include/zephyr/fs/fs.h - third_party/github/zephyrproject-rtos/zephyr - Git at Google

 /*
  * Copyright (c) 2016 Intel Corporation.
  * Copyright (c) 2020-2021 Nordic Semiconductor ASA
  *
  * SPDX-License-Identifier: Apache-2.0
  */

 #ifndef ZEPHYR_INCLUDE_FS_FS_H_
 #define ZEPHYR_INCLUDE_FS_FS_H_

 #include <sys/types.h>

 #include <zephyr/sys/dlist.h>
 #include <zephyr/fs/fs_interface.h>

 #ifdef __cplusplus
 extern "C" {
 #endif

 /**
  * @brief File System APIs
  * @defgroup file_system_api File System APIs
  * @{
  */
 struct fs_file_system_t;

 enum fs_dir_entry_type {
 	/** Identifier for file entry */
 	FS_DIR_ENTRY_FILE = 0,
 	/** Identifier for directory entry */
 	FS_DIR_ENTRY_DIR
 };

 /** @brief Enumeration to uniquely identify file system types.
  *
  * Zephyr supports in-tree file systems and external ones.  Each
  * requires a unique identifier used to register the file system
  * implementation and to associate a mount point with the file system
  * type.  This anonymous enum defines global identifiers for the
  * in-tree file systems.
  *
  * External file systems should be registered using unique identifiers
  * starting at @c FS_TYPE_EXTERNAL_BASE.  It is the responsibility of
  * applications that use external file systems to ensure that these
  * identifiers are unique if multiple file system implementations are
  * used by the application.
  */
 enum {
 	/** Identifier for in-tree FatFS file system. */
 	FS_FATFS = 0,

 	/** Identifier for in-tree LittleFS file system. */
 	FS_LITTLEFS,

 	/** Base identifier for external file systems. */
 	FS_TYPE_EXTERNAL_BASE,
 };

 /** Flag prevents formatting device if requested file system not found */
 #define FS_MOUNT_FLAG_NO_FORMAT BIT(0)
 /** Flag makes mounted file system read-only */
 #define FS_MOUNT_FLAG_READ_ONLY BIT(1)
 /** Flag used in pre-defined mount structures that are to be mounted
  * on startup.
  *
  * This flag has no impact in user-defined mount structures.
  */
 #define FS_MOUNT_FLAG_AUTOMOUNT BIT(2)
 /** Flag requests file system driver to use Disk Access API. When the flag is
  * set to the fs_mount_t.flags prior to fs_mount call, a file system
  * needs to use the Disk Access API, otherwise mount callback for the driver
  * should return -ENOSUP; when the flag is not set the file system driver
  * should use Flash API by default, unless it only supports Disc Access API.
  * When file system will use Disk Access API and the flag is not set, the mount
  * callback for the file system should set the flag on success.
  */
 #define FS_MOUNT_FLAG_USE_DISK_ACCESS BIT(3)

 /**
  * @brief File system mount info structure
  *
  * @param node Entry for the fs_mount_list list
  * @param type File system type
  * @param mnt_point Mount point directory name (ex: "/fatfs")
  * @param fs_data Pointer to file system specific data
  * @param storage_dev Pointer to backend storage device
  * @param mountp_len Length of Mount point string
  * @param fs Pointer to File system interface of the mount point
  * @param flags Mount flags
  */
 struct fs_mount_t {
 	sys_dnode_t node;
 	int type;
 	const char *mnt_point;
 	void *fs_data;
 	void *storage_dev;
 	/* fields filled by file system core */
 	size_t mountp_len;
 	const struct fs_file_system_t *fs;
 	uint8_t flags;
 };

 /**
  * @brief Structure to receive file or directory information
  *
  * Used in functions that reads the directory entries to get
  * file or directory information.
  *
  * @param dir_entry_type Whether file or directory
  * - FS_DIR_ENTRY_FILE
  * - FS_DIR_ENTRY_DIR
  * @param name Name of directory or file
  * @param size Size of file. 0 if directory
  */
 struct fs_dirent {
 	enum fs_dir_entry_type type;
 	char name[MAX_FILE_NAME + 1];
 	size_t size;
 };

 /**
  * @brief Structure to receive volume statistics
  *
  * Used to retrieve information about total and available space
  * in the volume.
  *
  * @param f_bsize Optimal transfer block size
  * @param f_frsize Allocation unit size
  * @param f_blocks Size of FS in f_frsize units
  * @param f_bfree Number of free blocks
  */
 struct fs_statvfs {
 	unsigned long f_bsize;
 	unsigned long f_frsize;
 	unsigned long f_blocks;
 	unsigned long f_bfree;
 };


 /**
  * @name fs_open open and creation mode flags
  * @{
  */
 /** Open for read flag */
 #define FS_O_READ       0x01
 /** Open for write flag */
 #define FS_O_WRITE      0x02
 /** Open for read-write flag combination */
 #define FS_O_RDWR       (FS_O_READ | FS_O_WRITE)
 /** Bitmask for read and write flags */
 #define FS_O_MODE_MASK  0x03

 /** Create file if it does not exist */
 #define FS_O_CREATE     0x10
 /** Open/create file for append */
 #define FS_O_APPEND     0x20
 /** Bitmask for open/create flags */
 #define FS_O_FLAGS_MASK 0x30

 /** Bitmask for open flags */
 #define FS_O_MASK       (FS_O_MODE_MASK | FS_O_FLAGS_MASK)
 /**
  * @}
  */

 /**
  * @name fs_seek whence parameter values
  * @{
  */
 #ifndef FS_SEEK_SET
 /** Seek from the beginning of file */
 #define FS_SEEK_SET	0
 #endif
 #ifndef FS_SEEK_CUR
 /** Seek from a current position */
 #define FS_SEEK_CUR	1
 #endif
 #ifndef FS_SEEK_END
 /** Seek from the end of file */
 #define FS_SEEK_END	2
 #endif
 /**
  * @}
  */

 /*
  * @brief Get the common mount flags for an fstab entry.

