/* Copyright (c) 2006, 2007, 2008 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 Affero 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 Affero General Public License for more details. You should have received a copy of the GNU Affero 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" #include "statedump.h" #ifndef LLONG_MAX #define LLONG_MAX LONG_LONG_MAX /* compat with old gcc */ #endif /* LLONG_MAX */ /* Forward declarations */ void do_blocked_rw (pl_inode_t *); static int __rw_allowable (pl_inode_t *, posix_lock_t *, glusterfs_fop_t); struct _truncate_ops { loc_t loc; fd_t *fd; off_t offset; enum {TRUNCATE, FTRUNCATE} op; }; static pl_fdctx_t * pl_new_fdctx () { pl_fdctx_t *fdctx = NULL; fdctx = GF_CALLOC (1, sizeof (*fdctx), gf_locks_mt_pl_fdctx_t); if (!fdctx) return NULL; INIT_LIST_HEAD (&fdctx->locks_list); return fdctx; } static pl_fdctx_t * pl_check_n_create_fdctx (xlator_t *this, fd_t *fd) { int ret = 0; uint64_t tmp = 0; pl_fdctx_t *fdctx = NULL; if ((this == NULL) || (fd == NULL)) { goto out; } LOCK (&fd->lock); { ret = __fd_ctx_get (fd, this, &tmp); if ((ret != 0) || (tmp == 0)) { fdctx = pl_new_fdctx (); if (fdctx == NULL) { gf_log (this->name, GF_LOG_ERROR, "out of memory"); goto unlock; } } ret = __fd_ctx_set (fd, this, (uint64_t)(long)fdctx); if (ret != 0) { GF_FREE (fdctx); fdctx = NULL; gf_log (this->name, GF_LOG_DEBUG, "failed to set fd ctx"); } } unlock: UNLOCK (&fd->lock); out: return fdctx; } /* static pl_fdctx_t * pl_get_fdctx (xlator_t *this, fd_t *fd) { int ret = 0; uint64_t tmp = 0; ret = fd_ctx_get (fd, this, &tmp); if (ret) { gf_log (this->name, GF_LOG_DEBUG, "Could not get fdctx"); goto out; } return ((pl_fdctx_t *) (long) tmp); out: return NULL; } static int pl_set_fdctx (xlator_t *this, fd_t *fd, pl_fdctx_t *fdctx) { int ret = 0; ret = fd_ctx_set (fd, this, (uint64_t) (unsigned long) (fdctx)); if (ret) { gf_log (this->name, GF_LOG_DEBUG, "Could not set fdctx"); goto out; } out: return ret; } */ int pl_truncate_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, struct iatt *prebuf, struct iatt *postbuf) { struct _truncate_ops *local = NULL; local = frame->local; if (local->op == TRUNCATE) loc_wipe (&local->loc); STACK_UNWIND_STRICT (truncate, frame, op_ret, op_errno, prebuf, postbuf); return 0; } static int truncate_allowed (pl_inode_t *pl_inode, void *transport, pid_t client_pid, uint64_t owner, off_t offset) { posix_lock_t *l = NULL; posix_lock_t region = {.list = {0, }, }; int ret = 1; region.fl_start = offset; region.fl_end = LLONG_MAX; region.transport = transport; region.client_pid = client_pid; region.owner = owner; pthread_mutex_lock (&pl_inode->mutex); { list_for_each_entry (l, &pl_inode->ext_list, list) { if (!l->blocked && locks_overlap (®ion, l) && !same_owner (®ion, l)) { ret = 0; break; } } } pthread_mutex_unlock (&pl_inode->mutex); return ret; } static int truncate_stat_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, struct iatt *buf) { posix_locks_private_t *priv = NULL; struct _truncate_ops *local = NULL; inode_t *inode = NULL; pl_inode_t *pl_inode = NULL; priv = this->private; local = frame->local; if (op_ret != 0) { gf_log (this->name, GF_LOG_ERROR, "got error (errno=%d, stderror=%s) from child", op_errno, strerror (op_errno)); goto unwind; } if (local->op == TRUNCATE) inode = local->loc.inode; else inode = local->fd->inode; pl_inode = pl_inode_get (this, inode); if (!pl_inode) { gf_log (this->name, GF_LOG_ERROR, "Out of memory."); op_ret = -1; op_errno = ENOMEM; goto unwind; } if (priv->mandatory && pl_inode->mandatory && !truncate_allowed (pl_inode, frame->root->trans, frame->root->pid, frame->root->lk_owner, local->offset)) { op_ret = -1; op_errno = EAGAIN; goto unwind; } switch (local->op) { case TRUNCATE: STACK_WIND (frame, pl_truncate_cbk, FIRST_CHILD (this), FIRST_CHILD (this)->fops->truncate, &local->loc, local->offset); break; case FTRUNCATE: STACK_WIND (frame, pl_truncate_cbk, FIRST_CHILD (this), FIRST_CHILD (this)->fops->ftruncate, local->fd, local->offset); break; } return 0; unwind: if (local->op == TRUNCATE) loc_wipe (&local->loc); STACK_UNWIND_STRICT (truncate, frame, op_ret, op_errno, buf, NULL); return 0; } int pl_truncate (call_frame_t *frame, xlator_t *this, loc_t *loc, off_t offset) { struct _truncate_ops *local = NULL; local = GF_CALLOC (1, sizeof (struct _truncate_ops), gf_locks_mt_truncate_ops); if (!local) { gf_log (this->name, GF_LOG_ERROR, "Out of memory."); goto unwind; } local->op = TRUNCATE; local->offset = offset; loc_copy (&local->loc, loc); frame->local = local; STACK_WIND (frame, truncate_stat_cbk, FIRST_CHILD (this), FIRST_CHILD (this)->fops->stat, loc); return 0; unwind: STACK_UNWIND_STRICT (truncate, frame, -1, ENOMEM, NULL, NULL); return 0; } int pl_ftruncate (call_frame_t *frame, xlator_t *this, fd_t *fd, off_t offset) { struct _truncate_ops *local = NULL; local = GF_CALLOC (1, sizeof (struct _truncate_ops), gf_locks_mt_truncate_ops); if (!local) { gf_log (this->name, GF_LOG_ERROR, "Out of memory."); goto unwind; } local->op = FTRUNCATE; local->offset = offset; local->fd = fd; frame->local = local; STACK_WIND (frame, truncate_stat_cbk, FIRST_CHILD(this), FIRST_CHILD(this)->fops->fstat, fd); return 0; unwind: STACK_UNWIND_STRICT (ftruncate, frame, -1, ENOMEM, NULL, NULL); return 0; } static void delete_locks_of_fd (xlator_t *this, pl_inode_t *pl_inode, fd_t *fd) { posix_lock_t *tmp = NULL; posix_lock_t *l = NULL; struct list_head blocked_list; INIT_LIST_HEAD (&blocked_list); pthread_mutex_lock (&pl_inode->mutex); { list_for_each_entry_safe (l, tmp, &pl_inode->ext_list, list) { if ((l->fd_num == fd_to_fdnum(fd))) { if (l->blocked) { list_move_tail (&l->list, &blocked_list); continue; } __delete_lock (pl_inode, l); __destroy_lock (l); } } } pthread_mutex_unlock (&pl_inode->mutex); list_for_each_entry_safe (l, tmp, &blocked_list, list) { list_del_init(&l->list); STACK_UNWIND_STRICT (lk, l->frame, -1, EAGAIN, &l->user_flock); __destroy_lock (l); } grant_blocked_locks (this, pl_inode); do_blocked_rw (pl_inode); } static void __delete_locks_of_owner (pl_inode_t *pl_inode, void *transport, uint64_t owner) { posix_lock_t *tmp = NULL; posix_lock_t *l = NULL; /* TODO: what if it is a blocked lock with pending l->frame */ list_for_each_entry_safe (l, tmp, &pl_inode->ext_list, list) { if ((l->transport == transport) && (l->owner == owner)) { gf_log ("posix-locks", GF_LOG_TRACE, " Flushing lock" "%s (pid=%d) (lk-owner=%"PRIu64") %"PRId64" - %"PRId64" state: %s", l->fl_type == F_UNLCK ? "Unlock" : "Lock", l->client_pid, l->owner, l->user_flock.l_start, l->user_flock.l_len, l->blocked == 1 ? "Blocked" : "Active"); __delete_lock (pl_inode, l); __destroy_lock (l); } } return; } int32_t pl_opendir_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, fd_t *fd) { pl_fdctx_t *fdctx = NULL; if (op_ret < 0) goto unwind; fdctx = pl_check_n_create_fdctx (this, fd); if (!fdctx) { gf_log (this->name, GF_LOG_ERROR, "Out of memory"); op_errno = ENOMEM; op_ret = -1; goto unwind; } unwind: STACK_UNWIND_STRICT (opendir, frame, op_ret, op_errno, fd); return 0; } int32_t pl_opendir (call_frame_t *frame, xlator_t *this, loc_t *loc, fd_t *fd) { STACK_WIND (frame, pl_opendir_cbk, FIRST_CHILD(this), FIRST_CHILD(this)->fops->opendir, loc, fd); return 0; } int pl_flush_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno) { STACK_UNWIND_STRICT (flush, frame, op_ret, op_errno); return 0; } int pl_flush (call_frame_t *frame, xlator_t *this, fd_t *fd) { pl_inode_t *pl_inode = NULL; uint64_t owner = -1; owner = frame->root->lk_owner; pl_inode = pl_inode_get (this, fd->inode); if (!pl_inode) { gf_log (this->name, GF_LOG_DEBUG, "Could not get inode."); STACK_UNWIND_STRICT (flush, frame, -1, EBADFD); return 0; } pl_trace_flush (this, frame, fd); if (owner == 0) { /* Handle special case when protocol/server sets lk-owner to zero. * This usually happens due to a client disconnection. Hence, free * all locks opened with this fd. */ gf_log (this->name, GF_LOG_TRACE, "Releasing all locks with fd %p", fd); delete_locks_of_fd (this, pl_inode, fd); goto wind; } pthread_mutex_lock (&pl_inode->mutex); { __delete_locks_of_owner (pl_inode, frame->root->trans, owner); } pthread_mutex_unlock (&pl_inode->mutex); grant_blocked_locks (this, pl_inode); do_blocked_rw (pl_inode); wind: STACK_WIND (frame, pl_flush_cbk, FIRST_CHILD(this), FIRST_CHILD(this)->fops->flush, fd); return 0; } int pl_open_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, fd_t *fd) { pl_fdctx_t *fdctx = NULL; if (op_ret < 0) goto unwind; fdctx = pl_check_n_create_fdctx (this, fd); if (!fdctx) { gf_log (this->name, GF_LOG_ERROR, "Out of memory"); op_errno = ENOMEM; op_ret = -1; goto unwind; } unwind: STACK_UNWIND_STRICT (open, frame, op_ret, op_errno, fd); return 0; } int pl_open (call_frame_t *frame, xlator_t *this, loc_t *loc, int32_t flags, fd_t *fd, int32_t wbflags) { /* why isn't O_TRUNC being handled ? */ STACK_WIND (frame, pl_open_cbk, FIRST_CHILD(this), FIRST_CHILD(this)->fops->open, loc, flags & ~O_TRUNC, fd, wbflags); return 0; } int pl_create_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, fd_t *fd, inode_t *inode, struct iatt *buf, struct iatt *preparent, struct iatt *postparent) { pl_fdctx_t *fdctx = NULL; if (op_ret < 0) goto unwind; fdctx = pl_check_n_create_fdctx (this, fd); if (!fdctx) { gf_log (this->name, GF_LOG_ERROR, "Out of memory"); op_errno = ENOMEM; op_ret = -1; goto unwind; } unwind: STACK_UNWIND_STRICT (create, frame, op_ret, op_errno, fd, inode, buf, preparent, postparent); return 0; } int pl_create (call_frame_t *frame, xlator_t *this, loc_t *loc, int32_t flags, mode_t mode, fd_t *fd, dict_t *params) { STACK_WIND (frame, pl_create_cbk, FIRST_CHILD (this), FIRST_CHILD (this)->fops->create, loc, flags, mode, fd, params); return 0; } int pl_readv_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, struct iovec *vector, int32_t count, struct iatt *stbuf, struct iobref *iobref) { STACK_UNWIND_STRICT (readv, frame, op_ret, op_errno, vector, count, stbuf, iobref); return 0; } int pl_writev_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, struct iatt *prebuf, struct iatt *postbuf) { STACK_UNWIND_STRICT (writev, frame, op_ret, op_errno, prebuf, postbuf); return 0; } void do_blocked_rw (pl_inode_t *pl_inode) { struct list_head wind_list; pl_rw_req_t *rw = NULL; pl_rw_req_t *tmp = NULL; INIT_LIST_HEAD (&wind_list); pthread_mutex_lock (&pl_inode->mutex); { list_for_each_entry_safe (rw, tmp, &pl_inode->rw_list, list) { if (__rw_allowable (pl_inode, &rw->region, rw->stub->fop)) { list_del_init (&rw->list); list_add_tail (&rw->list, &wind_list); } } } pthread_mutex_unlock (&pl_inode->mutex); list_for_each_entry_safe (rw, tmp, &wind_list, list) { list_del_init (&rw->list); call_resume (rw->stub); GF_FREE (rw); } return; } static int __rw_allowable (pl_inode_t *pl_inode, posix_lock_t *region, glusterfs_fop_t op) { posix_lock_t *l = NULL; int ret = 1; list_for_each_entry (l, &pl_inode->ext_list, list) { if (locks_overlap (l, region) && !same_owner (l, region)) { if ((op == GF_FOP_READ) && (l->fl_type != F_WRLCK)) continue; ret = 0; break; } } return ret; } int pl_readv_cont (call_frame_t *frame, xlator_t *this, fd_t *fd, size_t size, off_t offset) { STACK_WIND (frame, pl_readv_cbk, FIRST_CHILD (this), FIRST_CHILD (this)->fops->readv, fd, size, offset); return 0; } int pl_readv (call_frame_t *frame, xlator_t *this, fd_t *fd, size_t size, off_t offset) { posix_locks_private_t *priv = NULL; pl_inode_t *pl_inode = NULL; pl_rw_req_t *rw = NULL; posix_lock_t region = {.list = {0, }, }; int op_ret = 0; int op_errno = 0; char wind_needed = 1; priv = this->private; pl_inode = pl_inode_get (this, fd->inode); if (priv->mandatory && pl_inode->mandatory) { region.fl_start = offset; region.fl_end = offset + size - 1; region.transport = frame->root->trans; region.fd_num = fd_to_fdnum(fd); region.client_pid = frame->root->pid; region.owner = frame->root->lk_owner; pthread_mutex_lock (&pl_inode->mutex); { wind_needed = __rw_allowable (pl_inode, ®ion, GF_FOP_READ); if (wind_needed) { goto unlock; } if (fd->flags & O_NONBLOCK) { gf_log (this->name, GF_LOG_TRACE, "returning EAGAIN as fd is O_NONBLOCK"); op_errno = EAGAIN; op_ret = -1; goto unlock; } rw = GF_CALLOC (1, sizeof (*rw), gf_locks_mt_pl_rw_req_t); if (!rw) { gf_log (this->name, GF_LOG_ERROR, "Out of memory."); op_errno = ENOMEM; op_ret = -1; goto unlock; } rw->stub = fop_readv_stub (frame, pl_readv_cont, fd, size, offset); if (!rw->stub) { gf_log (this->name, GF_LOG_ERROR, "Out of memory."); op_errno = ENOMEM; op_ret = -1; GF_FREE (rw); goto unlock; } rw->region = region; list_add_tail (&rw->list, &pl_inode->rw_list); } unlock: pthread_mutex_unlock (&pl_inode->mutex); } if (wind_needed) { STACK_WIND (frame, pl_readv_cbk, FIRST_CHILD (this), FIRST_CHILD (this)->fops->readv, fd, size, offset); } if (op_ret == -1) STACK_UNWIND_STRICT (readv, frame, -1, op_errno, NULL, 0, NULL, NULL); return 0; } int pl_writev_cont (call_frame_t *frame, xlator_t *this, fd_t *fd, struct iovec *vector, int count, off_t offset, struct iobref *iobref) { STACK_WIND (frame, pl_writev_cbk, FIRST_CHILD (this), FIRST_CHILD (this)->fops->writev, fd, vector, count, offset, iobref); return 0; } int pl_writev (call_frame_t *frame, xlator_t *this, fd_t *fd, struct iovec *vector, int32_t count, off_t offset, struct iobref *iobref) { posix_locks_private_t *priv = NULL; pl_inode_t *pl_inode = NULL; pl_rw_req_t *rw = NULL; posix_lock_t region = {.list = {0, }, }; int op_ret = 0; int op_errno = 0; char wind_needed = 1; priv = this->private; pl_inode = pl_inode_get (this, fd->inode); if (priv->mandatory && pl_inode->mandatory) { region.fl_start = offset; region.fl_end = offset + iov_length (vector, count) - 1; region.transport = frame->root->trans; region.fd_num = fd_to_fdnum(fd); region.client_pid = frame->root->pid; region.owner = frame->root->lk_owner; pthread_mutex_lock (&pl_inode->mutex); { wind_needed = __rw_allowable (pl_inode, ®ion, GF_FOP_WRITE); if (wind_needed) goto unlock; if (fd->flags & O_NONBLOCK) { gf_log (this->name, GF_LOG_TRACE, "returning EAGAIN because fd is " "O_NONBLOCK"); op_errno = EAGAIN; op_ret = -1; goto unlock; } rw = GF_CALLOC (1, sizeof (*rw), gf_locks_mt_pl_rw_req_t); if (!rw) { gf_log (this->name, GF_LOG_ERROR, "Out of memory."); op_errno = ENOMEM; op_ret = -1; goto unlock; } rw->stub = fop_writev_stub (frame, pl_writev_cont, fd, vector, count, offset, iobref); if (!rw->stub) { gf_log (this->name, GF_LOG_ERROR, "Out of memory."); op_errno = ENOMEM; op_ret = -1; GF_FREE (rw); goto unlock; } rw->region = region; list_add_tail (&rw->list, &pl_inode->rw_list); } unlock: pthread_mutex_unlock (&pl_inode->mutex); } if (wind_needed) STACK_WIND (frame, pl_writev_cbk, FIRST_CHILD (this), FIRST_CHILD (this)->fops->writev, fd, vector, count, offset, iobref); if (op_ret == -1) STACK_UNWIND_STRICT (writev, frame, -1, op_errno, NULL, NULL); return 0; } static int __fd_has_locks (pl_inode_t *pl_inode, fd_t *fd) { int found = 0; posix_lock_t *l = NULL; list_for_each_entry (l, &pl_inode->ext_list, list) { if ((l->fd_num == fd_to_fdnum(fd))) { found = 1; break; } } return found; } static posix_lock_t * lock_dup (posix_lock_t *lock) { posix_lock_t *new_lock = NULL; new_lock = new_posix_lock (&lock->user_flock, lock->transport, lock->client_pid, lock->owner, (fd_t *)lock->fd_num); return new_lock; } static int __dup_locks_to_fdctx (pl_inode_t *pl_inode, fd_t *fd, pl_fdctx_t *fdctx) { posix_lock_t *l = NULL; posix_lock_t *duplock = NULL; int ret = 0; list_for_each_entry (l, &pl_inode->ext_list, list) { if ((l->fd_num == fd_to_fdnum(fd))) { duplock = lock_dup (l); if (!duplock) { gf_log (THIS->name, GF_LOG_DEBUG, "Out of memory"); ret = -1; break; } list_add_tail (&duplock->list, &fdctx->locks_list); } } return ret; } static int __copy_locks_to_fdctx (pl_inode_t *pl_inode, fd_t *fd, pl_fdctx_t *fdctx) { int ret = 0; ret = __dup_locks_to_fdctx (pl_inode, fd, fdctx); if (ret) goto out; out: return ret; } static void pl_mark_eol_lock (posix_lock_t *lock) { lock->user_flock.l_type = GF_LK_EOL; return; } static posix_lock_t * __get_next_fdctx_lock (pl_fdctx_t *fdctx) { posix_lock_t *lock = NULL; GF_ASSERT (fdctx); if (list_empty (&fdctx->locks_list)) { gf_log (THIS->name, GF_LOG_DEBUG, "fdctx lock list empty"); goto out; } lock = list_entry (fdctx->locks_list.next, typeof (*lock), list); GF_ASSERT (lock); list_del_init (&lock->list); out: return lock; } static int __set_next_lock_fd (pl_fdctx_t *fdctx, posix_lock_t *reqlock) { posix_lock_t *lock = NULL; int ret = 0; GF_ASSERT (fdctx); lock = __get_next_fdctx_lock (fdctx); if (!lock) { gf_log (THIS->name, GF_LOG_DEBUG, "marking EOL in reqlock"); pl_mark_eol_lock (reqlock); goto out; } reqlock->user_flock = lock->user_flock; reqlock->fl_start = lock->fl_start; reqlock->fl_type = lock->fl_type; reqlock->fl_end = lock->fl_end; reqlock->owner = lock->owner; out: if (lock) __destroy_lock (lock); return ret; } static int pl_getlk_fd (xlator_t *this, pl_inode_t *pl_inode, fd_t *fd, posix_lock_t *reqlock) { uint64_t tmp = 0; pl_fdctx_t *fdctx = NULL; int ret = 0; pthread_mutex_lock (&pl_inode->mutex); { if (!__fd_has_locks (pl_inode, fd)) { gf_log (this->name, GF_LOG_DEBUG, "fd=%p has no active locks", fd); ret = 0; goto unlock; } gf_log (this->name, GF_LOG_DEBUG, "There are active locks on fd"); ret = fd_ctx_get (fd, this, &tmp); fdctx = (pl_fdctx_t *)(long) tmp; if (list_empty (&fdctx->locks_list)) { gf_log (this->name, GF_LOG_TRACE, "no fdctx -> copying all locks on fd"); ret = __copy_locks_to_fdctx (pl_inode, fd, fdctx); if (ret) { gf_log (this->name, GF_LOG_ERROR, "Out of memory"); goto unlock; } ret = __set_next_lock_fd (fdctx, reqlock); } else { gf_log (this->name, GF_LOG_TRACE, "fdctx present -> returning the next lock"); ret = __set_next_lock_fd (fdctx, reqlock); if (ret) { gf_log (this->name, GF_LOG_DEBUG, "could not get next lock of