Erik Fountain
/
SX127x
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SX127x
by 
wayne roberts
sx127x_fsk.cpp
- Committer:
- dudmuck
- Date:
- 2014-05-02
- Revision:
- 3:3bf2515b1eed
- Parent:
- 2:fdae76e1215e
- Child:
- 4:d987ac2836bf
File content as of revision 3:3bf2515b1eed:
#include "sx127x_fsk.h"
/* SX127x driver
* Copyright (c) 2013 Semtech
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
SX127x_fsk::SX127x_fsk(SX127x& r) : m_xcvr(r)
{
}
SX127x_fsk::~SX127x_fsk()
{
}
void SX127x_fsk::write_fifo(uint8_t len)
{
int i;
m_xcvr.m_cs = 0;
m_xcvr.m_spi.write(REG_FIFO | 0x80); // bit7 is high for writing to radio
if (!m_xcvr.RegOpMode.bits.LongRangeMode && RegPktConfig1.bits.PacketFormatVariable) {
m_xcvr.m_spi.write(len);
}
for (i = 0; i < len; i++) {
m_xcvr.m_spi.write(m_xcvr.tx_buf[i]);
}
m_xcvr.m_cs = 1;
}
void SX127x_fsk::enable()
{
m_xcvr.set_opmode(RF_OPMODE_SLEEP);
m_xcvr.RegOpMode.bits.LongRangeMode = 0;
m_xcvr.write_reg(REG_OPMODE, m_xcvr.RegOpMode.octet);
wait(0.01);
RegPktConfig1.octet = m_xcvr.read_reg(REG_FSK_PACKETCONFIG1);
RegPktConfig2.word = m_xcvr.read_u16(REG_FSK_PACKETCONFIG2);
RegRxConfig.octet = m_xcvr.read_u16(REG_FSK_RXCONFIG);
RegPreambleDetect.octet = m_xcvr.read_reg(REG_FSK_PREAMBLEDETECT);
RegSyncConfig.octet = m_xcvr.read_reg(REG_FSK_SYNCCONFIG);
RegFifoThreshold.octet = m_xcvr.read_reg(REG_FSK_FIFOTHRESH);
RegAfcFei.octet = m_xcvr.read_reg(REG_FSK_AFCFEI);
if (!RegFifoThreshold.bits.TxStartCondition) {
RegFifoThreshold.bits.TxStartCondition = 1; // start TX on fifoEmpty==0
m_xcvr.write_reg(REG_FSK_FIFOTHRESH, RegFifoThreshold.octet);
}
if (RegSyncConfig.bits.AutoRestartRxMode != 1) {
RegSyncConfig.bits.AutoRestartRxMode = 1;
m_xcvr.write_reg(REG_FSK_SYNCCONFIG, RegSyncConfig.octet);
}
if (RegPreambleDetect.bits.PreambleDetectorTol != 10) {
RegPreambleDetect.bits.PreambleDetectorTol = 10;
m_xcvr.write_reg(REG_FSK_PREAMBLEDETECT, RegPreambleDetect.octet);
}
m_xcvr.set_opmode(RF_OPMODE_STANDBY);
}
uint32_t SX127x_fsk::ComputeRxBw( uint8_t mantisse, uint8_t exponent )
{
// rxBw
if (m_xcvr.RegOpMode.bits.ModulationType == 0)
return XTAL_FREQ / (mantisse * (1 << (exponent+2)));
else
return XTAL_FREQ / (mantisse * (1 << (exponent+3)));
}
void SX127x_fsk::ComputeRxBwMantExp( uint32_t rxBwValue, uint8_t* mantisse, uint8_t* exponent )
{
uint8_t tmpExp, tmpMant;
double tmpRxBw;
double rxBwMin = 10e6;
for( tmpExp = 0; tmpExp < 8; tmpExp++ ) {
for( tmpMant = 16; tmpMant <= 24; tmpMant += 4 ) {
tmpRxBw = ComputeRxBw(tmpMant, tmpExp);
if( fabs( tmpRxBw - rxBwValue ) < rxBwMin ) {
rxBwMin = fabs( tmpRxBw - rxBwValue );
*mantisse = tmpMant;
*exponent = tmpExp;
}
}
}
}
uint32_t SX127x_fsk::get_rx_bw_hz(uint8_t addr)
{
RegRxBw_t reg_bw;
uint8_t mantissa;
if (m_xcvr.RegOpMode.bits.LongRangeMode)
return 0;
reg_bw.octet = m_xcvr.read_reg(addr);
switch (reg_bw.bits.Mantissa) {
case 0: mantissa = 16; break;
case 1: mantissa = 20; break;
case 2: mantissa = 24; break;
default: mantissa = 0; break;
}
if (addr == REG_FSK_RXBW)
RegRxBw.octet = reg_bw.octet;
else if (addr == REG_FSK_AFCBW)
RegAfcBw.octet = reg_bw.octet;
return ComputeRxBw(mantissa, reg_bw.bits.Exponent);
}
void SX127x_fsk::set_rx_dcc_bw_hz(uint32_t bw_hz, char afc)
{
uint8_t mantisse = 0;
uint8_t exponent = 0;
if (m_xcvr.RegOpMode.bits.LongRangeMode)
return;
ComputeRxBwMantExp( bw_hz, &mantisse, &exponent );
//printf("bw_hz:%d, mantisse:%d, exponent:%d\n", bw_hz, mantisse, exponent );
switch( mantisse ) {
case 16:
RegRxBw.bits.Mantissa = 0;
break;
case 20:
