mirror of https://github.com/arendst/Tasmota.git
Update xdrv_12_home_assistant.ino
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@ -131,8 +131,7 @@ const char HASS_DISCOVER_SENSOR_ILLUMINANCE[] PROGMEM =
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"\"dev_cla\":\"illuminance\""; // illuminance
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"\"dev_cla\":\"illuminance\""; // illuminance
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const char HASS_DISCOVER_SENSOR_ANY[] PROGMEM =
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const char HASS_DISCOVER_SENSOR_ANY[] PROGMEM =
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",\"unit_of_meas\":\" \"," // " " As unit of measurement to get a value graph in Hass
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",\"val_tpl\":\"{{value_json['%s'].%s}}\""; // "COUNTER":{"C1":0} -> {{ value_json['COUNTER'].C1 }}
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"\"val_tpl\":\"{{value_json['%s'].%s}}\""; // "COUNTER":{"C1":0} -> {{ value_json['COUNTER'].C1 }}
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const char HASS_DISCOVER_SENSOR_HASS_STATUS[] PROGMEM =
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const char HASS_DISCOVER_SENSOR_HASS_STATUS[] PROGMEM =
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",\"json_attributes_topic\":\"%s\","
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",\"json_attributes_topic\":\"%s\","
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@ -411,22 +410,35 @@ void HAssAnnounceSensor(const char* sensorname, const char* subsensortype)
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char stemp1[TOPSZ];
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char stemp1[TOPSZ];
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char stemp2[TOPSZ];
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char stemp2[TOPSZ];
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char unique_id[30];
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char unique_id[30];
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bool is_sensor = true;
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// Announce sensor, special handling of temperature and humidity sensors
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// Announce sensor, special handling of temperature and humidity sensors
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mqtt_data[0] = '\0'; // Clear retained message
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mqtt_data[0] = '\0'; // Clear retained message
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// Clear or Set topic
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// Clear or Set topic
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snprintf_P(unique_id, sizeof(unique_id), PSTR("%06X_%s_%s"), ESP.getChipId(), sensorname, subsensortype);
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snprintf_P(unique_id, sizeof(unique_id), PSTR("%06X_%s_%s"), ESP.getChipId(), sensorname, subsensortype);
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snprintf_P(stopic, sizeof(stopic), PSTR(HOME_ASSISTANT_DISCOVERY_PREFIX "/sensor/%s/config"), unique_id);
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if (!strncmp_P(sensorname, "MPR121", 6)) { // Add more exceptions here. Perhaps MCP230XX?
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snprintf_P(stopic, sizeof(stopic), PSTR(HOME_ASSISTANT_DISCOVERY_PREFIX "/binary_sensor/%s/config"), unique_id);
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is_sensor = false;
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} else {
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snprintf_P(stopic, sizeof(stopic), PSTR(HOME_ASSISTANT_DISCOVERY_PREFIX "/sensor/%s/config"), unique_id);
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}
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if (Settings.flag.hass_discovery) {
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if (Settings.flag.hass_discovery) {
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char name[33+42]; // friendlyname(33) + " " + sensorname(20?) + " " + sensortype(20?)
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char name[33+42]; // friendlyname(33) + " " + sensorname(20?) + " " + sensortype(20?)
