/** ****************************************************************************** * @addtogroup PIOS PIOS Core hardware abstraction layer * @{ * @addtogroup PIOS_USART USART Functions * @brief PIOS interface for USART port * @{ * * @file pios_usart.c * @author The OpenPilot Team, http://www.openpilot.org Copyright (C) 2010. * Parts by Thorsten Klose (tk@midibox.org) (tk@midibox.org) * @brief USART commands. Inits USARTs, controls USARTs & Interupt handlers. (STM32 dependent) * @see The GNU Public License (GPL) Version 3 * *****************************************************************************/ /* * This program 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. * * This program 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, write to the Free Software Foundation, Inc., * 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ /* Project Includes */ #include "pios.h" #if defined(PIOS_INCLUDE_USART) #include /* Provide a COM driver */ const struct pios_com_driver pios_usart_com_driver = { .set_baud = PIOS_USART_ChangeBaud, .tx_nb = PIOS_USART_TxBufferPutMoreNonBlocking, .tx = PIOS_USART_TxBufferPutMore, .rx = PIOS_USART_RxBufferGet, .rx_avail = PIOS_USART_RxBufferUsed, }; static struct pios_usart_dev *find_usart_dev_by_id(uint8_t usart) { if (usart >= pios_usart_num_devices) { /* Undefined USART port for this board (see pios_board.c) */ return NULL; } /* Get a handle for the device configuration */ return &(pios_usart_devs[usart]); } /** * Initialise the onboard USARTs */ void PIOS_USART_Init(void) { struct pios_usart_dev *usart_dev; uint8_t i; for (i = 0; i < pios_usart_num_devices; i++) { /* Get a handle for the device configuration */ usart_dev = find_usart_dev_by_id(i); PIOS_DEBUG_Assert(usart_dev); /* Clear buffer counters */ fifoBuf_init(&usart_dev->rx, usart_dev->rx_buffer, UART_BUFFER_SIZE); fifoBuf_init(&usart_dev->tx, usart_dev->tx_buffer, UART_BUFFER_SIZE); /* Enable the USART Pins Software Remapping */ if (usart_dev->cfg->remap) { GPIO_PinRemapConfig(usart_dev->cfg->remap, ENABLE); } /* Initialize the USART Rx and Tx pins */ GPIO_Init(usart_dev->cfg->rx.gpio, &usart_dev->cfg->rx.init); GPIO_Init(usart_dev->cfg->tx.gpio, &usart_dev->cfg->tx.init); /* Enable USART clock */ switch ((uint32_t) usart_dev->cfg->regs) { case (uint32_t) USART1: RCC_APB2PeriphClockCmd(RCC_APB2Periph_USART1, ENABLE); break; case (uint32_t) USART2: RCC_APB1PeriphClockCmd(RCC_APB1Periph_USART2, ENABLE); break; case (uint32_t) USART3: RCC_APB1PeriphClockCmd(RCC_APB1Periph_USART3, ENABLE); break; } /* Enable USART */ USART_Init(usart_dev->cfg->regs, &usart_dev->cfg->init); /* Configure USART Interrupts */ NVIC_Init(&usart_dev->cfg->irq.init); USART_ITConfig(usart_dev->cfg->regs, USART_IT_RXNE, ENABLE); USART_ITConfig(usart_dev->cfg->regs, USART_IT_TXE, ENABLE); /* Enable USART */ USART_Cmd(usart_dev->cfg->regs, ENABLE); } } /** * Changes the baud rate of the USART peripheral without re-initialising. * \param[in] usart USART name (GPS, TELEM, AUX) * \param[in] baud Requested baud rate */ void PIOS_USART_ChangeBaud(uint8_t usart, uint32_t baud) { struct pios_usart_dev *usart_dev; USART_InitTypeDef USART_InitStructure; /* Get a handle for the device configuration */ usart_dev = find_usart_dev_by_id(usart); #if 0 if (!usart_dev) { /* Undefined USART port for this board (see pios_board.c) */ return -2; } #endif /* Start with a copy of the default configuration for the peripheral */ USART_InitStructure = usart_dev->cfg->init; /* Adjust the baud rate */ USART_InitStructure.USART_BaudRate = baud; /* Write back the new configuration */ USART_Init(usart_dev->cfg->regs, &USART_InitStructure); } /** * Returns number of free bytes in receive buffer * \param[in] USART USART name * \return USART number of free bytes * \return 1: USART available * \return 0: USART not available */ int32_t PIOS_USART_RxBufferFree(uint8_t usart) { struct pios_usart_dev *usart_dev; /* Get a handle for the device configuration */ usart_dev = find_usart_dev_by_id(usart); if (!usart_dev) { /* Undefined USART port for this board (see pios_board.c) */ return -2; } return fifoBuf_getFree(&usart_dev->rx); } /** * Returns number of used bytes in receive buffer * \param[in] USART USART name * \return > 0: number of used bytes * \return 0 if USART not available * \note Applications shouldn't call these functions directly, instead please use \ref PIOS_COM layer functions */ int32_t