/* ChibiOS/RT - Copyright (C) 2006,2007,2008,2009,2010, 2011 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 . */ /** * @file chqueues.c * @brief I/O Queues code. * * @addtogroup io_queues * @details ChibiOS/RT queues are mostly used in serial-like device drivers. * The device drivers are usually designed to have a lower side * (lower driver, it is usually an interrupt service routine) and an * upper side (upper driver, accessed by the application threads).
* There are several kind of queues:
* - Input queue, unidirectional queue where the writer is the * lower side and the reader is the upper side. * - Output queue, unidirectional queue where the writer is the * upper side and the reader is the lower side. * - Full duplex queue, bidirectional queue. Full duplex queues * are implemented by pairing an input queue and an output queue * together. * . * I/O queues are usually used as an implementation layer for the I/O * channels interface, also see @ref io_channels. * @pre In order to use the I/O queues the @p CH_USE_QUEUES option must * be enabled in @p chconf.h. * @{ */ #include "ch.h" #if CH_USE_QUEUES || defined(__DOXYGEN__) /** * @brief Puts the invoking thread into the queue's threads queue. * * @param[out] qp pointer to an @p GenericQueue structure * @param[in] time the number of ticks before the operation timeouts, * the following special values are allowed: * - @a TIME_IMMEDIATE immediate timeout. * - @a TIME_INFINITE no timeout. * . * @return A message specifying how the invoking thread has been * released from threads queue. * @retval Q_OK is the normal exit, thread signaled. * @retval Q_RESET if the queue has been reset. * @retval Q_TIMEOUT if the queue operation timed out. */ static msg_t qwait(GenericQueue *qp, systime_t time) { if (TIME_IMMEDIATE == time) return Q_TIMEOUT; currp->p_u.wtobjp = qp; queue_insert(currp, &qp->q_waiting); return chSchGoSleepTimeoutS(THD_STATE_WTQUEUE, time); } /** * @brief Initializes an input queue. * @details A Semaphore is internally initialized and works as a counter of * the bytes contained in the queue. * @note The callback is invoked from within the S-Locked system state, * see @ref system_states. * * @param[out] iqp pointer to an @p InputQueue structure * @param[in] bp pointer to a memory area allocated as queue buffer * @param[in] size size of the queue buffer * @param[in] infy pointer to a callback function that is invoked when * data is read from the queue. The value can be @p NULL. * * @init */ void chIQInit(InputQueue *iqp, uint8_t *bp, size_t size, qnotify_t infy) { queue_init(&iqp->q_waiting); iqp->q_counter = 0; iqp->q_buffer = iqp->q_rdptr = iqp->q_wrptr = bp; iqp->q_top = bp + size; iqp->q_notify = infy; } /** * @brief Resets an input queue. * @details All the data in the input queue is erased and lost, any waiting * thread is resumed with status @p Q_RESET. * @note A reset operation can be used by a low level driver in order to * obtain immediate attention from the high level layers. * * @param[in] iqp pointer to an @p InputQueue structure * * @iclass */ void chIQResetI(InputQueue *iqp) { iqp->q_rdptr = iqp->q_wrptr = iqp->q_buffer; iqp->q_counter = 0; while (notempty(&iqp->q_waiting)) chSchReadyI(fifo_remove(&iqp->q_waiting))->p_u.rdymsg = Q_RESET; } /** * @brief Input queue write. * @details A byte value is written into the low end of an input queue. * * @param[in] iqp pointer to an @p InputQueue structure * @param[in] b the byte value to be written in the queue * @return The operation status. * @retval Q_OK if the operation has been completed with success. * @retval Q_FULL if the queue is full and the operation cannot be * completed. * * @iclass */ msg_t chIQPutI(InputQueue *iqp, uint8_t b) { if (chIQIsFullI(iqp)) return