  * @param node_id the node identifier for a child entry in a
  * zephyr,fstab node.
  * @return a value suitable for initializing an fs_mount_t flags
  * member.
  */
 #define FSTAB_ENTRY_DT_MOUNT_FLAGS(node_id)				\
 	((DT_PROP(node_id, automount) ? FS_MOUNT_FLAG_AUTOMOUNT : 0)	\
 	 | (DT_PROP(node_id, read_only) ? FS_MOUNT_FLAG_READ_ONLY : 0)	\
 	 | (DT_PROP(node_id, no_format) ? FS_MOUNT_FLAG_NO_FORMAT : 0)  \
 	 | (DT_PROP(node_id, disk_access) ? FS_MOUNT_FLAG_USE_DISK_ACCESS : 0))

 /**
  * @brief The name under which a zephyr,fstab entry mount structure is
  * defined.
  */
 #define FS_FSTAB_ENTRY(node_id) _CONCAT(z_fsmp_, node_id)

 /**
  * @brief Generate a declaration for the externally defined fstab
  * entry.
  *
  * This will evaluate to the name of a struct fs_mount_t object.
  */
 #define FS_FSTAB_DECLARE_ENTRY(node_id)		\
 	extern struct fs_mount_t FS_FSTAB_ENTRY(node_id)

 /**
  * @brief Initialize fs_file_t object
  *
  * Initializes the fs_file_t object; the function needs to be invoked
  * on object before first use with fs_open.
  *
  * @param zfp Pointer to file object
  *
  */
 static inline void fs_file_t_init(struct fs_file_t *zfp)
 {
 	*zfp = (struct fs_file_t){ 0 };
 }

 /**
  * @brief Initialize fs_dir_t object
  *
  * Initializes the fs_dir_t object; the function needs to be invoked
  * on object before first use with fs_opendir.
  *
  * @param zdp Pointer to file object
  *
  */
 static inline void fs_dir_t_init(struct fs_dir_t *zdp)
 {
 	*zdp = (struct fs_dir_t){ 0 };
 }

 /**
  * @brief Open or create file
  *
  * Opens or possibly creates a file and associates a stream with it.
  *
  * @details
  * @p flags can be 0 or a binary combination of one or more of the following
  * identifiers:
  *   - @c FS_O_READ open for read
  *   - @c FS_O_WRITE open for write
  *   - @c FS_O_RDWR open for read/write (<tt>FS_O_READ | FS_O_WRITE</tt>)
  *   - @c FS_O_CREATE create file if it does not exist
  *   - @c FS_O_APPEND move to end of file before each write
  *
  * If @p flags are set to 0 the function will attempt to open an existing file
  * with no read/write access; this may be used to e.g. check if the file exists.
  *
  * @param zfp Pointer to a file object
  * @param file_name The name of a file to open
  * @param flags The mode flags
  *
  * @retval 0 on success;
  * @retval -EBUSY when zfp is already used;
  * @retval -EINVAL when a bad file name is given;
  * @retval -EROFS when opening read-only file for write, or attempting to
  *	   create a file on a system that has been mounted with the
  *	   FS_MOUNT_FLAG_READ_ONLY flag;
  * @retval -ENOENT when the file path is not possible (bad mount point);
  * @retval -ENOTSUP when not implemented by underlying file system driver;
  * @retval <0 an other negative errno code, depending on a file system back-end.
  */
 int fs_open(struct fs_file_t *zfp, const char *file_name, fs_mode_t flags);

 /**
  * @brief Close file
  *
  * Flushes the associated stream and closes the file.
  *
  * @param zfp Pointer to the file object
  *
  * @retval 0 on success;
  * @retval -ENOTSUP when not implemented by underlying file system driver;
  * @retval <0 a negative errno code on error.
  */
 int fs_close(struct fs_file_t *zfp);

 /**
  * @brief Unlink file
  *
  * Deletes the specified file or directory
  *
  * @param path Path to the file or directory to delete
  *
  * @retval 0 on success;
  * @retval -EINVAL when a bad file name is given;
  * @retval -EROFS if file is read-only, or when file system has been mounted
  *	   with the FS_MOUNT_FLAG_READ_ONLY flag;
  * @retval -ENOTSUP when not implemented by underlying file system driver;
  * @retval <0 an other negative errno code on error.
  */
 int fs_unlink(const char *path);

 /**
  * @brief Rename file or directory
  *
  * Performs a rename and / or move of the specified source path to the
  * specified destination.  The source path can refer to either a file or a
  * directory.  All intermediate directories in the destination path must
  * already exist.  If the source path refers to a file, the destination path
  * must contain a full filename path, rather than just the new parent
  * directory.  If an object already exists at the specified destination path,
  * this function causes it to be unlinked prior to the rename (i.e., the
  * destination gets clobbered).
  * @note Current implementation does not allow moving files between mount
  * points.
  *
  * @param from The source path
  * @param to The destination path
  *
  * @retval 0 on success;
  * @retval -EINVAL when a bad file name is given, or when rename would cause move
  *	   between mount points;
  * @retval -EROFS if file is read-only, or when file system has been mounted
  *	   with the FS_MOUNT_FLAG_READ_ONLY flag;
  * @retval -ENOTSUP when not implemented by underlying file system driver;
  * @retval <0 an other negative errno code on error.
  */
 int fs_rename(const char *from, const char *to);

