implement Outputs

main/main.c

@@ -12,31 +12,18 @@
 #include "freertos/timers.h"
 
 #include "http_metrics.h"
+#include "outputs.h"
 
 #define I2C_MASTER_SCL 19
 #define I2C_MASTER_SDA 18
 
-//#define BMP280
-//#define DHT11
-//#define AHT10
-//#define VEML7700
-
-#ifdef DHT11
-#define CONFIG_EXAMPLE_DATA_GPIO 17
-#define SENSOR_TYPE DHT_TYPE_DHT11
-#endif
-
-#ifdef AHT10
-#define AHT_TYPE AHT_TYPE_AHT1x
-#endif
-
 static const char *TAG = "smart-oil-heater-control-system";
 
 void app_main(void)
 {
     ESP_LOGI(TAG, "starting ...");
 
-    //Initialize NVS
+    // Initialize NVS
     esp_err_t ret = nvs_flash_init();
     if (ret == ESP_ERR_NVS_NO_FREE_PAGES || ret == ESP_ERR_NVS_NEW_VERSION_FOUND)
     {
@@ -45,7 +32,7 @@ void app_main(void)
     }
     ESP_ERROR_CHECK(ret);
 
-    connect_wifi(); //will return if successful
+    connect_wifi(); // will return if successful
     setup_server();
 
     sMetric aMetrics[METRIC_MAX_COUNT];
@@ -53,129 +40,68 @@ void app_main(void)
     /*Sensor Init*/
     ESP_ERROR_CHECK(i2cdev_init());
 
-#ifdef BMP280
-    bmp280_params_t params;
-    bmp280_init_default_params(&params);
-    bmp280_t devBMP280;
-    memset(&devBMP280, 0, sizeof(bmp280_t));
-    ESP_ERROR_CHECK(bmp280_init_desc(&devBMP280, BMP280_I2C_ADDRESS_0, 0, I2C_MASTER_SDA, I2C_MASTER_SCL));
-    ESP_ERROR_CHECK(bmp280_init(&devBMP280, &params));
-    bool bme280p = devBMP280.id == BME280_CHIP_ID;
-    ESP_LOGI(TAG, "BMP280: found %s\n", bme280p ? "BME280" : "BMP280");
-#endif
-
-#ifdef AHT10
-    aht_t devAHT10 = {0};
-    devAHT10.mode = AHT_MODE_NORMAL;
-    devAHT10.type = AHT_TYPE;
-    ESP_ERROR_CHECK(aht_init_desc(&devAHT10, AHT_I2C_ADDRESS_GND, 0, I2C_MASTER_SDA, I2C_MASTER_SCL));
-    ESP_ERROR_CHECK(aht_init(&devAHT10));
-#endif
-
-#ifdef VEML7700
-    i2c_dev_t veml7700_device;
-    veml7700_config_t veml7700_configuration;
-    
-    memset(&veml7700_device, 0, sizeof(i2c_dev_t));
-    memset(&veml7700_configuration, 0, sizeof(veml7700_config_t));
-
-    // initialize the device struct
-    ESP_ERROR_CHECK(veml7700_init_desc(&veml7700_device, I2C_NUM_0, I2C_MASTER_SDA, I2C_MASTER_SCL));
-
-    // check if the device is available
-    ESP_ERROR_CHECK(veml7700_probe(&veml7700_device));
-
-    /* set configuration parameters
-     * select gain 1/8 coastest resolution but the sensor will most likely not
-     * over-saturated
-     */
-    veml7700_configuration.gain = VEML7700_GAIN_DIV_8;
-
-    /* set the time to integrate the light values. more time will lead to a finer
-     * resolution but will be over-saturated earlier
-     */
-    veml7700_configuration.integration_time = VEML7700_INTEGRATION_TIME_100MS;
-
-    // interrupt is not used
-    veml7700_configuration.persistence_protect = VEML7700_PERSISTENCE_PROTECTION_4;
-    veml7700_configuration.interrupt_enable = 1;
-    veml7700_configuration.shutdown = 0;
-
-    // write the configuration to the device
-    ESP_ERROR_CHECK(veml7700_set_config(&veml7700_device, &veml7700_configuration));
-
-#endif
+    initOutputs();
 
     ESP_LOGI(TAG, "running");
 
     while (1)
     {
+        ESP_LOGI(TAG,"\n");
         vTaskDelay(pdMS_TO_TICKS(5000));
         uint16_t u16MetricCounter = 0U;
 
         /*Wifi RSSI*/
         wifi_ap_record_t ap;
         esp_wifi_sta_get_ap_info(&ap);
-        printf("WiFi RSSI: %d\n", ap.rssi);
+        // printf("WiFi RSSI: %d\n", ap.rssi);
         strcpy(aMetrics[u16MetricCounter].caMetricName, "wifi_rssi");
         aMetrics[0].fMetricValue = ap.rssi;
         u16MetricCounter++;
 
