mirror of
https://github.com/liberatedsystems/RNode_Firmware_CE.git
synced 2024-07-02 14:34:13 +02:00
657 lines
19 KiB
C++
657 lines
19 KiB
C++
// Copyright (c) Sandeep Mistry. All rights reserved.
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// Licensed under the MIT license.
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// Modifications and additions copyright 2023 by Mark Qvist & Jacob Eva
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// Obviously still under the MIT license.
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#ifndef RADIO_H
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#define RADIO_H
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#include <Arduino.h>
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#include <SPI.h>
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#include "Interfaces.h"
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#include "Boards.h"
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// TX
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#define PA_OUTPUT_RFO_PIN 0
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#define PA_OUTPUT_PA_BOOST_PIN 1
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// DCD
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#define STATUS_INTERVAL_MS 3
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#define DCD_SAMPLES 2500
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#define UTIL_UPDATE_INTERVAL_MS 1000
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#define UTIL_UPDATE_INTERVAL (UTIL_UPDATE_INTERVAL_MS/STATUS_INTERVAL_MS)
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#define AIRTIME_LONGTERM 3600
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#define AIRTIME_LONGTERM_MS (AIRTIME_LONGTERM*1000)
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#define AIRTIME_BINLEN_MS (STATUS_INTERVAL_MS*DCD_SAMPLES)
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#define AIRTIME_BINS ((AIRTIME_LONGTERM*1000)/AIRTIME_BINLEN_MS)
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#define current_airtime_bin(void) (millis()%AIRTIME_LONGTERM_MS)/AIRTIME_BINLEN_MS
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#define DCD_THRESHOLD 2
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#define DCD_LED_STEP_D 3
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#define LORA_PREAMBLE_SYMBOLS_HW 4
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#define LORA_PREAMBLE_SYMBOLS_MIN 18
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#define LORA_PREAMBLE_TARGET_MS 15
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#define RSSI_OFFSET 157
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#define PHY_HEADER_LORA_SYMBOLS 8
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#define _e 2.71828183
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#define _S 10.0
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// Status flags
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const uint8_t SIG_DETECT = 0x01;
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const uint8_t SIG_SYNCED = 0x02;
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const uint8_t RX_ONGOING = 0x04;
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// forward declare Utilities.h LED functions
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void led_rx_on();
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void led_rx_off();
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void led_indicate_airtime_lock();
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#if PLATFORM == PLATFORM_ESP32
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// get update_lock for ESP32
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extern portMUX_TYPE update_lock;
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#endif
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class RadioInterface : public Stream {
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public:
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// todo: in the future define _spiModem and _spiSettings from here for inheritence by child classes
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RadioInterface(uint8_t index) : _index(index), _radio_locked(false),
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_radio_online(false), _st_airtime_limit(0.0), _lt_airtime_limit(0.0),
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_airtime_lock(false), _airtime(0.0), _longterm_airtime(0.0),
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_local_channel_util(0.0), _total_channel_util(0.0),
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_longterm_channel_util(0.0), _last_status_update(0), _last_dcd(0),
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_stat_rx_ongoing(false), _stat_signal_detected(false),
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_stat_signal_synced(false), _dcd_count(0), _dcd(false), _dcd_led(false),
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_dcd_waiting(false), _dcd_wait_until(0), _dcd_sample(0),
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_post_tx_yield_timeout(0), _csma_slot_ms(50), _csma_p_min(0.1),
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_csma_p_max(0.8), _preambleLength(6), _lora_symbol_time_ms(0.0),
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_lora_symbol_rate(0.0), _lora_us_per_byte(0.0), _bitrate(0),
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_onReceive(NULL) {};
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virtual int begin();
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virtual void end();
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virtual int beginPacket(int implicitHeader = false);
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virtual int endPacket();
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virtual int packetRssi();
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virtual int currentRssi();
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virtual uint8_t packetRssiRaw();
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virtual uint8_t currentRssiRaw();
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virtual uint8_t packetSnrRaw();
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virtual float packetSnr();
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virtual long packetFrequencyError();
