proxmark3/armsrc/spiffs.h

//-----------------------------------------------------------------------------
// Borrowed initially from https://github.com/pellepl/spiffs
// Copyright (c) 2013-2017 Peter Andersson (pelleplutt1976 at gmail.com)
// Copyright (C) Proxmark3 contributors. See AUTHORS.md for details.
//
// This program 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 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.
//
// See LICENSE.txt for the text of the license.
//-----------------------------------------------------------------------------

#ifndef SPIFFS_H_
#define SPIFFS_H_
#if defined(__cplusplus)
extern "C" {
#endif

#include "spiffs_config.h"

typedef enum spiffs_safety_level { RDV40_SPIFFS_SAFETY_NORMAL, RDV40_SPIFFS_SAFETY_LAZY, RDV40_SPIFFS_SAFETY_SAFE } RDV40SpiFFSSafetyLevel;

typedef enum spiffs_file_type {
    RDV40_SPIFFS_FILETYPE_REAL,
    RDV40_SPIFFS_FILETYPE_SYMLINK,
    RDV40_SPIFFS_FILETYPE_BOTH,
    RDV40_SPIFFS_FILETYPE_UNKNOWN
} RDV40SpiFFSFileType;

typedef struct rdv40_spiffs_fsinfo {
    uint32_t blockSize;
    uint32_t pageSize;
    uint32_t maxOpenFiles;
    uint32_t maxPathLength;
    uint32_t totalBytes, usedBytes, freeBytes;
    uint32_t usedPercent, freePercent;
} rdv40_spiffs_fsinfo;

int rdv40_spiffs_read_as_filetype(char *filename, uint8_t *dst, uint32_t size, RDV40SpiFFSSafetyLevel level);

int rdv40_spiffs_check(void);
int rdv40_spiffs_lazy_unmount(void);
int rdv40_spiffs_lazy_mount(void);
int rdv40_spiffs_lazy_mount_rollback(int changed);
int rdv40_spiffs_write(const char *filename, uint8_t *src, uint32_t size, RDV40SpiFFSSafetyLevel level);
int rdv40_spiffs_read(const char *filename, uint8_t *dst, uint32_t size, RDV40SpiFFSSafetyLevel level);
int rdv40_spiffs_rename(char *old_filename, char *new_filename, RDV40SpiFFSSafetyLevel level);
int rdv40_spiffs_remove(char *filename, RDV40SpiFFSSafetyLevel level);
int rdv40_spiffs_read_as_symlink(char *filename, uint8_t *dst, uint32_t size, RDV40SpiFFSSafetyLevel level);
void write_to_spiffs(const char *filename, uint8_t *src, uint32_t size);
void read_from_spiffs(const char *filename, uint8_t *dst, uint32_t size);
void test_spiffs(void);
void rdv40_spiffs_safe_print_tree(void);
int rdv40_spiffs_unmount(void);
int rdv40_spiffs_mount(void);
int rdv40_spiffs_is_symlink(const char *s);
void rdv40_spiffs_safe_print_fsinfo(void);
int rdv40_spiffs_make_symlink(char *linkdest, char *filename, RDV40SpiFFSSafetyLevel level);
void append_to_spiffs(const char *filename, uint8_t *src, uint32_t size);
int rdv40_spiffs_copy(char *src, char *dst, RDV40SpiFFSSafetyLevel level);
int rdv40_spiffs_append(const char *filename, uint8_t *src, uint32_t size, RDV40SpiFFSSafetyLevel level);
int rdv40_spiffs_stat(char *filename, uint32_t *buf, RDV40SpiFFSSafetyLevel level);
uint32_t size_in_spiffs(const char *filename);
int exists_in_spiffs(const char *filename);

void rdv40_spiffs_safe_wipe(void);

