536 lines
16 KiB
C
536 lines
16 KiB
C
/*
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* @brief SPI slave ROM API declarations and functions
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*
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* @note
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* Copyright(C) NXP Semiconductors, 2014
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* All rights reserved.
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*
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* @par
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* Software that is described herein is for illustrative purposes only
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* which provides customers with programming information regarding the
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* LPC products. This software is supplied "AS IS" without any warranties of
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* any kind, and NXP Semiconductors and its licensor disclaim any and
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* all warranties, express or implied, including all implied warranties of
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* merchantability, fitness for a particular purpose and non-infringement of
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* intellectual property rights. NXP Semiconductors assumes no responsibility
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* or liability for the use of the software, conveys no license or rights under any
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* patent, copyright, mask work right, or any other intellectual property rights in
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* or to any products. NXP Semiconductors reserves the right to make changes
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* in the software without notification. NXP Semiconductors also makes no
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* representation or warranty that such application will be suitable for the
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* specified use without further testing or modification.
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*
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* @par
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* Permission to use, copy, modify, and distribute this software and its
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* documentation is hereby granted, under NXP Semiconductors' and its
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* licensor's relevant copyrights in the software, without fee, provided that it
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* is used in conjunction with NXP Semiconductors microcontrollers. This
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* copyright, permission, and disclaimer notice must appear in all copies of
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* this code.
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*/
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#include <stdint.h>
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#include <string.h>
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#include "hw_spisd.h"
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#define DRVVERSION 0x0100
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/* Private callback for FIFO push and pop functions. This privately maps
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to the VFIFO for the SPI slave, but can be overriden if needed. The driver will
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automatically pick the right implementation at run-time based on the transfer
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size in the transfer descriptor. */
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typedef uint16_t (*spisSlaveFifoPushFN)(LPC_SPI_T *pSPI, void *data, uint32_t sendBytes, uint32_t curIndex);
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typedef uint16_t (*spisSlaveFifoPopFN)(LPC_SPI_T *pSPI, void *data, uint32_t bytes, uint32_t curIndex);
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/* Private data structure used for the SPI slave driver, holds the driver and
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peripheral context */
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typedef struct {
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void *pUserData; /*!< Pointer to user data used by driver instance, use NULL if not used */
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LPC_SPI_T *base; /*!< Base address of SPI peripheral to use */
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spisSlaveXferCSAssertCB pAssertCb; /*!< SSEL assertion callback */
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spisSlaveTransmitCB pTranCb; /*!< Transmit data start callback */
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spisSlaveReceiveCB pRecvCb; /*!< Receive data start callback */
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spisSlaveXferCSDeAssertCB pDeassertCb; /*!< SSEL deassertion callback */
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spisSlaveFifoPushFN pPushFN; /*!< Pointer to current FIFO push function */
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spisSlaveFifoPopFN pPopFN; /*!< Pointer to current FIFO pop function */
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ROM_SPIS_XFER_T *pXfer; /*!< Pointer to current transfer descriptor */
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uint32_t sendIdx; /*!< Current transmit buffer index */
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uint32_t recvIdx; /*!< Current receive buffer index */
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ErrorCode_t pendingStatus; /*!< Pending transfer status */
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} SPIS_DATACONTEXT_T;
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/* Maps config registers bits for SPI mode to the transfer descriptor */
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static const uint32_t spiModeBits[4] = {
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(SPI_CFG_CPOL_LO | SPI_CFG_CPHA_FIRST),
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(SPI_CFG_CPOL_LO | SPI_CFG_CPHA_SECOND),
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(SPI_CFG_CPOL_HI | SPI_CFG_CPHA_FIRST),
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(SPI_CFG_CPOL_HI | SPI_CFG_CPHA_SECOND)
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};
