Ilya Krylov
1
radio_lr1110.cpp
- Committer:
- Wayne Roberts
- Date:
- 2020-06-01
- Revision:
- 17:5f34cbe2ac53
- Child:
- 21:96db08266089
File content as of revision 17:5f34cbe2ac53:
#include "radio.h"
#ifdef SX1265_H
#include "SPIu.h"
#ifdef TARGET_FF_ARDUINO
SPI spi(D11, D12, D13); // mosi, miso, sclk
//spi, nss, busy, dio9, nreset
SX1265 Radio::radio(spi, D7, D3, D5, A0);
static void initRfSwDIO()
{
/*stat_t stat;*/
uint8_t dioBuf[8];
/* antenna truth table
* V1 V2 port
* 0 0 shutdown
* 1 0 J2 rx RFI
* 0 1 J1 HP tx RFO
* 1 1 J3 LP tx RFO
* DIO5 DIO6
*/
dioBuf[ DIO_en_IDX] = DIO5_BIT | DIO6_BIT;
dioBuf[DIO_stby_IDX] = 0;
dioBuf[ DIO_rx_IDX] = DIO5_BIT;
dioBuf[ DIO_tx_IDX] = DIO5_BIT | DIO6_BIT;
dioBuf[DIO_txhp_IDX] = DIO6_BIT;
dioBuf[DIO_gnss_IDX] = 0;
dioBuf[DIO_wifi_IDX] = 0;
/*stat.word =*/ Radio::radio.xfer(OPCODE_SET_DIO_AS_RFSWITCH, 8, 0, dioBuf);
}
#else
/* declare pins for form-factor */
#error non-ardiuno-form-factor
#endif /* TARGET_FF_ARDUINO */
uint8_t gfsk_pp_buf[9];
uint8_t gfsk_mp_buf[10];
uint8_t lora_pp_buf[6];
uint8_t lora_mp_buf[4];
const RadioEvents_t* RadioEvents;
LowPowerTimer Radio::lpt;
volatile us_timestamp_t Radio::irqAt;
uint8_t Radio::loraTimeoutSymbols;
void Radio::LoRaPacketConfig(unsigned preambleLen, bool fixLen, bool crcOn, bool invIQ)
{
/*stat_t stat;*/
if (radio.getPacketType() != PACKET_TYPE_LORA)
radio.setPacketType(PACKET_TYPE_LORA);
radio.to_big_endian16(preambleLen, lora_pp_buf);
lora_pp_buf[2] = fixLen;
/* lora_pp_buf[3] = set when txing, initialized to zero in Init */
lora_pp_buf[4] = crcOn;
lora_pp_buf[5] = invIQ;
/*stat.word =*/ radio.xfer(OPCODE_SET_PACKET_PARAM, 6, 0, lora_pp_buf);
}
void Radio::set_tx_dbm(int8_t dbm)
{
/*stat_t stat;*/
uint8_t buf[4];
int8_t txpower;
unsigned PaSel, RegPaSupply, PaDutyCycle, PaHPSel;
if (dbm > 20) {
txpower = 22;
PaSel = 1;
RegPaSupply = 1;
PaDutyCycle = 4;
PaHPSel = 7;
} else if (dbm > 17) {
txpower = 22;
PaSel = 1;
RegPaSupply = 1;
PaDutyCycle = 2;
PaHPSel = 7;
} else if (dbm > 15) {
txpower = 22;
PaSel = 1;
RegPaSupply = 1;
PaDutyCycle = 4;
PaHPSel = 3;
} else {
txpower = 14;
PaSel = 0;
RegPaSupply = 0;
if (dbm > 14)
PaDutyCycle = 7;
else if (dbm > 10)
PaDutyCycle = 4;
else
PaDutyCycle = 0;
PaHPSel = 0;
}
buf[0] = PaSel;
buf[1] = RegPaSupply;
buf[2] = PaDutyCycle;
buf[3] = PaHPSel;
/*stat.word =*/ radio.xfer(OPCODE_SET_PA_CONFIG, 4, 0, buf);
buf[0] = txpower;
buf[1] = 4;
/*stat.word =*/ radio.xfer(OPCODE_SET_TXPARAMS, 2, 0, buf);
}
void Radio::SetChannel(unsigned hz)
{
/*stat_t stat;*/
uint8_t buf[4];
radio.to_big_endian32(hz, buf);
/*stat.word =*/ radio.xfer(OPCODE_SET_RF_FREQ_HZ, 4, 0, buf);
}
void Radio::Standby()
{
/*stat_t stat;*/
uint8_t buf = 0; // 0=rc, 1=xosc
/*stat.word =*/ radio.xfer(OPCODE_SET_STANDBY, 1, 0, &buf);
}
void Radio::LoRaModemConfig(unsigned bwKHz, uint8_t sf, uint8_t cr)
{
/*stat_t stat;*/
uint8_t buf[4];
uint8_t ldro = 0;
if (radio.getPacketType() != PACKET_TYPE_LORA)
