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|
/*
* GPL HEADER START
*
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 only,
* as published by the Free Software Foundation.
*
* This program 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 version 2 for more details (a copy is included
* in the LICENSE file that accompanied this code).
*
* You should have received a copy of the GNU General Public License
* version 2 along with this program; If not, see
* http://www.sun.com/software/products/lustre/docs/GPLv2.pdf
*
* Please contact Sun Microsystems, Inc., 4150 Network Circle, Santa Clara,
* CA 95054 USA or visit www.sun.com if you need additional information or
* have any questions.
*
* GPL HEADER END
*/
/*
* Copyright (c) 2008, 2010, Oracle and/or its affiliates. All rights reserved.
* Use is subject to license terms.
*
* Copyright (c) 2011, 2012, Intel Corporation.
*/
/*
* This file is part of Lustre, http://www.lustre.org/
* Lustre is a trademark of Sun Microsystems, Inc.
*
* Client Extent Lock.
*
* Author: Nikita Danilov <nikita.danilov@sun.com>
*/
#define DEBUG_SUBSYSTEM S_CLASS
#include <obd_class.h>
#include <obd_support.h>
#include <lustre_fid.h>
#include <linux/list.h>
#include <cl_object.h>
#include "cl_internal.h"
/** Lock class of cl_lock::cll_guard */
static struct lock_class_key cl_lock_guard_class;
static struct kmem_cache *cl_lock_kmem;
static struct lu_kmem_descr cl_lock_caches[] = {
{
.ckd_cache = &cl_lock_kmem,
.ckd_name = "cl_lock_kmem",
.ckd_size = sizeof (struct cl_lock)
},
{
.ckd_cache = NULL
}
};
#define CS_LOCK_INC(o, item)
#define CS_LOCK_DEC(o, item)
#define CS_LOCKSTATE_INC(o, state)
#define CS_LOCKSTATE_DEC(o, state)
/**
* Basic lock invariant that is maintained at all times. Caller either has a
* reference to \a lock, or somehow assures that \a lock cannot be freed.
*
* \see cl_lock_invariant()
*/
static int cl_lock_invariant_trusted(const struct lu_env *env,
const struct cl_lock *lock)
{
return ergo(lock->cll_state == CLS_FREEING, lock->cll_holds == 0) &&
atomic_read(&lock->cll_ref) >= lock->cll_holds &&
lock->cll_holds >= lock->cll_users &&
lock->cll_holds >= 0 &&
lock->cll_users >= 0 &&
lock->cll_depth >= 0;
}
/**
* Stronger lock invariant, checking that caller has a reference on a lock.
*
* \see cl_lock_invariant_trusted()
*/
static int cl_lock_invariant(const struct lu_env *env,
const struct cl_lock *lock)
{
int result;
result = atomic_read(&lock->cll_ref) > 0 &&
cl_lock_invariant_trusted(env, lock);
if (!result && env != NULL)
CL_LOCK_DEBUG(D_ERROR, env, lock, "invariant broken");
return result;
}
/**
* Returns lock "nesting": 0 for a top-lock and 1 for a sub-lock.
*/
static enum clt_nesting_level cl_lock_nesting(const struct cl_lock *lock)
{
return cl_object_header(lock->cll_descr.cld_obj)->coh_nesting;
}
/**
* Returns a set of counters for this lock, depending on a lock nesting.
*/
static struct cl_thread_counters *cl_lock_counters(const struct lu_env *env,
const struct cl_lock *lock)
{
struct cl_thread_info *info;
enum clt_nesting_level nesting;
info = cl_env_info(env);
nesting = cl_lock_nesting(lock);
LASSERT(nesting < ARRAY_SIZE(info->clt_counters));
return &info->clt_counters[nesting];
}
static void cl_lock_trace0(int level, const struct lu_env *env,
const char *prefix, const struct cl_lock *lock,
const char *func, const int line)
{
struct cl_object_header *h = cl_object_header(lock->cll_descr.cld_obj);
CDEBUG(level, "%s: %p@(%d %p %d %d %d %d %d %lx)"
"(%p/%d/%d) at %s():%d\n",
prefix, lock, atomic_read(&lock->cll_ref),
lock->cll_guarder, lock->cll_depth,
lock->cll_state, lock->cll_error, lock->cll_holds,
lock->cll_users, lock->cll_flags,
env, h->coh_nesting, cl_lock_nr_mutexed(env),
func, line);
}
#define cl_lock_trace(level, env, prefix, lock) \
cl_lock_trace0(level, env, prefix, lock, __FUNCTION__, __LINE__)
#define RETIP ((unsigned long)__builtin_return_address(0))
#ifdef CONFIG_LOCKDEP
static struct lock_class_key cl_lock_key;
static void cl_lock_lockdep_init(struct cl_lock *lock)
{
lockdep_set_class_and_name(lock, &cl_lock_key, "EXT");
}
static void cl_lock_lockdep_acquire(const struct lu_env *env,
struct cl_lock *lock, __u32 enqflags)
{
cl_lock_counters(env, lock)->ctc_nr_locks_acquired++;
lock_map_acquire(&lock->dep_map);
}
static void cl_lock_lockdep_release(const struct lu_env *env,
struct cl_lock *lock)
{
cl_lock_counters(env, lock)->ctc_nr_locks_acquired--;
lock_release(&lock->dep_map, 0, RETIP);
}
#else /* !CONFIG_LOCKDEP */
static void cl_lock_lockdep_init(struct cl_lock *lock)
{}
static void cl_lock_lockdep_acquire(const struct lu_env *env,
struct cl_lock *lock, __u32 enqflags)
{}
static void cl_lock_lockdep_release(const struct lu_env *env,
struct cl_lock *lock)
{}
#endif /* !CONFIG_LOCKDEP */
/**
* Adds lock slice to the compound lock.
*
* This is called by cl_object_operations::coo_lock_init() methods to add a
* per-layer state to the lock. New state is added at the end of
* cl_lock::cll_layers list, that is, it is at the bottom of the stack.
*
* \see cl_req_slice_add(), cl_page_slice_add(), cl_io_slice_add()
*/
void cl_lock_slice_add(struct cl_lock *lock, struct cl_lock_slice *slice,
struct cl_object *obj,
const struct cl_lock_operations *ops)
{
slice->cls_lock = lock;
list_add_tail(&slice->cls_linkage, &lock->cll_layers);
slice->cls_obj = obj;
slice->cls_ops = ops;
}
EXPORT_SYMBOL(cl_lock_slice_add);
/**
* Returns true iff a lock with the mode \a has provides at least the same
* guarantees as a lock with the mode \a need.
*/
int cl_lock_mode_match(enum cl_lock_mode has, enum cl_lock_mode need)
{
LINVRNT(need == CLM_READ || need == CLM_WRITE ||
need == CLM_PHANTOM || need == CLM_GROUP);
LINVRNT(has == CLM_READ || has == CLM_WRITE ||
has == CLM_PHANTOM || has == CLM_GROUP);
CLASSERT(CLM_PHANTOM < CLM_READ);
CLASSERT(CLM_READ < CLM_WRITE);
CLASSERT(CLM_WRITE < CLM_GROUP);
if (has != CLM_GROUP)
return need <= has;
else
return need == has;
}
EXPORT_SYMBOL(cl_lock_mode_match);
/**
* Returns true iff extent portions of lock descriptions match.
*/
int cl_lock_ext_match(const struct cl_lock_descr *has,
const struct cl_lock_descr *need)
{
return
has->cld_start <= need->cld_start &&
has->cld_end >= need->cld_end &&
cl_lock_mode_match(has->cld_mode, need->cld_mode) &&
(has->cld_mode != CLM_GROUP || has->cld_gid == need->cld_gid);
}
EXPORT_SYMBOL(cl_lock_ext_match);
/**
* Returns true iff a lock with the description \a has provides at least the
* same guarantees as a lock with the description \a need.
*/
int cl_lock_descr_match(const struct cl_lock_descr *has,
const struct cl_lock_descr *need)
{
return
cl_object_same(has->cld_obj, need->cld_obj) &&
cl_lock_ext_match(has, need);
}
EXPORT_SYMBOL(cl_lock_descr_match);
static void cl_lock_free(const struct lu_env *env, struct cl_lock *lock)
{
struct cl_object *obj = lock->cll_descr.cld_obj;
LINVRNT(!cl_lock_is_mutexed(lock));
cl_lock_trace(D_DLMTRACE, env, "free lock", lock);
might_sleep();
while (!list_empty(&lock->cll_layers)) {
struct cl_lock_slice *slice;
slice = list_entry(lock->cll_layers.next,
struct cl_lock_slice, cls_linkage);
list_del_init(lock->cll_layers.next);
slice->cls_ops->clo_fini(env, slice);
}
CS_LOCK_DEC(obj, total);
CS_LOCKSTATE_DEC(obj, lock->cll_state);
lu_object_ref_del_at(&obj->co_lu, &lock->cll_obj_ref, "cl_lock", lock);
cl_object_put(env, obj);
lu_ref_fini(&lock->cll_reference);
lu_ref_fini(&lock->cll_holders);
mutex_destroy(&lock->cll_guard);
OBD_SLAB_FREE_PTR(lock, cl_lock_kmem);
}
/**
* Releases a reference on a lock.
