/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2008 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #include #include #include #include #include "thread_pool_impl.h" static pthread_mutex_t thread_pool_lock = PTHREAD_MUTEX_INITIALIZER; static tpool_t *thread_pools = NULL; static void delete_pool(tpool_t *tpool) { tpool_job_t *job; ASSERT(tpool->tp_current == 0 && tpool->tp_active == NULL); /* * Unlink the pool from the global list of all pools. */ (void) pthread_mutex_lock(&thread_pool_lock); if (thread_pools == tpool) thread_pools = tpool->tp_forw; if (thread_pools == tpool) thread_pools = NULL; else { tpool->tp_back->tp_forw = tpool->tp_forw; tpool->tp_forw->tp_back = tpool->tp_back; } pthread_mutex_unlock(&thread_pool_lock); /* * There should be no pending jobs, but just in case... */ for (job = tpool->tp_head; job != NULL; job = tpool->tp_head) { tpool->tp_head = job->tpj_next; free(job); } (void) pthread_attr_destroy(&tpool->tp_attr); free(tpool); } /* * Worker thread is terminating. */ static void worker_cleanup(void *arg) { tpool_t *tpool = (tpool_t *)arg; if (--tpool->tp_current == 0 && (tpool->tp_flags & (TP_DESTROY | TP_ABANDON))) { if (tpool->tp_flags & TP_ABANDON) { pthread_mutex_unlock(&tpool->tp_mutex); delete_pool(tpool); return; } if (tpool->tp_flags & TP_DESTROY) (void) pthread_cond_broadcast(&tpool->tp_busycv); } pthread_mutex_unlock(&tpool->tp_mutex); } static void notify_waiters(tpool_t *tpool) { if (tpool->tp_head == NULL && tpool->tp_active == NULL) { tpool->tp_flags &= ~TP_WAIT; (void) pthread_cond_broadcast(&tpool->tp_waitcv); } } /* * Called by a worker thread on return from a tpool_dispatch()d job. */ static void job_cleanup(void *arg) { tpool_t *tpool = (tpool_t *)arg; pthread_t my_tid = pthread_self(); tpool_active_t *activep; tpool_active_t **activepp; pthread_mutex_lock(&tpool->tp_mutex); for (activepp = &tpool->tp_active; ; activepp = &activep->tpa_next) { activep = *activepp; if (activep->tpa_tid == my_tid) { *activepp = activep->tpa_next; break; } } if (tpool->tp_flags & TP_WAIT) notify_waiters(tpool); } static void * tpool_worker(void *arg) { tpool_t *tpool = (tpool_t *)arg; int elapsed; tpool_job_t *job; void (*func)(void *); tpool_active_t active; pthread_mutex_lock(&tpool->tp_mutex); pthread_cleanup_push(worker_cleanup, tpool); /* * This is the worker's main loop. * It will only be left if a timeout or an error has occurred. */ active.tpa_tid = pthread_self(); for (;;) { elapsed = 0; tpool->tp_idle++; if (tpool->tp_flags & TP_WAIT) notify_waiters(tpool); while ((tpool->tp_head == NULL || (tpool->tp_flags & TP_SUSPEND)) && !(tpool->tp_flags & (TP_DESTROY | TP_ABANDON))) { if (tpool->tp_current <= tpool->tp_minimum || tpool->tp_linger == 0) { (void) pthread_cond_wait(&tpool->tp_workcv, &tpool->tp_mutex); } else { struct timespec ts; clock_gettime(CLOCK_REALTIME, &ts); ts.tv_sec += tpool->tp_linger; if (pthread_cond_timedwait(&tpool->tp_workcv, &tpool->tp_mutex, &ts) != 0) { elapsed = 1; break; } } } tpool->tp_idle--; if (tpool->tp_flags & TP_DESTROY) break; if (tpool->tp_flags & TP_ABANDON) { /* can't abandon a suspended pool */ if (tpool->tp_flags & TP_SUSPEND) { tpool->tp_flags &= ~TP_SUSPEND; (void) pthread_cond_broadcast( &tpool->tp_workcv); } if (tpool->tp_head == NULL) break; } if ((job = tpool->tp_head) != NULL && !