SPI library used to communicate with an altera development board attached to four zigbee-header pins.
mmSPI.cpp
- Committer:
- gatedClock
- Date:
- 2013-08-17
- Revision:
- 8:e2d8bbc3e659
- Parent:
- 7:b3e8b537d5c2
- Child:
- 9:0551307e3b15
File content as of revision 8:e2d8bbc3e659:
/*----------------------------------------------//------------------------------ student : m-moore class : external SPI interface directory : mmSPI file : mmSPI.cpp ------------------------------------------------//----------------------------*/ #include "mmSPI.h" /*----------------------------------------------//------------------------------ ------------------------------------------------//----------------------------*/ //==============================================//============================== mmSPI::mmSPI() // constructor. { allocations(); // object allocations. } //----------------------------------------------//------------------------------ mmSPI::~mmSPI() // destructor. { // deallocations. if (pMOSI) {delete pMOSI; pMOSI = NULL;} if (pMISO) {delete pMISO; pMISO = NULL;} if (pSCLK) {delete pSCLK; pSCLK = NULL;} if (pCPUclk) {delete pCPUclk; pCPUclk = NULL;} } //----------------------------------------------//------------------------------ void mmSPI::allocations(void) // object allocations. { pMOSI = new DigitalOut(mmSPI_MOSI); // SPI MOSI pin object. if (!pMOSI) error("\n\r mmSPI::allocations : FATAL malloc error for pMOSI. \n\r"); pMISO = new DigitalOut(mmSPI_MISO); // SPI MISO pin object. if (!pMISO) error("\n\r mmSPI::allocations : FATAL malloc error for pMISO. \n\r"); pSCLK = new DigitalOut(mmSPI_SCLK); // SPI SCLK pin object. if (!pSCLK) error("\n\r mmSPI::allocations : FATAL malloc error for pSCLK. \n\r"); pCPUclk = new DigitalOut(mmCPU_CLK); // SPI SCLK pin object. if (!pCPUclk) error("\n\r mmSPI::allocations : FATAL malloc error for pCPUclk. \n\r"); } //----------------------------------------------//------------------------------ void mmSPI::setSPIfrequency(float fFreq) // set SPI clock frequency. { fSPIfreq = fFreq; // promote to object scope. if (fSPIfreq < .05) // don't get near divide-by-zero. error("\n\r mmSPI::setSPIfrequency : FATAL SPI frequency set too low. \n\r"); fSPIquarterP = (1 / fSPIfreq) / 4; // figure quarter-cycle period. } //----------------------------------------------//------------------------------ // we're not going for speed, so lets go for good setup / hold. // send/receive a byte over SPI. // MSB out/in first. void mmSPI::transceive_byte(char *cReceive, char *cSend) { *cReceive = 0; // clear receive byte. for (cLoop01 = 7; cLoop01 >= 0; cLoop01--)// loop for 8 bits in the byte. { *pSCLK = 0; // SPI clock negedge. wait(fSPIquarterP); // until middle of clock low. *pMOSI = (*cSend >> cLoop01) & 1; // assert MOSI. wait(fSPIquarterP); // MOSI setup time *pSCLK = 1; // SPI clock posedge. wait(fSPIquarterP); // MISO setup time. *cReceive = *cReceive | (*pMISO << cLoop01); wait(fSPIquarterP); // finish-out cycle. } } //----------------------------------------------//------------------------------ // transceive a character array. // limit is 256 characters. // MSB out/in first. void mmSPI::transceive_vector(char *cReceive, char *cSend, char cNumBytes) { for (cLoop02 = (cNumBytes - 1); cLoop02 >= 0; cLoop02--) transceive_byte(&(cReceive[cLoop02]), &(cSend[cLoop02])); } //----------------------------------------------//------------------------------