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// from Print
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virtual size_t write(uint8_t byte);
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virtual size_t write(const uint8_t *buffer, size_t size);
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// from Stream
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virtual int available();
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virtual int read();
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virtual int peek();
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virtual void flush();
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virtual void onReceive(void(*callback)(uint8_t, int));
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virtual void receive(int size = 0);
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virtual void standby();
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virtual void sleep();
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virtual bool preInit();
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virtual uint8_t getTxPower();
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virtual void setTxPower(int level, int outputPin = PA_OUTPUT_PA_BOOST_PIN);
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virtual uint32_t getFrequency();
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virtual void setFrequency(uint32_t frequency);
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virtual void setSpreadingFactor(int sf);
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virtual uint8_t getSpreadingFactor();
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virtual uint32_t getSignalBandwidth();
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virtual void setSignalBandwidth(uint32_t sbw);
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virtual void setCodingRate4(int denominator);
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virtual uint8_t getCodingRate4();
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virtual void setPreambleLength(long length);
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virtual uint8_t modemStatus();
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virtual void enableCrc();
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virtual void disableCrc();
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virtual void enableTCXO();
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virtual void disableTCXO();
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virtual byte random();
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virtual void setSPIFrequency(uint32_t frequency);
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virtual void updateBitrate();
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virtual void handleDio0Rise();
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uint32_t getBitrate() { return _bitrate; };
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uint8_t getIndex() { return _index; };
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void setRadioLock(bool lock) { _radio_locked = lock; };
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bool getRadioLock() { return _radio_locked; };
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void setRadioOnline(bool online) { _radio_online = online; };
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bool getRadioOnline() { return _radio_online; };
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void setSTALock(float at) { _st_airtime_limit = at; };
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float getSTALock() { return _st_airtime_limit; };
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void setLTALock(float at) { _lt_airtime_limit = at; };
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float getLTALock() { return _lt_airtime_limit; };
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bool calculateALock() {
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_airtime_lock = false;
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if (_st_airtime_limit != 0.0 && _airtime >= _st_airtime_limit) {
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_airtime_lock = true;
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}
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if (_lt_airtime_limit != 0.0 && _longterm_airtime >= _lt_airtime_limit) {
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_airtime_lock = true;
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}
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return _airtime_lock;
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};
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void updateAirtime() {
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uint16_t cb = current_airtime_bin();
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uint16_t pb = cb-1; if (cb-1 < 0) { pb = AIRTIME_BINS-1; }
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uint16_t nb = cb+1; if (nb == AIRTIME_BINS) { nb = 0; }
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_airtime_bins[nb] = 0;
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_airtime = (float)(_airtime_bins[cb]+_airtime_bins[pb])/(2.0*AIRTIME_BINLEN_MS);
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uint32_t longterm_airtime_sum = 0;
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for (uint16_t bin = 0; bin < AIRTIME_BINS; bin++) {
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longterm_airtime_sum += _airtime_bins[bin];
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}
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_longterm_airtime = (float)longterm_airtime_sum/(float)AIRTIME_LONGTERM_MS;
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float longterm_channel_util_sum = 0.0;
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for (uint16_t bin = 0; bin < AIRTIME_BINS; bin++) {
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longterm_channel_util_sum += _longterm_bins[bin];
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}
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_longterm_channel_util = (float)longterm_channel_util_sum/(float)AIRTIME_BINS;
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updateCSMAp();
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//kiss_indicate_channel_stats(); // todo: enable me!
