/* ChibiOS - Copyright (C) 2006..2015 Giovanni Di Sirio Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. */ /** * @file hal_queues.h * @brief I/O Queues macros and structures. * * @addtogroup HAL_QUEUES * @{ */ #ifndef _HAL_QUEUES_H_ #define _HAL_QUEUES_H_ /* The ChibiOS/RT kernel provides the following definitions by itself, this check is performed in order to avoid conflicts. */ #if !defined(_CHIBIOS_RT_) || (CH_CFG_USE_QUEUES == FALSE) || \ defined(__DOXYGEN__) /** * @name Queue functions returned status value * @{ */ #define Q_OK MSG_OK /**< @brief Operation successful. */ #define Q_TIMEOUT MSG_TIMEOUT /**< @brief Timeout condition. */ #define Q_RESET MSG_RESET /**< @brief Queue has been reset. */ #define Q_EMPTY (msg_t)-3 /**< @brief Queue empty. */ #define Q_FULL (msg_t)-4 /**< @brief Queue full, */ /** @} */ /** * @brief Type of a generic I/O queue structure. */ typedef struct io_queue io_queue_t; /** * @brief Queue notification callback type. * * @param[in] qp the queue pointer. */ typedef void (*qnotify_t)(io_queue_t *qp); /** * @brief Generic I/O queue structure. * @details This structure represents a generic Input or Output asymmetrical * queue. The queue is asymmetrical because one end is meant to be * accessed from a thread context, and thus can be blocking, the other * end is accessible from interrupt handlers or from within a kernel * lock zone and is non-blocking. */ struct io_queue { threads_queue_t q_waiting; /**< @brief Waiting thread. */ size_t q_counter; /**< @brief Resources counter. */ uint8_t *q_buffer; /**< @brief Pointer to the queue buffer.*/ uint8_t *q_top; /**< @brief Pointer to the first location after the buffer. */ uint8_t *q_wrptr; /**< @brief Write pointer. */ uint8_t *q_rdptr; /**< @brief Read pointer. */ qnotify_t q_notify; /**< @brief Data notification callback. */ void *q_link; /**< @brief Application defined field. */ }; /** * @name Macro Functions * @{ */ /** * @brief Returns the queue's buffer size. * * @param[in] qp pointer to a @p io_queue_t structure. * @return The buffer size. * * @xclass */ #define qSizeX(qp) \ /*lint -save -e9033 [10.8] The cast is safe.*/ \ ((size_t)((qp)->q_top - (qp)->q_buffer)) \ /*lint -restore*/ /** * @brief Queue space. * @details Returns the used space if used on an input queue or the empty * space if used on an output queue. * * @param[in] qp pointer to a @p io_queue_t structure. * @return The buffer space. * * @iclass */ #define qSpaceI(qp) ((qp)->q_counter) /** * @brief Returns the queue application-defined link. * @note This function can be called in any context. * * @param[in] qp pointer to a @p io_queue_t structure. * @return The application-defined link. * * @special */ #define qGetLink(qp) ((qp)->q_link) /** @} */ /** * @extends io_queue_t * * @brief Type of an input queue structure. * @details This structure represents a generic asymmetrical input queue. * Writing to the queue is non-blocking and can be performed from * interrupt handlers or from within a kernel lock zone. * Reading the queue can be a blocking operation and is supposed to * be performed by a system thread. */ typedef io_queue_t input_queue_t; /** * @name Macro Functions * @{ */ /** * @brief Returns the filled space into an input queue. * * @param[in] iqp pointer to an @p input_queue_t structure * @return The number of full bytes in the queue. * @retval 0 if the queue is empty. * * @iclass */ #define iqGetFullI(iqp) qSpaceI(iqp) /** * @brief Returns the empty space into an input queue. * * @param[in] iqp pointer to an @p input_queue_t structure * @return The number of empty bytes in the queue. * @retval 0 if the queue is full. * * @iclass */ #define iqGetEmptyI(iqp) (qSizeX(iqp) - qSpaceI(iqp)) /** * @brief Evaluates to @p TRUE if