*
* When last reference is released, lock is returned to the cache, unless it
* is in cl_lock_state::CLS_FREEING state, in which case it is destroyed
* immediately.
*
* \see cl_object_put(), cl_page_put()
*/
void cl_lock_put(const struct lu_env *env, struct cl_lock *lock)
{
struct cl_object *obj;
LINVRNT(cl_lock_invariant(env, lock));
obj = lock->cll_descr.cld_obj;
LINVRNT(obj != NULL);
CDEBUG(D_TRACE, "releasing reference: %d %p %lu\n",
atomic_read(&lock->cll_ref), lock, RETIP);
if (atomic_dec_and_test(&lock->cll_ref)) {
if (lock->cll_state == CLS_FREEING) {
LASSERT(list_empty(&lock->cll_linkage));
cl_lock_free(env, lock);
}
CS_LOCK_DEC(obj, busy);
}
}
EXPORT_SYMBOL(cl_lock_put);
/**
* Acquires an additional reference to a lock.
*
* This can be called only by caller already possessing a reference to \a
* lock.
*
* \see cl_object_get(), cl_page_get()
*/
void cl_lock_get(struct cl_lock *lock)
{
LINVRNT(cl_lock_invariant(NULL, lock));
CDEBUG(D_TRACE, "acquiring reference: %d %p %lu\n",
atomic_read(&lock->cll_ref), lock, RETIP);
atomic_inc(&lock->cll_ref);
}
EXPORT_SYMBOL(cl_lock_get);
/**
* Acquires a reference to a lock.
*
* This is much like cl_lock_get(), except that this function can be used to
* acquire initial reference to the cached lock. Caller has to deal with all
* possible races. Use with care!
*
* \see cl_page_get_trust()
*/
void cl_lock_get_trust(struct cl_lock *lock)
{
CDEBUG(D_TRACE, "acquiring trusted reference: %d %p %lu\n",
atomic_read(&lock->cll_ref), lock, RETIP);
if (atomic_inc_return(&lock->cll_ref) == 1)
CS_LOCK_INC(lock->cll_descr.cld_obj, busy);
}
EXPORT_SYMBOL(cl_lock_get_trust);
/**
* Helper function destroying the lock that wasn't completely initialized.
*
* Other threads can acquire references to the top-lock through its
* sub-locks. Hence, it cannot be cl_lock_free()-ed immediately.
*/
static void cl_lock_finish(const struct lu_env *env, struct cl_lock *lock)
{
cl_lock_mutex_get(env, lock);
cl_lock_cancel(env, lock);
cl_lock_delete(env, lock);
cl_lock_mutex_put(env, lock);
cl_lock_put(env, lock);
}
static struct cl_lock *cl_lock_alloc(const struct lu_env *env,
struct cl_object *obj,
const struct cl_io *io,
const struct cl_lock_descr *descr)
{
struct cl_lock *lock;
struct lu_object_header *head;
OBD_SLAB_ALLOC_PTR_GFP(lock, cl_lock_kmem, __GFP_IO);
if (lock != NULL) {
atomic_set(&lock->cll_ref, 1);
lock->cll_descr = *descr;
lock->cll_state = CLS_NEW;
cl_object_get(obj);
lu_object_ref_add_at(&obj->co_lu, &lock->cll_obj_ref, "cl_lock",
lock);
INIT_LIST_HEAD(&lock->cll_layers);
INIT_LIST_HEAD(&lock->cll_linkage);
INIT_LIST_HEAD(&lock->cll_inclosure);
lu_ref_init(&lock->cll_reference);
lu_ref_init(&lock->cll_holders);
mutex_init(&lock->cll_guard);
lockdep_set_class(&lock->cll_guard, &cl_lock_guard_class);
init_waitqueue_head(&lock->cll_wq);
head = obj->co_lu.lo_header;
CS_LOCKSTATE_INC(obj, CLS_NEW);
CS_LOCK_INC(obj, total);
CS_LOCK_INC(obj, create);
cl_lock_lockdep_init(lock);
list_for_each_entry(obj, &head->loh_layers,
co_lu.lo_linkage) {
int err;
err = obj->co_ops->coo_lock_init(env, obj, lock, io);
if (err != 0) {
cl_lock_finish(env, lock);
lock = ERR_PTR(err);
break;
}
}
} else
lock = ERR_PTR(-ENOMEM);
return lock;
}
/**
* Transfer the lock into INTRANSIT state and return the original state.
*
* \pre state: CLS_CACHED, CLS_HELD or CLS_ENQUEUED
* \post state: CLS_INTRANSIT
* \see CLS_INTRANSIT
*/
enum cl_lock_state cl_lock_intransit(const struct lu_env *env,
struct cl_lock *lock)
{
enum cl_lock_state state = lock->cll_state;
LASSERT(cl_lock_is_mutexed(lock));
LASSERT(state != CLS_INTRANSIT);
LASSERTF(state >= CLS_ENQUEUED && state <= CLS_CACHED,
"Malformed lock state %d.\n", state);
cl_lock_state_set(env, lock, CLS_INTRANSIT);
lock->cll_intransit_owner = current;
cl_lock_hold_add(env, lock, "intransit", current);
return state;
}
EXPORT_SYMBOL(cl_lock_intransit);
/**
* Exit the intransit state and restore the lock state to the original state
*/
void cl_lock_extransit(const struct lu_env *env, struct cl_lock *lock,
enum cl_lock_state state)
{
LASSERT(cl_lock_is_mutexed(lock));
LASSERT(lock->cll_state == CLS_INTRANSIT);
LASSERT(state != CLS_INTRANSIT);
LASSERT(lock->cll_intransit_owner == current);
lock->cll_intransit_owner = NULL;
cl_lock_state_set(env, lock, state);
cl_lock_unhold(env, lock, "intransit", current);
}
EXPORT_SYMBOL(cl_lock_extransit);
/**
* Checking whether the lock is intransit state
*/
int cl_lock_is_intransit(struct cl_lock *lock)
{
LASSERT(cl_lock_is_mutexed(lock));
return lock->cll_state == CLS_INTRANSIT &&
lock->cll_intransit_owner != current;
}
EXPORT_SYMBOL(cl_lock_is_intransit);
/**
* Returns true iff lock is "suitable" for given io. E.g., locks acquired by
* truncate and O_APPEND cannot be reused for read/non-append-write, as they
* cover multiple stripes and can trigger cascading timeouts.
*/
static int cl_lock_fits_into(const struct lu_env *env,
const struct cl_lock *lock,
const struct cl_lock_descr *need,
const struct cl_io *io)
{
const struct cl_lock_slice *slice;
LINVRNT(cl_lock_invariant_trusted(env, lock));
list_for_each_entry(slice, &lock->cll_layers, cls_linkage) {
if (slice->cls_ops->clo_fits_into != NULL &&
!slice->cls_ops->clo_fits_into(env, slice, need, io))
return 0;
}
return 1;
}
static struct cl_lock *cl_lock_lookup(const struct lu_env *env,
struct cl_object *obj,
const struct cl_io *io,
const struct cl_lock_descr *need)
{
struct cl_lock *lock;
struct cl_object_header *head;
head = cl_object_header(obj);
LINVRNT(spin_is_locked(&head->coh_lock_guard));
CS_LOCK_INC(obj, lookup);
list_for_each_entry(lock, &head->coh_locks, cll_linkage) {
int matched;
matched = cl_lock_ext_match(&lock->cll_descr, need) &&
lock->cll_state < CLS_FREEING &&
lock->cll_error == 0 &&
!(lock->cll_flags & CLF_CANCELLED) &&
cl_lock_fits_into(env, lock, need, io);
CDEBUG(D_DLMTRACE, "has: "DDESCR"(%d) need: "DDESCR": %d\n",
PDESCR(&lock->cll_descr), lock->cll_state, PDESCR(need),
matched);
if (matched) {
cl_lock_get_trust(lock);
CS_LOCK_INC(obj, hit);
return lock;
}
}
return NULL;
}
/**
* Returns a lock matching description \a need.
*
* This is the main entry point into the cl_lock caching interface. First, a
* cache (implemented as a per-object linked list) is consulted. If lock is
* found there, it is returned immediately. Otherwise new lock is allocated
* and returned. In any case, additional reference to lock is acquired.
*
* \see cl_object_find(), cl_page_find()
*/
static struct cl_lock *cl_lock_find(const struct lu_env *env,
const struct cl_io *io,
const struct cl_lock_descr *need)
{
struct cl_object_header *head;
struct cl_object *obj;
struct cl_lock *lock;
obj = need->cld_obj;
head = cl_object_header(obj);
spin_lock(&head->coh_lock_guard);
lock = cl_lock_lookup(env, obj, io, need);
spin_unlock(&head->coh_lock_guard);
if (lock == NULL) {
lock = cl_lock_alloc(env, obj, io, need);
if (!IS_ERR(lock)) {
struct cl_lock *ghost;
spin_lock(&head->coh_lock_guard);
ghost = cl_lock_lookup(env, obj, io, need);
if (ghost == NULL) {
list_add_tail(&lock->cll_linkage,
&head->coh_locks);
spin_unlock(&head->coh_lock_guard);
CS_LOCK_INC(obj, busy);
} else {
spin_unlock(&head->coh_lock_guard);
/*
* Other threads can acquire references to the
* top-lock through its sub-locks. Hence, it
* cannot be cl_lock_free()-ed immediately.