#define SPIFFS_OK                       0
#define SPIFFS_ERR_NOT_MOUNTED          -10000
#define SPIFFS_ERR_FULL                 -10001
#define SPIFFS_ERR_NOT_FOUND            -10002
#define SPIFFS_ERR_END_OF_OBJECT        -10003
#define SPIFFS_ERR_DELETED              -10004
#define SPIFFS_ERR_NOT_FINALIZED        -10005
#define SPIFFS_ERR_NOT_INDEX            -10006
#define SPIFFS_ERR_OUT_OF_FILE_DESCS    -10007
#define SPIFFS_ERR_FILE_CLOSED          -10008
#define SPIFFS_ERR_FILE_DELETED         -10009
#define SPIFFS_ERR_BAD_DESCRIPTOR       -10010
#define SPIFFS_ERR_IS_INDEX             -10011
#define SPIFFS_ERR_IS_FREE              -10012
#define SPIFFS_ERR_INDEX_SPAN_MISMATCH  -10013
#define SPIFFS_ERR_DATA_SPAN_MISMATCH   -10014
#define SPIFFS_ERR_INDEX_REF_FREE       -10015
#define SPIFFS_ERR_INDEX_REF_LU         -10016
#define SPIFFS_ERR_INDEX_REF_INVALID    -10017
#define SPIFFS_ERR_INDEX_FREE           -10018
#define SPIFFS_ERR_INDEX_LU             -10019
#define SPIFFS_ERR_INDEX_INVALID        -10020
#define SPIFFS_ERR_NOT_WRITABLE         -10021
#define SPIFFS_ERR_NOT_READABLE         -10022
#define SPIFFS_ERR_CONFLICTING_NAME     -10023
#define SPIFFS_ERR_NOT_CONFIGURED       -10024

#define SPIFFS_ERR_NOT_A_FS             -10025
#define SPIFFS_ERR_MOUNTED              -10026
#define SPIFFS_ERR_ERASE_FAIL           -10027
#define SPIFFS_ERR_MAGIC_NOT_POSSIBLE   -10028

#define SPIFFS_ERR_NO_DELETED_BLOCKS    -10029

#define SPIFFS_ERR_FILE_EXISTS          -10030

#define SPIFFS_ERR_NOT_A_FILE           -10031
#define SPIFFS_ERR_RO_NOT_IMPL          -10032
#define SPIFFS_ERR_RO_ABORTED_OPERATION -10033
#define SPIFFS_ERR_PROBE_TOO_FEW_BLOCKS -10034
#define SPIFFS_ERR_PROBE_NOT_A_FS       -10035
#define SPIFFS_ERR_NAME_TOO_LONG        -10036

#define SPIFFS_ERR_IX_MAP_UNMAPPED      -10037
#define SPIFFS_ERR_IX_MAP_MAPPED        -10038
#define SPIFFS_ERR_IX_MAP_BAD_RANGE     -10039

#define SPIFFS_ERR_SEEK_BOUNDS          -10040


#define SPIFFS_ERR_INTERNAL             -10050

#define SPIFFS_ERR_TEST                 -10100


// spiffs file descriptor index type. must be signed
typedef s16_t spiffs_file;
// spiffs file descriptor flags
typedef u16_t spiffs_flags;
// spiffs file mode
typedef u16_t spiffs_mode;
// object type
typedef u8_t spiffs_obj_type;

struct spiffs_t;

#if SPIFFS_HAL_CALLBACK_EXTRA

/* spi read call function type */
typedef s32_t (*spiffs_read)(struct spiffs_t *fs, u32_t addr, u32_t size, u8_t *dst);
/* spi write call function type */
typedef s32_t (*spiffs_write)(struct spiffs_t *fs, u32_t addr, u32_t size, u8_t *src);
/* spi erase call function type */
typedef s32_t (*spiffs_erase)(struct spiffs_t *fs, u32_t addr, u32_t size);

#else // SPIFFS_HAL_CALLBACK_EXTRA

/* spi read call function type */
typedef s32_t (*spiffs_read)(u32_t addr, u32_t size, u8_t *dst);
/* spi write call function type */
typedef s32_t (*spiffs_write)(u32_t addr, u32_t size, u8_t *src);
/* spi erase call function type */
typedef s32_t (*spiffs_erase)(u32_t addr, u32_t size);
#endif // SPIFFS_HAL_CALLBACK_EXTRA

/* file system check callback report operation */
typedef enum {
    SPIFFS_CHECK_LOOKUP = 0,
    SPIFFS_CHECK_INDEX,
    SPIFFS_CHECK_PAGE
} spiffs_check_type;

/* file system check callback report type */
typedef enum {
    SPIFFS_CHECK_PROGRESS = 0,
    SPIFFS_CHECK_ERROR,
    SPIFFS_CHECK_FIX_INDEX,
    SPIFFS_CHECK_FIX_LOOKUP,
    SPIFFS_CHECK_DELETE_ORPHANED_INDEX,
    SPIFFS_CHECK_DELETE_PAGE,
    SPIFFS_CHECK_DELETE_BAD_FILE
} spiffs_check_report;

