Tasmota/tasmota/xdrv_12_home_assistant.ino

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/*
xdrv_12_home_assistant.ino - home assistant support for Tasmota
Copyright (C) 2020 Erik Montnemery, Federico Leoni and Theo Arends
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#ifdef USE_HOME_ASSISTANT
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#define XDRV_12 12
// List of sensors ready for discovery
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const char kHAssJsonSensorTypes[] PROGMEM =
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D_JSON_TEMPERATURE "|" D_JSON_DEWPOINT "|" D_JSON_PRESSURE "|" D_JSON_PRESSUREATSEALEVEL "|"
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D_JSON_APPARENT_POWERUSAGE "|Battery|" D_JSON_CURRENT "|" D_JSON_DISTANCE "|" D_JSON_FREQUENCY "|" D_JSON_HUMIDITY "|" D_JSON_ILLUMINANCE "|"
D_JSON_MOISTURE "|PB0.3|PB0.5|PB1|PB2.5|PB5|PB10|PM1|PM2.5|PM10|" D_JSON_POWERFACTOR "|" D_JSON_POWERUSAGE "|"
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D_JSON_REACTIVE_POWERUSAGE "|" D_JSON_TODAY "|" D_JSON_TOTAL "|" D_JSON_VOLTAGE "|" D_JSON_WEIGHT "|" D_JSON_YESTERDAY "|"
D_JSON_CO2 "|" D_JSON_ECO2 "|" D_JSON_TVOC "|";
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const char kHAssJsonSensorUnits[] PROGMEM =
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"||||"
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"VA|%|A|Cm|Hz|%|LX|"
"%|ppd|ppd|ppd|ppd|ppd|ppd|µg/m³|µg/m³|µg/m³|Cos φ|W|"
"VAr|kWh|kWh|V|Kg|kWh|"
"ppm|ppm|ppb|";
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const char kHAssJsonSensorDevCla[] PROGMEM =
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"dev_cla\":\"temperature|ic\":\"mdi:weather-rainy|dev_cla\":\"pressure|dev_cla\":\"pressure|"
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"dev_cla\":\"power|dev_cla\":\"battery|ic\":\"mdi:alpha-a-circle-outline|ic\":\"mdi:leak|ic\":\"mdi:current-ac|dev_cla\":\"humidity|dev_cla\":\"illuminance|"
"ic\":\"mdi:cup-water|ic\":\"mdi:flask|ic\":\"mdi:flask|ic\":\"mdi:flask|ic\":\"mdi:flask|ic\":\"mdi:flask|ic\":\"mdi:flask|"
"ic\":\"mdi:air-filter|ic\":\"mdi:air-filter|ic\":\"mdi:air-filter|ic\":\"mdi:alpha-f-circle-outline|dev_cla\":\"power|"
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"dev_cla\":\"power|dev_cla\":\"power|dev_cla\":\"power|ic\":\"mdi:alpha-v-circle-outline|ic\":\"mdi:scale|dev_cla\":\"power|"
"ic\":\"mdi:periodic-table-co2|ic\":\"mdi:air-filter|ic\":\"mdi:periodic-table-co2|";
//"ic\":\"mdi:weather-windy|ic\":\"mdi:weather-windy|ic\":\"mdi:weather-windy|ic\":\"mdi:weather-windy|"
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// List of sensors ready for discovery
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const char HASS_DISCOVER_SENSOR[] PROGMEM =
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",\"unit_of_meas\":\"%s\",\"%s\"," // unit of measure and class (or icon)
"\"frc_upd\":true," // force update for better graph representation
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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_BASE[] PROGMEM =
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"{\"name\":\"%s\"," // dualr2 1
"\"stat_t\":\"%s\"," // stat/dualr2/RESULT (implies "\"optimistic\":\"false\",")
"\"avty_t\":\"%s\"," // tele/dualr2/LWT
"\"pl_avail\":\"" D_ONLINE "\"," // Online
"\"pl_not_avail\":\"" D_OFFLINE "\""; // Offline
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const char HASS_DISCOVER_RELAY[] PROGMEM =
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",\"cmd_t\":\"%s\"," // cmnd/dualr2/POWER2
"\"val_tpl\":\"{{value_json.%s}}\"," // POWER2
"\"pl_off\":\"%s\"," // OFF
"\"pl_on\":\"%s\""; // ON
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const char HASS_DISCOVER_BIN_SWITCH[] PROGMEM =
",\"val_tpl\":\"{{value_json.%s}}\"," // STATE
"\"frc_upd\":true," // In ON/OFF case, enable force_update to make automations work
"\"pl_on\":\"%s\"," // ON
"\"pl_off\":\"%s\""; // OFF
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const char HASS_DISCOVER_BIN_PIR[] PROGMEM =
",\"val_tpl\":\"{{value_json.%s}}\"," // STATE
"\"frc_upd\":true," // In ON/OFF case, enable force_update to make automations work
"\"pl_on\":\"%s\"," // ON
"\"off_dly\":1"; // Switchmode13 and Switchmode14 doesn't transmit an OFF state.