*/
cl_lock_finish(env, lock);
lock = ghost;
}
}
}
return lock;
}
/**
* Returns existing lock matching given description. This is similar to
* cl_lock_find() except that no new lock is created, and returned lock is
* guaranteed to be in enum cl_lock_state::CLS_HELD state.
*/
struct cl_lock *cl_lock_peek(const struct lu_env *env, const struct cl_io *io,
const struct cl_lock_descr *need,
const char *scope, const void *source)
{
struct cl_object_header *head;
struct cl_object *obj;
struct cl_lock *lock;
obj = need->cld_obj;
head = cl_object_header(obj);
do {
spin_lock(&head->coh_lock_guard);
lock = cl_lock_lookup(env, obj, io, need);
spin_unlock(&head->coh_lock_guard);
if (lock == NULL)
return NULL;
cl_lock_mutex_get(env, lock);
if (lock->cll_state == CLS_INTRANSIT)
/* Don't care return value. */
cl_lock_state_wait(env, lock);
if (lock->cll_state == CLS_FREEING) {
cl_lock_mutex_put(env, lock);
cl_lock_put(env, lock);
lock = NULL;
}
} while (lock == NULL);
cl_lock_hold_add(env, lock, scope, source);
cl_lock_user_add(env, lock);
if (lock->cll_state == CLS_CACHED)
cl_use_try(env, lock, 1);
if (lock->cll_state == CLS_HELD) {
cl_lock_mutex_put(env, lock);
cl_lock_lockdep_acquire(env, lock, 0);
cl_lock_put(env, lock);
} else {
cl_unuse_try(env, lock);
cl_lock_unhold(env, lock, scope, source);
cl_lock_mutex_put(env, lock);
cl_lock_put(env, lock);
lock = NULL;
}
return lock;
}
EXPORT_SYMBOL(cl_lock_peek);
/**
* Returns a slice within a lock, corresponding to the given layer in the
* device stack.
*
* \see cl_page_at()
*/
const struct cl_lock_slice *cl_lock_at(const struct cl_lock *lock,
const struct lu_device_type *dtype)
{
const struct cl_lock_slice *slice;
LINVRNT(cl_lock_invariant_trusted(NULL, lock));
list_for_each_entry(slice, &lock->cll_layers, cls_linkage) {
if (slice->cls_obj->co_lu.lo_dev->ld_type == dtype)
return slice;
}
return NULL;
}
EXPORT_SYMBOL(cl_lock_at);
static void cl_lock_mutex_tail(const struct lu_env *env, struct cl_lock *lock)
{
struct cl_thread_counters *counters;
counters = cl_lock_counters(env, lock);
lock->cll_depth++;
counters->ctc_nr_locks_locked++;
lu_ref_add(&counters->ctc_locks_locked, "cll_guard", lock);
cl_lock_trace(D_TRACE, env, "got mutex", lock);
}
/**
* Locks cl_lock object.
*
* This is used to manipulate cl_lock fields, and to serialize state
* transitions in the lock state machine.
*
* \post cl_lock_is_mutexed(lock)
*
* \see cl_lock_mutex_put()
*/
void cl_lock_mutex_get(const struct lu_env *env, struct cl_lock *lock)
{
LINVRNT(cl_lock_invariant(env, lock));
if (lock->cll_guarder == current) {
LINVRNT(cl_lock_is_mutexed(lock));
LINVRNT(lock->cll_depth > 0);
} else {
struct cl_object_header *hdr;
struct cl_thread_info *info;
int i;
LINVRNT(lock->cll_guarder != current);
hdr = cl_object_header(lock->cll_descr.cld_obj);
/*
* Check that mutices are taken in the bottom-to-top order.
*/
info = cl_env_info(env);
for (i = 0; i < hdr->coh_nesting; ++i)
LASSERT(info->clt_counters[i].ctc_nr_locks_locked == 0);
mutex_lock_nested(&lock->cll_guard, hdr->coh_nesting);
lock->cll_guarder = current;
LINVRNT(lock->cll_depth == 0);
}
cl_lock_mutex_tail(env, lock);
}
EXPORT_SYMBOL(cl_lock_mutex_get);
/**
* Try-locks cl_lock object.
*
* \retval 0 \a lock was successfully locked
*
* \retval -EBUSY \a lock cannot be locked right now
*
* \post ergo(result == 0, cl_lock_is_mutexed(lock))
*
* \see cl_lock_mutex_get()
*/
int cl_lock_mutex_try(const struct lu_env *env, struct cl_lock *lock)
{
int result;
LINVRNT(cl_lock_invariant_trusted(env, lock));
result = 0;
if (lock->cll_guarder == current) {
LINVRNT(lock->cll_depth > 0);
cl_lock_mutex_tail(env, lock);
} else if (mutex_trylock(&lock->cll_guard)) {
LINVRNT(lock->cll_depth == 0);
lock->cll_guarder = current;
cl_lock_mutex_tail(env, lock);
} else
result = -EBUSY;
return result;
}
EXPORT_SYMBOL(cl_lock_mutex_try);
/**
{* Unlocks cl_lock object.
*
* \pre cl_lock_is_mutexed(lock)
*
* \see cl_lock_mutex_get()
*/
void cl_lock_mutex_put(const struct lu_env *env, struct cl_lock *lock)
{
struct cl_thread_counters *counters;
LINVRNT(cl_lock_invariant(env, lock));
LINVRNT(cl_lock_is_mutexed(lock));
LINVRNT(lock->cll_guarder == current);
LINVRNT(lock->cll_depth > 0);
counters = cl_lock_counters(env, lock);
LINVRNT(counters->ctc_nr_locks_locked > 0);
cl_lock_trace(D_TRACE, env, "put mutex", lock);
lu_ref_del(&counters->ctc_locks_locked, "cll_guard", lock);
counters->ctc_nr_locks_locked--;
if (--lock->cll_depth == 0) {
lock->cll_guarder = NULL;
mutex_unlock(&lock->cll_guard);
}
}
EXPORT_SYMBOL(cl_lock_mutex_put);
/**
* Returns true iff lock's mutex is owned by the current thread.
*/
int cl_lock_is_mutexed(struct cl_lock *lock)
{
return lock->cll_guarder == current;
}
EXPORT_SYMBOL(cl_lock_is_mutexed);
/**
* Returns number of cl_lock mutices held by the current thread (environment).
*/
int cl_lock_nr_mutexed(const struct lu_env *env)
{
struct cl_thread_info *info;
int i;
int locked;
/*
* NOTE: if summation across all nesting levels (currently 2) proves
* too expensive, a summary counter can be added to
* struct cl_thread_info.
*/
info = cl_env_info(env);
for (i = 0, locked = 0; i < ARRAY_SIZE(info->clt_counters); ++i)
locked += info->clt_counters[i].ctc_nr_locks_locked;
return locked;
}
EXPORT_SYMBOL(cl_lock_nr_mutexed);
static void cl_lock_cancel0(const struct lu_env *env, struct cl_lock *lock)
{
LINVRNT(cl_lock_is_mutexed(lock));
LINVRNT(cl_lock_invariant(env, lock));
if (!(lock->cll_flags & CLF_CANCELLED)) {
const struct cl_lock_slice *slice;
lock->cll_flags |= CLF_CANCELLED;
list_for_each_entry_reverse(slice, &lock->cll_layers,
cls_linkage) {
if (slice->cls_ops->clo_cancel != NULL)
slice->cls_ops->clo_cancel(env, slice);
}
}
}
static void cl_lock_delete0(const struct lu_env *env, struct cl_lock *lock)
{
struct cl_object_header *head;
const struct cl_lock_slice *slice;
LINVRNT(cl_lock_is_mutexed(lock));
LINVRNT(cl_lock_invariant(env, lock));
if (lock->cll_state < CLS_FREEING) {
LASSERT(lock->cll_state != CLS_INTRANSIT);
cl_lock_state_set(env, lock, CLS_FREEING);
head = cl_object_header(lock->cll_descr.cld_obj);
spin_lock(&head->coh_lock_guard);
list_del_init(&lock->cll_linkage);
spin_unlock(&head->coh_lock_guard);
/*
* From now on, no new references to this lock can be acquired
* by cl_lock_lookup().
*/
list_for_each_entry_reverse(slice, &lock->cll_layers,
cls_linkage) {
if (slice->cls_ops->clo_delete != NULL)
slice->cls_ops->clo_delete(env, slice);
}
/*
* From now on, no new references to this lock can be acquired
* by layer-specific means (like a pointer from struct
* ldlm_lock in osc, or a pointer from top-lock to sub-lock in
* lov).
*
* Lock will be finally freed in cl_lock_put() when last of
* existing references goes away.
*/
}
}
/**
* Mod(ifie)s cl_lock::cll_holds counter for a given lock. Also, for a
* top-lock (nesting == 0) accounts for this modification in the per-thread
* debugging counters. Sub-lock holds can be released by a thread different
* from one that acquired it.
