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|
/*
Copyright (c) 2012 Red Hat, Inc. <http://www.redhat.com>
This file is part of GlusterFS.
This file is licensed to you under your choice of the GNU Lesser
General Public License, version 3 or any later version (LGPLv3 or
later), or the GNU General Public License, version 2 (GPLv2), in all
cases as published by the Free Software Foundation.
*/
#ifndef _GLFS_H
#define _GLFS_H
/*
Enforce the following flags as libgfapi is built
with them, and we want programs linking against them to also
be built with these flags. This is necessary as it affects
some of the structures defined in libc headers (like struct stat)
and those definitions need to be consistently compiled in
both the library and the application.
*/
#ifndef _FILE_OFFSET_BITS
#define _FILE_OFFSET_BITS 64
#endif
#ifndef __USE_FILE_OFFSET64
#define __USE_FILE_OFFSET64
#endif
#ifndef _GNU_SOURCE
#define _GNU_SOURCE
#endif
#include <sys/types.h>
#include <sys/stat.h>
#include <fcntl.h>
#include <sys/uio.h>
#include <unistd.h>
#include <sys/cdefs.h>
#include <dirent.h>
#include <sys/statvfs.h>
#include <inttypes.h>
#if defined(HAVE_SYS_ACL_H) || (defined(USE_POSIX_ACLS) && USE_POSIX_ACLS)
#include <sys/acl.h>
#else
typedef void *acl_t;
typedef int acl_type_t;
#endif
/* Portability non glibc c++ build systems */
#ifndef __THROW
# if defined __cplusplus
# define __THROW throw ()
# else
# define __THROW
# endif
#endif
#ifndef GF_DARWIN_HOST_OS
#define GFAPI_PUBLIC(sym, ver) /**/
#define GFAPI_PRIVATE(sym, ver) /**/
#else
#define GFAPI_PUBLIC(sym, ver) __asm("_" __STRING(sym) "$GFAPI_" __STRING(ver))
#define GFAPI_PRIVATE(sym, ver) __asm("_" __STRING(sym) "$GFAPI_PRIVATE_" __STRING(ver))
#endif
__BEGIN_DECLS
/* The filesystem object. One object per 'virtual mount' */
struct glfs;
typedef struct glfs glfs_t;
/*
SYNOPSIS
glfs_new: Create a new 'virtual mount' object.
DESCRIPTION
This is most likely the very first function you will use. This function
will create a new glfs_t (virtual mount) object in memory.
On this newly created glfs_t, you need to be either set a volfile path
(glfs_set_volfile) or a volfile server (glfs_set_volfile_server).
The glfs_t object needs to be initialized with glfs_init() before you
can start issuing file operations on it.
PARAMETERS
@volname: Name of the volume. This identifies the server-side volume and
the fetched volfile (equivalent of --volfile-id command line
parameter to glusterfsd). When used with glfs_set_volfile() the
@volname has no effect (except for appearing in log messages).
RETURN VALUES
NULL : Out of memory condition.
Others : Pointer to the newly created glfs_t virtual mount object.
*/
glfs_t *glfs_new (const char *volname) __THROW
GFAPI_PUBLIC(glfs_new, 3.4.0);
/*
SYNOPSIS
glfs_set_volfile: Specify the path to the volume specification file.
DESCRIPTION
If you are using a static volume specification file (without dynamic
volume management abilities from the CLI), then specify the path to
the volume specification file.
This is incompatible with glfs_set_volfile_server().
PARAMETERS
@fs: The 'virtual mount' object to be configured with the volume
specification file.
@volfile: Path to the locally available volume specification file.
RETURN VALUES
0 : Success.
-1 : Failure. @errno will be set with the type of failure.
*/
int glfs_set_volfile (glfs_t *fs, const char *volfile) __THROW
GFAPI_PUBLIC(glfs_set_volfile, 3.4.0);
/*
SYNOPSIS
glfs_set_volfile_server: Specify the list of addresses for management server.
DESCRIPTION
This function specifies the list of addresses for the management server
(glusterd) to connect, and establish the volume configuration. The @volname
parameter passed to glfs_new() is the volume which will be virtually
mounted as the glfs_t object. All operations performed by the CLI at
the management server will automatically be reflected in the 'virtual
mount' object as it maintains a connection to glusterd and polls on
configuration change notifications.
This is incompatible with glfs_set_volfile().
PARAMETERS
@fs: The 'virtual mount' object to be configured with the volume
specification file.
@transport: String specifying the transport used to connect to the
management daemon. Specifying NULL will result in the
usage of the default (tcp) transport type. Permitted
values are "tcp" or "unix".
@host: String specifying the address where to find the management daemon.
Socket path, while using Unix domain socket as transport type.
This would either be
- FQDN (e.g : "storage01.company.com") or
- ASCII (e.g : "192.168.22.1") or
- Socket path (e.g : "/var/run/glusterd.socket")
NOTE: This API is special, multiple calls to this function with different
volfile servers, port or transport-type would create a list of volfile
servers which would be polled during `volfile_fetch_attempts()`
@port: The TCP port number where gluster management daemon is listening.
Specifying 0 uses the default port number GF_DEFAULT_BASE_PORT.
This parameter is unused if you are using a UNIX domain socket.
RETURN VALUES
0 : Success.
-1 : Failure. @errno will be set with the type of failure.
