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Min interval for values

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This commit is contained in:
0xFEEDC0DE64
2021-07-13 19:17:23 +02:00
parent 654ac01980
commit 88062637d2
2 changed files with 124 additions and 47 deletions
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2
components/Adafruit_BMP085_Unified

Submodule components/Adafruit_BMP085_Unified updated: 531b734469...862f0474ec

169
main/main.cpp
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@@ -45,6 +45,8 @@ constexpr const gpio_num_t pins_sda = GPIO_NUM_16;
constexpr const gpio_num_t pins_scl = GPIO_NUM_17; constexpr const gpio_num_t pins_scl = GPIO_NUM_17;
constexpr const gpio_num_t pins_dht = GPIO_NUM_33; constexpr const gpio_num_t pins_dht = GPIO_NUM_33;
constexpr const std::string_view broker_url = "mqtt://192.168.0.2/";
constexpr const std::string_view topic_lamp_availability = "dahoam/wohnzimmer/deckenlicht1/available"; constexpr const std::string_view topic_lamp_availability = "dahoam/wohnzimmer/deckenlicht1/available";
constexpr const std::string_view topic_lamp_status = "dahoam/wohnzimmer/deckenlicht1/status"; constexpr const std::string_view topic_lamp_status = "dahoam/wohnzimmer/deckenlicht1/status";
constexpr const std::string_view topic_lamp_set = "dahoam/wohnzimmer/deckenlicht1/set"; constexpr const std::string_view topic_lamp_set = "dahoam/wohnzimmer/deckenlicht1/set";
@@ -52,8 +54,8 @@ constexpr const std::string_view topic_lamp_set = "dahoam/wohnzimmer/deckenlicht
constexpr const std::string_view topic_switch_availability = "dahoam/wohnzimmer/lichtschalter1/available"; constexpr const std::string_view topic_switch_availability = "dahoam/wohnzimmer/lichtschalter1/available";
constexpr const std::string_view topic_switch_status = "dahoam/wohnzimmer/lichtschalter1/status"; constexpr const std::string_view topic_switch_status = "dahoam/wohnzimmer/lichtschalter1/status";
constexpr const std::string_view topic_lux_availability = "dahoam/wohnzimmer/lux1/available"; constexpr const std::string_view topic_tsl2561_availability = "dahoam/wohnzimmer/tsl2561_1/available";
constexpr const std::string_view topic_lux_value = "dahoam/wohnzimmer/lux1/value"; constexpr const std::string_view topic_tsl2561_lux = "dahoam/wohnzimmer/tsl2561_1/lux";
constexpr const std::string_view topic_bmp085_availability = "dahoam/wohnzimmer/bmp085_1/available"; constexpr const std::string_view topic_bmp085_availability = "dahoam/wohnzimmer/bmp085_1/available";
constexpr const std::string_view topic_bmp085_pressure = "dahoam/wohnzimmer/bmp085_1/pressure"; constexpr const std::string_view topic_bmp085_pressure = "dahoam/wohnzimmer/bmp085_1/pressure";
@@ -64,6 +66,11 @@ constexpr const std::string_view topic_dht11_availability = "dahoam/wohnzimmer/d
constexpr const std::string_view topic_dht11_temperature = "dahoam/wohnzimmer/dht11_1/temperature"; constexpr const std::string_view topic_dht11_temperature = "dahoam/wohnzimmer/dht11_1/temperature";
constexpr const std::string_view topic_dht11_humidity = "dahoam/wohnzimmer/dht11_1/humidity"; constexpr const std::string_view topic_dht11_humidity = "dahoam/wohnzimmer/dht11_1/humidity";
constexpr const auto availableTimeoutTime = 1min;
constexpr const auto valueUpdateInterval = 15s;
std::atomic<bool> mqttConnected; std::atomic<bool> mqttConnected;
espcpputils::mqtt_client mqttClient; espcpputils::mqtt_client mqttClient;
