CubeCellRepeater/main.cpp

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/*
COPYRIGHT NOTICE
This work is based on the Factory_test examples, found here: https://github.com/HelTecAutomation/ASR650x-Arduino/tree/master/libraries/Basics/examples
so the copyright for this code belongs to Heltec Automation.
Any additional changes are free-to-use, but at your own risk.
*/
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#include <Arduino.h> // needed for platform.io
#include "mesh.pb.h"
// ToRadio Incoming; // not used right now
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// Radio settings for meshtastic channel "Default" @ "very long range (but slow)". Will not work with other settings or channels.
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// #define RF_FREQUENCY 865200000 // Hz -- see "CH0" in Meshradio.h
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#define TX_OUTPUT_POWER 22 // dBm
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#define LORA_BANDWIDTH 0 // [0: 125 kHz, 1: 250 kHz, 2: 500 kHz, 3: 62.5kHz, 4: 41.67kHz, 5: 31.25kHz, 6: 20.83kHz, 7: 15.63kHz, 8: 10.42kHz, 9: 7.81kHz]
// FYI:
// const RadioLoRaBandwidths_t Bandwidths[] = { LORA_BW_125, LORA_BW_250, LORA_BW_500, LORA_BW_062,LORA_BW_041, LORA_BW_031, LORA_BW_020, LORA_BW_015, LORA_BW_010, LORA_BW_007 };
#define LORA_SPREADING_FACTOR 12 // [SF5..SF12]
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#define LORA_CODINGRATE 4 // [1: 4/5, 2: 4/6, 3: 4/7, 4: 4/8]
#define LORA_PREAMBLE_LENGTH 32 // Same for Tx and Rx
#define LORA_SYMBOL_TIMEOUT 0 // Symbols
#define LORA_FIX_LENGTH_PAYLOAD_ON false
#define LORA_IQ_INVERSION_ON false
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#define LORA_CHAN_NUM 0 // Channel Number (meshtastic specific)
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#define RX_TIMEOUT_VALUE 1000
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#define BUFFER_SIZE 0xFF // max payload (see \cores\asr650x\device\asr6501_lrwan\radio.c --> MaxPayloadLength)
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#define ID_BUFFER_SIZE 32
char mPacket[BUFFER_SIZE];
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#define HW_VERSION_EU865 // define your region _before_ including MeshRadio.h !
#include "MeshRadio.h"
// initializing ChannelSettings with valid data... You can modify it to your settings here. Do not use ModemConfig. Change bw/sf/cr instead!
// "Bandwidth" is the index of the array Bandwidths (see above), not the actual bandwidth! Index is starting with 0.
ChannelSettings_psk_t mPSK; // not used
ChannelSettings ChanSet={ TX_OUTPUT_POWER, ChannelSettings_ModemConfig_Bw125Cr48Sf4096, mPSK, "Default",
LORA_BANDWIDTH, LORA_SPREADING_FACTOR, LORA_CODINGRATE, LORA_CHAN_NUM };
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uint32_t receivedID[ID_BUFFER_SIZE];
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int receivedCount = -1;
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static RadioEvents_t RadioEvents;
void OnTxDone( void );
void OnTxTimeout( void );
void OnRxDone( uint8_t *payload, uint16_t size, int16_t rssi, int8_t snr );
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void ConfigureRadio( ChannelSettings ChanSet );
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typedef enum
{
LOWPOWER,
RX,
TX
}States_t;
States_t state;
int16_t rxSize;
uint32_t x; // re-used variable of type uint32_t, used in onRxDone()
bool found; // used in onRxDone()
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#define NOTSILENT // delete or change to VERBOSE if serial output is needed
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void setup() {
#ifndef SILENT
Serial.begin(115200);
Serial.print("\nSetting up Radio..");
#endif
RadioEvents.TxDone = OnTxDone;
RadioEvents.TxTimeout = OnTxTimeout;
RadioEvents.RxDone = OnRxDone;