*/
int glfs_set_volfile_server (glfs_t *fs, const char *transport,
const char *host, int port) __THROW
GFAPI_PUBLIC(glfs_set_volfile_server, 3.4.0);
int glfs_unset_volfile_server (glfs_t *fs, const char *transport,
const char *host, int port) __THROW
GFAPI_PUBLIC(glfs_unset_volfile_server, 3.5.1);
/*
SYNOPSIS
glfs_set_logging: Specify logging parameters.
DESCRIPTION
This function specifies logging parameters for the virtual mount.
Default log file is /dev/null.
PARAMETERS
@fs: The 'virtual mount' object to be configured with the logging parameters.
@logfile: The logfile to be used for logging. Will be created if it does not
already exist (provided system permissions allow). If NULL, a new
logfile will be created in default log directory associated with
the glusterfs installation.
@loglevel: Numerical value specifying the degree of verbosity. Higher the
value, more verbose the logging.
RETURN VALUES
0 : Success.
-1 : Failure. @errno will be set with the type of failure.
*/
int glfs_set_logging (glfs_t *fs, const char *logfile, int loglevel) __THROW
GFAPI_PUBLIC(glfs_set_logging, 3.4.0);
/*
SYNOPSIS
glfs_init: Initialize the 'virtual mount'
DESCRIPTION
This function initializes the glfs_t object. This consists of many steps:
- Spawn a poll-loop thread.
- Establish connection to management daemon and receive volume specification.
- Construct translator graph and initialize graph.
- Wait for initialization (connecting to all bricks) to complete.
PARAMETERS
@fs: The 'virtual mount' object to be initialized.
RETURN VALUES
0 : Success.
-1 : Failure. @errno will be set with the type of failure.
*/
int glfs_init (glfs_t *fs) __THROW
GFAPI_PUBLIC(glfs_init, 3.4.0);
/*
SYNOPSIS
glfs_fini: Cleanup and destroy the 'virtual mount'
DESCRIPTION
This function attempts to gracefully destroy glfs_t object. An attempt is
made to wait for all background processing to complete before returning.
glfs_fini() must be called after all operations on glfs_t is finished.
IMPORTANT
IT IS NECESSARY TO CALL glfs_fini() ON ALL THE INITIALIZED glfs_t
OBJECTS BEFORE TERMINATING THE PROGRAM. THERE MAY BE CACHED AND
UNWRITTEN / INCOMPLETE OPERATIONS STILL IN PROGRESS EVEN THOUGH THE
API CALLS HAVE RETURNED. glfs_fini() WILL WAIT FOR BACKGROUND OPERATIONS
TO COMPLETE BEFORE RETURNING, THEREBY MAKING IT SAFE FOR THE PROGRAM TO
EXIT.
PARAMETERS
@fs: The 'virtual mount' object to be destroyed.
RETURN VALUES
0 : Success.
*/
int glfs_fini (glfs_t *fs) __THROW
GFAPI_PUBLIC(glfs_fini, 3.4.0);
/*
SYNOPSIS
glfs_getvol: Get the volfile associated with a 'virtual mount'
DESCRIPTION
Sometimes it's useful e.g. for scripts to see the volfile, so that they
can parse it and find subvolumes to do things like split-brain resolution
or custom layouts. The API here was specifically intended to make access
e.g. from Python as simple as possible.
Note that the volume must be started (not necessarily mounted) for this
to work.
PARAMETERS
@fs: The 'virtual mount' object for which a volfile is desired
@buf: Pointer to a place for the volfile length to be stored
@len: Length of @buf
RETURN VALUES
>0: filled N bytes of buffer
0: no volfile available
<0: volfile length exceeds @len by N bytes (@buf unchanged)
*/
ssize_t glfs_get_volfile (glfs_t *fs, void *buf, size_t len) __THROW
GFAPI_PUBLIC(glfs_get_volfile, 3.6.0);
/*
SYNOPSIS
glfs_get_volumeid: Copy the Volume UUID stored in the glfs object fs.
DESCRIPTION
This function when invoked for the first time sends RPC call to the
the management server (glusterd) to fetch volume uuid and stores it
in the glusterfs_context linked to the glfs object fs which can be used
in the subsequent calls. Later it parses that UUID to convert it from
cannonical string format into an opaque byte array and copy it into
the volid array. Incase if either of the input parameters, volid or size,
is NULL, number of bytes required to copy the volume UUID is returned.
PARAMETERS
@fs: The 'virtual mount' object to be used to retrieve and store
volume's UUID.
@volid: Pointer to a place for the volume UUID to be stored
@size: Length of @volid
RETURN VALUES
-1 : Failure. @errno will be set with the type of failure.
Others : length of the volume UUID stored.
*/
int glfs_get_volumeid (struct glfs *fs, char *volid, size_t size) __THROW
GFAPI_PUBLIC(glfs_get_volumeid, 3.5.0);
/*
* FILE OPERATION
*
* What follows are filesystem operations performed on the
* 'virtual mount'. The calls here are kept as close to
* the POSIX system calls as possible.
*
* Notes:
*
* - All paths specified, even if absolute, are relative to the
* root of the virtual mount and not the system root (/).
