/* $OpenBSD: kern_task.c,v 1.23 2018/12/16 03:36:02 dlg Exp $ */ /* * Copyright (c) 2013 David Gwynne * * Permission to use, copy, modify, and distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ #include #include #include #include #include #include #include struct taskq { enum { TQ_S_CREATED, TQ_S_RUNNING, TQ_S_DESTROYED } tq_state; unsigned int tq_running; unsigned int tq_nthreads; unsigned int tq_flags; const char *tq_name; struct mutex tq_mtx; struct task_list tq_worklist; }; struct taskq taskq_sys = { TQ_S_CREATED, 0, 1, 0, "systq", MUTEX_INITIALIZER(IPL_HIGH), TAILQ_HEAD_INITIALIZER(taskq_sys.tq_worklist) }; struct taskq taskq_sys_mp = { TQ_S_CREATED, 0, 1, TASKQ_MPSAFE, "systqmp", MUTEX_INITIALIZER(IPL_HIGH), TAILQ_HEAD_INITIALIZER(taskq_sys_mp.tq_worklist) }; typedef int (*sleepfn)(const volatile void *, struct mutex *, int, const char *, int); struct taskq *const systq = &taskq_sys; struct taskq *const systqmp = &taskq_sys_mp; void taskq_init(void); /* called in init_main.c */ void taskq_create_thread(void *); void taskq_barrier_task(void *); int taskq_sleep(const volatile void *, struct mutex *, int, const char *, int); int taskq_next_work(struct taskq *, struct task *, sleepfn); void taskq_thread(void *); void taskq_init(void) { kthread_create_deferred(taskq_create_thread, systq); kthread_create_deferred(taskq_create_thread, systqmp); } struct taskq * taskq_create(const char *name, unsigned int nthreads, int ipl, unsigned int flags) { struct taskq *tq; tq = malloc(sizeof(*tq), M_DEVBUF, M_WAITOK); if (tq == NULL) return (NULL); tq->tq_state = TQ_S_CREATED; tq->tq_running = 0; tq->tq_nthreads = nthreads; tq->tq_name = name; tq->tq_flags = flags; mtx_init_flags(&tq->tq_mtx, ipl, name, 0); TAILQ_INIT(&tq->tq_worklist); /* try to create a thread to guarantee that tasks will be serviced */ kthread_create_deferred(taskq_create_thread, tq); return (tq); } void taskq_destroy(struct taskq *tq) { mtx_enter(&tq->tq_mtx); switch (tq->tq_state) { case TQ_S_CREATED: /* tq is still referenced by taskq_create_thread */ tq->tq_state = TQ_S_DESTROYED; mtx_leave(&tq->tq_mtx); return; case TQ_S_RUNNING: tq->tq_state = TQ_S_DESTROYED; break; default: panic("unexpected %s tq state %u", tq->tq_name, tq->tq_state); } while (tq->tq_running > 0) { wakeup(tq); msleep(&tq->tq_running, &tq->tq_mtx, PWAIT, "tqdestroy", 0); } mtx_leave(&tq->tq_mtx); free(tq, M_DEVBUF, sizeof(*tq)); } void taskq_create_thread(void *arg) { struct taskq *tq = arg; int rv; mtx_enter(&tq->tq_mtx); switch (tq->tq_state) { case TQ_S_DESTROYED: mtx_leave(&tq->tq_mtx); free(tq, M_DEVBUF, sizeof(*tq)); return; case TQ_S_CREATED: tq->tq_state = TQ_S_RUNNING; break; default: panic("unexpected %s tq state %d", tq->tq_name, tq->tq_state); } do { tq->tq_running++; mtx_leave(&tq->tq_mtx); rv = kthread_create(taskq_thread, tq, NULL, tq->tq_name); mtx_enter(&tq->tq_mtx); if (rv != 0) { printf("unable to create thread for \"%s\" taskq\n", tq->tq_name); tq->tq_running--; /* could have been destroyed during kthread_create */ if (tq->tq_state == TQ_S_DESTROYED && tq->tq_running == 0) wakeup_one(&tq->tq_running); break; } } while (tq->tq_running < tq->tq_nthreads); mtx_leave(&tq->tq_mtx); } void taskq_barrier(struct taskq *tq) { struct cond c = COND_INITIALIZER(); struct task t = TASK_INITIALIZER(taskq_barrier_task, &c); task_add(tq, &t); cond_wait(&c, "tqbar"); } void taskq_barrier_task(void *p) { struct cond *c = p; cond_signal(c); } void task_set(struct task *t, void (*fn)(void *), void *arg) { t->t_func = fn; t->t_arg = arg; t->t_flags = 0; } int task_add(struct taskq *tq, struct task *w) { int rv = 0; if (ISSET(w->t_flags, TASK_ONQUEUE)) return (0); mtx_enter(&tq->tq_mtx); if (!ISSET(w->t_flags, TASK_ONQUEUE)) { rv = 1; SET(w->t_flags, TASK_ONQUEUE); TAILQ_INSERT_TAIL(&tq->tq_worklist, w, t_entry); } mtx_leave(&tq->tq_mtx); if (rv) wakeup_one(tq); return (rv); } int task_del(struct taskq *tq, struct task *w) { int rv = 0; if (!ISSET(w->t_flags, TASK_ONQUEUE)) return (0); mtx_enter(&tq->tq_mtx); if (ISSET(w->t_flags, TASK_ONQUEUE)) { rv = 1; CLR(w->t_flags, TASK_ONQUEUE); TAILQ_REMOVE(&tq->tq_worklist, w, t_entry); } mtx_leave(&tq->tq_mtx); return (rv); } int taskq_sleep(const volatile void *ident, struct mutex *mtx, int priority, const char *wmesg, int tmo) { u_int *flags = &curproc->p_flag; int rv; atomic_clearbits_int(flags, P_CANTSLEEP); rv = msleep(ident, mtx, priority, wmesg, tmo); atomic_setbits_int(flags, P_CANTSLEEP); return (tmo); } int taskq_next_work(struct taskq *tq, struct task *work, sleepfn tqsleep) { struct task *next; mtx_enter(&tq->tq_mtx); while ((next = TAILQ_FIRST(&tq->tq_worklist)) == NULL) { if (tq->tq_state != TQ_S_RUNNING) { mtx_leave(&tq->tq_mtx); return (0); } tqsleep(tq, &tq->tq_mtx, PWAIT, "bored", 0); } TAILQ_REMOVE(&tq->tq_worklist, next, t_entry); CLR(next->t_flags, TASK_ONQUEUE); *work = *next; /* copy to caller to avoid races */ next = TAILQ_FIRST(&tq->tq_worklist); mtx_leave(&tq->tq_mtx); if (next != NULL && tq->tq_nthreads > 1) wakeup_one(tq); return (1); } void taskq_thread(void *xtq) { sleepfn tqsleep = msleep; struct taskq *tq = xtq; struct task work; int last; if (ISSET(tq->tq_flags, TASKQ_MPSAFE)) KERNEL_UNLOCK(); if (ISSET(tq->tq_flags, TASKQ_CANTSLEEP)) { tqsleep = taskq_sleep; atomic_setbits_int(&curproc->p_flag, P_CANTSLEEP); } while (taskq_next_work(tq, &work, tqsleep)) { (*work.t_func)(work.t_arg); sched_pause(yield); } mtx_enter(&tq->tq_mtx); last = (--tq->tq_running == 0); mtx_leave(&tq->tq_mtx); if (ISSET(tq->tq_flags, TASKQ_CANTSLEEP)) atomic_clearbits_int(&curproc->p_flag, P_CANTSLEEP); if (ISSET(tq->tq_flags, TASKQ_MPSAFE)) KERNEL_LOCK(); if (last) wakeup_one(&tq->tq_running); kthread_exit(0); }