/****************************************************************************** * \attention * *

© COPYRIGHT 2020 STMicroelectronics

* * Licensed under ST MYLIBERTY SOFTWARE LICENSE AGREEMENT (the "License"); * You may not use this file except in compliance with the License. * You may obtain a copy of the License at: * * www.st.com/myliberty * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied, * AND SPECIFICALLY DISCLAIMING THE IMPLIED WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE, AND NON-INFRINGEMENT. * See the License for the specific language governing permissions and * limitations under the License. * ******************************************************************************/ /* * PROJECT: ST25R3916 firmware * Revision: * LANGUAGE: ISO C99 */ /*! \file * * \author Gustavo Patricio * * \brief Implementation of ST25R3916 communication * */ /* ****************************************************************************** * INCLUDES ****************************************************************************** */ #include "st25r3916.h" #include "st25r3916_com.h" #include "st25r3916_led.h" #include "st_errno.h" #include "platform.h" #include "utils.h" /* ****************************************************************************** * LOCAL DEFINES ****************************************************************************** */ #define ST25R3916_OPTIMIZE \ true /*!< Optimization switch: false always write value to register */ #define ST25R3916_I2C_ADDR \ (0xA0U >> 1) /*!< ST25R3916's default I2C address */ #define ST25R3916_REG_LEN 1U /*!< Byte length of a ST25R3916 register */ #define ST25R3916_WRITE_MODE \ (0U << 6) /*!< ST25R3916 Operation Mode: Write */ #define ST25R3916_READ_MODE \ (1U << 6) /*!< ST25R3916 Operation Mode: Read */ #define ST25R3916_CMD_MODE \ (3U << 6) /*!< ST25R3916 Operation Mode: Direct Command */ #define ST25R3916_FIFO_LOAD \ (0x80U) /*!< ST25R3916 Operation Mode: FIFO Load */ #define ST25R3916_FIFO_READ \ (0x9FU) /*!< ST25R3916 Operation Mode: FIFO Read */ #define ST25R3916_PT_A_CONFIG_LOAD \ (0xA0U) /*!< ST25R3916 Operation Mode: Passive Target Memory A-Config Load */ #define ST25R3916_PT_F_CONFIG_LOAD \ (0xA8U) /*!< ST25R3916 Operation Mode: Passive Target Memory F-Config Load */ #define ST25R3916_PT_TSN_DATA_LOAD \ (0xACU) /*!< ST25R3916 Operation Mode: Passive Target Memory TSN Load */ #define ST25R3916_PT_MEM_READ \ (0xBFU) /*!< ST25R3916 Operation Mode: Passive Target Memory Read */ #define ST25R3916_CMD_LEN \ (1U) /*!< ST25R3916 CMD length */ #define ST25R3916_BUF_LEN \ (ST25R3916_CMD_LEN + \ ST25R3916_FIFO_DEPTH) /*!< ST25R3916 communication buffer: CMD + FIFO length */ /* ****************************************************************************** * MACROS ****************************************************************************** */ #ifdef RFAL_USE_I2C #define st25r3916I2CStart() \ platformI2CStart() /*!< ST25R3916 HAL I2C driver macro to start a I2C transfer */ #define st25r3916I2CStop() \ platformI2CStop() /*!< ST25R3916 HAL I2C driver macro to stop a I2C transfer */ #define st25r3916I2CRepeatStart() \ platformI2CRepeatStart() /*!< ST25R3916 HAL I2C driver macro to repeat Start */ #define st25r3916I2CSlaveAddrWR(sA) \ platformI2CSlaveAddrWR( \ sA) /*!< ST25R3916 HAL I2C driver macro to repeat Start */ #define st25r3916I2CSlaveAddrRD(sA) \ platformI2CSlaveAddrRD( \ sA) /*!< ST25R3916 HAL I2C driver macro to repeat Start */ #endif /* RFAL_USE_I2C */ #if defined(ST25R_COM_SINGLETXRX) && !defined(RFAL_USE_I2C) static uint8_t comBuf[ST25R3916_BUF_LEN]; /*!< ST25R3916 communication buffer */ static uint16_t comBufIt; /*!