Radio.Init( &RadioEvents );
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ConfigureRadio( ChanSet );
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#ifndef SILENT
Serial.println(".done!\n");
#endif
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state=RX; // initial mode = receive
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}
void loop()
{
switch(state)
{
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case TX:
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#ifndef SILENT
Serial.print("Sending packet..");
Serial.printf("(Size: %i)..", rxSize);
#endif
Radio.Send( (uint8_t *)mPacket, rxSize );
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state=LOWPOWER;
break;
case RX:
Radio.Rx( 0 ); // receive mode with no time-out
state=LOWPOWER;
break;
case LOWPOWER:
lowPowerHandler(); // put SoC to sleep, wake-up at LoRa receive
break;
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default:
break;
}
Radio.IrqProcess( );
}
void OnTxDone( void )
{
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#ifndef SILENT
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Serial.println(".done!");
#endif
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state=RX; // switch to receive mode
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}
void OnTxTimeout( void )
{
#ifndef SILENT
Serial.println(".failed! (TX Timeout)");
#endif
Radio.Sleep();
state=RX; // switch to receive mode
}
void OnRxDone( uint8_t *payload, uint16_t size, int16_t rssi, int8_t snr )
{
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( size > BUFFER_SIZE ) ? rxSize = BUFFER_SIZE : rxSize = size;
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memcpy( mPacket, payload, size );
Radio.Sleep();
#ifndef SILENT
Serial.printf("\nReceived packet! (Size %i bytes, RSSI %i, SNR %i)\n", size, rssi, snr);
Serial.print("TO: ");
for(int i=3; i>-1; i--){
Serial.print(mPacket[i], HEX);
}
Serial.print(" FROM: ");
for(int i=7; i>3; i--){
Serial.print(mPacket[i], HEX);
}
Serial.print(" PacketID: ");
for(int i=11; i>7; i--){
Serial.print(mPacket[i], HEX);
}
Serial.print(" Flags: ");
x = mPacket[12];
Serial.print("WANT_ACK=");
if (x > 8) {
Serial.print("YES ");
x -= 8;
}
else Serial.print("NO ");
Serial.printf("HOP_LIMIT=%i", x);
Serial.println();
Serial.print("Payload: ");
for(int i=13; i<size; i++){
Serial.print(mPacket[i], HEX);
Serial.print(" ");
}
Serial.println();
#endif
// uint32_t packetID
x = (uint32_t)mPacket[11]<<24 | (uint32_t)mPacket[10]<<16 | (uint32_t)mPacket[9]<<8 | (uint32_t)mPacket[8];
found = false;
for(int i = 0; i < ID_BUFFER_SIZE; i++){
if (receivedID[i] == x) found = true;
}
if (!found){
state=TX; // will repeat package
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(receivedCount < (ID_BUFFER_SIZE - 1) ) ? receivedCount++ : receivedCount = 0; // if counter = max, overwrite first entry in list, reset counter
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receivedID[receivedCount] = x; // add ID to received list
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}
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else{
#ifndef SILENT
Serial.println("PacketID known, will not repeat again.");
#endif
state = RX; // wait for new package
}
}
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void ConfigureRadio( ChannelSettings ChanSet )
{
uint32_t freq = (CH0 + CH_SPACING * ChanSet.channel_num)*1E6;
Serial.printf("\nSetting frequency to: %i ..",freq );
Radio.SetChannel( freq );
Radio.SetTxConfig( MODEM_LORA, TX_OUTPUT_POWER, 0, ChanSet.bandwidth, ChanSet.spread_factor, ChanSet.coding_rate,
LORA_PREAMBLE_LENGTH, false, true, false, 0, false, 20000 );
Radio.SetRxConfig( MODEM_LORA, ChanSet.bandwidth, ChanSet.spread_factor, ChanSet.coding_rate, 0, LORA_PREAMBLE_LENGTH,
LORA_SYMBOL_TIMEOUT, false , 0, true, false, 0, false, true );
}