/* * FUSE: Filesystem in Userspace * Copyright (C) 2001-2007 Miklos Szeredi * * This program can be distributed under the terms of the GNU LGPLv2. * See the file COPYING.LIB. */ #ifndef FUSE_H_ #define FUSE_H_ /* * * This file defines the library interface of FUSE * * IMPORTANT: you should define FUSE_USE_VERSION before including this header. */ #include "fuse_common.h" #include #include #include #include #include #include /* * Basic FUSE API */ /** Handle for a FUSE filesystem */ struct fuse; /** * Readdir flags, passed to ->readdir() */ enum fuse_readdir_flags { /** * "Plus" mode. * * The kernel wants to prefill the inode cache during readdir. The * filesystem may honour this by filling in the attributes and setting * FUSE_FILL_DIR_FLAGS for the filler function. The filesystem may also * just ignore this flag completely. */ FUSE_READDIR_PLUS = (1 << 0), }; enum fuse_fill_dir_flags { /** * "Plus" mode: all file attributes are valid * * The attributes are used by the kernel to prefill the inode cache * during a readdir. * * It is okay to set FUSE_FILL_DIR_PLUS if FUSE_READDIR_PLUS is not set * and vice versa. */ FUSE_FILL_DIR_PLUS = (1 << 1), }; /** * Function to add an entry in a readdir() operation * * The *off* parameter can be any non-zero value that enables the * filesystem to identify the current point in the directory * stream. It does not need to be the actual physical position. A * value of zero is reserved to indicate that seeking in directories * is not supported. * * @param buf the buffer passed to the readdir() operation * @param name the file name of the directory entry * @param stat file attributes, can be NULL * @param off offset of the next entry or zero * @param flags fill flags * @return 1 if buffer is full, zero otherwise */ typedef int (*fuse_fill_dir_t)(void *buf, const char *name, const struct stat *stbuf, off_t off, enum fuse_fill_dir_flags flags); /** * Configuration of the high-level API * * This structure is initialized from the arguments passed to * fuse_new(), and then passed to the file system's init() handler * which should ensure that the configuration is compatible with the * file system implementation. */ struct fuse_config { /** * If `set_gid` is non-zero, the st_gid attribute of each file * is overwritten with the value of `gid`. */ int set_gid; unsigned int gid; /** * If `set_uid` is non-zero, the st_uid attribute of each file * is overwritten with the value of `uid`. */ int set_uid; unsigned int uid; /** * If `set_mode` is non-zero, the any permissions bits set in * `umask` are unset in the st_mode attribute of each file. */ int set_mode; unsigned int umask; /** * The timeout in seconds for which name lookups will be * cached. */ double entry_timeout; /** * The timeout in seconds for which a negative lookup will be * cached. This means, that if file did not exist (lookup * retuned ENOENT), the lookup will only be redone after the * timeout, and the file/directory will be assumed to not * exist until then. A value of zero means that negative * lookups are not cached. */ double negative_timeout; /** * The timeout in seconds for which file/directory attributes * (as returned by e.g. the `getattr` handler) are cached. */ double attr_timeout; /** * Allow requests to be interrupted */ int intr; /** * Specify which signal number to send to the filesystem when * a request is interrupted. The default is hardcoded to * USR1. */ int intr_signal; /** * Normally, FUSE assigns inodes to paths only for as long as * the kernel is aware of them. With this option inodes are * instead remembered for at least this many seconds. This * will require more memory, but may be necessary when using * applications that make use of inode numbers. * * A number of -1 means that inodes will be remembered for the * entire life-time of the file-system process. */ int remember; /** * The default behavior is that if an open file is deleted, * the file is renamed to a hidden file (.fuse_hiddenXXX), and * only removed when the file is finally released. This * relieves the filesystem implementation of having to deal * with this problem. This option disables the hiding * behavior, and files are removed immediately in an unlink * operation (or in a rename operation which overwrites an * existing file). * * It is recommended that you not use the hard_remove * option. When hard_remove is set, the following libc * functions fail on unlinked files (returning errno of * ENOENT): read(2), write(2), fsync(2), close(2), f*xattr(2), * ftruncate(2), fstat(2), fchmod(2), fchown(2) */ int hard_remove; /** * Honor the st_ino field in the functions getattr() and * fill_dir(). This value is used to fill in the st_ino field * in the stat(2), lstat(2), fstat(2) functions and the d_ino * field in the readdir(2) function. The filesystem does not * have to guarantee uniqueness, however some applications * rely on this value being unique for the whole filesystem. * * Note that