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// May return LFS_ERR_CORRUPT if the block should be considered bad.
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int (*prog)(const struct lfs_config *c, lfs_block_t block,
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lfs_off_t off, const void *buffer, lfs_size_t size);
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// Erase a block. A block must be erased before being programmed.
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// The state of an erased block is undefined. Negative error codes
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// are propogated to the user.
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// May return LFS_ERR_CORRUPT if the block should be considered bad.
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int (*erase)(const struct lfs_config *c, lfs_block_t block);
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// Sync the state of the underlying block device. Negative error codes
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// are propogated to the user.
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int (*sync)(const struct lfs_config *c);
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// Minimum size of a block read. All read operations will be a
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// multiple of this value.
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lfs_size_t read_size;
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// Minimum size of a block program. All program operations will be a
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// multiple of this value.
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lfs_size_t prog_size;
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// Size of an erasable block. This does not impact ram consumption and
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// may be larger than the physical erase size. However, this should be
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// kept small as each file currently takes up an entire block.
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// Must be a multiple of the read, program, and cache sizes.
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lfs_size_t block_size;
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// Number of erasable blocks on the device.
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lfs_size_t block_count;
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// Number of erase cycles before we should move data to another block.
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// May be zero to never move data, in which case no block-level
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// wear-leveling is performed.
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uint32_t block_cycles;
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// Size of block caches. Each cache buffers a portion of a block in RAM.
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// This determines the size of the read cache, the program cache, and a
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// cache per file. Larger caches can improve performance by storing more
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// data. Must be a multiple of the read and program sizes.
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lfs_size_t cache_size;
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// Number of blocks to lookahead during block allocation. A larger
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// lookahead reduces the number of passes required to allocate a block.
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// The lookahead buffer requires only 1 bit per block so it can be quite
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// large with little ram impact. Should be a multiple of 32.
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lfs_size_t lookahead;
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// Optional, statically allocated read buffer. Must be read sized.
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void *read_buffer;
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// Optional, statically allocated program buffer. Must be program sized.
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void *prog_buffer;
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// Optional, statically allocated lookahead buffer. Must be 1 bit per
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// lookahead block.
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void *lookahead_buffer;
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// Optional upper limit on file attributes in bytes. No downside for larger
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// attributes size but must be less than LFS_ATTR_MAX. Defaults to
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// LFS_ATTR_MAX when zero.Stored in superblock and must be respected by
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// other littlefs drivers.
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lfs_size_t attr_max;
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// Optional upper limit on length of file names in bytes. No downside for
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// larger names except the size of the info struct which is controlled by
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// the LFS_NAME_MAX define. Defaults to LFS_NAME_MAX when zero. Stored in
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// superblock and must be respected by other littlefs drivers.
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lfs_size_t name_max;
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// Optional upper limit on inlined files in bytes. Large inline files
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// require a larger cache size, but if a file can be inlined it does not
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// need its own data block. Must be smaller than cache_size and less than
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// LFS_INLINE_MAX. Defaults to min(LFS_INLINE_MAX, read_size) when zero.
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// Stored in superblock and must be respected by other littlefs drivers.
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lfs_size_t inline_max;
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};
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// File info structure
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struct lfs_info {
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// Type of the file, either LFS_TYPE_REG or LFS_TYPE_DIR
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uint8_t type;
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// Size of the file, only valid for REG files
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lfs_size_t size;
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// Name of the file stored as a null-terminated string
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char name[LFS_NAME_MAX+1];
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};
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// Custom attribute structure
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struct lfs_attr {
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// 8-bit type of attribute, provided by user and used to
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// identify the attribute
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uint8_t type;
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// Pointer to buffer containing the attribute
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void *buffer;
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// Size of attribute in bytes, limited to LFS_ATTR_MAX
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lfs_size_t size;
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// Pointer to next attribute in linked list
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struct lfs_attr *next;
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};
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// Optional configuration provided during lfs_file_opencfg
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struct lfs_file_config {
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// Optional, statically allocated buffer for files. Must be program sized.
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// If NULL, malloc will be used by default.
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void *buffer;
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// Optional, linked list of custom attributes related to the file. If the
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// file is opened with read access, the attributes will be read from
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// during the open call. If the file is opened with write access, the
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// attributes will be written to disk every file sync or close. This
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// write occurs atomically with update to the file's contents.