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const char HASS_DISCOVER_LIGHT_DIMMER[] PROGMEM =
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",\"bri_cmd_t\":\"%s\"," // cmnd/led2/Dimmer
"\"bri_stat_t\":\"%s\"," // stat/led2/RESULT
"\"bri_scl\":100," // 100%
"\"on_cmd_type\":\"%s\"," // power on (first), power on (last), no power on (brightness)
"\"bri_val_tpl\":\"{{value_json." D_CMND_DIMMER "}}\"";
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const char HASS_DISCOVER_LIGHT_COLOR[] PROGMEM =
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",\"rgb_cmd_t\":\"%s2\"," // cmnd/led2/Color2
"\"rgb_stat_t\":\"%s\"," // stat/led2/RESULT
"\"rgb_val_tpl\":\"{{value_json." D_CMND_COLOR ".split(',')[0:3]|join(',')}}\"";
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const char HASS_DISCOVER_LIGHT_WHITE[] PROGMEM =
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",\"whit_val_cmd_t\":\"%s\"," // cmnd/led2/White
"\"whit_val_stat_t\":\"%s\"," // stat/led2/RESULT
"\"whit_val_scl\":100,"
"\"whit_val_tpl\":\"{{value_json.Channel[3]}}\"";
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const char HASS_DISCOVER_LIGHT_CT[] PROGMEM =
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",\"clr_temp_cmd_t\":\"%s\"," // cmnd/led2/CT
"\"clr_temp_stat_t\":\"%s\"," // stat/led2/RESULT
"\"clr_temp_val_tpl\":\"{{value_json." D_CMND_COLORTEMPERATURE "}}\"";
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const char HASS_DISCOVER_LIGHT_SCHEME[] PROGMEM =
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",\"fx_cmd_t\":\"%s\"," // cmnd/led2/Scheme
"\"fx_stat_t\":\"%s\"," // stat/led2/RESULT
"\"fx_val_tpl\":\"{{value_json." D_CMND_SCHEME "}}\","
"\"fx_list\":[\"0\",\"1\",\"2\",\"3\",\"4\"]"; // string list with reference to scheme parameter.
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const char HASS_DISCOVER_SENSOR_HASS_STATUS[] PROGMEM =
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",\"json_attr_t\":\"%s\","
"\"unit_of_meas\":\"%%\","
"\"val_tpl\":\"{{value_json['" D_JSON_RSSI "']}}\","
"\"ic\":\"mdi:information-outline\"";
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const char HASS_DISCOVER_DEVICE_INFO[] PROGMEM =
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",\"uniq_id\":\"%s\","
"\"dev\":{\"ids\":[\"%06X\"],"
"\"name\":\"%s\","
"\"mdl\":\"%s\","
"\"sw\":\"%s%s\","
"\"mf\":\"Tasmota\"}";
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const char HASS_DISCOVER_DEVICE_INFO_SHORT[] PROGMEM =
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",\"uniq_id\":\"%s\","
"\"dev\":{\"ids\":[\"%06X\"]}";
const char HASS_TRIGGER_TYPE[] PROGMEM =
"{\"atype\":\"trigger\","
"\"t\":\"%sT\","
"\"pl\":\"{\\\"TRIG\\\":\\\"%s\\\"}\","
"\"type\":\"%s\","
"\"stype\":\"%s\","
"\"dev\":{\"ids\":[\"%06X\"]}}";
const char kHAssTriggerType[] PROGMEM =
"none|button_short_press|button_long_press|button_double_press";
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uint8_t hass_init_step = 0;
uint8_t hass_mode = 0;
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int hass_tele_period = 0;
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void TryResponseAppend_P(const char *format, ...)
