/* ChibiOS/RT - Copyright (C) 2006,2007,2008,2009,2010, 2011,2012 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 . --- A special exception to the GPL can be applied should you wish to distribute a combined work that includes ChibiOS/RT, without being obliged to provide the source code for any proprietary components. See the file exception.txt for full details of how and when the exception can be applied. */ /** * @file LPC13xx/spi_lld.c * @brief LPC13xx low level SPI driver code. * * @addtogroup SPI * @{ */ #include "ch.h" #include "hal.h" #if HAL_USE_SPI || defined(__DOXYGEN__) /*===========================================================================*/ /* Driver exported variables. */ /*===========================================================================*/ #if LPC13xx_SPI_USE_SSP0 || defined(__DOXYGEN__) /** @brief SPI1 driver identifier.*/ SPIDriver SPID1; #endif /*===========================================================================*/ /* Driver local variables. */ /*===========================================================================*/ /*===========================================================================*/ /* Driver local functions. */ /*===========================================================================*/ /** * @brief Preloads the transmit FIFO. * * @param[in] spip pointer to the @p SPIDriver object */ static void ssp_fifo_preload(SPIDriver *spip) { LPC_SSP_TypeDef *ssp = spip->ssp; uint32_t n = spip->txcnt > LPC13xx_SSP_FIFO_DEPTH ? LPC13xx_SSP_FIFO_DEPTH : spip->txcnt; while(((ssp->SR & SR_TNF) != 0) && (n > 0)) { if (spip->txptr != NULL) { if ((ssp->CR0 & CR0_DSSMASK) > CR0_DSS8BIT) { const uint16_t *p = spip->txptr; ssp->DR = *p++; spip->txptr = p; } else { const uint8_t *p = spip->txptr; ssp->DR = *p++; spip->txptr = p; } } else ssp->DR = 0xFFFFFFFF; n--; spip->txcnt--; } } /** * @brief Common IRQ handler. * * @param[in] spip pointer to the @p SPIDriver object */ static void spi_serve_interrupt(SPIDriver *spip) { LPC_SSP_TypeDef *ssp = spip->ssp; if ((ssp->MIS & MIS_ROR) != 0) { /* The overflow condition should never happen because priority is given to receive but a hook macro is provided anyway...*/ LPC13xx_SPI_SSP_ERROR_HOOK(spip); } ssp->ICR = ICR_RT | ICR_ROR; while ((ssp->SR & SR_RNE) != 0) { if (spip->rxptr != NULL) { if ((ssp->CR0 & CR0_DSSMASK) > CR0_DSS8BIT) { uint16_t *p = spip->rxptr; *p++ = ssp->DR; spip->rxptr = p; } else { uint8_t *p = spip->rxptr; *p++ = ssp->DR; spip->rxptr = p; } } else (void)ssp->DR; if (--spip->rxcnt == 0) { chDbgAssert(spip->txcnt == 0, "spi_serve_interrupt(), #1", "counter out of synch"); /* Stops the IRQ sources.*/ ssp->IMSC = 0; /* Portable SPI ISR code defined in the high level driver, note, it is a macro.*/ _spi_isr_code(spip); return; } } ssp_fifo_preload(spip); if (spip->txcnt == 0) ssp->IMSC = IMSC_ROR | IMSC_RT | IMSC_RX; } /*===========================================================================*/ /* Driver interrupt handlers. */ /*===========================================================================*/ #if LPC13xx_SPI_USE_SSP0 || defined(__DOXYGEN__) /** * @brief SSP0 interrupt handler. * * @isr */ CH_IRQ_HANDLER(VectorF4) { CH_IRQ_PROLOGUE(); spi_serve_interrupt(&SPID1); CH_IRQ_EPILOGUE(); } #endif /*===========================================================================*/ /* Driver exported functions. */ /*===========================================================================*/ /** * @brief Low level SPI driver initialization. * * @notapi */ void spi_lld_init(void) { #if LPC13xx_SPI_USE_SSP0 spiObjectInit(&SPID1); SPID1.ssp = LPC_SSP; LPC_IOCON->SCKLOC = LPC13xx_SPI_SCK0_SELECTOR; #if LPC13xx_SPI_SCK0_SELECTOR == SCK0_IS_PIO0_10 LPC_IOCON->JTAG_TCK_PIO0_10 = 0xC2; /* SCK0 without resistors. */ #elif LPC13xx_SPI_SCK0_SELECTOR == SCK0_IS_PIO2_11 LPC_IOCON->PIO2_11 = 0xC1; /* SCK0 without resistors. */ #else /* LPC13xx_SPI_SCK0_SELECTOR == SCK0_IS_PIO0_6 */ LPC_IOCON->PIO0_6 = 0xC2; /* SCK0 without resistors. */ #endif LPC_IOCON->PIO0_8 = 0xC1; /* MISO0 without resistors. */ LPC_IOCON->PIO0_9 = 0xC1; /* MOSI0 without resistors. */ #endif /* LPC13xx_SPI_USE_SSP0 */ } /** * @brief Configures and activates the SPI peripheral. * * @param[in] spip pointer to the @p SPIDriver object * * @notapi */ void spi_lld_start(SPIDriver *spip) { if (spip->state == SPI_STOP) { /* Clock activation.*/ #if LPC13xx_SPI_USE_SSP0 if (&SPID1 == spip) { LPC_SYSCON->SSPCLKDIV = LPC13xx_SPI_SSP0CLKDIV; LPC_SYSCON->SYSAHBCLKCTRL |= (1 << 11); LPC_SYSCON->PRESETCTRL |= 1; nvicEnableVector(SSP_IRQn, CORTEX_PRIORITY_MASK(LPC13xx_SPI_SSP0_IRQ_PRIORITY)); } #endif } /* Configuration.