david.tahir/QuadMeUp_Crossbow
1
0
Fork 0
Code Issues Pull Requests Releases Wiki Activity
Files
c409214de846bedf0582bc35b4da2f7f97116c46
QuadMeUp_Crossbow/crossbow.ino
Pawel Spychalski (DzikuVx) c409214de8 updated SNR scaling
2017-10-25 22:03:54 +02:00

397 lines
8.7 KiB
C++
Raw Blame History

#define LORA_HARDWARE_SPI
// #define DEVICE_MODE_TX
#define DEVICE_MODE_RX
#define FEATURE_TX_OLED
// #define DEBUG_SERIAL
#define DEBUG_PING_PONG
// #define DEBUG_LED
// #define WAIT_FOR_SERIAL
#include <LoRa.h>
// #include <PinChangeInterrupt.h>
#include "variables.h"
#include "sbus.h"
#include "qsp.h"
// LoRa32u4 ports
#define LORA32U4_SS_PIN 8
#define LORA32U4_RST_PIN 4
#define LORA32U4_DI0_PIN 7
int ppm[16] = {0};
/*
* Main defines for device working in TX mode
*/
#ifdef DEVICE_MODE_TX
#include <PPMReader.h>
PPMReader ppmReader(PPM_INPUT_PIN, PPM_INPUT_INTERRUPT, true);
#ifdef FEATURE_TX_OLED
#define OLED_RESET -1
#include <Adafruit_SSD1306.h>
Adafruit_SSD1306 display(OLED_RESET);
uint32_t lastOledTaskTime = 0;
#endif
#endif
/*
* Main defines for device working in RX mode
*/
#ifdef DEVICE_MODE_RX
uint32_t sbusTime = 0;
uint8_t sbusPacket[SBUS_PACKET_LENGTH] = {0};
uint32_t lastRxStateTaskTime = 0;
#endif
/*
* Start of QSP protocol implementation
*/
QspConfiguration_t qsp = {};
RxDeviceState_t rxDeviceState = {};
#ifdef LORA_HARDWARE_SPI
uint8_t getRadioRssi(void)
{
//Map from -164:0 to 0:255
return map(constrain(LoRa.packetRssi() * -1, 0, 164), 0, 164, 255, 0);
}
float getRadioSnr(void)
{
return (uint8_t) constrain(LoRa.packetSnr(), 0, 255);
}
void radioPacketStart(void)
{
LoRa.beginPacket();
}
void radioPacketEnd(void)
{
LoRa.endPacket();
//After ending packet, put device into receive mode again
LoRa.receive();
}
void writeToRadio(uint8_t dataByte, QspConfiguration_t *qsp)
{
//Compute CRC
qspComputeCrc(qsp, dataByte);
//Write to radio
LoRa.write(dataByte);
}
#endif
/*
display.clearDisplay();
display.setCursor(0,0);
display.print("Lat:");
display.print(remoteData.latitude);
display.display();
*/
void setup(void)
{
#ifdef DEBUG_SERIAL
Serial.begin(115200);
#endif
qsp.hardwareWriteFunction = writeToRadio;
#ifdef DEVICE_MODE_RX
qsp.deviceState = DEVICE_STATE_FAILSAFE;
#else
qsp.deviceState = DEVICE_STATE_OK;
#endif
#ifdef LORA_HARDWARE_SPI
#ifdef WAIT_FOR_SERIAL
while (!Serial) {
; // wait for serial port to connect. Needed for native USB
}
#endif
/*
* Setup hardware
*/
LoRa.setPins(
LORA32U4_SS_PIN,
LORA32U4_RST_PIN,
LORA32U4_DI0_PIN
);
if (!LoRa.begin(868E6))
{
#ifdef DEBUG_SERIAL
Serial.println("LoRa init failed. Check your connections.");
#endif
while (true);
}
LoRa.setSignalBandwidth(250E3);
LoRa.setSpreadingFactor(7);