< ST25R3916 communication buffer iterator */ #endif /* ST25R_COM_SINGLETXRX */ /* ****************************************************************************** * LOCAL FUNCTION PROTOTYPES ****************************************************************************** */ /*! ****************************************************************************** * \brief ST25R3916 communication Start * * This method performs the required actions to start communications with * ST25R3916, either by SPI or I2C ****************************************************************************** */ static void st25r3916comStart(void); /*! ****************************************************************************** * \brief ST25R3916 communication Stop * * This method performs the required actions to terminate communications with * ST25R3916, either by SPI or I2C ****************************************************************************** */ static void st25r3916comStop(void); /*! ****************************************************************************** * \brief ST25R3916 communication Repeat Start * * This method performs the required actions to repeat start a transmission * with ST25R3916, either by SPI or I2C ****************************************************************************** */ #ifdef RFAL_USE_I2C static void st25r3916comRepeatStart(void); #else #define st25r3916comRepeatStart() #endif /* RFAL_USE_I2C */ /*! ****************************************************************************** * \brief ST25R3916 communication Tx * * This method performs the required actions to transmit the given buffer * to ST25R3916, either by SPI or I2C * * \param[in] txBuf : the buffer to transmit * \param[in] txLen : the length of the buffer to transmit * \param[in] last : true if last data to be transmitted * \param[in] txOnly : true no reception is to be performed * ****************************************************************************** */ static void st25r3916comTx(const uint8_t* txBuf, uint16_t txLen, bool last, bool txOnly); /*! ****************************************************************************** * \brief ST25R3916 communication Rx * * This method performs the required actions to receive from ST25R3916 the given * amount of bytes, either by SPI or I2C * * \param[out] rxBuf : the buffer place the received bytes * \param[in] rxLen : the length to receive * ****************************************************************************** */ static void st25r3916comRx(uint8_t* rxBuf, uint16_t rxLen); /*! ****************************************************************************** * \brief ST25R3916 communication Tx Byte * * This helper method transmits a byte passed by value and not by reference * * \param[in] txByte : the value of the byte to be transmitted * \param[in] last : true if last byte to be transmitted * \param[in] txOnly : true no reception is to be performed * ****************************************************************************** */ static void st25r3916comTxByte(uint8_t txByte, bool last, bool txOnly); /* ****************************************************************************** * LOCAL FUNCTION ****************************************************************************** */ static void st25r3916comStart(void) { /* Make this operation atomic, disabling ST25R3916 interrupt during communications*/ platformProtectST25RComm(); #ifdef RFAL_USE_I2C /* I2C Start and send Slave Address */ st25r3916I2CStart(); st25r3916I2CSlaveAddrWR(ST25R3916_I2C_ADDR); #else /* Perform the chip select */ platformSpiSelect(); #if defined(ST25R_COM_SINGLETXRX) comBufIt = 0; /* reset local buffer position */ #endif /* ST25R_COM_SINGLETXRX */ #endif /* RFAL_USE_I2C */ } /*******************************************************************************/ static void st25r3916comStop(void) { #ifdef RFAL_USE_I2C /* Generate Stop signal */ st25r3916I2CStop(); #else /* Release the chip select */ platformSpiDeselect(); #endif /* RFAL_USE_I2C */ /* reEnable the ST25R3916 interrupt */ platformUnprotectST25RComm(); } /*******************************************************************************/ #ifdef RFAL_USE_I2C static void st25r3916comRepeatStart(void) { st25r3916I2CRepeatStart(); st25r3916I2CSlaveAddrRD(ST25R3916_I2C_ADDR); } #endif /* RFAL_USE_I2C */ /*******************************************************************************/ static void st25r3916comTx(const uint8_t* txBuf, uint16_t txLen, bool last, bool txOnly) { NO_WARNING(last); NO_WARNING(txOnly); if(txLen > 0U) { #ifdef RFAL_USE_I2C platformI2CTx(txBuf, txLen, last, txOnly); #else /* RFAL_USE_I2C */ #ifdef ST25R_COM_SINGLETXRX ST_MEMCPY( &comBuf[comBufIt], txBuf, MIN(txLen, (ST25R3916_BUF_LEN - comBufIt))); /* copy tx data to local buffer */ comBufIt += MIN(txLen, (ST25R3916_BUF_LEN - comBufIt)); /* store position on local buffer */ if(last && txOnly) /* only perform SPI transaction if no Rx will follow */ { platformSpiTxRx(comBuf, NULL, comBufIt); } #else platformSpiTxRx(txBuf, NULL, txLen); #endif /* ST25R_COM_SINGLETXRX */ #endif /* RFAL_USE_I2C */ } } /*******************************************************************************/ static void st25r3916comRx(uint8_t* rxBuf, uint16_t rxLen) { if(rxLen > 0U) { #ifdef RFAL_USE_I2C platformI2CRx(rxBuf, rxLen); #else /* RFAL_USE_I2C */ #ifdef ST25R_COM_SINGLETXRX ST_MEMSET( &comBuf[comBufIt], 0x00, MIN(rxLen, (ST25R3916_BUF_LEN - comBufIt))); /* clear outgoing buffer */ platformSpiTxRx( comBuf, comBuf, MIN((comBufIt + rxLen), ST25R3916_BUF_LEN)); /* transceive as a single SPI call */ ST_MEMCPY( rxBuf, &comBuf[comBufIt], MIN(rxLen, (ST25R3916_BUF_LEN - comBufIt))); /* copy from local buf to output buffer and skip cmd byte */ #else if(rxBuf != NULL) { ST_MEMSET( rxBuf, 0x00, rxLen); /* clear outgoing buffer */ } platformSpiTxRx(NULL, rxBuf, rxLen); #endif /* ST25R_COM_SINGLETXRX */ #endif /* RFAL_USE_I2C */ } } /*******************************************************************************/ static void st25r3916comTxByte(uint8_t txByte, bool last, bool txOnly) { uint8_t val = txByte; /* MISRA 17.8: use intermediate variable */ st25r3916comTx(&val, ST25R3916_REG_LEN, last, txOnly); } /* ****************************************************************************** * GLOBAL FUNCTIONS ****************************************************************************** */ /*******************************************************************************/ ReturnCode st25r3916ReadRegister(uint8_t reg, uint8_t* val) { return st25r3916ReadMultipleRegisters(reg, val, ST25R3916_REG_LEN); } /*******************************************************************************/ ReturnCode st25r3916ReadMultipleRegisters(uint8_t reg, uint8_t* values, uint8_t length) { if(length > 0U) { st25r3916comStart(); /* If is a space-B register send a direct command first */ if((reg & ST25R3916_SPACE_B) != 0U) { st25r3916comTxByte(ST25R3916_CMD_SPACE_B_ACCESS, false, false); } st25r3916comTxByte(((reg & ~ST25R3916_SPACE_B) | ST25R3916_READ_MODE), true, false); st25r3916comRepeatStart(); st25r3916comRx(values, length); st25r3916comStop(); } return ERR_NONE; } /*******************************************************************************/ ReturnCode st25r3916WriteRegister(uint8_t reg, uint8_t val) { uint8_t value = val; /* MISRA 17.8: use intermediate variable */ return