/* $NetBSD: subr_workqueue.c,v 1.25 2008/07/02 14:47:34 matt Exp $ */ /*- * Copyright (c)2002, 2005, 2006, 2007 YAMAMOTO Takashi, * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ #include __KERNEL_RCSID(0, "$NetBSD: subr_workqueue.c,v 1.25 2008/07/02 14:47:34 matt Exp $"); #include #include #include #include #include #include #include #include #include #include typedef struct work_impl { SIMPLEQ_ENTRY(work_impl) wk_entry; } work_impl_t; SIMPLEQ_HEAD(workqhead, work_impl); struct workqueue_queue { kmutex_t q_mutex; kcondvar_t q_cv; struct workqhead q_queue; struct lwp *q_worker; }; struct workqueue { void (*wq_func)(struct work *, void *); void *wq_arg; int wq_flags; const char *wq_name; pri_t wq_prio; void *wq_ptr; }; #define WQ_SIZE (roundup2(sizeof(struct workqueue), coherency_unit)) #define WQ_QUEUE_SIZE (roundup2(sizeof(struct workqueue_queue), coherency_unit)) #define POISON 0xaabbccdd static size_t workqueue_size(int flags) { return WQ_SIZE + ((flags & WQ_PERCPU) != 0 ? ncpu : 1) * WQ_QUEUE_SIZE + coherency_unit; } static struct workqueue_queue * workqueue_queue_lookup(struct workqueue *wq, struct cpu_info *ci) { u_int idx = 0; if (wq->wq_flags & WQ_PERCPU) { idx = ci ? cpu_index(ci) : cpu_index(curcpu()); } return (void *)((intptr_t)(wq) + WQ_SIZE + (idx * WQ_QUEUE_SIZE)); } static void workqueue_runlist(struct workqueue *wq, struct workqhead *list) { work_impl_t *wk; work_impl_t *next; /* * note that "list" is not a complete SIMPLEQ. */ for (wk = SIMPLEQ_FIRST(list); wk != NULL; wk = next) { next = SIMPLEQ_NEXT(wk, wk_entry); (*wq->wq_func)((void *)wk, wq->wq_arg); } } static void workqueue_worker(void *cookie) { struct workqueue *wq = cookie; struct workqueue_queue *q; /* find the workqueue of this kthread */ q = workqueue_queue_lookup(wq, curlwp->l_cpu); for (;;) { struct workqhead tmp; /* * we violate abstraction of SIMPLEQ. */ #if defined(DIAGNOSTIC) tmp.sqh_last = (void *)POISON; #endif /* defined(DIAGNOSTIC) */ mutex_enter(&q->q_mutex); while (SIMPLEQ_EMPTY(&q->q_queue)) cv_wait(&q->q_cv, &q->q_mutex); tmp.sqh_first = q->q_queue.sqh_first; /* XXX */ SIMPLEQ_INIT(&q->q_queue); mutex_exit(&q->q_mutex); workqueue_runlist(wq, &tmp); } } static void workqueue_init(struct workqueue *wq, const char *name, void (*callback_func)(struct work *, void *), void *callback_arg, pri_t prio, int ipl) { wq->wq_prio = prio; wq->wq_name = name; wq->wq_func = callback_func; wq->wq_arg = callback_arg; } static int workqueue_initqueue(struct workqueue *wq, struct workqueue_queue *q, int ipl, struct cpu_info *ci) { int error, ktf; KASSERT(q->q_worker == NULL); mutex_init(&q->q_mutex, MUTEX_DEFAULT, ipl); cv_init(&q->q_cv, wq->wq_name); SIMPLEQ_INIT(&q->q_queue); ktf = ((wq->wq_flags & WQ_MPSAFE) != 0 ? KTHREAD_MPSAFE : 0); if (ci) { error = kthread_create(wq->wq_prio, ktf, ci, workqueue_worker, wq, &q->q_worker, "%s/%u", wq->wq_name, ci->ci_index); } else { error = kthread_create(wq->wq_prio, ktf, ci, workqueue_worker, wq, &q->q_worker, "%s", wq->wq_name); } if (error != 0) { mutex_destroy(&q->q_mutex); cv_destroy(&q->q_cv); KASSERT(q->q_worker == NULL); } return error; } struct workqueue_exitargs { work_impl_t wqe_wk; struct workqueue_queue *wqe_q; }; static void workqueue_exit(struct work *wk, void *arg) { struct workqueue_exitargs *wqe = (void *)wk; struct workqueue_queue *q = wqe->wqe_q; /* * only competition at this point is workqueue_finiqueue. */ KASSERT(q->q_worker == curlwp); KASSERT(SIMPLEQ_EMPTY(&q->q_queue)); mutex_enter(&q->q_mutex); q->q_worker = NULL; cv_signal(&q->q_cv); mutex_exit(&q->q_mutex); kthread_exit(0); } static void workqueue_finiqueue(struct workqueue *wq, struct workqueue_queue *q) { struct workqueue_exitargs wqe; KASSERT(wq->wq_func == workqueue_exit); wqe.wqe_q = q; KASSERT(SIMPLEQ_EMPTY(&q->q_queue)); KASSERT(q->q_worker != NULL); mutex_enter(&q->q_mutex); SIMPLEQ_INSERT_TAIL(&q->q_queue, &wqe.wqe_wk, wk_entry); cv_signal(&q->q_cv); while (q->q_worker != NULL) { cv_wait(&q->q_cv, &q->q_mutex); } mutex_exit(&q->q_mutex); mutex_destroy(&q->q_mutex); cv_destroy(&q->q_cv); } /* --- */ int workqueue_create(struct workqueue **wqp, const char *name, void (*callback_func)(struct work *, void *), void *callback_arg, pri_t prio, int ipl, int flags) { struct workqueue *wq; struct workqueue_queue *q; void *ptr; int error = 0; CTASSERT(sizeof(work_impl_t) <= sizeof(struct work)); ptr = kmem_zalloc(workqueue_size(flags), KM_SLEEP); wq = (void *)roundup2((intptr_t)ptr, coherency_unit); wq->wq_ptr = ptr; wq->wq_flags = flags; workqueue_init(wq, name, callback_func, callback_arg, prio, ipl); if (flags & WQ_PERCPU) { struct cpu_info *ci; CPU_INFO_ITERATOR cii; /* create the work-queue for each CPU */ for (CPU_INFO_FOREACH(cii, ci)) { q = workqueue_queue_lookup(wq, ci); error = workqueue_initqueue(wq, q, ipl, ci); if (error) { break; } } } else { /* initialize a work-queue */ q = workqueue_queue_lookup(wq, NULL); error = workqueue_initqueue(wq, q, ipl, NULL); } if (error != 0) { workqueue_destroy(wq); } else { *wqp = wq; } return error; } void workqueue_destroy(struct workqueue *wq) { struct workqueue_queue *q; struct cpu_info *ci; CPU_INFO_ITERATOR cii; wq->wq_func = workqueue_exit; for (CPU_INFO_FOREACH(cii, ci)) { q = workqueue_queue_lookup(wq, ci); if (q->q_worker != NULL) { workqueue_finiqueue(wq, q); } } kmem_free(wq->wq_ptr, workqueue_size(wq->wq_flags)); } void workqueue_enqueue(struct workqueue *wq, struct work *wk0, struct cpu_info *ci) { struct workqueue_queue *q; work_impl_t *wk = (void *)wk0; KASSERT(wq->wq_flags & WQ_PERCPU || ci == NULL); q = workqueue_queue_lookup(wq, ci); mutex_enter(&q->q_mutex); SIMPLEQ_INSERT_TAIL(&q->q_queue, wk, wk_entry); cv_signal(&q->q_cv); mutex_exit(&q->q_mutex); }