*/
static void cl_lock_hold_mod(const struct lu_env *env, struct cl_lock *lock,
int delta)
{
struct cl_thread_counters *counters;
enum clt_nesting_level nesting;
lock->cll_holds += delta;
nesting = cl_lock_nesting(lock);
if (nesting == CNL_TOP) {
counters = &cl_env_info(env)->clt_counters[CNL_TOP];
counters->ctc_nr_held += delta;
LASSERT(counters->ctc_nr_held >= 0);
}
}
/**
* Mod(ifie)s cl_lock::cll_users counter for a given lock. See
* cl_lock_hold_mod() for the explanation of the debugging code.
*/
static void cl_lock_used_mod(const struct lu_env *env, struct cl_lock *lock,
int delta)
{
struct cl_thread_counters *counters;
enum clt_nesting_level nesting;
lock->cll_users += delta;
nesting = cl_lock_nesting(lock);
if (nesting == CNL_TOP) {
counters = &cl_env_info(env)->clt_counters[CNL_TOP];
counters->ctc_nr_used += delta;
LASSERT(counters->ctc_nr_used >= 0);
}
}
void cl_lock_hold_release(const struct lu_env *env, struct cl_lock *lock,
const char *scope, const void *source)
{
LINVRNT(cl_lock_is_mutexed(lock));
LINVRNT(cl_lock_invariant(env, lock));
LASSERT(lock->cll_holds > 0);
cl_lock_trace(D_DLMTRACE, env, "hold release lock", lock);
lu_ref_del(&lock->cll_holders, scope, source);
cl_lock_hold_mod(env, lock, -1);
if (lock->cll_holds == 0) {
CL_LOCK_ASSERT(lock->cll_state != CLS_HELD, env, lock);
if (lock->cll_descr.cld_mode == CLM_PHANTOM ||
lock->cll_descr.cld_mode == CLM_GROUP ||
lock->cll_state != CLS_CACHED)
/*
* If lock is still phantom or grouplock when user is
* done with it---destroy the lock.
*/
lock->cll_flags |= CLF_CANCELPEND|CLF_DOOMED;
if (lock->cll_flags & CLF_CANCELPEND) {
lock->cll_flags &= ~CLF_CANCELPEND;
cl_lock_cancel0(env, lock);
}
if (lock->cll_flags & CLF_DOOMED) {
/* no longer doomed: it's dead... Jim. */
lock->cll_flags &= ~CLF_DOOMED;
cl_lock_delete0(env, lock);
}
}
}
EXPORT_SYMBOL(cl_lock_hold_release);
/**
* Waits until lock state is changed.
*
* This function is called with cl_lock mutex locked, atomically releases
* mutex and goes to sleep, waiting for a lock state change (signaled by
* cl_lock_signal()), and re-acquires the mutex before return.
*
* This function is used to wait until lock state machine makes some progress
* and to emulate synchronous operations on top of asynchronous lock
* interface.
*
* \retval -EINTR wait was interrupted
*
* \retval 0 wait wasn't interrupted
*
* \pre cl_lock_is_mutexed(lock)
*
* \see cl_lock_signal()
*/
int cl_lock_state_wait(const struct lu_env *env, struct cl_lock *lock)
{
wait_queue_t waiter;
sigset_t blocked;
int result;
LINVRNT(cl_lock_is_mutexed(lock));
LINVRNT(cl_lock_invariant(env, lock));
LASSERT(lock->cll_depth == 1);
LASSERT(lock->cll_state != CLS_FREEING); /* too late to wait */
cl_lock_trace(D_DLMTRACE, env, "state wait lock", lock);
result = lock->cll_error;
if (result == 0) {
/* To avoid being interrupted by the 'non-fatal' signals
* (SIGCHLD, for instance), we'd block them temporarily.
* LU-305 */
blocked = cfs_block_sigsinv(LUSTRE_FATAL_SIGS);
init_waitqueue_entry_current(&waiter);
add_wait_queue(&lock->cll_wq, &waiter);
set_current_state(TASK_INTERRUPTIBLE);
cl_lock_mutex_put(env, lock);
LASSERT(cl_lock_nr_mutexed(env) == 0);
/* Returning ERESTARTSYS instead of EINTR so syscalls
* can be restarted if signals are pending here */
result = -ERESTARTSYS;
if (likely(!OBD_FAIL_CHECK(OBD_FAIL_LOCK_STATE_WAIT_INTR))) {
waitq_wait(&waiter, TASK_INTERRUPTIBLE);
if (!cfs_signal_pending())
result = 0;
}
cl_lock_mutex_get(env, lock);
set_current_state(TASK_RUNNING);
remove_wait_queue(&lock->cll_wq, &waiter);
/* Restore old blocked signals */
cfs_restore_sigs(blocked);
}
return result;
}
EXPORT_SYMBOL(cl_lock_state_wait);
static void cl_lock_state_signal(const struct lu_env *env, struct cl_lock *lock,
enum cl_lock_state state)
{
const struct cl_lock_slice *slice;
LINVRNT(cl_lock_is_mutexed(lock));
LINVRNT(cl_lock_invariant(env, lock));
list_for_each_entry(slice, &lock->cll_layers, cls_linkage)
if (slice->cls_ops->clo_state != NULL)
slice->cls_ops->clo_state(env, slice, state);
wake_up_all(&lock->cll_wq);
}
/**
* Notifies waiters that lock state changed.
*
* Wakes up all waiters sleeping in cl_lock_state_wait(), also notifies all
* layers about state change by calling cl_lock_operations::clo_state()
* top-to-bottom.
*/
void cl_lock_signal(const struct lu_env *env, struct cl_lock *lock)
{
cl_lock_trace(D_DLMTRACE, env, "state signal lock", lock);
cl_lock_state_signal(env, lock, lock->cll_state);
}
EXPORT_SYMBOL(cl_lock_signal);
/**
* Changes lock state.
*
* This function is invoked to notify layers that lock state changed, possible
* as a result of an asynchronous event such as call-back reception.
*
* \post lock->cll_state == state
*
* \see cl_lock_operations::clo_state()
*/
void cl_lock_state_set(const struct lu_env *env, struct cl_lock *lock,
enum cl_lock_state state)
{
LASSERT(lock->cll_state <= state ||
(lock->cll_state == CLS_CACHED &&
(state == CLS_HELD || /* lock found in cache */
state == CLS_NEW || /* sub-lock canceled */
state == CLS_INTRANSIT)) ||
/* lock is in transit state */
lock->cll_state == CLS_INTRANSIT);
if (lock->cll_state != state) {
CS_LOCKSTATE_DEC(lock->cll_descr.cld_obj, lock->cll_state);
CS_LOCKSTATE_INC(lock->cll_descr.cld_obj, state);
cl_lock_state_signal(env, lock, state);
lock->cll_state = state;
}
}
EXPORT_SYMBOL(cl_lock_state_set);
static int cl_unuse_try_internal(const struct lu_env *env, struct cl_lock *lock)
{
const struct cl_lock_slice *slice;
int result;
do {
result = 0;
LINVRNT(cl_lock_is_mutexed(lock));
LINVRNT(cl_lock_invariant(env, lock));
LASSERT(lock->cll_state == CLS_INTRANSIT);
result = -ENOSYS;
list_for_each_entry_reverse(slice, &lock->cll_layers,
cls_linkage) {
if (slice->cls_ops->clo_unuse != NULL) {
result = slice->cls_ops->clo_unuse(env, slice);
if (result != 0)
break;
}
}
LASSERT(result != -ENOSYS);
} while (result == CLO_REPEAT);
return result;
}
/**
* Yanks lock from the cache (cl_lock_state::CLS_CACHED state) by calling
* cl_lock_operations::clo_use() top-to-bottom to notify layers.
* @atomic = 1, it must unuse the lock to recovery the lock to keep the
* use process atomic
*/
int cl_use_try(const struct lu_env *env, struct cl_lock *lock, int atomic)
{
const struct cl_lock_slice *slice;
int result;
enum cl_lock_state state;
cl_lock_trace(D_DLMTRACE, env, "use lock", lock);
LASSERT(lock->cll_state == CLS_CACHED);
if (lock->cll_error)
return lock->cll_error;
result = -ENOSYS;
state = cl_lock_intransit(env, lock);
list_for_each_entry(slice, &lock->cll_layers, cls_linkage) {
if (slice->cls_ops->clo_use != NULL) {
result = slice->cls_ops->clo_use(env, slice);
if (result != 0)
break;
}
}
LASSERT(result != -ENOSYS);
LASSERTF(lock->cll_state == CLS_INTRANSIT, "Wrong state %d.\n",
lock->cll_state);
if (result == 0) {
state = CLS_HELD;
} else {
if (result == -ESTALE) {
/*
* ESTALE means sublock being cancelled
* at this time, and set lock state to
* be NEW here and ask the caller to repeat.
*/
state = CLS_NEW;
result = CLO_REPEAT;
}
/* @atomic means back-off-on-failure. */
if (atomic) {
int rc;
rc = cl_unuse_try_internal(env, lock);
/* Vet the results. */
if (rc < 0 && result > 0)
result = rc;
}
}
cl_lock_extransit(env, lock, state);
return result;
}
EXPORT_SYMBOL(cl_use_try);
/**
* Helper for cl_enqueue_try() that calls ->clo_enqueue() across all layers
* top-to-bottom.