/* file system check callback function */
#if SPIFFS_HAL_CALLBACK_EXTRA
typedef void (*spiffs_check_callback)(struct spiffs_t *fs, spiffs_check_type type, spiffs_check_report report,
                                      u32_t arg1, u32_t arg2);
#else // SPIFFS_HAL_CALLBACK_EXTRA
typedef void (*spiffs_check_callback)(spiffs_check_type type, spiffs_check_report report,
                                      u32_t arg1, u32_t arg2);
#endif // SPIFFS_HAL_CALLBACK_EXTRA

/* file system listener callback operation */
typedef enum {
    /* the file has been created */
    SPIFFS_CB_CREATED = 0,
    /* the file has been updated or moved to another page */
    SPIFFS_CB_UPDATED,
    /* the file has been deleted */
    SPIFFS_CB_DELETED
} spiffs_fileop_type;

/* file system listener callback function */
typedef void (*spiffs_file_callback)(struct spiffs_t *fs, spiffs_fileop_type op, spiffs_obj_id obj_id, spiffs_page_ix pix);

#ifndef SPIFFS_DBG
#define SPIFFS_DBG(...) \
    printf(__VA_ARGS__)
#endif
#ifndef SPIFFS_GC_DBG
#define SPIFFS_GC_DBG(...) printf(__VA_ARGS__)
#endif
#ifndef SPIFFS_CACHE_DBG
#define SPIFFS_CACHE_DBG(...) printf(__VA_ARGS__)
#endif
#ifndef SPIFFS_CHECK_DBG
#define SPIFFS_CHECK_DBG(...) printf(__VA_ARGS__)
#endif

/* Any write to the filehandle is appended to end of the file */
#define SPIFFS_APPEND                   (1<<0)
#define SPIFFS_O_APPEND                 SPIFFS_APPEND
/* If the opened file exists, it will be truncated to zero length before opened */
#define SPIFFS_TRUNC                    (1<<1)
#define SPIFFS_O_TRUNC                  SPIFFS_TRUNC
/* If the opened file does not exist, it will be created before opened */
#define SPIFFS_CREAT                    (1<<2)
#define SPIFFS_O_CREAT                  SPIFFS_CREAT
/* The opened file may only be read */
#define SPIFFS_RDONLY                   (1<<3)
#define SPIFFS_O_RDONLY                 SPIFFS_RDONLY
/* The opened file may only be written */
#define SPIFFS_WRONLY                   (1<<4)
#define SPIFFS_O_WRONLY                 SPIFFS_WRONLY
/* The opened file may be both read and written */
#define SPIFFS_RDWR                     (SPIFFS_RDONLY | SPIFFS_WRONLY)
#define SPIFFS_O_RDWR                   SPIFFS_RDWR
/* Any writes to the filehandle will never be cached but flushed directly */
#define SPIFFS_DIRECT                   (1<<5)
#define SPIFFS_O_DIRECT                 SPIFFS_DIRECT
/* If SPIFFS_O_CREAT and SPIFFS_O_EXCL are set, SPIFFS_open() shall fail if the file exists */
#define SPIFFS_EXCL                     (1<<6)
#define SPIFFS_O_EXCL                   SPIFFS_EXCL

#define SPIFFS_SEEK_SET                 (0)
#define SPIFFS_SEEK_CUR                 (1)
#define SPIFFS_SEEK_END                 (2)

#define SPIFFS_TYPE_FILE                (1)
#define SPIFFS_TYPE_DIR                 (2)
#define SPIFFS_TYPE_HARD_LINK           (3)
#define SPIFFS_TYPE_SOFT_LINK           (4)

#ifndef SPIFFS_LOCK
#define SPIFFS_LOCK(fs)
#endif

#ifndef SPIFFS_UNLOCK
#define SPIFFS_UNLOCK(fs)
#endif

// phys structs

// spiffs spi configuration struct
typedef struct {
    // physical read function
    spiffs_read hal_read_f;
    // physical write function
    spiffs_write hal_write_f;
    // physical erase function
    spiffs_erase hal_erase_f;
#if SPIFFS_SINGLETON == 0
    // physical size of the spi flash
    u32_t phys_size;
    // physical offset in spi flash used for spiffs,
    // must be on block boundary
    u32_t phys_addr;
    // physical size when erasing a block
    u32_t phys_erase_block;

