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d1d7e2689d
The vast majority of these changes are in Linux specific code. They are the result of not having an automated style checker to validate the code when it was originally written. Others were caused when the common code was slightly adjusted for Linux. This patch contains no functional changes. It only refreshes the code to conform to style guide. Everyone submitting patches for inclusion upstream should now run 'make checkstyle' and resolve any warning prior to opening a pull request. The automated builders have been updated to fail a build if when 'make checkstyle' detects an issue. Signed-off-by: Brian Behlendorf <behlendorf1@llnl.gov> Closes #1821
375 lines
8.4 KiB
C
375 lines
8.4 KiB
C
/*
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* CDDL HEADER START
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*
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* The contents of this file are subject to the terms of the
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* Common Development and Distribution License (the "License").
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* You may not use this file except in compliance with the License.
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*
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* You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
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* or http://www.opensolaris.org/os/licensing.
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* See the License for the specific language governing permissions
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* and limitations under the License.
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*
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* When distributing Covered Code, include this CDDL HEADER in each
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* file and include the License file at usr/src/OPENSOLARIS.LICENSE.
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* If applicable, add the following below this CDDL HEADER, with the
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* fields enclosed by brackets "[]" replaced with your own identifying
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* information: Portions Copyright [yyyy] [name of copyright owner]
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*
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* CDDL HEADER END
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*/
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/*
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* Copyright 2010 Sun Microsystems, Inc. All rights reserved.
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* Use is subject to license terms.
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*/
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/*
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* Copyright 2011 Nexenta Systems, Inc. All rights reserved.
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* Copyright 2012 Garrett D'Amore <garrett@damore.org>. All rights reserved.
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*/
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#include <sys/zfs_context.h>
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int taskq_now;
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taskq_t *system_taskq;
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#define TASKQ_ACTIVE 0x00010000
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struct taskq {
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kmutex_t tq_lock;
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krwlock_t tq_threadlock;
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kcondvar_t tq_dispatch_cv;
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kcondvar_t tq_wait_cv;
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kthread_t **tq_threadlist;
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int tq_flags;
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int tq_active;
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int tq_nthreads;
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int tq_nalloc;
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int tq_minalloc;
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int tq_maxalloc;
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kcondvar_t tq_maxalloc_cv;
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int tq_maxalloc_wait;
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taskq_ent_t *tq_freelist;
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taskq_ent_t tq_task;
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};
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static taskq_ent_t *
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task_alloc(taskq_t *tq, int tqflags)
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{
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taskq_ent_t *t;
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int rv;
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again: if ((t = tq->tq_freelist) != NULL && tq->tq_nalloc >= tq->tq_minalloc) {
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ASSERT(!(t->tqent_flags & TQENT_FLAG_PREALLOC));
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tq->tq_freelist = t->tqent_next;
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} else {
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if (tq->tq_nalloc >= tq->tq_maxalloc) {
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if (!(tqflags & KM_SLEEP))
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return (NULL);
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/*
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* We don't want to exceed tq_maxalloc, but we can't
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* wait for other tasks to complete (and thus free up
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* task structures) without risking deadlock with
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* the caller. So, we just delay for one second
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* to throttle the allocation rate. If we have tasks
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* complete before one second timeout expires then
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* taskq_ent_free will signal us and we will
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* immediately retry the allocation.