*/
static int cl_enqueue_kick(const struct lu_env *env,
struct cl_lock *lock,
struct cl_io *io, __u32 flags)
{
int result;
const struct cl_lock_slice *slice;
result = -ENOSYS;
list_for_each_entry(slice, &lock->cll_layers, cls_linkage) {
if (slice->cls_ops->clo_enqueue != NULL) {
result = slice->cls_ops->clo_enqueue(env,
slice, io, flags);
if (result != 0)
break;
}
}
LASSERT(result != -ENOSYS);
return result;
}
/**
* Tries to enqueue a lock.
*
* This function is called repeatedly by cl_enqueue() until either lock is
* enqueued, or error occurs. This function does not block waiting for
* networking communication to complete.
*
* \post ergo(result == 0, lock->cll_state == CLS_ENQUEUED ||
* lock->cll_state == CLS_HELD)
*
* \see cl_enqueue() cl_lock_operations::clo_enqueue()
* \see cl_lock_state::CLS_ENQUEUED
*/
int cl_enqueue_try(const struct lu_env *env, struct cl_lock *lock,
struct cl_io *io, __u32 flags)
{
int result;
cl_lock_trace(D_DLMTRACE, env, "enqueue lock", lock);
do {
LINVRNT(cl_lock_is_mutexed(lock));
result = lock->cll_error;
if (result != 0)
break;
switch (lock->cll_state) {
case CLS_NEW:
cl_lock_state_set(env, lock, CLS_QUEUING);
/* fall-through */
case CLS_QUEUING:
/* kick layers. */
result = cl_enqueue_kick(env, lock, io, flags);
/* For AGL case, the cl_lock::cll_state may
* become CLS_HELD already. */
if (result == 0 && lock->cll_state == CLS_QUEUING)
cl_lock_state_set(env, lock, CLS_ENQUEUED);
break;
case CLS_INTRANSIT:
LASSERT(cl_lock_is_intransit(lock));
result = CLO_WAIT;
break;
case CLS_CACHED:
/* yank lock from the cache. */
result = cl_use_try(env, lock, 0);
break;
case CLS_ENQUEUED:
case CLS_HELD:
result = 0;
break;
default:
case CLS_FREEING:
/*
* impossible, only held locks with increased
* ->cll_holds can be enqueued, and they cannot be
* freed.
*/
LBUG();
}
} while (result == CLO_REPEAT);
return result;
}
EXPORT_SYMBOL(cl_enqueue_try);
/**
* Cancel the conflicting lock found during previous enqueue.
*
* \retval 0 conflicting lock has been canceled.
* \retval -ve error code.
*/
int cl_lock_enqueue_wait(const struct lu_env *env,
struct cl_lock *lock,
int keep_mutex)
{
struct cl_lock *conflict;
int rc = 0;
LASSERT(cl_lock_is_mutexed(lock));
LASSERT(lock->cll_state == CLS_QUEUING);
LASSERT(lock->cll_conflict != NULL);
conflict = lock->cll_conflict;
lock->cll_conflict = NULL;
cl_lock_mutex_put(env, lock);
LASSERT(cl_lock_nr_mutexed(env) == 0);
cl_lock_mutex_get(env, conflict);
cl_lock_trace(D_DLMTRACE, env, "enqueue wait", conflict);
cl_lock_cancel(env, conflict);
cl_lock_delete(env, conflict);
while (conflict->cll_state != CLS_FREEING) {
rc = cl_lock_state_wait(env, conflict);
if (rc != 0)
break;
}
cl_lock_mutex_put(env, conflict);
lu_ref_del(&conflict->cll_reference, "cancel-wait", lock);
cl_lock_put(env, conflict);
if (keep_mutex)
cl_lock_mutex_get(env, lock);
LASSERT(rc <= 0);
return rc;
}
EXPORT_SYMBOL(cl_lock_enqueue_wait);
static int cl_enqueue_locked(const struct lu_env *env, struct cl_lock *lock,
struct cl_io *io, __u32 enqflags)
{
int result;
LINVRNT(cl_lock_is_mutexed(lock));
LINVRNT(cl_lock_invariant(env, lock));
LASSERT(lock->cll_holds > 0);
cl_lock_user_add(env, lock);
do {
result = cl_enqueue_try(env, lock, io, enqflags);
if (result == CLO_WAIT) {
if (lock->cll_conflict != NULL)
result = cl_lock_enqueue_wait(env, lock, 1);
else
result = cl_lock_state_wait(env, lock);
if (result == 0)
continue;
}
break;
} while (1);
if (result != 0)
cl_unuse_try(env, lock);
LASSERT(ergo(result == 0 && !(enqflags & CEF_AGL),
lock->cll_state == CLS_ENQUEUED ||
lock->cll_state == CLS_HELD));
return result;
}
/**
* Enqueues a lock.
*
* \pre current thread or io owns a hold on lock.
*
* \post ergo(result == 0, lock->users increased)
* \post ergo(result == 0, lock->cll_state == CLS_ENQUEUED ||
* lock->cll_state == CLS_HELD)
*/
int cl_enqueue(const struct lu_env *env, struct cl_lock *lock,
struct cl_io *io, __u32 enqflags)
{
int result;
cl_lock_lockdep_acquire(env, lock, enqflags);
cl_lock_mutex_get(env, lock);
result = cl_enqueue_locked(env, lock, io, enqflags);
cl_lock_mutex_put(env, lock);
if (result != 0)
cl_lock_lockdep_release(env, lock);
LASSERT(ergo(result == 0, lock->cll_state == CLS_ENQUEUED ||
lock->cll_state == CLS_HELD));
return result;
}
EXPORT_SYMBOL(cl_enqueue);
/**
* Tries to unlock a lock.
*
* This function is called to release underlying resource:
* 1. for top lock, the resource is sublocks it held;
* 2. for sublock, the resource is the reference to dlmlock.
*
* cl_unuse_try is a one-shot operation, so it must NOT return CLO_WAIT.
*
* \see cl_unuse() cl_lock_operations::clo_unuse()
* \see cl_lock_state::CLS_CACHED
*/
int cl_unuse_try(const struct lu_env *env, struct cl_lock *lock)
{
int result;
enum cl_lock_state state = CLS_NEW;
cl_lock_trace(D_DLMTRACE, env, "unuse lock", lock);
if (lock->cll_users > 1) {
cl_lock_user_del(env, lock);
return 0;
}
/* Only if the lock is in CLS_HELD or CLS_ENQUEUED state, it can hold
* underlying resources. */
if (!(lock->cll_state == CLS_HELD || lock->cll_state == CLS_ENQUEUED)) {
cl_lock_user_del(env, lock);
return 0;
}
/*
* New lock users (->cll_users) are not protecting unlocking
* from proceeding. From this point, lock eventually reaches
* CLS_CACHED, is reinitialized to CLS_NEW or fails into
* CLS_FREEING.
*/
state = cl_lock_intransit(env, lock);
result = cl_unuse_try_internal(env, lock);
LASSERT(lock->cll_state == CLS_INTRANSIT);
LASSERT(result != CLO_WAIT);
cl_lock_user_del(env, lock);
if (result == 0 || result == -ESTALE) {
/*
* Return lock back to the cache. This is the only
* place where lock is moved into CLS_CACHED state.
*
* If one of ->clo_unuse() methods returned -ESTALE, lock
* cannot be placed into cache and has to be
* re-initialized. This happens e.g., when a sub-lock was
* canceled while unlocking was in progress.
*/
if (state == CLS_HELD && result == 0)
state = CLS_CACHED;
else
state = CLS_NEW;
cl_lock_extransit(env, lock, state);
/*
* Hide -ESTALE error.
* If the lock is a glimpse lock, and it has multiple
* stripes. Assuming that one of its sublock returned -ENAVAIL,
* and other sublocks are matched write locks. In this case,
* we can't set this lock to error because otherwise some of
* its sublocks may not be canceled. This causes some dirty
* pages won't be written to OSTs. -jay
*/
result = 0;
} else {
CERROR("result = %d, this is unlikely!\n", result);
state = CLS_NEW;
cl_lock_extransit(env, lock, state);
}
return result ?: lock->cll_error;
}
EXPORT_SYMBOL(cl_unuse_try);
static void cl_unuse_locked(const struct lu_env *env, struct cl_lock *lock)
{
int result;
result = cl_unuse_try(env, lock);
if (result)
CL_LOCK_DEBUG(D_ERROR, env, lock, "unuse return %d\n", result);
}
/**
* Unlocks a lock.
*/
void cl_unuse(const struct lu_env *env, struct cl_lock *lock)
{
cl_lock_mutex_get(env, lock);
cl_unuse_locked(env, lock);
cl_lock_mutex_put(env, lock);
cl_lock_lockdep_release(env, lock);
}
EXPORT_SYMBOL(cl_unuse);
/**
* Tries to wait for a lock.
*
* This function is called repeatedly by cl_wait() until either lock is
* granted, or error occurs. This function does not block waiting for network
* communication to complete.