    // logical size of a block, must be on physical
    // block size boundary and must never be less than
    // a physical block
    u32_t log_block_size;
    // logical size of a page, must be at least
    // log_block_size / 8
    u32_t log_page_size;

#endif
#if SPIFFS_FILEHDL_OFFSET
    // an integer offset added to each file handle
    u16_t fh_ix_offset;
#endif
} spiffs_config;

typedef struct spiffs_t {
    // file system configuration
    spiffs_config cfg;
    // number of logical blocks
    u32_t block_count;

    // cursor for free blocks, block index
    spiffs_block_ix free_cursor_block_ix;
    // cursor for free blocks, entry index
    int free_cursor_obj_lu_entry;
    // cursor when searching, block index
    spiffs_block_ix cursor_block_ix;
    // cursor when searching, entry index
    int cursor_obj_lu_entry;

    // primary work buffer, size of a logical page
    u8_t *lu_work;
    // secondary work buffer, size of a logical page
    u8_t *work;
    // file descriptor memory area
    u8_t *fd_space;
    // available file descriptors
    u32_t fd_count;

    // last error
    s32_t err_code;

    // current number of free blocks
    u32_t free_blocks;
    // current number of busy pages
    u32_t stats_p_allocated;
    // current number of deleted pages
    u32_t stats_p_deleted;
    // flag indicating that garbage collector is cleaning
    u8_t cleaning;
    // max erase count amongst all blocks
    spiffs_obj_id max_erase_count;

#if SPIFFS_GC_STATS
    u32_t stats_gc_runs;
#endif

#if SPIFFS_CACHE
    // cache memory
    void *cache;
    // cache size
    u32_t cache_size;
#if SPIFFS_CACHE_STATS
    u32_t cache_hits;
    u32_t cache_misses;
#endif
#endif

    // check callback function
    spiffs_check_callback check_cb_f;
    // file callback function
    spiffs_file_callback file_cb_f;
    // mounted flag
    u8_t mounted;
    // user data
    void *user_data;
    // config magic
    u32_t config_magic;
} spiffs;

/* spiffs file status struct */
typedef struct {
    spiffs_obj_id obj_id;
    u32_t size;
    spiffs_obj_type type;
    spiffs_page_ix pix;
    u8_t name[SPIFFS_OBJ_NAME_LEN];
#if SPIFFS_OBJ_META_LEN
    u8_t meta[SPIFFS_OBJ_META_LEN];
#endif
} spiffs_stat;

struct spiffs_dirent {
    spiffs_obj_id obj_id;
    u8_t name[SPIFFS_OBJ_NAME_LEN];
    spiffs_obj_type type;
    u32_t size;
    spiffs_page_ix pix;
#if SPIFFS_OBJ_META_LEN
    u8_t meta[SPIFFS_OBJ_META_LEN];
#endif
};

typedef struct {
    spiffs *fs;
    spiffs_block_ix block;
    int entry;
} spiffs_DIR;

#if SPIFFS_IX_MAP

typedef struct {
    // buffer with looked up data pixes
    spiffs_page_ix *map_buf;
    // precise file byte offset
    u32_t offset;
    // start data span index of lookup buffer
    spiffs_span_ix start_spix;
    // end data span index of lookup buffer
    spiffs_span_ix end_spix;
} spiffs_ix_map;

#endif

// functions

#if SPIFFS_USE_MAGIC && SPIFFS_USE_MAGIC_LENGTH && SPIFFS_SINGLETON==0
/**
 * Special function. This takes a spiffs config struct and returns the number
 * of blocks this file system was formatted with. This function relies on
 * that following info is set correctly in given config struct:
 *
 * phys_addr, log_page_size, and log_block_size.
 *
 * Also, hal_read_f must be set in the config struct.
 *
 * One must be sure of the correct page size and that the physical address is
 * correct in the probed file system when calling this function. It is not
 * checked if the phys_addr actually points to the start of the file system,
 * so one might get a false positive if entering a phys_addr somewhere in the
 * middle of the file system at block boundary. In addition, it is not checked
 * if the page size is actually correct. If it is not, weird file system sizes
 * will be returned.
 *
 * If this function detects a file system it returns the assumed file system
 * size, which can be used to set the phys_size.
 *
 * Otherwise, it returns an error indicating why it is not regarded as a file
 * system.
 *
 * Note: this function is not protected with SPIFFS_LOCK and SPIFFS_UNLOCK
 * macros. It returns the error code directly, instead of as read by
 * SPIFFS_errno.
 *
 * @param config        essential parts of the physical and logical
 *                      configuration of the file system.
 */
s32_t SPIFFS_probe_fs(spiffs_config *config);
#endif // SPIFFS_USE_MAGIC && SPIFFS_USE_MAGIC_LENGTH && SPIFFS_SINGLETON==0