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{
va_list args;
va_start(args, format);
char dummy[2];
int dlen = vsnprintf_P(dummy, 1, format, args);
int mlen = strlen(mqtt_data);
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int slen = sizeof(mqtt_data) - 1 - mlen;
if (dlen >= slen)
{
AddLog_P2(LOG_LEVEL_ERROR, PSTR("HASS: MQTT discovery failed due to too long topic or friendly name. "
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"Please shorten topic and friendly name. Failed to format(%u/%u):"),
dlen, slen);
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va_start(args, format);
vsnprintf_P(log_data, sizeof(log_data), format, args);
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AddLog(LOG_LEVEL_ERROR);
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}
else
{
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va_start(args, format);
vsnprintf_P(mqtt_data + mlen, slen, format, args);
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}
va_end(args);
}
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void HAssAnnounceRelayLight(void)
{
char stopic[TOPSZ];
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char stemp1[TOPSZ];
char stemp2[TOPSZ];
char stemp3[TOPSZ];
char unique_id[30];
bool is_light = false;
bool is_topic_light = false;
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for (uint32_t i = 1; i <= MAX_RELAYS; i++)
{
is_light = ((i == devices_present) && (light_type));
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is_topic_light = Settings.flag.hass_light || is_light; // SetOption30 - Enforce HAss autodiscovery as light
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mqtt_data[0] = '\0'; // Clear retained message
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// Clear "other" topic first in case the device has been reconfigured from light to switch or vice versa
snprintf_P(unique_id, sizeof(unique_id), PSTR("%06X_%s_%d"), ESP_getChipId(), (is_topic_light) ? "RL" : "LI", i);
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snprintf_P(stopic, sizeof(stopic), PSTR(HOME_ASSISTANT_DISCOVERY_PREFIX "/%s/%s/config"),
(is_topic_light) ? "switch" : "light", unique_id);
MqttPublish(stopic, true);
// Clear or Set topic
snprintf_P(unique_id, sizeof(unique_id), PSTR("%06X_%s_%d"), ESP_getChipId(), (is_topic_light) ? "LI" : "RL", i);
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snprintf_P(stopic, sizeof(stopic), PSTR(HOME_ASSISTANT_DISCOVERY_PREFIX "/%s/%s/config"),
(is_topic_light) ? "light" : "switch", unique_id);
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if (Settings.flag.hass_discovery && (i <= devices_present))
{ // SetOption19 - Control Home Assistantautomatic discovery (See SetOption59)
char name[33 + 2]; // friendlyname(33) + " " + index
char value_template[33];
char prefix[TOPSZ];
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char *command_topic = stemp1;
char *state_topic = stemp2;
char *availability_topic = stemp3;
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if (i > MAX_FRIENDLYNAMES) {
snprintf_P(name, sizeof(name), PSTR("%s %d"), SettingsText(SET_FRIENDLYNAME1), i);
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} else {
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snprintf_P(name, sizeof(name), SettingsText(SET_FRIENDLYNAME1 + i - 1));
}
GetPowerDevice(value_template, i, sizeof(value_template), Settings.flag.device_index_enable); // SetOption26 - Switch between POWER or POWER1
GetTopic_P(command_topic, CMND, mqtt_topic, value_template);
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GetTopic_P(state_topic, TELE, mqtt_topic, D_RSLT_STATE);
GetTopic_P(availability_topic, TELE, mqtt_topic, S_LWT);
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Response_P(HASS_DISCOVER_BASE, name, state_topic, availability_topic);
TryResponseAppend_P(HASS_DISCOVER_RELAY, command_topic, value_template, SettingsText(SET_STATE_TXT1), SettingsText(SET_STATE_TXT2));
TryResponseAppend_P(HASS_DISCOVER_DEVICE_INFO_SHORT, unique_id, ESP_getChipId());
#ifdef USE_LIGHT
if (is_light
#ifdef ESP8266
|| PWM_DIMMER == my_module_type