this does *not* affect the inode that libfuse * and the kernel use internally (also called the "nodeid"). */ int use_ino; /** * If use_ino option is not given, still try to fill in the * d_ino field in readdir(2). If the name was previously * looked up, and is still in the cache, the inode number * found there will be used. Otherwise it will be set to -1. * If use_ino option is given, this option is ignored. */ int readdir_ino; /** * This option disables the use of page cache (file content cache) * in the kernel for this filesystem. This has several affects: * * 1. Each read(2) or write(2) system call will initiate one * or more read or write operations, data will not be * cached in the kernel. * * 2. The return value of the read() and write() system calls * will correspond to the return values of the read and * write operations. This is useful for example if the * file size is not known in advance (before reading it). * * Internally, enabling this option causes fuse to set the * `direct_io` field of `struct fuse_file_info` - overwriting * any value that was put there by the file system. */ int direct_io; /** * This option disables flushing the cache of the file * contents on every open(2). This should only be enabled on * filesystems where the file data is never changed * externally (not through the mounted FUSE filesystem). Thus * it is not suitable for network filesystems and other * intermediate filesystems. * * NOTE: if this option is not specified (and neither * direct_io) data is still cached after the open(2), so a * read(2) system call will not always initiate a read * operation. * * Internally, enabling this option causes fuse to set the * `keep_cache` field of `struct fuse_file_info` - overwriting * any value that was put there by the file system. */ int kernel_cache; /** * This option is an alternative to `kernel_cache`. Instead of * unconditionally keeping cached data, the cached data is * invalidated on open(2) if if the modification time or the * size of the file has changed since it was last opened. */ int auto_cache; /** * The timeout in seconds for which file attributes are cached * for the purpose of checking if auto_cache should flush the * file data on open. */ int ac_attr_timeout_set; double ac_attr_timeout; /** * If this option is given the file-system handlers for the * following operations will not receive path information: * read, write, flush, release, fsync, readdir, releasedir, * fsyncdir, lock, ioctl and poll. * * For the truncate, getattr, chmod, chown and utimens * operations the path will be provided only if the struct * fuse_file_info argument is NULL. */ int nullpath_ok; /** * The remaining options are used by libfuse internally and * should not be touched. */ int show_help; char *modules; int debug; }; /** * The file system operations: * * Most of these should work very similarly to the well known UNIX * file system operations. A major exception is that instead of * returning an error in 'errno', the operation should return the * negated error value (-errno) directly. * * All methods are optional, but some are essential for a useful * filesystem (e.g. getattr). Open, flush, release, fsync, opendir, * releasedir, fsyncdir, access, create, truncate, lock, init and * destroy are special purpose methods, without which a full featured * filesystem can still be implemented. * * In general, all methods are expected to perform any necessary * permission checking. However, a filesystem may delegate this task * to the kernel by passing the `default_permissions` mount option to * `fuse_new()`. In this case, methods will only be called if * the kernel's permission check has succeeded. * * Almost all operations take a path which can be of any length. */ struct fuse_operations { /** * Get file attributes. * * Similar to stat(). The 'st_dev' and 'st_blksize' fields are * ignored. The 'st_ino' field is ignored except if the 'use_ino' * mount option is given. In that case it is passed to userspace, * but libfuse and the kernel will still assign a different * inode for internal use (called the "nodeid"). * * `fi` will always be NULL if the file is not currently open, but * may also be NULL if the file is open. */ int (*getattr)(const char *, struct stat *, struct fuse_file_info *fi); /** * Read the target of a symbolic link * * The buffer should be filled with a null terminated string. The * buffer size argument includes the space for the terminating * null character. If the linkname is too long to fit in the * buffer, it should be truncated. The return value should be 0 * for success. */ int (*readlink)(const char *, char *, size_t); /** * Create a file node * * This is called for creation of all non-directory, non-symlink * nodes. If the filesystem defines a create() method, then for * regular files that will be called instead. */ int (*mknod)(const char *, mode_t, dev_t); /** * Create a directory * * Note that the mode argument may not