*
* \see cl_wait() cl_lock_operations::clo_wait()
* \see cl_lock_state::CLS_HELD
*/
int cl_wait_try(const struct lu_env *env, struct cl_lock *lock)
{
const struct cl_lock_slice *slice;
int result;
cl_lock_trace(D_DLMTRACE, env, "wait lock try", lock);
do {
LINVRNT(cl_lock_is_mutexed(lock));
LINVRNT(cl_lock_invariant(env, lock));
LASSERTF(lock->cll_state == CLS_QUEUING ||
lock->cll_state == CLS_ENQUEUED ||
lock->cll_state == CLS_HELD ||
lock->cll_state == CLS_INTRANSIT,
"lock state: %d\n", lock->cll_state);
LASSERT(lock->cll_users > 0);
LASSERT(lock->cll_holds > 0);
result = lock->cll_error;
if (result != 0)
break;
if (cl_lock_is_intransit(lock)) {
result = CLO_WAIT;
break;
}
if (lock->cll_state == CLS_HELD)
/* nothing to do */
break;
result = -ENOSYS;
list_for_each_entry(slice, &lock->cll_layers, cls_linkage) {
if (slice->cls_ops->clo_wait != NULL) {
result = slice->cls_ops->clo_wait(env, slice);
if (result != 0)
break;
}
}
LASSERT(result != -ENOSYS);
if (result == 0) {
LASSERT(lock->cll_state != CLS_INTRANSIT);
cl_lock_state_set(env, lock, CLS_HELD);
}
} while (result == CLO_REPEAT);
return result;
}
EXPORT_SYMBOL(cl_wait_try);
/**
* Waits until enqueued lock is granted.
*
* \pre current thread or io owns a hold on the lock
* \pre ergo(result == 0, lock->cll_state == CLS_ENQUEUED ||
* lock->cll_state == CLS_HELD)
*
* \post ergo(result == 0, lock->cll_state == CLS_HELD)
*/
int cl_wait(const struct lu_env *env, struct cl_lock *lock)
{
int result;
cl_lock_mutex_get(env, lock);
LINVRNT(cl_lock_invariant(env, lock));
LASSERTF(lock->cll_state == CLS_ENQUEUED || lock->cll_state == CLS_HELD,
"Wrong state %d \n", lock->cll_state);
LASSERT(lock->cll_holds > 0);
do {
result = cl_wait_try(env, lock);
if (result == CLO_WAIT) {
result = cl_lock_state_wait(env, lock);
if (result == 0)
continue;
}
break;
} while (1);
if (result < 0) {
cl_unuse_try(env, lock);
cl_lock_lockdep_release(env, lock);
}
cl_lock_trace(D_DLMTRACE, env, "wait lock", lock);
cl_lock_mutex_put(env, lock);
LASSERT(ergo(result == 0, lock->cll_state == CLS_HELD));
return result;
}
EXPORT_SYMBOL(cl_wait);
/**
* Executes cl_lock_operations::clo_weigh(), and sums results to estimate lock
* value.
*/
unsigned long cl_lock_weigh(const struct lu_env *env, struct cl_lock *lock)
{
const struct cl_lock_slice *slice;
unsigned long pound;
unsigned long ounce;
LINVRNT(cl_lock_is_mutexed(lock));
LINVRNT(cl_lock_invariant(env, lock));
pound = 0;
list_for_each_entry_reverse(slice, &lock->cll_layers, cls_linkage) {
if (slice->cls_ops->clo_weigh != NULL) {
ounce = slice->cls_ops->clo_weigh(env, slice);
pound += ounce;
if (pound < ounce) /* over-weight^Wflow */
pound = ~0UL;
}
}
return pound;
}
EXPORT_SYMBOL(cl_lock_weigh);
/**
* Notifies layers that lock description changed.
*
* The server can grant client a lock different from one that was requested
* (e.g., larger in extent). This method is called when actually granted lock
* description becomes known to let layers to accommodate for changed lock
* description.
*
* \see cl_lock_operations::clo_modify()
*/
int cl_lock_modify(const struct lu_env *env, struct cl_lock *lock,
const struct cl_lock_descr *desc)
{
const struct cl_lock_slice *slice;
struct cl_object *obj = lock->cll_descr.cld_obj;
struct cl_object_header *hdr = cl_object_header(obj);
int result;
cl_lock_trace(D_DLMTRACE, env, "modify lock", lock);
/* don't allow object to change */
LASSERT(obj == desc->cld_obj);
LINVRNT(cl_lock_is_mutexed(lock));
LINVRNT(cl_lock_invariant(env, lock));
list_for_each_entry_reverse(slice, &lock->cll_layers, cls_linkage) {
if (slice->cls_ops->clo_modify != NULL) {
result = slice->cls_ops->clo_modify(env, slice, desc);
if (result != 0)
return result;
}
}
CL_LOCK_DEBUG(D_DLMTRACE, env, lock, " -> "DDESCR"@"DFID"\n",
PDESCR(desc), PFID(lu_object_fid(&desc->cld_obj->co_lu)));
/*
* Just replace description in place. Nothing more is needed for
* now. If locks were indexed according to their extent and/or mode,
* that index would have to be updated here.
*/
spin_lock(&hdr->coh_lock_guard);
lock->cll_descr = *desc;
spin_unlock(&hdr->coh_lock_guard);
return 0;
}
EXPORT_SYMBOL(cl_lock_modify);
/**
* Initializes lock closure with a given origin.
*
* \see cl_lock_closure
*/
void cl_lock_closure_init(const struct lu_env *env,
struct cl_lock_closure *closure,
struct cl_lock *origin, int wait)
{
LINVRNT(cl_lock_is_mutexed(origin));
LINVRNT(cl_lock_invariant(env, origin));
INIT_LIST_HEAD(&closure->clc_list);
closure->clc_origin = origin;
closure->clc_wait = wait;
closure->clc_nr = 0;
}
EXPORT_SYMBOL(cl_lock_closure_init);
/**
* Builds a closure of \a lock.
*
* Building of a closure consists of adding initial lock (\a lock) into it,
* and calling cl_lock_operations::clo_closure() methods of \a lock. These
* methods might call cl_lock_closure_build() recursively again, adding more
* locks to the closure, etc.
*
* \see cl_lock_closure
*/
int cl_lock_closure_build(const struct lu_env *env, struct cl_lock *lock,
struct cl_lock_closure *closure)
{
const struct cl_lock_slice *slice;
int result;
LINVRNT(cl_lock_is_mutexed(closure->clc_origin));
LINVRNT(cl_lock_invariant(env, closure->clc_origin));
result = cl_lock_enclosure(env, lock, closure);
if (result == 0) {
list_for_each_entry(slice, &lock->cll_layers, cls_linkage) {
if (slice->cls_ops->clo_closure != NULL) {
result = slice->cls_ops->clo_closure(env, slice,
closure);
if (result != 0)
break;
}
}
}
if (result != 0)
cl_lock_disclosure(env, closure);
return result;
}
EXPORT_SYMBOL(cl_lock_closure_build);
/**
* Adds new lock to a closure.
*
* Try-locks \a lock and if succeeded, adds it to the closure (never more than
* once). If try-lock failed, returns CLO_REPEAT, after optionally waiting
* until next try-lock is likely to succeed.
*/
int cl_lock_enclosure(const struct lu_env *env, struct cl_lock *lock,
struct cl_lock_closure *closure)
{
int result = 0;
cl_lock_trace(D_DLMTRACE, env, "enclosure lock", lock);
if (!cl_lock_mutex_try(env, lock)) {
/*
* If lock->cll_inclosure is not empty, lock is already in
* this closure.
*/
if (list_empty(&lock->cll_inclosure)) {
cl_lock_get_trust(lock);
lu_ref_add(&lock->cll_reference, "closure", closure);
list_add(&lock->cll_inclosure, &closure->clc_list);
closure->clc_nr++;
} else
cl_lock_mutex_put(env, lock);
result = 0;
} else {
cl_lock_disclosure(env, closure);
if (closure->clc_wait) {
cl_lock_get_trust(lock);
lu_ref_add(&lock->cll_reference, "closure-w", closure);
cl_lock_mutex_put(env, closure->clc_origin);
LASSERT(cl_lock_nr_mutexed(env) == 0);
cl_lock_mutex_get(env, lock);
cl_lock_mutex_put(env, lock);
cl_lock_mutex_get(env, closure->clc_origin);
lu_ref_del(&lock->cll_reference, "closure-w", closure);
cl_lock_put(env, lock);
}
result = CLO_REPEAT;
}
return result;
}
EXPORT_SYMBOL(cl_lock_enclosure);
/** Releases mutices of enclosed locks. */
void cl_lock_disclosure(const struct lu_env *env,
struct cl_lock_closure *closure)
{
struct cl_lock *scan;
struct cl_lock *temp;
cl_lock_trace(D_DLMTRACE, env, "disclosure lock", closure->clc_origin);
list_for_each_entry_safe(scan, temp, &closure->clc_list,
cll_inclosure){
list_del_init(&scan->cll_inclosure);
cl_lock_mutex_put(env, scan);
lu_ref_del(&scan->cll_reference, "closure", closure);
cl_lock_put(env, scan);
closure->clc_nr--;
}
LASSERT(closure->clc_nr == 0);
}
EXPORT_SYMBOL(cl_lock_disclosure);
/** Finalizes a closure. */
void cl_lock_closure_fini(struct cl_lock_closure *closure)
{
LASSERT(closure->clc_nr == 0);
LASSERT(list_empty(&closure->clc_list));
}
EXPORT_SYMBOL(cl_lock_closure_fini);
/**
* Destroys this lock. Notifies layers (bottom-to-top) that lock is being
* destroyed, then destroy the lock. If there are holds on the lock, postpone
* destruction until all holds are released. This is called when a decision is
* made to destroy the lock in the future. E.g., when a blocking AST is
* received on it, or fatal communication error happens.