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};
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void addAirtime(uint16_t written) {
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float packet_cost_ms = 0.0;
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float payload_cost_ms = ((float)written * _lora_us_per_byte)/1000.0;
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packet_cost_ms += payload_cost_ms;
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packet_cost_ms += (_preambleLength+4.25)*_lora_symbol_time_ms;
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packet_cost_ms += PHY_HEADER_LORA_SYMBOLS * _lora_symbol_time_ms;
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uint16_t cb = current_airtime_bin();
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uint16_t nb = cb+1; if (nb == AIRTIME_BINS) { nb = 0; }
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_airtime_bins[cb] += packet_cost_ms;
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_airtime_bins[nb] = 0;
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};
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void checkModemStatus() {
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if (millis()-_last_status_update >= STATUS_INTERVAL_MS) {
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updateModemStatus();
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_util_samples[_dcd_sample] = _dcd;
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_dcd_sample = (_dcd_sample+1)%DCD_SAMPLES;
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if (_dcd_sample % UTIL_UPDATE_INTERVAL == 0) {
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int util_count = 0;
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for (int ui = 0; ui < DCD_SAMPLES; ui++) {
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if (_util_samples[ui]) util_count++;
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}
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_local_channel_util = (float)util_count / (float)DCD_SAMPLES;
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_total_channel_util = _local_channel_util + _airtime;
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if (_total_channel_util > 1.0) _total_channel_util = 1.0;
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int16_t cb = current_airtime_bin();
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uint16_t nb = cb+1; if (nb == AIRTIME_BINS) { nb = 0; }
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if (_total_channel_util > _longterm_bins[cb]) _longterm_bins[cb] = _total_channel_util;
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_longterm_bins[nb] = 0.0;
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updateAirtime();
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}
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}
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};
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void updateModemStatus() {
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#if PLATFORM == PLATFORM_ESP32
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portENTER_CRITICAL(&update_lock);
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#elif PLATFORM == PLATFORM_NRF52
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portENTER_CRITICAL();
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#endif
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uint8_t status = modemStatus();
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_last_status_update = millis();
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#if PLATFORM == PLATFORM_ESP32
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portEXIT_CRITICAL(&update_lock);
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#elif PLATFORM == PLATFORM_NRF52
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portEXIT_CRITICAL();
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#endif
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if ((status & SIG_DETECT) == SIG_DETECT) { _stat_signal_detected = true; } else { _stat_signal_detected = false; }
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if ((status & SIG_SYNCED) == SIG_SYNCED) { _stat_signal_synced = true; } else { _stat_signal_synced = false; }
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if ((status & RX_ONGOING) == RX_ONGOING) { _stat_rx_ongoing = true; } else { _stat_rx_ongoing = false; }
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// if (stat_signal_detected || stat_signal_synced || stat_rx_ongoing) {
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if (_stat_signal_detected || _stat_signal_synced) {
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if (_stat_rx_ongoing) {
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if (_dcd_count < DCD_THRESHOLD) {
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_dcd_count++;
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} else {
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_last_dcd = _last_status_update;
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_dcd_led = true;
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_dcd = true;
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}
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}
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} else {
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if (_dcd_count == 0) {
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_dcd_led = false;
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} else if (_dcd_count > DCD_LED_STEP_D) {
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_dcd_count -= DCD_LED_STEP_D;
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} else {
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_dcd_count = 0;
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}
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if (_last_status_update > _last_dcd+_csma_slot_ms) {
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_dcd = false;
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_dcd_led = false;
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_dcd_count = 0;
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}
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}
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if (_dcd_led) {
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led_rx_on();
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} else {