have the type specification * bits set, i.e. S_ISDIR(mode) can be false. To obtain the * correct directory type bits use mode|S_IFDIR */ int (*mkdir)(const char *, mode_t); /** Remove a file */ int (*unlink)(const char *); /** Remove a directory */ int (*rmdir)(const char *); /** Create a symbolic link */ int (*symlink)(const char *, const char *); /** * Rename a file * * *flags* may be `RENAME_EXCHANGE` or `RENAME_NOREPLACE`. If * RENAME_NOREPLACE is specified, the filesystem must not * overwrite *newname* if it exists and return an error * instead. If `RENAME_EXCHANGE` is specified, the filesystem * must atomically exchange the two files, i.e. both must * exist and neither may be deleted. */ int (*rename)(const char *, const char *, unsigned int flags); /** Create a hard link to a file */ int (*link)(const char *, const char *); /** * Change the permission bits of a file * * `fi` will always be NULL if the file is not currenlty open, but * may also be NULL if the file is open. */ int (*chmod)(const char *, mode_t, struct fuse_file_info *fi); /** * Change the owner and group of a file * * `fi` will always be NULL if the file is not currenlty open, but * may also be NULL if the file is open. * * Unless FUSE_CAP_HANDLE_KILLPRIV is disabled, this method is * expected to reset the setuid and setgid bits. */ int (*chown)(const char *, uid_t, gid_t, struct fuse_file_info *fi); /** * Change the size of a file * * `fi` will always be NULL if the file is not currenlty open, but * may also be NULL if the file is open. * * Unless FUSE_CAP_HANDLE_KILLPRIV is disabled, this method is * expected to reset the setuid and setgid bits. */ int (*truncate)(const char *, off_t, struct fuse_file_info *fi); /** * Open a file * * Open flags are available in fi->flags. The following rules * apply. * * - Creation (O_CREAT, O_EXCL, O_NOCTTY) flags will be * filtered out / handled by the kernel. * * - Access modes (O_RDONLY, O_WRONLY, O_RDWR, O_EXEC, O_SEARCH) * should be used by the filesystem to check if the operation is * permitted. If the ``-o default_permissions`` mount option is * given, this check is already done by the kernel before calling * open() and may thus be omitted by the filesystem. * * - When writeback caching is enabled, the kernel may send * read requests even for files opened with O_WRONLY. The * filesystem should be prepared to handle this. * * - When writeback caching is disabled, the filesystem is * expected to properly handle the O_APPEND flag and ensure * that each write is appending to the end of the file. * * - When writeback caching is enabled, the kernel will * handle O_APPEND. However, unless all changes to the file * come through the kernel this will not work reliably. The * filesystem should thus either ignore the O_APPEND flag * (and let the kernel handle it), or return an error * (indicating that reliably O_APPEND is not available). * * Filesystem may store an arbitrary file handle (pointer, * index, etc) in fi->fh, and use this in other all other file * operations (read, write, flush, release, fsync). * * Filesystem may also implement stateless file I/O and not store * anything in fi->fh. * * There are also some flags (direct_io, keep_cache) which the * filesystem may set in fi, to change the way the file is opened. * See fuse_file_info structure in for more details. * * If this request is answered with an error code of ENOSYS * and FUSE_CAP_NO_OPEN_SUPPORT is set in * `fuse_conn_info.capable`, this is treated as success and * future calls to open will also succeed without being send * to the filesystem process. * */ int (*open)(const char *, struct fuse_file_info *); /** * Read data from an open file * * Read should return exactly the number of bytes requested except * on EOF or error, otherwise the rest of the data will be * substituted with zeroes. An exception to this is when the * 'direct_io' mount option is specified, in which case the return * value of the read system call will reflect the return value of * this operation. */ int (*read)(const char *, char *, size_t, off_t, struct fuse_file_info *); /** * Write data to an open file * * Write should return exactly the number of bytes requested * except on error. An exception to this is when the 'direct_io' * mount option is specified (see read operation). * * Unless FUSE_CAP_HANDLE_KILLPRIV is disabled, this method is * expected to reset the setuid and setgid bits. */ int (*write)(const char *, const char *, size_t, off_t, struct fuse_file_info *); /** * Get file system statistics * * The 'f_favail', 'f_fsid' and 'f_flag' fields are ignored */ int (*statfs)(const char *, struct statvfs *); /** * Possibly flush cached data * * BIG NOTE: This is not equivalent to fsync(). It's not a * request to sync dirty data. * * Flush is called on each close() of a file descriptor, as opposed to * release which is called on the close of the last file descriptor for * a file. Under Linux, errors returned by