#if (HAS_BME) #include "bmesensor.h" // Local logging tag static const char TAG[] = __FILE__; bmeStatus_t bme_status = {0, 0, 0, 0, 0, 0, 0, 0}; Ticker bmecycler; #define SEALEVELPRESSURE_HPA (1013.25) #ifdef HAS_BME680 bsec_virtual_sensor_t sensorList[10] = { BSEC_OUTPUT_RAW_TEMPERATURE, BSEC_OUTPUT_RAW_PRESSURE, BSEC_OUTPUT_RAW_HUMIDITY, BSEC_OUTPUT_RAW_GAS, BSEC_OUTPUT_IAQ, BSEC_OUTPUT_STATIC_IAQ, BSEC_OUTPUT_CO2_EQUIVALENT, BSEC_OUTPUT_BREATH_VOC_EQUIVALENT, BSEC_OUTPUT_SENSOR_HEAT_COMPENSATED_TEMPERATURE, BSEC_OUTPUT_SENSOR_HEAT_COMPENSATED_HUMIDITY, }; uint8_t bsecstate_buffer[BSEC_MAX_STATE_BLOB_SIZE] = {0}; Bsec iaqSensor; #elif defined HAS_BME280 Adafruit_BME280 bme; // using I2C interface // use these alternative constructors for other hw interface types // Adafruit_BME280 bme(BME_CS); // hardware SPI // Adafruit_BME280 bme(BME_CS, BME_MOSI, BME_MISO, BME_SCK); // software SPI #elif defined HAS_BMP180 Adafruit_BMP085 bmp; // I2C #endif void setBMEIRQ() { xTaskNotify(irqHandlerTask, BME_IRQ, eSetBits); } // initialize MEMS sensor // return = 0 -> error / return = 1 -> success int bme_init(void) { int rc = 0; #ifdef HAS_BME680 // block i2c bus access if (I2C_MUTEX_LOCK()) { Wire.begin(HAS_BME680); iaqSensor.begin(BME680_ADDR, Wire); ESP_LOGI(TAG, "BSEC v%d.%d.%d.%d", iaqSensor.version.major, iaqSensor.version.minor, iaqSensor.version.major_bugfix, iaqSensor.version.minor_bugfix); iaqSensor.setConfig(bsec_config_iaq); loadState(); iaqSensor.setTemperatureOffset((float)BME_TEMP_OFFSET); iaqSensor.updateSubscription(sensorList, 10, BSEC_SAMPLE_RATE_LP); rc = checkIaqSensorStatus(); } else ESP_LOGE(TAG, "I2c bus busy - BME680 initialization error"); #elif defined HAS_BME280 if (I2C_MUTEX_LOCK()) { rc = bme.begin(BME280_ADDR); } else ESP_LOGE(TAG, "I2c bus busy - BME280 initialization error"); #elif defined HAS_BMP180 if (I2C_MUTEX_LOCK()) { // Wire.begin(21, 22); rc = bmp.begin(); } else ESP_LOGE(TAG, "I2c bus busy - BMP180 initialization error"); #endif I2C_MUTEX_UNLOCK(); // release i2c bus access if (rc) bmecycler.attach(BMECYCLE, setBMEIRQ); // start cyclic data transmit return rc; } // bme_init() #ifdef HAS_BME680 // Helper function definitions int checkIaqSensorStatus(void) { int rslt = 1; // true = 1 = no error, false = 0 = error if (iaqSensor.status != BSEC_OK) { rslt = 0; if (iaqSensor.status < BSEC_OK) ESP_LOGE(TAG, "BSEC error %d", iaqSensor.status); else ESP_LOGW(TAG, "BSEC warning %d", iaqSensor.status); } if (iaqSensor.bme680Status != BME680_OK) { rslt = 0; if (iaqSensor.bme680Status < BME680_OK) ESP_LOGE(TAG, "BME680 error %d", iaqSensor.bme680Status); else ESP_LOGW(TAG, "BME680 warning %d", iaqSensor.bme680Status); } return rslt; } // checkIaqSensorStatus() #endif // store current BME sensor data in struct void bme_storedata(bmeStatus_t *bme_store) { if ((cfg.payloadmask & MEMS_DATA) && (I2C_MUTEX_LOCK())) { // block i2c bus access #ifdef HAS_BME680 if (iaqSensor.run()) { // if new data is available bme_store->raw_temperature = iaqSensor.rawTemperature; // temperature in degree celsius bme_store->raw_humidity = iaqSensor.rawHumidity; bme_store->temperature = iaqSensor.temperature; bme_store->humidity = iaqSensor.humidity; // humidity in % relative humidity x1000 bme_store->pressure = // pressure in Pascal (iaqSensor.pressure / 100.0); // conversion Pa -> hPa bme_store->iaq = iaqSensor.iaq; bme_store->iaq_accuracy = iaqSensor.iaqAccuracy; bme_store->gas = iaqSensor.gasResistance; // gas resistance in ohms updateState(); } #elif defined HAS_BME280 bme_store->temperature = bme.readTemperature(); bme_store->pressure = (bme.readPressure() / 100.0); // conversion Pa -> hPa // bme.readAltitude(SEALEVELPRESSURE_HPA); bme_store->humidity = bme.readHumidity(); bme_store->iaq = 0; // IAQ feature not present with BME280 #elif defined HAS_BMP180 bme_store->temperature = bmp.readTemperature(); bme_store->pressure = (bmp.readPressure() / 100.0); // conversion Pa -> hPa // bme.readAltitude(SEALEVELPRESSURE_HPA); bme_store->iaq = 0; // IAQ feature not present with BME280 #endif I2C_MUTEX_UNLOCK(); // release i2c bus access } } // bme_storedata() #ifdef HAS_BME680 void loadState(void) { if (cfg.bsecstate[BSEC_MAX_STATE_BLOB_SIZE] == BSEC_MAX_STATE_BLOB_SIZE) { // Existing state in NVS stored ESP_LOGI(TAG, "restoring BSEC state from NVRAM"); memcpy(bsecstate_buffer, cfg.bsecstate, BSEC_MAX_STATE_BLOB_SIZE); iaqSensor.setState(bsecstate_buffer); checkIaqSensorStatus(); } else // no state stored ESP_LOGI(TAG, "no BSEC state stored in NVRAM, starting sensor with defaults"); } void updateState(void) { bool update = false; static uint16_t stateUpdateCounter = 0; if (stateUpdateCounter == 0) { // first state update when IAQ accuracy is >= 1 if (iaqSensor.iaqAccuracy >= 1) { update = true; stateUpdateCounter++; } } else { /* Update every STATE_SAVE_PERIOD minutes */ if ((long)(millis() - stateUpdateCounter * STATE_SAVE_PERIOD) >= 0) { update = true; stateUpdateCounter++; } } if (update) { iaqSensor.getState(bsecstate_buffer); checkIaqSensorStatus(); memcpy(cfg.bsecstate, bsecstate_buffer, BSEC_MAX_STATE_BLOB_SIZE); cfg.bsecstate[BSEC_MAX_STATE_BLOB_SIZE] = BSEC_MAX_STATE_BLOB_SIZE; ESP_LOGI(TAG, "saving BSEC state to NVRAM"); saveConfig(); } } #endif #endif // HAS_BME