mrf24j40/mrf24j.cpp

178 lines
5.4 KiB
C++
Raw Blame History

This file contains ambiguous Unicode characters

This file contains Unicode characters that might be confused with other characters. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

/**
* mrf24j.cpp, Karl Palsson, 2011, karlp@tweak.net.au
* modifed bsd license / apache license
*/
#include "WProgram.h"
#include "mrf24j.h"
Mrf24j::Mrf24j(int pin_reset, int pin_chip_select, int pin_interrupt) {
_pin_reset = pin_reset;
_pin_cs = pin_chip_select;
_pin_int = pin_interrupt;
pinMode(_pin_reset, OUTPUT);
pinMode(_pin_cs, OUTPUT);
pinMode(_pin_int, INPUT);
SPI.begin();
// arguably should not be here...
reset();
init();
}
void Mrf24j::reset(void) {
digitalWrite(_pin_reset, LOW);
delay(10); // just my gut
digitalWrite(_pin_reset, HIGH);
delay(20); // from manual
}
byte Mrf24j::read_short(byte address) {
digitalWrite(_pin_cs, LOW);
// 0 top for short addressing, 0 bottom for read
SPI.transfer(address<<1 & 0b01111110);
byte ret = SPI.transfer(0x0);
digitalWrite(_pin_cs, HIGH);
return ret;
}
byte Mrf24j::read_long(word address) {
digitalWrite(_pin_cs, LOW);
byte ahigh = address >> 3;
byte alow = address << 5;
SPI.transfer(0x80 | ahigh); // high bit for long
SPI.transfer(alow);
byte ret = SPI.transfer(0);
digitalWrite(_pin_cs, HIGH);
return ret;
}
void Mrf24j::write_short(byte address, byte data) {
digitalWrite(_pin_cs, LOW);
// 0 for top address, 1 bottom for write
SPI.transfer((address<<1 & 0b01111110) | 0x01);
SPI.transfer(data);
digitalWrite(_pin_cs, HIGH);
}
void Mrf24j::write_long(word address, byte data) {
digitalWrite(_pin_cs, LOW);
byte ahigh = address >> 3;
byte alow = address << 5;
SPI.transfer(0x80 | ahigh); // high bit for long
SPI.transfer(alow | 0x10); // last bit for write
SPI.transfer(data);
digitalWrite(_pin_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, byte len, char * data) {
int i = 0;
write_long(i++, 9); // header length
write_long(i++, 9+2+len); //+2 is because module seems to ignore 2 bytes after the header?!
// 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
i+=2; // All testing seems to indicate that the next two bytes are ignored.
for (int q = 0; q < len; q++) {
write_long(i++, data[q]);
}
// ack on, and go!
write_short(MRF_TXNCON, (1<<MRF_TXNACKREQ | 1<<MRF_TXNTRIG));
}
void Mrf24j::set_interrupts(void) {
// interrupts for rx and tx normal complete
write_short(MRF_INTCON, 0b11110110);
}
/** use the 802.15.4 channel numbers..
*/
void Mrf24j::set_channel(byte channel) {
write_long(MRF_RFCON0, (((channel - 11) << 4) | 0x03));
}
void Mrf24j::init(void) {
/*
// Seems a bit ridiculous when I use reset pin anyway
write_short(MRF_SOFTRST, 0x7); // from manual
while (read_short(MRF_SOFTRST) & 0x7 != 0) {
; // wait for soft reset to finish
}
*/
write_short(MRF_PACON2, 0x98); // Initialize FIFOEN = 1 and TXONTS = 0x6.
write_short(MRF_TXSTBL, 0x95); // Initialize RFSTBL = 0x9.
write_long(MRF_RFCON0, 0x03); // Initialize RFOPT = 0x03.
write_long(MRF_RFCON1, 0x01); // Initialize VCOOPT = 0x02.
write_long(MRF_RFCON2, 0x80); // Enable PLL (PLLEN = 1).
write_long(MRF_RFCON6, 0x90); // Initialize TXFIL = 1 and 20MRECVR = 1.
write_long(MRF_RFCON7, 0x80); // Initialize SLPCLKSEL = 0x2 (100 kHz Internal oscillator).
write_long(MRF_RFCON8, 0x10); // Initialize RFVCO = 1.
write_long(MRF_SLPCON1, 0x21); // Initialize CLKOUTEN = 1 and SLPCLKDIV = 0x01.
// Configuration for nonbeacon-enabled devices (see Section 3.8 “Beacon-Enabled and
// Nonbeacon-Enabled Networks”):
write_short(MRF_BBREG2, 0x80); // Set CCA mode to ED
write_short(MRF_CCAEDTH, 0x60); // Set CCA ED threshold.
write_short(MRF_BBREG6, 0x40); // Set appended RSSI value to RXFIFO.
set_interrupts();
set_channel(12);
// max power is by default.. just leave it...
//Set transmitter power - See “REGISTER 2-62: RF CONTROL 3 REGISTER (ADDRESS: 0x203)”.
write_short(MRF_RFCTL, 0x04); // Reset RF state machine.
write_short(MRF_RFCTL, 0x00); // part 2
delay(1); // delay at least 192usec
}
void Mrf24j::set_promiscuous(boolean enabled) {
if (enabled) {
write_short(MRF_RXMCR, 0x01);
} else {
write_short(MRF_RXMCR, 0x00);
}
}