#endif
)
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{
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char *brightness_command_topic = stemp1;
GetTopic_P(brightness_command_topic, CMND, mqtt_topic, D_CMND_DIMMER);
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strncpy_P(stemp3, Settings.flag.not_power_linked ? PSTR("last") : PSTR("brightness"), sizeof(stemp3)); // SetOption20 - Control power in relation to Dimmer/Color/Ct changes
TryResponseAppend_P(HASS_DISCOVER_LIGHT_DIMMER, brightness_command_topic, state_topic, stemp3);
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if (Light.subtype >= LST_RGB)
{
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char *rgb_command_topic = stemp1;
GetTopic_P(rgb_command_topic, CMND, mqtt_topic, D_CMND_COLOR);
TryResponseAppend_P(HASS_DISCOVER_LIGHT_COLOR, rgb_command_topic, state_topic);
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char *effect_command_topic = stemp1;
GetTopic_P(effect_command_topic, CMND, mqtt_topic, D_CMND_SCHEME);
TryResponseAppend_P(HASS_DISCOVER_LIGHT_SCHEME, effect_command_topic, state_topic);
}
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if (LST_RGBW == Light.subtype)
{
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char *white_temp_command_topic = stemp1;
GetTopic_P(white_temp_command_topic, CMND, mqtt_topic, D_CMND_WHITE);
TryResponseAppend_P(HASS_DISCOVER_LIGHT_WHITE, white_temp_command_topic, state_topic);
}
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if ((LST_COLDWARM == Light.subtype) || (LST_RGBCW == Light.subtype))
{
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char *color_temp_command_topic = stemp1;
GetTopic_P(color_temp_command_topic, CMND, mqtt_topic, D_CMND_COLORTEMPERATURE);
TryResponseAppend_P(HASS_DISCOVER_LIGHT_CT, color_temp_command_topic, state_topic);
}
}
#endif // USE_LIGHT
TryResponseAppend_P(PSTR("}"));
}
MqttPublish(stopic, true);
}
}
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void HAssAnnouncerTriggers(uint8_t device, uint8_t present, uint8_t key, uint8_t toggle, uint8_t hold)
{
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// key 0 = button
// key 1 = switch
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char stopic[TOPSZ];
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char stemp1[TOPSZ];
char stemp2[TOPSZ];
char unique_id[30];
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mqtt_data[0] = '\0'; // Clear retained message
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for (uint8_t i = 2; i <= 3; i++) {
snprintf_P(unique_id, sizeof(unique_id), PSTR("%06X_%s_%d_%s"), ESP_getChipId(), key ? "SW" : "BTN", device + 1, GetStateText(i));
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snprintf_P(stopic, sizeof(stopic), PSTR(HOME_ASSISTANT_DISCOVERY_PREFIX "/device_automation/%s/config"), unique_id);
if (Settings.flag.hass_discovery && present) { // SetOption19 - Control Home Assistantautomatic discovery (See SetOption59)
char name[33 + 6]; // friendlyname(33) + " " + "BTN" + " " + index
char value_template[33];
char prefix[TOPSZ];
char *state_topic = stemp1;
char *availability_topic = stemp2;
char jsoname[8];
GetPowerDevice(value_template, device + 1, sizeof(value_template), key + Settings.flag.device_index_enable); // Force index for Switch 1, Index on Button1 is controlled by SetOption26 - Switch between POWER or POWER1
snprintf_P(jsoname, sizeof(jsoname), PSTR("%s%d"), key ? "SWITCH" : "BUTTON", device + 1);
GetTopic_P(state_topic, STAT, mqtt_topic, jsoname);
GetTopic_P(availability_topic, TELE, mqtt_topic, S_LWT);
char param[21];
char subtype[9];
uint8_t pload = toggle;
if ((i == 2 && toggle != 0) || (i == 3 && hold != 0)) {
if (i == 3) { pload = hold; }
GetTextIndexed(param, sizeof(param), pload, kHAssTriggerType);
snprintf_P(subtype, sizeof(subtype), PSTR("%s_%d"), key ? "switch" : "button", device + 1);
Response_P(HASS_TRIGGER_TYPE, state_topic, GetStateText(i), param, subtype, ESP_getChipId());
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} else { mqtt_data[0] = '\0'; } // Need to be cleaned again to avoid duplicate.