*
*/
/* The file descriptor object. One per open file/directory. */
struct glfs_fd;
typedef struct glfs_fd glfs_fd_t;
#define GLFS_LEASE_ID_SIZE 16 /* 128bits */
typedef char glfs_leaseid_t[GLFS_LEASE_ID_SIZE];
/*
* PER THREAD IDENTITY MODIFIERS
*
* The following operations enable to set a per thread identity context
* for the glfs APIs to perform operations as. The calls here are kept as close
* to POSIX equivalents as possible.
*
* NOTES:
*
* - setgroups is a per thread setting, hence this is named as fsgroups to be
* close in naming to the fs(u/g)id APIs
* - Typical mode of operation is to set the IDs as required, with the
* supplementary groups being optionally set, make the glfs call and post the
* glfs operation set them back to eu/gid or uid/gid as appropriate to the
* caller
* - The groups once set, need to be unset by setting the size to 0 (in which
* case the list argument is a do not care)
* - In case of leases feature enables, setfsleaseid is used to set and reset
* leaseid before and after every I/O operation.
* - Once a process for a thread of operation choses to set the IDs, all glfs
* calls made from that thread would default to the IDs set for the thread.
* As a result use these APIs with care and ensure that the set IDs are
* reverted to global process defaults as required.
*
*/
int glfs_setfsuid (uid_t fsuid) __THROW
GFAPI_PUBLIC(glfs_setfsuid, 3.4.2);
int glfs_setfsgid (gid_t fsgid) __THROW
GFAPI_PUBLIC(glfs_setfsgid, 3.4.2);
int glfs_setfsgroups (size_t size, const gid_t *list) __THROW
GFAPI_PUBLIC(glfs_setfsgroups, 3.4.2);
int glfs_setfsleaseid (glfs_leaseid_t leaseid) __THROW
GFAPI_PUBLIC(glfs_setfsleaseid, 4.0.0);
/*
SYNOPSIS
glfs_open: Open a file.
DESCRIPTION
This function opens a file on a virtual mount.
PARAMETERS
@fs: The 'virtual mount' object to be initialized.
@path: Path of the file within the virtual mount.
@flags: Open flags. See open(2). O_CREAT is not supported.
Use glfs_creat() for creating files.
RETURN VALUES
NULL : Failure. @errno will be set with the type of failure.
Others : Pointer to the opened glfs_fd_t.
*/
glfs_fd_t *glfs_open (glfs_t *fs, const char *path, int flags) __THROW
GFAPI_PUBLIC(glfs_open, 3.4.0);
/*
SYNOPSIS
glfs_creat: Create a file.
DESCRIPTION
This function opens a file on a virtual mount.
PARAMETERS
@fs: The 'virtual mount' object to be initialized.
@path: Path of the file within the virtual mount.
@mode: Permission of the file to be created.
@flags: Create flags. See open(2). O_EXCL is supported.
RETURN VALUES
NULL : Failure. @errno will be set with the type of failure.
Others : Pointer to the opened glfs_fd_t.
*/
glfs_fd_t *glfs_creat (glfs_t *fs, const char *path, int flags,
mode_t mode) __THROW
GFAPI_PUBLIC(glfs_creat, 3.4.0);
int glfs_close (glfs_fd_t *fd) __THROW
GFAPI_PUBLIC(glfs_close, 3.4.0);
glfs_t *glfs_from_glfd (glfs_fd_t *fd) __THROW
GFAPI_PUBLIC(glfs_from_glfd, 3.4.0);
int glfs_set_xlator_option (glfs_t *fs, const char *xlator, const char *key,
const char *value) __THROW
GFAPI_PUBLIC(glfs_set_xlator_option, 3.4.0);
/*
glfs_io_cbk
The following is the function type definition of the callback
function pointer which has to be provided by the caller to the
*_async() versions of the IO calls.
The callback function is called on completion of the requested
IO, and the appropriate return value is returned in @ret.
In case of an error in completing the IO, @ret will be -1 and
@errno will be set with the appropriate error.
@ret will be same as the return value of the non _async() variant
of the particular call
@data is the same context pointer provided by the caller at the
time of issuing the async IO call. This can be used by the
caller to differentiate different instances of the async requests
in a common callback function.