@@ -73,18 +80,45 @@ std::atomic<bool> switchState;
//espchrono::millis_clock::time_point lastLampToggle; //espchrono::millis_clock::time_point lastLampToggle;
//espchrono::millis_clock::time_point lastSwitchToggle; //espchrono::millis_clock::time_point lastSwitchToggle;
Adafruit_TSL2561_Unified tsl{TSL2561_ADDR_FLOAT, 12345}; Adafruit_TSL2561_Unified tsl{TSL2561_ADDR_FLOAT, 12345};
Adafruit_BMP085_Unified bmp{10085};
DHT_Unified dht(pins_dht, DHT11);
bool tslInitialized{}; bool tslInitialized{};
bool bmpInitialized{}; struct TslValue
{
espchrono::millis_clock::time_point timestamp;
float lux;
};
std::optional<TslValue> lastTslValue;
espchrono::millis_clock::time_point last_tsl2561_lux_pub;
std::optional<float> lastTslValue;
struct BmpValue { float pressure; float temperature; float altitude; }; Adafruit_BMP085_Unified bmp{10085};
bool bmpInitialized{};
struct BmpValue
{
espchrono::millis_clock::time_point timestamp;
float pressure;
float temperature;
float altitude;
};
std::optional<BmpValue> lastBmpValue; std::optional<BmpValue> lastBmpValue;
struct DhtValue { float temperature; float humidity; }; espchrono::millis_clock::time_point last_bmp085_pressure_pub;
espchrono::millis_clock::time_point last_bmp085_temperature_pub;
espchrono::millis_clock::time_point last_bmp085_altitude_pub;
DHT_Unified dht(pins_dht, DHT11);
struct DhtValue
{
espchrono::millis_clock::time_point timestamp;
float temperature;
float humidity;
};
std::optional<DhtValue> lastDhtValue; std::optional<DhtValue> lastDhtValue;
espchrono::millis_clock::time_point last_dht11_temperature_pub;
espchrono::millis_clock::time_point last_dht11_humidity_pub;
esp_err_t webserver_root_handler(httpd_req_t *req); esp_err_t webserver_root_handler(httpd_req_t *req);
esp_err_t webserver_on_handler(httpd_req_t *req); esp_err_t webserver_on_handler(httpd_req_t *req);
@@ -300,7 +334,7 @@ extern "C" void app_main()
{ {
esp_mqtt_client_config_t mqtt_cfg = { esp_mqtt_client_config_t mqtt_cfg = {
.uri = "mqtt://192.168.0.2/", .uri = broker_url.data(),
}; };
mqttClient = espcpputils::mqtt_client{&mqtt_cfg}; mqttClient = espcpputils::mqtt_client{&mqtt_cfg};
@@ -451,15 +485,21 @@ extern "C" void app_main()
/* Display the results (light is measured in lux) */ /* Display the results (light is measured in lux) */
if (event->light) if (event->light)
{ {
const float tslValue = event->light; TslValue tslValue {
ESP_LOGI(TAG, "read tsl: %.1f lux", tslValue); .timestamp = espchrono::millis_clock::now(),
.lux = event->light
};
ESP_LOGI(TAG, "read tsl: %.1f lux", tslValue.lux);
if (mqttClient && mqttConnected) if (mqttClient && mqttConnected)
{ {
if (!lastTslValue) if (!lastTslValue)
mqttVerbosePub(topic_lux_availability, "online", 0, 1); mqttVerbosePub(topic_tsl2561_availability, "online", 0, 1);
if (!lastTslValue || fmt::format("{:.1f}", *lastTslValue) != fmt::format("{:.1f}", tslValue)) if (!lastTslValue || espchrono::ago(last_tsl2561_lux_pub) >= valueUpdateInterval)
mqttVerbosePub(topic_lux_value, fmt::format("{:.1f}", tslValue), 0, 1); {
if (mqttVerbosePub(topic_tsl2561_lux, fmt::format("{:.1f}", tslValue.lux), 0, 1) >= 0)
last_tsl2561_lux_pub = espchrono::millis_clock::now();
}
} }
lastTslValue = tslValue; lastTslValue = tslValue;
@@ -468,7 +508,8 @@ extern "C" void app_main()
{ {
/* If event.light = 0 lux the sensor is probably saturated /* If event.light = 0 lux the sensor is probably saturated
* and no reliable data could be generated! */ * and no reliable data could be generated! */
