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/*
Copyright (c) 2008-2012 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 _SYNCOP_H
#define _SYNCOP_H
#include "xlator.h"
#include <sys/time.h>
#include <pthread.h>
#include <ucontext.h>
#define SYNCENV_PROC_MAX 16
#define SYNCENV_PROC_MIN 2
#define SYNCPROC_IDLE_TIME 600
/*
* Flags for syncopctx valid elements
*/
#define SYNCOPCTX_UID 0x00000001
#define SYNCOPCTX_GID 0x00000002
#define SYNCOPCTX_GROUPS 0x00000004
#define SYNCOPCTX_PID 0x00000008
#define SYNCOPCTX_LKOWNER 0x00000010
struct synctask;
struct syncproc;
struct syncenv;
typedef int (*synctask_cbk_t) (int ret, call_frame_t *frame, void *opaque);
typedef int (*synctask_fn_t) (void *opaque);
typedef enum {
SYNCTASK_INIT = 0,
SYNCTASK_RUN,
SYNCTASK_SUSPEND,
SYNCTASK_WAIT,
SYNCTASK_DONE,
SYNCTASK_ZOMBIE,
} synctask_state_t;
/* for one sequential execution of @syncfn */
struct synctask {
struct list_head all_tasks;
struct syncenv *env;
xlator_t *xl;
call_frame_t *frame;
call_frame_t *opframe;
synctask_cbk_t synccbk;
synctask_fn_t syncfn;
synctask_state_t state;
void *opaque;
void *stack;
int woken;
int slept;
int ret;
uid_t uid;
gid_t gid;
ucontext_t ctx;
struct syncproc *proc;
pthread_mutex_t mutex; /* for synchronous spawning of synctask */
pthread_cond_t cond;
int done;
struct list_head waitq; /* can wait only "once" at a time */
char btbuf[GF_BACKTRACE_LEN];
};
struct syncproc {
pthread_t processor;
ucontext_t sched;
struct syncenv *env;
struct synctask *current;
};
/* hosts the scheduler thread and framework for executing synctasks */
struct syncenv {
struct syncproc proc[SYNCENV_PROC_MAX];
int procs;
struct list_head runq;
int runcount;
struct list_head waitq;
int waitcount;
int procmin;
int procmax;
pthread_mutex_t mutex;
pthread_cond_t cond;
size_t stacksize;
int destroy; /* FLAG to mark syncenv is in destroy mode
so that no more synctasks are accepted*/
};
typedef enum {
LOCK_NULL = 0,
LOCK_TASK,
LOCK_THREAD
} lock_type_t;
typedef enum {
SYNC_LOCK_DEFAULT = 0,
SYNC_LOCK_RECURSIVE, /*it allows recursive locking*/
} lock_attr_t;
struct synclock {
pthread_mutex_t guard; /* guard the remaining members, pair @cond */
pthread_cond_t cond; /* waiting non-synctasks */
struct list_head waitq; /* waiting synctasks */
volatile int lock; /* true(non zero) or false(zero), lock status */
lock_attr_t attr;
struct synctask *owner; /* NULL if current owner is not a synctask */
pthread_t owner_tid;
lock_type_t type;
};
typedef struct synclock synclock_t;
struct syncbarrier {
pthread_mutex_t guard; /* guard the remaining members, pair @cond */
pthread_cond_t cond; /* waiting non-synctasks */
struct list_head waitq; /* waiting synctasks */
int count; /* count the number of wakes */
};
typedef struct syncbarrier syncbarrier_t;
struct syncargs {
int op_ret;
int op_errno;
struct iatt iatt1;
struct iatt iatt2;
dict_t *xattr;
struct statvfs statvfs_buf;
struct iovec *vector;
int count;
struct iobref *iobref;
char *buffer;
dict_t *xdata;
struct gf_flock flock;
struct gf_lease lease;
/* some more _cbk needs */
uuid_t uuid;
char *errstr;
dict_t *dict;
pthread_mutex_t lock_dict;
syncbarrier_t barrier;
/* do not touch */
struct synctask *task;
pthread_mutex_t mutex;
pthread_cond_t cond;
int done;
gf_dirent_t entries;
off_t offset;
lock_migration_info_t locklist;
};
struct syncopctx {
unsigned int valid; /* valid flags for elements that are set */
uid_t uid;
gid_t gid;
int grpsize;
int ngrps;
