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author | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-05-24 04:52:22 +0000 |
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committer | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-05-24 04:52:22 +0000 |
commit | 7f3caba522f4d24764f29d83aa2de9198bb7f01c (patch) | |
tree | 66b798ea74302325d6a5c11df044cbe4bb845af1 /man4/fuse.4 | |
parent | Adding upstream version 6.7. (diff) | |
download | manpages-7f3caba522f4d24764f29d83aa2de9198bb7f01c.tar.xz manpages-7f3caba522f4d24764f29d83aa2de9198bb7f01c.zip |
Adding upstream version 6.8.upstream/6.8upstream
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to 'man4/fuse.4')
-rw-r--r-- | man4/fuse.4 | 535 |
1 files changed, 0 insertions, 535 deletions
diff --git a/man4/fuse.4 b/man4/fuse.4 deleted file mode 100644 index fbdd918..0000000 --- a/man4/fuse.4 +++ /dev/null @@ -1,535 +0,0 @@ -.\" Copyright (c) 2016 Julia Computing Inc, Keno Fischer -.\" Description based on include/uapi/fuse.h and code in fs/fuse -.\" -.\" SPDX-License-Identifier: Linux-man-pages-copyleft -.\" -.TH fuse 4 2023-10-31 "Linux man-pages 6.7" -.SH NAME -fuse \- Filesystem in Userspace (FUSE) device -.SH SYNOPSIS -.nf -.B #include <linux/fuse.h> -.fi -.SH DESCRIPTION -This device is the primary interface between the FUSE filesystem driver -and a user-space process wishing to provide the filesystem (referred to -in the rest of this manual page as the -.IR "filesystem daemon" ). -This manual page is intended for those -interested in understanding the kernel interface itself. -Those implementing a FUSE filesystem may wish to make use of -a user-space library such as -.I libfuse -that abstracts away the low-level interface. -.P -At its core, FUSE is a simple client-server protocol, in which the Linux -kernel is the client and the daemon is the server. -After obtaining a file descriptor for this device, the daemon may -.BR read (2) -requests from that file descriptor and is expected to -.BR write (2) -back its replies. -It is important to note that a file descriptor is -associated with a unique FUSE filesystem. -In particular, opening a second copy of this device, -will not allow access to resources created -through the first file descriptor (and vice versa). -.\" -.SS The basic protocol -Every message that is read by the daemon begins with a header described by -the following structure: -.P -.in +4n -.EX -struct fuse_in_header { - uint32_t len; /* Total length of the data, - including this header */ - uint32_t opcode; /* The kind of operation (see below) */ - uint64_t unique; /* A unique identifier for this request */ - uint64_t nodeid; /* ID of the filesystem object - being operated on */ - uint32_t uid; /* UID of the requesting process */ - uint32_t gid; /* GID of the requesting process */ - uint32_t pid; /* PID of the requesting process */ - uint32_t padding; -}; -.EE -.in -.P -The header is followed by a variable-length data portion -(which may be empty) specific to the requested operation -(the requested operation is indicated by -.IR opcode ). -.P -The daemon should then process the request and if applicable send -a reply (almost all operations require a reply; if they do not, -this is documented below), by performing a -.BR write (2) -to the file descriptor. -All replies must start with the following header: -.P -.in +4n -.EX -struct fuse_out_header { - uint32_t len; /* Total length of data written to - the file descriptor */ - int32_t error; /* Any error that occurred (0 if none) */ - uint64_t unique; /* The value from the - corresponding request */ -}; -.EE -.in -.P -This header is also followed by (potentially empty) variable-sized -data depending on the executed request. -However, if the reply is an error reply (i.e., -.I error -is set), -then no further payload data should be sent, independent of the request. -.\" -.SS Exchanged messages -This section should contain documentation for each of the messages -in the protocol. -This manual page is currently incomplete, -so not all messages are documented. -For each message, first the struct sent by the kernel is given, -followed by a description of the semantics of the message. -.TP -.B FUSE_INIT -.IP -.in +4n -.EX -struct fuse_init_in { - uint32_t major; - uint32_t minor; - uint32_t max_readahead; /* Since protocol v7.6 */ - uint32_t flags; /* Since protocol v7.6 */ -}; -.EE -.in -.IP -This is the first request sent by the kernel to the daemon. -It is used to negotiate the protocol version and other filesystem parameters. -Note that the protocol version may affect the layout of any structure -in the protocol (including this structure). -The daemon must thus