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//
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// Custom attributes are uniquely identified by an 8-bit type and limited
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// to LFS_ATTR_MAX bytes. When read, if the stored attribute is smaller
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// than the buffer, it will be padded with zeros. If the stored attribute
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// is larger, then it will be silently truncated. If the attribute is not
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// found, it will be created implicitly.
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struct lfs_attr *attrs;
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};
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/// littlefs data structures ///
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typedef struct lfs_mattr {
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int32_t tag;
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const void *buffer;
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const struct lfs_mattr *next;
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} lfs_mattr_t;
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typedef struct lfs_cache {
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lfs_block_t block;
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lfs_off_t off;
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lfs_size_t size;
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uint8_t *buffer;
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} lfs_cache_t;
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typedef union lfs_global {
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uint32_t u32[3];
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struct {
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lfs_block_t movepair[2];
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uint16_t moveid;
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uint8_t deorphaned;
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} l;
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struct {
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lfs_block_t movepair[2];
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uint16_t moveid;
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uint8_t orphans;
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} g;
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} lfs_global_t;
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typedef struct lfs_mdir {
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lfs_block_t pair[2];
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uint32_t rev;
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uint32_t etag;
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lfs_off_t off;
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uint16_t count;
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bool erased;
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bool split;
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lfs_block_t tail[2];
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lfs_global_t locals;
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} lfs_mdir_t;
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typedef struct lfs_mlist {
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struct lfs_mlist *next;
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uint16_t id;
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uint8_t type;
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lfs_mdir_t m;
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} lfs_mlist_t;
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typedef struct lfs_dir {
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struct lfs_dir *next;
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uint16_t id;
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uint8_t type;
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lfs_mdir_t m;
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lfs_off_t pos;
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lfs_block_t head[2];
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} lfs_dir_t;
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typedef struct lfs_file {
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struct lfs_file *next;
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uint16_t id;
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uint8_t type;
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lfs_mdir_t m;
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struct lfs_ctz {
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lfs_block_t head;
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lfs_size_t size;
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} ctz;
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uint32_t flags;
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lfs_off_t pos;
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lfs_block_t block;
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lfs_off_t off;
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lfs_cache_t cache;
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const struct lfs_file_config *cfg;
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} lfs_file_t;
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typedef struct lfs_superblock {
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char magic[8];
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uint32_t version;
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lfs_size_t block_size;
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lfs_size_t block_count;
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lfs_size_t attr_max;
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lfs_size_t name_max;
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lfs_size_t inline_max;
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} lfs_superblock_t;
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typedef struct lfs_free {
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lfs_block_t off;
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lfs_block_t size;
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lfs_block_t i;
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lfs_block_t ack;
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uint32_t *buffer;
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} lfs_free_t;
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// The littlefs type
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typedef struct lfs {
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lfs_cache_t rcache;
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lfs_cache_t pcache;
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lfs_block_t root[2];
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lfs_mlist_t *mlist;
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uint32_t seed;
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lfs_global_t globals;
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lfs_global_t locals;
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lfs_free_t free;
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const struct lfs_config *cfg;
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lfs_size_t block_size;
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lfs_size_t block_count;
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lfs_size_t attr_max;
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lfs_size_t name_max;
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lfs_size_t inline_max;
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} lfs_t;
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/// Filesystem functions ///
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// Format a block device with the littlefs
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//
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// Requires a littlefs object and config struct. This clobbers the littlefs
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// object, and does not leave the filesystem mounted. The config struct must
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// be zeroed for defaults and backwards compatibility.
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//
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// Returns a negative error code on failure.
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int lfs_format(lfs_t *lfs, const struct lfs_config *config);
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// Mounts a littlefs
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//
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// Requires a littlefs object and config struct. Multiple filesystems
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// may be mounted simultaneously with multiple littlefs objects. Both
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// lfs and config must be allocated while mounted. The config struct must
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// be zeroed for defaults and backwards compatibility.
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//
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// Returns a negative error code on failure.
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int lfs_mount(lfs_t *lfs, const struct lfs_config *config);
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// Unmounts a littlefs
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//
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// Does nothing besides releasing any allocated resources.
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// Returns a negative error code on failure.
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int lfs_unmount(lfs_t *lfs);
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/// General operations ///
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// Removes a file or directory
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//
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// If removing a directory, the directory must be empty.