 /**
  * @brief Read file
  *
  * Reads up to @p size bytes of data to @p ptr pointed buffer, returns number
  * of bytes read.  A returned value may be lower than @p size if there were
  * fewer bytes available than requested.
  *
  * @param zfp Pointer to the file object
  * @param ptr Pointer to the data buffer
  * @param size Number of bytes to be read
  *
  * @retval >=0 a number of bytes read, on success;
  * @retval -EBADF when invoked on zfp that represents unopened/closed file;
  * @retval -ENOTSUP when not implemented by underlying file system driver;
  * @retval <0 a negative errno code on error.
  */
 ssize_t fs_read(struct fs_file_t *zfp, void *ptr, size_t size);

 /**
  * @brief Write file
  *
  * Attempts to write @p size number of bytes to the specified file.
  * If a negative value is returned from the function, the file pointer has not
  * been advanced.
  * If the function returns a non-negative number that is lower than @p size,
  * the global @c errno variable should be checked for an error code,
  * as the device may have no free space for data.
  *
  * @param zfp Pointer to the file object
  * @param ptr Pointer to the data buffer
  * @param size Number of bytes to be written
  *
  * @retval >=0 a number of bytes written, on success;
  * @retval -EBADF when invoked on zfp that represents unopened/closed file;
  * @retval -ENOTSUP when not implemented by underlying file system driver;
  * @retval <0 an other negative errno code on error.
  */
 ssize_t fs_write(struct fs_file_t *zfp, const void *ptr, size_t size);

 /**
  * @brief Seek file
  *
  * Moves the file position to a new location in the file. The @p offset is added
  * to file position based on the @p whence parameter.
  *
  * @param zfp Pointer to the file object
  * @param offset Relative location to move the file pointer to
  * @param whence Relative location from where offset is to be calculated.
  * - @c FS_SEEK_SET for the beginning of the file;
  * - @c FS_SEEK_CUR for the current position;
  * - @c FS_SEEK_END for the end of the file.
  *
  * @retval 0 on success;
  * @retval -EBADF when invoked on zfp that represents unopened/closed file;
  * @retval -ENOTSUP if not supported by underlying file system driver;
  * @retval <0 an other negative errno code on error.
  */
 int fs_seek(struct fs_file_t *zfp, off_t offset, int whence);

 /**
  * @brief Get current file position.
  *
  * Retrieves and returns the current position in the file stream.
  *
  * @param zfp Pointer to the file object
  *
  * @retval >= 0 a current position in file;
  * @retval -EBADF when invoked on zfp that represents unopened/closed file;
  * @retval -ENOTSUP if not supported by underlying file system driver;
  * @retval <0 an other negative errno code on error.
  *
  * The current revision does not validate the file object.
  */
 off_t fs_tell(struct fs_file_t *zfp);

 /**
  * @brief Truncate or extend an open file to a given size
  *
  * Truncates the file to the new length if it is shorter than the current
  * size of the file. Expands the file if the new length is greater than the
  * current size of the file. The expanded region would be filled with zeroes.
  *
  * @note In the case of expansion, if the volume got full during the
  * expansion process, the function will expand to the maximum possible length
  * and return success.  Caller should check if the expanded size matches the
  * requested length.
  *
  * @param zfp Pointer to the file object
  * @param length New size of the file in bytes
  *
  * @retval 0 on success;
  * @retval -EBADF when invoked on zfp that represents unopened/closed file;
  * @retval -ENOTSUP when not implemented by underlying file system driver;
  * @retval <0 an other negative errno code on error.
  */
 int fs_truncate(struct fs_file_t *zfp, off_t length);

 /**
  * @brief Flush cached write data buffers of an open file
  *
  * The function flushes the cache of an open file; it can be invoked to ensure
  * data gets written to the storage media immediately, e.g. to avoid data loss
  * in case if power is removed unexpectedly.
  * @note Closing a file will cause caches to be flushed correctly so the
  * function need not be called when the file is being closed.
  *
  * @param zfp Pointer to the file object
  *
  * @retval 0 on success;
  * @retval -EBADF when invoked on zfp that represents unopened/closed file;
  * @retval -ENOTSUP when not implemented by underlying file system driver;
  * @retval <0 a negative errno code on error.
  */
 int fs_sync(struct fs_file_t *zfp);

 /**
  * @brief Directory create
  *
  * Creates a new directory using specified path.
  *
  * @param path Path to the directory to create
  *
  * @retval 0 on success;
  * @retval -EROFS if file is read-only, or when file system has been mounted
  *	   with the FS_MOUNT_FLAG_READ_ONLY flag;
  * @retval -ENOTSUP when not implemented by underlying file system driver;
  * @retval <0 an other negative errno code on error
  */
 int fs_mkdir(const char *path);

 /**
  * @brief Directory open
  *
  * Opens an existing directory specified by the path.
  *
  * @param zdp Pointer to the directory object
  * @param path Path to the directory to open
  *
  * @retval 0 on success;
  * @retval -EINVAL when a bad directory path is given;
  * @retval -EBUSY when zdp is already used;
  * @retval -ENOTSUP when not implemented by underlying file system driver;
  * @retval <0 a negative errno code on error.
  */
 int fs_opendir(struct fs_dir_t *zdp, const char *path);

