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c30df9c863
1) Ensure mutex_init() never fails in the case of ENOMEM by retrying forever. I don't think I've ever seen this happen but it was clear after code inspection that if it did we would immediately crash. 2) Enable full debugging in check.sh for sanity tests. Might as well get as much debug as we can in the case of a failure. 3) Reworked list of kmem caches tracked by SPL in to a hash with the key based on the address of the kmem_cache_t. This should speed up the constructor/destructor/shrinker lookup needed now for newer kernel which removed the destructor support. 4) Updated kmem_cache_create to handle the case where CONFIG_SLUB is defined. The slub would occasionally merge slab caches which resulted in non-unique keys for our hash lookup in 3). To fix this we detect if the slub is enabled and then set the needed flag to prevent this merging from ever occuring. 5) New kernels removed the proc_dir_entry pointer from items registered by sysctl. This means we can no long be sneaky and manually insert things in to the sysctl tree simply by walking the proc tree. So I'm forced to create a seperate tree for all the things I can't easily support via sysctl interface. I don't like it but it will do for now. git-svn-id: https://outreach.scidac.gov/svn/spl/trunk@124 7e1ea52c-4ff2-0310-8f11-9dd32ca42a1c
310 lines
8.0 KiB
C
310 lines
8.0 KiB
C
/*
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* This file is part of the SPL: Solaris Porting Layer.
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*
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* Copyright (c) 2008 Lawrence Livermore National Security, LLC.
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* Produced at Lawrence Livermore National Laboratory
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* Written by:
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* Brian Behlendorf <behlendorf1@llnl.gov>,
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* Herb Wartens <wartens2@llnl.gov>,
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* Jim Garlick <garlick@llnl.gov>
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* UCRL-CODE-235197
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*
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* This is free software; you can redistribute it and/or modify it
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* under the terms of the GNU General Public License as published by
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* the Free Software Foundation; either version 2 of the License, or
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* (at your option) any later version.
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*
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* This is distributed in the hope that it will be useful, but WITHOUT
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* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
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* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
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* for more details.
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*
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* You should have received a copy of the GNU General Public License along
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* with this program; if not, write to the Free Software Foundation, Inc.,
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* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
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*/
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#include <sys/mutex.h>
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#ifdef DEBUG_SUBSYSTEM
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#undef DEBUG_SUBSYSTEM
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#endif
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#define DEBUG_SUBSYSTEM S_MUTEX
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/* Mutex implementation based on those found in Solaris. This means
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* they the MUTEX_DEFAULT type is an adaptive mutex. When calling
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* mutex_enter() your process will spin waiting for the lock if it's
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* likely the lock will be free'd shortly. If it looks like the
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* lock will be held for a longer time we schedule and sleep waiting
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* for it. This determination is made by checking if the holder of
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* the lock is currently running on cpu or sleeping waiting to be
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* scheduled. If the holder is currently running it's likely the
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* lock will be shortly dropped.
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*
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* XXX: This is basically a rough implementation to see if this
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* helps our performance. If it does a more careful implementation
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* should be done, perhaps in assembly.
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*/
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/* 0: Never spin when trying to aquire lock
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* -1: Spin until aquired or holder yeilds without dropping lock
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* 1-MAX_INT: Spin for N attempts before sleeping for lock
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*/
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int mutex_spin_max = 0;
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#ifdef DEBUG_MUTEX
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int mutex_stats[MUTEX_STATS_SIZE] = { 0 };
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spinlock_t mutex_stats_lock;
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struct list_head mutex_stats_list;
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#endif
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int
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__spl_mutex_init(kmutex_t *mp, char *name, int type, void *ibc)
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{
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int flags = KM_SLEEP;
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ASSERT(mp);
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ASSERT(name);
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ASSERT(ibc == NULL);
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ASSERT(mp->km_magic != KM_MAGIC); /* Never double init */
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mp->km_name = NULL;
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mp->km_name_size = strlen(name) + 1;
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switch (type) {
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case MUTEX_DEFAULT:
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mp->km_type = MUTEX_ADAPTIVE;
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break;
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case MUTEX_SPIN:
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case MUTEX_ADAPTIVE:
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mp->km_type = type;
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break;
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default:
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SBUG();
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}
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/* We may be called when there is a non-zero preempt_count or
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* interrupts are disabled is which case we must not sleep.