flush() will be passed to * userspace as errors from close(), so flush() is a good place to write * back any cached dirty data. However, many applications ignore errors * on close(), and on non-Linux systems, close() may succeed even if flush() * returns an error. For these reasons, filesystems should not assume * that errors returned by flush will ever be noticed or even * delivered. * * NOTE: The flush() method may be called more than once for each * open(). This happens if more than one file descriptor refers to an * open file handle, e.g. due to dup(), dup2() or fork() calls. It is * not possible to determine if a flush is final, so each flush should * be treated equally. Multiple write-flush sequences are relatively * rare, so this shouldn't be a problem. * * Filesystems shouldn't assume that flush will be called at any * particular point. It may be called more times than expected, or not * at all. * * [close]: * http://pubs.opengroup.org/onlinepubs/9699919799/functions/close.html */ int (*flush)(const char *, struct fuse_file_info *); /** * Release an open file * * Release is called when there are no more references to an open * file: all file descriptors are closed and all memory mappings * are unmapped. * * For every open() call there will be exactly one release() call * with the same flags and file handle. It is possible to * have a file opened more than once, in which case only the last * release will mean, that no more reads/writes will happen on the * file. The return value of release is ignored. */ int (*release)(const char *, struct fuse_file_info *); /* * Synchronize file contents * * If the datasync parameter is non-zero, then only the user data * should be flushed, not the meta data. */ int (*fsync)(const char *, int, struct fuse_file_info *); /** Set extended attributes */ int (*setxattr)(const char *, const char *, const char *, size_t, int); /** Get extended attributes */ int (*getxattr)(const char *, const char *, char *, size_t); /** List extended attributes */ int (*listxattr)(const char *, char *, size_t); /** Remove extended attributes */ int (*removexattr)(const char *, const char *); /* * Open directory * * Unless the 'default_permissions' mount option is given, * this method should check if opendir is permitted for this * directory. Optionally opendir may also return an arbitrary * filehandle in the fuse_file_info structure, which will be * passed to readdir, releasedir and fsyncdir. */ int (*opendir)(const char *, struct fuse_file_info *); /* * Read directory * * The filesystem may choose between two modes of operation: * * 1) The readdir implementation ignores the offset parameter, and * passes zero to the filler function's offset. The filler * function will not return '1' (unless an error happens), so the * whole directory is read in a single readdir operation. * * 2) The readdir implementation keeps track of the offsets of the * directory entries. It uses the offset parameter and always * passes non-zero offset to the filler function. When the buffer * is full (or an error happens) the filler function will return * '1'. */ int (*readdir)(const char *, void *, fuse_fill_dir_t, off_t, struct fuse_file_info *, enum fuse_readdir_flags); /** * Release directory */ int (*releasedir)(const char *, struct fuse_file_info *); /** * Synchronize directory contents * * If the datasync parameter is non-zero, then only the user data * should be flushed, not the meta data */ int (*fsyncdir)(const char *, int, struct fuse_file_info *); /** * Initialize filesystem * * The return value will passed in the `private_data` field of * `struct fuse_context` to all file operations, and as a * parameter to the destroy() method. It overrides the initial * value provided to fuse_main() / fuse_new(). */ void *(*init)(struct fuse_conn_info *conn, struct fuse_config *cfg); /** * Clean up filesystem * * Called on filesystem exit. */ void (*destroy)(void *private_data); /** * Check file access permissions * * This will be called for the access() system call. If the * 'default_permissions' mount option is given, this method is not * called. * * This method is not called under Linux kernel versions 2.4.x */ int (*access)(const char *, int); /** * Create and open a file * * If the file does not exist, first create it with the specified * mode, and then open it. * * If this method is not implemented or under Linux kernel * versions earlier than 2.6.15, the mknod() and open() methods * will be called instead. */ int (*create)(const char *, mode_t, struct fuse_file_info *); /** * Perform POSIX file locking operation * * The cmd argument will be either F_GETLK, F_SETLK or F_SETLKW. * * For the meaning of fields in 'struct flock' see the man page * for fcntl(2). The l_whence field will always be set to * SEEK_SET. * * For checking lock ownership, the 'fuse_file_info->owner' * argument must be used. * * For F_GETLK operation, the library will first check currently * held