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*/
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tq->tq_maxalloc_wait++;
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rv = cv_timedwait(&tq->tq_maxalloc_cv,
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&tq->tq_lock, ddi_get_lbolt() + hz);
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tq->tq_maxalloc_wait--;
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if (rv > 0)
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goto again; /* signaled */
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}
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mutex_exit(&tq->tq_lock);
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t = kmem_alloc(sizeof (taskq_ent_t), tqflags);
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mutex_enter(&tq->tq_lock);
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if (t != NULL) {
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/* Make sure we start without any flags */
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t->tqent_flags = 0;
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tq->tq_nalloc++;
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}
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}
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return (t);
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}
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static void
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task_free(taskq_t *tq, taskq_ent_t *t)
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{
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if (tq->tq_nalloc <= tq->tq_minalloc) {
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t->tqent_next = tq->tq_freelist;
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tq->tq_freelist = t;
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} else {
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tq->tq_nalloc--;
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mutex_exit(&tq->tq_lock);
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kmem_free(t, sizeof (taskq_ent_t));
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mutex_enter(&tq->tq_lock);
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}
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if (tq->tq_maxalloc_wait)
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cv_signal(&tq->tq_maxalloc_cv);
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}
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taskqid_t
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taskq_dispatch(taskq_t *tq, task_func_t func, void *arg, uint_t tqflags)
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{
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taskq_ent_t *t;
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if (taskq_now) {
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func(arg);
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return (1);
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}
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mutex_enter(&tq->tq_lock);
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ASSERT(tq->tq_flags & TASKQ_ACTIVE);
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if ((t = task_alloc(tq, tqflags)) == NULL) {
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mutex_exit(&tq->tq_lock);
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return (0);
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}
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if (tqflags & TQ_FRONT) {
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t->tqent_next = tq->tq_task.tqent_next;
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t->tqent_prev = &tq->tq_task;
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} else {
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t->tqent_next = &tq->tq_task;
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t->tqent_prev = tq->tq_task.tqent_prev;
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}
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t->tqent_next->tqent_prev = t;
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t->tqent_prev->tqent_next = t;
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t->tqent_func = func;
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t->tqent_arg = arg;
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t->tqent_flags = 0;
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cv_signal(&tq->tq_dispatch_cv);
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mutex_exit(&tq->tq_lock);
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return (1);
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}
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taskqid_t
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taskq_dispatch_delay(taskq_t *tq, task_func_t func, void *arg, uint_t tqflags,
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clock_t expire_time)
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{
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return (0);
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}
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int
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taskq_empty_ent(taskq_ent_t *t)
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{
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return (t->tqent_next == NULL);
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}
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void
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taskq_init_ent(taskq_ent_t *t)
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{
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t->tqent_next = NULL;
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t->tqent_prev = NULL;
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t->tqent_func = NULL;
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t->tqent_arg = NULL;
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t->tqent_flags = 0;
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}
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void
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taskq_dispatch_ent(taskq_t *tq, task_func_t func, void *arg, uint_t flags,
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taskq_ent_t *t)
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{
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ASSERT(func != NULL);
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ASSERT(!(tq->tq_flags & TASKQ_DYNAMIC));
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/*
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* Mark it as a prealloc'd task. This is important
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* to ensure that we don't free it later.
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*/
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t->tqent_flags |= TQENT_FLAG_PREALLOC;
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/*
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* Enqueue the task to the underlying queue.
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*/
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mutex_enter(&tq->tq_lock);
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if (flags & TQ_FRONT) {
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t->tqent_next = tq->tq_task.tqent_next;
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t->tqent_prev = &tq->tq_task;
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} else {
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t->tqent_next = &tq->tq_task;
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t->tqent_prev = tq->tq_task.tqent_prev;
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}
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t->tqent_next->tqent_prev = t;
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t->tqent_prev->tqent_next = t;
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t->tqent_func = func;
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t->tqent_arg = arg;
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cv_signal(&tq->tq_dispatch_cv);
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mutex_exit(&tq->tq_lock);
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}
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void
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taskq_wait(taskq_t *tq)
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{
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mutex_enter(&tq->tq_lock);
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while (tq->tq_task.tqent_next != &tq->tq_task || tq->tq_active != 0)
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cv_wait(&tq->tq_wait_cv, &tq->tq_lock);
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mutex_exit(&tq->tq_lock);
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}
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void
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taskq_wait_id(taskq_t *tq, taskqid_t id)
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{
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taskq_wait(tq);
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}
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static void
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taskq_thread(void *arg)
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{
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taskq_t *tq = arg;
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taskq_ent_t *t;