*/
typedef void (*glfs_io_cbk) (glfs_fd_t *fd, ssize_t ret, void *data);
// glfs_{read,write}[_async]
ssize_t glfs_read (glfs_fd_t *fd, void *buf,
size_t count, int flags) __THROW
GFAPI_PUBLIC(glfs_read, 3.4.0);
ssize_t glfs_write (glfs_fd_t *fd, const void *buf,
size_t count, int flags) __THROW
GFAPI_PUBLIC(glfs_write, 3.4.0);
int glfs_read_async (glfs_fd_t *fd, void *buf, size_t count, int flags,
glfs_io_cbk fn, void *data) __THROW
GFAPI_PUBLIC(glfs_read_async, 3.4.0);
int glfs_write_async (glfs_fd_t *fd, const void *buf, size_t count, int flags,
glfs_io_cbk fn, void *data) __THROW
GFAPI_PUBLIC(glfs_write_async, 3.4.0);
// glfs_{read,write}v[_async]
ssize_t glfs_readv (glfs_fd_t *fd, const struct iovec *iov, int iovcnt,
int flags) __THROW
GFAPI_PUBLIC(glfs_readv, 3.4.0);
ssize_t glfs_writev (glfs_fd_t *fd, const struct iovec *iov, int iovcnt,
int flags) __THROW
GFAPI_PUBLIC(glfs_writev, 3.4.0);
int glfs_readv_async (glfs_fd_t *fd, const struct iovec *iov, int count,
int flags, glfs_io_cbk fn, void *data) __THROW
GFAPI_PUBLIC(glfs_readv_async, 3.4.0);
int glfs_writev_async (glfs_fd_t *fd, const struct iovec *iov, int count,
int flags, glfs_io_cbk fn, void *data) __THROW
GFAPI_PUBLIC(glfs_writev_async, 3.4.0);
// glfs_p{read,write}[_async]
ssize_t glfs_pread (glfs_fd_t *fd, void *buf, size_t count, off_t offset,
int flags) __THROW
GFAPI_PUBLIC(glfs_pread, 3.4.0);
ssize_t glfs_pwrite (glfs_fd_t *fd, const void *buf, size_t count,
off_t offset, int flags) __THROW
GFAPI_PUBLIC(glfs_pwrite, 3.4.0);
int glfs_pread_async (glfs_fd_t *fd, void *buf, size_t count, off_t offset,
int flags, glfs_io_cbk fn, void *data) __THROW
GFAPI_PUBLIC(glfs_pread_async, 3.4.0);
int glfs_pwrite_async (glfs_fd_t *fd, const void *buf, int count, off_t offset,
int flags, glfs_io_cbk fn, void *data) __THROW
GFAPI_PUBLIC(glfs_pwrite_async, 3.4.0);
// glfs_p{read,write}v[_async]
ssize_t glfs_preadv (glfs_fd_t *fd, const struct iovec *iov, int iovcnt,
off_t offset, int flags) __THROW
GFAPI_PUBLIC(glfs_preadv, 3.4.0);
ssize_t glfs_pwritev (glfs_fd_t *fd, const struct iovec *iov, int iovcnt,
off_t offset, int flags) __THROW
GFAPI_PUBLIC(glfs_pwritev, 3.4.0);
int glfs_preadv_async (glfs_fd_t *fd, const struct iovec *iov,
int count, off_t offset, int flags,
glfs_io_cbk fn, void *data) __THROW
GFAPI_PUBLIC(glfs_preadv_async, 3.4.0);
int glfs_pwritev_async (glfs_fd_t *fd, const struct iovec *iov,
int count, off_t offset, int flags,
glfs_io_cbk fn, void *data) __THROW
GFAPI_PUBLIC(glfs_pwritev_async, 3.4.0);
off_t glfs_lseek (glfs_fd_t *fd, off_t offset, int whence) __THROW
GFAPI_PUBLIC(glfs_lseek, 3.4.0);
int glfs_truncate (glfs_t *fs, const char *path, off_t length) __THROW
GFAPI_PUBLIC(glfs_truncate, 3.7.15);
int glfs_ftruncate (glfs_fd_t *fd, off_t length) __THROW
GFAPI_PUBLIC(glfs_ftruncate, 3.4.0);
int glfs_ftruncate_async (glfs_fd_t *fd, off_t length, glfs_io_cbk fn,
void *data) __THROW
GFAPI_PUBLIC(glfs_ftruncate_async, 3.4.0);
int glfs_lstat (glfs_t *fs, const char *path, struct stat *buf) __THROW
GFAPI_PUBLIC(glfs_lstat, 3.4.0);
int glfs_stat (glfs_t *fs, const char *path, struct stat *buf) __THROW
GFAPI_PUBLIC(glfs_stat, 3.4.0);
int glfs_fstat (glfs_fd_t *fd, struct stat *buf) __THROW
GFAPI_PUBLIC(glfs_fstat, 3.4.0);
int glfs_fsync (glfs_fd_t *fd) __THROW
GFAPI_PUBLIC(glfs_fsync, 3.4.0);
int glfs_fsync_async (glfs_fd_t *fd, glfs_io_cbk fn, void *data) __THROW
GFAPI_PUBLIC(glfs_fsync_async, 3.4.0);
int glfs_fdatasync (glfs_fd_t *fd) __THROW
GFAPI_PUBLIC(glfs_fdatasync, 3.4.0);
int glfs_fdatasync_async (glfs_fd_t *fd, glfs_io_cbk fn, void *data) __THROW
GFAPI_PUBLIC(glfs_fdatasync_async, 3.4.0);
int glfs_access (glfs_t *fs, const char *path, int mode) __THROW
GFAPI_PUBLIC(glfs_access, 3.4.0);
int glfs_symlink (glfs_t *fs, const char *oldpath, const char *newpath) __THROW
GFAPI_PUBLIC(glfs_symlink, 3.4.0);
int glfs_readlink (glfs_t *fs, const char *path,
char *buf, size_t bufsiz) __THROW
GFAPI_PUBLIC(glfs_readlink, 3.4.0);
int glfs_mknod (glfs_t *fs, const char *path, mode_t mode, dev_t dev) __THROW
GFAPI_PUBLIC(glfs_mknod, 3.4.0);
int glfs_mkdir (glfs_t *fs, const char *path, mode_t mode) __THROW
GFAPI_PUBLIC(glfs_mkdir, 3.4.0);
int glfs_unlink (glfs_t *fs, const char *path) __THROW
GFAPI_PUBLIC(glfs_unlink, 3.4.0);
int glfs_rmdir (glfs_t *fs, const char *path) __THROW
GFAPI_PUBLIC(glfs_rmdir, 3.4.0);
int glfs_rename (glfs_t *fs, const char *oldpath, const char *newpath) __THROW
GFAPI_PUBLIC(glfs_rename, 3.4.0);
int glfs_link (glfs_t *fs, const char *oldpath, const char *newpath) __THROW
GFAPI_PUBLIC(glfs_link, 3.4.0);
glfs_fd_t *glfs_opendir (glfs_t *fs, const char *path) __THROW
GFAPI_PUBLIC(glfs_opendir, 3.4.0);
/*
* @glfs_readdir_r and @glfs_readdirplus_r ARE thread safe AND re-entrant,
* but the interface has ambiguity about the size of @dirent to be allocated
* before calling the APIs. 512 byte buffer (for @dirent) is sufficient for
* all known systems which are tested againt glusterfs/gfapi, but may be
* insufficient in the future.