/**
 * Initializes the file system dynamic parameters and mounts the filesystem.
 * If SPIFFS_USE_MAGIC is enabled the mounting may fail with SPIFFS_ERR_NOT_A_FS
 * if the flash does not contain a recognizable file system.
 * In this case, SPIFFS_format must be called prior to remounting.
 * @param fs            the file system struct
 * @param config        the physical and logical configuration of the file system
 * @param work          a memory work buffer comprising 2*config->log_page_size
 *                      bytes used throughout all file system operations
 * @param fd_space      memory for file descriptors
 * @param fd_space_size memory size of file descriptors
 * @param cache         memory for cache, may be null
 * @param cache_size    memory size of cache
 * @param check_cb_f    callback function for reporting during consistency checks
 */
s32_t SPIFFS_mount(spiffs *fs, spiffs_config *config, u8_t *work,
                   u8_t *fd_space, u32_t fd_space_size,
                   void *cache, u32_t cache_size,
                   spiffs_check_callback check_cb_f);

/**
 * Unmounts the file system. All file handles will be flushed of any
 * cached writes and closed.
 * @param fs            the file system struct
 */
void SPIFFS_unmount(spiffs *fs);

/**
 * Creates a new file.
 * @param fs            the file system struct
 * @param path          the path of the new file
 * @param mode          ignored, for posix compliance
 */
s32_t SPIFFS_creat(spiffs *fs, const char *path, spiffs_mode mode);

/**
 * Opens/creates a file.
 * @param fs            the file system struct
 * @param path          the path of the new file
 * @param flags         the flags for the open command, can be combinations of
 *                      SPIFFS_O_APPEND, SPIFFS_O_TRUNC, SPIFFS_O_CREAT, SPIFFS_O_RDONLY,
 *                      SPIFFS_O_WRONLY, SPIFFS_O_RDWR, SPIFFS_O_DIRECT, SPIFFS_O_EXCL
 * @param mode          ignored, for posix compliance
 */
spiffs_file SPIFFS_open(spiffs *fs, const char *path, spiffs_flags flags, spiffs_mode mode);

/**
 * Opens a file by given dir entry.
 * Optimization purposes, when traversing a file system with SPIFFS_readdir
 * a normal SPIFFS_open would need to traverse the filesystem again to find
 * the file, whilst SPIFFS_open_by_dirent already knows where the file resides.
 * @param fs            the file system struct
 * @param e             the dir entry to the file
 * @param flags         the flags for the open command, can be combinations of
 *                      SPIFFS_APPEND, SPIFFS_TRUNC, SPIFFS_CREAT, SPIFFS_RD_ONLY,
 *                      SPIFFS_WR_ONLY, SPIFFS_RDWR, SPIFFS_DIRECT.
 *                      SPIFFS_CREAT will have no effect in this case.
 * @param mode          ignored, for posix compliance
 */
spiffs_file SPIFFS_open_by_dirent(spiffs *fs, struct spiffs_dirent *e, spiffs_flags flags, spiffs_mode mode);

/**
 * Opens a file by given page index.
 * Optimization purposes, opens a file by directly pointing to the page
 * index in the spi flash.
 * If the page index does not point to a file header SPIFFS_ERR_NOT_A_FILE
 * is returned.
 * @param fs            the file system struct
 * @param page_ix       the page index
 * @param flags         the flags for the open command, can be combinations of
 *                      SPIFFS_APPEND, SPIFFS_TRUNC, SPIFFS_CREAT, SPIFFS_RD_ONLY,
 *                      SPIFFS_WR_ONLY, SPIFFS_RDWR, SPIFFS_DIRECT.
 *                      SPIFFS_CREAT will have no effect in this case.
 * @param mode          ignored, for posix compliance
 */
spiffs_file SPIFFS_open_by_page(spiffs *fs, spiffs_page_ix page_ix, spiffs_flags flags, spiffs_mode mode);

/**
 * Reads from given filehandle.
 * @param fs            the file system struct
 * @param fh            the filehandle
 * @param buf           where to put read data
 * @param len           how much to read
 * @returns number of bytes read, or -1 if error
 */
s32_t SPIFFS_read(spiffs *fs, spiffs_file fh, void *buf, s32_t len);