fd"); goto unlock; } } } unlock: pthread_mutex_unlock (&pl_inode->mutex); return ret; } int pl_lk (call_frame_t *frame, xlator_t *this, fd_t *fd, int32_t cmd, struct gf_flock *flock) { void *transport = NULL; pid_t client_pid = 0; uint64_t owner = 0; pl_inode_t *pl_inode = NULL; int op_ret = 0; int op_errno = 0; int can_block = 0; posix_lock_t *reqlock = NULL; posix_lock_t *conf = NULL; int ret = 0; transport = frame->root->trans; client_pid = frame->root->pid; owner = frame->root->lk_owner; if ((flock->l_start < 0) || (flock->l_len < 0)) { op_ret = -1; op_errno = EINVAL; goto unwind; } pl_inode = pl_inode_get (this, fd->inode); if (!pl_inode) { gf_log (this->name, GF_LOG_ERROR, "Out of memory."); op_ret = -1; op_errno = ENOMEM; goto unwind; } reqlock = new_posix_lock (flock, transport, client_pid, owner, fd); if (!reqlock) { gf_log (this->name, GF_LOG_ERROR, "Out of memory."); op_ret = -1; op_errno = ENOMEM; goto unwind; } pl_trace_in (this, frame, fd, NULL, cmd, flock, NULL); switch (cmd) { case F_RESLK_LCKW: can_block = 1; /* fall through */ case F_RESLK_LCK: memcpy (&reqlock->user_flock, flock, sizeof (struct gf_flock)); reqlock->frame = frame; reqlock->this = this; ret = pl_reserve_setlk (this, pl_inode, reqlock, can_block); if (ret < 0) { if (can_block) goto out; op_ret = -1; op_errno = -ret; __destroy_lock (reqlock); goto unwind; } /* Finally a getlk and return the call */ conf = pl_getlk (pl_inode, reqlock); if (conf) posix_lock_to_flock (conf, flock); break; case F_RESLK_UNLCK: reqlock->frame = frame; reqlock->this = this; ret = pl_reserve_unlock (this, pl_inode, reqlock); if (ret < 0) { op_ret = -1; op_errno = -ret; } __destroy_lock (reqlock); goto unwind; break; case F_GETLK_FD: reqlock->frame = frame; reqlock->this = this; ret = pl_verify_reservelk (this, pl_inode, reqlock, can_block); GF_ASSERT (ret >= 0); ret = pl_getlk_fd (this, pl_inode, fd, reqlock); if (ret < 0) { gf_log (this->name, GF_LOG_DEBUG, "getting locks on fd failed"); op_ret = -1; op_errno = ENOLCK; goto unwind; } gf_log (this->name, GF_LOG_TRACE, "Replying with a lock on fd for healing"); posix_lock_to_flock (reqlock, flock); __destroy_lock (reqlock); break; #if F_GETLK != F_GETLK64 case F_GETLK64: #endif case F_GETLK: conf = pl_getlk (pl_inode, reqlock); posix_lock_to_flock (conf, flock); __destroy_lock (reqlock); break; #if F_SETLKW != F_SETLKW64 case F_SETLKW64: #endif case F_SETLKW: can_block = 1; reqlock->frame = frame; reqlock->this = this; /* fall through */ #if F_SETLK != F_SETLK64 case F_SETLK64: #endif case F_SETLK: memcpy (&reqlock->user_flock, flock, sizeof (struct gf_flock)); ret = pl_verify_reservelk (this, pl_inode, reqlock, can_block); if (ret < 0) { gf_log (this->name, GF_LOG_TRACE, "Lock blocked due to conflicting reserve lock"); goto out; } ret = pl_setlk (this, pl_inode, reqlock, can_block); if (ret == -1) { if (can_block) { pl_trace_block (this, frame, fd, NULL, cmd, flock, NULL); goto out; } gf_log (this->name, GF_LOG_DEBUG, "returning EAGAIN"); op_ret = -1; op_errno = EAGAIN; __destroy_lock (reqlock); } } unwind: pl_trace_out (this, frame, fd, NULL, cmd, flock, op_ret, op_errno, NULL); pl_update_refkeeper (this, fd->inode); STACK_UNWIND_STRICT (lk, frame, op_ret, op_errno, flock); out: return 0; } /* TODO: this function just logs, no action required?? */ int pl_forget (xlator_t *this, inode_t *inode) { pl_inode_t *pl_inode = NULL; posix_lock_t *ext_tmp = NULL; posix_lock_t *ext_l = NULL; struct list_head posixlks_released; pl_inode_lock_t *ino_tmp = NULL; pl_inode_lock_t *ino_l = NULL; struct list_head inodelks_released; pl_rw_req_t *rw_tmp = NULL; pl_rw_req_t *rw_req = NULL; pl_entry_lock_t *entry_tmp = NULL; pl_entry_lock_t *entry_l = NULL; struct list_head entrylks_released; pl_dom_list_t *dom = NULL; pl_dom_list_t *dom_tmp = NULL; INIT_LIST_HEAD (&posixlks_released); INIT_LIST_HEAD (&inodelks_released); INIT_LIST_HEAD (&entrylks_released); pl_inode = pl_inode_get (this, inode); pthread_mutex_lock (&pl_inode->mutex); { if (!list_empty (&pl_inode->rw_list)) { gf_log (this->name, GF_LOG_WARNING, "Pending R/W requests found, releasing."); list_for_each_entry_safe (rw_req, rw_tmp, &pl_inode->rw_list, list) { list_del (&rw_req->list); GF_FREE (rw_req); } } if (!list_empty (&pl_inode->ext_list)) { gf_log (this->name, GF_LOG_WARNING, "Pending fcntl locks found, releasing."); list_for_each_entry_safe (ext_l, ext_tmp, &pl_inode->ext_list, list) { __delete_lock (pl_inode, ext_l); if (ext_l->blocked) { list_add_tail (&ext_l->list, &posixlks_released); continue; } __destroy_lock (ext_l); } } list_for_each_entry_safe (dom, dom_tmp, &pl_inode->dom_list, inode_list) { if (!list_empty (&dom->inodelk_list)) { gf_log (this->name, GF_LOG_WARNING, "Pending inode locks found, releasing."); list_for_each_entry_safe (ino_l, ino_tmp, &dom->inodelk_list, list) { __delete_inode_lock (ino_l); __destroy_inode_lock (ino_l); } list_splice_init (&dom->blocked_inodelks, &inodelks_released); } if (!list_empty (&dom->entrylk_list)) { gf_log (this->name, GF_LOG_WARNING, "Pending entry locks found, releasing."); list_for_each_entry_safe (entry_l, entry_tmp, &dom->entrylk_list, domain_list) { list_del_init (&entry_l->domain_list); if (entry_l->basename) GF_FREE ((char *)entry_l->basename); GF_FREE (entry_l); } list_splice_init (&dom->blocked_entrylks, &entrylks_released); } list_del (&dom->inode_list); gf_log ("posix-locks", GF_LOG_TRACE, " Cleaning up domain: %s", dom->domain); GF_FREE ((char *)(dom->domain)); GF_FREE (dom); } } pthread_mutex_unlock (&pl_inode->mutex); list_for_each_entry_safe (ext_l, ext_tmp, &posixlks_released, list) { STACK_UNWIND_STRICT (lk, ext_l->frame, -1, 0, &ext_l->user_flock); __destroy_lock (ext_l); } list_for_each_entry_safe (ino_l, ino_tmp, &inodelks_released, blocked_locks) { STACK_UNWIND_STRICT (inodelk, ino_l->frame, -1, 0); __destroy_inode_lock (ino_l); } list_for_each_entry_safe (entry_l, entry_tmp, &entrylks_released, blocked_locks) { STACK_UNWIND_STRICT (entrylk, entry_l->frame, -1, 0); if (entry_l->basename) GF_FREE ((char *)entry_l->basename); GF_FREE (entry_l); } GF_FREE (pl_inode); return 0; } int pl_release (xlator_t *this, fd_t *fd) { pl_inode_t *pl_inode = NULL; uint64_t tmp_pl_inode = 0; int ret = -1; uint64_t tmp = 0; pl_fdctx_t *fdctx = NULL; if (fd == NULL) { goto out; } ret = inode_ctx_get (fd->inode, this, &tmp_pl_inode); if (ret != 0) goto out; pl_inode = (pl_inode_t *)(long)tmp_pl_inode; pl_trace_release (this, fd); gf_log (this->name, GF_LOG_TRACE, "Releasing all locks with fd %p", fd); delete_locks_of_fd (this, pl_inode, fd); ret = fd_ctx_del (fd, this, &tmp); if (ret) { gf_log (this->name, GF_LOG_DEBUG, "Could not get fdctx"); goto out; } fdctx = (pl_fdctx_t *)(long)tmp; GF_FREE (fdctx); out: return ret; } int pl_releasedir (xlator_t *this, fd_t *fd) { int ret = -1; uint64_t tmp = 0; pl_fdctx_t *fdctx = NULL; if (fd == NULL) { goto out; } ret = fd_ctx_del (fd, this, &tmp); if (ret) { gf_log (this->name, GF_LOG_DEBUG, "Could not get fdctx"); goto out; } fdctx = (pl_fdctx_t *)(long)tmp; GF_FREE (fdctx); out: return ret; } static int32_t __get_posixlk_count (xlator_t *this, pl_inode_t *pl_inode) { posix_lock_t *lock = NULL; int32_t count = 0; list_for_each_entry (lock, &pl_inode->ext_list, list) { gf_log (this->name, GF_LOG_DEBUG, " XATTR DEBUG" "%s (pid=%d) (lk-owner=%"PRIu64") %"PRId64" - %"PRId64" state: %s", lock->fl_type == F_UNLCK ? "Unlock" : "Lock", lock->client_pid, lock->owner, lock->user_flock.l_start, lock->user_flock.l_len, lock->blocked == 1 ? "Blocked" : "Active"); count++; } return count; } int32_t get_posixlk_count (xlator_t *this, inode_t *inode) { pl_inode_t *pl_inode = NULL; uint64_t tmp_pl_inode = 0; int ret = 0; int32_t count = 0; ret = inode_ctx_get (inode, this, &tmp_pl_inode); if (ret != 0) { goto out; } pl_inode = (pl_inode_t *)(long) tmp_pl_inode; pthread_mutex_lock (&pl_inode->mutex); { count =__get_posixlk_count (this, pl_inode); } pthread_mutex_unlock (&pl_inode->mutex); out: return count; } void pl_entrylk_xattr_fill (xlator_t *this, inode_t *inode, dict_t *dict) { int32_t count = 0; int ret = -1; count = get_entrylk_count (this, inode); ret = dict_set_int32 (dict, GLUSTERFS_ENTRYLK_COUNT, count); if (ret < 0) { gf_log (this->name, GF_LOG_DEBUG, " dict_set failed on key %s", GLUSTERFS_ENTRYLK_COUNT); } } void pl_inodelk_xattr_fill (xlator_t *this, inode_t *inode, dict_t *dict) { int32_t count = 0; int ret = -1; count = get_inodelk_count (this, inode); ret = dict_set_int32 (dict, GLUSTERFS_INODELK_COUNT, count); if (ret < 0) { gf_log (this->name, GF_LOG_DEBUG, " dict_set failed on key %s", GLUSTERFS_INODELK_COUNT); } } void pl_posixlk_xattr_fill (xlator_t *this, inode_t *inode, dict_t *dict) { int32_t count = 0; int ret = -1; count = get_posixlk_count (this, inode); ret = dict_set_int32 (dict, GLUSTERFS_POSIXLK_COUNT, count); if (ret < 0) { gf_log (this->name, GF_LOG_DEBUG, " dict_set failed on key %s", GLUSTERFS_POSIXLK_COUNT); } } int32_t