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/* FIFO push function using standard SPI FIFO for datum >8 bits */
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static uint16_t _rom_spisSlaveFifoPush16(LPC_SPI_T *pSPI, void *data, uint32_t numData, uint32_t curIndex)
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{
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uint16_t pushed = 0, *p16 = (uint16_t *) data;
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/* Push as 16-bit value */
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while ((numData > 0) && ((pSPI->STAT & SPI_STAT_TXRDY) != 0)) {
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pSPI->TXDAT = (uint32_t) p16[curIndex];
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numData--;
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curIndex++;
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pushed++;
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}
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return pushed;
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}
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/* FIFO pop function using standard SPI FIFO for datum >8 bits */
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static uint16_t _rom_spisSlaveFifoPop16(LPC_SPI_T *pSPI, void *data, uint32_t numData, uint32_t curIndex)
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{
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uint16_t popped = 0, *p16 = (uint16_t *) data;
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/* Pop as 16-bit value */
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while ((numData > 0) && ((pSPI->STAT & SPI_STAT_RXRDY) != 0)) {
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p16[curIndex] = (uint16_t) pSPI->RXDAT;
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numData--;
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curIndex++;
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popped++;
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}
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return popped;
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}
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/* FIFO push function using standard SPI FIFO for datum <=8 bits */
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static uint16_t _rom_spisSlaveFifoPush8(LPC_SPI_T *pSPI, void *data, uint32_t numData, uint32_t curIndex)
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{
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uint16_t pushed = 0;
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uint8_t *p8 = (uint8_t *) data;
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/* Push as 8-bit value */
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while ((numData > 0) && ((pSPI->STAT & SPI_STAT_TXRDY) != 0)) {
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pSPI->TXDAT = (uint32_t) p8[curIndex];
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numData--;
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curIndex++;
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pushed++;
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}
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return pushed;
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}
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/* FIFO pop function using standard SPI FIFO for datum <=8 bits */
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static uint16_t _rom_spisSlaveFifoPop8(LPC_SPI_T *pSPI, void *data, uint32_t numData, uint32_t curIndex)
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{
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uint16_t popped = 0;
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uint8_t *p8 = (uint8_t *) data;
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/* Pop as 16-bit value */
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while ((numData > 0) && ((pSPI->STAT & SPI_STAT_RXRDY) != 0)) {
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p8[curIndex] = (uint8_t) pSPI->RXDAT;
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numData--;
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curIndex++;
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popped++;
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}
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return popped;
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}
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static void _rom_spisTransmitHandler(ROM_SPIS_HANDLE_T pHandle, ROM_SPIS_XFER_T *pXfer)
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{
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SPIS_DATACONTEXT_T *pDrv = (SPIS_DATACONTEXT_T *) pHandle;
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/* This shouldn't be called if there is no transfer descriptor */
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if (!pXfer) {
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pDrv->base->INTENCLR = SPI_INTENSET_TXDYEN;
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return;
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}
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/* Is DMA being used? */
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if ((pXfer->flags & ROM_SPIS_FLAG_DMATX) != 0) {
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/* Call transmit callback, callback is pre-validated by setup */
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if (pDrv->pTranCb) {
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pDrv->pTranCb(pHandle, pXfer);
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}
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pDrv->base->INTENCLR = SPI_INTENSET_TXDYEN;
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}
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else { /* Transfer without using DMA */
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if ((pXfer->flags & ROM_SPIS_FLAG_TXIGNORE) != 0) {
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/* ROM_SPIS_FLAG_TXIGNORE flag is set. Will send 0xFF */
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static const uint16_t sb = 0xFFFF;
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pDrv->sendIdx += pDrv->pPushFN(pDrv->base, (void *) &sb, 1, 0);
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}
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else {
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uint32_t bs;
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/* Normal data transfer */
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if (pDrv->sendIdx >= pXfer->txSz) {