the specified input queue is empty. * * @param[in] iqp pointer to an @p input_queue_t structure. * @return The queue status. * @retval FALSE if the queue is not empty. * @retval TRUE if the queue is empty. * * @iclass */ #define iqIsEmptyI(iqp) ((bool)(qSpaceI(iqp) == 0U)) /** * @brief Evaluates to @p TRUE if the specified input queue is full. * * @param[in] iqp pointer to an @p input_queue_t structure. * @return The queue status. * @retval FALSE if the queue is not full. * @retval TRUE if the queue is full. * * @iclass */ #define iqIsFullI(iqp) ((bool)(((iqp)->q_wrptr == (iqp)->q_rdptr) && \ ((iqp)->q_counter != 0U))) /** * @brief Input queue read. * @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. * * @param[in] iqp pointer to an @p input_queue_t structure * @return A byte value from the queue. * @retval Q_RESET if the queue has been reset. * * @api */ #define iqGet(iqp) iqGetTimeout(iqp, TIME_INFINITE) /** @} */ /** * @brief Data part of a static input queue initializer. * @details This macro should be used when statically initializing an * input queue that is part of a bigger structure. * * @param[in] name the name of the input queue variable * @param[in] buffer pointer to the queue buffer area * @param[in] size size of the queue buffer area * @param[in] inotify input notification callback pointer * @param[in] link application defined pointer */ #define _INPUTQUEUE_DATA(name, buffer, size, inotify, link) { \ NULL, \ 0U, \ (uint8_t *)(buffer), \ (uint8_t *)(buffer) + (size), \ (uint8_t *)(buffer), \ (uint8_t *)(buffer), \ (inotify), \ (link) \ } /** * @brief Static input queue initializer. * @details Statically initialized input queues require no explicit * initialization using @p iqInit(). * * @param[in] name the name of the input queue variable * @param[in] buffer pointer to the queue buffer area * @param[in] size size of the queue buffer area * @param[in] inotify input notification callback pointer * @param[in] link application defined pointer */ #define INPUTQUEUE_DECL(name, buffer, size, inotify, link) \ input_queue_t name = _INPUTQUEUE_DATA(name, buffer, size, inotify, link) /** * @extends io_queue_t * * @brief Type of an output queue structure. * @details This structure represents a generic asymmetrical output queue. * Reading from the queue is non-blocking and can be performed from * interrupt handlers or from within a kernel lock zone. * Writing the queue can be a blocking operation and is supposed to * be performed by a system thread. */ typedef io_queue_t output_queue_t; /** * @name Macro Functions * @{ */ /** * @brief Returns the filled space into an output queue. * * @param[in] oqp pointer to an @p output_queue_t structure * @return The number of full bytes in the queue. * @retval 0 if the queue is empty. * * @iclass */ #define oqGetFullI(oqp) (qSizeX(oqp) - qSpaceI(oqp)) /** * @brief Returns the empty space into an output queue. * * @param[in] oqp pointer to an @p output_queue_t structure * @return The number of empty bytes in the queue. * @retval 0 if the queue is full. * * @iclass */ #define oqGetEmptyI(oqp) qSpaceI(oqp) /** * @brief Evaluates to @p TRUE if the specified output queue is empty. * * @param[in] oqp pointer to an @p output_queue_t structure. * @return The queue status. * @retval FALSE if the queue is not empty. * @retval TRUE if the queue is empty. * * @iclass */ #define oqIsEmptyI(oqp) ((bool)(((oqp)->q_wrptr == (oqp)->q_rdptr) && \ ((oqp)->q_counter != 0U))) /** * @brief Evaluates to @p TRUE if the specified output queue is full. * * @param[in] oqp pointer to an @p output_queue_t structure. * @return The queue status. * @retval FALSE if the queue is not full. * @retval TRUE if the queue is full. * * @iclass */ #define oqIsFullI(oqp) ((bool)(qSpaceI(oqp) == 