locks, and if a conflicting lock is found it will return * information without calling this method. This ensures, that * for local locks the l_pid field is correctly filled in. The * results may not be accurate in case of race conditions and in * the presence of hard links, but it's unlikely that an * application would rely on accurate GETLK results in these * cases. If a conflicting lock is not found, this method will be * called, and the filesystem may fill out l_pid by a meaningful * value, or it may leave this field zero. * * For F_SETLK and F_SETLKW the l_pid field will be set to the pid * of the process performing the locking operation. * * Note: if this method is not implemented, the kernel will still * allow file locking to work locally. Hence it is only * interesting for network filesystems and similar. */ int (*lock)(const char *, struct fuse_file_info *, int cmd, struct flock *); /** * Change the access and modification times of a file with * nanosecond resolution * * This supersedes the old utime() interface. New applications * should use this. * * `fi` will always be NULL if the file is not currenlty open, but * may also be NULL if the file is open. * * See the utimensat(2) man page for details. */ int (*utimens)(const char *, const struct timespec tv[2], struct fuse_file_info *fi); /** * Map block index within file to block index within device * * Note: This makes sense only for block device backed filesystems * mounted with the 'blkdev' option */ int (*bmap)(const char *, size_t blocksize, uint64_t *idx); /** * Ioctl * * flags will have FUSE_IOCTL_COMPAT set for 32bit ioctls in * 64bit environment. The size and direction of data is * determined by _IOC_*() decoding of cmd. For _IOC_NONE, * data will be NULL, for _IOC_WRITE data is out area, for * _IOC_READ in area and if both are set in/out area. In all * non-NULL cases, the area is of _IOC_SIZE(cmd) bytes. * * If flags has FUSE_IOCTL_DIR then the fuse_file_info refers to a * directory file handle. * * Note : the unsigned long request submitted by the application * is truncated to 32 bits. */ int (*ioctl)(const char *, unsigned int cmd, void *arg, struct fuse_file_info *, unsigned int flags, void *data); /** * Poll for IO readiness events * * Note: If ph is non-NULL, the client should notify * when IO readiness events occur by calling * fuse_notify_poll() with the specified ph. * * Regardless of the number of times poll with a non-NULL ph * is received, single notification is enough to clear all. * Notifying more times incurs overhead but doesn't harm * correctness. * * The callee is responsible for destroying ph with * fuse_pollhandle_destroy() when no longer in use. */ int (*poll)(const char *, struct fuse_file_info *, struct fuse_pollhandle *ph, unsigned *reventsp); /* * Write contents of buffer to an open file * * Similar to the write() method, but data is supplied in a * generic buffer. Use fuse_buf_copy() to transfer data to * the destination. * * Unless FUSE_CAP_HANDLE_KILLPRIV is disabled, this method is * expected to reset the setuid and setgid bits. */ int (*write_buf)(const char *, struct fuse_bufvec *buf, off_t off, struct fuse_file_info *); /* * Store data from an open file in a buffer * * Similar to the read() method, but data is stored and * returned in a generic buffer. * * No actual copying of data has to take place, the source * file descriptor may simply be stored in the buffer for * later data transfer. * * The buffer must be allocated dynamically and stored at the * location pointed to by bufp. If the buffer contains memory * regions, they too must be allocated using malloc(). The * allocated memory will be freed by the caller. */ int (*read_buf)(const char *, struct fuse_bufvec **bufp, size_t size, off_t off, struct fuse_file_info *); /** * Perform BSD file locking operation * * The op argument will be either LOCK_SH, LOCK_EX or LOCK_UN * * Nonblocking requests will be indicated by ORing LOCK_NB to * the above operations * * For more information see the flock(2) manual page. * * Additionally fi->owner will be set to a value unique to * this open file. This same value will be supplied to * ->release() when the file is released. * * Note: if this method is not implemented, the kernel will still * allow file locking to work locally. Hence it is only * interesting for network filesystems and similar. */ int (*flock)(const char *, struct fuse_file_info *, int op); /** * Allocates space for an open file * * This function ensures that required space is allocated for specified * file. If this function returns success then any subsequent write * request to specified range is guaranteed not to fail because of lack * of space on the file system media. */ int (*fallocate)(const char *, int, off_t, off_t, struct fuse_file_info *); /** * Copy a range of data from one file to another * * Performs an optimized copy between two file descriptors without the * additional cost of