RegRxBw.bits.Mantissa = 1;
break;
case 24:
RegRxBw.bits.Mantissa = 2;
break;
default:
// Something went terribely wrong
printf("maintisse:%d\n", mantisse);
break;
}
RegRxBw.bits.Exponent = exponent;
if (afc)
m_xcvr.write_reg(REG_FSK_AFCBW, RegRxBw.octet);
else
m_xcvr.write_reg(REG_FSK_RXBW, RegRxBw.octet);
}
void SX127x_fsk::start_tx(uint16_t arg_len)
{
uint16_t pkt_buf_len;
RegIrqFlags2_t RegIrqFlags2;
int maxlen = FSK_FIFO_SIZE-1;
if (m_xcvr.RegOpMode.bits.Mode == RF_OPMODE_RECEIVER) {
m_xcvr.set_opmode(RF_OPMODE_STANDBY);
}
if (m_xcvr.RegDioMapping1.bits.Dio0Mapping != 0) {
m_xcvr.RegDioMapping1.bits.Dio0Mapping = 0;
m_xcvr.write_reg(REG_DIOMAPPING1, m_xcvr.RegDioMapping1.octet);
}
if (RegPktConfig1.bits.PacketFormatVariable) {
pkt_buf_len = arg_len;
} else {
pkt_buf_len = RegPktConfig2.bits.PayloadLength;
printf("fixed-fmt %d\r\n", pkt_buf_len);
}
RegIrqFlags2.octet = m_xcvr.read_reg(REG_FSK_IRQFLAGS2);
if (RegIrqFlags2.bits.FifoEmpty) {
if (RegPktConfig1.bits.PacketFormatVariable) {
--maxlen; // space for length byte
if (pkt_buf_len > maxlen) {
/*setup_FifoLevel(FALLING_EDGE);
radio_write_fifo_(pkt_buf, maxlen, pkt_buf_len);
remaining_ = pkt_buf_len - maxlen;
printf("var-oversized %d R=%d\r\n", pkt_buf_len, remaining_);*/
printf("var-oversized %d\r\n", pkt_buf_len);
} else {
//setup_FifoLevel(NO_EDGE); // disable
write_fifo(pkt_buf_len);
//remaining_ = 0; // all was sent
}
} else { // fixed-length pkt format...
pkt_buf_len = RegPktConfig2.bits.PayloadLength;
if (RegPktConfig2.bits.PayloadLength > maxlen) {
/*setup_FifoLevel(FALLING_EDGE);
radio_write_fifo_(pkt_buf, maxlen, -1);
remaining_ = SX1272FSK->RegPktConfig2.bits.PayloadLength - maxlen;*/
printf("todo: fsk large packet\r\n");
} else {
//setup_FifoLevel(NO_EDGE); // disable
printf("fixed-write-fifo %d\r\n", RegPktConfig2.bits.PayloadLength);
write_fifo(RegPktConfig2.bits.PayloadLength);
}
}
} else
printf("fifo not empty %02x\r\n", RegIrqFlags2.octet);
m_xcvr.set_opmode(RF_OPMODE_TRANSMITTER);
}
void SX127x_fsk::config_dio0_for_pktmode_rx()
{
if (RegPktConfig1.bits.CrcOn) {
if (m_xcvr.RegDioMapping1.bits.Dio0Mapping != 1) {
m_xcvr.RegDioMapping1.bits.Dio0Mapping = 1; // to CrcOk
m_xcvr.write_reg(REG_DIOMAPPING1, m_xcvr.RegDioMapping1.octet);
}
} else { // Crc Off, use PayloadReady
if (m_xcvr.RegDioMapping1.bits.Dio0Mapping != 0) {
m_xcvr.RegDioMapping1.bits.Dio0Mapping = 0; // to PayloadReady
m_xcvr.write_reg(REG_DIOMAPPING1, m_xcvr.RegDioMapping1.octet);
}
}
}
void SX127x_fsk::start_rx()
{
if (m_xcvr.RegOpMode.bits.LongRangeMode)
return;
if (m_xcvr.RegOpMode.bits.Mode == RF_OPMODE_RECEIVER) {
// was already receiving, restart it
m_xcvr.set_opmode(RF_OPMODE_STANDBY);
wait(0.01);
}
config_dio0_for_pktmode_rx();
m_xcvr.set_opmode(RF_OPMODE_RECEIVER);
}
service_action_e SX127x_fsk::service()
{
int i;
if (m_xcvr.RegOpMode.bits.Mode == RF_OPMODE_TRANSMITTER) {
if (m_xcvr.dio0) {
m_xcvr.set_opmode(RF_OPMODE_STANDBY);
return SERVICE_TX_DONE;
}
} else if (m_xcvr.RegOpMode.bits.Mode == RF_OPMODE_RECEIVER && m_xcvr.dio0) {
if (RegRxConfig.bits.AfcAutoOn)
RegAfcValue = m_xcvr.read_s16(REG_FSK_AFCMSB);
if (RegPktConfig1.bits.PacketFormatVariable) {
rx_buf_length = m_xcvr.read_reg(REG_FIFO);
} else {
rx_buf_length = RegPktConfig2.bits.PayloadLength;
}
m_xcvr.m_cs = 0;
m_xcvr.m_spi.write(REG_FIFO); // bit7 is low for reading from radio
for (i = 0; i < rx_buf_length; i++) {
m_xcvr.rx_buf[i] = m_xcvr.m_spi.write(0);
}
m_xcvr.m_cs = 1;
return SERVICE_READ_FIFO;
}
return SERVICE_NONE;
}