0U)) /** * @brief Output queue write. * @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. * * @param[in] oqp pointer to an @p output_queue_t structure * @param[in] b the byte value to be written in the queue * @return The operation status. * @retval Q_OK if the operation succeeded. * @retval Q_RESET if the queue has been reset. * * @api */ #define oqPut(oqp, b) oqPutTimeout(oqp, b, TIME_INFINITE) /** @} */ /** * @brief Data part of a static output queue initializer. * @details This macro should be used when statically initializing an * output queue that is part of a bigger structure. * * @param[in] name the name of the output queue variable * @param[in] buffer pointer to the queue buffer area * @param[in] size size of the queue buffer area * @param[in] onotify output notification callback pointer * @param[in] link application defined pointer */ #define _OUTPUTQUEUE_DATA(name, buffer, size, onotify, link) { \ NULL, \ (size), \ (uint8_t *)(buffer), \ (uint8_t *)(buffer) + (size), \ (uint8_t *)(buffer), \ (uint8_t *)(buffer), \ (onotify), \ (link) \ } /** * @brief Static output queue initializer. * @details Statically initialized output queues require no explicit * initialization using @p oqInit(). * * @param[in] name the name of the output queue variable * @param[in] buffer pointer to the queue buffer area * @param[in] size size of the queue buffer area * @param[in] onotify output notification callback pointer * @param[in] link application defined pointer */ #define OUTPUTQUEUE_DECL(name, buffer, size, onotify, link) \ output_queue_t name = _OUTPUTQUEUE_DATA(name, buffer, size, onotify, link) #ifdef __cplusplus extern "C" { #endif void iqObjectInit(input_queue_t *iqp, uint8_t *bp, size_t size, qnotify_t infy, void *link); void iqResetI(input_queue_t *iqp); msg_t iqPutI(input_queue_t *iqp, uint8_t b); msg_t iqGetTimeout(input_queue_t *iqp, systime_t timeout); size_t iqReadTimeout(input_queue_t *iqp, uint8_t *bp, size_t n, systime_t timeout); void oqObjectInit(output_queue_t *oqp, uint8_t *bp, size_t size, qnotify_t onfy, void *link); void oqResetI(output_queue_t *oqp); msg_t oqPutTimeout(output_queue_t *oqp, uint8_t b, systime_t timeout); msg_t oqGetI(output_queue_t *oqp); size_t oqWriteTimeout(output_queue_t *oqp, const uint8_t *bp, size_t n, systime_t timeout); #ifdef __cplusplus } #endif #else /* defined(_CHIBIOS_RT_) && CH_CFG_USE_QUEUES */ /* If ChibiOS is being used and its own queues subsystem is activated then this module will use the ChibiOS queues code.*/ #define qSizeX(qp) chQSizeX(qp) #define qSpaceI(qp) chQSpaceI(qp) #define qGetLink(qp) chQGetLinkX(qp) #define iqGetFullI(iqp) chIQGetFullI(iqp) #define iqGetEmptyI(iqp) chIQGetEmptyI(iqp) #define iqIsEmptyI(iqp) chIQIsEmptyI(iqp) #define iqIsFullI(iqp) chIQIsFullI(iqp) #define iqGet(iqp) chIQGet(iqp) #define oqGetFullI(oqp) chOQGetFullI(oqp) #define oqGetEmptyI(oqp) chOQGetEmptyI(oqp) #define oqIsEmptyI(oqp) chOQIsEmptyI(oqp) #define oqIsFullI(oqp) chOQIsFullI(oqp) #define oqPut(oqp, b) chOQPut(oqp, b) #define iqObjectInit(iqp, bp, size, infy, link) \ chIQObjectInit(iqp, bp, size, infy, link) #define iqResetI(iqp) chIQResetI(iqp) #define iqPutI(iqp, b) chIQPutI(iqp, b) #define iqGetTimeout(iqp, time) chIQGetTimeout(iqp, time) #define iqReadTimeout(iqp, bp, n, time) chIQReadTimeout(iqp, bp, n, time) #define oqObjectInit(oqp, bp, size, onfy, link) \ chOQObjectInit(oqp, bp, size, onfy, link) #define oqResetI(oqp) chOQResetI(oqp) #define oqPutTimeout(oqp, b, time) chOQPutTimeout(oqp, b, time) #define oqGetI(oqp) chOQGetI(oqp) #define oqWriteTimeout(oqp, bp, n, time) chOQWriteTimeout(oqp, bp, n, time) #endif /* defined(_CHIBIOS_RT_) || (CH_CFG_USE_QUEUES == FALSE) */ #endif /* _HAL_QUEUES_H_ */ /** @} */