#include "bme280.h" #include "pico/stdlib.h" #include "pms5003.h" #include "mqtt_client.h" #include #include #include #include #include #include #include #include #include // 5 sec loop is for testing // #define LOOP_INTERVAL_MS 5000 #define LOOP_INTERVAL_MS 30000 /** * Balcony Weather Station Node 1 * record sensor data and send it to home assistant every 5 minutes * Sensors: BME280, PMS5003 */ void comms_led_init() { gpio_init(16); gpio_set_dir(16, GPIO_OUT); } absolute_time_t comms_led_off_time; int16_t comms_led_blink_count = 0; bool comms_led_state = false; void comms_led_blink() { printf("COMMS LED BLINK COUNT: %d\n", comms_led_blink_count); comms_led_blink_count++; if(!comms_led_state) { gpio_put(16, true); comms_led_state = true; } comms_led_off_time = make_timeout_time_ms(1000); } void comms_led_update() { if (comms_led_state && time_reached(comms_led_off_time)) { gpio_put(16, false); comms_led_state = false; } } static mqtt_client_config mqtt_config; static pms5003_config pms_config; static pms5003_reading current_pms5003_reading; static bme280_config bem_config; static bme280_reading current_bem280_reading; static bme280_reading bem280_readings[10]; static int8_t readings_index = 0; static bme280_reading calculate_average_bme280_reading() { float tempSum = 0; float pressureSum = 0; float humiditySum = 0; for (int i = 0; i < 10; i++) { tempSum += bem280_readings[i].temperature; pressureSum += bem280_readings[i].pressure; humiditySum += bem280_readings[i].humidity; } bme280_reading average_reading = {.temperature = tempSum / 10, .pressure = pressureSum / 10, .humidity = humiditySum / 10}; return average_reading; } /** * Callback function called every 30 seconds */ static bool cb_30(__unused struct repeating_timer *t) { comms_led_blink(); printf("cb_30: %d\n", readings_index); if (readings_index >= 10) { printf("Preparing data to send\n"); readings_index = 0; // Calculate average BME280 reading current_bem280_reading = calculate_average_bme280_reading(); printf("Tempature: %.2f\n", current_bem280_reading.temperature); printf("Pressure: %.2f\n", current_bem280_reading.pressure); printf("Humidity: %.2f\n", current_bem280_reading.humidity); printf("PM1: %.2f\n", current_pms5003_reading.pm1); printf("PM2.5: %.2f\n", current_pms5003_reading.pm2_5); printf("PM10: %.2f\n", current_pms5003_reading.pm10); // char msg[100]; char msg[200]; snprintf(msg, sizeof(msg), "{\"temp\": %.2f, \"pressure\": %.2f, \"humidity\": %.2f, \"pm1\": %.2f, \"pm2_5\": %.2f, \"pm10\": %.2f}\n", current_bem280_reading.temperature, current_bem280_reading.pressure, current_bem280_reading.humidity, current_pms5003_reading.pm1, current_pms5003_reading.pm2_5, current_pms5003_reading.pm10); printf("Sending data to home assistant...\n"); mqtt_client_pub_message(&mqtt_config, msg); return true; } // Read BME280 printf("Making BME280 Reading\n"); current_bem280_reading = bme280_read(&bem_config); bem280_readings[readings_index] = current_bem280_reading; if (readings_index == 2) { printf("Warming up PMSS5003\n"); pms5003_warmup(&pms_config); } if (readings_index == 4) { printf("Starting reads on PMSS5003\n"); pms5003_start_reading(&pms_config); } if (readings_index == 6) { printf("Finished reading PMSS5003\n"); current_pms5003_reading = pms5003_finish_reading(&pms_config); } readings_index++; return true; }; int main() { stdio_init_all(); // Initialize communication LED comms_led_init(); mqtt_client_init(&mqtt_config, "homeassistant/sensor/bws/node1/state", "bws-node1"); // Setup BME280 bme280_init(&bem_config, i2c1, 14, 15); // Setup PMS5003 pms5003_init(&pms_config, uart1, 20, 21, 18, 19); struct repeating_timer timer_30; add_repeating_timer_ms(LOOP_INTERVAL_MS, cb_30, NULL, &timer_30); while (true) { comms_led_update(); sleep_us(100); tight_loop_contents(); mqtt_client_do_network_stuff(&mqtt_config); } }