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/* Ran out of data, get more data */
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if (pDrv->pTranCb) {
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pDrv->pTranCb(pHandle, pXfer);
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pDrv->sendIdx = 0;
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}
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}
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if (pDrv->sendIdx < pXfer->txSz) {
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bs = pDrv->pPushFN(pDrv->base, (void *) pXfer->txBuff, 1, pDrv->sendIdx);
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pDrv->sendIdx += bs;
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pXfer->txSent += bs;
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}
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else {
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/* Out of transmit data and no more is provided via the callback,
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so disable the transmit interrupt and let the hardware underflow
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and send 0. It will only underflow if the master requests data
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beyond what is in the transmit FIFO now. The underflow error code
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needs to be handled as part of the hardware since this may not be
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an underflow condition is the master stops on this datum. */
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pDrv->base->INTENCLR = SPI_INTENSET_TXDYEN;
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}
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}
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}
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}
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static void _rom_spisReceiveHandler(ROM_SPIS_HANDLE_T pHandle, ROM_SPIS_XFER_T *pXfer)
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{
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SPIS_DATACONTEXT_T *pDrv = (SPIS_DATACONTEXT_T *) pHandle;
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/* This shouldn't be called if there is no transfer descriptor */
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if (!pXfer) {
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pDrv->base->INTENCLR = SPI_INTENSET_RXDYEN;
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return;
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}
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/* Is DMA being used? */
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if ((pXfer->flags & ROM_SPIS_FLAG_DMARX) != 0) {
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/* Call receive callback, callback is pre-validated by setup */
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if (pDrv->pRecvCb) {
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pDrv->pRecvCb(pHandle, pXfer);
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}
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pDrv->base->INTENCLR = SPI_INTENSET_RXDYEN;
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}
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else { /* Transfer without using DMA */
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if ((pXfer->flags & ROM_SPIS_FLAG_RXIGNORE) != 0) {
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/* ROM_SPIS_FLAG_RXIGNORE flag is set. Toss data */
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uint16_t temp;
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pDrv->recvIdx += pDrv->pPopFN(pDrv->base, (void *) &temp, 1, 0);
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}
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else {
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uint32_t br;
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/* Normal data transfer */
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if (pDrv->recvIdx >= pXfer->rxSz) {
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uint16_t temp;
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/* Ran out of data, overflowing */
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pDrv->pendingStatus = ERR_SPI_RXOVERRUN;
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br = pDrv->pPopFN(pDrv->base, (void *) &temp, 1, 0);/* Flush data */
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}
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else {
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br = pDrv->pPopFN(pDrv->base, (void *) pXfer->rxBuff, 1, pDrv->recvIdx);
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pXfer->rxRecv += br;
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pDrv->recvIdx += br;
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/* Call callback for more data */
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if ((pDrv->recvIdx >= pXfer->rxSz) && (pDrv->pRecvCb)) {
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pDrv->pRecvCb(pHandle, pXfer);
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pDrv->recvIdx = 0;
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}
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}
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}
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}
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}
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/* Determine SSEL associated with the current data value */
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static uint8_t Chip_SPIS_FindSSEL(LPC_SPI_T *pSPI, uint32_t data)
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{
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int i;
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/* Return first active SSEL starting at SSEL0 */
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for (i = 0; i <= 3; i++) {
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if ((data & SPI_RXDAT_RXSSELNUM_INACTIVE(i)) == 0) {
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/* Signal is active on low */
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return (uint8_t) i;
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}
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}
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return 0;
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}
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// **********************************************************