remember the negotiated version -and flags for each session. -As of the writing of this man page, -the highest supported kernel protocol version is -.IR 7.26 . -.IP -Users should be aware that the descriptions in this manual page -may be incomplete or incorrect for older or more recent protocol versions. -.IP -The reply for this request has the following format: -.IP -.in +4n -.EX -struct fuse_init_out { - uint32_t major; - uint32_t minor; - uint32_t max_readahead; /* Since v7.6 */ - uint32_t flags; /* Since v7.6; some flags bits - were introduced later */ - uint16_t max_background; /* Since v7.13 */ - uint16_t congestion_threshold; /* Since v7.13 */ - uint32_t max_write; /* Since v7.5 */ - uint32_t time_gran; /* Since v7.6 */ - uint32_t unused[9]; -}; -.EE -.in -.IP -If the major version supported by the kernel is larger than that supported -by the daemon, the reply shall consist of only -.I uint32_t major -(following the usual header), -indicating the largest major version supported by the daemon. -The kernel will then issue a new -.B FUSE_INIT -request conforming to the older version. -In the reverse case, the daemon should -quietly fall back to the kernel's major version. -.IP -The negotiated minor version is considered to be the minimum -of the minor versions provided by the daemon and the kernel and -both parties should use the protocol corresponding to said minor version. -.TP -.B FUSE_GETATTR -.IP -.in +4n -.EX -struct fuse_getattr_in { - uint32_t getattr_flags; - uint32_t dummy; - uint64_t fh; /* Set only if - (getattr_flags & FUSE_GETATTR_FH) -}; -.EE -.in -.IP -The requested operation is to compute the attributes to be returned -by -.BR stat (2) -and similar operations for the given filesystem object. -The object for which the attributes should be computed is indicated -either by -.I header\->nodeid -or, if the -.B FUSE_GETATTR_FH -flag is set, by the file handle -.IR fh . -The latter case of operation is analogous to -.BR fstat (2). -.IP -For performance reasons, these attributes may be cached in the kernel for -a specified duration of time. -While the cache timeout has not been exceeded, -the attributes will be served from the cache and will not cause additional -.B FUSE_GETATTR -requests. -.IP -The computed attributes and the requested -cache timeout should then be returned in the following structure: -.IP -.in +4n -.EX -struct fuse_attr_out { - /* Attribute cache duration (seconds + nanoseconds) */ - uint64_t attr_valid; - uint32_t attr_valid_nsec; - uint32_t dummy; - struct fuse_attr { - uint64_t ino; - uint64_t size; - uint64_t blocks; - uint64_t atime; - uint64_t mtime; - uint64_t ctime; - uint32_t atimensec; - uint32_t mtimensec; - uint32_t ctimensec; - uint32_t mode; - uint32_t nlink; - uint32_t uid; - uint32_t gid; - uint32_t rdev; - uint32_t blksize; - uint32_t padding; - } attr; -}; -.EE -.in -.TP -.B FUSE_ACCESS -.IP -.in +4n -.EX -struct fuse_access_in { - uint32_t mask; - uint32_t padding; -}; -.EE -.in -.IP -If the -.I default_permissions -mount options is not used, this request may be used for permissions checking. -No reply data is expected, but errors may be indicated -as usual by setting the -.I error -field in the reply header (in particular, access denied errors -may be indicated by returning -.BR \-EACCES ). -.TP -.BR FUSE_OPEN " and " FUSE_OPENDIR -.in +4n -.EX -struct fuse_open_in { - uint32_t flags; /* The flags that were passed - to the open(2) */ - uint32_t unused; -}; -.EE -.in -.IP -The requested operation is to open the node indicated by -.IR header\->nodeid . -The exact semantics of what this means will depend on the -filesystem being implemented. -However, at the very least the -filesystem should validate that the requested -.I flags -are valid for the indicated resource and then send a reply with the -following format: -.IP -.in +4n -.EX -struct fuse_open_out { - uint64_t fh; - uint32_t open_flags; - uint32_t padding; -}; -.EE -.in -.IP -The -.I fh -field is an opaque identifier that the kernel will use to refer -to this resource -The -.I open_flags -field is a bit mask of any number of the flags -that indicate properties of this file handle to the kernel: -.RS 7 -.TP 18 -.B FOPEN_DIRECT_IO -Bypass page cache for this open file. -.TP -.B FOPEN_KEEP_CACHE -Don't invalidate the data cache on open. -.TP -.B FOPEN_NONSEEKABLE -The file is not seekable. -.RE -.TP -.BR FUSE_READ " and " FUSE_READDIR -.IP -.in +4n -.EX -struct fuse_read_in { - uint64_t fh; - uint64_t offset; - uint32_t size; - uint32_t read_flags; - uint64_t lock_owner; - uint32_t flags; - uint32_t padding; -}; -.EE -.in -.IP -The requested action is to read up to -.I size -bytes of the file or