*/
int glfs_readdir_r (glfs_fd_t *fd, struct dirent *dirent,
struct dirent **result) __THROW
GFAPI_PUBLIC(glfs_readdir_r, 3.4.0);
int glfs_readdirplus_r (glfs_fd_t *fd, struct stat *stat, struct dirent *dirent,
struct dirent **result) __THROW
GFAPI_PUBLIC(glfs_readdirplus_r, 3.4.0);
/*
* @glfs_readdir and @glfs_readdirplus are NEITHER thread safe NOR re-entrant
* when called on the same directory handle. However they ARE thread safe
* AND re-entrant when called on different directory handles (which may be
* referring to the same directory too.)
*/
struct dirent *glfs_readdir (glfs_fd_t *fd) __THROW
GFAPI_PUBLIC(glfs_readdir, 3.5.0);
struct dirent *glfs_readdirplus (glfs_fd_t *fd, struct stat *stat) __THROW
GFAPI_PUBLIC(glfs_readdirplus, 3.5.0);
long glfs_telldir (glfs_fd_t *fd) __THROW
GFAPI_PUBLIC(glfs_telldir, 3.4.0);
void glfs_seekdir (glfs_fd_t *fd, long offset) __THROW
GFAPI_PUBLIC(glfs_seekdir, 3.4.0);
int glfs_closedir (glfs_fd_t *fd) __THROW
GFAPI_PUBLIC(glfs_closedir, 3.4.0);
int glfs_statvfs (glfs_t *fs, const char *path, struct statvfs *buf) __THROW
GFAPI_PUBLIC(glfs_statvfs, 3.4.0);
int glfs_chmod (glfs_t *fs, const char *path, mode_t mode) __THROW
GFAPI_PUBLIC(glfs_chmod, 3.4.0);
int glfs_fchmod (glfs_fd_t *fd, mode_t mode) __THROW
GFAPI_PUBLIC(glfs_fchmod, 3.4.0);
int glfs_chown (glfs_t *fs, const char *path, uid_t uid, gid_t gid) __THROW
GFAPI_PUBLIC(glfs_chown, 3.4.0);
int glfs_lchown (glfs_t *fs, const char *path, uid_t uid, gid_t gid) __THROW
GFAPI_PUBLIC(glfs_lchown, 3.4.0);
int glfs_fchown (glfs_fd_t *fd, uid_t uid, gid_t gid) __THROW
GFAPI_PUBLIC(glfs_fchown, 3.4.0);
int glfs_utimens (glfs_t *fs, const char *path,
const struct timespec times[2]) __THROW
GFAPI_PUBLIC(glfs_utimens, 3.4.0);
int glfs_lutimens (glfs_t *fs, const char *path,
const struct timespec times[2]) __THROW
GFAPI_PUBLIC(glfs_lutimens, 3.4.0);
int glfs_futimens (glfs_fd_t *fd, const struct timespec times[2]) __THROW
GFAPI_PUBLIC(glfs_futimens, 3.4.0);
ssize_t glfs_getxattr (glfs_t *fs, const char *path, const char *name,
void *value, size_t size) __THROW
GFAPI_PUBLIC(glfs_getxattr, 3.4.0);
ssize_t glfs_lgetxattr (glfs_t *fs, const char *path, const char *name,
void *value, size_t size) __THROW
GFAPI_PUBLIC(glfs_lgetxattr, 3.4.0);
ssize_t glfs_fgetxattr (glfs_fd_t *fd, const char *name,
void *value, size_t size) __THROW
GFAPI_PUBLIC(glfs_fgetxattr, 3.4.0);
ssize_t glfs_listxattr (glfs_t *fs, const char *path,
void *value, size_t size) __THROW
GFAPI_PUBLIC(glfs_listxattr, 3.4.0);
ssize_t glfs_llistxattr (glfs_t *fs, const char *path, void *value,
size_t size) __THROW
GFAPI_PUBLIC(glfs_llistxattr, 3.4.0);
ssize_t glfs_flistxattr (glfs_fd_t *fd, void *value, size_t size) __THROW
GFAPI_PUBLIC(glfs_flistxattr, 3.4.0);
int glfs_setxattr (glfs_t *fs, const char *path, const char *name,
const void *value, size_t size, int flags) __THROW
GFAPI_PUBLIC(glfs_setxattr, 3.4.0);
int glfs_lsetxattr (glfs_t *fs, const char *path, const char *name,
const void *value, size_t size, int flags) __THROW
GFAPI_PUBLIC(glfs_lsetxattr, 3.4.0);
int glfs_fsetxattr (glfs_fd_t *fd, const char *name,
const void *value, size_t size, int flags) __THROW
GFAPI_PUBLIC(glfs_fsetxattr, 3.4.0);
int glfs_removexattr (glfs_t *fs, const char *path, const char *name) __THROW
GFAPI_PUBLIC(glfs_removexattr, 3.4.0);
int glfs_lremovexattr (glfs_t *fs, const char *path, const char *name) __THROW
GFAPI_PUBLIC(glfs_lremovexattr, 3.4.0);
int glfs_fremovexattr (glfs_fd_t *fd, const char *name) __THROW
GFAPI_PUBLIC(glfs_fremovexattr, 3.4.0);
int glfs_fallocate(glfs_fd_t *fd, int keep_size,
off_t offset, size_t len) __THROW
GFAPI_PUBLIC(glfs_fallocate, 3.5.0);
