/* * @brief LPC5410X SPI master driver * * @note * Copyright(C) NXP Semiconductors, 2015 * All rights reserved. * * @par * Software that is described herein is for illustrative purposes only * which provides customers with programming information regarding the * LPC products. This software is supplied "AS IS" without any warranties of * any kind, and NXP Semiconductors and its licenser disclaim any and * all warranties, express or implied, including all implied warranties of * merchantability, fitness for a particular purpose and non-infringement of * intellectual property rights. NXP Semiconductors assumes no responsibility * or liability for the use of the software, conveys no license or rights under any * patent, copyright, mask work right, or any other intellectual property rights in * or to any products. NXP Semiconductors reserves the right to make changes * in the software without notification. NXP Semiconductors also makes no * representation or warranty that such application will be suitable for the * specified use without further testing or modification. * * @par * Permission to use, copy, modify, and distribute this software and its * documentation is hereby granted, under NXP Semiconductors' and its * licensor's relevant copyrights in the software, without fee, provided that it * is used in conjunction with NXP Semiconductors microcontrollers. This * copyright, permission, and disclaimer notice must appear in all copies of * this code. */ #include "chip.h" /***************************************************************************** * Private types/enumerations/variables ****************************************************************************/ static volatile bool xmitOn; /***************************************************************************** * Public types/enumerations/variables ****************************************************************************/ /***************************************************************************** * Private functions ****************************************************************************/ /***************************************************************************** * Public functions ****************************************************************************/ /* Get SPI master bit rate */ uint32_t Chip_SPIM_GetClockRate(LPC_SPI_T *pSPI) { return Chip_Clock_GetAsyncSyscon_ClockRate() / (pSPI->DIV + 1); } /* Set SPI master bit rate */ uint32_t Chip_SPIM_SetClockRate(LPC_SPI_T *pSPI, uint32_t rate) { uint32_t baseClock, div; /* Get peripheral base clock rate */ baseClock = Chip_Clock_GetAsyncSyscon_ClockRate(); /* Compute divider */ div = baseClock / rate; /* Limit values */ if (div == 0) { div = 1; } else if (div > 0x10000) { div = 0x10000; } pSPI->DIV = div - 1; return Chip_SPIM_GetClockRate(pSPI); } /* Configure SPI Delay parameters */ void Chip_SPIM_DelayConfig(LPC_SPI_T *pSPI, SPIM_DELAY_CONFIG_T *pConfig) { pSPI->DLY = (SPI_DLY_PRE_DELAY(pConfig->PreDelay) | SPI_DLY_POST_DELAY(pConfig->PostDelay) | SPI_DLY_FRAME_DELAY(pConfig->FrameDelay) | SPI_DLY_TRANSFER_DELAY(pConfig->TransferDelay - 1)); } /* Assert a SPI select */ void Chip_SPIM_AssertSSEL(LPC_SPI_T *pSPI, uint8_t sselNum) { uint32_t reg; reg = pSPI->TXCTRL & SPI_TXDATCTL_CTRLMASK; /* Assert a SSEL line by driving it low */ reg &= ~SPI_TXDATCTL_DEASSERTNUM_SSEL(sselNum); pSPI->TXCTRL = reg; } /* Deassert a SPI select */ void Chip_SPIM_DeAssertSSEL(LPC_SPI_T *pSPI, uint8_t sselNum) { uint32_t reg; reg = pSPI->TXCTRL & SPI_TXDATCTL_CTRLMASK; pSPI->TXCTRL = reg | SPI_TXDATCTL_DEASSERTNUM_SSEL(sselNum); } /* SPI master transfer state change handler */ void Chip_SPIM_XferHandler(LPC_SPI_T *pSPI, SPIM_XFER_T *xfer) { uint32_t data; uint8_t flen; /* Get length of a receive value */ flen = (pSPI->TXCTRL >> 24) & 0xF; /* Master asserts slave */ if ((Chip_SPI_GetStatus(pSPI) & SPI_STAT_SSA) != 0) { Chip_SPI_ClearStatus(pSPI, SPI_STAT_SSA); /* SSEL assertion callback */ xfer->pCB->masterXferCSAssert(xfer); } /* Slave de-assertion */ if ((Chip_SPI_GetStatus(pSPI) & SPI_STAT_SSD) != 0) { Chip_SPI_ClearStatus(pSPI, SPI_STAT_SSD); /* If transmitter disabled and deassert happens, the transfer is done */ if (xmitOn == false) { xfer->pCB->mMasterXferDone(xfer); } } /* Transmit data? */ while (((Chip_SPI_GetStatus(pSPI) & SPI_STAT_TXRDY) != 0) && (xmitOn == true)) { if ((xfer->txCount == 1) && (xfer->terminate)) { /* Transfer is done, this will be last data */ Chip_SPIM_ForceEndOfTransfer(pSPI); xmitOn = false; } else if (xfer->txCount == 0) { /* Request a new buffer first */ xfer->pCB->masterXferSend(xfer); } if (xfer->txCount > 0) { /* Send 0 if ignoring transmit */ if (xfer->pTXData8 == NULL) { data = 0; } else { /* Copy buffer to data */ if (flen > 8) { data = (uint32_t) *xfer->pTXData16; xfer->pTXData16++; } else { data = (uint32_t) *xfer->pTXData8; xfer->pTXData8++; } xfer->dataTXferred++; } Chip_SPI_WriteTXData(pSPI, data); xfer->txCount--; } } /* Data received? */ while ((Chip_SPI_GetStatus(pSPI) & SPI_STAT_RXRDY) != 0) { /* Get raw data and status */ data = Chip_SPI_ReadRawRXFifo(pSPI); /* Only copy data when not ignoring receive */ if (xfer->pRXData8 != NULL) { /* Enough size in current buffers? */ if (xfer->rxCount == 0) { /* Request a new buffer first */ xfer->pCB->masterXferRecv(xfer); } /* Copy data to buffer */ if (xfer->rxCount > 0) { if (flen > 8) { *xfer->pRXData16 = (uint16_t) (data & 0xFFFF); xfer->pRXData16++; } else { *xfer->pRXData8 = (uint8_t) (data & 0xFF); xfer->pRXData8++; } xfer->dataRXferred++; xfer->rxCount--; } } } } /* Start non-blocking SPI master transfer */ void Chip_SPIM_Xfer(LPC_SPI_T *pSPI, SPIM_XFER_T *xfer) { /* Setup SPI master select, data length, EOT/EOF timing, and RX data ignore */ pSPI->TXCTRL = xfer->options | SPI_TXDATCTL_DEASSERT_ALL; Chip_SPIM_AssertSSEL(pSPI, xfer->sselNum); /* Clear initial transfer states */ xfer->dataRXferred = xfer->dataTXferred = 0; /* Call main handler to start transfer */ xmitOn = true; Chip_SPIM_XferHandler(pSPI, xfer); } /* Perform blocking SPI master transfer */ void Chip_SPIM_XferBlocking(LPC_SPI_T *pSPI, SPIM_XFER_T *xfer) { /* Start trasnfer */ Chip_SPIM_Xfer(pSPI, xfer); /* Wait for termination */ while (xmitOn == true) { Chip_SPIM_XferHandler(pSPI, xfer); } }