/* Copyright (c) 2006-2011 Gluster, Inc. This file is part of GlusterFS. GlusterFS is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. GlusterFS is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . */ #include #include #include #include #ifndef _CONFIG_H #define _CONFIG_H #include "config.h" #endif #include "glusterfs.h" #include "compat.h" #include "xlator.h" #include "inode.h" #include "logging.h" #include "common-utils.h" #include "locks.h" #include "common.h" static int __is_lock_grantable (pl_inode_t *pl_inode, posix_lock_t *lock); static void __insert_and_merge (pl_inode_t *pl_inode, posix_lock_t *lock); static int pl_send_prelock_unlock (xlator_t *this, pl_inode_t *pl_inode, posix_lock_t *old_lock); static pl_dom_list_t * __allocate_domain (const char *volume) { pl_dom_list_t *dom = NULL; dom = GF_CALLOC (1, sizeof (*dom), gf_locks_mt_pl_dom_list_t); if (!dom) goto out; dom->domain = gf_strdup(volume); if (!dom->domain) goto out; gf_log ("posix-locks", GF_LOG_TRACE, "New domain allocated: %s", dom->domain); INIT_LIST_HEAD (&dom->inode_list); INIT_LIST_HEAD (&dom->entrylk_list); INIT_LIST_HEAD (&dom->blocked_entrylks); INIT_LIST_HEAD (&dom->inodelk_list); INIT_LIST_HEAD (&dom->blocked_inodelks); out: if (dom && (NULL == dom->domain)) { GF_FREE (dom); dom = NULL; } return dom; } /* Returns domain for the lock. If domain is not present, * allocates a domain and returns it */ pl_dom_list_t * get_domain (pl_inode_t *pl_inode, const char *volume) { pl_dom_list_t *dom = NULL; GF_VALIDATE_OR_GOTO (POSIX_LOCKS, pl_inode, out); GF_VALIDATE_OR_GOTO (POSIX_LOCKS, volume, out); pthread_mutex_lock (&pl_inode->mutex); { list_for_each_entry (dom, &pl_inode->dom_list, inode_list) { if (strcmp (dom->domain, volume) == 0) goto unlock; } dom = __allocate_domain (volume); if (dom) list_add (&dom->inode_list, &pl_inode->dom_list); } unlock: pthread_mutex_unlock (&pl_inode->mutex); if (dom) { gf_log (POSIX_LOCKS, GF_LOG_TRACE, "Domain %s found", volume); } else { gf_log (POSIX_LOCKS, GF_LOG_TRACE, "Domain %s not found", volume); } out: return dom; } unsigned long fd_to_fdnum (fd_t *fd) { return ((unsigned long) fd); } fd_t * fd_from_fdnum (posix_lock_t *lock) { return ((fd_t *) lock->fd_num); } int __pl_inode_is_empty (pl_inode_t *pl_inode) { pl_dom_list_t *dom = NULL; int is_empty = 1; if (!list_empty (&pl_inode->ext_list)) is_empty = 0; list_for_each_entry (dom, &pl_inode->dom_list, inode_list) { if (!list_empty (&dom->entrylk_list)) is_empty = 0; if (!list_empty (&dom->inodelk_list)) is_empty = 0; } return is_empty; } void pl_print_locker (char *str, int size, xlator_t *this, call_frame_t *frame) { snprintf (str, size, "Pid=%llu, lk-owner=%s, Transport=%p, Frame=%llu", (unsigned long long) frame->root->pid, lkowner_utoa (&frame->root->lk_owner), (void *)frame->root->trans, (unsigned long long) frame->root->unique); } void pl_print_lockee (char *str, int size, fd_t *fd, loc_t *loc) { inode_t *inode = NULL; char *ipath = NULL; int ret = 0; if (fd) inode = fd->inode; if (loc) inode = loc->inode; if (!inode) { snprintf (str, size, ""); return; } if (loc && loc->path) { ipath = gf_strdup (loc->path); } else { ret = inode_path (inode, NULL, &ipath); if (ret <= 0) ipath = NULL; } snprintf (str, size, "gfid=%s, fd=%p, path=%s", uuid_utoa (inode->gfid), fd, ipath ? ipath : ""); if (ipath) GF_FREE (ipath); } void pl_print_lock (char *str, int size, int cmd, struct