(tpool->tp_flags & TP_SUSPEND)) { elapsed = 0; func = job->tpj_func; arg = job->tpj_arg; tpool->tp_head = job->tpj_next; if (job == tpool->tp_tail) tpool->tp_tail = NULL; tpool->tp_njobs--; active.tpa_next = tpool->tp_active; tpool->tp_active = &active; pthread_mutex_unlock(&tpool->tp_mutex); pthread_cleanup_push(job_cleanup, tpool); free(job); sigset_t maskset; (void) pthread_sigmask(SIG_SETMASK, NULL, &maskset); /* * Call the specified function. */ func(arg); /* * We don't know what this thread has been doing, * so we reset its signal mask and cancellation * state back to the values prior to calling func(). */ (void) pthread_sigmask(SIG_SETMASK, &maskset, NULL); (void) pthread_setcanceltype(PTHREAD_CANCEL_DEFERRED, NULL); (void) pthread_setcancelstate(PTHREAD_CANCEL_ENABLE, NULL); pthread_cleanup_pop(1); } if (elapsed && tpool->tp_current > tpool->tp_minimum) { /* * We timed out and there is no work to be done * and the number of workers exceeds the minimum. * Exit now to reduce the size of the pool. */ break; } } pthread_cleanup_pop(1); return (arg); } /* * Create a worker thread, with default signals blocked. */ static int create_worker(tpool_t *tpool) { pthread_t thread; sigset_t oset; int error; (void) pthread_sigmask(SIG_SETMASK, NULL, &oset); error = pthread_create(&thread, &tpool->tp_attr, tpool_worker, tpool); (void) pthread_sigmask(SIG_SETMASK, &oset, NULL); return (error); } /* * pthread_attr_clone: make a copy of a pthread_attr_t. When old_attr * is NULL initialize the cloned attr using default values. */ static int pthread_attr_clone(pthread_attr_t *attr, const pthread_attr_t *old_attr) { int error; error = pthread_attr_init(attr); if (error || (old_attr == NULL)) return (error); #ifdef __GLIBC__ cpu_set_t cpuset; size_t cpusetsize = sizeof (cpuset); error = pthread_attr_getaffinity_np(old_attr, cpusetsize, &cpuset); if (error == 0) error = pthread_attr_setaffinity_np(attr, cpusetsize, &cpuset); if (error) goto error; #endif /* __GLIBC__ */ int detachstate; error = pthread_attr_getdetachstate(old_attr, &detachstate); if (error == 0) error = pthread_attr_setdetachstate(attr, detachstate); if (error) goto error; size_t guardsize; error = pthread_attr_getguardsize(old_attr, &guardsize); if (error == 0) error = pthread_attr_setguardsize(attr, guardsize); if (error) goto error; int inheritsched; error = pthread_attr_getinheritsched(old_attr, &inheritsched); if (error == 0) error = pthread_attr_setinheritsched(attr, inheritsched); if (error) goto error; struct sched_param param; error = pthread_attr_getschedparam(old_attr, ¶m); if (error == 0) error = pthread_attr_setschedparam(attr, ¶m); if (error) goto error; int policy; error = pthread_attr_getschedpolicy(old_attr, &policy); if (error == 0) error = pthread_attr_setschedpolicy(attr, policy); if (error) goto error; int scope; error = pthread_attr_getscope(old_attr, &scope); if (error == 0) error = pthread_attr_setscope(attr, scope); if (error) goto error; void *stackaddr; size_t stacksize; error = pthread_attr_getstack(old_attr, &stackaddr, &stacksize); if (error == 0) error = pthread_attr_setstack(attr, stackaddr, stacksize); if (error) goto error; return (0); error: pthread_attr_destroy(attr); return (error); } tpool_t * tpool_create(uint_t min_threads, uint_t max_threads, uint_t linger, pthread_attr_t *attr) { tpool_t *tpool; void *stackaddr; size_t stacksize; size_t