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*/
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if (current_thread_info()->preempt_count || irqs_disabled())
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flags = KM_NOSLEEP;
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/* Semaphore kmem_alloc'ed to keep struct size down (<64b) */
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mp->km_sem = kmem_alloc(sizeof(struct semaphore), flags);
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if (mp->km_sem == NULL)
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return -ENOMEM;
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mp->km_name = kmem_alloc(mp->km_name_size, flags);
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if (mp->km_name == NULL) {
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kmem_free(mp->km_sem, sizeof(struct semaphore));
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return -ENOMEM;
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}
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sema_init(mp->km_sem, 1);
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strncpy(mp->km_name, name, mp->km_name_size);
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#ifdef DEBUG_MUTEX
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mp->km_stats = kmem_zalloc(sizeof(int) * MUTEX_STATS_SIZE, flags);
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if (mp->km_stats == NULL) {
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kmem_free(mp->km_name, mp->km_name_size);
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kmem_free(mp->km_sem, sizeof(struct semaphore));
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return -ENOMEM;
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}
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/* XXX - This appears to be a much more contended lock than I
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* would have expected. To run with this debugging enabled and
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* get reasonable performance we may need to be more clever and
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* do something like hash the mutex ptr on to one of several
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* lists to ease this single point of contention.
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*/
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spin_lock(&mutex_stats_lock);
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list_add_tail(&mp->km_list, &mutex_stats_list);
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spin_unlock(&mutex_stats_lock);
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#endif
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mp->km_magic = KM_MAGIC;
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mp->km_owner = NULL;
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return 0;
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}
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EXPORT_SYMBOL(__spl_mutex_init);
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void
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__spl_mutex_destroy(kmutex_t *mp)
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{
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ASSERT(mp);
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ASSERT(mp->km_magic == KM_MAGIC);
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#ifdef DEBUG_MUTEX
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spin_lock(&mutex_stats_lock);
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list_del_init(&mp->km_list);
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spin_unlock(&mutex_stats_lock);
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kmem_free(mp->km_stats, sizeof(int) * MUTEX_STATS_SIZE);
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#endif
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kmem_free(mp->km_name, mp->km_name_size);
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kmem_free(mp->km_sem, sizeof(struct semaphore));
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memset(mp, KM_POISON, sizeof(*mp));
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}
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EXPORT_SYMBOL(__spl_mutex_destroy);
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/* Return 1 if we acquired the mutex, else zero. */
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int
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__mutex_tryenter(kmutex_t *mp)
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{
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int rc;
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ENTRY;
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ASSERT(mp);
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ASSERT(mp->km_magic == KM_MAGIC);
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MUTEX_STAT_INC(mutex_stats, MUTEX_TRYENTER_TOTAL);
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MUTEX_STAT_INC(mp->km_stats, MUTEX_TRYENTER_TOTAL);
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rc = down_trylock(mp->km_sem);
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if (rc == 0) {
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ASSERT(mp->km_owner == NULL);
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mp->km_owner = current;
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MUTEX_STAT_INC(mutex_stats, MUTEX_TRYENTER_NOT_HELD);
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MUTEX_STAT_INC(mp->km_stats, MUTEX_TRYENTER_NOT_HELD);
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}
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RETURN(!rc);
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}
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EXPORT_SYMBOL(__mutex_tryenter);
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#ifndef HAVE_TASK_CURR
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#define task_curr(owner) 0
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#endif
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static void
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mutex_enter_adaptive(kmutex_t *mp)
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{
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struct task_struct *owner;
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int count = 0;
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/* Lock is not held so we expect to aquire the lock */
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if ((owner = mp->km_owner) == NULL) {
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down(mp->km_sem);
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MUTEX_STAT_INC(mutex_stats, MUTEX_ENTER_NOT_HELD);
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MUTEX_STAT_INC(mp->km_stats, MUTEX_ENTER_NOT_HELD);
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} else {
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/* The lock is held by a currently running task which
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* we expect will drop the lock before leaving the
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* head of the runqueue. So the ideal thing to do
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* is spin until we aquire the lock and avoid a
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* context switch. However it is also possible the
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* task holding the lock yields the processor with
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* out dropping lock. In which case, we know it's
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* going to be a while so we stop spinning and go
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* to sleep waiting for the lock to be available.
