#include "WProgram.h" #include "spi_drv.h" #include "pins_arduino.h" #define _DEBUG_ extern "C" { #include "debug.h" } #define DATAOUT 11//MOSI #define DATAIN 12//MISO #define SPICLOCK 13//sck #define SLAVESELECT 2//ss #define SLAVEREADY 3 #define DELAY_100NS asm volatile("nop") void SpiDrv::begin() { // Set direction register for SCK and MOSI pin. // MISO pin automatically overrides to INPUT. // When the SS pin is set as OUTPUT, it can be used as // a general purpose output port (it doesn't influence // SPI operations). pinMode(SCK, OUTPUT); pinMode(MOSI, OUTPUT); pinMode(SS, OUTPUT); pinMode(SLAVESELECT, OUTPUT); pinMode(SLAVEREADY, INPUT); digitalWrite(SCK, LOW); digitalWrite(MOSI, LOW); digitalWrite(SS, HIGH); digitalWrite(SLAVESELECT, HIGH); #ifdef _DEBUG_ INIT_TRIGGER() #endif // Warning: if the SS pin ever becomes a LOW INPUT then SPI // automatically switches to Slave, so the data direction of // the SS pin MUST be kept as OUTPUT. SPCR |= _BV(MSTR); SPCR |= _BV(SPE); //SPSR |= _BV(SPI2X); } void SpiDrv::end() { SPCR &= ~_BV(SPE); } void SpiDrv::spiSlaveSelect() { digitalWrite(SLAVESELECT,LOW); } void SpiDrv::spiSlaveDeselect() { digitalWrite(SLAVESELECT,HIGH); } void delaySpi() { int i = 0; const int DELAY = 1000; for (;i 0) && (_readChar != waitChar)); return (_readChar == waitChar); } //int SpiDrv::waitSpiChar(char waitChar, char* readChar) //{ // int timeout = TIMEOUT_CHAR; // do{ // *readChar = spiTransfer(DUMMY_DATA); //get data byte // if (*readChar == WAIT_CMD) // { // INFO1("WAIT"); // delayMicroseconds(WAIT_CHAR_DELAY); // } // }while((timeout-- > 0) && (*readChar != waitChar)); // // return (*readChar == waitChar); //} int SpiDrv::readAndCheckChar(char checkChar, char* readChar) { //*readChar = spiTransfer(DUMMY_DATA); //get data byte getParam((uint8_t*)readChar); return (*readChar == checkChar); } char SpiDrv::readChar() { uint8_t readChar = 0; getParam(&readChar); return readChar; //return spiTransfer(DUMMY_DATA); //get data byte } //#define WAIT_START_CMD(x) waitSpiChar(START_CMD, &x) //#define WAIT_START_CMD(x) readAndCheckChar(START_CMD, &x) #define WAIT_START_CMD(x) waitSpiChar(START_CMD) #define IF_CHECK_START_CMD(x) \ if (!WAIT_START_CMD(_data)) \ { \ TOGGLE_TRIGGER() \ WARN("Error waiting START_CMD"); \ Serial.println(cmd, 16); \ return 0; \ }else \ #define CHECK_DATA(check, x) \ if (!readAndCheckChar(check, &x)) \ { \ TOGGLE_TRIGGER() \ WARN("Reply error"); \ INFO2(check, (uint8_t)x); \ return 0; \ }else \ #define waitSlaveReady() (digitalRead(SLAVEREADY) == LOW) #define waitSlaveSign() (digitalRead(SLAVEREADY) == HIGH) #define waitSlaveSignalH() while(digitalRead(SLAVEREADY) != HIGH){} #define waitSlaveSignalL() while(digitalRead(SLAVEREADY) != LOW){} void SpiDrv::waitForSlaveSign() { while (!waitSlaveSign()); } void SpiDrv::waitForSlaveReady() { while (!waitSlaveReady()); } void SpiDrv::getParam(uint8_t* param) { // Get Params data *param = spiTransfer(DUMMY_DATA); DELAY_100NS; DELAY_100NS; DELAY_100NS; DELAY_100NS; } int SpiDrv::waitResponseCmd(uint8_t cmd, uint8_t numParam, uint8_t* param, uint8_t* param_len) { char _data = 0; int i =0, ii = 0; IF_CHECK_START_CMD(_data) { CHECK_DATA(cmd | REPLY_FLAG, _data){}; CHECK_DATA(numParam, _data); { readParamLen8(param_len); for (ii=0; ii<(*param_len); ++ii) { // Get Params data //param[ii] = spiTransfer(DUMMY_DATA); getParam(¶m[ii]); } } readAndCheckChar(END_CMD, &_data); } return 