LoRa.setCodingRate4(5);
LoRa.onReceive(onReceive);
LoRa.receive();
#endif
#ifdef DEVICE_MODE_RX
//initiallize default ppm values
for (int i = 0; i < 16; i++)
{
ppm[i] = PPM_CHANNEL_DEFAULT_VALUE;
}
pinMode(RX_ADC_PIN_1, INPUT);
pinMode(RX_ADC_PIN_2, INPUT);
pinMode(RX_ADC_PIN_3, INPUT);
Serial1.begin(100000, SERIAL_8E2);
#endif
#ifdef DEVICE_MODE_TX
TCCR1A = 0; //reset timer1
TCCR1B = 0;
TCCR1B |= (1 << CS11); //set timer1 to increment every 0,5 us or 1us on 8MHz
#ifdef FEATURE_TX_OLED
display.begin(SSD1306_SWITCHCAPVCC, 0x3C); // initialize with the I2C addr 0x3C (for the 128x32)
display.setTextSize(1);
display.setTextColor(WHITE);
display.clearDisplay();
display.display();
#endif
#endif
pinMode(LED_BUILTIN, OUTPUT);
/*
* TX should start talking imediately after power up
*/
#ifdef DEVICE_MODE_TX
qsp.canTransmit = true;
#endif
#ifdef DEBUG_SERIAL
qsp.debugConfig |= DEBUG_FLAG_SERIAL;
#endif
#ifdef DEBUG_LED
qsp.debugConfig |= DEBUG_FLAG_LED;
#endif
}
#ifdef DEVICE_MODE_RX
void updateRxDeviceState(RxDeviceState_t *rxDeviceState) {
rxDeviceState->rxVoltage = map(analogRead(RX_ADC_PIN_1), 0, 1024, 0, 255);
rxDeviceState->a1Voltage = map(analogRead(RX_ADC_PIN_2), 0, 1024, 0, 255);
rxDeviceState->a2Voltage = map(analogRead(RX_ADC_PIN_3), 0, 1024, 0, 255);
rxDeviceState->rssi = getRadioRssi();
rxDeviceState->snr = getRadioSnr();
}
#endif
void loop(void)
{
uint32_t currentMillis = millis();
bool transmitPayload = false;
/*
* Watchdog for frame decoding stuck somewhere in the middle of a process
*/
if (
qsp.protocolState != QSP_STATE_IDLE &&
abs(currentMillis - qsp.frameDecodingStartedAt) > QSP_MAX_FRAME_DECODE_TIME
) {
qsp.protocolState = QSP_STATE_IDLE;
}
if (
qsp.forcePongFrame &&
!transmitPayload &&
qsp.protocolState == QSP_STATE_IDLE
)
{
qsp.forcePongFrame = false;
qsp.lastFrameTransmitedAt[QSP_FRAME_PONG] = currentMillis;
qsp.frameToSend = QSP_FRAME_PONG;
transmitPayload = true;
}
#ifdef DEVICE_MODE_TX
#ifdef FEATURE_TX_OLED
if (
currentMillis - lastOledTaskTime > OLED_UPDATE_RATE
) {
lastOledTaskTime = currentMillis;
display.clearDisplay();
display.setTextColor(WHITE, BLACK);
display.setCursor(0, 0);
display.print("TX RSSI: ");
display.print(map(getRadioRssi(), 0, 255, 0, 100));
display.setCursor(0, 12);
display.print("TX SNR: ");
display.print(getRadioSnr());
display.setCursor(0, 24);
display.print("RX RSSI: ");
display.print(map(rxDeviceState.rssi, 0, 255, 0, 100));
display.setCursor(0, 36);
display.print("RX SNR: ");
display.print(rxDeviceState.snr);
display.setCursor(0, 46);
display.print("Roundtrip: ");
display.print(rxDeviceState.roundtrip);
display.display();
}
#endif
#ifdef DEBUG_PING_PONG