st25r3916WriteMultipleRegisters(reg, &value, ST25R3916_REG_LEN); } /*******************************************************************************/ ReturnCode st25r3916WriteMultipleRegisters(uint8_t reg, const uint8_t* values, uint8_t length) { if(length > 0U) { st25r3916comStart(); if((reg & ST25R3916_SPACE_B) != 0U) { st25r3916comTxByte(ST25R3916_CMD_SPACE_B_ACCESS, false, true); } st25r3916comTxByte(((reg & ~ST25R3916_SPACE_B) | ST25R3916_WRITE_MODE), false, true); st25r3916comTx(values, length, true, true); st25r3916comStop(); /* Send a WriteMultiReg event to LED handling */ st25r3916ledEvtWrMultiReg(reg, values, length); } return ERR_NONE; } /*******************************************************************************/ ReturnCode st25r3916WriteFifo(const uint8_t* values, uint16_t length) { if(length > ST25R3916_FIFO_DEPTH) { return ERR_PARAM; } if(length > 0U) { st25r3916comStart(); st25r3916comTxByte(ST25R3916_FIFO_LOAD, false, true); st25r3916comTx(values, length, true, true); st25r3916comStop(); } return ERR_NONE; } /*******************************************************************************/ ReturnCode st25r3916ReadFifo(uint8_t* buf, uint16_t length) { if(length > 0U) { st25r3916comStart(); st25r3916comTxByte(ST25R3916_FIFO_READ, true, false); st25r3916comRepeatStart(); st25r3916comRx(buf, length); st25r3916comStop(); } return ERR_NONE; } /*******************************************************************************/ ReturnCode st25r3916WritePTMem(const uint8_t* values, uint16_t length) { if(length > ST25R3916_PTM_LEN) { return ERR_PARAM; } if(length > 0U) { st25r3916comStart(); st25r3916comTxByte(ST25R3916_PT_A_CONFIG_LOAD, false, true); st25r3916comTx(values, length, true, true); st25r3916comStop(); } return ERR_NONE; } /*******************************************************************************/ ReturnCode st25r3916ReadPTMem(uint8_t* values, uint16_t length) { uint8_t tmp[ST25R3916_REG_LEN + ST25R3916_PTM_LEN]; /* local buffer to handle prepended byte on I2C and SPI */ if(length > 0U) { if(length > ST25R3916_PTM_LEN) { return ERR_PARAM; } st25r3916comStart(); st25r3916comTxByte(ST25R3916_PT_MEM_READ, true, false); st25r3916comRepeatStart(); st25r3916comRx(tmp, (ST25R3916_REG_LEN + length)); /* skip prepended byte */ st25r3916comStop(); /* Copy PTMem content without prepended byte */ ST_MEMCPY(values, (tmp + ST25R3916_REG_LEN), length); } return ERR_NONE; } /*******************************************************************************/ ReturnCode st25r3916WritePTMemF(const uint8_t* values, uint16_t length) { if(length > (ST25R3916_PTM_F_LEN + ST25R3916_PTM_TSN_LEN)) { return ERR_PARAM; } if(length > 0U) { st25r3916comStart(); st25r3916comTxByte(ST25R3916_PT_F_CONFIG_LOAD, false, true); st25r3916comTx(values, length, true, true); st25r3916comStop(); } return ERR_NONE; } /*******************************************************************************/ ReturnCode st25r3916WritePTMemTSN(const uint8_t* values, uint16_t length) { if(length > ST25R3916_PTM_TSN_LEN) { return ERR_PARAM; } if(length > 0U) { st25r3916comStart(); st25r3916comTxByte(ST25R3916_PT_TSN_DATA_LOAD, false, true); st25r3916comTx(values, length, true, true); st25r3916comStop(); } return ERR_NONE; } /*******************************************************************************/ ReturnCode st25r3916ExecuteCommand(uint8_t cmd) { st25r3916comStart(); st25r3916comTxByte((cmd | ST25R3916_CMD_MODE), true, true); st25r3916comStop(); /* Send a cmd event to LED handling */ st25r3916ledEvtCmd(cmd); return ERR_NONE; } /*******************************************************************************/ ReturnCode st25r3916ReadTestRegister(uint8_t