}
MqttPublish(stopic, true);
}
}
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void HAssAnnouncerBinSensors(uint8_t device, uint8_t present, uint8_t dual, uint8_t toggle, uint8_t pir)
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{
char stopic[TOPSZ];
char stemp1[TOPSZ];
char stemp2[TOPSZ];
char unique_id[30];
mqtt_data[0] = '\0'; // Clear retained message
snprintf_P(unique_id, sizeof(unique_id), PSTR("%06X_SW_%d"), ESP_getChipId(), device + 1);
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snprintf_P(stopic, sizeof(stopic), PSTR(HOME_ASSISTANT_DISCOVERY_PREFIX "/binary_sensor/%s/config"), unique_id);
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if (Settings.flag.hass_discovery && present ) { // SetOption19 - Control Home Assistantautomatic discovery (See SetOption59)
if (!toggle || dual) {
char name[33 + 6]; // friendlyname(33) + " " + "BTN" + " " + index
char value_template[33];
char prefix[TOPSZ];
char *state_topic = stemp1;
char *availability_topic = stemp2;
char jsoname[8];
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GetPowerDevice(value_template, device + 1, sizeof(value_template), 1 + Settings.flag.device_index_enable); // Force index for Switch 1, Index on Button1 is controlled by SetOption26 - Switch between POWER or POWER1
snprintf_P(jsoname, sizeof(jsoname), PSTR("SWITCH%d"), device + 1);
GetTopic_P(state_topic, STAT, mqtt_topic, jsoname);
GetTopic_P(availability_topic, TELE, mqtt_topic, S_LWT);
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snprintf_P(name, sizeof(name), PSTR("%s Switch%d"), SettingsText(SET_FRIENDLYNAME1), device + 1);
Response_P(HASS_DISCOVER_BASE, name, state_topic, availability_topic);
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if (!pir) {
TryResponseAppend_P(HASS_DISCOVER_BIN_SWITCH, PSTR(D_RSLT_STATE), SettingsText(SET_STATE_TXT2), SettingsText(SET_STATE_TXT1));
} else {
TryResponseAppend_P(HASS_DISCOVER_BIN_PIR, PSTR(D_RSLT_STATE), SettingsText(SET_STATE_TXT2));
}
TryResponseAppend_P(HASS_DISCOVER_DEVICE_INFO_SHORT, unique_id, ESP_getChipId());
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TryResponseAppend_P(PSTR("}"));
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}
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}
MqttPublish(stopic, true);
}
void HAssAnnounceSwitches(void)
{
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for (uint32_t switch_index = 0; switch_index < MAX_SWITCHES; switch_index++)
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{
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uint8_t switch_present = 0;
uint8_t dual = 0;
uint8_t toggle = 1;
uint8_t hold = 0;
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uint8_t pir = 0;
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if (pin[GPIO_SWT1 + switch_index] < 99) { switch_present = 1; }
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if (KeyTopicActive(1) && strcmp(SettingsText(SET_MQTT_SWITCH_TOPIC), mqtt_topic)) // Enable Discovery for Switches only if Switchtopic is set to a custom name
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{
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// switch matrix for triggers and binary sensor generation when switchtopic is set as custom (default index is 0,0 - TOGGLE, TOGGLE):
// SWITCHMODE INTERNAL BINARY PRESS DOUBLE PRESS HOLD T,H
// 0 TOGGLE NO TOGGLE (button_short_press) NONE NONE 1,0
// 1 FOLLOW YES NONE NONE NONE 0,0
// 2 FOLLOW_INV YES NONE NONE NONE 0,0
// 3 PUSHBUTTON YES TOGGLE (button_short_press) NONE NONE 1,0
// 4 PUSHBUTTON_INV YES TOGGLE (button_short_press) NONE NONE 1,0
// 5 PUSHBUTTONHOLD YES TOGGLE (button_short_press) NONE HOLD (button_long_press) 1,2
// 6 PUSHBUTTONHOLD_INV YES TOGGLE (button_short_press) NONE HOLD (button_long_press) 1,2
// 7 PUSHBUTTON_TOGGLE NO TOGGLE (button_short_press) NONE NONE 1,0
// 8 TOGGLEMULTI NO TOGGLE (button_short_press) HOLD (button_double_press) NONE 1,3
// 9 FOLLOWMULTI YES NONE HOLD (button_double_press) NONE 0,3
// 10 FOLLOWMULTI_INV YES NONE HOLD (button_double_press) NONE 0,3
// 11 PUSHHOLDMULTI NO TOGGLE (button_short_press) NONE INC_DEC (button_long_press) 1,0
// INV (not available) CLEAR (not available)
// 12 PUSHHOLDMULTI_INV NO TOGGLE (button_short_press) NONE CLEAR (button_long_press) 1,0
// INV (not available) INC_DEC (not available)
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// 13 PUSHON YES NONE NONE NONE 0,0
// 14 PUSHON_INV YES NONE NONE NONE 0,0
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// Please note: SwitchMode11 and 12 will register just TOGGLE (button_short_press)
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// Trigger types: "0 = none | 1 = button_short_press | 2 = button_long_press | 3 = button_double_press";
uint8_t swmode = Settings.switchmode[switch_index];
switch (swmode) {
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case FOLLOW:
case FOLLOW_INV:
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toggle = 0; // Binary sensor and no triggers
break;
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case PUSHBUTTON:
case PUSHBUTTON_INV:
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dual = 1; // Binary sensor and TOGGLE (button_short_press) trigger
break;
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case PUSHBUTTONHOLD:
case PUSHBUTTONHOLD_INV:
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dual = 1; // Binary sensor, TOGGLE (button_short_press) and HOLD (button_long_press) triggers
hold = 2;
break;
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case TOGGLEMULTI:
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hold = 3; // TOGGLE (button_short_press) and HOLD (button_double_press) triggers
break;
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case FOLLOWMULTI:
case FOLLOWMULTI_INV:
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dual = 1; // Binary sensor and HOLD (button_long_press) trigger
toggle = 0;
hold = 3;
break;
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case PUSHON:
case PUSHON_INV:
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toggle = 0;
pir = 1; // Binary sensor with only ON state and automatic OFF after 1 second.