gf_flock *flock, gf_lkowner_t *owner) { char *cmd_str = NULL; char *type_str = NULL; switch (cmd) { #if F_GETLK != F_GETLK64 case F_GETLK64: #endif case F_GETLK: cmd_str = "GETLK"; break; #if F_SETLK != F_SETLK64 case F_SETLK64: #endif case F_SETLK: cmd_str = "SETLK"; break; #if F_SETLKW != F_SETLKW64 case F_SETLKW64: #endif case F_SETLKW: cmd_str = "SETLKW"; break; default: cmd_str = "UNKNOWN"; break; } switch (flock->l_type) { case F_RDLCK: type_str = "READ"; break; case F_WRLCK: type_str = "WRITE"; break; case F_UNLCK: type_str = "UNLOCK"; break; default: type_str = "UNKNOWN"; break; } snprintf (str, size, "lock=FCNTL, cmd=%s, type=%s, " "start=%llu, len=%llu, pid=%llu, lk-owner=%s", cmd_str, type_str, (unsigned long long) flock->l_start, (unsigned long long) flock->l_len, (unsigned long long) flock->l_pid, lkowner_utoa (owner)); } void pl_trace_in (xlator_t *this, call_frame_t *frame, fd_t *fd, loc_t *loc, int cmd, struct gf_flock *flock, const char *domain) { posix_locks_private_t *priv = NULL; char pl_locker[256]; char pl_lockee[256]; char pl_lock[256]; priv = this->private; if (!priv->trace) return; pl_print_locker (pl_locker, 256, this, frame); pl_print_lockee (pl_lockee, 256, fd, loc); if (domain) pl_print_inodelk (pl_lock, 256, cmd, flock, domain); else pl_print_lock (pl_lock, 256, cmd, flock, &frame->root->lk_owner); gf_log (this->name, GF_LOG_INFO, "[REQUEST] Locker = {%s} Lockee = {%s} Lock = {%s}", pl_locker, pl_lockee, pl_lock); } void pl_print_verdict (char *str, int size, int op_ret, int op_errno) { char *verdict = NULL; if (op_ret == 0) { verdict = "GRANTED"; } else { switch (op_errno) { case EAGAIN: verdict = "TRYAGAIN"; break; default: verdict = strerror (op_errno); } } snprintf (str, size, "%s", verdict); } void pl_trace_out (xlator_t *this, call_frame_t *frame, fd_t *fd, loc_t *loc, int cmd, struct gf_flock *flock, int op_ret, int op_errno, const char *domain) { posix_locks_private_t *priv = NULL; char pl_locker[256]; char pl_lockee[256]; char pl_lock[256]; char verdict[32]; priv = this->private; if (!priv->trace) return; pl_print_locker (pl_locker, 256, this, frame); pl_print_lockee (pl_lockee, 256, fd, loc); if (domain) pl_print_inodelk (pl_lock, 256, cmd, flock, domain); else pl_print_lock (pl_lock, 256, cmd, flock, &frame->root->lk_owner); pl_print_verdict (verdict, 32, op_ret, op_errno); gf_log (this->name, GF_LOG_INFO, "[%s] Locker = {%s} Lockee = {%s} Lock = {%s}", verdict, pl_locker, pl_lockee, pl_lock); } void pl_trace_block (xlator_t *this, call_frame_t *frame, fd_t *fd, loc_t *loc, int cmd, struct gf_flock *flock, const char *domain) { posix_locks_private_t *priv = NULL; char pl_locker[256]; char pl_lockee[256]; char pl_lock[256]; priv = this->private; if (!priv->trace) return; pl_print_locker (pl_locker, 256, this, frame); pl_print_lockee (pl_lockee, 256, fd, loc); if (domain) pl_print_inodelk (pl_lock, 256, cmd, flock, domain); else pl_print_lock (pl_lock, 256, cmd, flock, &frame->root->lk_owner); gf_log (this->name, GF_LOG_INFO, "[BLOCKED] Locker = {%s} Lockee = {%s} Lock = {%s}", pl_locker, pl_lockee, pl_lock); } void pl_trace_flush (xlator_t *this, call_frame_t *frame, fd_t *fd) { posix_locks_private_t *priv = NULL; char pl_locker[256]; char pl_lockee[256]; pl_inode_t *pl_inode = NULL; priv = this->private; if (!priv->trace) return; pl_inode = pl_inode_get (this, fd->inode); if (pl_inode && __pl_inode_is_empty (pl_inode)) return; pl_print_locker (pl_locker, 256, this, frame); pl_print_lockee (pl_lockee, 256, fd, NULL); gf_log (this->name, GF_LOG_INFO, "[FLUSH] Locker = {%s} Lockee = {%s}", pl_locker, pl_lockee); } void pl_trace_release (xlator_t *this, fd_t *fd) { posix_locks_private_t *priv = NULL; char pl_lockee[256]; priv = this->private; if (!priv->trace) return; pl_print_lockee (pl_lockee, 256, fd, NULL); gf_log (this->name, GF_LOG_INFO, "[RELEASE] Lockee = {%s}", pl_lockee); } void pl_update_refkeeper (xlator_t *this, inode_t *inode) { pl_inode_t *pl_inode = NULL; int is_empty = 0; int need_unref = 0; int need_ref = 0; pl_inode = pl_inode_get (this, inode); pthread_mutex_lock (&pl_inode->mutex); { is_empty = __pl_inode_is_empty (pl_inode); if (is_empty && pl_inode->refkeeper) { need_unref = 1; pl_inode->refkeeper = NULL; } if (!is_empty && !pl_inode->refkeeper) { need_ref = 1; pl_inode->refkeeper = inode; } } pthread_mutex_unlock (&pl_inode->mutex); if (need_unref) inode_unref (inode); if (need_ref) inode_ref (inode); } pl_inode_t * pl_inode_get (xlator_t *this, inode_t *inode) { uint64_t tmp_pl_inode = 0; pl_inode_t *pl_inode = NULL; int ret = 0; ret = inode_ctx_get (inode, this,&tmp_pl_inode); if (ret == 0) { pl_inode = (pl_inode_t *)(long)tmp_pl_inode; goto out; } pl_inode = GF_CALLOC (1, sizeof (*pl_inode), gf_locks_mt_pl_inode_t); if (!pl_inode) { goto out; } gf_log (this->name, GF_LOG_TRACE, "Allocating new pl inode"); pthread_mutex_init (&pl_inode->mutex, NULL); INIT_LIST_HEAD (&pl_inode->dom_list); INIT_LIST_HEAD (&pl_inode->ext_list); INIT_LIST_HEAD (&pl_inode->rw_list); INIT_LIST_HEAD (&pl_inode->reservelk_list); INIT_LIST_HEAD (&pl_inode->blocked_reservelks); INIT_LIST_HEAD (&pl_inode->blocked_calls); inode_ctx_put (inode, this, (uint64_t)(long)(pl_inode)); out: return pl_inode; } /* Create a new posix_lock_t */ posix_lock_t * new_posix_lock (struct gf_flock *flock, void *transport, pid_t client_pid, gf_lkowner_t *owner, fd_t *fd) { posix_lock_t *lock = NULL; GF_VALIDATE_OR_GOTO (POSIX_LOCKS, flock, out); GF_VALIDATE_OR_GOTO (POSIX_LOCKS, transport, out); GF_VALIDATE_OR_GOTO (POSIX_LOCKS, fd, out); lock = GF_CALLOC (1, sizeof (posix_lock_t), gf_locks_mt_posix_lock_t); if (!lock) { goto out; } lock->fl_start = flock->l_start; lock->fl_type = flock->l_type; if (flock->l_len == 0) lock->fl_end = LLONG_MAX; else lock->fl_end = flock->l_start + flock->l_len - 1; lock->transport = transport; lock->fd_num = fd_to_fdnum (fd); lock->fd = fd; lock->client_pid = client_pid; lock->owner = *owner; INIT_LIST_HEAD (&lock->list); out: return lock; } /* Delete a lock from the inode's lock list */ void __delete_lock (pl_inode_t *pl_inode, posix_lock_t *lock) { list_del_init (&lock->list); } /* Destroy a posix_lock */ void __destroy_lock (posix_lock_t *lock) { GF_FREE (lock); } /* Convert a posix_lock to a struct gf_flock */ void posix_lock_to_flock (posix_lock_t *lock, struct gf_flock *flock) { flock->l_pid = lock->client_pid; flock->l_type = lock->fl_type; flock->l_start = lock->fl_start; flock->l_owner = lock->owner; if (lock->fl_end == LLONG_MAX) flock->l_len = 0; else flock->l_len = lock->fl_end - lock->fl_start + 1; } /* Insert the lock into the inode's lock list */ static void __insert_lock (pl_inode_t *pl_inode, posix_lock_t *lock) { if (lock->blocked) gettimeofday (&lock->blkd_time, NULL); else gettimeofday (&lock->granted_time, NULL); list_add_tail (&lock->list, &pl_inode->ext_list); return; } /* Return true if the locks overlap, false otherwise */ int locks_overlap (posix_lock_t *l1, posix_lock_t *l2) { /* Note: FUSE always gives us absolute offsets, so no need to worry about SEEK_CUR or SEEK_END */ return ((l1->fl_end >= l2->fl_start) && (l2->fl_end >= l1->fl_start)); } /* Return true if the locks have the same owner */ int same_owner (posix_lock_t *l1, posix_lock_t *l2) { return (is_same_lkowner (&l1->owner, &l2->owner) && (l1->transport == l2->transport)); } /* Delete all F_UNLCK locks */ void __delete_unlck_locks (pl_inode_t *pl_inode) { posix_lock_t *l = NULL; posix_lock_t *tmp = NULL; list_for_each_entry_safe (l, tmp, &pl_inode->ext_list, list) { if (l->fl_type == F_UNLCK) { __delete_lock (pl_inode, l); __destroy_lock (l); } } } /* Add two locks */ static posix_lock_t * add_locks (posix_lock_t *l1, posix_lock_t *l2) { posix_lock_t *sum = NULL; sum = GF_CALLOC (1, sizeof (posix_lock_t), gf_locks_mt_posix_lock_t); if (!sum) return NULL; sum->fl_start = min (l1->fl_start, l2->fl_start); sum->fl_end = max (l1->fl_end, l2->fl_end); return sum; } /* Subtract two locks */ struct _values { posix_lock_t *locks[3]; }; /* {big} must always be contained inside {small} */ static struct _values subtract_locks (posix_lock_t *big, posix_lock_t *small) { struct _values v = { .locks = {0, 0, 0} }; if ((big->fl_start == small->fl_start) && (big->fl_end == small->fl_end)) { /* both edges coincide with big */ v.locks[0] = GF_CALLOC (1, sizeof (posix_lock_t), gf_locks_mt_posix_lock_t); if (!v.locks[0]) goto out; memcpy (v.locks[0], big, sizeof (posix_lock_t)); v.locks[0]->fl_type = small->fl_type; goto done; } if ((small->fl_start > big->fl_start) && (small->fl_end < big->fl_end)) { /* both edges lie inside big */ v.locks[0] = GF_CALLOC (1, sizeof (posix_lock_t), gf_locks_mt_posix_lock_t); if (!v.locks[0]) goto out; v.locks[1] = GF_CALLOC (1, sizeof (posix_lock_t), gf_locks_mt_posix_lock_t); if (!v.locks[1]) goto out; v.locks[2] = GF_CALLOC (1, sizeof (posix_lock_t), gf_locks_mt_posix_lock_t); if (!v.locks[1]) goto out; memcpy (v.locks[0], big, sizeof (posix_lock_t)); v.locks[0]->fl_end = small->fl_start - 1; memcpy (v.locks[1], small, sizeof (posix_lock_t)); memcpy (v.locks[2], big, sizeof (posix_lock_t)); v.locks[2]->fl_start = small->fl_end + 1; goto done; } /* one edge coincides with big */ if (small->fl_start == big->fl_start) { v.locks[0] = GF_CALLOC (1, sizeof (posix_lock_t), gf_locks_mt_posix_lock_t); if (!v.locks[0]) goto out; v.locks[1] = GF_CALLOC (1, sizeof (posix_lock_t), gf_locks_mt_posix_lock_t); if (!v.locks[1]) goto out; memcpy (v.locks[0], big, sizeof (posix_lock_t)); v.locks[0]->fl_start = small->fl_end + 1; memcpy (v.locks[1], small, sizeof (posix_lock_t)); goto done; } if (small->fl_end == big->fl_end) { v.locks[0] = GF_CALLOC (1, sizeof (posix_lock_t), gf_locks_mt_posix_lock_t); if (!v.locks[0]) goto out; v.locks[1] = GF_CALLOC (1, sizeof (posix_lock_t), gf_locks_mt_posix_lock_t); if (!v.locks[1]) goto out; memcpy (v.locks[0], big, sizeof (posix_lock_t)); v.locks[0]->fl_end = small->fl_start - 1; memcpy (v.locks[1], small, sizeof (posix_lock_t)); goto done; } GF_ASSERT (0); gf_log (POSIX_LOCKS, GF_LOG_ERROR, "Unexpected case in subtract_locks"); out: if (v.locks[0]) { GF_FREE (v.locks[0]); v.locks[0] = NULL; } if (v.locks[1]) { GF_FREE (v.locks[1]); v.locks[1] = NULL; } if (v.locks[2]) { GF_FREE (v.locks[2]); v.locks[2] = NULL; } done: return v; } /* Start searching from {begin}, and return the first lock that conflicts, NULL if no conflict If {begin} is NULL, then start from the beginning of the list */ static posix_lock_t * first_overlap (pl_inode_t *pl_inode, posix_lock_t *lock) { posix_lock_t *l = NULL; list_for_each_entry (l, &pl_inode->ext_list, list) { if (l->blocked) continue; if (locks_overlap (l, lock)) return l; } return NULL; } /* Return true if lock is grantable */ static int __is_lock_grantable (pl_inode_t *pl_inode, posix_lock_t *lock) { posix_lock_t *l = NULL; int ret = 1; list_for_each_entry (l, &pl_inode->ext_list, list) { if (!l->blocked && locks_overlap (lock, l)) { if (((l->fl_type == F_WRLCK) || (lock->fl_type == F_WRLCK)) && (lock->fl_type != F_UNLCK) && !same_owner (l, lock)) { ret = 0; break; } } } return ret; } extern void do_blocked_rw (pl_inode_t *); static void __insert_and_merge (pl_inode_t *pl_inode, posix_lock_t *lock) { posix_lock_t *conf = NULL; posix_lock_t *t = NULL; posix_lock_t *sum = NULL; int i = 0; struct _values v = { .locks = {0, 0, 0} }; list_for_each_entry_safe (conf, t, &pl_inode->ext_list, list) { if (!locks_overlap (conf, lock)) continue; if (same_owner (conf, lock)) { if (conf->fl_type == lock->fl_type) { sum = add_locks (lock, conf); sum->fl_type = lock->fl_type; sum->transport = lock->transport; sum->fd_num = lock->fd_num; sum->client_pid = lock->client_pid; sum->owner = lock->owner; __delete_lock (pl_inode, conf); __destroy_lock (conf); __destroy_lock (lock); __insert_and_merge (pl_inode, sum); return; } else { sum = add_locks (lock, conf); sum->fl_type = conf->fl_type; sum->transport = conf->transport; sum->fd_num = conf->fd_num; sum->client_pid = conf->client_pid; sum->owner = conf->owner; v = subtract_locks (sum, lock); __delete_lock (pl_inode, conf); __destroy_lock (conf); __delete_lock (pl_inode, lock); __destroy_lock (lock); __destroy_lock (sum); for (i = 0; i < 3; i++) { if (!v.locks[i]) continue; INIT_LIST_HEAD (&v.locks[i]->list); __insert_and_merge (pl_inode, v.locks[i]); } __delete_unlck_locks (pl_inode); return; } } if (lock->fl_type == F_UNLCK) { continue; } if ((conf->fl_type == F_RDLCK) && (lock->fl_type == F_RDLCK)) { __insert_lock (pl_inode, lock); return; } } /* no conflicts, so just insert */ if (lock->fl_type != F_UNLCK) { __insert_lock (pl_inode, lock); } else { __destroy_lock (lock); } } void __grant_blocked_locks (xlator_t *this, pl_inode_t *pl_inode, struct list_head *granted) { struct list_head tmp_list; posix_lock_t *l = NULL; posix_lock_t *tmp = NULL; posix_lock_t *conf = NULL; INIT_LIST_HEAD (&tmp_list); list_for_each_entry_safe (l, tmp, &pl_inode->ext_list, list) { if (l->blocked) { conf = first_overlap (pl_inode, l); if (conf) continue; l->blocked = 0; list_move_tail (&l->list, &tmp_list); } } list_for_each_entry_safe (l, tmp, &tmp_list, list) { list_del_init (&l->list); if (__is_lock_grantable (pl_inode, l)) { conf = GF_CALLOC (1, sizeof (*conf), gf_locks_mt_posix_lock_t); if (!conf) { l->blocked = 1; __insert_lock (pl_inode, l); continue; } conf->frame = l->frame; l->frame = NULL; posix_lock_to_flock (l, &conf->user_flock); gf_log (this->name, GF_LOG_TRACE, "%s (pid=%d) lk-owner:%s %"PRId64" - %"PRId64" => Granted", l->fl_type == F_UNLCK ? "Unlock" : "Lock", l->client_pid, lkowner_utoa (&l->owner), l->user_flock.l_start, l->user_flock.l_len); __insert_and_merge (pl_inode, l); list_add (&conf->list, granted); } else { l->blocked = 1; __insert_lock (pl_inode, l); } } } void grant_blocked_locks (xlator_t *this, pl_inode_t *pl_inode) { struct list_head granted_list; posix_lock_t *tmp = NULL; posix_lock_t *lock = NULL; INIT_LIST_HEAD (&granted_list); pthread_mutex_lock (&pl_inode->mutex); { __grant_blocked_locks (this, pl_inode, &granted_list); } pthread_mutex_unlock (&pl_inode->mutex); list_for_each_entry_safe (lock, tmp, &granted_list, list) { list_del_init (&lock->list); pl_trace_out (this, lock->frame, NULL, NULL, F_SETLKW, &lock->user_flock, 0, 0, NULL); STACK_UNWIND (lock->frame, 0, 0, &lock->user_flock); GF_FREE (lock); } return; } static int pl_send_prelock_unlock (xlator_t *this, pl_inode_t *pl_inode, posix_lock_t *old_lock) { struct gf_flock flock = {0,}; posix_lock_t *unlock_lock = NULL; struct list_head granted_list; posix_lock_t *tmp = NULL; posix_lock_t *lock = NULL; int ret = -1; INIT_LIST_HEAD (&granted_list); flock.l_type = F_UNLCK; flock.l_whence = old_lock->user_flock.l_whence; flock.l_start = old_lock->user_flock.l_start; flock.l_len = old_lock->user_flock.l_len; unlock_lock = new_posix_lock (&flock, old_lock->transport, old_lock->client_pid, &old_lock->owner, old_lock->fd); GF_VALIDATE_OR_GOTO (this->name, unlock_lock, out); ret = 0; __insert_and_merge (pl_inode, unlock_lock); __grant_blocked_locks (this, pl_inode, &granted_list); list_for_each_entry_safe (lock, tmp, &granted_list, list) { list_del_init (&lock->list); pl_trace_out (this, lock->frame, NULL, NULL, F_SETLKW, &lock->user_flock, 0, 0, NULL); STACK_UNWIND (lock->frame, 0, 0, &lock->user_flock); GF_FREE (lock); } out: return ret; } int pl_setlk (xlator_t *this, pl_inode_t *pl_inode, posix_lock_t *lock, int can_block) { int ret = 0; errno = 0; pthread_mutex_lock (&pl_inode->mutex); { /* Send unlock before the actual lock to prevent lock upgrade / downgrade problems only if: - it is a blocking call - it has other conflicting locks */ if (can_block && !(__is_lock_grantable (pl_inode, lock))) { ret = pl_send_prelock_unlock (this, pl_inode, lock); if (ret) gf_log (this->name, GF_LOG_DEBUG, "Could not send pre-lock " "unlock"); } if (__is_lock_grantable (pl_inode, lock)) { gf_log (this->name, GF_LOG_TRACE, "%s (pid=%d) lk-owner:%s %"PRId64" - %"PRId64" => OK", lock->fl_type == F_UNLCK ? "Unlock" : "Lock", lock->client_pid, lkowner_utoa (&lock->owner), lock->user_flock.l_start, lock->user_flock.l_len); __insert_and_merge (pl_inode, lock); } else if (can_block) { gf_log (this->name, GF_LOG_TRACE, "%s (pid=%d) lk-owner:%s %"PRId64" - %"PRId64" => Blocked", lock->fl_type == F_UNLCK ? "Unlock" : "Lock", lock->client_pid, lkowner_utoa (&lock->owner), lock->user_flock.l_start, lock->user_flock.l_len); lock->blocked = 1; __insert_lock (pl_inode, lock); ret = -1; } else { gf_log (this->name, GF_LOG_TRACE, "%s (pid=%d) lk-owner:%s %"PRId64" - %"PRId64" => NOK", lock->fl_type == F_UNLCK ? "Unlock" : "Lock", lock->client_pid, lkowner_utoa (&lock->owner), lock->user_flock.l_start, lock->user_flock.l_len); errno = EAGAIN; ret = -1; } } pthread_mutex_unlock (&pl_inode->mutex); grant_blocked_locks (this, pl_inode); do_blocked_rw (pl_inode); return ret; } posix_lock_t * pl_getlk (pl_inode_t *pl_inode, posix_lock_t *lock) { posix_lock_t *conf = NULL; conf = first_overlap (pl_inode, lock); if (conf == NULL) { lock->fl_type = F_UNLCK; return lock; } return conf; }