 /**
  * @brief Directory read entry
  *
  * Reads directory entries of an open directory. In end-of-dir condition,
  * the function will return 0 and set the <tt>entry->name[0]</tt> to 0.
  *
  * @note: Most existing underlying file systems do not generate POSIX
  * special directory entries "." or "..".  For consistency the
  * abstraction layer will remove these from lower layer results so
  * higher layers see consistent results.
  *
  * @param zdp Pointer to the directory object
  * @param entry Pointer to zfs_dirent structure to read the entry into
  *
  * @retval 0 on success or end-of-dir;
  * @retval -ENOENT when no such directory found;
  * @retval -ENOTSUP when not implemented by underlying file system driver;
  * @retval <0 a negative errno code on error.
  */
 int fs_readdir(struct fs_dir_t *zdp, struct fs_dirent *entry);

 /**
  * @brief Directory close
  *
  * Closes an open directory.
  *
  * @param zdp Pointer to the directory object
  *
  * @retval 0 on success;
  * @retval -ENOTSUP when not implemented by underlying file system driver;
  * @retval <0 a negative errno code on error.
  */
 int fs_closedir(struct fs_dir_t *zdp);

 /**
  * @brief Mount filesystem
  *
  * Perform steps needed for mounting a file system like
  * calling the file system specific mount function and adding
  * the mount point to mounted file system list.
  *
  * @note Current implementation of ELM FAT driver allows only following mount
  * points: "/RAM:","/NAND:","/CF:","/SD:","/SD2:","/USB:","/USB2:","/USB3:"
  * or mount points that consist of single digit, e.g: "/0:", "/1:" and so forth.
  *
  * @param mp Pointer to the fs_mount_t structure.  Referenced object
  *	     is not changed if the mount operation failed.
  *	     A reference is captured in the fs infrastructure if the
  *	     mount operation succeeds, and the application must not
  *	     mutate the structure contents until fs_unmount is
  *	     successfully invoked on the same pointer.
  *
  * @retval 0 on success;
  * @retval -ENOENT when file system type has not been registered;
  * @retval -ENOTSUP when not supported by underlying file system driver;
  *         when @c FS_MOUNT_FLAG_USE_DISK_ACCESS is set but driver does not
  *         support it.
  * @retval -EROFS if system requires formatting but @c FS_MOUNT_FLAG_READ_ONLY
  *	   has been set;
  * @retval <0 an other negative errno code on error.
  */
 int fs_mount(struct fs_mount_t *mp);

 /**
  * @brief Unmount filesystem
  *
  * Perform steps needed to unmount a file system like
  * calling the file system specific unmount function and removing
  * the mount point from mounted file system list.
  *
  * @param mp Pointer to the fs_mount_t structure
  *
  * @retval 0 on success;
  * @retval -EINVAL if no system has been mounted at given mount point;
  * @retval -ENOTSUP when not supported by underlying file system driver;
  * @retval <0 an other negative errno code on error.
  */
 int fs_unmount(struct fs_mount_t *mp);

 /**
  * @brief Get path of mount point at index
  *
  * This function iterates through the list of mount points and returns
  * the directory name of the mount point at the given @p index.
  * On success @p index is incremented and @p name is set to the mount directory
  * name.  If a mount point with the given @p index does not exist, @p name will
  * be set to @c NULL.
  *
  * @param index Pointer to mount point index
  * @param name Pointer to pointer to path name
  *
  * @retval 0 on success;
  * @retval -ENOENT if there is no mount point with given index.
  */
 int fs_readmount(int *index, const char **name);

 /**
  * @brief File or directory status
  *
  * Checks the status of a file or directory specified by the @p path.
  * @note The file on a storage device may not be updated until it is closed.
  *
  * @param path Path to the file or directory
  * @param entry Pointer to the zfs_dirent structure to fill if the file or
  * directory exists.
  *
  * @retval 0 on success;
  * @retval -EINVAL when a bad directory or file name is given;
  * @retval -ENOENT when no such directory or file is found;
  * @retval -ENOTSUP when not supported by underlying file system driver;
  * @retval <0 negative errno code on error.
  */
 int fs_stat(const char *path, struct fs_dirent *entry);

 /**
  * @brief Retrieves statistics of the file system volume
  *
  * Returns the total and available space in the file system volume.
  *
  * @param path Path to the mounted directory
  * @param stat Pointer to the zfs_statvfs structure to receive the fs
  * statistics.
  *
  * @retval 0 on success;
  * @retval -EINVAL when a bad path to a directory, or a file, is given;
  * @retval -ENOTSUP when not implemented by underlying file system driver;
  * @retval <0 an other negative errno code on error.
  */
 int fs_statvfs(const char *path, struct fs_statvfs *stat);

 /**
  * @brief Register a file system
  *
  * Register file system with virtual file system.
  * Number of allowed file system types to be registered is controlled with the
  * CONFIG_FILE_SYSTEM_MAX_TYPES Kconfig option.
  *
  * @param type Type of file system (ex: @c FS_FATFS)
  * @param fs Pointer to File system
  *
  * @retval 0 on success;
  * @retval -EALREADY when a file system of a given type has already been registered;
  * @retval -ENOSCP when there is no space left, in file system registry, to add
  *	   this file system type.
  */
 int fs_register(int type, const struct fs_file_system_t *fs);

 /**
  * @brief Unregister a file system
  *
  * Unregister file system from virtual file system.
  *
  * @param type Type of file system (ex: @c FS_FATFS)
  * @param fs Pointer to File system
  *
  * @retval 0 on success;
  * @retval -EINVAL when file system of a given type has not been registered.
  */
 int fs_unregister(int type, const struct fs_file_system_t *fs);