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}
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} else { switch_present = 0;}
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HAssAnnouncerTriggers(switch_index, switch_present, 1, toggle, hold);
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HAssAnnouncerBinSensors(switch_index, switch_present, dual, toggle, pir);
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}
}
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void HAssAnnounceButtons(void)
{
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for (uint32_t button_index = 0; button_index < MAX_KEYS; button_index++)
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{
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uint8_t button_present = 0;
uint8_t toggle = 1;
uint8_t hold = 0;
#ifdef ESP8266
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if (!button_index && ((SONOFF_DUAL == my_module_type) || (CH4 == my_module_type)))
{
button_present = 1;
} else
#endif
{
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if (pin[GPIO_KEY1 + button_index] < 99) {
button_present = 1;
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}
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}
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// button matrix for triggers generation when buttontopic is set as custom (default TOGGLE = 1 HOLD = 0):
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// N SetOption1 SetOption11 SetOption13 PRESS DOUBLE PRESS HOLD T,H
// 1 0 0 0 TOGGLE (button_short_press) NONE (toggle real relay) NONE (reset device) 1,0
// 2 1 0 0 TOGGLE (button_short_press) NONE (toggle real relay) HOLD (button_long_press) 1,2
// 3 0 1 0 NONE (toggle real relay) TOGGLE (button_double_press) NONE (reset device) 3,0
// 4 1 1 0 NONE (toggle real relay) TOGGLE (button_double_press) HOLD (button_long_press) 3,2
// 5 0 0 1 TOGGLE (button_short_press) NONE (toggle real relay) NONE (reset device) 1,0
// 6 1 0 1 TOGGLE (button_short_press) NONE (toggle real relay) NONE (MQTT HOLD) 1,0
// 7 0 1 1 NONE (toggle real relay) NONE (toggle real relay) NONE (reset device) 0,0
// 8 1 1 1 NONE (toggle real relay) NONE (toggle real relay) NONE (MQTT HOLD) 0.0
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// Trigger types: "0 = none | 1 = button_short_press | 2 = button_long_press | 3 = button_double_press";
if (Settings.flag.button_restrict) { // [SetOption1] Enable/Disable button multipress
if (!Settings.flag.button_single) {
hold = 2; // Default TOGGLE (button_short_press) + HOLD (button_long_press) trigger if [SetOption13] is OFF
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}
}
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if (Settings.flag.button_swap) { // [SetOption11] Swap button single and double press functionality
if (!Settings.flag.button_single) {
if (!Settings.flag.button_restrict) {
hold = 0; // TOGGLE (button_double_press) and remove HOLD (button_long_press) trigger if [SetOption1] is OFF
}
toggle = 3; // TOGGLE (button_double_press)
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} else {toggle = 0; hold = 0;} // [SetOption13] Immediate action on button press, no TOGGLE or HOLD triggers
}
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if (KeyTopicActive(0)) { // Enable Discovery for Buttons only if Buttontopic is set to 1 or a custom name
if (!strcmp(SettingsText(SET_MQTT_BUTTON_TOPIC), mqtt_topic)) {
toggle = 0; // When ButtonTopic is set to 1, TOGGLE is not allowed but an HOLD trigger can be generated.
}
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} else { button_present = 0; }
HAssAnnouncerTriggers(button_index, button_present, 0, toggle, hold);
}
}
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void HAssAnnounceSensor(const char *sensorname, const char *subsensortype, const char *MultiSubName, uint8_t subqty, uint8_t subidx, uint8_t nested, const char* SubKey)
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{
char stopic[TOPSZ];
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char stemp1[TOPSZ];
char stemp2[TOPSZ];
char unique_id[30];
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char subname[20];
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mqtt_data[0] = '\0'; // Clear retained message
// Clear or Set topic
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NoAlNumToUnderscore(subname, MultiSubName); //Replace all non alphaumeric characters to '_' to avoid topic name issues
snprintf_P(unique_id, sizeof(unique_id), PSTR("%06X_%s_%s"), ESP_getChipId(), sensorname, subname);
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snprintf_P(stopic, sizeof(stopic), PSTR(HOME_ASSISTANT_DISCOVERY_PREFIX "/sensor/%s/config"), unique_id);
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if (Settings.flag.hass_discovery)
{ // SetOption19 - Control Home Assistantautomatic discovery (See SetOption59)
char name[33 + 42]; // friendlyname(33) + " " + sensorname(20?) + " " + sensortype(20?)