1; } /* int SpiDrv::waitResponse(uint8_t cmd, uint8_t numParam, uint8_t* param, uint16_t* param_len) { char _data = 0; int i =0, ii = 0; IF_CHECK_START_CMD(_data) { CHECK_DATA(cmd | REPLY_FLAG, _data){}; CHECK_DATA(numParam, _data); { readParamLen16(param_len); for (ii=0; ii<(*param_len); ++ii) { // Get Params data param[ii] = spiTransfer(DUMMY_DATA); } } readAndCheckChar(END_CMD, &_data); } return 1; } */ int SpiDrv::waitResponseData16(uint8_t cmd, uint8_t* param, uint16_t* param_len) { char _data = 0; int i =0, ii = 0; IF_CHECK_START_CMD(_data) { CHECK_DATA(cmd | REPLY_FLAG, _data){}; uint8_t numParam = readChar(); if (numParam != 0) { readParamLen16(param_len); for (ii=0; ii<(*param_len); ++ii) { // Get Params data param[ii] = spiTransfer(DUMMY_DATA); } } readAndCheckChar(END_CMD, &_data); } return 1; } int SpiDrv::waitResponseData8(uint8_t cmd, uint8_t* param, uint8_t* param_len) { char _data = 0; int i =0, ii = 0; IF_CHECK_START_CMD(_data) { CHECK_DATA(cmd | REPLY_FLAG, _data){}; uint8_t numParam = readChar(); if (numParam != 0) { readParamLen8(param_len); for (ii=0; ii<(*param_len); ++ii) { // Get Params data param[ii] = spiTransfer(DUMMY_DATA); } } readAndCheckChar(END_CMD, &_data); } return 1; } int SpiDrv::waitResponseParams(uint8_t cmd, uint8_t numParam, tParam* params) { char _data = 0; int i =0, ii = 0; IF_CHECK_START_CMD(_data) { CHECK_DATA(cmd | REPLY_FLAG, _data){}; uint8_t _numParam = readChar(); if (_numParam != 0) { for (i=0; i<_numParam; ++i) { params[i].paramLen = readParamLen8(); for (ii=0; ii maxNumParams) { numParam = maxNumParams; } *numParamRead = numParam; if (numParam != 0) { for (i=0; i maxNumParams) { numParam = maxNumParams; } *numParamRead = numParam; if (numParam != 0) { for (i=0; i>8)); spiTransfer((uint8_t)(param_len & 0xff)); } uint8_t SpiDrv::readParamLen8(uint8_t* param_len) { uint8_t _param_len = spiTransfer(DUMMY_DATA); if (param_len != NULL) { *param_len = _param_len; } return _param_len; } uint16_t SpiDrv::readParamLen16(uint16_t* param_len) { uint16_t _param_len = spiTransfer(DUMMY_DATA)<<8 | (spiTransfer(DUMMY_DATA)& 0xff); if (param_len != NULL) { *param_len = _param_len; } return _param_len; } void SpiDrv::sendBuffer(uint8_t* param, uint16_t param_len, uint8_t lastParam) { int i = 0; // Send Spi paramLen sendParamLen16(param_len); // Send Spi param data for (i=0; i>8)); spiTransfer((uint8_t)(param & 0xff)); // if lastParam==1 Send Spi END CMD if (lastParam == 1) spiTransfer(END_CMD); } /* Cmd Struct Message */ /* _________________________________________________________________________________ */ /*| START CMD | C/R | CMD |[TOT LEN]| N.PARAM | PARAM LEN | PARAM | .. | END CMD | */ /*|___________|______|______|_________|_________|___________|________|____|_________| */ /*| 8 bit | 1bit | 7bit | 8bit | 8bit | 8bit | nbytes | .. | 8bit | */ /*|___________|______|______|_________|_________|___________|________|____|_________| */ void SpiDrv::sendCmd(uint8_t cmd, uint8_t numParam) { // Send Spi START CMD spiTransfer(START_CMD); //waitForSlaveSign(); //wait the interrupt trigger on slave delayMicroseconds(SPI_START_CMD_DELAY); // Send Spi C + cmd spiTransfer(cmd & ~(REPLY_FLAG)); // Send Spi totLen //spiTransfer(totLen); // Send Spi numParam spiTransfer(numParam); // If numParam == 0 send END CMD if (numParam == 0) spiTransfer(END_CMD); } SpiDrv spiDrv;