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if (_airtime_lock) {
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led_indicate_airtime_lock();
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} else {
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led_rx_off();
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}
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}
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};
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void setPostTxYieldTimeout(uint32_t timeout) { _post_tx_yield_timeout = timeout; };
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uint32_t getPostTxYieldTimeout() { return _post_tx_yield_timeout; };
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void setDCD(bool dcd) { _dcd = dcd; };
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bool getDCD() { return _dcd; };
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void setDCDWaiting(bool dcd_waiting) { _dcd_waiting = dcd_waiting; };
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bool getDCDWaiting() { return _dcd_waiting; };
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void setDCDWaitUntil(uint32_t dcd_wait_until) { _dcd_wait_until = dcd_wait_until; };
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bool getDCDWaitUntil() { return _dcd_wait_until; };
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float getAirtime() { return _airtime; };
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float getLongtermAirtime() { return _longterm_airtime; };
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float getTotalChannelUtil() { return _total_channel_util; };
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float getLongtermChannelUtil() { return _longterm_channel_util; };
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float CSMASlope(float u) { return (pow(_e,_S*u-_S/2.0))/(pow(_e,_S*u-_S/2.0)+1.0); };
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void updateCSMAp() {
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_csma_p = (uint8_t)((1.0-(_csma_p_min+(_csma_p_max-_csma_p_min)*CSMASlope(_airtime)))*255.0);
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};
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uint8_t getCSMAp() { return _csma_p; };
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void setCSMASlotMS(int slot_size) { _csma_slot_ms = slot_size; };
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int getCSMASlotMS() { return _csma_slot_ms; };
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float getSymbolTime() { return _lora_symbol_time_ms; };
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float getSymbolRate() { return _lora_symbol_rate; };
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long getPreambleLength() { return _preambleLength; };
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protected:
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virtual void explicitHeaderMode();
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virtual void implicitHeaderMode();
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uint8_t _index;
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bool _radio_locked;
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bool _radio_online;
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float _st_airtime_limit;
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float _lt_airtime_limit;
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bool _airtime_lock;
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uint16_t _airtime_bins[AIRTIME_BINS] = {0};
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uint16_t _longterm_bins[AIRTIME_BINS] = {0};
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float _airtime;
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float _longterm_airtime;
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float _local_channel_util;
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float _total_channel_util;
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float _longterm_channel_util;
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uint32_t _last_status_update;
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bool _stat_signal_detected;
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bool _stat_signal_synced;
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bool _stat_rx_ongoing;
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uint32_t _last_dcd;
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uint16_t _dcd_count;
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bool _dcd;
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bool _dcd_led;
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bool _dcd_waiting;
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long _dcd_wait_until;
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bool _util_samples[DCD_SAMPLES] = {false};
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int _dcd_sample;
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uint32_t _post_tx_yield_timeout;
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uint8_t _csma_p;
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int _csma_slot_ms;
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float _csma_p_min;
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float _csma_p_max;
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long _preambleLength;
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float _lora_symbol_time_ms;
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float _lora_symbol_rate;
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float _lora_us_per_byte;
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uint32_t _bitrate;
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void (*_onReceive)(uint8_t, int);
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};
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class sx126x : public RadioInterface {
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public:
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sx126x(uint8_t index, SPIClass spi, bool tcxo, bool dio2_as_rf_switch, int ss, int sclk, int mosi, int miso, int reset, int
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dio0, int busy, int rxen);
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int begin();
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void end();
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int beginPacket(int implicitHeader = false);