/**
 * Writes to given filehandle.
 * @param fs            the file system struct
 * @param fh            the filehandle
 * @param buf           the data to write
 * @param len           how much to write
 * @returns number of bytes written, or -1 if error
 */
s32_t SPIFFS_write(spiffs *fs, spiffs_file fh, void *buf, s32_t len);

/**
 * Moves the read/write file offset. Resulting offset is returned or negative if error.
 * lseek(fs, fd, 0, SPIFFS_SEEK_CUR) will thus return current offset.
 * @param fs            the file system struct
 * @param fh            the filehandle
 * @param offs          how much/where to move the offset
 * @param whence        if SPIFFS_SEEK_SET, the file offset shall be set to offset bytes
 *                      if SPIFFS_SEEK_CUR, the file offset shall be set to its current location plus offset
 *                      if SPIFFS_SEEK_END, the file offset shall be set to the size of the file plus offse, which should be negative
 */
s32_t SPIFFS_lseek(spiffs *fs, spiffs_file fh, s32_t offs, int whence);

/**
 * Removes a file by path
 * @param fs            the file system struct
 * @param path          the path of the file to remove
 */
s32_t SPIFFS_remove(spiffs *fs, const char *path);

/**
 * Removes a file by filehandle
 * @param fs            the file system struct
 * @param fh            the filehandle of the file to remove
 */
s32_t SPIFFS_fremove(spiffs *fs, spiffs_file fh);

/**
 * Gets file status by path
 * @param fs            the file system struct
 * @param path          the path of the file to stat
 * @param s             the stat struct to populate
 */
s32_t SPIFFS_stat(spiffs *fs, const char *path, spiffs_stat *s);

/**
 * Gets file status by filehandle
 * @param fs            the file system struct
 * @param fh            the filehandle of the file to stat
 * @param s             the stat struct to populate
 */
s32_t SPIFFS_fstat(spiffs *fs, spiffs_file fh, spiffs_stat *s);

/**
 * Flushes all pending write operations from cache for given file
 * @param fs            the file system struct
 * @param fh            the filehandle of the file to flush
 */
s32_t SPIFFS_fflush(spiffs *fs, spiffs_file fh);

/**
 * Closes a filehandle. If there are pending write operations, these are finalized before closing.
 * @param fs            the file system struct
 * @param fh            the filehandle of the file to close
 */
s32_t SPIFFS_close(spiffs *fs, spiffs_file fh);

/**
 * Renames a file
 * @param fs            the file system struct
 * @param old           path of file to rename
 * @param newPath       new path of file
 */
s32_t SPIFFS_rename(spiffs *fs, const char *old_path, const char *new_path);

#if SPIFFS_OBJ_META_LEN
/**
 * Updates file's metadata
 * @param fs            the file system struct
 * @param path          path to the file
 * @param meta          new metadata. must be SPIFFS_OBJ_META_LEN bytes long.
 */
s32_t SPIFFS_update_meta(spiffs *fs, const char *name, const void *meta);

/**
 * Updates file's metadata
 * @param fs            the file system struct
 * @param fh            file handle of the file
 * @param meta          new metadata. must be SPIFFS_OBJ_META_LEN bytes long.
 */
s32_t SPIFFS_fupdate_meta(spiffs *fs, spiffs_file fh, const void *meta);
#endif

/**
 * Returns last error of last file operation.
 * @param fs            the file system struct
 */
s32_t SPIFFS_errno(spiffs *fs);

/**
 * Clears last error.
 * @param fs            the file system struct
 */
void SPIFFS_clearerr(spiffs *fs);

/**
 * Opens a directory stream corresponding to the given name.
 * The stream is positioned at the first entry in the directory.
 * On hydrogen builds the name argument is ignored as hydrogen builds always correspond
 * to a flat file structure - no directories.
 * @param fs            the file system struct
 * @param name          the name of the directory
 * @param d             pointer the directory stream to be populated
 */
spiffs_DIR *SPIFFS_opendir(spiffs *fs, const char *name, spiffs_DIR *d);

/**
 * Closes a directory stream
 * @param d             the directory stream to close
 */
s32_t SPIFFS_closedir(spiffs_DIR *d);