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uint32_t spis_get_mem_size(void)
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{
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return sizeof(SPIS_DATACONTEXT_T);
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}
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ROM_SPIS_HANDLE_T spis_init(void *mem, const ROM_SPIS_INIT_T *pInit)
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{
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SPIS_DATACONTEXT_T *pDrv;
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int i;
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/* Verify alignment is at least 4 bytes */
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if (((uint32_t) mem & 0x3) != 0) {
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return NULL;
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}
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pDrv = (SPIS_DATACONTEXT_T *) mem;
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memset(pDrv, 0, sizeof(SPIS_DATACONTEXT_T));
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/* Save base of peripheral and pointer to user data */
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pDrv->pUserData = pInit->pUserData;
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pDrv->base = (LPC_SPI_T *) pInit->base;
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/* Enable SPI slave interface */
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pDrv->base->CFG = 0;
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pDrv->base->CFG = SPI_CFG_SPI_EN;
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/* Set SPI slave select (SSEL) polarity for each slave signal */
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for (i = 0; i <= 3; i++) {
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if (pInit->spiPol[i] == 0) {
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/* Active low select, high during idle */
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pDrv->base->CFG &= ~(1 << (8 + i));
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}
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else {
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/* Active high, low during idle */
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pDrv->base->CFG |= (1 << (8 + i));
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}
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}
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/* Enable SPI slave interface, deassert all chip selects (not needed for slave) */
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pDrv->base->TXCTRL = SPI_TXDATCTL_DEASSERT_ALL;
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/* Clear pending slave statuses - RXOV, TXUR, SSA, SSD, EOT */
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pDrv->base->STAT = (SPI_STAT_RXOV | SPI_STAT_TXUR | SPI_STAT_SSA |
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SPI_STAT_SSD | SPI_STAT_EOT);
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return (ROM_SPIS_HANDLE_T) pDrv;
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}
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void spis_register_callback(ROM_SPIS_HANDLE_T pHandle, uint32_t cbIndex, void *pCB)
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{
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SPIS_DATACONTEXT_T *pDrv = (SPIS_DATACONTEXT_T *) pHandle;
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switch (cbIndex) {
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case ROM_SPIS_ASSERTSSEL_CB:
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pDrv->pAssertCb = (spisSlaveXferCSAssertCB) pCB;
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break;
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case ROM_SPIS_DATATRANSMIT_CB:
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pDrv->pTranCb = (spisSlaveTransmitCB) pCB;
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break;
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case ROM_SPIS_DATATRECEIVE_CB:
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pDrv->pRecvCb = (spisSlaveReceiveCB) pCB;
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break;
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case ROM_SPIS_DEASSERTSSEL_CB:
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pDrv->pDeassertCb = (spisSlaveXferCSDeAssertCB) pCB;
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break;
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}
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}
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ErrorCode_t spis_setup_slave(ROM_SPIS_HANDLE_T pHandle, ROM_SPIS_SLAVE_T *pCfg)
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{
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SPIS_DATACONTEXT_T *pDrv = (SPIS_DATACONTEXT_T *) pHandle;
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uint32_t reg;
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/* Verify config is valid */
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if (pCfg == NULL) {
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return ERR_SPI_PARAM;
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}
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/* Verify data parameters area valid */
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if ((pCfg->dataBits == 0) || (pCfg->dataBits > 16)) {
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return ERR_SPI_PARAM;
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}
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/* Verify mode */
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if (pCfg->mode > ROM_SPI_CLOCK_MODE3) {
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return ERR_SPI_PARAM;
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}
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/* Setup transfer mode and LSB/MSB first */
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reg = pDrv->base->CFG;
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reg &= ~(SPI_CFG_LSB_FIRST_EN | SPI_CFG_CPHA_SECOND |
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SPI_CFG_CPOL_HI);
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/* Setup SPI transfer configuration (CFG register) */
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reg |= spiModeBits[(int) pCfg->mode];
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if (pCfg->lsbFirst) {
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reg |= SPI_CFG_LSB_FIRST_EN;
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}
