/* hrf69.c 03/04/2016 D.J.Whale * * Hope RF RFM69 radio controller low level register interface. */ #include <stdlib.h> #include "system.h" #include "hrfm69.h" #include "spi.h" #include "trace.h" #include "gpio.h" /*---------------------------------------------------------------------------*/ // Write an 8 bit value to a register void HRF_writereg(uint8_t addr, uint8_t data) { TRACE_OUTS("writereg "); TRACE_OUTN(addr); TRACE_OUTC(' '); TRACE_OUTN(data); TRACE_NL(); spi_select(); spi_byte(addr | HRF_MASK_WRITE_DATA); spi_byte(data); spi_deselect(); } /*---------------------------------------------------------------------------*/ // Read an 8 bit value from a register uint8_t HRF_readreg(uint8_t addr) { uint8_t result; spi_select(); spi_byte(addr); result = spi_byte(0x00); spi_deselect(); return result; } /*---------------------------------------------------------------------------*/ // Write all bytes in buf to the payload FIFO, in a single burst void HRF_writefifo_burst(uint8_t* buf, uint8_t len) { spi_select(); spi_byte(HRF_ADDR_FIFO | HRF_MASK_WRITE_DATA); spi_frame(buf, NULL, len); spi_deselect(); } /*---------------------------------------------------------------------------*/ // Read bytes from FIFO in burst mode. // Never reads more than buflen bytes // First received byte is the count of remaining bytes // That byte is also returned in the user buffer. // Note the user buffer can be > FIFO_MAX, but there is no flow control // in the HRF driver yet, so you might get an underflow error if data is read // quicker than it comes in on-air. You might get an overflow error if // data comes in quicker than it is read. HRF_RESULT HRF_readfifo_burst_cbp(uint8_t* buf, uint8_t buflen) { uint8_t data; spi_select(); /* Read the first byte, and then decide how many remaining bytes to receive */ data = spi_byte(ADDR_FIFO); *(buf++) = data; /* the count byte is always returned as first byte of user buffer */ /* Validate the payload len against the supplied user buffer */ if (data > buflen) { spi_deselect(); return HRF_RESULT_ERR_BUFFER_TOO_SMALL; } buflen = data; /* now the expected payload length */ while (buflen != 0) { data = spi_byte(ADDR_FIFO); *(buf++) = data; buflen--; } spi_deselect(); //TODO: Read irqflags //if underflow, this is an error (reading out too quick) //if overflow, this is an error (not reading out quick enough) //if not empty at end, this is a warning (might be ok, but user might want to clear_fifo after) return HRF_RESULT_OK; } /*---------------------------------------------------------------------------*/ // Read bytes from FIFO in burst mode. // Tries to read exactly buflen bytes HRF_RESULT HRF_readfifo_burst_len(uint8_t* buf, uint8_t buflen) { uint8_t data; spi_select(); while (buflen != 0) { data = spi_byte(ADDR_FIFO); *(buf++) = data; buflen--; } spi_deselect(); //TODO: Read irqflags //if underflow, this is an error (reading out too quick) //if overflow, this is an error (not reading out quick enough) //if not empty at end, this is a warning (might be ok, but user might want to clear_fifo after) return HRF_RESULT_OK; } /*---------------------------------------------------------------------------*/ // Check to see if a register matches a specific value or not HRF_RESULT HRF_checkreg(uint8_t addr, uint8_t mask, uint8_t value) { uint8_t regval = HRF_readreg(addr); if ((regval & mask) == value) { return HRF_RESULT_OK_TRUE; } return HRF_RESULT_OK_FALSE; } /*---------------------------------------------------------------------------*/ // Poll a register until it meets some criteria void HRF_pollreg(uint8_t addr, uint8_t mask, uint8_t value) { if (gpio_sim) { TRACE_OUTS("gpio simulated, bailing early to prevent lockup\n"); return; } while (! HRF_checkreg(addr, mask, value)) { // busy wait //TODO: No timeout or error recovery? Can cause permanent lockup } } /*---------------------------------------------------------------------------*/ // Clear any data in the HRF payload FIFO, by reading until empty void HRF_clear_fifo(void) { //TODO: max fifolen is 66, should bail after that to prevent lockup //especially if radio crashed and SPI always returns stuck flag bit while ((HRF_readreg(HRF_ADDR_IRQFLAGS2) & HRF_MASK_FIFONOTEMPTY) == HRF_MASK_FIFONOTEMPTY) { HRF_readreg(HRF_ADDR_FIFO); } } /***** END OF FILE *****/