/**
 * Reads a directory into given spifs_dirent struct.
 * @param d             pointer to the directory stream
 * @param e             the dirent struct to be populated
 * @returns null if error or end of stream, else given dirent is returned
 */
struct spiffs_dirent *SPIFFS_readdir(spiffs_DIR *d, struct spiffs_dirent *e);

/**
 * Runs a consistency check on given filesystem.
 * @param fs            the file system struct
 */
s32_t SPIFFS_check(spiffs *fs);

/**
 * Returns number of total bytes available and number of used bytes.
 * This is an estimation, and depends on if there a many files with little
 * data or few files with much data.
 * NB: If used number of bytes exceeds total bytes, a SPIFFS_check should
 * run. This indicates a power loss in midst of things. In worst case
 * (repeated powerlosses in mending or gc) you might have to delete some files.
 *
 * @param fs            the file system struct
 * @param total         total number of bytes in filesystem
 * @param used          used number of bytes in filesystem
 */
s32_t SPIFFS_info(spiffs *fs, u32_t *total, u32_t *used);

/**
 * Formats the entire file system. All data will be lost.
 * The filesystem must not be mounted when calling this.
 *
 * NB: formatting is awkward. Due to backwards compatibility, SPIFFS_mount
 * MUST be called prior to formatting in order to configure the filesystem.
 * If SPIFFS_mount succeeds, SPIFFS_unmount must be called before calling
 * SPIFFS_format.
 * If SPIFFS_mount fails, SPIFFS_format can be called directly without calling
 * SPIFFS_unmount first.
 *
 * @param fs            the file system struct
 */
s32_t SPIFFS_format(spiffs *fs);

/**
 * Returns nonzero if spiffs is mounted, or zero if unmounted.
 * @param fs            the file system struct
 */
u8_t SPIFFS_mounted(spiffs *fs);

/**
 * Tries to find a block where most or all pages are deleted, and erase that
 * block if found. Does not care for wear levelling. Will not move pages
 * around.
 * If parameter max_free_pages are set to 0, only blocks with only deleted
 * pages will be selected.
 *
 * NB: the garbage collector is automatically called when spiffs needs free
 * pages. The reason for this function is to give possibility to do background
 * tidying when user knows the system is idle.
 *
 * Use with care.
 *
 * Setting max_free_pages to anything larger than zero will eventually wear
 * flash more as a block containing free pages can be erased.
 *
 * Will set err_no to SPIFFS_OK if a block was found and erased,
 * SPIFFS_ERR_NO_DELETED_BLOCK if no matching block was found,
 * or other error.
 *
 * @param fs             the file system struct
 * @param max_free_pages maximum number allowed free pages in block
 */
s32_t SPIFFS_gc_quick(spiffs *fs, u16_t max_free_pages);

/**
 * Will try to make room for given amount of bytes in the filesystem by moving
 * pages and erasing blocks.
 * If it is physically impossible, err_no will be set to SPIFFS_ERR_FULL. If
 * there already is this amount (or more) of free space, SPIFFS_gc will
 * silently return. It is recommended to call SPIFFS_info before invoking
 * this method in order to determine what amount of bytes to give.
 *
 * NB: the garbage collector is automatically called when spiffs needs free
 * pages. The reason for this function is to give possibility to do background
 * tidying when user knows the system is idle.
 *
 * Use with care.
 *
 * @param fs            the file system struct
 * @param size          amount of bytes that should be freed
 */
s32_t SPIFFS_gc(spiffs *fs, u32_t size);

/**
 * Check if EOF reached.
 * @param fs            the file system struct
 * @param fh            the filehandle of the file to check
 */
s32_t SPIFFS_eof(spiffs *fs, spiffs_file fh);

/**
 * Get position in file.
 * @param fs            the file system struct
 * @param fh            the filehandle of the file to check
 */
s32_t SPIFFS_tell(spiffs *fs, spiffs_file fh);

/**
 * Registers a callback function that keeps track on operations on file
 * headers. Do note, that this callback is called from within internal spiffs
 * mechanisms. Any operations on the actual file system being callbacked from
 * in this callback will mess things up for sure - do not do this.
 * This can be used to track where files are and move around during garbage
 * collection, which in turn can be used to build location tables in ram.
 * Used in conjunction with SPIFFS_open_by_page this may improve performance
 * when opening a lot of files.
 * Must be invoked after mount.
 *
 * @param fs            the file system struct
 * @param cb_func       the callback on file operations
 */
s32_t SPIFFS_set_file_callback_func(spiffs *fs, spiffs_file_callback cb_func);