gid_t *groups;
pid_t pid;
gf_lkowner_t lk_owner;
};
#define __yawn(args) do { \
args->task = synctask_get (); \
if (args->task) \
break; \
pthread_mutex_init (&args->mutex, NULL); \
pthread_cond_init (&args->cond, NULL); \
args->done = 0; \
} while (0)
#define __wake(args) do { \
if (args->task) { \
synctask_wake (args->task); \
} else { \
pthread_mutex_lock (&args->mutex); \
{ \
args->done = 1; \
pthread_cond_signal (&args->cond); \
} \
pthread_mutex_unlock (&args->mutex); \
} \
} while (0)
#define __yield(args) do { \
if (args->task) { \
synctask_yield (args->task); \
} else { \
pthread_mutex_lock (&args->mutex); \
{ \
while (!args->done) \
pthread_cond_wait (&args->cond, \
&args->mutex); \
} \
pthread_mutex_unlock (&args->mutex); \
pthread_mutex_destroy (&args->mutex); \
pthread_cond_destroy (&args->cond); \
} \
} while (0)
#define SYNCOP(subvol, stb, cbk, op, params ...) do { \
struct synctask *task = NULL; \
call_frame_t *frame = NULL; \
\
task = synctask_get (); \
stb->task = task; \
if (task) \
frame = task->opframe; \
else \
frame = syncop_create_frame (THIS); \
\
if (task) { \
frame->root->uid = task->uid; \
frame->root->gid = task->gid; \
} \
\
__yawn (stb); \
\
STACK_WIND_COOKIE (frame, cbk, (void *)stb, subvol, \
op, params); \
\
__yield (stb); \
if (task) \
STACK_RESET (frame->root); \
else \
STACK_DESTROY (frame->root); \
} while (0)
#define SYNCENV_DEFAULT_STACKSIZE (2 * 1024 * 1024)
struct syncenv * syncenv_new (size_t stacksize, int procmin, int procmax);
void syncenv_destroy (struct syncenv *);
void syncenv_scale (struct syncenv *env);
int synctask_new1 (struct syncenv *, size_t stacksize, synctask_fn_t,
synctask_cbk_t, call_frame_t *frame, void *);
int synctask_new (struct syncenv *, synctask_fn_t, synctask_cbk_t,
call_frame_t *frame, void *);
struct synctask *synctask_create (struct syncenv *, size_t stacksize,
synctask_fn_t, synctask_cbk_t, call_frame_t *,
void *);
int synctask_join (struct synctask *task);
void synctask_wake (struct synctask *task);
void synctask_yield (struct synctask *task);
void synctask_waitfor (struct synctask *task, int count);
#define synctask_barrier_init(args) syncbarrier_init (&args->barrier)
#define synctask_barrier_wait(args, n) syncbarrier_wait (&args->barrier, n)
#define synctask_barrier_wake(args) syncbarrier_wake (&args->barrier)
int synctask_setid (struct synctask *task, uid_t uid, gid_t gid);
#define SYNCTASK_SETID(uid, gid) synctask_setid (synctask_get(), uid, gid);
int syncopctx_setfsuid (void *uid);
int syncopctx_setfsgid (void *gid);
int syncopctx_setfsgroups (int count, const void *groups);
int syncopctx_setfspid (void *pid);
int syncopctx_setfslkowner (gf_lkowner_t *lk_owner);
static inline call_frame_t *
syncop_create_frame (xlator_t *this)
{
call_frame_t *frame = NULL;
int ngrps = -1;
struct syncopctx *opctx = NULL;
frame = create_frame (this, this->ctx->pool);
if (!frame)
return NULL;
opctx = syncopctx_getctx ();
if (opctx && (opctx->valid & SYNCOPCTX_PID))
frame->root->pid = opctx->pid;
else
frame->root->pid = getpid ();
if (opctx && (opctx->valid & SYNCOPCTX_UID))
frame->root->uid = opctx->uid;
else
frame->root->uid = geteuid ();
if (opctx && (opctx->valid & SYNCOPCTX_GID))
frame->root->gid = opctx->gid;
else
frame->root->gid = getegid ();
if (opctx && (opctx->valid & SYNCOPCTX_GROUPS)) {
ngrps = opctx->ngrps;
if (ngrps != 0 && opctx->groups != NULL) {
if (call_stack_alloc_groups (frame->root, ngrps) != 0) {