int glfs_discard(glfs_fd_t *fd, off_t offset, size_t len) __THROW
GFAPI_PUBLIC(glfs_discard, 3.5.0);
int glfs_discard_async (glfs_fd_t *fd, off_t length, size_t lent,
glfs_io_cbk fn, void *data) __THROW
GFAPI_PUBLIC(glfs_discard_async, 3.5.0);
int glfs_zerofill(glfs_fd_t *fd, off_t offset, off_t len) __THROW
GFAPI_PUBLIC(glfs_zerofill, 3.5.0);
int glfs_zerofill_async (glfs_fd_t *fd, off_t length, off_t len,
glfs_io_cbk fn, void *data) __THROW
GFAPI_PUBLIC(glfs_zerofill_async, 3.5.0);
char *glfs_getcwd (glfs_t *fs, char *buf, size_t size) __THROW
GFAPI_PUBLIC(glfs_getcwd, 3.4.0);
int glfs_chdir (glfs_t *fs, const char *path) __THROW
GFAPI_PUBLIC(glfs_chdir, 3.4.0);
int glfs_fchdir (glfs_fd_t *fd) __THROW
GFAPI_PUBLIC(glfs_fchdir, 3.4.0);
char *glfs_realpath (glfs_t *fs, const char *path, char *resolved_path) __THROW
GFAPI_PUBLIC(glfs_realpath, 3.7.17);
/*
* @cmd and @flock are as specified in man fcntl(2).
*/
int glfs_posix_lock (glfs_fd_t *fd, int cmd, struct flock *flock) __THROW
GFAPI_PUBLIC(glfs_posix_lock, 3.4.0);
/*
SYNOPSIS
glfs_file_lock: Request extended byte range lock on a file
DESCRIPTION
This function is capable of requesting either advisory or mandatory type
byte range locks on a file.
Note: To set a unique owner key for locks based on a particular file
descriptor, make use of glfs_fd_set_lkowner() api to do so before
requesting lock via this api. This owner key will be further consumed
by other incoming data modifying file operations via the same file
descriptor.
PARAMETERS
@fd: File descriptor
@cmd: As specified in man fcntl(2).
@flock: As specified in man fcntl(2).
@lk_mode: Required lock type from options available with the
enum glfs_lock_mode_t defined below.
RETURN VALUES
0 : Success. Lock has been granted.
-1 : Failure. @errno will be set indicating the type of failure.
*/
/* Lock modes used by glfs_file_lock() */
enum glfs_lock_mode_t {
GLFS_LK_ADVISORY = 0,
GLFS_LK_MANDATORY
};
int glfs_file_lock (glfs_fd_t *fd, int cmd, struct flock *flock,
enum glfs_lock_mode_t lk_mode) __THROW
GFAPI_PUBLIC(glfs_file_lock, 3.13.0);
glfs_fd_t *glfs_dup (glfs_fd_t *fd) __THROW
GFAPI_PUBLIC(glfs_dup, 3.4.0);
void glfs_free (void *ptr) __THROW
GFAPI_PUBLIC(glfs_free, 3.7.16);
/*
* glfs_sysrq: send a system request to the @fs instance
*
* Different commands for @sysrq are possible, the defines for these are listed
* below the function definition.
*
* This function always returns success if the @sysrq is recognized. The return
* value does not way anythin about the result of the @sysrq execution. Not all
* @sysrq command will be able to return a success/failure status.
*/
int glfs_sysrq (glfs_t *fs, char sysrq) __THROW
GFAPI_PUBLIC(glfs_sysrq, 3.10.0);
#define GLFS_SYSRQ_HELP 'h' /* log a message with supported sysrq commands */
#define GLFS_SYSRQ_STATEDUMP 's' /* create a statedump */
/*
* Structure returned as part of xreaddirplus
*/
struct glfs_xreaddirp_stat;
/* Request flags to be used in XREADDIRP operation */
#define GFAPI_XREADDIRP_NULL 0x00000000 /* by default, no stat will be fetched */
#define GFAPI_XREADDIRP_STAT 0x00000001 /* Get stat */
#define GFAPI_XREADDIRP_HANDLE 0x00000002 /* Get object handle */
/*
* This stat structure returned gets freed as part of glfs_free(xstat)
*/
struct stat*
glfs_xreaddirplus_get_stat (struct glfs_xreaddirp_stat *xstat) __THROW
GFAPI_PUBLIC(glfs_xreaddirplus_get_stat, 3.11.0);
/*
* SYNOPSIS
*
* glfs_xreaddirplus_r: Extended Readirplus operation
*
* DESCRIPTION
*
* This API does readdirplus operation, but along with stat it can fetch other
* extra information like object handles etc for each of the dirents returned
* based on requested flags. On success it returns the set of flags successfully
* processed.