Q_FULL; iqp->q_counter++; *iqp->q_wrptr++ = b; if (iqp->q_wrptr >= iqp->q_top) iqp->q_wrptr = iqp->q_buffer; if (notempty(&iqp->q_waiting)) chSchReadyI(fifo_remove(&iqp->q_waiting))->p_u.rdymsg = Q_OK; return Q_OK; } /** * @brief Input queue read with timeout. * @details This function reads a byte value from an input queue. If the queue * is empty then the calling thread is suspended until a byte arrives * in the queue or a timeout occurs. * @note The callback is invoked if the queue is empty before entering the * @p THD_STATE_WTQUEUE state in order to solicit the low level to * start queue filling. * * @param[in] iqp pointer to an @p InputQueue structure * @param[in] time the number of ticks before the operation timeouts, * the following special values are allowed: * - @a TIME_IMMEDIATE immediate timeout. * - @a TIME_INFINITE no timeout. * . * @return A byte value from the queue. * @retval Q_TIMEOUT if the specified time expired. * @retval Q_RESET if the queue has been reset. * * @api */ msg_t chIQGetTimeout(InputQueue *iqp, systime_t time) { uint8_t b; chSysLock(); while (chIQIsEmptyI(iqp)) { msg_t msg; if (iqp->q_notify) iqp->q_notify(iqp); if ((msg = qwait((GenericQueue *)iqp, time)) < Q_OK) { chSysUnlock(); return msg; } } iqp->q_counter--; b = *iqp->q_rdptr++; if (iqp->q_rdptr >= iqp->q_top) iqp->q_rdptr = iqp->q_buffer; chSysUnlock(); return b; } /** * @brief Input queue read with timeout. * @details The function reads data from an input queue into a buffer. The * operation completes when the specified amount of data has been * transferred or after the specified timeout or if the queue has * been reset. * @note The function is not atomic, if you need atomicity it is suggested * to use a semaphore or a mutex for mutual exclusion. * @note The callback is invoked if the queue is empty before entering the * @p THD_STATE_WTQUEUE state in order to solicit the low level to * start queue filling. * * @param[in] iqp pointer to an @p InputQueue structure * @param[out] bp pointer to the data buffer * @param[in] n the maximum amount of data to be transferred, the * value 0 is reserved * @param[in] time the number of ticks before the operation timeouts, * the following special values are allowed: * - @a TIME_IMMEDIATE immediate timeout. * - @a TIME_INFINITE no timeout. * . * @return The number of bytes effectively transferred. * * @api */ size_t chIQReadTimeout(InputQueue *iqp, uint8_t *bp, size_t n, systime_t time) { qnotify_t nfy = iqp->q_notify; size_t r = 0; chDbgCheck(n > 0, "chIQReadTimeout"); chSysLock(); while (TRUE) { while (chIQIsEmptyI(iqp)) { if (nfy) nfy(iqp); if (qwait((GenericQueue *)iqp, time) != Q_OK) { chSysUnlock(); return r; } } iqp->q_counter--; *bp++ = *iqp->q_rdptr++; if (iqp->q_rdptr >= iqp->q_top) iqp->q_rdptr = iqp->q_buffer; chSysUnlock(); /* Gives a preemption chance in a controlled point.*/ r++; if (--n == 0) return r; chSysLock(); } } /** * @brief Initializes an output queue. * @details A Semaphore is internally initialized and works as a counter of * the free bytes in the queue. * @note The callback is invoked from within the S-Locked system state, * see @ref system_states. * * @param[out] oqp pointer to an @p OutputQueue structure * @param[in] bp pointer to a memory area allocated as queue buffer * @param[in] size size of the queue buffer * @param[in] onfy pointer to a callback function that is invoked when * data is written to the queue. The value can be @p NULL. * * @init */ void chOQInit(OutputQueue *oqp, uint8_t *bp, size_t size, qnotify_t onfy) { queue_init(&oqp->q_waiting); oqp->q_counter = size; oqp->q_buffer = oqp->q_rdptr = oqp->q_wrptr = bp; oqp->q_top = bp + size; oqp->q_notify = onfy; } /** * @brief Resets an output queue. * @details