ESP_LOGD(TAG, "tsl sensor overload %f", event->light); ESP_LOGW(TAG, "tsl sensor overload %f", event->light);
goto tslOffline;
} }
} }
else else
@@ -480,42 +521,54 @@ extern "C" void app_main()
else else
{ {
tslOffline: tslOffline:
if (lastTslValue) if (lastTslValue && espchrono::ago(lastTslValue->timestamp) >= availableTimeoutTime)
{ {
ESP_LOGW(TAG, "tsl timeouted");
if (mqttClient && mqttConnected) if (mqttClient && mqttConnected)
mqttVerbosePub(topic_lux_availability, "offline", 0, 1); mqttVerbosePub(topic_tsl2561_availability, "offline", 0, 1);
lastTslValue = std::nullopt; lastTslValue = std::nullopt;
} }
} }
if (bmpInitialized) if (bmpInitialized)
{ {
if (std::optional<sensors_event_t> event = bmp.getEvent()) if (std::optional<Adafruit_BMP085_Unified::TemperatureAndPressure> values = bmp.getTemperatureAndPressure())
{ {
if (event->pressure) if (values->temperature && values->pressure)
{ {
BmpValue bmpValue { .pressure = event->pressure }; BmpValue bmpValue {
.timestamp = espchrono::millis_clock::now(),
.pressure = values->pressure,
.temperature = values->temperature
};
ESP_LOGI(TAG, "read bmp Pressure: %.1f hPa", bmpValue.pressure); ESP_LOGI(TAG, "read bmp Pressure: %.1f hPa", bmpValue.pressure);
bmp.getTemperature(&bmpValue.temperature);
ESP_LOGI(TAG, "read bmp Temperature: %.1f C", bmpValue.temperature); ESP_LOGI(TAG, "read bmp Temperature: %.1f C", bmpValue.temperature);
/* Then convert the atmospheric pressure, and SLP to altitude */ /* Then convert the atmospheric pressure, and SLP to altitude */
/* Update this next line with the current SLP for better results */ /* Update this next line with the current SLP for better results */
constexpr const float seaLevelPressure = SENSORS_PRESSURE_SEALEVELHPA; constexpr const float seaLevelPressure = SENSORS_PRESSURE_SEALEVELHPA;
bmpValue.altitude = bmp.pressureToAltitude(seaLevelPressure, event->pressure); bmpValue.altitude = bmp.pressureToAltitude(seaLevelPressure, bmpValue.pressure);
ESP_LOGI(TAG, "read bmp Altitude: %.1f m", bmpValue.altitude); ESP_LOGI(TAG, "read bmp Altitude: %.1f m", bmpValue.altitude);
if (mqttClient && mqttConnected) if (mqttClient && mqttConnected)
{ {
if (!lastBmpValue) if (!lastBmpValue)
mqttVerbosePub(topic_bmp085_availability, "online", 0, 1); mqttVerbosePub(topic_bmp085_availability, "online", 0, 1);
if (!lastBmpValue || fmt::format("{:.1f}", lastBmpValue->pressure) != fmt::format("{:.1f}", bmpValue.pressure)) if (!lastBmpValue || espchrono::ago(last_bmp085_pressure_pub) >= valueUpdateInterval)
mqttVerbosePub(topic_bmp085_pressure, fmt::format("{:.1f}", bmpValue.pressure), 0, 1); {
if (!lastBmpValue || fmt::format("{:.1f}", lastBmpValue->temperature) != fmt::format("{:.1f}", bmpValue.temperature)) if (mqttVerbosePub(topic_bmp085_pressure, fmt::format("{:.1f}", bmpValue.pressure), 0, 1) >= 0)
mqttVerbosePub(topic_bmp085_temperature, fmt::format("{:.1f}", bmpValue.temperature), 0, 1); last_bmp085_pressure_pub = espchrono::millis_clock::now();
if (!lastBmpValue || fmt::format("{:.1f}", lastBmpValue->altitude) != fmt::format("{:.1f}", bmpValue.altitude)) }
mqttVerbosePub(topic_bmp085_altitude, fmt::format("{:.1f}", bmpValue.altitude), 0, 1); if (!lastBmpValue || espchrono::ago(last_bmp085_temperature_pub) >= valueUpdateInterval)
{
if (mqttVerbosePub(topic_bmp085_temperature, fmt::format("{:.1f}", bmpValue.temperature), 0, 1) >= 0)
last_bmp085_temperature_pub = espchrono::millis_clock::now();
}