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int endPacket();
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int packetRssi();
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int currentRssi();
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uint8_t packetRssiRaw();
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uint8_t currentRssiRaw();
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uint8_t packetSnrRaw();
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float packetSnr();
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long packetFrequencyError();
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// from Print
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size_t write(uint8_t byte);
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size_t write(const uint8_t *buffer, size_t size);
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// from Stream
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int available();
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int read();
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int peek();
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void flush();
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void onReceive(void(*callback)(uint8_t, int));
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void receive(int size = 0);
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void standby();
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void sleep();
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bool preInit();
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uint8_t getTxPower();
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void setTxPower(int level, int outputPin = PA_OUTPUT_PA_BOOST_PIN);
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uint32_t getFrequency();
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void setFrequency(uint32_t frequency);
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void setSpreadingFactor(int sf);
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uint8_t getSpreadingFactor();
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uint32_t getSignalBandwidth();
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void setSignalBandwidth(uint32_t sbw);
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void setCodingRate4(int denominator);
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uint8_t getCodingRate4();
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void setPreambleLength(long length);
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uint8_t modemStatus();
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void enableCrc();
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void disableCrc();
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void enableTCXO();
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void disableTCXO();
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byte random();
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void setSPIFrequency(uint32_t frequency);
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void dumpRegisters(Stream& out);
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void updateBitrate();
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void handleDio0Rise();
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private:
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void writeBuffer(const uint8_t* buffer, size_t size);
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void readBuffer(uint8_t* buffer, size_t size);
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void loraMode();
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void rxAntEnable();
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void setPacketParams(uint32_t preamble, uint8_t headermode, uint8_t length, uint8_t crc);
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void setModulationParams(uint8_t sf, uint8_t bw, uint8_t cr, int ldro);
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void setSyncWord(uint16_t sw);
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void waitOnBusy();
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void executeOpcode(uint8_t opcode, uint8_t *buffer, uint8_t size);
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void executeOpcodeRead(uint8_t opcode, uint8_t *buffer, uint8_t size);
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void explicitHeaderMode();
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void implicitHeaderMode();
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uint8_t readRegister(uint16_t address);
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void writeRegister(uint16_t address, uint8_t value);
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uint8_t singleTransfer(uint8_t opcode, uint16_t address, uint8_t value);
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static void onDio0Rise();
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void handleLowDataRate();
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void optimizeModemSensitivity();
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void reset(void);
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void calibrate(void);
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void calibrate_image(uint32_t frequency);
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private:
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SPISettings _spiSettings;
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SPIClass _spiModem;
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int _ss;
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int _sclk;
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int _mosi;
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int _miso;
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int _reset;
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int _dio0;
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int _rxen;
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int _busy;
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uint32_t _frequency;
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int _txp;
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uint8_t _sf;
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uint8_t _bw;
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uint8_t _cr;
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uint8_t _ldro;
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int _packetIndex;