*
* Caller must have a reference on this lock to prevent a situation, when
* deleted lock lingers in memory for indefinite time, because nobody calls
* cl_lock_put() to finish it.
*
* \pre atomic_read(&lock->cll_ref) > 0
* \pre ergo(cl_lock_nesting(lock) == CNL_TOP,
* cl_lock_nr_mutexed(env) == 1)
* [i.e., if a top-lock is deleted, mutices of no other locks can be
* held, as deletion of sub-locks might require releasing a top-lock
* mutex]
*
* \see cl_lock_operations::clo_delete()
* \see cl_lock::cll_holds
*/
void cl_lock_delete(const struct lu_env *env, struct cl_lock *lock)
{
LINVRNT(cl_lock_is_mutexed(lock));
LINVRNT(cl_lock_invariant(env, lock));
LASSERT(ergo(cl_lock_nesting(lock) == CNL_TOP,
cl_lock_nr_mutexed(env) == 1));
cl_lock_trace(D_DLMTRACE, env, "delete lock", lock);
if (lock->cll_holds == 0)
cl_lock_delete0(env, lock);
else
lock->cll_flags |= CLF_DOOMED;
}
EXPORT_SYMBOL(cl_lock_delete);
/**
* Mark lock as irrecoverably failed, and mark it for destruction. This
* happens when, e.g., server fails to grant a lock to us, or networking
* time-out happens.
*
* \pre atomic_read(&lock->cll_ref) > 0
*
* \see clo_lock_delete()
* \see cl_lock::cll_holds
*/
void cl_lock_error(const struct lu_env *env, struct cl_lock *lock, int error)
{
LINVRNT(cl_lock_is_mutexed(lock));
LINVRNT(cl_lock_invariant(env, lock));
if (lock->cll_error == 0 && error != 0) {
cl_lock_trace(D_DLMTRACE, env, "set lock error", lock);
lock->cll_error = error;
cl_lock_signal(env, lock);
cl_lock_cancel(env, lock);
cl_lock_delete(env, lock);
}
}
EXPORT_SYMBOL(cl_lock_error);
/**
* Cancels this lock. Notifies layers
* (bottom-to-top) that lock is being cancelled, then destroy the lock. If
* there are holds on the lock, postpone cancellation until
* all holds are released.
*
* Cancellation notification is delivered to layers at most once.
*
* \see cl_lock_operations::clo_cancel()
* \see cl_lock::cll_holds
*/
void cl_lock_cancel(const struct lu_env *env, struct cl_lock *lock)
{
LINVRNT(cl_lock_is_mutexed(lock));
LINVRNT(cl_lock_invariant(env, lock));
cl_lock_trace(D_DLMTRACE, env, "cancel lock", lock);
if (lock->cll_holds == 0)
cl_lock_cancel0(env, lock);
else
lock->cll_flags |= CLF_CANCELPEND;
}
EXPORT_SYMBOL(cl_lock_cancel);
/**
* Finds an existing lock covering given index and optionally different from a
* given \a except lock.
*/
struct cl_lock *cl_lock_at_pgoff(const struct lu_env *env,
struct cl_object *obj, pgoff_t index,
struct cl_lock *except,
int pending, int canceld)
{
struct cl_object_header *head;
struct cl_lock *scan;
struct cl_lock *lock;
struct cl_lock_descr *need;
head = cl_object_header(obj);
need = &cl_env_info(env)->clt_descr;
lock = NULL;
need->cld_mode = CLM_READ; /* CLM_READ matches both READ & WRITE, but
* not PHANTOM */
need->cld_start = need->cld_end = index;
need->cld_enq_flags = 0;
spin_lock(&head->coh_lock_guard);
/* It is fine to match any group lock since there could be only one
* with a uniq gid and it conflicts with all other lock modes too */
list_for_each_entry(scan, &head->coh_locks, cll_linkage) {
if (scan != except &&
(scan->cll_descr.cld_mode == CLM_GROUP ||
cl_lock_ext_match(&scan->cll_descr, need)) &&
scan->cll_state >= CLS_HELD &&
scan->cll_state < CLS_FREEING &&
/*
* This check is racy as the lock can be canceled right
* after it is done, but this is fine, because page exists
* already.
*/
(canceld || !(scan->cll_flags & CLF_CANCELLED)) &&
(pending || !(scan->cll_flags & CLF_CANCELPEND))) {
/* Don't increase cs_hit here since this
* is just a helper function. */
cl_lock_get_trust(scan);
lock = scan;
break;
}
}
spin_unlock(&head->coh_lock_guard);
return lock;
}
EXPORT_SYMBOL(cl_lock_at_pgoff);
/**
* Calculate the page offset at the layer of @lock.
* At the time of this writing, @page is top page and @lock is sub lock.
*/
static pgoff_t pgoff_at_lock(struct cl_page *page, struct cl_lock *lock)
{
struct lu_device_type *dtype;
const struct cl_page_slice *slice;
dtype = lock->cll_descr.cld_obj->co_lu.lo_dev->ld_type;
slice = cl_page_at(page, dtype);
LASSERT(slice != NULL);
return slice->cpl_page->cp_index;
}
/**
* Check if page @page is covered by an extra lock or discard it.
*/
static int check_and_discard_cb(const struct lu_env *env, struct cl_io *io,
struct cl_page *page, void *cbdata)
{
struct cl_thread_info *info = cl_env_info(env);
struct cl_lock *lock = cbdata;
pgoff_t index = pgoff_at_lock(page, lock);
if (index >= info->clt_fn_index) {
struct cl_lock *tmp;
/* refresh non-overlapped index */
tmp = cl_lock_at_pgoff(env, lock->cll_descr.cld_obj, index,
lock, 1, 0);
if (tmp != NULL) {
/* Cache the first-non-overlapped index so as to skip
* all pages within [index, clt_fn_index). This
* is safe because if tmp lock is canceled, it will
* discard these pages. */
info->clt_fn_index = tmp->cll_descr.cld_end + 1;
if (tmp->cll_descr.cld_end == CL_PAGE_EOF)
info->clt_fn_index = CL_PAGE_EOF;
cl_lock_put(env, tmp);
} else if (cl_page_own(env, io, page) == 0) {
/* discard the page */
cl_page_unmap(env, io, page);
cl_page_discard(env, io, page);
cl_page_disown(env, io, page);
} else {
LASSERT(page->cp_state == CPS_FREEING);
}
}
info->clt_next_index = index + 1;
return CLP_GANG_OKAY;
}
static int discard_cb(const struct lu_env *env, struct cl_io *io,
struct cl_page *page, void *cbdata)
{
struct cl_thread_info *info = cl_env_info(env);
struct cl_lock *lock = cbdata;
LASSERT(lock->cll_descr.cld_mode >= CLM_WRITE);
KLASSERT(ergo(page->cp_type == CPT_CACHEABLE,
!PageWriteback(cl_page_vmpage(env, page))));
KLASSERT(ergo(page->cp_type == CPT_CACHEABLE,
!PageDirty(cl_page_vmpage(env, page))));
info->clt_next_index = pgoff_at_lock(page, lock) + 1;
if (cl_page_own(env, io, page) == 0) {
/* discard the page */
cl_page_unmap(env, io, page);
cl_page_discard(env, io, page);
cl_page_disown(env, io, page);
} else {
LASSERT(page->cp_state == CPS_FREEING);
}
return CLP_GANG_OKAY;
}
/**
* Discard pages protected by the given lock. This function traverses radix
* tree to find all covering pages and discard them. If a page is being covered
* by other locks, it should remain in cache.
*
* If error happens on any step, the process continues anyway (the reasoning
* behind this being that lock cancellation cannot be delayed indefinitely).
*/
int cl_lock_discard_pages(const struct lu_env *env, struct cl_lock *lock)
{
struct cl_thread_info *info = cl_env_info(env);
struct cl_io *io = &info->clt_io;
struct cl_lock_descr *descr = &lock->cll_descr;
cl_page_gang_cb_t cb;
int res;
int result;
LINVRNT(cl_lock_invariant(env, lock));
io->ci_obj = cl_object_top(descr->cld_obj);
io->ci_ignore_layout = 1;
result = cl_io_init(env, io, CIT_MISC, io->ci_obj);
if (result != 0)
GOTO(out, result);
cb = descr->cld_mode == CLM_READ ? check_and_discard_cb : discard_cb;
info->clt_fn_index = info->clt_next_index = descr->cld_start;
do {
res = cl_page_gang_lookup(env, descr->cld_obj, io,
info->clt_next_index, descr->cld_end,
cb, (void *)lock);
if (info->clt_next_index > descr->cld_end)
break;
if (res == CLP_GANG_RESCHED)
cond_resched();
} while (res != CLP_GANG_OKAY);
out:
cl_io_fini(env, io);
return result;
}
EXPORT_SYMBOL(cl_lock_discard_pages);
/**
* Eliminate all locks for a given object.