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* This should strike the optimum balance between
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* spinning and sleeping waiting for a lock.
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*/
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while (task_curr(owner) && (count <= mutex_spin_max)) {
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if (down_trylock(mp->km_sem) == 0) {
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MUTEX_STAT_INC(mutex_stats, MUTEX_ENTER_SPIN);
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MUTEX_STAT_INC(mp->km_stats, MUTEX_ENTER_SPIN);
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GOTO(out, count);
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}
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count++;
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}
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/* The lock is held by a sleeping task so it's going to
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* cost us minimally one context switch. We might as
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* well sleep and yield the processor to other tasks.
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*/
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down(mp->km_sem);
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MUTEX_STAT_INC(mutex_stats, MUTEX_ENTER_SLEEP);
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MUTEX_STAT_INC(mp->km_stats, MUTEX_ENTER_SLEEP);
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}
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out:
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MUTEX_STAT_INC(mutex_stats, MUTEX_ENTER_TOTAL);
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MUTEX_STAT_INC(mp->km_stats, MUTEX_ENTER_TOTAL);
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}
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void
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__mutex_enter(kmutex_t *mp)
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{
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ENTRY;
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ASSERT(mp);
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ASSERT(mp->km_magic == KM_MAGIC);
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switch (mp->km_type) {
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case MUTEX_SPIN:
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while (down_trylock(mp->km_sem));
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MUTEX_STAT_INC(mutex_stats, MUTEX_ENTER_SPIN);
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MUTEX_STAT_INC(mp->km_stats, MUTEX_ENTER_SPIN);
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break;
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case MUTEX_ADAPTIVE:
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mutex_enter_adaptive(mp);
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break;
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}
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ASSERT(mp->km_owner == NULL);
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mp->km_owner = current;
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EXIT;
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}
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EXPORT_SYMBOL(__mutex_enter);
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void
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__mutex_exit(kmutex_t *mp)
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{
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ENTRY;
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ASSERT(mp);
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ASSERT(mp->km_magic == KM_MAGIC);
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ASSERT(mp->km_owner == current);
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mp->km_owner = NULL;
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up(mp->km_sem);
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EXIT;
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}
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EXPORT_SYMBOL(__mutex_exit);
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/* Return 1 if mutex is held by current process, else zero. */
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int
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__mutex_owned(kmutex_t *mp)
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{
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ENTRY;
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ASSERT(mp);
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ASSERT(mp->km_magic == KM_MAGIC);
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RETURN(mp->km_owner == current);
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}
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EXPORT_SYMBOL(__mutex_owned);
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/* Return owner if mutex is owned, else NULL. */
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kthread_t *
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__spl_mutex_owner(kmutex_t *mp)
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{
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ENTRY;
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ASSERT(mp);
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ASSERT(mp->km_magic == KM_MAGIC);
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RETURN(mp->km_owner);
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}
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EXPORT_SYMBOL(__spl_mutex_owner);
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int
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spl_mutex_init(void)
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{
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ENTRY;
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#ifdef DEBUG_MUTEX
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spin_lock_init(&mutex_stats_lock);
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INIT_LIST_HEAD(&mutex_stats_list);
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#endif
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RETURN(0);
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}
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void
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spl_mutex_fini(void)
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{
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ENTRY;
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#ifdef DEBUG_MUTEX
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ASSERT(list_empty(&mutex_stats_list));
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#endif
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EXIT;
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}
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module_param(mutex_spin_max, int, 0644);
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MODULE_PARM_DESC(mutex_spin_max, "Spin a maximum of N times to aquire lock");
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