*
* Note that there are chances that some of the requested information may not be
* available or returned (for example if reached EOD). Ensure to validate the
* returned value to determine what flags have been successfully processed
* & set.
*
* PARAMETERS
*
* INPUT:
* @glfd: GFAPI file descriptor of the directory
* @flags: Flags determining xreaddirp_stat requested
* Current available values are:
* GFAPI_XREADDIRP_NULL
* GFAPI_XREADDIRP_STAT
* GFAPI_XREADDIRP_HANDLE
* @ext: Dirent struture to copy the values to
* (though optional recommended to be allocated by application
* esp., in multi-threaded environement)
*
* OUTPUT:
* @res: to store the next dirent value. If NULL and return value is '0',
* it means it reached end of the directory.
* @xstat_p: Pointer to contain all the requested data returned
* for that dirent. Application should make use of glfs_free() API
* to free this pointer and the variables returned by
* glfs_xreaddirplus_get_*() APIs.
*
* RETURN VALUE:
* >=0: SUCCESS (value contains the flags successfully processed)
* -1: FAILURE
*/
int
glfs_xreaddirplus_r (struct glfs_fd *glfd, uint32_t flags,
struct glfs_xreaddirp_stat **xstat_p,
struct dirent *ext, struct dirent **res) __THROW
GFAPI_PUBLIC(glfs_xreaddirplus_r, 3.11.0);
#define GFAPI_MAX_LOCK_OWNER_LEN 255
/*
*
* DESCRIPTION
*
* This API allows application to set lk_owner on a fd.
* A glfd can be associated with only single lk_owner. In case if there
* is need to set another lk_owner, applications can make use of
* 'glfs_dup' to get duplicate glfd and set new lk_owner on that second
* glfd.
*
* Also its not recommended to override or clear lk_owner value as the
* same shall be used to flush any outstanding locks while closing the fd.
*
* PARAMETERS
*
* INPUT:
* @glfd: GFAPI file descriptor
* @len: Size of lk_owner buffer. Max value can be GFAPI_MAX_LOCK_OWNER_LEN
* @data: lk_owner data buffer.
*
* OUTPUT:
* 0: SUCCESS
* -1: FAILURE
*/
int glfs_fd_set_lkowner (glfs_fd_t *glfd, void *data, int len) __THROW
GFAPI_PUBLIC(glfs_fd_set_lkowner, 3.10.7);
/*
* Applications (currently NFS-Ganesha) can make use of this
* structure to read upcall notifications sent by server either
* by polling or registering a callback function.
*
* On success, applications need to check for 'reason' to decide
* if any upcall event is received.
*
* Currently supported upcall_events -
* GLFS_UPCALL_INODE_INVALIDATE -
* 'event_arg' - glfs_upcall_inode
*
* After processing the event, applications need to free 'event_arg' with
* glfs_free().
*
* Also similar to I/Os, the application should ideally stop polling
* or unregister upcall_cbk function before calling glfs_fini(..).
* Hence making an assumption that 'fs' & ctx structures cannot be
* freed while in this routine.
*/
struct glfs_upcall;
struct glfs*
glfs_upcall_get_fs (struct glfs_upcall *arg) __THROW
GFAPI_PUBLIC(glfs_upcall_get_fs, 3.7.16);
enum glfs_upcall_reason {
GLFS_UPCALL_EVENT_NULL = 0,
GLFS_UPCALL_INODE_INVALIDATE, /* invalidate cache entry */
GLFS_UPCALL_RECALL_LEASE, /* recall lease */
};
enum glfs_upcall_reason
glfs_upcall_get_reason (struct glfs_upcall *arg) __THROW
GFAPI_PUBLIC(glfs_upcall_get_reason, 3.7.16);
/*
* Applications first need to make use of above API i.e,
* "glfs_upcall_get_reason" to determine which upcall event it has
* received. Post that below API - "glfs_upcall_get_event" should
* be used to get corresponding upcall event object.
*
* Below are the upcall_reason and corresponding upcall_event objects:
* ==========================================================
* glfs_upcall_reason - event_object
* ==========================================================
* GLFS_UPCALL_EVENT_NULL - NULL
* GLFS_UPCALL_INODE_INVALIDATE - struct glfs_upcall_inode
* GLFS_UPCALL_RECALL_LEASE - struct glfs_upcall_lease
*
* After processing upcall event, glfs_free() should be called on the
* glfs_upcall.
*/
void*
glfs_upcall_get_event (struct glfs_upcall *arg) __THROW
GFAPI_PUBLIC(glfs_upcall_get_event, 3.7.16);
/*
* SYNOPSIS
*
* glfs_upcall_cbk: Upcall callback definition
*
* This is function type definition of the callback function pointer
* which has to be provided by the caller while registering for any
* upcall events.