#if SPIFFS_IX_MAP

/**
 * Maps the first level index lookup to a given memory map.
 * This will make reading big files faster, as the memory map will be used for
 * looking up data pages instead of searching for the indices on the physical
 * medium. When mapping, all affected indicies are found and the information is
 * copied to the array.
 * Whole file or only parts of it may be mapped. The index map will cover file
 * contents from argument offset until and including arguments (offset+len).
 * It is valid to map a longer range than the current file size. The map will
 * then be populated when the file grows.
 * On garbage collections and file data page movements, the map array will be
 * automatically updated. Do not tamper with the map array, as this contains
 * the references to the data pages. Modifying it from outside will corrupt any
 * future readings using this file descriptor.
 * The map will no longer be used when the file descriptor closed or the file
 * is unmapped.
 * This can be useful to get faster and more deterministic timing when reading
 * large files, or when seeking and reading a lot within a file.
 * @param fs      the file system struct
 * @param fh      the file handle of the file to map
 * @param map     a spiffs_ix_map struct, describing the index map
 * @param offset  absolute file offset where to start the index map
 * @param len     length of the mapping in actual file bytes
 * @param map_buf the array buffer for the look up data - number of required
 *                elements in the array can be derived from function
 *                SPIFFS_bytes_to_ix_map_entries given the length
 */
s32_t SPIFFS_ix_map(spiffs *fs, spiffs_file fh, spiffs_ix_map *map,
                    u32_t offset, u32_t len, spiffs_page_ix *map_buf);

/**
 * Unmaps the index lookup from this filehandle. All future readings will
 * proceed as normal, requiring reading of the first level indices from
 * physical media.
 * The map and map buffer given in function SPIFFS_ix_map will no longer be
 * referenced by spiffs.
 * It is not strictly necessary to unmap a file before closing it, as closing
 * a file will automatically unmap it.
 * @param fs      the file system struct
 * @param fh      the file handle of the file to unmap
 */
s32_t SPIFFS_ix_unmap(spiffs *fs, spiffs_file fh);

/**
 * Moves the offset for the index map given in function SPIFFS_ix_map. Parts or
 * all of the map buffer will repopulated.
 * @param fs      the file system struct
 * @param fh      the mapped file handle of the file to remap
 * @param offset  new absolute file offset where to start the index map
 */
s32_t SPIFFS_ix_remap(spiffs *fs, spiffs_file fh, u32_t offset);

/**
 * Utility function to get number of spiffs_page_ix entries a map buffer must
 * contain on order to map given amount of file data in bytes.
 * See function SPIFFS_ix_map and SPIFFS_ix_map_entries_to_bytes.
 * @param fs      the file system struct
 * @param bytes   number of file data bytes to map
 * @return        needed number of elements in a spiffs_page_ix array needed to
 *                map given amount of bytes in a file
 */
s32_t SPIFFS_bytes_to_ix_map_entries(spiffs *fs, u32_t bytes);

/**
 * Utility function to amount of file data bytes that can be mapped when
 * mapping a file with buffer having given number of spiffs_page_ix entries.
 * See function SPIFFS_ix_map and SPIFFS_bytes_to_ix_map_entries.
 * @param fs      the file system struct
 * @param map_page_ix_entries   number of entries in a spiffs_page_ix array
 * @return        amount of file data in bytes that can be mapped given a map
 *                buffer having given amount of spiffs_page_ix entries
 */
s32_t SPIFFS_ix_map_entries_to_bytes(spiffs *fs, u32_t map_page_ix_entries);

#endif // SPIFFS_IX_MAP


#if SPIFFS_TEST_VISUALISATION
/**
 * Prints out a visualization of the filesystem.
 * @param fs            the file system struct
 */
s32_t SPIFFS_vis(spiffs *fs);
#endif

#if SPIFFS_BUFFER_HELP
/**
 * Returns number of bytes needed for the filedescriptor buffer given
 * amount of file descriptors.
 */
u32_t SPIFFS_buffer_bytes_for_filedescs(spiffs *fs, u32_t num_descs);

#if SPIFFS_CACHE
/**
 * Returns number of bytes needed for the cache buffer given
 * amount of cache pages.
 */
u32_t SPIFFS_buffer_bytes_for_cache(spiffs *fs, u32_t num_pages);
#endif
#endif

#if SPIFFS_CACHE
#endif
#if defined(__cplusplus)
}
#endif

#endif /* SPIFFS_H_ */