minstack; int error; if (min_threads > max_threads || max_threads < 1) { errno = EINVAL; return (NULL); } if (attr != NULL) { if (pthread_attr_getstack(attr, &stackaddr, &stacksize) != 0) { errno = EINVAL; return (NULL); } /* * Allow only one thread in the pool with a specified stack. * Require threads to have at least the minimum stack size. */ minstack = PTHREAD_STACK_MIN; if (stackaddr != NULL) { if (stacksize < minstack || max_threads != 1) { errno = EINVAL; return (NULL); } } else if (stacksize != 0 && stacksize < minstack) { errno = EINVAL; return (NULL); } } tpool = calloc(1, sizeof (*tpool)); if (tpool == NULL) { errno = ENOMEM; return (NULL); } (void) pthread_mutex_init(&tpool->tp_mutex, NULL); (void) pthread_cond_init(&tpool->tp_busycv, NULL); (void) pthread_cond_init(&tpool->tp_workcv, NULL); (void) pthread_cond_init(&tpool->tp_waitcv, NULL); tpool->tp_minimum = min_threads; tpool->tp_maximum = max_threads; tpool->tp_linger = linger; /* * We cannot just copy the attribute pointer. * We need to initialize a new pthread_attr_t structure * with the values from the user-supplied pthread_attr_t. * If the attribute pointer is NULL, we need to initialize * the new pthread_attr_t structure with default values. */ error = pthread_attr_clone(&tpool->tp_attr, attr); if (error) { free(tpool); errno = error; return (NULL); } /* make all pool threads be detached daemon threads */ (void) pthread_attr_setdetachstate(&tpool->tp_attr, PTHREAD_CREATE_DETACHED); /* insert into the global list of all thread pools */ pthread_mutex_lock(&thread_pool_lock); if (thread_pools == NULL) { tpool->tp_forw = tpool; tpool->tp_back = tpool; thread_pools = tpool; } else { thread_pools->tp_back->tp_forw = tpool; tpool->tp_forw = thread_pools; tpool->tp_back = thread_pools->tp_back; thread_pools->tp_back = tpool; } pthread_mutex_unlock(&thread_pool_lock); return (tpool); } /* * Dispatch a work request to the thread pool. * If there are idle workers, awaken one. * Else, if the maximum number of workers has * not been reached, spawn a new worker thread. * Else just return with the job added to the queue. */ int tpool_dispatch(tpool_t *tpool, void (*func)(void *), void *arg) { tpool_job_t *job; ASSERT(!(tpool->tp_flags & (TP_DESTROY | TP_ABANDON))); if ((job = calloc(1, sizeof (*job))) == NULL) return (-1); job->tpj_next = NULL; job->tpj_func = func; job->tpj_arg = arg; pthread_mutex_lock(&tpool->tp_mutex); if (tpool->tp_head == NULL) tpool->tp_head = job; else tpool->tp_tail->tpj_next = job; tpool->tp_tail = job; tpool->tp_njobs++; if (!(tpool->tp_flags & TP_SUSPEND)) { if (tpool->tp_idle > 0) (void) pthread_cond_signal(&tpool->tp_workcv); else if (tpool->tp_current < tpool->tp_maximum && create_worker(tpool) == 0) tpool->tp_current++; } pthread_mutex_unlock(&tpool->tp_mutex); return (0); } static void tpool_cleanup(void *arg) { tpool_t *tpool = (tpool_t *)arg; pthread_mutex_unlock(&tpool->tp_mutex); } /* * Assumes: by the time tpool_destroy() is called no one will use this * thread pool in any way and no one will try to dispatch entries to it. * Calling tpool_destroy() from a job in the pool will cause deadlock. */ void tpool_destroy(tpool_t *tpool) { tpool_active_t *activep; ASSERT(!tpool_member(tpool)); ASSERT(!