transferring data through the FUSE kernel module * to user space (glibc) and then back into the FUSE filesystem again. * * In case this method is not implemented, glibc falls back to reading * data from the source and writing to the destination. Effectively * doing an inefficient copy of the data. */ ssize_t (*copy_file_range)(const char *path_in, struct fuse_file_info *fi_in, off_t offset_in, const char *path_out, struct fuse_file_info *fi_out, off_t offset_out, size_t size, int flags); /** * Find next data or hole after the specified offset */ off_t (*lseek)(const char *, off_t off, int whence, struct fuse_file_info *); }; /* * Extra context that may be needed by some filesystems * * The uid, gid and pid fields are not filled in case of a writepage * operation. */ struct fuse_context { /** Pointer to the fuse object */ struct fuse *fuse; /** User ID of the calling process */ uid_t uid; /** Group ID of the calling process */ gid_t gid; /** Process ID of the calling thread */ pid_t pid; /** Private filesystem data */ void *private_data; /** Umask of the calling process */ mode_t umask; }; /** * Main function of FUSE. * * This is for the lazy. This is all that has to be called from the * main() function. * * This function does the following: * - parses command line options, and handles --help and * --version * - installs signal handlers for INT, HUP, TERM and PIPE * - registers an exit handler to unmount the filesystem on program exit * - creates a fuse handle * - registers the operations * - calls either the single-threaded or the multi-threaded event loop * * Most file systems will have to parse some file-system specific * arguments before calling this function. It is recommended to do * this with fuse_opt_parse() and a processing function that passes * through any unknown options (this can also be achieved by just * passing NULL as the processing function). That way, the remaining * options can be passed directly to fuse_main(). * * fuse_main() accepts all options that can be passed to * fuse_parse_cmdline(), fuse_new(), or fuse_session_new(). * * Option parsing skips argv[0], which is assumed to contain the * program name. This element must always be present and is used to * construct a basic ``usage: `` message for the --help * output. argv[0] may also be set to the empty string. In this case * the usage message is suppressed. This can be used by file systems * to print their own usage line first. See hello.c for an example of * how to do this. * * Note: this is currently implemented as a macro. * * The following error codes may be returned from fuse_main(): * 1: Invalid option arguments * 2: No mount point specified * 3: FUSE setup failed * 4: Mounting failed * 5: Failed to daemonize (detach from session) * 6: Failed to set up signal handlers * 7: An error occured during the life of the file system * * @param argc the argument counter passed to the main() function * @param argv the argument vector passed to the main() function * @param op the file system operation * @param private_data Initial value for the `private_data` * field of `struct fuse_context`. May be overridden by the * `struct fuse_operations.init` handler. * @return 0 on success, nonzero on failure * * Example usage, see hello.c */ /* * int fuse_main(int argc, char *argv[], const struct fuse_operations *op, * void *private_data); */ #define fuse_main(argc, argv, op, private_data) \ fuse_main_real(argc, argv, op, sizeof(*(op)), private_data) /* * More detailed API */ /** * Print available options (high- and low-level) to stdout. This is * not an exhaustive list, but includes only those options that may be * of interest to an end-user of a file system. * * The function looks at the argument vector only to determine if * there are additional modules to be loaded (module=foo option), * and attempts to call their help functions as well. * * @param args the argument vector. */ void fuse_lib_help(struct fuse_args *args); /** * Create a new FUSE filesystem. * * This function accepts most file-system independent mount options * (like context, nodev, ro - see mount(8)), as well as the * FUSE-specific mount options from mount.fuse(8). * * If the --help option is specified, the function writes a help text * to stdout and returns NULL. * * Option parsing skips argv[0], which is assumed to contain the * program name. This element must always be present and is used to * construct a basic ``usage: `` message for the --help output. If * argv[0] is set to the empty string, no usage message is included in * the --help output. * * If an unknown option is passed in, an error message is written to * stderr and the function returns NULL. * * @param args argument vector * @param op the filesystem operations * @param op_size the size of the fuse_operations structure * @param private_data Initial value for the `private_data` * field of `struct fuse_context`. May be overridden by the * `struct fuse_operations.init` handler. * @return