 /**
  * @}
  */


 #ifdef __cplusplus
 }
 #endif

 #endif /* ZEPHYR_INCLUDE_FS_FS_H_ */
	/*
	* Copyright (c) 2016 Intel Corporation.
	* Copyright (c) 2020-2021 Nordic Semiconductor ASA
	*
	* SPDX-License-Identifier: Apache-2.0
	*/

	#ifndef ZEPHYR_INCLUDE_FS_FS_H_
	#define ZEPHYR_INCLUDE_FS_FS_H_

	#include <sys/types.h>

	#include <zephyr/sys/dlist.h>
	#include <zephyr/fs/fs_interface.h>

	#ifdef __cplusplus
	extern "C" {
	#endif

	/**
	* @brief File System APIs
	* @defgroup file_system_api File System APIs
	* @{
	*/
	struct fs_file_system_t;

	enum fs_dir_entry_type {
	/** Identifier for file entry */
	FS_DIR_ENTRY_FILE = 0,
	/** Identifier for directory entry */
	FS_DIR_ENTRY_DIR
	};

	/** @brief Enumeration to uniquely identify file system types.
	*
	* Zephyr supports in-tree file systems and external ones. Each
	* requires a unique identifier used to register the file system
	* implementation and to associate a mount point with the file system
	* type. This anonymous enum defines global identifiers for the
	* in-tree file systems.
	*
	* External file systems should be registered using unique identifiers
	* starting at @c FS_TYPE_EXTERNAL_BASE. It is the responsibility of
	* applications that use external file systems to ensure that these
	* identifiers are unique if multiple file system implementations are
	* used by the application.
	*/
	enum {
	/** Identifier for in-tree FatFS file system. */
	FS_FATFS = 0,

	/** Identifier for in-tree LittleFS file system. */
	FS_LITTLEFS,

	/** Base identifier for external file systems. */
	FS_TYPE_EXTERNAL_BASE,
	};

	/** Flag prevents formatting device if requested file system not found */
	#define FS_MOUNT_FLAG_NO_FORMAT BIT(0)
	/** Flag makes mounted file system read-only */
	#define FS_MOUNT_FLAG_READ_ONLY BIT(1)
	/** Flag used in pre-defined mount structures that are to be mounted
	* on startup.
	*
	* This flag has no impact in user-defined mount structures.
	*/
	#define FS_MOUNT_FLAG_AUTOMOUNT BIT(2)
	/** Flag requests file system driver to use Disk Access API. When the flag is
	* set to the fs_mount_t.flags prior to fs_mount call, a file system
	* needs to use the Disk Access API, otherwise mount callback for the driver
	* should return -ENOSUP; when the flag is not set the file system driver
	* should use Flash API by default, unless it only supports Disc Access API.
	* When file system will use Disk Access API and the flag is not set, the mount
	* callback for the file system should set the flag on success.
	*/
	#define FS_MOUNT_FLAG_USE_DISK_ACCESS BIT(3)

	/**
	* @brief File system mount info structure
	*
	* @param node Entry for the fs_mount_list list
	* @param type File system type
	* @param mnt_point Mount point directory name (ex: "/fatfs")
	* @param fs_data Pointer to file system specific data
	* @param storage_dev Pointer to backend storage device
	* @param mountp_len Length of Mount point string
	* @param fs Pointer to File system interface of the mount point
	* @param flags Mount flags
	*/
	struct fs_mount_t {
	sys_dnode_t node;
	int type;
	const char *mnt_point;
	void *fs_data;
	void *storage_dev;
	/* fields filled by file system core */
	size_t mountp_len;
	const struct fs_file_system_t *fs;
	uint8_t flags;
	};

	/**
	* @brief Structure to receive file or directory information
	*
	* Used in functions that reads the directory entries to get
	* file or directory information.
	*
	* @param dir_entry_type Whether file or directory
	* - FS_DIR_ENTRY_FILE
	* - FS_DIR_ENTRY_DIR
	* @param name Name of directory or file
	* @param size Size of file. 0 if directory
	*/
	struct fs_dirent {
	enum fs_dir_entry_type type;
	char name[MAX_FILE_NAME + 1];
	size_t size;
	};

	/**
	* @brief Structure to receive volume statistics
	*
	* Used to retrieve information about total and available space
	* in the volume.
	*
	* @param f_bsize Optimal transfer block size
	* @param f_frsize Allocation unit size
	* @param f_blocks Size of FS in f_frsize units
	* @param f_bfree Number of free blocks
	*/
	struct fs_statvfs {
	unsigned long f_bsize;
	unsigned long f_frsize;
	unsigned long f_blocks;
	unsigned long f_bfree;
	};


	/**
	* @name fs_open open and creation mode flags
	* @{
	*/
	/** Open for read flag */
	#define FS_O_READ 0x01
	/** Open for write flag */
	#define FS_O_WRITE 0x02
	/** Open for read-write flag combination */
	#define FS_O_RDWR (FS_O_READ \| FS_O_WRITE)
	/** Bitmask for read and write flags */
	#define FS_O_MODE_MASK 0x03

	/** Create file if it does not exist */
	#define FS_O_CREATE 0x10
	/** Open/create file for append */
	#define FS_O_APPEND 0x20
	/** Bitmask for open/create flags */
	#define FS_O_FLAGS_MASK 0x30

	/** Bitmask for open flags */
	#define FS_O_MASK (FS_O_MODE_MASK \| FS_O_FLAGS_MASK)
	/**
	* @}
	*/

	/**
	* @name fs_seek whence parameter values
	* @{
	*/
	#ifndef FS_SEEK_SET
	/** Seek from the beginning of file */
	#define FS_SEEK_SET 0
	#endif
	#ifndef FS_SEEK_CUR
	/** Seek from a current position */
	#define FS_SEEK_CUR 1
	#endif
	#ifndef FS_SEEK_END
	/** Seek from the end of file */
	#define FS_SEEK_END 2
	#endif
	/**
	* @}
	*/

	/*
	* @brief Get the common mount flags for an fstab entry.

