mirror of
https://github.com/meshtastic/firmware.git
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c0afe92a7f
* Initial commit of combined BLE and WiFi OTA * Incorporate ota_hash in AdminMessage protobuf * OTA protobuf changes * Trunk fmt --------- Co-authored-by: Jake-B <jake-b@users.noreply.github.com>
159 lines
5.1 KiB
C++
159 lines
5.1 KiB
C++
#include "configuration.h"
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#if !MESHTASTIC_EXCLUDE_AIR_QUALITY_SENSOR
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#include "../detect/reClockI2C.h"
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#include "../mesh/generated/meshtastic/telemetry.pb.h"
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#include "PMSA003ISensor.h"
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#include "TelemetrySensor.h"
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#include <Wire.h>
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PMSA003ISensor::PMSA003ISensor() : TelemetrySensor(meshtastic_TelemetrySensorType_PMSA003I, "PMSA003I") {}
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bool PMSA003ISensor::initDevice(TwoWire *bus, ScanI2C::FoundDevice *dev)
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{
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LOG_INFO("Init sensor: %s", sensorName);
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#ifdef PMSA003I_ENABLE_PIN
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pinMode(PMSA003I_ENABLE_PIN, OUTPUT);
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#endif
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_bus = bus;
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_address = dev->address.address;
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#if defined(PMSA003I_I2C_CLOCK_SPEED) && defined(CAN_RECLOCK_I2C)
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uint32_t currentClock = reClockI2C(PMSA003I_I2C_CLOCK_SPEED, _bus);
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if (!currentClock) {
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LOG_WARN("PMSA003I can't be used at this clock speed");
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return false;
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}
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#endif
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_bus->beginTransmission(_address);
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if (_bus->endTransmission() != 0) {
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LOG_WARN("PMSA003I not found on I2C at 0x12");
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return false;
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}
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#if defined(PMSA003I_I2C_CLOCK_SPEED) && defined(CAN_RECLOCK_I2C)
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reClockI2C(currentClock, _bus);
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#endif
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status = 1;
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LOG_INFO("PMSA003I Enabled");
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initI2CSensor();
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return true;
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}
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bool PMSA003ISensor::getMetrics(meshtastic_Telemetry *measurement)
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{
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if (!isActive()) {
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LOG_WARN("PMSA003I is not active");
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return false;
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}
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#if defined(PMSA003I_I2C_CLOCK_SPEED) && defined(CAN_RECLOCK_I2C)
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uint32_t currentClock = reClockI2C(PMSA003I_I2C_CLOCK_SPEED, _bus);
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#endif
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_bus->requestFrom(_address, PMSA003I_FRAME_LENGTH);
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if (_bus->available() < PMSA003I_FRAME_LENGTH) {
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LOG_WARN("PMSA003I read failed: incomplete data (%d bytes)", _bus->available());
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return false;
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}
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#if defined(PMSA003I_I2C_CLOCK_SPEED) && defined(CAN_RECLOCK_I2C)
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reClockI2C(currentClock, _bus);
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#endif
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for (uint8_t i = 0; i < PMSA003I_FRAME_LENGTH; i++) {
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buffer[i] = _bus->read();
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}
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if (buffer[0] != 0x42 || buffer[1] != 0x4D) {
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LOG_WARN("PMSA003I frame header invalid: 0x%02X 0x%02X", buffer[0], buffer[1]);
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return false;
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}
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auto read16 = [](uint8_t *data, uint8_t idx) -> uint16_t { return (data[idx] << 8) | data[idx + 1]; };
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computedChecksum = 0;
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for (uint8_t i = 0; i < PMSA003I_FRAME_LENGTH - 2; i++) {
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computedChecksum += buffer[i];
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}
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receivedChecksum = read16(buffer, PMSA003I_FRAME_LENGTH - 2);
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if (computedChecksum != receivedChecksum) {
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LOG_WARN("PMSA003I checksum failed: computed 0x%04X, received 0x%04X", computedChecksum, receivedChecksum);
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return false;
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}
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measurement->variant.air_quality_metrics.has_pm10_standard = true;
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measurement->variant.air_quality_metrics.pm10_standard = read16(buffer, 4);
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measurement->variant.air_quality_metrics.has_pm25_standard = true;
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measurement->variant.air_quality_metrics.pm25_standard = read16(buffer, 6);
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measurement->variant.air_quality_metrics.has_pm100_standard = true;
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measurement->variant.air_quality_metrics.pm100_standard = read16(buffer, 8);
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// TODO - Add admin command to remove environmental metrics to save protobuf space
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measurement->variant.air_quality_metrics.has_pm10_environmental = true;
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measurement->variant.air_quality_metrics.pm10_environmental = read16(buffer, 10);
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measurement->variant.air_quality_metrics.has_pm25_environmental = true;
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measurement->variant.air_quality_metrics.pm25_environmental = read16(buffer, 12);
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measurement->variant.air_quality_metrics.has_pm100_environmental = true;
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measurement->variant.air_quality_metrics.pm100_environmental = read16(buffer, 14);
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// TODO - Add admin command to remove PN to save protobuf space
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measurement->variant.air_quality_metrics.has_particles_03um = true;
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measurement->variant.air_quality_metrics.particles_03um = read16(buffer, 16);
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measurement->variant.air_quality_metrics.has_particles_05um = true;
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measurement->variant.air_quality_metrics.particles_05um = read16(buffer, 18);
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measurement->variant.air_quality_metrics.has_particles_10um = true;
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measurement->variant.air_quality_metrics.particles_10um = read16(buffer, 20);
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measurement->variant.air_quality_metrics.has_particles_25um = true;
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measurement->variant.air_quality_metrics.particles_25um = read16(buffer, 22);
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measurement->variant.air_quality_metrics.has_particles_50um = true;
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measurement->variant.air_quality_metrics.particles_50um = read16(buffer, 24);
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measurement->variant.air_quality_metrics.has_particles_100um = true;
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measurement->variant.air_quality_metrics.particles_100um = read16(buffer, 26);
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return true;
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}
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bool PMSA003ISensor::isActive()
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{
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return state == State::ACTIVE;
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}
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void PMSA003ISensor::sleep()
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{
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#ifdef PMSA003I_ENABLE_PIN
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digitalWrite(PMSA003I_ENABLE_PIN, LOW);
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state = State::IDLE;
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#endif
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}
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uint32_t PMSA003ISensor::wakeUp()
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{
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#ifdef PMSA003I_ENABLE_PIN
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LOG_INFO("Waking up PMSA003I");
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digitalWrite(PMSA003I_ENABLE_PIN, HIGH);
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state = State::ACTIVE;
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return PMSA003I_WARMUP_MS;
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#endif
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// No need to wait for warmup if already active
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return 0;
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}
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#endif
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