feature/http_call_send_json #3

Merged
f merged 56 commits from feature/http_call_send_json into master 2022-11-27 11:02:22 +01:00
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@ -30,7 +30,6 @@ const uint8_t VALUES = 8; // see constants.h file - count of number of SENSOR_ d
float currentSensorData[VALUES] = { nanf("no value"), nanf("no value"), nanf("no value"),
nanf("no value"), nanf("no value"), nanf("no value"),
nanf("no value"), nanf("no value") };
float (*sensors[VALUES])() = {};
uint32_t update_sensor_cnt = 0;
uint32_t update_webserver_cnt = 0;
@ -47,6 +46,8 @@ uint8_t sensor_cnt = 0;
boolean validData = false;
boolean do_not_read_windsensor = false;
//*************************************************************************//
void debug(String x)
@ -138,35 +139,84 @@ void initSensors()
{
// Initialize and configure the sensors
#ifdef SENSOR_APDS9930
if (sensor_apds9930_begin()) {
sensors[SENSOR_LIGHT] = &apds9930_light;
}
if (sensor_apds9930_begin();
#endif
#ifdef SENSOR_APDS9960
if (sensor_apds9960_begin()) {
sensors[SENSOR_LIGHT] = &apds9960_light;
}
sensor_apds9960_begin();
#endif
#ifdef SENSOR_BME280
//Temperature + pressure
if (sensor_bme280_begin(BME_ADDRESS)) {
sensors[SENSOR_TEMPERATURE] = &bme280_temperature;
sensors[SENSOR_HUMIDITY] = &bme280_humidity;
sensors[SENSOR_PRESSURE] = &bme280_pressure;
}
sensor_bme280_begin(BME_ADDRESS);
#endif
}
float readSensors(uint8_t s)
{
float ret = nan("no value");
switch(s)
{
case SENSOR_LIGHT: // Initialize and configure the sensors
#ifdef SENSOR_APDS9930
ret = apds9930_light();
#endif
#ifdef SENSOR_APDS9960
ret = apds9960_light();
#endif
break;
case SENSOR_TEMPERATURE:
#ifdef SENSOR_BME280
ret = bme280_temperature();
#endif
break;
case SENSOR_HUMIDITY:
#ifdef SENSOR_BME280
ret = bme280_humidity();
#endif
break;
case SENSOR_PRESSURE:
#ifdef SENSOR_BME280
ret = bme280_pressure();
#endif
break;
case SENSOR_WINDSPEED:
#ifdef SENSOR_WIND
sensors[SENSOR_WINDSPEED] = &wind_speed;
if (do_not_read_windsensor == false)
{
ret = wind_speed();
}
#endif
break;
case SENSOR_BAT_VOLTAGE:
#ifdef SENSOR_BATTERY
sensors[SENSOR_BAT_VOLTAGE] = &battery_voltage;
sensors[SENSOR_BATCHARGESTATE] = &battery_charging;
sensors[SENSOR_ESAVEMODE] = &isEnergySavingMode;
ret = battery_voltage();
#endif
break;
case SENSOR_ESAVEMODE:
#ifdef SENSOR_BATTERY
ret = battery_charging();
#endif
break;
case SENSOR_BATCHARGESTATE:
#ifdef SENSOR_BATTERY
ret = isEnergySavingMode();
#endif
break;
default:
break;
}
return ret;
}
//*************************************************************************//
@ -323,12 +373,14 @@ void _loop()
#ifdef defined(BATTERY_POWERED) && defined(SENSOR_WIND)
if (energySavingMode() == 1) {
// Disable expensive tasks
sensors[SENSOR_WINDSPEED] = 0;
//sensors[SENSOR_WINDSPEED] = 0;
//debug("read of wind sensor because of low battery disabled");
do_not_read_windsensor = true;
} else {
sensors[SENSOR_WINDSPEED] = &wind_speed;
//sensors[SENSOR_WINDSPEED] = &wind_speed;
//debug("read of wind sensor because of high battery enabled");
do_not_read_windsensor = false;
}
#endif
sensor_cnt = 0;
@ -340,17 +392,8 @@ void _loop()
if ((update_sensor_cnt + (UPDATE_SENSOR_INTERVAL_S * 1000)) <= millis())
{
debug("read sensor data " + String(sensor_cnt));
if (sensors[sensor_cnt])
{
debug("sensors[sensor_ids[" + String(sensor_cnt) + "]]=" + String((int)sensors[sensor_cnt]));
//currentSensorData[sensor_cnt] = sensors[sensor_cnt]();
currentSensorData[sensor_cnt] = sensor_cnt;
} else {
debug("sensors[" + String(sensor_cnt) + "]=nan");
currentSensorData[sensor_cnt] = nan("no value");
}
currentSensorData[sensor_cnt] = readSensors(sensor_cnt);
if (sensor_cnt < VALUES)
{
@ -426,43 +469,39 @@ void _loop()
void readWindSpeedExceed()
{
if (sensors[SENSOR_WINDSPEED])
// read from windspeed sensorSTATUS_LED_PIN
digitalWrite(STATUS_LED_PIN, HIGH);
currentSensorData[SENSOR_WINDSPEED] = readSensors(SENSOR_WINDSPEED);
digitalWrite(STATUS_LED_PIN, LOW);
if (currentSensorData[SENSOR_WINDSPEED] >= HTTP_CALL_ON_WINDSPEED_EXCEED_MPS)
{
// read from windspeed sensorSTATUS_LED_PIN
digitalWrite(STATUS_LED_PIN, HIGH);
currentSensorData[SENSOR_WINDSPEED] = sensors[SENSOR_WINDSPEED]();
digitalWrite(STATUS_LED_PIN, LOW);
if (currentSensorData[SENSOR_WINDSPEED] >= HTTP_CALL_ON_WINDSPEED_EXCEED_MPS)
{
digitalWrite(STATUS_LED_PIN, HIGH);
// call the url HTTP_CALL_ON_WINDSPEED_URL
WiFiClient client;
HTTPClient http;
// call the url HTTP_CALL_ON_WINDSPEED_URL
WiFiClient client;
HTTPClient http;
http.begin(client, String(HTTP_CALL_ON_WINDSPEED_URL).c_str());
// Send HTTP GET request
int httpResponseCode = http.GET();
http.begin(client, String(HTTP_CALL_ON_WINDSPEED_URL).c_str());
// Send HTTP GET request
int httpResponseCode = http.GET();
if (httpResponseCode > 0) {
String response = http.getString();
debug("http response code: " + String(httpResponseCode) + " = " + response);
// TODO handle response
}
http.end();
debug("Called windspeed exceed callout");
digitalWrite(STATUS_LED_PIN, LOW);
if (httpResponseCode > 0) {
String response = http.getString();
debug("http response code: " + String(httpResponseCode) + " = " + response);
// TODO handle response
}
http.end();
debug("Called windspeed exceed callout");
digitalWrite(STATUS_LED_PIN, LOW);
}
#ifdef WEBUPDATER_FEATURE
setSensorData(currentSensorData);
setSensorData(currentSensorData);
#endif
} else {
currentSensorData[SENSOR_WINDSPEED] = nan("no value");
}
}
//*************************************************************************//