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pDrv->base->CFG = reg;
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/* Setup SPI transfer configuration (TXCTRL) for data size, don't alter SPI SSEL states */
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reg = pDrv->base->TXCTRL & ~SPI_TXCTL_FLEN(16);
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pDrv->base->TXCTRL = reg | SPI_TXCTL_FLEN(pCfg->dataBits);
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/* Setup FIFO callbacks based on the data transfer width */
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if (pCfg->dataBits > 8) {
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pDrv->pPushFN = &_rom_spisSlaveFifoPush16;
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pDrv->pPopFN = &_rom_spisSlaveFifoPop16;
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}
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else {
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pDrv->pPushFN = &_rom_spisSlaveFifoPush8;
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pDrv->pPopFN = &_rom_spisSlaveFifoPop8;
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}
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/* Enable SPI interrupts for slave */
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pDrv->base->INTENSET = SPI_INTENSET_SSAEN | SPI_INTENSET_SSDEN |
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SPI_INTENSET_RXOVEN | SPI_INTENSET_TXUREN;
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return LPC_OK;
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}
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void spis_transfer_handler(ROM_SPIS_HANDLE_T pHandle)
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{
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SPIS_DATACONTEXT_T *pDrv = (SPIS_DATACONTEXT_T *) pHandle;
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ROM_SPIS_XFER_T *pXfer = pDrv->pXfer;
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/* Master asserts slave */
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if ((pDrv->base->INTSTAT & SPI_INTSTAT_SSA) != 0) {
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pDrv->base->STAT = SPI_STAT_SSA;
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/* Slave SSEL assertion callback */
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if (pDrv->pAssertCb != NULL) {
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/* If if takes too long to handle this event, there may also be
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recevied data with the asserted SSEL status. The best way to prevent
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this is to have the master provide a SSEL setup delay between the
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start of the SSEL assertion and the transfer of the first datum, or
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disable the assertion callback and ignore this event. */
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/* Note that setting up transfer buffers based on the slave address is
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the assertion callback may result in a transmit underflow. */
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uint32_t data = pDrv->base->RXDAT;
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pDrv->pAssertCb(pHandle, Chip_SPIS_FindSSEL(pDrv->base, data));
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/* Update transfer descriptor */
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pXfer = pDrv->pXfer;
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}
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/* Disable assertion interrupt, enable deassertion interrupt */
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pDrv->base->INTENCLR = SPI_INTENSET_SSAEN;
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pDrv->base->INTENSET = SPI_INTENSET_SSDEN | SPI_INTENSET_RXDYEN | SPI_INTENSET_TXDYEN;
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}
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/* If overrun or underrun errors occured, latch the error */
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if ((pDrv->base->INTSTAT & SPI_INTSTAT_TXUR) != 0) {
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pDrv->pendingStatus = ERR_SPI_TXUNDERRUN;
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pDrv->base->STAT = SPI_STAT_TXUR;
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}
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/* Receive overflow takes precedence over TX */
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if ((pDrv->base->INTSTAT & SPI_INTSTAT_RXOV) != 0) {
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pDrv->pendingStatus = ERR_SPI_RXOVERRUN;
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pDrv->base->STAT = SPI_STAT_RXOV;
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}
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if ((pDrv->base->INTSTAT & SPI_INTSTAT_TXRDY) != 0) {
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/* Handle transmit */
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_rom_spisTransmitHandler(pHandle, pXfer);
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}
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/* Receive data handler */
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if ((pDrv->base->INTSTAT & SPI_INTSTAT_RXRDY) != 0) {
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/* Handle receive */
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_rom_spisReceiveHandler(pHandle, pXfer);
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}
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/* Slave SSEL de-assertion callback */
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if ((pDrv->base->INTSTAT & SPI_INTSTAT_SSD) != 0) {
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pDrv->base->STAT = SPI_STAT_SSD | SPI_STAT_RXOV | SPI_STAT_TXUR;
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pDrv->base->INTENSET = SPI_INTENSET_SSAEN;
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pDrv->base->INTENCLR = SPI_INTENSET_SSDEN | SPI_INTENSET_RXDYEN | SPI_INTENSET_TXDYEN;
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if (pXfer) {
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pXfer->status = pDrv->pendingStatus;
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pDrv->pXfer = NULL;
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}
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/* On de-assertion, flush any data left in the transmmit and receive FIFO.