the created FUSE handle */ #if FUSE_USE_VERSION == 30 struct fuse *fuse_new_30(struct fuse_args *args, const struct fuse_operations *op, size_t op_size, void *private_data); #define fuse_new(args, op, size, data) fuse_new_30(args, op, size, data) #else struct fuse *fuse_new(struct fuse_args *args, const struct fuse_operations *op, size_t op_size, void *private_data); #endif /** * Mount a FUSE file system. * * @param mountpoint the mount point path * @param f the FUSE handle * * @return 0 on success, -1 on failure. **/ int fuse_mount(struct fuse *f, const char *mountpoint); /** * Unmount a FUSE file system. * * See fuse_session_unmount() for additional information. * * @param f the FUSE handle **/ void fuse_unmount(struct fuse *f); /** * Destroy the FUSE handle. * * NOTE: This function does not unmount the filesystem. If this is * needed, call fuse_unmount() before calling this function. * * @param f the FUSE handle */ void fuse_destroy(struct fuse *f); /** * FUSE event loop. * * Requests from the kernel are processed, and the appropriate * operations are called. * * For a description of the return value and the conditions when the * event loop exits, refer to the documentation of * fuse_session_loop(). * * @param f the FUSE handle * @return see fuse_session_loop() * * See also: fuse_loop_mt() */ int fuse_loop(struct fuse *f); /** * Flag session as terminated * * This function will cause any running event loops to exit on * the next opportunity. * * @param f the FUSE handle */ void fuse_exit(struct fuse *f); /** * Get the current context * * The context is only valid for the duration of a filesystem * operation, and thus must not be stored and used later. * * @return the context */ struct fuse_context *fuse_get_context(void); /** * Check if the current request has already been interrupted * * @return 1 if the request has been interrupted, 0 otherwise */ int fuse_interrupted(void); /** * Invalidates cache for the given path. * * This calls fuse_lowlevel_notify_inval_inode internally. * * @return 0 on successful invalidation, negative error value otherwise. * This routine may return -ENOENT to indicate that there was * no entry to be invalidated, e.g., because the path has not * been seen before or has been forgotten; this should not be * considered to be an error. */ int fuse_invalidate_path(struct fuse *f, const char *path); /** * The real main function * * Do not call this directly, use fuse_main() */ int fuse_main_real(int argc, char *argv[], const struct fuse_operations *op, size_t op_size, void *private_data); /** * Start the cleanup thread when using option "remember". * * This is done automatically by fuse_loop_mt() * @param fuse struct fuse pointer for fuse instance * @return 0 on success and -1 on error */ int fuse_start_cleanup_thread(struct fuse *fuse); /** * Stop the cleanup thread when using option "remember". * * This is done automatically by fuse_loop_mt() * @param fuse struct fuse pointer for fuse instance */ void fuse_stop_cleanup_thread(struct fuse *fuse); /** * Iterate over cache removing stale entries * use in conjunction with "-oremember" * * NOTE: This is already done for the standard sessions * * @param fuse struct fuse pointer for fuse instance * @return the number of seconds until the next cleanup */ int fuse_clean_cache(struct fuse *fuse); /* * Stacking API */ /** * Fuse filesystem object * * This is opaque object represents a filesystem layer */ struct fuse_fs; /* * These functions call the relevant filesystem operation, and return * the result. * * If the operation is not defined, they return -ENOSYS, with the * exception of fuse_fs_open, fuse_fs_release, fuse_fs_opendir, * fuse_fs_releasedir and fuse_fs_statfs, which return 0. */ int fuse_fs_getattr(struct fuse_fs *fs, const char *path, struct stat *buf, struct fuse_file_info *fi); int fuse_fs_rename(struct fuse_fs *fs, const char *oldpath, const char *newpath, unsigned int flags); int fuse_fs_unlink(struct fuse_fs *fs, const char *path); int fuse_fs_rmdir(struct fuse_fs *fs, const char *path); int fuse_fs_symlink(struct fuse_fs *fs, const char *linkname, const char *path); int fuse_fs_link(struct fuse_fs *fs, const char *oldpath, const char *newpath); int fuse_fs_release(struct fuse_fs *fs, const char *path, struct fuse_file_info *fi); int fuse_fs_open(struct fuse_fs *fs, const char *path, struct fuse_file_info *fi); int fuse_fs_read(struct fuse_fs *fs, const char *path, char *buf, size_t size, off_t off, struct fuse_file_info *fi); int fuse_fs_read_buf(struct fuse_fs *fs, const char *path, struct fuse_bufvec **bufp, size_t size, off_t off, struct fuse_file_info *fi); int fuse_fs_write(struct fuse_fs *fs, const char *path, const char *buf, size_t size, off_t off, struct fuse_file_info *fi); int fuse_fs_write_buf(struct fuse_fs *fs, const char *path, struct fuse_bufvec *buf, off_t off, struct fuse_file_info *fi); int fuse_fs_fsync(struct fuse_fs *fs, const char *path, int datasync, struct fuse_file_info *fi); int fuse_fs_flush(struct fuse_fs *fs, const char *path, struct fuse_file_info *fi); int fuse_fs_statfs(struct fuse_fs *fs, const char *path, struct statvfs *buf); int fuse_fs_opendir(struct fuse_fs *fs, const char *path, struct fuse_file_info *fi); int fuse_fs_readdir(struct fuse_fs *fs, const char *path, void *buf, fuse_fill_dir_t filler, off_t off, struct fuse_file_info *fi, enum fuse_readdir_flags flags); int fuse_fs_fsyncdir(struct fuse_fs *fs, const char *path, int datasync, struct fuse_file_info *fi); int fuse_fs_releasedir(struct fuse_fs *fs, const char *path, struct fuse_file_info *fi); int fuse_fs_create(struct fuse_fs *fs, const char *path, mode_t mode, struct fuse_file_info *fi); int fuse_fs_lock(struct fuse_fs *fs, const char *path, struct fuse_file_info *fi, int cmd, struct flock *lock); int fuse_fs_flock(struct fuse_fs *fs, const char *path, struct fuse_file_info *fi, int op); int fuse_fs_chmod(struct fuse_fs *fs, const char *path, mode_t mode, struct fuse_file_info *fi); int fuse_fs_chown(struct fuse_fs *fs, const char *path, uid_t uid, gid_t gid, struct fuse_file_info *fi); int fuse_fs_truncate(struct fuse_fs *fs, const char *path, off_t size, struct fuse_file_info *fi); int fuse_fs_utimens(struct fuse_fs *fs, const char *path, const struct timespec tv[2], struct fuse_file_info *fi); int fuse_fs_access(struct fuse_fs *fs, const char *path, int mask); int fuse_fs_readlink(struct fuse_fs *fs, const char *path, char *buf, size_t len); int fuse_fs_mknod(struct fuse_fs *fs, const char *path, mode_t mode, dev_t rdev); int fuse_fs_mkdir(struct fuse_fs *fs, const char *path, mode_t mode); int fuse_fs_setxattr(struct fuse_fs *fs, const char *path, const char *name, const char *value, size_t size, int flags); int fuse_fs_getxattr(struct fuse_fs *fs, const char *path, const char *name, char *value, size_t size); int fuse_fs_listxattr(struct fuse_fs *fs, const char *path, char *list, size_t size); int fuse_fs_removexattr(struct fuse_fs *fs, const char *path, const char *name); int fuse_fs_bmap(struct fuse_fs *fs, const char *path, size_t blocksize, uint64_t *idx); int fuse_fs_ioctl(struct fuse_fs *fs, const char *path, unsigned int cmd, void *arg, struct fuse_file_info *fi, unsigned int flags, void *data); int fuse_fs_poll(struct fuse_fs *fs, const char *path, struct fuse_file_info *fi, struct fuse_pollhandle *ph, unsigned *reventsp); int fuse_fs_fallocate(struct fuse_fs *fs, const char *path, int mode, off_t offset, off_t length, struct fuse_file_info *fi); ssize_t fuse_fs_copy_file_range(struct fuse_fs *fs, const char *path_in, struct fuse_file_info *fi_in, off_t off_in, const char *path_out, struct fuse_file_info *fi_out, off_t off_out, size_t len, int flags); off_t fuse_fs_lseek(struct fuse_fs *fs, const char *path, off_t off, int whence, struct fuse_file_info *fi); void fuse_fs_init(struct fuse_fs *fs, struct fuse_conn_info *conn, struct fuse_config *cfg); void fuse_fs_destroy(struct fuse_fs *fs); int fuse_notify_poll(struct fuse_pollhandle *ph); /** * Create a new fuse filesystem object * * This is usually called from the factory of a fuse module to create * a new instance of a filesystem. * * @param op the filesystem operations * @param op_size the size of the fuse_operations structure * @param private_data Initial value for the `private_data` * field of `struct fuse_context`. May be overridden by the * `struct fuse_operations.init` handler. * @return a new filesystem object */ struct fuse_fs *fuse_fs_new(const struct fuse_operations *op, size_t op_size, void *private_data); /** * Factory for creating filesystem objects * * The function may use and remove options from 'args' that belong * to this module. * * For now the 'fs' vector always contains exactly one filesystem. * This is the filesystem which will be below the newly created * filesystem in the stack. * * @param args the command line arguments * @param fs NULL terminated filesystem object vector * @return the new filesystem object */ typedef struct fuse_fs *(*fuse_module_factory_t)(struct fuse_args *args, struct fuse_fs *fs[]); /** * Register filesystem module * * If the "-omodules=*name*_:..." option is present, filesystem * objects are created and pushed onto the stack with the *factory_* * function. * * @param name_ the name of this filesystem module * @param factory_ the factory function for this filesystem module */ #define FUSE_REGISTER_MODULE(name_, factory_) \ fuse_module_factory_t fuse_module_##name_##_factory = factory_ /** Get session from fuse object */ struct fuse_session *fuse_get_session(struct fuse *f); /** * Open a FUSE file descriptor and set up the mount for the given * mountpoint and flags. * * @param mountpoint reference to the mount in the file system * @param options mount options * @return the FUSE file descriptor or -1 upon error */ int fuse_open_channel(const char *mountpoint, const char *options); #endif /* FUSE_H_ */