STACK_DESTROY (frame->root);
return NULL;
}
memcpy (frame->root->groups, opctx->groups,
(sizeof (gid_t) * ngrps));
}
}
else {
ngrps = getgroups (0, 0);
if (ngrps < 0) {
STACK_DESTROY (frame->root);
return NULL;
}
if (call_stack_alloc_groups (frame->root, ngrps) != 0) {
STACK_DESTROY (frame->root);
return NULL;
}
if (getgroups (ngrps, frame->root->groups) < 0) {
STACK_DESTROY (frame->root);
return NULL;
}
}
if (opctx && (opctx->valid & SYNCOPCTX_LKOWNER))
frame->root->lk_owner = opctx->lk_owner;
return frame;
}
int synclock_init (synclock_t *lock, lock_attr_t attr);
int synclock_destroy (synclock_t *lock);
int synclock_lock (synclock_t *lock);
int synclock_trylock (synclock_t *lock);
int synclock_unlock (synclock_t *lock);
int syncbarrier_init (syncbarrier_t *barrier);
int syncbarrier_wait (syncbarrier_t *barrier, int waitfor);
int syncbarrier_wake (syncbarrier_t *barrier);
int syncbarrier_destroy (syncbarrier_t *barrier);
int syncop_lookup (xlator_t *subvol, loc_t *loc,
/* out */
struct iatt *iatt, struct iatt *parent,
/* xdata */
dict_t *xdata_in, dict_t **xdata_out);
int syncop_readdirp (xlator_t *subvol, fd_t *fd, size_t size, off_t off,
/* out */
gf_dirent_t *entries,
dict_t *xdata_in, dict_t **xdata_out);
int syncop_readdir (xlator_t *subvol, fd_t *fd, size_t size, off_t off,
gf_dirent_t *entries, dict_t *xdata_in, dict_t **xdata_out);
int syncop_opendir (xlator_t *subvol, loc_t *loc, fd_t *fd, dict_t *xdata_in,
dict_t **xdata_out);
int syncop_setattr (xlator_t *subvol, loc_t *loc, struct iatt *iatt, int valid,
/* out */
struct iatt *preop, struct iatt *postop, dict_t *xdata_in,
dict_t **xdata_out);
int syncop_fsetattr (xlator_t *subvol, fd_t *fd, struct iatt *iatt, int valid,
/* out */
struct iatt *preop, struct iatt *postop, dict_t *xdata_in,
dict_t **xdata_out);
int syncop_statfs (xlator_t *subvol, loc_t *loc,
/* out */
struct statvfs *buf,
dict_t *xdata_in, dict_t **xdata_out);
int syncop_setxattr (xlator_t *subvol, loc_t *loc, dict_t *dict, int32_t flags,
dict_t *xdata_in, dict_t **xdata_out);
int syncop_fsetxattr (xlator_t *subvol, fd_t *fd, dict_t *dict, int32_t flags,
dict_t *xdata_in, dict_t **xdata_out);
int syncop_listxattr (xlator_t *subvol, loc_t *loc, dict_t **dict,
dict_t *xdata_in, dict_t **xdata_out);
int syncop_getxattr (xlator_t *xl, loc_t *loc, dict_t **dict, const char *key,
dict_t *xdata_in, dict_t **xdata_out);
int syncop_fgetxattr (xlator_t *xl, fd_t *fd, dict_t **dict, const char *key,
dict_t *xdata_in, dict_t **xdata_out);
int syncop_removexattr (xlator_t *subvol, loc_t *loc, const char *name,
dict_t *xdata_in, dict_t **xdata_out);
int syncop_fremovexattr (xlator_t *subvol, fd_t *fd, const char *name,
dict_t *xdata_in, dict_t **xdata_out);
int syncop_create (xlator_t *subvol, loc_t *loc, int32_t flags, mode_t mode,
fd_t *fd, struct iatt *iatt,
dict_t *xdata_in, dict_t **xdata_out);
int syncop_open (xlator_t *subvol, loc_t *loc, int32_t flags, fd_t *fd,
dict_t *xdata_in, dict_t **xdata_out);
int syncop_close (fd_t *fd);
int syncop_write (xlator_t *subvol, fd_t *fd, const char *buf, int size,
off_t offset, struct iobref *iobref, uint32_t flags,
dict_t *xdata_in, dict_t **xdata_out);
int syncop_writev (xlator_t *subvol, fd_t *fd, const struct iovec *vector,
int32_t count, off_t offset, struct iobref *iobref,
uint32_t flags, dict_t *xdata_in, dict_t **xdata_out);
int syncop_readv (xlator_t *subvol, fd_t *fd, size_t size, off_t off,
uint32_t flags,
/* out */
