/* 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 . */ /** * @file serial.h * @brief Serial Driver macros and structures. * @addtogroup SERIAL * @{ */ #ifndef _SERIAL_H_ #define _SERIAL_H_ /** No pending conditions.*/ #define SD_NO_ERROR 0 /** Connection happened.*/ #define SD_CONNECTED 1 /** Disconnection happened.*/ #define SD_DISCONNECTED 2 /** Parity error happened.*/ #define SD_PARITY_ERROR 4 /** Framing error happened.*/ #define SD_FRAMING_ERROR 8 /** Overflow happened.*/ #define SD_OVERRUN_ERROR 16 /** Break detected.*/ #define SD_BREAK_DETECTED 32 #include "serial_lld.h" /** Serial Driver condition flags type.*/ typedef uint8_t sdflags_t; /** * @brief @p FullDuplexDriver specific methods. */ struct _serial_driver_methods { void (*start)(SerialDriver *sd, const SerialDriverConfig *config); void (*stop)(SerialDriver *sd); }; /** * @brief @p SerialDriver specific data. */ struct _serial_driver_data { /** * Input queue, incoming data can be read from this input queue by * using the queues APIs. */ InputQueue iqueue; /** * Output queue, outgoing data can be written to this output queue by * using the queues APIs. */ OutputQueue oqueue; /** * Status Change @p EventSource. This event is generated when one or more * condition flags change. */ EventSource sevent; /** * I/O driver status flags. */ sdflags_t flags; }; /** * @brief @p SerialDriver virtual methods table. */ struct SerialDriverVMT { /** * @p BaseChannel class inherited methods. */ struct _base_channel_methods m0; /** * @p BaseAsynchronousChannel class inherited methods. */ struct _base_asynchronous_channel_methods m1; /** * @p SerialDriver specific methods. */ struct _serial_driver_methods m2; }; /** * @extends BaseAsynchronousChannel * * @brief Full duplex serial driver class. * @details This class extends @p BaseAsynchronousChannel by adding physical * I/O queues. */ typedef struct { /** * Virtual Methods Table. */ const struct SerialDriverVMT *vmt; /** * @p BaseChannel class inherited data. */ struct _base_channel_data d0; /** * @p BaseAsynchronousChannel class inherited data. */ struct _base_asynchronous_channel_data d1; /** * @p SerialDriver specific data. */ struct _serial_driver_data d2; } SerialDriver; #ifdef __cplusplus extern "C" { #endif void sdInit(SerialDriver *sd, uint8_t *ib, size_t isize, qnotify_t inotify, uint8_t *ob, size_t osize, qnotify_t onotify); void sdIncomingDataI(SerialDriver *sd, uint8_t b); msg_t sdRequestDataI(SerialDriver *sd); void sdAddFlagsI(SerialDriver *sd, sdflags_t mask); sdflags_t sdGetAndClearFlags(SerialDriver *sd); #ifdef __cplusplus } #endif /** * @brief Direct output check on a @p SerialDriver. * @details This function bypasses the indirect access to the channel and * checks directly the output queue. This is faster but cannot * be used to check different channels implementations. * @see chIOPutWouldBlock() */ #define sdPutWouldBlock(sd) chOQIsFull(&(sd)->d2.oqueue) /** * @brief Direct input check on a @p SerialDriver. * @details This function bypasses the indirect access to the channel and * checks directly the input queue. This is faster but cannot * be used to check different channels implementations. * @see chIOGetWouldBlock() */ #define sdGetWouldBlock(sd) chIQIsEmpty(&(sd)->d2.iqueue) /** * @brief Direct blocking write to a @p SerialDriver. * @details This function bypasses the indirect access to the channel and * writes directly on the output queue. This is faster but cannot * be used to write to different channels implementations. * @see chIOPut() */ #define sdPut(sd, b) chOQPut(&(sd)->d2.oqueue, b) /** * @brief Direct blocking write on a @p SerialDriver with timeout * specification. * @details This function bypasses the indirect access to the channel and * writes directly on the output queue. This is faster but cannot * be used to write to different channels implementations. * @see chIOPutTimeout() */ #define sdPutTimeout(sd, b, t) chOQPutTimeout(&(sd)->d2.iqueue, b, t) /** * @brief Direct blocking read from a @p SerialDriver. * @details This function bypasses the indirect access to the channel and * reads directly from the input queue. This is faster but cannot * be used to read from different channels implementations. * @see chIOGet() */ #define sdGet(sd) chIQGet(&(sd)->d2.iqueue) /** * @brief Direct blocking read from a @p SerialDriver with timeout * specification. * @details This function bypasses the indirect access to the channel and * reads directly from the input queue. This is faster but cannot * be used to read from different channels implementations. * @see chIOGetTimeout() */ #define sdGetTimeout(sd, t) chIQGetTimeout(&(sd)->d2.iqueue, t) /** * @brief Direct non-blocking write to a @p SerialDriver. * @details This function bypasses the indirect access to the channel and * writes directly to the output queue. This is faster but cannot * be used to write from different channels implementations. * @see chIOWrite() */ #define sdWrite(sd, b, n) chOQWrite(&(sd)->d2.oqueue, b, n) /** * @brief Direct non-blocking read on a @p SerialDriver. * @details This function bypasses the indirect access to the channel and * reads directly from the input queue. This is faster but cannot * be used to read from different channels implementations. * @see chIORead() */ #define sdRead(sd, b, n) chIQRead(&(sd)->d2.iqueue, b, n) #endif /* _SERIAL_H_ */ /** @} */