/* * 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 2007 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" #include #include #include #include #include #include /* * lwp_timer_timeout() is called from a timeout set up in lwp_cond_wait(), * lwp_mutex_timedlock(), lwp_sema_timedwait() or lwp_rwlock_lock(). * * It recomputes the time remaining until the absolute time when the * wait is supposed to timeout and either calls realtime_timeout() * to reschedule itself or calls setrun() on the sleeping thread. * * This is done to ensure that the waiting thread does not wake up * due to timer expiration until the absolute future time of the * timeout has been reached. Until that time, the thread must * remain on its sleep queue. * * An lwp_timer_t structure is used to pass information * about the sleeping thread to the timeout function. */ static void lwp_timer_timeout(void *arg) { lwp_timer_t *lwptp = arg; kthread_t *t = lwptp->lwpt_thread; timespec_t now; mutex_enter(&t->t_delay_lock); gethrestime(&now); /* * timeout is premature iff * lwpt_lbolt >= lbolt and when > now */ if (lwptp->lwpt_lbolt >= lbolt && (lwptp->lwpt_rqtime.tv_sec > now.tv_sec || (lwptp->lwpt_rqtime.tv_sec == now.tv_sec && lwptp->lwpt_rqtime.tv_nsec > now.tv_nsec))) { lwptp->lwpt_id = realtime_timeout(lwp_timer_timeout, lwptp, timespectohz(&lwptp->lwpt_rqtime, now)); } else { /* * Set the thread running only if it is asleep on * its lwpchan sleep queue (not if it is asleep on * the t_delay_lock mutex). */ thread_lock(t); if (t->t_state == TS_SLEEP && (t->t_flag & T_WAKEABLE) && t->t_wchan0 != NULL) setrun_locked(t); thread_unlock(t); } mutex_exit(&t->t_delay_lock); } int lwp_timer_copyin(lwp_timer_t *lwptp, timespec_t *tsp) { timespec_t now; int error = 0; if (tsp == NULL) /* not really an error, just need to bzero() */ goto err; gethrestime(&now); /* do this before copyin() */ if (curproc->p_model == DATAMODEL_NATIVE) { if (copyin(tsp, &lwptp->lwpt_rqtime, sizeof (timespec_t))) { error = EFAULT; goto err; } } else { timespec32_t ts32; if (copyin(tsp, &ts32, sizeof (timespec32_t))) { error = EFAULT; goto err; } TIMESPEC32_TO_TIMESPEC(&lwptp->lwpt_rqtime, &ts32); } if (itimerspecfix(&lwptp->lwpt_rqtime)) { error = EINVAL; goto err; } /* * Unless the requested timeout is zero, * get the precise future (absolute) time at * which we are to time out and return ETIME. * We must not return ETIME before that time. */ if (lwptp->lwpt_rqtime.tv_sec == 0 && lwptp->lwpt_rqtime.tv_nsec == 0) { bzero(lwptp, sizeof (lwp_timer_t)); lwptp->lwpt_imm_timeout = 1; } else { lwptp->lwpt_thread = curthread; lwptp->lwpt_tsp = tsp; lwptp->lwpt_time_error = 0; lwptp->lwpt_id = 0; lwptp->lwpt_imm_timeout = 0; timespecadd(&lwptp->lwpt_rqtime, &now); lwptp->lwpt_lbolt = lbolt + timespectohz(&lwptp->lwpt_rqtime, now); } return (0); err: bzero(lwptp, sizeof (lwp_timer_t)); lwptp->lwpt_time_error = error; return (error); } int lwp_timer_enqueue(lwp_timer_t *lwptp) { timespec_t now; ASSERT(lwptp->lwpt_thread == curthread); ASSERT(MUTEX_HELD(&curthread->t_delay_lock)); gethrestime(&now); /* * timeout is premature iff * lwpt_lbolt >= lbolt and when > now */ if (lwptp->lwpt_lbolt >= lbolt && (lwptp->lwpt_rqtime.tv_sec > now.tv_sec || (lwptp->lwpt_rqtime.tv_sec == now.tv_sec && lwptp->lwpt_rqtime.tv_nsec > now.tv_nsec))) { /* * Queue the timeout. */ lwptp->lwpt_id = realtime_timeout(lwp_timer_timeout, lwptp, timespectohz(&lwptp->lwpt_rqtime, now)); return (0); } /* * Time has already run out or someone reset the system time; * just cause an immediate timeout. */ lwptp->lwpt_imm_timeout = 1; return (1); } clock_t lwp_timer_dequeue(lwp_timer_t *lwptp) { kthread_t *t = curthread; clock_t tim = -1; timeout_id_t tmp_id; mutex_enter(&t->t_delay_lock); while ((tmp_id = lwptp->lwpt_id) != 0) { lwptp->lwpt_id = 0; mutex_exit(&t->t_delay_lock); tim = untimeout(tmp_id); mutex_enter(&t->t_delay_lock); } mutex_exit(&t->t_delay_lock); return (tim); } int lwp_timer_copyout(lwp_timer_t *lwptp, int error) { timespec_t rmtime; timespec_t now; if (lwptp->lwpt_tsp == NULL) /* nothing to do */ return (error); rmtime.tv_sec = rmtime.tv_nsec = 0; if (error != ETIME) { gethrestime(&now); if ((now.tv_sec < lwptp->lwpt_rqtime.tv_sec) || ((now.tv_sec == lwptp->lwpt_rqtime.tv_sec) && (now.tv_nsec < lwptp->lwpt_rqtime.tv_nsec))) { rmtime = lwptp->lwpt_rqtime; timespecsub(&rmtime, &now); } } if (curproc->p_model == DATAMODEL_NATIVE) { if (copyout(&rmtime, lwptp->lwpt_tsp, sizeof (timespec_t))) error = EFAULT; } else { timespec32_t rmtime32; TIMESPEC_TO_TIMESPEC32(&rmtime32, &rmtime); if (copyout(&rmtime32, lwptp->lwpt_tsp, sizeof (timespec32_t))) error = EFAULT; } return (error); }