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boolean_t prealloc;
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mutex_enter(&tq->tq_lock);
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while (tq->tq_flags & TASKQ_ACTIVE) {
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if ((t = tq->tq_task.tqent_next) == &tq->tq_task) {
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if (--tq->tq_active == 0)
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cv_broadcast(&tq->tq_wait_cv);
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cv_wait(&tq->tq_dispatch_cv, &tq->tq_lock);
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tq->tq_active++;
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continue;
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}
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t->tqent_prev->tqent_next = t->tqent_next;
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t->tqent_next->tqent_prev = t->tqent_prev;
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t->tqent_next = NULL;
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t->tqent_prev = NULL;
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prealloc = t->tqent_flags & TQENT_FLAG_PREALLOC;
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mutex_exit(&tq->tq_lock);
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rw_enter(&tq->tq_threadlock, RW_READER);
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t->tqent_func(t->tqent_arg);
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rw_exit(&tq->tq_threadlock);
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mutex_enter(&tq->tq_lock);
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if (!prealloc)
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task_free(tq, t);
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}
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tq->tq_nthreads--;
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cv_broadcast(&tq->tq_wait_cv);
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mutex_exit(&tq->tq_lock);
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thread_exit();
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}
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/*ARGSUSED*/
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taskq_t *
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taskq_create(const char *name, int nthreads, pri_t pri,
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int minalloc, int maxalloc, uint_t flags)
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{
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taskq_t *tq = kmem_zalloc(sizeof (taskq_t), KM_SLEEP);
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int t;
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if (flags & TASKQ_THREADS_CPU_PCT) {
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int pct;
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ASSERT3S(nthreads, >=, 0);
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ASSERT3S(nthreads, <=, 100);
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pct = MIN(nthreads, 100);
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pct = MAX(pct, 0);
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nthreads = (sysconf(_SC_NPROCESSORS_ONLN) * pct) / 100;
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nthreads = MAX(nthreads, 1); /* need at least 1 thread */
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} else {
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ASSERT3S(nthreads, >=, 1);
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}
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rw_init(&tq->tq_threadlock, NULL, RW_DEFAULT, NULL);
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mutex_init(&tq->tq_lock, NULL, MUTEX_DEFAULT, NULL);
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cv_init(&tq->tq_dispatch_cv, NULL, CV_DEFAULT, NULL);
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cv_init(&tq->tq_wait_cv, NULL, CV_DEFAULT, NULL);
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cv_init(&tq->tq_maxalloc_cv, NULL, CV_DEFAULT, NULL);
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tq->tq_flags = flags | TASKQ_ACTIVE;
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tq->tq_active = nthreads;
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tq->tq_nthreads = nthreads;
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tq->tq_minalloc = minalloc;
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tq->tq_maxalloc = maxalloc;
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tq->tq_task.tqent_next = &tq->tq_task;
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tq->tq_task.tqent_prev = &tq->tq_task;
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tq->tq_threadlist = kmem_alloc(nthreads * sizeof (kthread_t *),
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KM_SLEEP);
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if (flags & TASKQ_PREPOPULATE) {
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mutex_enter(&tq->tq_lock);
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while (minalloc-- > 0)
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task_free(tq, task_alloc(tq, KM_SLEEP));
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mutex_exit(&tq->tq_lock);
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}
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for (t = 0; t < nthreads; t++)
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VERIFY((tq->tq_threadlist[t] = thread_create(NULL, 0,
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taskq_thread, tq, TS_RUN, NULL, 0, 0)) != NULL);
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return (tq);
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}
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void
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taskq_destroy(taskq_t *tq)
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{
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int nthreads = tq->tq_nthreads;
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taskq_wait(tq);
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mutex_enter(&tq->tq_lock);
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tq->tq_flags &= ~TASKQ_ACTIVE;
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cv_broadcast(&tq->tq_dispatch_cv);
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while (tq->tq_nthreads != 0)
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cv_wait(&tq->tq_wait_cv, &tq->tq_lock);
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tq->tq_minalloc = 0;
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while (tq->tq_nalloc != 0) {
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ASSERT(tq->tq_freelist != NULL);
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task_free(tq, task_alloc(tq, KM_SLEEP));
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}
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mutex_exit(&tq->tq_lock);
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kmem_free(tq->tq_threadlist, nthreads * sizeof (kthread_t *));
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rw_destroy(&tq->tq_threadlock);
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mutex_destroy(&tq->tq_lock);
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cv_destroy(&tq->tq_dispatch_cv);
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cv_destroy(&tq->tq_wait_cv);
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cv_destroy(&tq->tq_maxalloc_cv);
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kmem_free(tq, sizeof (taskq_t));
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}
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int
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taskq_member(taskq_t *tq, kthread_t *t)
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{
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int i;
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if (taskq_now)
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return (1);
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for (i = 0; i < tq->tq_nthreads; i++)
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if (tq->tq_threadlist[i] == t)
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return (1);
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return (0);
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}
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int
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taskq_cancel_id(taskq_t *tq, taskqid_t id)
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{
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return (ENOENT);
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}
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void
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system_taskq_init(void)
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{
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system_taskq = taskq_create("system_taskq", 64, minclsyspri, 4, 512,
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TASKQ_DYNAMIC | TASKQ_PREPOPULATE);
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}
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void
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system_taskq_fini(void)
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{
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taskq_destroy(system_taskq);
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system_taskq = NULL; /* defensive */
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}
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