struct iovec **vector, int *count, struct iobref **iobref,
dict_t *xdata_in, dict_t **xdata_out);
int syncop_ftruncate (xlator_t *subvol, fd_t *fd, off_t offset,
dict_t *xdata_in, dict_t **xdata_out);
int syncop_truncate (xlator_t *subvol, loc_t *loc, off_t offset,
dict_t *xdata_in, dict_t **xdata_out);
int syncop_unlink (xlator_t *subvol, loc_t *loc, dict_t *xdata_in,
dict_t **xdata_out);
int syncop_rmdir (xlator_t *subvol, loc_t *loc, int flags, dict_t *xdata_in,
dict_t **xdata_out);
int syncop_fsync (xlator_t *subvol, fd_t *fd, int dataonly, dict_t *xdata_in,
dict_t **xdata_out);
int syncop_flush (xlator_t *subvol, fd_t *fd, dict_t *xdata_in,
dict_t **xdata_out);
int syncop_fstat (xlator_t *subvol, fd_t *fd, struct iatt *stbuf,
dict_t *xdata_in, dict_t **xdata_out);
int syncop_stat (xlator_t *subvol, loc_t *loc, struct iatt *stbuf,
dict_t *xdata_in, dict_t **xdata_out);
int syncop_symlink (xlator_t *subvol, loc_t *loc, const char *newpath,
struct iatt *iatt,
dict_t *xdata_in, dict_t **xdata_out);
int syncop_readlink (xlator_t *subvol, loc_t *loc, char **buffer, size_t size,
dict_t *xdata_in, dict_t **xdata_out);
int syncop_mknod (xlator_t *subvol, loc_t *loc, mode_t mode, dev_t rdev,
struct iatt *iatt, dict_t *xdata_in, dict_t **xdata_out);
int syncop_mkdir (xlator_t *subvol, loc_t *loc, mode_t mode, struct iatt *iatt,
dict_t *xdata_in, dict_t **xdata_out);
int syncop_link (xlator_t *subvol, loc_t *oldloc, loc_t *newloc,
struct iatt *iatt, dict_t *xdata_in, dict_t **xdata_out);
int syncop_fsyncdir (xlator_t *subvol, fd_t *fd, int datasync,
dict_t *xdata_in, dict_t **xdata_out);
int syncop_access (xlator_t *subvol, loc_t *loc, int32_t mask,
dict_t *xdata_in, dict_t **xdata_out);
int syncop_fallocate(xlator_t *subvol, fd_t *fd, int32_t keep_size,
off_t offset, size_t len, dict_t *xdata_in,
dict_t **xdata_out);
int syncop_discard(xlator_t *subvol, fd_t *fd, off_t offset, size_t len,
dict_t *xdata_in, dict_t **xdata_out);
int syncop_zerofill(xlator_t *subvol, fd_t *fd, off_t offset, off_t len,
dict_t *xdata_in, dict_t **xdata_out);
int syncop_rename (xlator_t *subvol, loc_t *oldloc, loc_t *newloc,
dict_t *xdata_in, dict_t **xdata_out);
int syncop_lk (xlator_t *subvol, fd_t *fd, int cmd, struct gf_flock *flock,
dict_t *xdata_in, dict_t **xdata_out);
int syncop_inodelk (xlator_t *subvol, const char *volume, loc_t *loc,
int32_t cmd, struct gf_flock *lock, dict_t *xdata_in,
dict_t **xdata_out);
int syncop_lease (xlator_t *subvol, loc_t *loc, struct gf_lease *lease,
dict_t *xdata_in, dict_t **xdata_out);
int syncop_ipc (xlator_t *subvol, int op, dict_t *xdata_in, dict_t **xdata_out);
int syncop_xattrop (xlator_t *subvol, loc_t *loc, gf_xattrop_flags_t flags,
dict_t *dict, dict_t *xdata_in, dict_t **xdata_out);
int
syncop_fxattrop (xlator_t *subvol, fd_t *fd, gf_xattrop_flags_t flags,
dict_t *dict, dict_t *xdata_in, dict_t **xdata_out);
int
syncop_seek (xlator_t *subvol, fd_t *fd, off_t offset, gf_seek_what_t what,
dict_t *xdata_in, off_t *off);
int
syncop_getactivelk (xlator_t *subvol, loc_t *loc, lock_migration_info_t *locklist,
dict_t *xdata_in, dict_t **xdata_out);
int
syncop_setactivelk_cbk (call_frame_t *frame, void *cookie, xlator_t *this,
int32_t op_ret, int32_t op_errno, dict_t *xdata);
int
syncop_setactivelk (xlator_t *subvol, loc_t *loc,
lock_migration_info_t *locklist, dict_t *xdata_in,
dict_t **xdata_out);
#endif /* _SYNCOP_H */
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