*/ spip->ssp->CR1 = 0; spip->ssp->ICR = ICR_RT | ICR_ROR; spip->ssp->CR0 = spip->config->cr0; spip->ssp->CPSR = spip->config->cpsr; spip->ssp->CR1 = CR1_SSE; } /** * @brief Deactivates the SPI peripheral. * * @param[in] spip pointer to the @p SPIDriver object * * @notapi */ void spi_lld_stop(SPIDriver *spip) { if (spip->state != SPI_STOP) { spip->ssp->CR1 = 0; spip->ssp->CR0 = 0; spip->ssp->CPSR = 0; #if LPC13xx_SPI_USE_SSP0 if (&SPID1 == spip) { LPC_SYSCON->PRESETCTRL &= ~1; LPC_SYSCON->SYSAHBCLKCTRL &= ~(1 << 11); LPC_SYSCON->SSPCLKDIV = 0; nvicDisableVector(SSP_IRQn); } #endif } } /** * @brief Asserts the slave select signal and prepares for transfers. * * @param[in] spip pointer to the @p SPIDriver object * * @notapi */ void spi_lld_select(SPIDriver *spip) { palClearPad(spip->config->ssport, spip->config->sspad); } /** * @brief Deasserts the slave select signal. * @details The previously selected peripheral is unselected. * * @param[in] spip pointer to the @p SPIDriver object * * @notapi */ void spi_lld_unselect(SPIDriver *spip) { palSetPad(spip->config->ssport, spip->config->sspad); } /** * @brief Ignores data on the SPI bus. * @details This function transmits a series of idle words on the SPI bus and * ignores the received data. This function can be invoked even * when a slave select signal has not been yet asserted. * * @param[in] spip pointer to the @p SPIDriver object * @param[in] n number of words to be ignored * * @notapi */ void spi_lld_ignore(SPIDriver *spip, size_t n) { spip->rxptr = NULL; spip->txptr = NULL; spip->rxcnt = spip->txcnt = n; ssp_fifo_preload(spip); spip->ssp->IMSC = IMSC_ROR | IMSC_RT | IMSC_TX | IMSC_RX; } /** * @brief Exchanges data on the SPI bus. * @details This asynchronous function starts a simultaneous transmit/receive * operation. * @post At the end of the operation the configured callback is invoked. * @note The buffers are organized as uint8_t arrays for data sizes below or * equal to 8 bits else it is organized as uint16_t arrays. * * @param[in] spip pointer to the @p SPIDriver object * @param[in] n number of words to be exchanged * @param[in] txbuf the pointer to the transmit buffer * @param[out] rxbuf the pointer to the receive buffer * * @notapi */ void spi_lld_exchange(SPIDriver *spip, size_t n, const void *txbuf, void *rxbuf) { spip->rxptr = rxbuf; spip->txptr = txbuf; spip->rxcnt = spip->txcnt = n; ssp_fifo_preload(spip); spip->ssp->IMSC = IMSC_ROR | IMSC_RT | IMSC_TX | IMSC_RX; } /** * @brief Sends data over the SPI bus. * @details This asynchronous function starts a transmit operation. * @post At the end of the operation the configured callback is invoked. * @note The buffers are organized as uint8_t arrays for data sizes below or * equal to 8 bits else it is organized as uint16_t arrays. * * @param[in] spip pointer to the @p SPIDriver object * @param[in] n number of words to send * @param[in] txbuf the pointer to the transmit buffer * * @notapi */ void spi_lld_send(SPIDriver *spip, size_t n, const void *txbuf) { spip->rxptr = NULL; spip->txptr = txbuf; spip->rxcnt = spip->txcnt = n; ssp_fifo_preload(spip); spip->ssp->IMSC = IMSC_ROR | IMSC_RT | IMSC_TX | IMSC_RX; } /** * @brief Receives data from the SPI bus. * @details This asynchronous function starts a receive operation. * @post At the end of the operation the configured callback is invoked. * @note The buffers are organized as uint8_t arrays for data sizes below or * equal to 8 bits else it is organized as uint16_t arrays. * * @param[in] spip pointer to the @p SPIDriver object * @param[in] n number of words to receive * @param[out] rxbuf the pointer to the receive buffer * * @notapi */ void spi_lld_receive(SPIDriver *spip, size_t n, void *rxbuf) { spip->rxptr = rxbuf; spip->txptr = NULL; spip->rxcnt = spip->txcnt = n; ssp_fifo_preload(spip); spip->ssp->IMSC = IMSC_ROR | IMSC_RT | IMSC_TX | IMSC_RX; } /** * @brief Exchanges one frame using a polled wait. * @details This synchronous function exchanges one frame using a polled * synchronization method. This function is useful when exchanging * small amount of data on high speed channels, usually in this * situation is much more efficient just wait for completion using * polling than suspending the thread waiting for an interrupt. * * @param[in] spip pointer to the @p SPIDriver object * @param[in] frame the data frame to send over the SPI bus * @return The received data frame from the SPI bus. */ uint16_t spi_lld_polled_exchange(SPIDriver *spip, uint16_t frame) { spip->ssp->DR = (uint32_t)frame; while ((spip->ssp->SR & SR_RNE) == 0) ; return (uint16_t)spip->ssp->DR; } #endif /* HAL_USE_SPI */ /** @} */