radio.setPacketType(PACKET_TYPE_LORA);
if (bwKHz > 500)
buf[1] = LORA_BW_1000KHz;
else if (bwKHz > 250)
buf[1] = LORA_BW_500KHz;
else if (bwKHz > 125) {
buf[1] = LORA_BW_250KHz;
} else if (bwKHz > 80) {
buf[1] = LORA_BW_125KHz;
if (sf > 11)
ldro = 1;
} else if (bwKHz > 16) {
buf[1] = LORA_BW_31_25KHz;
if (sf > 10)
ldro = 1;
} else if (bwKHz > 8) {
buf[1] = LORA_BW_15_6KHz;
if (sf > 9)
ldro = 1;
} else {
buf[1] = LORA_BW_7_8KHz;
if (sf > 8)
ldro = 1;
}
buf[0] = sf;
buf[2] = cr;
buf[3] = ldro;
/*stat.word =*/ radio.xfer(OPCODE_SET_MODULATION, 4, 0, buf);
}
int Radio::Send(uint8_t size, timestamp_t maxListenTime, timestamp_t channelFreeTime, int rssiThresh)
{
/*stat_t stat;*/
uint8_t pktType;
pktType = radio.getPacketType();
if (pktType == PACKET_TYPE_LORA) {
lora_pp_buf[3] = size;
/*stat.word =*/ radio.xfer(OPCODE_SET_PACKET_PARAM, 6, 0, lora_pp_buf);
} else if (pktType == PACKET_TYPE_GFSK) {
gfsk_pp_buf[6] = size;
/*stat.word =*/ radio.xfer(OPCODE_SET_PACKET_PARAM, 9, 0, gfsk_pp_buf);
}
/* TODO: LBT */
radio.start_tx(size);
return 0;
}
void Radio::service()
{
irq_t irq;
irq.dword = radio.service();
if (irq.dword != 0) {
}
}
void Radio::dio9_top_half()
{
irqAt = lpt.read_us();
if (RadioEvents->DioPin_top_half)
RadioEvents->DioPin_top_half();
if (radio.chipMode == CHIPMODE_TX) {
/* TxDone handling requires low latency */
if (RadioEvents->TxDone_topHalf) {
RadioEvents->TxDone_topHalf();
}
} else {
#ifdef RX_INDICATION
RX_INDICATION = 0;
#endif
}
}
void Radio::timeout_callback(bool tx)
{
if (!tx) {
if (RadioEvents->RxTimeout)
RadioEvents->RxTimeout();
} // else TODO tx timeout
}
void Radio::rx_done(uint8_t size, float rssi, float snr)
{
RadioEvents->RxDone(size, rssi, snr);
}
void Radio::txDoneBottom()
{
if (RadioEvents->TxDone_botHalf)
RadioEvents->TxDone_botHalf();
}
void Radio::Init(const RadioEvents_t* e, unsigned spi_hz)
{
/* initialize payload length to zero in packet params */
lora_pp_buf[3] = 0;
gfsk_pp_buf[6] = 0;
radio.txDone = txDoneBottom;
radio.rxDone = rx_done;
radio.timeout = timeout_callback;
//radio.chipModeChange = chipModeChange;
radio.dio9_topHalf = dio9_top_half;
RadioEvents = e;
lpt.start();
spi.frequency(spi_hz);
radio.hw_reset();
initRfSwDIO();
}
void Radio::SetLoRaSymbolTimeout(uint16_t symbs)
{
/*stat_t stat;*/
if (radio.getPacketType() != PACKET_TYPE_LORA)
radio.setPacketType(PACKET_TYPE_LORA);
loraTimeoutSymbols = symbs;
/*stat.word =*/ radio.xfer(OPCODE_SET_LORA_SYNC_TIMEOUT, 1, 0, &loraTimeoutSymbols);
}
void Radio::Rx(unsigned timeout)
{
/*stat_t stat;*/
uint8_t buf[3];
unsigned rx_timeout;
if (radio.getPacketType() == PACKET_TYPE_LORA) {
/*stat.word =*/ radio.xfer(OPCODE_SET_LORA_SYNC_TIMEOUT, 1, 0, &loraTimeoutSymbols);
}
if (timeout == 0)
rx_timeout = 0xffffff; // receive until instructed otherwise
else
rx_timeout = timeout;
radio.to_big_endian24(rx_timeout, buf);
/*stat.word =*/ radio.xfer(OPCODE_SET_RX, 3, 0, buf);
}
#endif /* ..SX126x_H */