	* @param node_id the node identifier for a child entry in a
	* zephyr,fstab node.
	* @return a value suitable for initializing an fs_mount_t flags
	* member.
	*/
	#define FSTAB_ENTRY_DT_MOUNT_FLAGS(node_id) \
	((DT_PROP(node_id, automount) ? FS_MOUNT_FLAG_AUTOMOUNT : 0) \
	\| (DT_PROP(node_id, read_only) ? FS_MOUNT_FLAG_READ_ONLY : 0) \
	\| (DT_PROP(node_id, no_format) ? FS_MOUNT_FLAG_NO_FORMAT : 0) \
	\| (DT_PROP(node_id, disk_access) ? FS_MOUNT_FLAG_USE_DISK_ACCESS : 0))

	/**
	* @brief The name under which a zephyr,fstab entry mount structure is
	* defined.
	*/
	#define FS_FSTAB_ENTRY(node_id) _CONCAT(z_fsmp_, node_id)

	/**
	* @brief Generate a declaration for the externally defined fstab
	* entry.
	*
	* This will evaluate to the name of a struct fs_mount_t object.
	*/
	#define FS_FSTAB_DECLARE_ENTRY(node_id) \
	extern struct fs_mount_t FS_FSTAB_ENTRY(node_id)

	/**
	* @brief Initialize fs_file_t object
	*
	* Initializes the fs_file_t object; the function needs to be invoked
	* on object before first use with fs_open.
	*
	* @param zfp Pointer to file object
	*
	*/
	static inline void fs_file_t_init(struct fs_file_t *zfp)
	{
	*zfp = (struct fs_file_t){ 0 };
	}

	/**
	* @brief Initialize fs_dir_t object
	*
	* Initializes the fs_dir_t object; the function needs to be invoked
	* on object before first use with fs_opendir.
	*
	* @param zdp Pointer to file object
	*
	*/
	static inline void fs_dir_t_init(struct fs_dir_t *zdp)
	{
	*zdp = (struct fs_dir_t){ 0 };
	}

	/**
	* @brief Open or create file
	*
	* Opens or possibly creates a file and associates a stream with it.
	*
	* @details
	* @p flags can be 0 or a binary combination of one or more of the following
	* identifiers:
	* - @c FS_O_READ open for read
	* - @c FS_O_WRITE open for write
	* - @c FS_O_RDWR open for read/write (<tt>FS_O_READ \| FS_O_WRITE</tt>)
	* - @c FS_O_CREATE create file if it does not exist
	* - @c FS_O_APPEND move to end of file before each write
	*
	* If @p flags are set to 0 the function will attempt to open an existing file
	* with no read/write access; this may be used to e.g. check if the file exists.
	*
	* @param zfp Pointer to a file object
	* @param file_name The name of a file to open
	* @param flags The mode flags
	*
	* @retval 0 on success;
	* @retval -EBUSY when zfp is already used;
	* @retval -EINVAL when a bad file name is given;
	* @retval -EROFS when opening read-only file for write, or attempting to
	* create a file on a system that has been mounted with the
	* FS_MOUNT_FLAG_READ_ONLY flag;
	* @retval -ENOENT when the file path is not possible (bad mount point);
	* @retval -ENOTSUP when not implemented by underlying file system driver;
	* @retval <0 an other negative errno code, depending on a file system back-end.
	*/
	int fs_open(struct fs_file_t zfp, const char file_name, fs_mode_t flags);

	/**
	* @brief Close file
	*
	* Flushes the associated stream and closes the file.
	*
	* @param zfp Pointer to the file object
	*
	* @retval 0 on success;
	* @retval -ENOTSUP when not implemented by underlying file system driver;
	* @retval <0 a negative errno code on error.
	*/
	int fs_close(struct fs_file_t *zfp);

	/**
	* @brief Unlink file
	*
	* Deletes the specified file or directory
	*
	* @param path Path to the file or directory to delete
	*
	* @retval 0 on success;
	* @retval -EINVAL when a bad file name is given;
	* @retval -EROFS if file is read-only, or when file system has been mounted
	* with the FS_MOUNT_FLAG_READ_ONLY flag;
	* @retval -ENOTSUP when not implemented by underlying file system driver;
	* @retval <0 an other negative errno code on error.
	*/
	int fs_unlink(const char *path);

	/**
	* @brief Rename file or directory
	*
	* Performs a rename and / or move of the specified source path to the
	* specified destination. The source path can refer to either a file or a
	* directory. All intermediate directories in the destination path must
	* already exist. If the source path refers to a file, the destination path
	* must contain a full filename path, rather than just the new parent
	* directory. If an object already exists at the specified destination path,
	* this function causes it to be unlinked prior to the rename (i.e., the
	* destination gets clobbered).
	* @note Current implementation does not allow moving files between mount
	* points.
	*
	* @param from The source path
	* @param to The destination path
	*
	* @retval 0 on success;
	* @retval -EINVAL when a bad file name is given, or when rename would cause move
	* between mount points;
	* @retval -EROFS if file is read-only, or when file system has been mounted
	* with the FS_MOUNT_FLAG_READ_ONLY flag;
	* @retval -ENOTSUP when not implemented by underlying file system driver;
	* @retval <0 an other negative errno code on error.
	*/
	int fs_rename(const char from, const char to);