PIOS_USART_RxBufferUsed(uint8_t usart) { struct pios_usart_dev *usart_dev; /* Get a handle for the device configuration */ usart_dev = find_usart_dev_by_id(usart); if (!usart_dev) { /* Undefined USART port for this board (see pios_board.c) */ return -2; } return fifoBuf_getUsed(&usart_dev->rx); } /** * Gets a byte from the receive buffer * \param[in] USART USART name * \return -1 if USART not available * \return -2 if no new byte available * \return >= 0: number of received bytes * \note Applications shouldn't call these functions directly, instead please use \ref PIOS_COM layer functions */ int32_t PIOS_USART_RxBufferGet(uint8_t usart) { struct pios_usart_dev *usart_dev; /* Get a handle for the device configuration */ usart_dev = find_usart_dev_by_id(usart); if (!usart_dev) { /* Undefined USART port for this board (see pios_board.c) */ return -2; } if (fifoBuf_getUsed(&usart_dev->rx) == 0) { /* Nothing new in the buffer */ return -1; } /* get byte - this operation should be atomic! */ /* PIOS_IRQ_Disable(); -- not needed only one reader */ uint8_t b = fifoBuf_getByte(&usart_dev->rx); /* PIOS_IRQ_Enable(); */ /* Return received byte */ return b; } /** * Returns the next byte of the receive buffer without taking it * \param[in] USART USART name * \return -1 if USART not available * \return -2 if no new byte available * \return >= 0: number of received bytes * \note Applications shouldn't call these functions directly, instead please use \ref PIOS_COM layer functions */ int32_t PIOS_USART_RxBufferPeek(uint8_t usart) { struct pios_usart_dev *usart_dev; /* Get a handle for the device configuration */ usart_dev = find_usart_dev_by_id(usart); if (!usart_dev) { /* Undefined USART port for this board (see pios_board.c) */ return -2; } if (!fifoBuf_getUsed(&usart_dev->rx)) { /* Nothing new in the buffer */ return -1; } /* get byte - this operation should be atomic! */ /* PIOS_IRQ_Disable(); -- not needed only one reader */ uint8_t b = fifoBuf_getBytePeek(&usart_dev->rx); /* PIOS_IRQ_Enable(); */ /* Return received byte */ return b; } /** * puts a byte onto the receive buffer * \param[in] USART USART name * \param[in] b byte which should be put into Rx buffer * \return 0 if no error * \return -1 if USART not available * \return -2 if buffer full (retry) * \note Applications shouldn't call these functions directly, instead please use \ref PIOS_COM layer functions */ int32_t PIOS_USART_RxBufferPut(uint8_t usart, uint8_t b) { struct pios_usart_dev *usart_dev; /* Get a handle for the device configuration */ usart_dev = find_usart_dev_by_id(usart); if (!usart_dev) { /* Undefined USART port for this board (see pios_board.c) */ return -1; } if (fifoBuf_getFree(&usart_dev->rx) < 1) { /* Buffer full (retry) */ return -2; } /* Copy received byte into receive buffer */ /* This operation should be atomic! */ /* PIOS_IRQ_Disable(); -- not needed only one reader */ fifoBuf_putByte(&usart_dev->rx,b); /* PIOS_IRQ_Enable(); */ /* No error */ return 0; } /** * returns number of free bytes in transmit buffer * \param[in] USART USART name * \return number of free bytes * \return 0 if USART not available * \note Applications shouldn't call these functions directly, instead please use \ref PIOS_COM layer functions */ int32_t PIOS_USART_TxBufferFree(uint8_t usart) { struct pios_usart_dev *usart_dev; /* Get a handle for the device configuration */ usart_dev = find_usart_dev_by_id(usart); if (!usart_dev) { /* Undefined USART port for this board (see pios_board.c) */ return 0; } return fifoBuf_getFree(&usart_dev->tx); } /** * returns number of used bytes in transmit buffer * \param[in] USART USART name * \return number of used bytes * \return 0 if USART not available * \note Applications shouldn't call these functions directly, instead please use \ref PIOS_COM layer functions */ int32_t PIOS_USART_TxBufferUsed(uint8_t usart) { struct pios_usart_dev *usart_dev; /* Get a handle for the device configuration */ usart_dev = find_usart_dev_by_id(usart); if (!usart_dev) { /* Undefined USART port for this board (see pios_board.c) */ return 0; } return fifoBuf_getUsed(&usart_dev->tx); } /** * gets a byte from the transmit buffer * \param[in] USART USART name * \return -1 if USART not available * \return -2 if no new byte available * \return >= 0: transmitted byte * \note Applications shouldn't call these functions directly, instead please use \ref PIOS_COM layer functions */ int32_t