/* ChibiOS/RT - Copyright (C) 2006,2007,2008,2009,2010, 2011,2012,2013 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 STM8S/serial_lld.c * @brief STM8S low level serial driver code. * * @addtogroup SERIAL * @{ */ #include "ch.h" #include "hal.h" #if HAL_USE_SERIAL || defined(__DOXYGEN__) /*===========================================================================*/ /* Driver exported variables. */ /*===========================================================================*/ /** * @brief UART1 serial driver identifier. */ #if STM8S_SERIAL_USE_UART1 || defined(__DOXYGEN__) SerialDriver SD1; #endif /** * @brief UART2 serial driver identifier. */ #if STM8S_SERIAL_USE_UART2 || defined(__DOXYGEN__) SerialDriver SD2; #endif /** * @brief UART3 serial driver identifier. */ #if STM8S_SERIAL_USE_UART3 || defined(__DOXYGEN__) SerialDriver SD3; #endif /*===========================================================================*/ /* Driver local variables. */ /*===========================================================================*/ /** * @brief Driver default configuration. */ static ROMCONST SerialConfig default_config = { BRR(SERIAL_DEFAULT_BITRATE), SD_MODE_PARITY_NONE | SD_MODE_STOP_1 }; /*===========================================================================*/ /* Driver local functions. */ /*===========================================================================*/ static void set_error(SerialDriver *sdp, uint8_t sr) { flagsmask_t sts = 0; /* Note, SR register bit definitions are equal for all UARTs so using the UART1 definitions is fine.*/ if (sr & UART1_SR_OR) sts |= SD_OVERRUN_ERROR; if (sr & UART1_SR_NF) sts |= SD_NOISE_ERROR; if (sr & UART1_SR_FE) sts |= SD_FRAMING_ERROR; if (sr & UART1_SR_PE) sts |= SD_PARITY_ERROR; chSysLockFromIsr(); chnAddFlagsI(sdp, sts); chSysUnlockFromIsr(); } #if STM8S_SERIAL_USE_UART1 || defined(__DOXYGEN__) static void notify1(GenericQueue *qp) { (void)qp; UART1->CR2 |= UART1_CR2_TIEN; } /** * @brief UART1 initialization. * * @param[in] config architecture-dependent serial driver configuration */ static void uart1_init(const SerialConfig *config) { UART1->BRR2 = (uint8_t)(((uint8_t)(config->sc_brr >> 8) & (uint8_t)0xF0) | ((uint8_t)config->sc_brr & (uint8_t)0x0F)); UART1->BRR1 = (uint8_t)(config->sc_brr >> 4); UART1->CR1 = (uint8_t)(config->sc_mode & SD_MODE_PARITY); /* PIEN included. */ UART1->CR2 = UART1_CR2_RIEN | UART1_CR2_TEN | UART1_CR2_REN; UART1->CR3 = (uint8_t)(config->sc_mode & SD_MODE_STOP); UART1->CR4 = 0; UART1->CR5 = 0; UART1->PSCR = 1; (void)UART1->SR; (void)UART1->DR; } /** * @brief UART1 de-initialization. */ static void uart1_deinit(void) { UART1->CR1 = UART1_CR1_UARTD; UART1->CR2 = 0; UART1->CR3 = 0; UART1->CR4 = 0; UART1->CR5 = 0; UART1->PSCR = 0; } #endif /* STM8S_SERIAL_USE_UART1 */ #if STM8S_SERIAL_USE_UART2 || defined(__DOXYGEN__) static void notify2(GenericQueue *qp) { (void)qp; UART2->CR2 |= UART2_CR2_TIEN; } /** * @brief UART2 initialization. * * @param[in] config