	/**
	* @brief Read file
	*
	* Reads up to @p size bytes of data to @p ptr pointed buffer, returns number
	* of bytes read. A returned value may be lower than @p size if there were
	* fewer bytes available than requested.
	*
	* @param zfp Pointer to the file object
	* @param ptr Pointer to the data buffer
	* @param size Number of bytes to be read
	*
	* @retval >=0 a number of bytes read, on success;
	* @retval -EBADF when invoked on zfp that represents unopened/closed file;
	* @retval -ENOTSUP when not implemented by underlying file system driver;
	* @retval <0 a negative errno code on error.
	*/
	ssize_t fs_read(struct fs_file_t zfp, void ptr, size_t size);

	/**
	* @brief Write file
	*
	* Attempts to write @p size number of bytes to the specified file.
	* If a negative value is returned from the function, the file pointer has not
	* been advanced.
	* If the function returns a non-negative number that is lower than @p size,
	* the global @c errno variable should be checked for an error code,
	* as the device may have no free space for data.
	*
	* @param zfp Pointer to the file object
	* @param ptr Pointer to the data buffer
	* @param size Number of bytes to be written
	*
	* @retval >=0 a number of bytes written, on success;
	* @retval -EBADF when invoked on zfp that represents unopened/closed file;
	* @retval -ENOTSUP when not implemented by underlying file system driver;
	* @retval <0 an other negative errno code on error.
	*/
	ssize_t fs_write(struct fs_file_t zfp, const void ptr, size_t size);

	/**
	* @brief Seek file
	*
	* Moves the file position to a new location in the file. The @p offset is added
	* to file position based on the @p whence parameter.
	*
	* @param zfp Pointer to the file object
	* @param offset Relative location to move the file pointer to
	* @param whence Relative location from where offset is to be calculated.
	* - @c FS_SEEK_SET for the beginning of the file;
	* - @c FS_SEEK_CUR for the current position;
	* - @c FS_SEEK_END for the end of the file.
	*
	* @retval 0 on success;
	* @retval -EBADF when invoked on zfp that represents unopened/closed file;
	* @retval -ENOTSUP if not supported by underlying file system driver;
	* @retval <0 an other negative errno code on error.
	*/
	int fs_seek(struct fs_file_t *zfp, off_t offset, int whence);

	/**
	* @brief Get current file position.
	*
	* Retrieves and returns the current position in the file stream.
	*
	* @param zfp Pointer to the file object
	*
	* @retval >= 0 a current position in file;
	* @retval -EBADF when invoked on zfp that represents unopened/closed file;
	* @retval -ENOTSUP if not supported by underlying file system driver;
	* @retval <0 an other negative errno code on error.
	*
	* The current revision does not validate the file object.
	*/
	off_t fs_tell(struct fs_file_t *zfp);

	/**
	* @brief Truncate or extend an open file to a given size
	*
	* Truncates the file to the new length if it is shorter than the current
	* size of the file. Expands the file if the new length is greater than the
	* current size of the file. The expanded region would be filled with zeroes.
	*
	* @note In the case of expansion, if the volume got full during the
	* expansion process, the function will expand to the maximum possible length
	* and return success. Caller should check if the expanded size matches the
	* requested length.
	*
	* @param zfp Pointer to the file object
	* @param length New size of the file in bytes
	*
	* @retval 0 on success;
	* @retval -EBADF when invoked on zfp that represents unopened/closed file;
	* @retval -ENOTSUP when not implemented by underlying file system driver;
	* @retval <0 an other negative errno code on error.
	*/
	int fs_truncate(struct fs_file_t *zfp, off_t length);

	/**
	* @brief Flush cached write data buffers of an open file
	*
	* The function flushes the cache of an open file; it can be invoked to ensure
	* data gets written to the storage media immediately, e.g. to avoid data loss
	* in case if power is removed unexpectedly.
	* @note Closing a file will cause caches to be flushed correctly so the
	* function need not be called when the file is being closed.
	*
	* @param zfp Pointer to the file object
	*
	* @retval 0 on success;
	* @retval -EBADF when invoked on zfp that represents unopened/closed file;
	* @retval -ENOTSUP when not implemented by underlying file system driver;
	* @retval <0 a negative errno code on error.
	*/
	int fs_sync(struct fs_file_t *zfp);

	/**
	* @brief Directory create
	*
	* Creates a new directory using specified path.
	*
	* @param path Path to the directory to create
	*
	* @retval 0 on success;
	* @retval -EROFS if file is read-only, or when file system has been mounted
	* with the FS_MOUNT_FLAG_READ_ONLY flag;
	* @retval -ENOTSUP when not implemented by underlying file system driver;
	* @retval <0 an other negative errno code on error
	*/
	int fs_mkdir(const char *path);

	/**
	* @brief Directory open
	*
	* Opens an existing directory specified by the path.
	*
	* @param zdp Pointer to the directory object
	* @param path Path to the directory to open
	*
	* @retval 0 on success;
	* @retval -EINVAL when a bad directory path is given;
	* @retval -EBUSY when zdp is already used;
	* @retval -ENOTSUP when not implemented by underlying file system driver;
	* @retval <0 a negative errno code on error.
	*/
	int fs_opendir(struct fs_dir_t zdp, const char path);