PIOS_USART_TxBufferGet(uint8_t usart) { struct pios_usart_dev *usart_dev; /* Get a handle for the device configuration */ usart_dev = find_usart_dev_by_id(usart); if (!usart_dev) { /* Undefined USART port for this board (see pios_board.c) */ return -1; } if (fifoBuf_getUsed(&usart_dev->tx) == 0) { /* Nothing new in the buffer */ return -2; } /* get byte - this operation should be atomic! */ PIOS_IRQ_Disable(); uint8_t b = fifoBuf_getByte(&usart_dev->tx); PIOS_IRQ_Enable(); /* Return received byte */ return b; } /** * puts more than one byte onto the transmit buffer (used for atomic sends) * \param[in] USART USART name * \param[in] *buffer pointer to buffer to be sent * \param[in] len number of bytes to be sent * \return 0 if no error * \return -1 if USART not available * \return -2 if buffer full or cannot get all requested bytes (retry) * \return -3 if USART not supported by USARTTxBufferPut Routine * \note Applications shouldn't call these functions directly, instead please use \ref PIOS_COM layer functions */ int32_t PIOS_USART_TxBufferPutMoreNonBlocking(uint8_t usart, const uint8_t * buffer, uint16_t len) { struct pios_usart_dev *usart_dev; /* Get a handle for the device configuration */ usart_dev = find_usart_dev_by_id(usart); if (!usart_dev) { /* Undefined USART port for this board (see pios_board.c) */ return -1; } if (len >= fifoBuf_getFree(&usart_dev->tx)) { /* Buffer cannot accept all requested bytes (retry) */ return -2; } /* Copy bytes to be transmitted into transmit buffer */ /* This operation should be atomic! Can't rely on */ /* fifoBuf since two tasks write to the port */ PIOS_IRQ_Disable(); uint16_t used = fifoBuf_getUsed(&usart_dev->tx); fifoBuf_putData(&usart_dev->tx,buffer,len); if(used == 0) /* enable sending when was empty */ USART_ITConfig(usart_dev->cfg->regs, USART_IT_TXE, ENABLE); PIOS_IRQ_Enable(); /* No error */ return 0; } /** * puts more than one byte onto the transmit buffer (used for atomic sends)
* (blocking function) * \param[in] USART USART name * \param[in] *buffer pointer to buffer to be sent * \param[in] len number of bytes to be sent * \return 0 if no error * \return -1 if USART not available * \return -3 if USART not supported by USARTTxBufferPut Routine * \note Applications shouldn't call these functions directly, instead please use \ref PIOS_COM layer functions */ int32_t PIOS_USART_TxBufferPutMore(uint8_t usart, const uint8_t * buffer, uint16_t len) { int32_t rc; while ((rc = PIOS_USART_TxBufferPutMoreNonBlocking(usart, buffer, len)) == -2) ; return rc; } /** * puts a byte onto the transmit buffer * \param[in] USART USART name * \param[in] b byte which should be put into Tx buffer * \return 0 if no error * \return -1 if USART not available * \return -2 if buffer full (retry) * \return -3 if USART not supported by USARTTxBufferPut Routine * \note Applications shouldn't call these functions directly, instead please use \ref PIOS_COM layer functions */ int32_t PIOS_USART_TxBufferPut_NonBlocking(uint8_t usart, uint8_t b) { return PIOS_USART_TxBufferPutMoreNonBlocking(usart, &b, 1); } /** * puts a byte onto the transmit buffer
* (blocking function) * \param[in] USART USART name * \param[in] b byte which should be put into Tx buffer * \return 0 if no error * \return -1 if USART not available * \return -3 if USART not supported by USARTTxBufferPut Routine * \note Applications shouldn't call these functions directly, instead please use \ref PIOS_COM layer functions */ int32_t PIOS_USART_TxBufferPut(uint8_t usart, uint8_t b) { return PIOS_USART_TxBufferPutMore(usart, &b, 1); } void PIOS_USART_IRQ_Handler(uint8_t usart) { struct pios_usart_dev *usart_dev; /* Get a handle for the device configuration */ usart_dev = find_usart_dev_by_id(usart); PIOS_DEBUG_Assert(usart_dev); /* Check if RXNE flag is set */ if (usart_dev->cfg->regs->SR & USART_SR_RXNE) { uint8_t b = usart_dev->cfg->regs->DR; if (PIOS_USART_RxBufferPut(usart, b) < 0) { /* Here we could add some error handling */ } } /* Check if TXE flag is set */ if (usart_dev->cfg->regs->SR & USART_SR_TXE) { if (PIOS_USART_TxBufferUsed(usart) > 0) { int32_t b = PIOS_USART_TxBufferGet(usart); if (b < 0) { /* Here we could add some error handling */ usart_dev->cfg->regs->DR = 0xff; } else { usart_dev->cfg->regs->DR = b & 0xff; } } else { /* Disable TXE interrupt (TXEIE=0) */ USART_ITConfig(usart_dev->cfg->regs, USART_IT_TXE, DISABLE); } } } #endif /** * @} * @} */