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This is needed when streaming data and the size of the transfer isn't
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known, so data may be left to transmit when the master deasserts. */
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pDrv->base->CFG &= ~SPI_CFG_SPI_EN;
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pDrv->base->CFG |= SPI_CFG_SPI_EN;
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/* De-assetion event */
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if (pDrv->pDeassertCb != NULL) {
|
|
pDrv->pDeassertCb(pHandle, pXfer);
|
|
}
|
|
}
|
|
}
|
|
|
|
ErrorCode_t spis_transfer(ROM_SPIS_HANDLE_T pHandle, ROM_SPIS_XFER_T *pXfer)
|
|
{
|
|
SPIS_DATACONTEXT_T *pDrv = (SPIS_DATACONTEXT_T *) pHandle;
|
|
uint8_t flen;
|
|
|
|
/* Get length of a receive value */
|
|
flen = 1 + (uint8_t) ((pDrv->base->TXCTRL >> 24) & 0xF);
|
|
|
|
/* Is transfer descriptor valid? */
|
|
if (pXfer == NULL) {
|
|
return ERR_SPI_PARAM;
|
|
}
|
|
|
|
/* No need to check RX buffer alignment if ROM_SPIS_FLAG_RXIGNORE flag is set */
|
|
if ((pXfer->flags & ROM_SPIS_FLAG_RXIGNORE) == 0) {
|
|
if ((pXfer->rxSz == 0) || (pXfer->rxBuff == NULL)) {
|
|
pXfer->status = ERR_SPI_PARAM;
|
|
return ERR_SPI_PARAM;
|
|
}
|
|
if ((flen > 8) && ((((uint32_t) pXfer->rxBuff) & 0x1) != 0)) {
|
|
/* Receive buffer not 16-bit aligned or not present */
|
|
pXfer->status = ERR_SPI_PARAM;
|
|
return ERR_SPI_PARAM;
|
|
}
|
|
/* Is DMA being used? */
|
|
if ((pXfer->flags & ROM_SPIS_FLAG_DMARX) != 0) {
|
|
if (pDrv->pRecvCb == NULL) {
|
|
pXfer->status = ERR_SPI_PARAM;
|
|
return ERR_SPI_PARAM;
|
|
}
|
|
}
|
|
}
|
|
|
|
/* Check transmit buffer alignment */
|
|
if ((pXfer->flags & ROM_SPIS_FLAG_TXIGNORE) == 0) {
|
|
if ((pXfer->txSz == 0) || (pXfer->txBuff == NULL)) {
|
|
pXfer->status = ERR_SPI_PARAM;
|
|
return ERR_SPI_PARAM;
|
|
}
|
|
if ((flen > 8) && ((((uint32_t) pXfer->txBuff) & 0x1) != 0)) {
|
|
pXfer->status = ERR_SPI_PARAM;
|
|
return ERR_SPI_PARAM;
|
|
}
|
|
/* Is DMA being used? */
|
|
if ((pXfer->flags & ROM_SPIS_FLAG_DMATX) != 0) {
|
|
if (pDrv->pTranCb == NULL) {
|
|
pXfer->status = ERR_SPI_PARAM;
|
|
return ERR_SPI_PARAM;
|
|
}
|
|
}
|
|
}
|
|
|
|
/* ROM_SPIS_FLAG_RXIGNORE flag */
|
|
if ((pXfer->flags & ROM_SPIS_FLAG_RXIGNORE) != 0) {
|
|
pDrv->base->TXCTRL |= SPI_TXCTL_RXIGNORE;
|
|
}
|
|
else {
|
|
pDrv->base->TXCTRL &= ~SPI_TXCTL_RXIGNORE;
|
|
}
|
|
|
|
/* Save pointer to transfer descriptor and initial status */
|
|
pDrv->pXfer = pXfer;
|
|
pXfer->status = ERR_SPI_BUSY;
|
|
pDrv->pendingStatus = LPC_OK;
|
|
pDrv->sendIdx = pDrv->recvIdx = pXfer->txSent = pXfer->rxRecv = 0;
|
|
|
|
pDrv->base->INTENSET = SPI_INTENSET_RXDYEN | SPI_INTENSET_TXDYEN;
|
|
|
|
return pXfer->status;
|
|
}
|
|
|
|
uint32_t spis_get_driver_version(void)
|
|
{
|
|
return DRVVERSION;
|
|
}
|
|
|
|
// *********************************************************
|