if (!lastBmpValue || espchrono::ago(last_bmp085_altitude_pub) >= valueUpdateInterval)
{
if (mqttVerbosePub(topic_bmp085_altitude, fmt::format("{:.1f}", bmpValue.altitude), 0, 1) >= 0)
last_bmp085_altitude_pub = espchrono::millis_clock::now();
}
} }
lastBmpValue = bmpValue; lastBmpValue = bmpValue;
@@ -535,8 +588,9 @@ extern "C" void app_main()
else else
{ {
bmpOffline: bmpOffline:
if (lastBmpValue) if (lastBmpValue && espchrono::ago(lastBmpValue->timestamp) >= availableTimeoutTime)
{ {
ESP_LOGW(TAG, "bmp timeouted");
if (mqttClient && mqttConnected) if (mqttClient && mqttConnected)
mqttVerbosePub(topic_bmp085_availability, "offline", 0, 1); mqttVerbosePub(topic_bmp085_availability, "offline", 0, 1);
lastBmpValue = std::nullopt; lastBmpValue = std::nullopt;
@@ -550,6 +604,7 @@ extern "C" void app_main()
if (temperatureEvent && humidityEvent) if (temperatureEvent && humidityEvent)
{ {
DhtValue dhtValue { DhtValue dhtValue {
.timestamp = espchrono::millis_clock::now(),
.temperature = temperatureEvent->temperature, .temperature = temperatureEvent->temperature,
.humidity = humidityEvent->relative_humidity .humidity = humidityEvent->relative_humidity
}; };
@@ -561,10 +616,16 @@ extern "C" void app_main()
{ {
if (!lastDhtValue) if (!lastDhtValue)
mqttVerbosePub(topic_dht11_availability, "online", 0, 1); mqttVerbosePub(topic_dht11_availability, "online", 0, 1);
if (!lastDhtValue || fmt::format("{:.1f}", lastDhtValue->temperature) != fmt::format("{:.1f}", dhtValue.temperature)) if (!lastDhtValue || espchrono::ago(last_dht11_temperature_pub) >= valueUpdateInterval)
mqttVerbosePub(topic_dht11_temperature, fmt::format("{:.1f}", dhtValue.temperature), 0, 1); {
if (!lastDhtValue || fmt::format("{:.1f}", lastDhtValue->humidity) != fmt::format("{:.1f}", dhtValue.humidity)) if (mqttVerbosePub(topic_dht11_temperature, fmt::format("{:.1f}", dhtValue.temperature), 0, 1) >= 0)
mqttVerbosePub(topic_dht11_humidity, fmt::format("{:.1f}", dhtValue.humidity), 0, 1); last_dht11_temperature_pub = espchrono::millis_clock::now();
}
if (!lastDhtValue || espchrono::ago(last_dht11_humidity_pub) >= valueUpdateInterval)
{
if (mqttVerbosePub(topic_dht11_humidity, fmt::format("{:.1f}", dhtValue.humidity), 0, 1) >= 0)
last_dht11_humidity_pub = espchrono::millis_clock::now();
}
} }
lastDhtValue = dhtValue; lastDhtValue = dhtValue;
@@ -572,8 +633,9 @@ extern "C" void app_main()
else else
{ {
ESP_LOGW(TAG, "dht temperature or humidity failed"); ESP_LOGW(TAG, "dht temperature or humidity failed");
if (lastDhtValue) if (lastDhtValue && espchrono::ago(lastDhtValue->timestamp) >= availableTimeoutTime)
{ {
ESP_LOGW(TAG, "dht timeouted");
if (mqttClient && mqttConnected) if (mqttClient && mqttConnected)
mqttVerbosePub(topic_dht11_availability, "offline", 0, 1); mqttVerbosePub(topic_dht11_availability, "offline", 0, 1);
lastDhtValue = std::nullopt; lastDhtValue = std::nullopt;
@@ -631,7 +693,9 @@ esp_err_t webserver_root_handler(httpd_req_t *req)
body += fmt::format("Switch: {}<br/>\n", switchState ? "ON" : "OFF"); body += fmt::format("Switch: {}<br/>\n", switchState ? "ON" : "OFF");
if (lastTslValue) if (lastTslValue)
body += fmt::format("Brightness: {:.1f} lux<br/>\n", *lastTslValue); {
body += fmt::format("Brightness: {:.1f} lux<br/>\n", lastTslValue->lux);
}
if (lastBmpValue) if (lastBmpValue)
{ {
@@ -738,23 +802,31 @@ void mqttEventHandler(void *event_handler_arg, esp_event_base_t event_base, int3