//PING frame
if (
currentMillis - qsp.lastFrameTransmitedAt[QSP_FRAME_PING] > TX_PING_RATE &&
!transmitPayload &&
qsp.protocolState == QSP_STATE_IDLE
)
{
qsp.lastFrameTransmitedAt[QSP_FRAME_PING] = currentMillis;
qspClearPayload(&qsp);
encodePingPayload(&qsp, micros());
qsp.frameToSend = QSP_FRAME_PING;
transmitPayload = true;
}
#endif
/*
* RC_DATA QSP frame
*/
if (
currentMillis - qsp.lastFrameTransmitedAt[QSP_FRAME_RC_DATA] > TX_RC_FRAME_RATE &&
!transmitPayload &&
qsp.protocolState == QSP_STATE_IDLE &&
ppmReader.isReceiving()
)
{
qsp.lastFrameTransmitedAt[QSP_FRAME_RC_DATA] = currentMillis;
qspClearPayload(&qsp);
encodeRcDataPayload(&qsp, &ppmReader, PPM_INPUT_CHANNEL_COUNT);
qsp.frameToSend = QSP_FRAME_RC_DATA;
transmitPayload = true;
}
#endif
#ifdef DEVICE_MODE_RX
if (currentMillis > sbusTime) {
sbusPreparePacket(sbusPacket, ppm, false, (qsp.deviceState == DEVICE_STATE_FAILSAFE));
Serial1.write(sbusPacket, SBUS_PACKET_LENGTH);
sbusTime = currentMillis + SBUS_UPDATE_RATE;
}
/*
* This routine updates RX device state and updates one of radio channels with RSSI value
*/
if (currentMillis - lastRxStateTaskTime > RX_TASK_HEALTH) {
lastRxStateTaskTime = currentMillis;
updateRxDeviceState(&rxDeviceState);
ppm[RSSI_CHANNEL - 1] = map(rxDeviceState.rssi, 0, 255, 1000, 2000);
if (qsp.deviceState == DEVICE_STATE_FAILSAFE) {
digitalWrite(LED_BUILTIN, HIGH);
} else {
digitalWrite(LED_BUILTIN, !digitalRead(LED_BUILTIN));
}
}
/*
* RX_HEALTH QSP frame
*/
if (
currentMillis - qsp.lastFrameTransmitedAt[QSP_FRAME_RX_HEALTH] > RX_RX_HEALTH_FRAME_RATE &&
!transmitPayload &&
qsp.protocolState == QSP_STATE_IDLE
)
{
qsp.lastFrameTransmitedAt[QSP_FRAME_RX_HEALTH] = currentMillis;
qspClearPayload(&qsp);
encodeRxHealthPayload(&qsp, &rxDeviceState);
qsp.frameToSend = QSP_FRAME_RX_HEALTH;
transmitPayload = true;
}
#endif
if (qsp.canTransmit && transmitPayload)
{
radioPacketStart();
qspEncodeFrame(&qsp);
radioPacketEnd();
#ifdef DEBUG_LED
digitalWrite(LED_BUILTIN, HIGH);
delay(10);
digitalWrite(LED_BUILTIN, LOW);
delay(70);
digitalWrite(LED_BUILTIN, HIGH);
delay(10);
digitalWrite(LED_BUILTIN, LOW);
#endif
transmitPayload = false;
}
/*
* Here we do state handling and similar operations
*/
#ifdef DEVICE_MODE_RX
if (abs(currentMillis - qsp.lastFrameReceivedAt[QSP_FRAME_RC_DATA]) > RX_FAILSAFE_DELAY) {
qsp.deviceState = DEVICE_STATE_FAILSAFE;
} else {
qsp.deviceState = DEVICE_STATE_OK;
}
#endif
}
#ifdef LORA_HARDWARE_SPI
void onReceive(int packetSize)
{
if (packetSize == 0)
return;
while (LoRa.available())
{
qspDecodeIncomingFrame(&qsp, LoRa.read(), ppm, &rxDeviceState);
}
}
#endif
Reference in New Issue View Git Blame Copy Permalink