/* ChibiOS/RT - Copyright (C) 2006-2007 Giovanni Di Sirio. This file is part of ChibiOS/RT. ChibiOS/RT is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. ChibiOS/RT is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . */ /** * @addtogroup Semaphores * @{ */ #include #ifdef CH_USE_SEMAPHORES /** * Initializes a semaphore with the specified counter value. * @param sp pointer to a \p Semaphore structure * @param n initial value of the semaphore counter. Must be non-negative. * @note Can be called with interrupts disabled or enabled. */ void chSemInit(Semaphore *sp, cnt_t n) { chDbgAssert(n >= 0, "chsem.c, chSemInit()"); fifo_init(&sp->s_queue); sp->s_cnt = n; } /** * Performs a reset operation on the semaphore. * @param sp pointer to a \p Semaphore structure * @param n the new value of the semaphore counter. Must be non-negative. * @note The released threads can recognize they were waked up by a reset * instead than a signal because the \p chSemWait() will return * \p RDY_RESET instead of \p RDY_OK. */ void chSemReset(Semaphore *sp, cnt_t n) { chSysLock(); chSemResetI(sp, n); chSchRescheduleS(); chSysUnlock(); } /** * Performs a reset operation on the semaphore. * @param sp pointer to a \p Semaphore structure * @param n the new value of the semaphore counter. Must be non-negative. * @note The released threads can recognize they were waked up by a reset * instead than a signal because the \p chSemWait() will return * \p RDY_RESET instead of \p RDY_OK. * @note This function does not reschedule. */ void chSemResetI(Semaphore *sp, cnt_t n) { cnt_t cnt; chDbgAssert(n >= 0, "chsem.c, chSemResetI()"); cnt = sp->s_cnt; sp->s_cnt = n; while (cnt++ < 0) chSchReadyI(fifo_remove(&sp->s_queue), RDY_RESET); } /** * Performs a wait operation on a semaphore. * @param sp pointer to a \p Semaphore structure * @return the function can return \p RDY_OK or \p RDY_RESET. */ msg_t chSemWait(Semaphore *sp) { msg_t msg; chSysLock(); msg = chSemWaitS(sp); chSysUnlock(); return msg; } /** * Performs a wait operation on a semaphore. * @param sp pointer to a \p Semaphore structure * @return the function can return \p RDY_OK or \p RDY_RESET. * @note This function must be called with interrupts disabled. * @note This function cannot be called by an interrupt handler. */ msg_t chSemWaitS(Semaphore *sp) { if (--sp->s_cnt < 0) { fifo_insert(currp, &sp->s_queue); currp->p_wtsemp = sp; chSchGoSleepS(PRWTSEM); return currp->p_rdymsg; } return RDY_OK; } #ifdef CH_USE_SEMAPHORES_TIMEOUT /** * Performs a wait operation on a semaphore with timeout specification. * @param sp pointer to a \p Semaphore structure * @param time the number of ticks before the operation fails * @return the function can return \p RDY_OK, \p RDY_TIMEOUT or \p RDY_RESET. */ msg_t chSemWaitTimeout(Semaphore *sp, systime_t time) { msg_t msg; chSysLock(); msg = chSemWaitTimeoutS(sp, time); chSysUnlock(); return msg; } /** * Performs a wait operation on a semaphore with timeout specification. * @param sp pointer to a \p Semaphore structure * @param time the number of ticks before the operation fails * @return the function can return \p RDY_OK, \p RDY_TIMEOUT or \p RDY_RESET. * @note This function must be called with interrupts disabled. * @note This function cannot be called by an interrupt handler. * @note The function is available only if the \p CH_USE_SEMAPHORES_TIMEOUT * option is enabled in \p chconf.h. */ msg_t chSemWaitTimeoutS(Semaphore *sp, systime_t time) { if (--sp->s_cnt < 0) { fifo_insert(currp, &sp->s_queue); currp->p_wtsemp = sp; return chSchGoSleepTimeoutS(PRWTSEM, time); } return RDY_OK; } #endif /* CH_USE_SEMAPHORES_TIMEOUT */ /** * Performs a signal operation on a semaphore. * @param sp pointer to a \p Semaphore structure * @note The function is available only if the \p CH_USE_SEMAPHORES * option is enabled in \p chconf.h. */ void chSemSignal(Semaphore *sp) { chSysLock(); if (sp->s_cnt++ < 0) chSchWakeupS(fifo_remove(&sp->s_queue), RDY_OK); chSysUnlock(); } /** * Performs a signal operation on a semaphore. * @param sp pointer to a \p Semaphore structure * @note This function must be called with interrupts disabled. * @note The function is available only if the \p CH_USE_SEMAPHORES * option is enabled in \p chconf.h. * @note This function does not reschedule. */ void chSemSignalI(Semaphore *sp) { if (sp->s_cnt++ < 0) chSchReadyI(fifo_remove(&sp->s_queue), RDY_OK); } #ifdef CH_USE_SEMSW /** * Performs atomic signal and wait operations on two semaphores. * @param sps pointer to a \p Semaphore structure to be signaled * @param spw pointer to a \p Semaphore structure to be wait on * @note The function is available only if the \p CH_USE_SEMAPHORES * option is enabled in \p chconf.h. */ void chSemSignalWait(Semaphore *sps, Semaphore *spw) { chSysLock(); if (sps->s_cnt++ < 0) chSchReadyI(fifo_remove(&sps->s_queue), RDY_OK); if (--spw->s_cnt < 0) { fifo_insert(currp, &spw->s_queue); currp->p_wtsemp = spw; chSchGoSleepS(PRWTSEM); } else chSchRescheduleS(); chSysUnlock(); } #endif /* CH_USE_SEMSW */ #endif /* CH_USE_SEMAPHORES */ /** @} */