(tpool->tp_flags & (TP_DESTROY | TP_ABANDON))); pthread_mutex_lock(&tpool->tp_mutex); pthread_cleanup_push(tpool_cleanup, tpool); /* mark the pool as being destroyed; wakeup idle workers */ tpool->tp_flags |= TP_DESTROY; tpool->tp_flags &= ~TP_SUSPEND; (void) pthread_cond_broadcast(&tpool->tp_workcv); /* cancel all active workers */ for (activep = tpool->tp_active; activep; activep = activep->tpa_next) (void) pthread_cancel(activep->tpa_tid); /* wait for all active workers to finish */ while (tpool->tp_active != NULL) { tpool->tp_flags |= TP_WAIT; (void) pthread_cond_wait(&tpool->tp_waitcv, &tpool->tp_mutex); } /* the last worker to terminate will wake us up */ while (tpool->tp_current != 0) (void) pthread_cond_wait(&tpool->tp_busycv, &tpool->tp_mutex); pthread_cleanup_pop(1); /* pthread_mutex_unlock(&tpool->tp_mutex); */ delete_pool(tpool); } /* * Like tpool_destroy(), but don't cancel workers or wait for them to finish. * The last worker to terminate will delete the pool. */ void tpool_abandon(tpool_t *tpool) { ASSERT(!(tpool->tp_flags & (TP_DESTROY | TP_ABANDON))); pthread_mutex_lock(&tpool->tp_mutex); if (tpool->tp_current == 0) { /* no workers, just delete the pool */ pthread_mutex_unlock(&tpool->tp_mutex); delete_pool(tpool); } else { /* wake up all workers, last one will delete the pool */ tpool->tp_flags |= TP_ABANDON; tpool->tp_flags &= ~TP_SUSPEND; (void) pthread_cond_broadcast(&tpool->tp_workcv); pthread_mutex_unlock(&tpool->tp_mutex); } } /* * Wait for all jobs to complete. * Calling tpool_wait() from a job in the pool will cause deadlock. */ void tpool_wait(tpool_t *tpool) { ASSERT(!tpool_member(tpool)); ASSERT(!(tpool->tp_flags & (TP_DESTROY | TP_ABANDON))); pthread_mutex_lock(&tpool->tp_mutex); pthread_cleanup_push(tpool_cleanup, tpool); while (tpool->tp_head != NULL || tpool->tp_active != NULL) { tpool->tp_flags |= TP_WAIT; (void) pthread_cond_wait(&tpool->tp_waitcv, &tpool->tp_mutex); ASSERT(!(tpool->tp_flags & (TP_DESTROY | TP_ABANDON))); } pthread_cleanup_pop(1); /* pthread_mutex_unlock(&tpool->tp_mutex); */ } void tpool_suspend(tpool_t *tpool) { ASSERT(!(tpool->tp_flags & (TP_DESTROY | TP_ABANDON))); pthread_mutex_lock(&tpool->tp_mutex); tpool->tp_flags |= TP_SUSPEND; pthread_mutex_unlock(&tpool->tp_mutex); } int tpool_suspended(tpool_t *tpool) { int suspended; ASSERT(!(tpool->tp_flags & (TP_DESTROY | TP_ABANDON))); pthread_mutex_lock(&tpool->tp_mutex); suspended = (tpool->tp_flags & TP_SUSPEND) != 0; pthread_mutex_unlock(&tpool->tp_mutex); return (suspended); } void tpool_resume(tpool_t *tpool) { int excess; ASSERT(!(tpool->tp_flags & (TP_DESTROY | TP_ABANDON))); pthread_mutex_lock(&tpool->tp_mutex); if (!(tpool->tp_flags & TP_SUSPEND)) { pthread_mutex_unlock(&tpool->tp_mutex); return; } tpool->tp_flags &= ~TP_SUSPEND; (void) pthread_cond_broadcast(&tpool->tp_workcv); excess = tpool->tp_njobs - tpool->tp_idle; while (excess-- > 0 && tpool->tp_current < tpool->tp_maximum) { if (create_worker(tpool) != 0) break; /* pthread_create() failed */ tpool->tp_current++; } pthread_mutex_unlock(&tpool->tp_mutex); } int tpool_member(tpool_t *tpool) { pthread_t my_tid = pthread_self(); tpool_active_t *activep; ASSERT(!(tpool->tp_flags & (TP_DESTROY | TP_ABANDON))); pthread_mutex_lock(&tpool->tp_mutex); for (activep = tpool->tp_active; activep; activep = activep->tpa_next) { if (activep->tpa_tid == my_tid) { pthread_mutex_unlock(&tpool->tp_mutex); return (1); } } pthread_mutex_unlock(&tpool->tp_mutex); return (0); }