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// Returns a negative error code on failure.
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int lfs_remove(lfs_t *lfs, const char *path);
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// Rename or move a file or directory
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//
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// If the destination exists, it must match the source in type.
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// If the destination is a directory, the directory must be empty.
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//
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// Returns a negative error code on failure.
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int lfs_rename(lfs_t *lfs, const char *oldpath, const char *newpath);
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// Find info about a file or directory
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//
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// Fills out the info structure, based on the specified file or directory.
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// Returns a negative error code on failure.
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int lfs_stat(lfs_t *lfs, const char *path, struct lfs_info *info);
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// Get a custom attribute
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//
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// Custom attributes are uniquely identified by an 8-bit type and limited
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// to LFS_ATTR_MAX bytes. When read, if the stored attribute is smaller than
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// the buffer, it will be padded with zeros. If the stored attribute is larger,
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// then it will be silently truncated.
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//
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// Returns the size of the attribute, or a negative error code on failure.
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// Note, the returned size is the size of the attribute on disk, irrespective
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// of the size of the buffer. This can be used to dynamically allocate a buffer
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// or check for existance.
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lfs_ssize_t lfs_getattr(lfs_t *lfs, const char *path,
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uint8_t type, void *buffer, lfs_size_t size);
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// Set custom attributes
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//
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// Custom attributes are uniquely identified by an 8-bit type and limited
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// to LFS_ATTR_MAX bytes. If an attribute is not found, it will be
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// implicitly created, and setting the size of an attribute to zero deletes
|
|
// the attribute.
|
|
//
|
|
// Returns a negative error code on failure.
|
|
int lfs_setattr(lfs_t *lfs, const char *path,
|
|
uint8_t type, const void *buffer, lfs_size_t size);
|
|
|
|
|
|
/// File operations ///
|
|
|
|
// Open a file
|
|
//
|
|
// The mode that the file is opened in is determined by the flags, which
|
|
// are values from the enum lfs_open_flags that are bitwise-ored together.
|
|
//
|
|
// Returns a negative error code on failure.
|
|
int lfs_file_open(lfs_t *lfs, lfs_file_t *file,
|
|
const char *path, int flags);
|
|
|
|
// Open a file with extra configuration
|
|
//
|
|
// The mode that the file is opened in is determined by the flags, which
|
|
// are values from the enum lfs_open_flags that are bitwise-ored together.
|
|
//
|
|
// The config struct provides additional config options per file as described
|
|
// above. The config struct must be allocated while the file is open, and the
|
|
// config struct must be zeroed for defaults and backwards compatibility.
|
|
//
|
|
// Returns a negative error code on failure.
|
|
int lfs_file_opencfg(lfs_t *lfs, lfs_file_t *file,
|
|
const char *path, int flags,
|
|
const struct lfs_file_config *config);
|
|
|
|
// Close a file
|
|
//
|
|
// Any pending writes are written out to storage as though
|
|
// sync had been called and releases any allocated resources.
|
|
//
|
|
// Returns a negative error code on failure.
|
|
int lfs_file_close(lfs_t *lfs, lfs_file_t *file);
|
|
|
|
// Synchronize a file on storage
|
|
//
|
|
// Any pending writes are written out to storage.
|
|
// Returns a negative error code on failure.
|
|
int lfs_file_sync(lfs_t *lfs, lfs_file_t *file);
|
|
|
|
// Read data from file
|
|
//
|
|
// Takes a buffer and size indicating where to store the read data.
|
|
// Returns the number of bytes read, or a negative error code on failure.
|
|
lfs_ssize_t lfs_file_read(lfs_t *lfs, lfs_file_t *file,
|
|
void *buffer, lfs_size_t size);
|
|
|
|
// Write data to file
|
|
//
|
|
// Takes a buffer and size indicating the data to write. The file will not
|
|
// actually be updated on the storage until either sync or close is called.
|
|
//
|
|
// Returns the number of bytes written, or a negative error code on failure.
|
|
lfs_ssize_t lfs_file_write(lfs_t *lfs, lfs_file_t *file,
|
|
const void *buffer, lfs_size_t size);
|
|
|
|
// Change the position of the file
|
|
//
|
|
// The change in position is determined by the offset and whence flag.
|
|
// Returns the old position of the file, or a negative error code on failure.