-#ifdef BMP280
-        if ((bmp280_read_float(&devBMP280, &aMetrics[u16MetricCounter].fMetricValue, &aMetrics[u16MetricCounter+1].fMetricValue, 0) == ESP_OK))
-        {
-            strcpy(aMetrics[u16MetricCounter].caMetricName, "bmp280_temperature");
-            strcpy(aMetrics[u16MetricCounter+1].caMetricName, "bmp280_pressure");
-            printf("(BMP280) Temperature: %.2f C, Pressure: %.2f Pa\n", aMetrics[u16MetricCounter].fMetricValue, aMetrics[u16MetricCounter+1].fMetricValue);
-            u16MetricCounter++;
-            u16MetricCounter++;
-        } else {
-            printf("(BMP280) Temperature/pressure reading failed\n");
-        }
-#endif
-
-#ifdef AHT10
-        if ((aht_get_data(&devAHT10, &aMetrics[u16MetricCounter].fMetricValue, &aMetrics[u16MetricCounter+1].fMetricValue) == ESP_OK))
-        {
-            strcpy(aMetrics[u16MetricCounter].caMetricName, "aht10_temperature");
-            strcpy(aMetrics[u16MetricCounter+1].caMetricName, "aht10_humidity");
-            printf("(AHT10) Temperature: %.2f C, Humidity: %.2f %% \n", aMetrics[u16MetricCounter].fMetricValue, aMetrics[u16MetricCounter+1].fMetricValue);
-            u16MetricCounter++;
-            u16MetricCounter++;
-        } else {
-            printf("(AHT10) Temperature/Humidity reading failed\n");
-        }
-#endif
-
-#ifdef DHT11
-        if ((dht_read_float_data(SENSOR_TYPE, CONFIG_EXAMPLE_DATA_GPIO, &aMetrics[u16MetricCounter].fMetricValue, &aMetrics[u16MetricCounter+1].fMetricValue) == ESP_OK))
-        {
-            strcpy(aMetrics[u16MetricCounter].caMetricName, "dht11_humidity");
-            strcpy(aMetrics[u16MetricCounter+1].caMetricName, "dht11_temperature");
-            printf("(DHT11) Humidity: %.2f %%, Temperature: %.2f C\n", aMetrics[u16MetricCounter].fMetricValue, aMetrics[u16MetricCounter+1].fMetricValue);
-            u16MetricCounter++;
-            u16MetricCounter++;
-        } else {
-            printf("(DHT11) Temperature/pressure reading failed\n");
-        }
-#endif
-
-#ifdef VEML7700
-    uint32_t u32AmbientLight = 0U;
-    uint32_t u32WhiteChannel = 0U;
-    if ((veml7700_get_ambient_light(&veml7700_device, &veml7700_configuration, &u32AmbientLight) == ESP_OK) && (veml7700_get_white_channel(&veml7700_device, &veml7700_configuration, &u32WhiteChannel) == ESP_OK))
-        {
-            aMetrics[u16MetricCounter].fMetricValue = u32AmbientLight;
-            aMetrics[u16MetricCounter+1].fMetricValue = u32WhiteChannel;
-            strcpy(aMetrics[u16MetricCounter].caMetricName, "veml7700_ambient_light");
-            strcpy(aMetrics[u16MetricCounter+1].caMetricName, "veml7700_white_channel");
-            printf("(VEML7700) Ambient light: %.2f lux, White channel: %.2f lux\n", aMetrics[u16MetricCounter].fMetricValue, aMetrics[u16MetricCounter+1].fMetricValue);
-            u16MetricCounter++;
-            u16MetricCounter++;
-        } else {
-            printf("(VEML7700)  light reading failed\n");
-        }
-#endif
         vSetMetrics(aMetrics, u16MetricCounter);
+
+        setCirculationPumpState(ENABLED);
+        setBurnerState(ENABLED);
+
+        if (getBurnerState() == ENABLED)
+        {
+            ESP_LOGI(TAG, "Burner ENABLED");
+        }
+        else
+        {
+            ESP_LOGI(TAG, "Burner DISABLED");
+        }
+
+        if (getCirculationPumpState() == ENABLED)
+        {
+            ESP_LOGI(TAG, "CirculationPump ENABLED");
+        }
+        else
+        {
+            ESP_LOGI(TAG, "CirculationPump DISABLED");
+        }
+
+        ESP_LOGI(TAG,"\n");
+        vTaskDelay(pdMS_TO_TICKS(2000));
+        setCirculationPumpState(DISABLED);
+        setBurnerState(DISABLED);
+
+        if (getBurnerState() == ENABLED)
+        {
+            ESP_LOGI(TAG, "Burner ENABLED");
+        }
+        else
+        {
+            ESP_LOGI(TAG, "Burner DISABLED");
+        }
+
+        if (getCirculationPumpState() == ENABLED)
+        {
+            ESP_LOGI(TAG, "CirculationPump ENABLED");
+        }
+        else
+        {
+            ESP_LOGI(TAG, "CirculationPump DISABLED");
+        }
     }
-}
+}