	/**
	* @brief Directory read entry
	*
	* Reads directory entries of an open directory. In end-of-dir condition,
	* the function will return 0 and set the <tt>entry->name[0]</tt> to 0.
	*
	* @note: Most existing underlying file systems do not generate POSIX
	* special directory entries "." or "..". For consistency the
	* abstraction layer will remove these from lower layer results so
	* higher layers see consistent results.
	*
	* @param zdp Pointer to the directory object
	* @param entry Pointer to zfs_dirent structure to read the entry into
	*
	* @retval 0 on success or end-of-dir;
	* @retval -ENOENT when no such directory found;
	* @retval -ENOTSUP when not implemented by underlying file system driver;
	* @retval <0 a negative errno code on error.
	*/
	int fs_readdir(struct fs_dir_t zdp, struct fs_dirent entry);

	/**
	* @brief Directory close
	*
	* Closes an open directory.
	*
	* @param zdp Pointer to the directory object
	*
	* @retval 0 on success;
	* @retval -ENOTSUP when not implemented by underlying file system driver;
	* @retval <0 a negative errno code on error.
	*/
	int fs_closedir(struct fs_dir_t *zdp);

	/**
	* @brief Mount filesystem
	*
	* Perform steps needed for mounting a file system like
	* calling the file system specific mount function and adding
	* the mount point to mounted file system list.
	*
	* @note Current implementation of ELM FAT driver allows only following mount
	* points: "/RAM:","/NAND:","/CF:","/SD:","/SD2:","/USB:","/USB2:","/USB3:"
	* or mount points that consist of single digit, e.g: "/0:", "/1:" and so forth.
	*
	* @param mp Pointer to the fs_mount_t structure. Referenced object
	* is not changed if the mount operation failed.
	* A reference is captured in the fs infrastructure if the
	* mount operation succeeds, and the application must not
	* mutate the structure contents until fs_unmount is
	* successfully invoked on the same pointer.
	*
	* @retval 0 on success;
	* @retval -ENOENT when file system type has not been registered;
	* @retval -ENOTSUP when not supported by underlying file system driver;
	* when @c FS_MOUNT_FLAG_USE_DISK_ACCESS is set but driver does not
	* support it.
	* @retval -EROFS if system requires formatting but @c FS_MOUNT_FLAG_READ_ONLY
	* has been set;
	* @retval <0 an other negative errno code on error.
	*/
	int fs_mount(struct fs_mount_t *mp);

	/**
	* @brief Unmount filesystem
	*
	* Perform steps needed to unmount a file system like
	* calling the file system specific unmount function and removing
	* the mount point from mounted file system list.
	*
	* @param mp Pointer to the fs_mount_t structure
	*
	* @retval 0 on success;
	* @retval -EINVAL if no system has been mounted at given mount point;
	* @retval -ENOTSUP when not supported by underlying file system driver;
	* @retval <0 an other negative errno code on error.
	*/
	int fs_unmount(struct fs_mount_t *mp);

	/**
	* @brief Get path of mount point at index
	*
	* This function iterates through the list of mount points and returns
	* the directory name of the mount point at the given @p index.
	* On success @p index is incremented and @p name is set to the mount directory
	* name. If a mount point with the given @p index does not exist, @p name will
	* be set to @c NULL.
	*
	* @param index Pointer to mount point index
	* @param name Pointer to pointer to path name
	*
	* @retval 0 on success;
	* @retval -ENOENT if there is no mount point with given index.
	*/
	int fs_readmount(int index, const char *name);

	/**
	* @brief File or directory status
	*
	* Checks the status of a file or directory specified by the @p path.
	* @note The file on a storage device may not be updated until it is closed.
	*
	* @param path Path to the file or directory
	* @param entry Pointer to the zfs_dirent structure to fill if the file or
	* directory exists.
	*
	* @retval 0 on success;
	* @retval -EINVAL when a bad directory or file name is given;
	* @retval -ENOENT when no such directory or file is found;
	* @retval -ENOTSUP when not supported by underlying file system driver;
	* @retval <0 negative errno code on error.
	*/
	int fs_stat(const char path, struct fs_dirent entry);

	/**
	* @brief Retrieves statistics of the file system volume
	*
	* Returns the total and available space in the file system volume.
	*
	* @param path Path to the mounted directory
	* @param stat Pointer to the zfs_statvfs structure to receive the fs
	* statistics.
	*
	* @retval 0 on success;
	* @retval -EINVAL when a bad path to a directory, or a file, is given;
	* @retval -ENOTSUP when not implemented by underlying file system driver;
	* @retval <0 an other negative errno code on error.
	*/
	int fs_statvfs(const char path, struct fs_statvfs stat);

	/**
	* @brief Register a file system
	*
	* Register file system with virtual file system.
	* Number of allowed file system types to be registered is controlled with the
	* CONFIG_FILE_SYSTEM_MAX_TYPES Kconfig option.
	*
	* @param type Type of file system (ex: @c FS_FATFS)
	* @param fs Pointer to File system
	*
	* @retval 0 on success;
	* @retval -EALREADY when a file system of a given type has already been registered;
	* @retval -ENOSCP when there is no space left, in file system registry, to add
	* this file system type.
	*/
	int fs_register(int type, const struct fs_file_system_t *fs);

	/**
	* @brief Unregister a file system
	*
	* Unregister file system from virtual file system.
	*
	* @param type Type of file system (ex: @c FS_FATFS)
	* @param fs Pointer to File system
	*
	* @retval 0 on success;
	* @retval -EINVAL when file system of a given type has not been registered.
	*/
	int fs_unregister(int type, const struct fs_file_system_t *fs);

	/**
	* @}
	*/


	#ifdef __cplusplus
	}
	#endif

	#endif /* ZEPHYR_INCLUDE_FS_FS_H_ */