|
|
lfs_soff_t lfs_file_seek(lfs_t *lfs, lfs_file_t *file,
|
|
lfs_soff_t off, int whence);
|
|
|
|
// Truncates the size of the file to the specified size
|
|
//
|
|
// Returns a negative error code on failure.
|
|
int lfs_file_truncate(lfs_t *lfs, lfs_file_t *file, lfs_off_t size);
|
|
|
|
// Return the position of the file
|
|
//
|
|
// Equivalent to lfs_file_seek(lfs, file, 0, LFS_SEEK_CUR)
|
|
// Returns the position of the file, or a negative error code on failure.
|
|
lfs_soff_t lfs_file_tell(lfs_t *lfs, lfs_file_t *file);
|
|
|
|
// Change the position of the file to the beginning of the file
|
|
//
|
|
// Equivalent to lfs_file_seek(lfs, file, 0, LFS_SEEK_CUR)
|
|
// Returns a negative error code on failure.
|
|
int lfs_file_rewind(lfs_t *lfs, lfs_file_t *file);
|
|
|
|
// Return the size of the file
|
|
//
|
|
// Similar to lfs_file_seek(lfs, file, 0, LFS_SEEK_END)
|
|
// Returns the size of the file, or a negative error code on failure.
|
|
lfs_soff_t lfs_file_size(lfs_t *lfs, lfs_file_t *file);
|
|
|
|
|
|
/// Directory operations ///
|
|
|
|
// Create a directory
|
|
//
|
|
// Returns a negative error code on failure.
|
|
int lfs_mkdir(lfs_t *lfs, const char *path);
|
|
|
|
// Open a directory
|
|
//
|
|
// Once open a directory can be used with read to iterate over files.
|
|
// Returns a negative error code on failure.
|
|
int lfs_dir_open(lfs_t *lfs, lfs_dir_t *dir, const char *path);
|
|
|
|
// Close a directory
|
|
//
|
|
// Releases any allocated resources.
|
|
// Returns a negative error code on failure.
|
|
int lfs_dir_close(lfs_t *lfs, lfs_dir_t *dir);
|
|
|
|
// Read an entry in the directory
|
|
//
|
|
// Fills out the info structure, based on the specified file or directory.
|
|
// Returns a negative error code on failure.
|
|
int lfs_dir_read(lfs_t *lfs, lfs_dir_t *dir, struct lfs_info *info);
|
|
|
|
// Change the position of the directory
|
|
//
|
|
// The new off must be a value previous returned from tell and specifies
|
|
// an absolute offset in the directory seek.
|
|
//
|
|
// Returns a negative error code on failure.
|
|
int lfs_dir_seek(lfs_t *lfs, lfs_dir_t *dir, lfs_off_t off);
|
|
|
|
// Return the position of the directory
|
|
//
|
|
// The returned offset is only meant to be consumed by seek and may not make
|
|
// sense, but does indicate the current position in the directory iteration.
|
|
//
|
|
// Returns the position of the directory, or a negative error code on failure.
|
|
lfs_soff_t lfs_dir_tell(lfs_t *lfs, lfs_dir_t *dir);
|
|
|
|
// Change the position of the directory to the beginning of the directory
|
|
//
|
|
// Returns a negative error code on failure.
|
|
int lfs_dir_rewind(lfs_t *lfs, lfs_dir_t *dir);
|
|
|
|
|
|
/// Filesystem-level filesystem operations
|
|
|
|
// Finds the current size of the filesystem
|
|
//
|
|
// Note: Result is best effort. If files share COW structures, the returned
|
|
// size may be larger than the filesystem actually is.
|
|
//
|
|
// Returns the number of allocated blocks, or a negative error code on failure.
|
|
lfs_ssize_t lfs_fs_size(lfs_t *lfs);
|
|
|
|
// Traverse through all blocks in use by the filesystem
|
|
//
|
|
// The provided callback will be called with each block address that is
|
|
// currently in use by the filesystem. This can be used to determine which
|
|
// blocks are in use or how much of the storage is available.
|
|
//
|
|
// Returns a negative error code on failure.
|
|
int lfs_fs_traverse(lfs_t *lfs, int (*cb)(void*, lfs_block_t), void *data);
|
|
|
|
|
|
#ifdef __cplusplus
|
|
} /* extern "C" */
|
|
#endif
|
|
|
|
#endif
|