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char prefix[TOPSZ];
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char *state_topic = stemp1;
char *availability_topic = stemp2;
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GetTopic_P(state_topic, TELE, mqtt_topic, PSTR(D_RSLT_SENSOR));
snprintf_P(name, sizeof(name), PSTR("%s %s %s"), SettingsText(SET_FRIENDLYNAME1), sensorname, MultiSubName);
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GetTopic_P(availability_topic, TELE, mqtt_topic, S_LWT);
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Response_P(HASS_DISCOVER_BASE, name, state_topic, availability_topic);
TryResponseAppend_P(HASS_DISCOVER_DEVICE_INFO_SHORT, unique_id, ESP_getChipId());
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char jname[32];
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int sensor_index = GetCommandCode(jname, sizeof(jname), SubKey, kHAssJsonSensorTypes);
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if (sensor_index > -1) {
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char param1[20];
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GetTextIndexed(param1, sizeof(param1), sensor_index, kHAssJsonSensorUnits);
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switch (sensor_index) {
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case 0: // Temperature and DewPoint
case 1:
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snprintf_P(param1, sizeof(param1), PSTR("°%c"),TempUnit()); // C or F
break;
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case 2: // Pressure and Sea Level Pressure
case 3:
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snprintf_P(param1, sizeof(param1), PSTR("%s"), PressureUnit().c_str());
break;
// case 4: // Speed. Default to km/h if not set to have a graph representation under HAss
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// case 5:
// case 6:
// case 7:
// if (Settings.flag2.speed_conversion == 0) {
// snprintf_P(param1, sizeof(param1), PSTR("km/h"));
// } else {
// snprintf_P(param1, sizeof(param1), PSTR("%s"), SpeedUnit().c_str());
// }
// break;
}
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char param2[50];
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GetTextIndexed(param2, sizeof(param2), sensor_index, kHAssJsonSensorDevCla);
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TryResponseAppend_P(HASS_DISCOVER_SENSOR, param1, param2, sensorname, subsensortype);
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if (subidx) {
TryResponseAppend_P(PSTR("[%d]"), subqty -1);
}
} else {
TryResponseAppend_P(HASS_DISCOVER_SENSOR, " ", "ic\":\"mdi:eye", sensorname, subsensortype);
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}
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if (nested) {
TryResponseAppend_P(PSTR("['%s']"), SubKey);
}
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TryResponseAppend_P(PSTR("}}\"}"));
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}
MqttPublish(stopic, true);
}
void HAssAnnounceSensors(void)
{
uint8_t hass_xsns_index = 0;
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do
{
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mqtt_data[0] = '\0';
int tele_period_save = tele_period;
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tele_period = 2; // Do not allow HA updates during next function call
XsnsNextCall(FUNC_JSON_APPEND, hass_xsns_index); // ,"INA219":{"Voltage":4.494,"Current":0.020,"Power":0.089}
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tele_period = tele_period_save;
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char sensordata[512]; // Copy because we need to write to mqtt_data
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strlcpy(sensordata, mqtt_data, sizeof(sensordata));
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if (strlen(sensordata))
{
sensordata[0] = '{';
snprintf_P(sensordata, sizeof(sensordata), PSTR("%s}"), sensordata); // {"INA219":{"Voltage":4.494,"Current":0.020,"Power":0.089}}
// USE THE FOLLOWING LINE TO TEST JSON
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//snprintf_P(sensordata, sizeof(sensordata), PSTR("{\"HX711\":{\"Weight\":[22,34,1023.4]}}"));
//snprintf_P(sensordata, sizeof(sensordata), PSTR("{\"TX23\":{\"Speed\":{\"Act\":8.6,\"Avg\":8.2,\"Min\":0,\"Max\":15.8},\"Dir\":{\"Card\":\"SSO\",\"Deg\":157.5,\"Avg\":145.5,\"AvgCard\":\"SO\",\"Min\":112.5,\"Max\":292.5,\"Range\":180}}}"));
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StaticJsonBuffer<500> jsonBuffer;
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JsonObject &root = jsonBuffer.parseObject(sensordata);
if (!root.success())
{
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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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for (auto sensor : root)