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int _implicitHeaderMode;
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int _payloadLength;
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int _crcMode;
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int _fifo_tx_addr_ptr;
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int _fifo_rx_addr_ptr;
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uint8_t _packet[255];
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bool _preinit_done;
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uint8_t _index;
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bool _tcxo;
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bool _dio2_as_rf_switch;
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};
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class sx127x : public RadioInterface {
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public:
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sx127x(uint8_t index, SPIClass spi, int ss, int sclk, int mosi, int miso, int reset, int dio0, int busy);
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int begin();
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void end();
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int beginPacket(int implicitHeader = false);
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int endPacket();
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int packetRssi();
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int currentRssi();
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uint8_t packetRssiRaw();
|
|
uint8_t currentRssiRaw();
|
|
uint8_t packetSnrRaw();
|
|
float packetSnr();
|
|
long packetFrequencyError();
|
|
|
|
// from Print
|
|
size_t write(uint8_t byte);
|
|
size_t write(const uint8_t *buffer, size_t size);
|
|
|
|
// from Stream
|
|
int available();
|
|
int read();
|
|
int peek();
|
|
void flush();
|
|
|
|
void onReceive(void(*callback)(uint8_t, int));
|
|
|
|
void receive(int size = 0);
|
|
void standby();
|
|
void sleep();
|
|
|
|
bool preInit();
|
|
uint8_t getTxPower();
|
|
void setTxPower(int level, int outputPin = PA_OUTPUT_PA_BOOST_PIN);
|
|
uint32_t getFrequency();
|
|
void setFrequency(uint32_t frequency);
|
|
void setSpreadingFactor(int sf);
|
|
uint8_t getSpreadingFactor();
|
|
uint32_t getSignalBandwidth();
|
|
void setSignalBandwidth(uint32_t sbw);
|
|
void setCodingRate4(int denominator);
|
|
uint8_t getCodingRate4();
|
|
void setPreambleLength(long length);
|
|
uint8_t modemStatus();
|
|
void enableCrc();
|
|
void disableCrc();
|
|
void enableTCXO();
|
|
void disableTCXO();
|
|
|
|
byte random();
|
|
|
|
void setSPIFrequency(uint32_t frequency);
|
|
|
|
void updateBitrate();
|
|
|
|
void handleDio0Rise();
|
|
private:
|
|
void setSyncWord(uint8_t sw);
|
|
void explicitHeaderMode();
|
|
void implicitHeaderMode();
|
|
|
|
|
|
uint8_t readRegister(uint8_t address);
|
|
void writeRegister(uint8_t address, uint8_t value);
|
|
uint8_t singleTransfer(uint8_t address, uint8_t value);
|
|
|
|
static void onDio0Rise();
|
|
|
|
void handleLowDataRate();
|
|
void optimizeModemSensitivity();
|
|
|
|
private:
|
|
SPISettings _spiSettings;
|
|
SPIClass _spiModem;
|
|
int _ss;
|
|
int _sclk;
|
|
int _mosi;
|
|
int _miso;
|
|
int _reset;
|
|
int _dio0;
|
|
int _busy;
|
|
uint32_t _frequency;
|
|
int _packetIndex;
|
|
int _implicitHeaderMode;
|
|
bool _preinit_done;
|
|
uint8_t _index;
|
|
uint8_t _sf;
|
|
uint8_t _cr;
|
|
};
|
|
|
|
class sx128x : public RadioInterface {
|
|
public:
|
|
sx128x(uint8_t index, SPIClass spi, bool tcxo, int ss, int sclk, int mosi, int miso, int reset, int dio0, int busy, int rxen, int txen);
|
|
|
|
int begin();
|
|
void end();
|
|
|
|
int beginPacket(int implicitHeader = false);
|
|
int endPacket();
|
|
|
|
int packetRssi();
|
|
int currentRssi();
|
|
uint8_t packetRssiRaw();
|
|
uint8_t currentRssiRaw();
|
|
uint8_t packetSnrRaw();
|
|
float packetSnr();
|
|
long packetFrequencyError();
|
|
|
|
// from Print
|
|
size_t write(uint8_t byte);
|
|
size_t write(const uint8_t *buffer, size_t size);
|
|
|
|
// from Stream
|
|
int available();
|
|
int read();
|
|
int peek();
|
|
void flush();
|
|
|
|
void onReceive(void(*callback)(uint8_t, int));
|
|
|
|
void receive(int size = 0);
|
|
void standby();
|
|
void sleep();
|
|
|
|
bool preInit();
|
|
uint8_t getTxPower();
|
|
void setTxPower(int level, int outputPin = PA_OUTPUT_PA_BOOST_PIN);
|
|
uint32_t getFrequency();
|
|
void setFrequency(uint32_t frequency);
|
|
void setSpreadingFactor(int sf);
|
|
uint8_t getSpreadingFactor();
|
|
uint32_t getSignalBandwidth();
|
|
void setSignalBandwidth(uint32_t sbw);
|
|
void setCodingRate4(int denominator);
|
|
uint8_t getCodingRate4();
|
|
void setPreambleLength(long length);
|
|
uint8_t modemStatus();
|
|
void enableCrc();
|
|
void disableCrc();
|
|
void enableTCXO();
|
|
void disableTCXO();
|
|
|
|
byte random();
|
|
|
|
void setSPIFrequency(uint32_t frequency);
|
|
|
|
void dumpRegisters(Stream& out);
|
|
|
|
void updateBitrate();
|
|
|
|
void handleDio0Rise();
|
|
private:
|
|
void writeBuffer(const uint8_t* buffer, size_t size);
|
|
void readBuffer(uint8_t* buffer, size_t size);
|
|
void txAntEnable();
|
|
void rxAntEnable();
|
|
void loraMode();
|
|
void waitOnBusy();
|
|
void executeOpcode(uint8_t opcode, uint8_t *buffer, uint8_t size);
|
|
void executeOpcodeRead(uint8_t opcode, uint8_t *buffer, uint8_t size);
|
|
void setPacketParams(uint32_t preamble, uint8_t headermode, uint8_t length, uint8_t crc);
|
|
void setModulationParams(uint8_t sf, uint8_t bw, uint8_t cr);
|
|
void setSyncWord(int sw);
|
|
void explicitHeaderMode();
|
|
void implicitHeaderMode();
|
|
|
|
|
|
uint8_t readRegister(uint16_t address);
|
|
void writeRegister(uint16_t address, uint8_t value);
|
|
uint8_t singleTransfer(uint8_t opcode, uint16_t address, uint8_t value);
|
|
|
|
static void onDio0Rise();
|
|
|
|
void handleLowDataRate();
|
|
void optimizeModemSensitivity();
|
|
|
|
private:
|
|
SPISettings _spiSettings;
|
|
SPIClass _spiModem;
|
|
int _ss;
|
|
int _sclk;
|
|
int _mosi;
|
|
int _miso;
|
|
int _reset;
|
|
int _dio0;
|
|
int _rxen;
|
|
int _txen;
|
|
int _busy;
|
|
int _modem;
|
|
uint32_t _frequency;
|
|
int _txp;
|
|
uint8_t _sf;
|
|
uint8_t _bw;
|
|
uint8_t _cr;
|
|
int _packetIndex;
|
|
int _implicitHeaderMode;
|
|
int _payloadLength;
|
|
int _crcMode;
|
|
int _fifo_tx_addr_ptr;
|
|
int _fifo_rx_addr_ptr;
|
|
uint8_t _packet[255];
|
|
bool _preinit_done;
|
|
int _rxPacketLength;
|
|
uint8_t _index;
|
|
bool _tcxo;
|
|
};
|
|
#endif
|