reg, uint8_t* val) { st25r3916comStart(); st25r3916comTxByte(ST25R3916_CMD_TEST_ACCESS, false, false); st25r3916comTxByte((reg | ST25R3916_READ_MODE), true, false); st25r3916comRepeatStart(); st25r3916comRx(val, ST25R3916_REG_LEN); st25r3916comStop(); return ERR_NONE; } /*******************************************************************************/ ReturnCode st25r3916WriteTestRegister(uint8_t reg, uint8_t val) { uint8_t value = val; /* MISRA 17.8: use intermediate variable */ st25r3916comStart(); st25r3916comTxByte(ST25R3916_CMD_TEST_ACCESS, false, true); st25r3916comTxByte((reg | ST25R3916_WRITE_MODE), false, true); st25r3916comTx(&value, ST25R3916_REG_LEN, true, true); st25r3916comStop(); return ERR_NONE; } /*******************************************************************************/ ReturnCode st25r3916ClrRegisterBits(uint8_t reg, uint8_t clr_mask) { ReturnCode ret; uint8_t rdVal; /* Read current reg value */ EXIT_ON_ERR(ret, st25r3916ReadRegister(reg, &rdVal)); /* Only perform a Write if value to be written is different */ if(ST25R3916_OPTIMIZE && (rdVal == (uint8_t)(rdVal & ~clr_mask))) { return ERR_NONE; } /* Write new reg value */ return st25r3916WriteRegister(reg, (uint8_t)(rdVal & ~clr_mask)); } /*******************************************************************************/ ReturnCode st25r3916SetRegisterBits(uint8_t reg, uint8_t set_mask) { ReturnCode ret; uint8_t rdVal; /* Read current reg value */ EXIT_ON_ERR(ret, st25r3916ReadRegister(reg, &rdVal)); /* Only perform a Write if the value to be written is different */ if(ST25R3916_OPTIMIZE && (rdVal == (rdVal | set_mask))) { return ERR_NONE; } /* Write new reg value */ return st25r3916WriteRegister(reg, (rdVal | set_mask)); } /*******************************************************************************/ ReturnCode st25r3916ChangeRegisterBits(uint8_t reg, uint8_t valueMask, uint8_t value) { return st25r3916ModifyRegister(reg, valueMask, (valueMask & value)); } /*******************************************************************************/ ReturnCode st25r3916ModifyRegister(uint8_t reg, uint8_t clr_mask, uint8_t set_mask) { ReturnCode ret; uint8_t rdVal; uint8_t wrVal; /* Read current reg value */ EXIT_ON_ERR(ret, st25r3916ReadRegister(reg, &rdVal)); /* Compute new value */ wrVal = (uint8_t)(rdVal & ~clr_mask); wrVal |= set_mask; /* Only perform a Write if the value to be written is different */ if(ST25R3916_OPTIMIZE && (rdVal == wrVal)) { return ERR_NONE; } /* Write new reg value */ return st25r3916WriteRegister(reg, wrVal); } /*******************************************************************************/ ReturnCode st25r3916ChangeTestRegisterBits(uint8_t reg, uint8_t valueMask, uint8_t value) { ReturnCode ret; uint8_t rdVal; uint8_t wrVal; /* Read current reg value */ EXIT_ON_ERR(ret, st25r3916ReadTestRegister(reg, &rdVal)); /* Compute new value */ wrVal = (uint8_t)(rdVal & ~valueMask); wrVal |= (uint8_t)(value & valueMask); /* Only perform a Write if the value to be written is different */ if(ST25R3916_OPTIMIZE && (rdVal == wrVal)) { return ERR_NONE; } /* Write new reg value */ return st25r3916WriteTestRegister(reg, wrVal); } /*******************************************************************************/ bool st25r3916CheckReg(uint8_t reg, uint8_t mask, uint8_t val) { uint8_t regVal; regVal = 0; st25r3916ReadRegister(reg, ®Val); return ((regVal & mask) == val); } /*******************************************************************************/ bool st25r3916IsRegValid(uint8_t reg) { #pragma GCC diagnostic ignored "-Wtype-limits" if(!(((int16_t)reg >= (int32_t)ST25R3916_REG_IO_CONF1) && (reg <= (ST25R3916_SPACE_B | ST25R3916_REG_IC_IDENTITY)))) { return false; } return true; }