*
* This function is called whenever any upcall which the application
* has registered for is received from the server.
*
* @up_arg: Upcall structure whose contents need to be interpreted by
* making use of glfs_upcall_* helper routines.
*
* @data: The same context pointer provided by the caller at the time of
* registering of upcall events. This may be used by the caller for any
* of its internal use while processing upcalls.
*/
typedef void (*glfs_upcall_cbk) (struct glfs_upcall *up_arg, void *data);
/*
* List of upcall events supported by gluster/gfapi
*/
#define GLFS_EVENT_INODE_INVALIDATE 0x00000001 /* invalidate cache entry */
#define GLFS_EVENT_RECALL_LEASE 0x00000002 /* Recall lease */
#define GLFS_EVENT_ANY 0xffffffff /* for all the above events */
/*
* SYNOPSIS
*
* glfs_upcall_register: Register for upcall events
*
* DESCRIPTION
*
* This function is used to register for various upcall events application
* is interested in and the callback function to be invoked when such
* events are triggered.
*
* Multiple calls of this routine shall override cbk function. That means
* only one cbk function can be used for all the upcall events registered
* and that shall be the one last updated.
*
* PARAMETERS:
*
* INPUT:
* @fs: The 'virtual mount' object
*
* @event_list: List of upcall events to be registered.
* Current available values are:
* - GLFS_EVENT_INODE_INVALIDATE
* - GLFS_EVENT_RECALL_LEASE
*
* @cbk: The cbk routine to be invoked incase of any upcall received
* @data: Any opaque pointer provided by caller which shall be using while
* making cbk calls. This pointer may be used by caller for any of its
* internal use while processing upcalls. Can be NULL.
*
* RETURN VALUE:
* >0: SUCCESS (value contains the events successfully registered)
* -1: FAILURE
*/
int
glfs_upcall_register (struct glfs *fs, uint32_t event_list,
glfs_upcall_cbk cbk, void *data) __THROW
GFAPI_PUBLIC(glfs_upcall_register, 3.13.0);
/*
* SYNOPSIS
*
* glfs_upcall_unregister: Unregister for upcall events
*
* DESCRIPTION
*
* This function is used to unregister the upcall events application
* is not interested in. In case if the caller unregisters all the events
* it has registered for, it shall no more receive any upcall event.
*
* PARAMETERS:
*
* INPUT:
* @fs: The 'virtual mount' object
*
* @event_list: List of upcall events to be unregistered.
* Current available values are:
* - GLFS_EVENT_INODE_INVALIDATE
* - GLFS_EVENT_RECALL_LEASE
* RETURN VALUE:
* >0: SUCCESS (value contains the events successfully unregistered)
* -1: FAILURE
*/
int
glfs_upcall_unregister (struct glfs *fs, uint32_t event_list) __THROW
GFAPI_PUBLIC(glfs_upcall_unregister, 3.13.0);
/* Lease Types */
enum glfs_lease_types {
GLFS_LEASE_NONE = 0,
GLFS_RD_LEASE = 1,
GLFS_RW_LEASE = 2,
};
typedef enum glfs_lease_types glfs_lease_types_t;
/* Lease cmds */
enum glfs_lease_cmds {
GLFS_GET_LEASE = 1,
GLFS_SET_LEASE = 2,
GLFS_UNLK_LEASE = 3,
};
typedef enum glfs_lease_cmds glfs_lease_cmds_t;
struct glfs_lease {
glfs_lease_cmds_t cmd;
glfs_lease_types_t lease_type;
glfs_leaseid_t lease_id;
unsigned int lease_flags;
};
typedef void (*glfs_recall_cbk) (struct glfs_lease lease, void *data);
/*
SYNOPSIS
glfs_lease: Takes a lease on a file.
DESCRIPTION
This function takes lease on an open file.
PARAMETERS
@glfd: The fd of the file on which lease should be taken,
this fd is returned by glfs_open/glfs_create.
@lease: Struct that defines the lease operation to be performed
on the file.
@lease.cmd - Can be one of the following values
GF_GET_LEASE: Get the lease type currently present on the file,
lease.lease_type will contain GF_RD_LEASE
or GF_RW_LEASE or 0 if no leases.
GF_SET_LEASE: Set the lease of given lease.lease_type on the file.
GF_UNLK_LEASE: Unlock the lease present on the given fd.
Note that the every lease request should have
a corresponding unlk_lease.
@lease.lease_type - Can be one of the following values
GF_RD_LEASE: Read lease on a file, shared lease.
GF_RW_LEASE: Read-Write lease on a file, exclusive lease.
@lease.lease_id - A unique identification of lease, 128bits.
@fn: This is the function that is invoked when the lease has to be recalled
@data: It is a cookie, this pointer is returned as a part of recall
fn and data field are stored as a part of glfs_fd, hence if there are multiple
glfs_lease calls, each of them updates the fn and data fileds. glfs_recall_cbk
will be invoked with the last updated fn and data
RETURN VALUES
0: Successfull completion
<0: Failure. @errno will be set with the type of failure
*/
struct gf_upcall;
int
glfs_lease (struct glfs_fd *glfd, struct glfs_lease *lease,
glfs_recall_cbk fn, void *data) __THROW
GFAPI_PUBLIC(glfs_lease, 4.0.0);
__END_DECLS
#endif /* !_GLFS_H */
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