pl_lookup_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, inode_t *inode, struct iatt *buf, dict_t *dict, struct iatt *postparent) { pl_local_t *local = NULL; if (!frame->local) { goto out; } if (op_ret) { goto out; } local = frame->local; if (local->entrylk_count_req) pl_entrylk_xattr_fill (this, inode, dict); if (local->inodelk_count_req) pl_inodelk_xattr_fill (this, inode, dict); if (local->posixlk_count_req) pl_posixlk_xattr_fill (this, inode, dict); frame->local = NULL; if (local != NULL) GF_FREE (local); out: STACK_UNWIND_STRICT ( lookup, frame, op_ret, op_errno, inode, buf, dict, postparent); return 0; } int32_t pl_lookup (call_frame_t *frame, xlator_t *this, loc_t *loc, dict_t *xattr_req) { pl_local_t *local = NULL; int ret = -1; VALIDATE_OR_GOTO (frame, out); VALIDATE_OR_GOTO (this, out); VALIDATE_OR_GOTO (loc, out); local = GF_CALLOC (1, sizeof (*local), gf_locks_mt_pl_local_t); if (!local) { ret = -1; gf_log (this->name, GF_LOG_ERROR, " Out of memory"); goto out; } if (dict_get (xattr_req, GLUSTERFS_ENTRYLK_COUNT)) local->entrylk_count_req = 1; if (dict_get (xattr_req, GLUSTERFS_INODELK_COUNT)) local->inodelk_count_req = 1; if (dict_get (xattr_req, GLUSTERFS_POSIXLK_COUNT)) local->posixlk_count_req = 1; frame->local = local; STACK_WIND (frame, pl_lookup_cbk, FIRST_CHILD(this), FIRST_CHILD(this)->fops->lookup, loc, xattr_req); ret = 0; out: if (ret == -1) STACK_UNWIND_STRICT (lookup, frame, -1, 0, NULL, NULL, NULL, NULL); return 0; } void pl_dump_lock (char *str, int size, struct gf_flock *flock, uint64_t owner, void *trans) { char *type_str = NULL; 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, "type=%s, start=%llu, len=%llu, pid=%llu, lk-owner=%llu, transport=%p", type_str, (unsigned long long) flock->l_start, (unsigned long long) flock->l_len, (unsigned long long) flock->l_pid, (unsigned long long) owner, trans); } void __dump_entrylks (pl_inode_t *pl_inode) { pl_dom_list_t *dom = NULL; pl_entry_lock_t *lock = NULL; int count = 0; char key[GF_DUMP_MAX_BUF_LEN]; char tmp[256]; list_for_each_entry (dom, &pl_inode->dom_list, inode_list) { count = 0; gf_proc_dump_build_key(key, "xlator.feature.locks.lock-dump.domain", "domain"); gf_proc_dump_write(key, "%s", dom->domain); list_for_each_entry (lock, &dom->entrylk_list, domain_list) { gf_proc_dump_build_key(key, "xlator.feature.locks.lock-dump.domain.entrylk", "entrylk[%d](ACTIVE)",count ); snprintf (tmp, 256," %s on %s owner=%llu, transport=%p", lock->type == ENTRYLK_RDLCK ? "ENTRYLK_RDLCK" : "ENTRYLK_WRLCK", lock->basename, (unsigned long long) lock->owner, lock->trans); gf_proc_dump_write(key, tmp); count++; } list_for_each_entry (lock, &dom->blocked_entrylks, blocked_locks) { gf_proc_dump_build_key(key, "xlator.feature.locks.lock-dump.domain.entrylk", "entrylk[%d](BLOCKED)",count ); snprintf (tmp, 256," %s on %s state = Blocked", lock->type == ENTRYLK_RDLCK ? "ENTRYLK_RDLCK" : "ENTRYLK_WRLCK", lock->basename); gf_proc_dump_write(key, tmp); count++; } } } void dump_entrylks (pl_inode_t *pl_inode) { pthread_mutex_lock (&pl_inode->mutex); { __dump_entrylks (pl_inode); } pthread_mutex_unlock (&pl_inode->mutex); } void __dump_inodelks (pl_inode_t *pl_inode) { pl_dom_list_t *dom = NULL; pl_inode_lock_t *lock = NULL; int count = 0; char key[GF_DUMP_MAX_BUF_LEN]; char tmp[256]; list_for_each_entry (dom, &pl_inode->dom_list, inode_list) { count = 0; gf_proc_dump_build_key(key, "xlator.feature.locks.lock-dump.domain", "domain"); gf_proc_dump_write(key, "%s", dom->domain); list_for_each_entry (lock, &dom->inodelk_list, list) { gf_proc_dump_build_key(key, "xlator.feature.locks.lock-dump.domain.inodelk", "inodelk[%d](ACTIVE)",count ); pl_dump_lock (tmp, 256, &lock->user_flock, lock->owner, lock->transport); gf_proc_dump_write(key, tmp); count++; } list_for_each_entry (lock, &dom->blocked_inodelks, blocked_locks) { gf_proc_dump_build_key(key, "xlator.feature.locks.lock-dump.domain.inodelk", "inodelk[%d](BLOCKED)",count ); pl_dump_lock (tmp, 256, &lock->user_flock, lock->owner, lock->transport); gf_proc_dump_write(key, tmp); count++; } } } void dump_inodelks (pl_inode_t *pl_inode) { pthread_mutex_lock (&pl_inode->mutex); { __dump_inodelks (pl_inode); } pthread_mutex_unlock (&pl_inode->mutex); } void __dump_posixlks (pl_inode_t *pl_inode) { posix_lock_t *lock = NULL; int count = 0; char key[GF_DUMP_MAX_BUF_LEN]; char tmp[256]; list_for_each_entry (lock, &pl_inode->ext_list, list) { gf_proc_dump_build_key(key, "xlator.feature.locks.lock-dump.domain.posixlk", "posixlk[%d](%s)", count, lock->blocked ? "BLOCKED" : "ACTIVE"); pl_dump_lock (tmp, 256, &lock->user_flock, lock->owner, lock->transport); gf_proc_dump_write(key, tmp); count++; } } void dump_posixlks (pl_inode_t *pl_inode) { pthread_mutex_lock (&pl_inode->mutex); { __dump_posixlks (pl_inode); } pthread_mutex_unlock (&pl_inode->mutex); } int32_t pl_dump_inode_priv (xlator_t *this, inode_t *inode) { int ret = -1; uint64_t tmp_pl_inode = 0; pl_inode_t *pl_inode = NULL; char key[GF_DUMP_MAX_BUF_LEN]; int count = 0; if (!inode) return -1; ret = inode_ctx_get (inode, this, &tmp_pl_inode); if (ret != 0) return ret; pl_inode = (pl_inode_t *)(long)tmp_pl_inode; if (!pl_inode) return -1; gf_proc_dump_build_key(key, "xlator.feature.locks.inode", "%ld.mandatory",inode->ino); gf_proc_dump_write(key, "%d", pl_inode->mandatory); count = get_entrylk_count (this, inode); gf_proc_dump_build_key(key, "xlator.feature.locks.entrylk-count", "%ld.entrylk-count", inode->ino); gf_proc_dump_write(key, "%d", count); dump_entrylks(pl_inode); count = get_inodelk_count (this, inode); gf_proc_dump_build_key(key, "xlator.feature.locks.inodelk-count", "%ld.inodelk-count", inode->ino); gf_proc_dump_write(key, "%d", count); dump_inodelks(pl_inode); count = get_posixlk_count (this, inode); gf_proc_dump_build_key(key, "xlator.feature.locks.posixlk-count", "%ld.posixlk-count", inode->ino); gf_proc_dump_write(key, "%d", count); dump_posixlks(pl_inode); return 0; } /* * pl_dump_inode - inode dump function for posix locks * */ int pl_dump_inode (xlator_t *this) { GF_ASSERT (this); if (this->itable) { inode_table_dump(this->itable, "xlator.features.locks.inode_table"); } return 0; } int32_t mem_acct_init (xlator_t *this) { int ret = -1; if (!this) return ret; ret = xlator_mem_acct_init (this, gf_locks_mt_end + 1); if (ret != 0) { gf_log (this->name, GF_LOG_ERROR, "Memory accounting init" "failed"); return ret; } return ret; } int init (xlator_t *this) { posix_locks_private_t *priv = NULL; xlator_list_t *trav = NULL; data_t *mandatory = NULL; data_t *trace = NULL; if (!this->children || this->children->next) { gf_log (this->name, GF_LOG_CRITICAL, "FATAL: posix-locks should have exactly one child"); return -1; } if (!this->parents) { gf_log (this->name, GF_LOG_WARNING, "Volume is dangling. Please check the volume file."); } trav = this->children; while (trav->xlator->children) trav = trav->xlator->children; if (strncmp ("storage/", trav->xlator->type, 8)) { gf_log (this->name, GF_LOG_CRITICAL, "'locks' translator is not loaded over a storage " "translator"); return -1; } priv = GF_CALLOC (1, sizeof (*priv), gf_locks_mt_posix_locks_private_t); mandatory = dict_get (this->options, "mandatory-locks"); if (mandatory) gf_log (this->name, GF_LOG_WARNING, "mandatory locks not supported in this minor release."); trace = dict_get (this->options, "trace"); if (trace) { if (gf_string2boolean (trace->data, &priv->trace) == -1) { gf_log (this->name, GF_LOG_ERROR, "'trace' takes on only boolean values."); return -1; } } this->private = priv; return 0; } int fini (xlator_t *this) { posix_locks_private_t *priv = NULL; priv = this->private; if (!priv) return 0; this->private = NULL; GF_FREE (priv); return 0; } int pl_inodelk (call_frame_t *frame, xlator_t *this, const char *volume, loc_t *loc, int32_t cmd, struct gf_flock *flock); int pl_finodelk (call_frame_t *frame, xlator_t *this, const char *volume, fd_t *fd, int32_t cmd, struct gf_flock *flock); int pl_entrylk (call_frame_t *frame, xlator_t *this, const char *volume, loc_t *loc, const char *basename, entrylk_cmd cmd, entrylk_type type); int pl_fentrylk (call_frame_t *frame, xlator_t *this, const char *volume, fd_t *fd, const char *basename, entrylk_cmd cmd, entrylk_type type); struct xlator_fops fops = { .lookup = pl_lookup, .create = pl_create, .truncate = pl_truncate, .ftruncate = pl_ftruncate, .open = pl_open, .readv = pl_readv, .writev = pl_writev, .lk = pl_lk, .inodelk = pl_inodelk, .finodelk = pl_finodelk, .entrylk = pl_entrylk, .fentrylk = pl_fentrylk, .flush = pl_flush, .opendir = pl_opendir, }; struct xlator_dumpops dumpops = { .inodectx = pl_dump_inode_priv, }; struct xlator_cbks cbks = { .forget = pl_forget, .release = pl_release, .releasedir = pl_releasedir, }; struct volume_options options[] = { { .key = { "mandatory-locks", "mandatory" }, .type = GF_OPTION_TYPE_BOOL }, { .key = { "trace" }, .type = GF_OPTION_TYPE_BOOL }, { .key = {NULL} }, };