/** * mrf24j.cpp, Karl Palsson, 2011, karlp@tweak.net.au * modified bsd license / apache license */ #include "mrf24j.h" #include "driver.h" #include #include #include // aMaxPHYPacketSize = 127, from the 802.15.4-2006 standard. static uint8_t rx_buf[127]; // essential for obtaining the data frame only // bytes_MHR = 2 Frame control + 1 sequence number + 2 panid + 2 shortAddr Destination + 2 shortAddr Source static int bytes_MHR = 9; static int bytes_FCS = 2; // FCS length = 2 static int bytes_nodata = bytes_MHR + bytes_FCS; // no_data bytes in PHY payload, header length + FCS static int ignoreBytes = 0; // bytes to ignore, some modules behaviour. static bool bufPHY = false; // flag to buffer all bytes in PHY Payload, or not volatile uint8_t flag_got_rx; volatile uint8_t flag_got_tx; static rx_info_t rx_info; static tx_info_t tx_info; /** * Constructor MRF24J Object. */ Mrf24j::Mrf24j() { driver::init(this); } void Mrf24j::reset(void) { driver::reset(); } void Mrf24j::handlers(void (*rx_handler)(void), void (*tx_handler)(void)) { this->rx_handler = rx_handler; this->tx_handler = tx_handler; } byte Mrf24j::read_short(byte address) { driver::cs_low(); // 0 top for short addressing, 0 bottom for read driver::transfer(address<<1 & 0b01111110); byte ret = driver::transfer(0x00); driver::cs_high(); return ret; } byte Mrf24j::read_long(word address) { driver::cs_low(); byte ahigh = address >> 3; byte alow = address << 5; driver::transfer(0x80 | ahigh); // high bit for long driver::transfer(alow); byte ret = driver::transfer(0); driver::cs_high(); return ret; } void Mrf24j::write_short(byte address, byte data) { driver::cs_low(); // 0 for top short address, 1 bottom for write driver::transfer((address<<1 & 0b01111110) | 0x01); driver::transfer(data); driver::cs_high(); } void Mrf24j::write_long(word address, byte data) { driver::cs_low(); byte ahigh = address >> 3; byte alow = address << 5; driver::transfer(0x80 | ahigh); // high bit for long driver::transfer(alow | 0x10); // last bit for write driver::transfer(data); driver::cs_high(); } word Mrf24j::get_pan(void) { byte panh = read_short(MRF_PANIDH); return panh << 8 | read_short(MRF_PANIDL); } void Mrf24j::set_pan(word panid) { write_short(MRF_PANIDH, panid >> 8); write_short(MRF_PANIDL, panid & 0xff); } void Mrf24j::address16_write(word address16) { write_short(MRF_SADRH, address16 >> 8); write_short(MRF_SADRL, address16 & 0xff); } word Mrf24j::address16_read(void) { byte a16h = read_short(MRF_SADRH); return a16h << 8 | read_short(MRF_SADRL); } /** * Simple send 16, with acks, not much of anything.. assumes src16 and local pan only. * @param data */ void Mrf24j::send16(word dest16, char * data) { byte len = strlen(data); // get the length of the char* array int i = 0; write_long(i++, bytes_MHR); // header length // +ignoreBytes is because some module seems to ignore 2 bytes after the header?!. // default: ignoreBytes = 0; write_long(i++, bytes_MHR+ignoreBytes+len); // 0 | pan compression | ack | no security | no data pending | data frame[3 bits] write_long(i++, 0b01100001); // first byte of Frame Control // 16 bit source, 802.15.4 (2003), 16 bit dest, write_long(i++, 0b10001000); // second byte of frame control write_long(i++, 1); // sequence number 1 word panid = get_pan(); write_long(i++, panid & 0xff); // dest panid write_long(i++, panid >> 8); write_long(i++, dest16 & 0xff); // dest16 low write_long(i++, dest16 >> 8); // dest16 high word src16 = address16_read(); write_long(i++, src16 & 0xff); // src16 low write_long(i++, src16 >> 8); // src16 high // All testing seems to indicate that the next two bytes are ignored. //2 bytes on FCS appended by TXMAC i+=ignoreBytes; for (int q = 0; q < len; q++) { write_long(i++, data[q]); } // ack on, and go! write_short(MRF_TXNCON, (1<> 6; tx_info.channel_busy = (tmp & (1 << CCAFAIL)); } } /** * Call this function periodically, it will invoke your nominated handlers */ void Mrf24j::check_flags(){ // TODO - we could check whether the flags are > 1 here, indicating data was lost? if (flag_got_rx) { flag_got_rx = 0; this->rx_handler(); } if (flag_got_tx) { flag_got_tx = 0; this->tx_handler(); } } /** * Set RX mode to promiscuous, or normal */ void Mrf24j::set_promiscuous(boolean enabled) { if (enabled) { write_short(MRF_RXMCR, 0x01); } else { write_short(MRF_RXMCR, 0x00); } } rx_info_t * Mrf24j::get_rxinfo(void) { return &rx_info; } tx_info_t * Mrf24j::get_txinfo(void) { return &tx_info; } uint8_t * Mrf24j::get_rxbuf(void) { return rx_buf; } int Mrf24j::rx_datalength(void) { return rx_info.frame_length - bytes_nodata; } void Mrf24j::set_ignoreBytes(int ib) { // some modules behaviour ignoreBytes = ib; } /** * Set bufPHY flag to buffer all bytes in PHY Payload, or not */ void Mrf24j::set_bufferPHY(boolean bp) { bufPHY = bp; } boolean Mrf24j::get_bufferPHY(void) { return bufPHY; } /** * Set PA/LNA external control */ void Mrf24j::set_palna(boolean enabled) { if (enabled) { write_long(MRF_TESTMODE, 0x07); // Enable PA/LNA on MRF24J40MB module. }else{ write_long(MRF_TESTMODE, 0x00); // Disable PA/LNA on MRF24J40MB module. } } void Mrf24j::rx_flush(void) { write_short(MRF_RXFLUSH, 0x01); } void Mrf24j::rx_disable(void) { write_short(MRF_BBREG1, 0x04); // RXDECINV - disable receiver } void Mrf24j::rx_enable(void) { write_short(MRF_BBREG1, 0x00); // RXDECINV - enable receiver } void Mrf24j::enable_wake() { write_short(MRF_RXFLUSH, 0x60); // Enable WAKE pin and set polarity to active-high write_short(MRF_WAKECON, 0x80); // Enable Immediate Wake-up mode } void Mrf24j::sleep() { write_short(MRF_SOFTRST, 0x04); // Perform a Power Management Reset write_short(MRF_SLPACK, 0x80); // Put MRF24J40 to Sleep immediately } void Mrf24j::wake() { driver::wake(); write_short(MRF_RFCTL, 0x04); // RF State Machine reset write_short(MRF_RFCTL, 0x00); _delay_ms(2); // Delay 2 ms to allow 20 MHz main oscillator time to stabilize before transmitting or receiving. } void Mrf24j::turbo() { write_short(MRF_BBREG0, 0x01); write_short(MRF_BBREG3, (1<<5)|(1<<4)); write_short(MRF_BBREG4, (1<<6)); write_short(MRF_SOFTRST, (1<<1)); } void Mrf24j::set_power(byte level) { write_short(MRF_RFCON3, level); }