architecture-dependent serial driver configuration */ static void uart2_init(const SerialConfig *config) { UART2->BRR2 = (uint8_t)(((uint8_t)(config->sc_brr >> 8) & (uint8_t)0xF0) | ((uint8_t)config->sc_brr & (uint8_t)0x0F)); UART2->BRR1 = (uint8_t)(config->sc_brr >> 4); UART2->CR1 = (uint8_t)(config->sc_mode & SD_MODE_PARITY); /* PIEN included. */ UART2->CR2 = UART2_CR2_RIEN | UART2_CR2_TEN | UART2_CR2_REN; UART2->CR3 = (uint8_t)(config->sc_mode & SD_MODE_STOP); UART2->CR4 = 0; UART2->CR5 = 0; UART2->CR6 = 0; UART2->PSCR = 1; (void)UART2->SR; (void)UART2->DR; } /** * @brief UART1 de-initialization. */ static void uart2_deinit(void) { UART2->CR1 = UART2_CR1_UARTD; UART2->CR2 = 0; UART2->CR3 = 0; UART2->CR4 = 0; UART2->CR5 = 0; UART2->CR6 = 0; UART2->PSCR = 0; } #endif /* STM8S_SERIAL_USE_UART1 */ #if STM8S_SERIAL_USE_UART3 || defined(__DOXYGEN__) static void notify3(GenericQueue *qp) { (void)qp; UART3->CR2 |= UART3_CR2_TIEN; } /** * @brief UART3 initialization. * * @param[in] config architecture-dependent serial driver configuration */ static void uart3_init(const SerialConfig *config) { UART3->BRR2 = (uint8_t)(((uint8_t)(config->sc_brr >> 8) & (uint8_t)0xF0) | ((uint8_t)config->sc_brr & (uint8_t)0x0F)); UART3->BRR1 = (uint8_t)(config->sc_brr >> 4); UART3->CR1 = (uint8_t)(config->sc_mode & SD_MODE_PARITY); /* PIEN included. */ UART3->CR2 = UART3_CR2_RIEN | UART3_CR2_TEN | UART3_CR2_REN; UART3->CR3 = (uint8_t)(config->sc_mode & SD_MODE_STOP); UART3->CR4 = 0; UART3->CR6 = 0; (void)UART3->SR; (void)UART3->DR; } /** * @brief UART3 de-initialization. */ static void uart3_deinit(void) { UART3->CR1 = UART3_CR1_UARTD; UART3->CR2 = 0; UART3->CR3 = 0; UART3->CR4 = 0; UART3->CR6 = 0; } #endif /* STM8S_SERIAL_USE_UART3 */ /*===========================================================================*/ /* Driver interrupt handlers. */ /*===========================================================================*/ #if STM8S_SERIAL_USE_UART1 || defined(__DOXYGEN__) /** * @brief IRQ 17 service routine. * * @isr */ CH_IRQ_HANDLER(17) { msg_t b; CH_IRQ_PROLOGUE(); chSysLockFromIsr(); b = sdRequestDataI(&SD1); chSysUnlockFromIsr(); if (b < Q_OK) UART1->CR2 &= (uint8_t)~UART1_CR2_TIEN; else UART1->DR = (uint8_t)b; CH_IRQ_EPILOGUE(); } /** * @brief IRQ 18 service routine. * * @isr */ CH_IRQ_HANDLER(18) { uint8_t sr = UART1->SR; CH_IRQ_PROLOGUE(); if ((sr = UART1->SR) & (UART1_SR_OR | UART1_SR_NF | UART1_SR_FE | UART1_SR_PE)) set_error(&SD1, sr); chSysLockFromIsr(); sdIncomingDataI(&SD1, UART1->DR); chSysUnlockFromIsr(); CH_IRQ_EPILOGUE(); } #endif /* STM8S_SERIAL_USE_UART1 */ #if STM8S_SERIAL_USE_UART2 || defined(__DOXYGEN__) /** * @brief IRQ 20 service routine. * * @isr */ CH_IRQ_HANDLER(20) { msg_t b; CH_IRQ_PROLOGUE(); chSysLockFromIsr(); b = sdRequestDataI(&SD2); chSysUnlockFromIsr(); if (b < Q_OK) UART2->CR2 &= (uint8_t)~UART2_CR2_TIEN; else UART2->DR = (uint8_t)b; CH_IRQ_EPILOGUE(); } /** * @brief IRQ 21 service routine. * * @isr */ CH_IRQ_HANDLER(21) { uint8_t sr = UART2->SR; CH_IRQ_PROLOGUE(); if ((sr = UART2->SR) & (UART2_SR_OR | UART2_SR_NF | UART2_SR_FE | UART2_SR_PE)) set_error(&SD2, sr); chSysLockFromIsr(); sdIncomingDataI(&SD2, UART2->DR); chSysUnlockFromIsr(); CH_IRQ_EPILOGUE(); } #endif /* STM8S_SERIAL_USE_UART2 */ #if STM8S_SERIAL_USE_UART3 || defined(__DOXYGEN__) /** * @brief IRQ 20 service routine. * * @isr */ CH_IRQ_HANDLER(20) { msg_t b; CH_IRQ_PROLOGUE(); chSysLockFromIsr(); b = sdRequestDataI(&SD3); chSysUnlockFromIsr(); if (b < Q_OK) UART3->CR2 &= (uint8_t)~UART3_CR2_TIEN; else UART3->DR = (uint8_t)b; CH_IRQ_EPILOGUE(); } /** * @brief IRQ 21 service routine. * * @isr */ CH_IRQ_HANDLER(21) { uint8_t sr = UART3->SR; CH_IRQ_PROLOGUE(); if ((sr = UART3->SR) & (UART3_SR_OR | UART3_SR_NF | UART3_SR_FE | UART3_SR_PE)) set_error(&SD3, sr); chSysLockFromIsr(); sdIncomingDataI(&SD3, UART3->DR); chSysUnlockFromIsr(); CH_IRQ_EPILOGUE(); } #endif /* STM8S_SERIAL_USE_UART3 */ /*===========================================================================*/ /* Driver exported functions. */ /*===========================================================================*/ /** * @brief Low level serial driver initialization. * * @notapi */ void sd_lld_init(void) { #if STM8S_SERIAL_USE_UART1 sdObjectInit(&SD1, NULL, notify1); CLK->PCKENR1 |= CLK_PCKENR1_UART1; /* PCKEN12, clock source. */ UART1->CR1 = UART1_CR1_UARTD; /* UARTD (low power). */ #endif #if STM8S_SERIAL_USE_UART2 sdObjectInit(&SD2, NULL, notify2); CLK->PCKENR1 |= CLK_PCKENR1_UART2; /* PCKEN13, clock source. */ UART2->CR1 = UART2_CR1_UARTD; /* UARTD (low power). */ #endif #if STM8S_SERIAL_USE_UART3 sdObjectInit(&SD3, NULL, notify3); CLK->PCKENR1 |= CLK_PCKENR1_UART3; /* PCKEN13, clock source. */ UART3->CR1 = UART3_CR1_UARTD; /* UARTD (low power). */ #endif } /** * @brief Low level serial driver configuration and (re)start. * * @param[in] sdp pointer to a @p SerialDriver object * @param[in] config the architecture-dependent serial driver configuration. * If this parameter is set to @p NULL then a default * configuration is used. * * @notapi */ void sd_lld_start(SerialDriver *sdp, const SerialConfig *config) { if (config == NULL) config = &default_config; #if STM8S_SERIAL_USE_UART1 if (&SD1 == sdp) { uart1_init(config); return; } #endif #if STM8S_SERIAL_USE_UART2 if (&SD2 == sdp) { uart2_init(config); return; } #endif #if STM8S_SERIAL_USE_UART3 if (&SD3 == sdp) { uart3_init(config); return; } #endif } /** * @brief Low level serial driver stop. * @details De-initializes the USART, stops the associated clock, resets the * interrupt vector. * * @param[in] sdp pointer to a @p SerialDriver object * * @notapi */ void sd_lld_stop(SerialDriver *sdp) { #if STM8S_SERIAL_USE_UART1 if (&SD1 == sdp) { uart1_deinit(); return; } #endif #if STM8S_SERIAL_USE_UART2 if (&SD2 == sdp) { uart2_deinit(); return; } #endif #if STM8S_SERIAL_USE_UART3 if (&SD3 == sdp) { uart3_deinit(); return; } #endif } #endif /* HAL_USE_SERIAL */ /** @} */