directory, starting at -.IR offset . -The bytes should be returned directly following the usual reply header. -.TP -.B FUSE_INTERRUPT -.in +4n -.EX -struct fuse_interrupt_in { - uint64_t unique; -}; -.EE -.in -.IP -The requested action is to cancel the pending operation indicated by -.IR unique . -This request requires no response. -However, receipt of this message does -not by itself cancel the indicated operation. -The kernel will still expect a reply to said operation (e.g., an -.I EINTR -error or a short read). -At most one -.B FUSE_INTERRUPT -request will be issued for a given operation. -After issuing said operation, -the kernel will wait uninterruptibly for completion of the indicated request. -.TP -.B FUSE_LOOKUP -Directly following the header is a filename to be looked up in the directory -indicated by -.IR header\->nodeid . -The expected reply is of the form: -.IP -.in +4n -.EX -struct fuse_entry_out { - uint64_t nodeid; /* Inode ID */ - uint64_t generation; /* Inode generation */ - uint64_t entry_valid; - uint64_t attr_valid; - uint32_t entry_valid_nsec; - uint32_t attr_valid_nsec; - struct fuse_attr attr; -}; -.EE -.in -.IP -The combination of -.I nodeid -and -.I generation -must be unique for the filesystem's lifetime. -.IP -The interpretation of timeouts and -.I attr -is as for -.BR FUSE_GETATTR . -.TP -.B FUSE_FLUSH -.in +4n -.EX -struct fuse_flush_in { - uint64_t fh; - uint32_t unused; - uint32_t padding; - uint64_t lock_owner; -}; -.EE -.in -.IP -The requested action is to flush any pending changes to the indicated -file handle. -No reply data is expected. -However, an empty reply message -still needs to be issued once the flush operation is complete. -.TP -.BR FUSE_RELEASE " and " FUSE_RELEASEDIR -.in +4n -.EX -struct fuse_release_in { - uint64_t fh; - uint32_t flags; - uint32_t release_flags; - uint64_t lock_owner; -}; -.EE -.in -.IP -These are the converse of -.B FUSE_OPEN -and -.B FUSE_OPENDIR -respectively. -The daemon may now free any resources associated with the -file handle -.I fh -as the kernel will no longer refer to it. -There is no reply data associated with this request, -but a reply still needs to be issued once the request has -been completely processed. -.TP -.B FUSE_STATFS -This operation implements -.BR statfs (2) -for this filesystem. -There is no input data associated with this request. -The expected reply data has the following structure: -.IP -.in +4n -.EX -struct fuse_kstatfs { - uint64_t blocks; - uint64_t bfree; - uint64_t bavail; - uint64_t files; - uint64_t ffree; - uint32_t bsize; - uint32_t namelen; - uint32_t frsize; - uint32_t padding; - uint32_t spare[6]; -}; -\& -struct fuse_statfs_out { - struct fuse_kstatfs st; -}; -.EE -.in -.IP -For the interpretation of these fields, see -.BR statfs (2). -.SH ERRORS -.TP -.B E2BIG -Returned from -.BR read (2) -operations when the kernel's request is too large for the provided buffer -and the request was -.BR FUSE_SETXATTR . -.TP -.B EINVAL -Returned from -.BR write (2) -if validation of the reply failed. -Not all mistakes in replies will be caught by this validation. -However, basic mistakes, such as short replies or an incorrect -.I unique -value, are detected. -.TP -.B EIO -Returned from -.BR read (2) -operations when the kernel's request is too large for the provided buffer. -.IP -.IR Note : -There are various ways in which incorrect use of these interfaces can cause -operations on the provided filesystem's files and directories to fail with -.BR EIO . -Among the possible incorrect uses are: -.RS -.IP \[bu] 3 -changing -.I mode & S_IFMT -for an inode that has previously been reported to the kernel; or -.IP \[bu] -giving replies to the kernel that are shorter than what the kernel expected. -.RE -.TP -.B ENODEV -Returned from -.BR read (2) -and -.BR write (2) -if the FUSE filesystem was unmounted. -.TP -.B EPERM -Returned from operations on a -.I /dev/fuse -file descriptor that has not been mounted. -.SH STANDARDS -Linux. -.SH NOTES -The following messages are not yet documented in this manual page: -.P -.\" FIXME: Document the following. -.in +4n -.EX -.B FUSE_BATCH_FORGET -.B FUSE_BMAP -.B FUSE_CREATE -.B FUSE_DESTROY -.B FUSE_FALLOCATE -.B FUSE_FORGET -.B FUSE_FSYNC -.B FUSE_FSYNCDIR -.B FUSE_GETLK -.B FUSE_GETXATTR -.B FUSE_IOCTL -.B FUSE_LINK -.B FUSE_LISTXATTR -.B FUSE_LSEEK -.B FUSE_MKDIR -.B FUSE_MKNOD -.B FUSE_NOTIFY_REPLY -.B FUSE_POLL -.B FUSE_READDIRPLUS -.B FUSE_READLINK -.B FUSE_REMOVEXATTR -.B FUSE_RENAME -.B FUSE_RENAME2 -.B FUSE_RMDIR -.B FUSE_SETATTR -.B FUSE_SETLK -.B FUSE_SETLKW -.B FUSE_SYMLINK -.B FUSE_UNLINK -.B FUSE_WRITE -.EE -.in -.SH SEE ALSO -.BR fusermount (1), -.BR mount.fuse (8) |