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char prefix[TOPSZ];
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char prefix[TOPSZ];
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char *state_topic = stemp1;
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char *state_topic = stemp1;
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char *availability_topic = stemp2;
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char *availability_topic = stemp2;
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// sensor or binary_sensor? //
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if (!is_sensor) {
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snprintf_P(stopic, sizeof(stopic), PSTR(HOME_ASSISTANT_DISCOVERY_PREFIX "/binary_sensor/%s/config"), unique_id);
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GetTopic_P(state_topic, STAT, mqtt_topic, PSTR(D_RSLT_RESULT));
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} else {
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snprintf_P(stopic, sizeof(stopic), PSTR(HOME_ASSISTANT_DISCOVERY_PREFIX "/sensor/%s/config"), unique_id);
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GetTopic_P(state_topic, TELE, mqtt_topic, PSTR(D_RSLT_SENSOR));
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}
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snprintf_P(name, sizeof(name), PSTR("%s %s %s"), Settings.friendlyname[0], sensorname, subsensortype);
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snprintf_P(name, sizeof(name), PSTR("%s %s %s"), Settings.friendlyname[0], sensorname, subsensortype);
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GetTopic_P(state_topic, TELE, mqtt_topic, PSTR(D_RSLT_SENSOR));
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GetTopic_P(availability_topic, TELE, mqtt_topic, S_LWT);
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GetTopic_P(availability_topic, TELE, mqtt_topic, S_LWT);
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FindPrefix(state_topic, availability_topic, prefix);
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FindPrefix(state_topic, availability_topic, prefix);
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Shorten(&state_topic, prefix);
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Shorten(&state_topic, prefix);
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@ -436,9 +448,6 @@ void HAssAnnounceSensor(const char* sensorname, const char* subsensortype)
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TryResponseAppend_P(HASS_DISCOVER_DEVICE_INFO_SHORT, unique_id, ESP.getChipId(), WiFi.macAddress().c_str());
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TryResponseAppend_P(HASS_DISCOVER_DEVICE_INFO_SHORT, unique_id, ESP.getChipId(), WiFi.macAddress().c_str());
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TryResponseAppend_P(HASS_DISCOVER_TOPIC_PREFIX, prefix);
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TryResponseAppend_P(HASS_DISCOVER_TOPIC_PREFIX, prefix);
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if (!strcmp_P(subsensortype, PSTR(D_JSON_TEMPERATURE))) {
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if (!strcmp_P(subsensortype, PSTR(D_JSON_TEMPERATURE))) {
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if (!strncmp_P(sensorname, "DS18B20-", 8)){
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TryResponseAppend_P(HASS_DISCOVER_DS18X20_MULTI, state_topic, sensorname); // Add 'Id' as additional information
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}
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TryResponseAppend_P(HASS_DISCOVER_SENSOR_TEMP, TempUnit(), sensorname);
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TryResponseAppend_P(HASS_DISCOVER_SENSOR_TEMP, TempUnit(), sensorname);
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} else if (!strcmp_P(subsensortype, PSTR(D_JSON_HUMIDITY))) {
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} else if (!strcmp_P(subsensortype, PSTR(D_JSON_HUMIDITY))) {
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TryResponseAppend_P(HASS_DISCOVER_SENSOR_HUM, sensorname);
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TryResponseAppend_P(HASS_DISCOVER_SENSOR_HUM, sensorname);
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@ -457,6 +466,9 @@ void HAssAnnounceSensor(const char* sensorname, const char* subsensortype)
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} else if (!strcmp_P(subsensortype, PSTR(D_JSON_ILLUMINANCE))){
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} else if (!strcmp_P(subsensortype, PSTR(D_JSON_ILLUMINANCE))){
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TryResponseAppend_P(HASS_DISCOVER_SENSOR_ILLUMINANCE, sensorname, subsensortype);
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TryResponseAppend_P(HASS_DISCOVER_SENSOR_ILLUMINANCE, sensorname, subsensortype);
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} else {
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} else {
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if (is_sensor){
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TryResponseAppend_P(PSTR(",\"unit_of_meas\":\" \"")); // " " As unit of measurement to get a value graph (not available for binary sensors)
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}
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TryResponseAppend_P(HASS_DISCOVER_SENSOR_ANY, sensorname, subsensortype);
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TryResponseAppend_P(HASS_DISCOVER_SENSOR_ANY, sensorname, subsensortype);
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}
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}
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TryResponseAppend_P(PSTR("}"));
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TryResponseAppend_P(PSTR("}"));
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@ -489,14 +501,14 @@ void HAssAnnounceSensors(void)
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StaticJsonBuffer<500> jsonBuffer;
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StaticJsonBuffer<500> jsonBuffer;
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JsonObject& root = jsonBuffer.parseObject(sensordata);
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JsonObject& root = jsonBuffer.parseObject(sensordata);
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if (!root.success()) {
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if (!root.success()) {
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AddLog_P2(LOG_LEVEL_ERROR, PSTR("HASS: failed to parse '%s'"), sensordata);
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AddLog_P2(LOG_LEVEL_ERROR, PSTR("HASS: jsonBuffer failed to parse '%s'"), sensordata);
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continue;
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continue;
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}
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}
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for (auto sensor : root) {
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for (auto sensor : root) {
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const char* sensorname = sensor.key;
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const char* sensorname = sensor.key;
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JsonObject& sensors = sensor.value.as<JsonObject>();
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JsonObject& sensors = sensor.value.as<JsonObject>();
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if (!sensors.success()) {
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if (!sensors.success()) {
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AddLog_P2(LOG_LEVEL_ERROR, PSTR("HASS: failed to parse '%s'"), sensordata);
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AddLog_P2(LOG_LEVEL_ERROR, PSTR("HASS: JsonObject failed to parse '%s'"), sensordata);
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continue;
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continue;
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}
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}
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for (auto subsensor : sensors) {
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for (auto subsensor : sensors) {
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