mqttVerbosePub(topic_switch_availability, "online", 0, 1); mqttVerbosePub(topic_switch_availability, "online", 0, 1);
mqttVerbosePub(topic_switch_status, switchState.load() ? "ON" : "OFF", 0, 1); mqttVerbosePub(topic_switch_status, switchState.load() ? "ON" : "OFF", 0, 1);
mqttVerbosePub(topic_lux_availability, lastTslValue ? "online" : "offline", 0, 1); mqttVerbosePub(topic_tsl2561_availability, lastTslValue ? "online" : "offline", 0, 1);
if (lastTslValue) if (lastTslValue)
mqttVerbosePub(topic_lux_value, fmt::format("{:.1f}", *lastTslValue), 0, 1); {
if (mqttVerbosePub(topic_tsl2561_lux, fmt::format("{:.1f}", lastTslValue->lux), 0, 1) >= 0)
last_tsl2561_lux_pub = espchrono::millis_clock::now();
}
mqttVerbosePub(topic_bmp085_availability, lastBmpValue ? "online" : "offline", 0, 1); mqttVerbosePub(topic_bmp085_availability, lastBmpValue ? "online" : "offline", 0, 1);
if (lastBmpValue) if (lastBmpValue)
{ {
mqttVerbosePub(topic_bmp085_pressure, fmt::format("{:.1f}", lastBmpValue->pressure), 0, 1); if (mqttVerbosePub(topic_bmp085_pressure, fmt::format("{:.1f}", lastBmpValue->pressure), 0, 1) >= 0)
mqttVerbosePub(topic_bmp085_temperature, fmt::format("{:.1f}", lastBmpValue->temperature), 0, 1); last_bmp085_pressure_pub = espchrono::millis_clock::now();
mqttVerbosePub(topic_bmp085_altitude, fmt::format("{:.1f}", lastBmpValue->altitude), 0, 1); if (mqttVerbosePub(topic_bmp085_temperature, fmt::format("{:.1f}", lastBmpValue->temperature), 0, 1) >= 0)
last_bmp085_temperature_pub = espchrono::millis_clock::now();
if (mqttVerbosePub(topic_bmp085_altitude, fmt::format("{:.1f}", lastBmpValue->altitude), 0, 1) >= 0)
last_bmp085_altitude_pub = espchrono::millis_clock::now();
} }
mqttVerbosePub(topic_dht11_availability, lastDhtValue ? "online" : "offline", 0, 1); mqttVerbosePub(topic_dht11_availability, lastDhtValue ? "online" : "offline", 0, 1);
if (lastDhtValue) if (lastDhtValue)
{ {
mqttVerbosePub(topic_dht11_temperature, fmt::format("{:.1f}", lastDhtValue->temperature), 0, 1); if (mqttVerbosePub(topic_dht11_temperature, fmt::format("{:.1f}", lastDhtValue->temperature), 0, 1) >= 0)
mqttVerbosePub(topic_dht11_humidity, fmt::format("{:.1f}", lastDhtValue->humidity), 0, 1); last_dht11_temperature_pub = espchrono::millis_clock::now();
if (mqttVerbosePub(topic_dht11_humidity, fmt::format("{:.1f}", lastDhtValue->humidity), 0, 1) >= 0)
last_dht11_humidity_pub = espchrono::millis_clock::now();
} }
mqttClient.subscribe(topic_lamp_set, 0); mqttClient.subscribe(topic_lamp_set, 0);
@@ -812,8 +884,13 @@ void mqttEventHandler(void *event_handler_arg, esp_event_base_t event_base, int3
int mqttVerbosePub(std::string_view topic, std::string_view value, int qos, int retain) int mqttVerbosePub(std::string_view topic, std::string_view value, int qos, int retain)
{ {
ESP_LOGI(TAG, "topic=\"%.*s\" value=\"%.*s\"", topic.size(), topic.data(), value.size(), value.data()); ESP_LOGD(TAG, "topic=\"%.*s\" value=\"%.*s\"", topic.size(), topic.data(), value.size(), value.data());
return mqttClient.publish(topic, value, qos, retain); const auto pending_msg_id = mqttClient.publish(topic, value, qos, retain);
if (pending_msg_id < 0)
ESP_LOGE(TAG, "topic=\"%.*s\" value=\"%.*s\" failed pending_msg_id=%i", topic.size(), topic.data(), value.size(), value.data(), pending_msg_id);
else
ESP_LOGI(TAG, "topic=\"%.*s\" value=\"%.*s\" succeeded pending_msg_id=%i", topic.size(), topic.data(), value.size(), value.data(), pending_msg_id);
return pending_msg_id;
} }
} // namespace } // namespace