All the data in the output queue is erased and lost, any waiting * thread is resumed with status @p Q_RESET. * @note A reset operation can be used by a low level driver in order to * obtain immediate attention from the high level layers. * * @param[in] oqp pointer to an @p OutputQueue structure * * @iclass */ void chOQResetI(OutputQueue *oqp) { oqp->q_rdptr = oqp->q_wrptr = oqp->q_buffer; oqp->q_counter = chQSizeI(oqp); while (notempty(&oqp->q_waiting)) chSchReadyI(fifo_remove(&oqp->q_waiting))->p_u.rdymsg = Q_RESET; } /** * @brief Output queue write with timeout. * @details This function writes a byte value to an output queue. If the queue * is full then the calling thread is suspended until there is space * in the queue or a timeout occurs. * @note The callback is invoked after writing the character into the * buffer. * * @param[in] oqp pointer to an @p OutputQueue structure * @param[in] b the byte value to be written in the queue * @param[in] time the number of ticks before the operation timeouts, * the following special values are allowed: * - @a TIME_IMMEDIATE immediate timeout. * - @a TIME_INFINITE no timeout. * . * @return The operation status. * @retval Q_OK if the operation succeeded. * @retval Q_TIMEOUT if the specified time expired. * @retval Q_RESET if the queue has been reset. * * @api */ msg_t chOQPutTimeout(OutputQueue *oqp, uint8_t b, systime_t time) { chSysLock(); while (chOQIsFullI(oqp)) { msg_t msg; if ((msg = qwait((GenericQueue *)oqp, time)) < Q_OK) { chSysUnlock(); return msg; } } oqp->q_counter--; *oqp->q_wrptr++ = b; if (oqp->q_wrptr >= oqp->q_top) oqp->q_wrptr = oqp->q_buffer; if (oqp->q_notify) oqp->q_notify(oqp); chSysUnlock(); return Q_OK; } /** * @brief Output queue read. * @details A byte value is read from the low end of an output queue. * * @param[in] oqp pointer to an @p OutputQueue structure * @return The byte value from the queue. * @retval Q_EMPTY if the queue is empty. * * @iclass */ msg_t chOQGetI(OutputQueue *oqp) { uint8_t b; if (chOQIsEmptyI(oqp)) return Q_EMPTY; oqp->q_counter++; b = *oqp->q_rdptr++; if (oqp->q_rdptr >= oqp->q_top) oqp->q_rdptr = oqp->q_buffer; if (notempty(&oqp->q_waiting)) chSchReadyI(fifo_remove(&oqp->q_waiting))->p_u.rdymsg = Q_OK; return b; } /** * @brief Output queue write with timeout. * @details The function writes data from a buffer to an output queue. The * operation completes when the specified amount of data has been * transferred or after the specified timeout or if the queue has * been reset. * @note The function is not atomic, if you need atomicity it is suggested * to use a semaphore or a mutex for mutual exclusion. * @note The callback is invoked after writing each character into the * buffer. * * @param[in] oqp pointer to an @p OutputQueue structure * @param[out] bp pointer to the data buffer * @param[in] n the maximum amount of data to be transferred, the * value 0 is reserved * @param[in] time the number of ticks before the operation timeouts, * the following special values are allowed: * - @a TIME_IMMEDIATE immediate timeout. * - @a TIME_INFINITE no timeout. * . * @return The number of bytes effectively transferred. * * @api */ size_t chOQWriteTimeout(OutputQueue *oqp, const uint8_t *bp, size_t n, systime_t time) { qnotify_t nfy = oqp->q_notify; size_t w = 0; chDbgCheck(n > 0, "chOQWriteTimeout"); chSysLock(); while (TRUE) { while (chOQIsFullI(oqp)) { if (qwait((GenericQueue *)oqp, time) != Q_OK) { chSysUnlock(); return w; } } oqp->q_counter--; *oqp->q_wrptr++ = *bp++; if (oqp->q_wrptr >= oqp->q_top) oqp->q_wrptr = oqp->q_buffer; if (nfy) nfy(oqp); chSysUnlock(); /* Gives a preemption chance in a controlled point.*/ w++; if (--n == 0) return w; chSysLock(); } } #endif /* CH_USE_QUEUES */ /** @} */