*
* Caller has to guarantee that no lock is in active use.
*
* \param cancel when this is set, cl_locks_prune() cancels locks before
* destroying.
*/
void cl_locks_prune(const struct lu_env *env, struct cl_object *obj, int cancel)
{
struct cl_object_header *head;
struct cl_lock *lock;
head = cl_object_header(obj);
/*
* If locks are destroyed without cancellation, all pages must be
* already destroyed (as otherwise they will be left unprotected).
*/
LASSERT(ergo(!cancel,
head->coh_tree.rnode == NULL && head->coh_pages == 0));
spin_lock(&head->coh_lock_guard);
while (!list_empty(&head->coh_locks)) {
lock = container_of(head->coh_locks.next,
struct cl_lock, cll_linkage);
cl_lock_get_trust(lock);
spin_unlock(&head->coh_lock_guard);
lu_ref_add(&lock->cll_reference, "prune", current);
again:
cl_lock_mutex_get(env, lock);
if (lock->cll_state < CLS_FREEING) {
LASSERT(lock->cll_users <= 1);
if (unlikely(lock->cll_users == 1)) {
struct l_wait_info lwi = { 0 };
cl_lock_mutex_put(env, lock);
l_wait_event(lock->cll_wq,
lock->cll_users == 0,
&lwi);
goto again;
}
if (cancel)
cl_lock_cancel(env, lock);
cl_lock_delete(env, lock);
}
cl_lock_mutex_put(env, lock);
lu_ref_del(&lock->cll_reference, "prune", current);
cl_lock_put(env, lock);
spin_lock(&head->coh_lock_guard);
}
spin_unlock(&head->coh_lock_guard);
}
EXPORT_SYMBOL(cl_locks_prune);
static struct cl_lock *cl_lock_hold_mutex(const struct lu_env *env,
const struct cl_io *io,
const struct cl_lock_descr *need,
const char *scope, const void *source)
{
struct cl_lock *lock;
while (1) {
lock = cl_lock_find(env, io, need);
if (IS_ERR(lock))
break;
cl_lock_mutex_get(env, lock);
if (lock->cll_state < CLS_FREEING &&
!(lock->cll_flags & CLF_CANCELLED)) {
cl_lock_hold_mod(env, lock, +1);
lu_ref_add(&lock->cll_holders, scope, source);
lu_ref_add(&lock->cll_reference, scope, source);
break;
}
cl_lock_mutex_put(env, lock);
cl_lock_put(env, lock);
}
return lock;
}
/**
* Returns a lock matching \a need description with a reference and a hold on
* it.
*
* This is much like cl_lock_find(), except that cl_lock_hold() additionally
* guarantees that lock is not in the CLS_FREEING state on return.
*/
struct cl_lock *cl_lock_hold(const struct lu_env *env, const struct cl_io *io,
const struct cl_lock_descr *need,
const char *scope, const void *source)
{
struct cl_lock *lock;
lock = cl_lock_hold_mutex(env, io, need, scope, source);
if (!IS_ERR(lock))
cl_lock_mutex_put(env, lock);
return lock;
}
EXPORT_SYMBOL(cl_lock_hold);
/**
* Main high-level entry point of cl_lock interface that finds existing or
* enqueues new lock matching given description.
*/
struct cl_lock *cl_lock_request(const struct lu_env *env, struct cl_io *io,
const struct cl_lock_descr *need,
const char *scope, const void *source)
{
struct cl_lock *lock;
int rc;
__u32 enqflags = need->cld_enq_flags;
do {
lock = cl_lock_hold_mutex(env, io, need, scope, source);
if (IS_ERR(lock))
break;
rc = cl_enqueue_locked(env, lock, io, enqflags);
if (rc == 0) {
if (cl_lock_fits_into(env, lock, need, io)) {
if (!(enqflags & CEF_AGL)) {
cl_lock_mutex_put(env, lock);
cl_lock_lockdep_acquire(env, lock,
enqflags);
break;
}
rc = 1;
}
cl_unuse_locked(env, lock);
}
cl_lock_trace(D_DLMTRACE, env,
rc <= 0 ? "enqueue failed" : "agl succeed", lock);
cl_lock_hold_release(env, lock, scope, source);
cl_lock_mutex_put(env, lock);
lu_ref_del(&lock->cll_reference, scope, source);
cl_lock_put(env, lock);
if (rc > 0) {
LASSERT(enqflags & CEF_AGL);
lock = NULL;
} else if (rc != 0) {
lock = ERR_PTR(rc);
}
} while (rc == 0);
return lock;
}
EXPORT_SYMBOL(cl_lock_request);
/**
* Adds a hold to a known lock.
*/
void cl_lock_hold_add(const struct lu_env *env, struct cl_lock *lock,
const char *scope, const void *source)
{
LINVRNT(cl_lock_is_mutexed(lock));
LINVRNT(cl_lock_invariant(env, lock));
LASSERT(lock->cll_state != CLS_FREEING);
cl_lock_hold_mod(env, lock, +1);
cl_lock_get(lock);
lu_ref_add(&lock->cll_holders, scope, source);
lu_ref_add(&lock->cll_reference, scope, source);
}
EXPORT_SYMBOL(cl_lock_hold_add);
/**
* Releases a hold and a reference on a lock, on which caller acquired a
* mutex.
*/
void cl_lock_unhold(const struct lu_env *env, struct cl_lock *lock,
const char *scope, const void *source)
{
LINVRNT(cl_lock_invariant(env, lock));
cl_lock_hold_release(env, lock, scope, source);
lu_ref_del(&lock->cll_reference, scope, source);
cl_lock_put(env, lock);
}
EXPORT_SYMBOL(cl_lock_unhold);
/**
* Releases a hold and a reference on a lock, obtained by cl_lock_hold().
*/
void cl_lock_release(const struct lu_env *env, struct cl_lock *lock,
const char *scope, const void *source)
{
LINVRNT(cl_lock_invariant(env, lock));
cl_lock_trace(D_DLMTRACE, env, "release lock", lock);
cl_lock_mutex_get(env, lock);
cl_lock_hold_release(env, lock, scope, source);
cl_lock_mutex_put(env, lock);
lu_ref_del(&lock->cll_reference, scope, source);
cl_lock_put(env, lock);
}
EXPORT_SYMBOL(cl_lock_release);
void cl_lock_user_add(const struct lu_env *env, struct cl_lock *lock)
{
LINVRNT(cl_lock_is_mutexed(lock));
LINVRNT(cl_lock_invariant(env, lock));
cl_lock_used_mod(env, lock, +1);
}
EXPORT_SYMBOL(cl_lock_user_add);
void cl_lock_user_del(const struct lu_env *env, struct cl_lock *lock)
{
LINVRNT(cl_lock_is_mutexed(lock));
LINVRNT(cl_lock_invariant(env, lock));
LASSERT(lock->cll_users > 0);
cl_lock_used_mod(env, lock, -1);
if (lock->cll_users == 0)
wake_up_all(&lock->cll_wq);
}
EXPORT_SYMBOL(cl_lock_user_del);
const char *cl_lock_mode_name(const enum cl_lock_mode mode)
{
static const char *names[] = {
[CLM_PHANTOM] = "P",
[CLM_READ] = "R",
[CLM_WRITE] = "W",
[CLM_GROUP] = "G"
};
if (0 <= mode && mode < ARRAY_SIZE(names))
return names[mode];
else
return "U";
}
EXPORT_SYMBOL(cl_lock_mode_name);
/**
* Prints human readable representation of a lock description.
*/
void cl_lock_descr_print(const struct lu_env *env, void *cookie,
lu_printer_t printer,
const struct cl_lock_descr *descr)
{
const struct lu_fid *fid;
fid = lu_object_fid(&descr->cld_obj->co_lu);
(*printer)(env, cookie, DDESCR"@"DFID, PDESCR(descr), PFID(fid));
}
EXPORT_SYMBOL(cl_lock_descr_print);
/**
* Prints human readable representation of \a lock to the \a f.
*/
void cl_lock_print(const struct lu_env *env, void *cookie,
lu_printer_t printer, const struct cl_lock *lock)
{
const struct cl_lock_slice *slice;
(*printer)(env, cookie, "lock@%p[%d %d %d %d %d %08lx] ",
lock, atomic_read(&lock->cll_ref),
lock->cll_state, lock->cll_error, lock->cll_holds,
lock->cll_users, lock->cll_flags);
cl_lock_descr_print(env, cookie, printer, &lock->cll_descr);
(*printer)(env, cookie, " {\n");
list_for_each_entry(slice, &lock->cll_layers, cls_linkage) {
(*printer)(env, cookie, " %s@%p: ",
slice->cls_obj->co_lu.lo_dev->ld_type->ldt_name,
slice);
if (slice->cls_ops->clo_print != NULL)
slice->cls_ops->clo_print(env, cookie, printer, slice);
(*printer)(env, cookie, "\n");
}
(*printer)(env, cookie, "} lock@%p\n", lock);
}
EXPORT_SYMBOL(cl_lock_print);
int cl_lock_init(void)
{
return lu_kmem_init(cl_lock_caches);
}
void cl_lock_fini(void)
{
lu_kmem_fini(cl_lock_caches);
}
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