{
const char *sensorname = sensor.key;
JsonObject &sensors = sensor.value.as<JsonObject>();
if (!sensors.success())
{
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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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for (auto subsensor : sensors)
{
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if (subsensor.value.is<JsonObject&>()) {
// If there is a nested json on sensor data, second level entitites will be created
char NestedName[20];
char NewSensorName[20];
snprintf_P(NestedName, sizeof(NestedName), PSTR("%s"), subsensor.key);
JsonObject& subsensors = subsensor.value.as<JsonObject>();
for (auto subsensor : subsensors) {
snprintf_P(NewSensorName, sizeof(NewSensorName), PSTR("%s %s"), NestedName, subsensor.key);
HAssAnnounceSensor(sensorname, NestedName, NewSensorName, 0, 0, 1, subsensor.key);
}
} else if (subsensor.value.is<JsonArray&>()) {
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// If there is more than a value on sensor data, 'n' entitites will be created
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JsonArray& subsensors = subsensor.value.as<JsonArray&>();
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uint8_t subqty = subsensors.size();
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char MultiSubName[20];
for (int i = 1; i <= subqty; i++) {
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snprintf_P(MultiSubName, sizeof(MultiSubName), PSTR("%s %d"), subsensor.key, i);
HAssAnnounceSensor(sensorname, subsensor.key, MultiSubName, i, 1, 0, subsensor.key);
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}
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} else { HAssAnnounceSensor(sensorname, subsensor.key, subsensor.key, 0, 0, 0, subsensor.key);}
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}
}
}
yield();
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} while (hass_xsns_index != 0);
}
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void HAssAnnounceStatusSensor(void)
{
char stopic[TOPSZ];
char stemp1[TOPSZ];
char stemp2[TOPSZ];
char unique_id[30];
// Announce sensor
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mqtt_data[0] = '\0'; // Clear retained message
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// Clear or Set topic
snprintf_P(unique_id, sizeof(unique_id), PSTR("%06X_status"), ESP_getChipId());
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snprintf_P(stopic, sizeof(stopic), PSTR(HOME_ASSISTANT_DISCOVERY_PREFIX "/sensor/%s/config"), unique_id);
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if (Settings.flag.hass_discovery)
{ // SetOption19 - Control Home Assistantautomatic discovery (See SetOption59)
char name[33 + 7]; // friendlyname(33) + " " + "status"
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char prefix[TOPSZ];
char *state_topic = stemp1;
char *availability_topic = stemp2;
snprintf_P(name, sizeof(name), PSTR("%s status"), SettingsText(SET_FRIENDLYNAME1));
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GetTopic_P(state_topic, TELE, mqtt_topic, PSTR(D_RSLT_HASS_STATE));
GetTopic_P(availability_topic, TELE, mqtt_topic, S_LWT);
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Response_P(HASS_DISCOVER_BASE, name, state_topic, availability_topic);
TryResponseAppend_P(HASS_DISCOVER_SENSOR_HASS_STATUS, state_topic);
TryResponseAppend_P(HASS_DISCOVER_DEVICE_INFO, unique_id, ESP_getChipId(), SettingsText(SET_FRIENDLYNAME1),
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ModuleName().c_str(), my_version, my_image);
TryResponseAppend_P(PSTR("}"));
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}
MqttPublish(stopic, true);
}
void HAssPublishStatus(void)
{
Response_P(PSTR("{\"" D_JSON_VERSION "\":\"%s%s\",\"" D_JSON_BUILDDATETIME "\":\"%s\","
"\"" D_JSON_COREVERSION "\":\"" ARDUINO_CORE_RELEASE "\",\"" D_JSON_SDKVERSION "\":\"%s\","
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"\"" D_CMND_MODULE "\":\"%s\",\"" D_JSON_RESTARTREASON "\":\"%s\",\"" D_JSON_UPTIME "\":\"%s\","
"\"WiFi " D_JSON_LINK_COUNT "\":%d,\"WiFi " D_JSON_DOWNTIME "\":\"%s\",\"" D_JSON_MQTT_COUNT "\":%d,"
"\"" D_JSON_BOOTCOUNT "\":%d,\"" D_JSON_SAVECOUNT "\":%d,\"" D_CMND_IPADDRESS "\":\"%s\","
"\"" D_JSON_RSSI "\":\"%d\",\"LoadAvg\":%lu}"),
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my_version, my_image, GetBuildDateAndTime().c_str(), ESP.getSdkVersion(), ModuleName().c_str(),
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GetResetReason().c_str(), GetUptime().c_str(), WifiLinkCount(), WifiDowntime().c_str(), MqttConnectCount(),
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Settings.bootcount, Settings.save_flag, WiFi.localIP().toString().c_str(),
WifiGetRssiAsQuality(WiFi.RSSI()), loop_load_avg);
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MqttPublishPrefixTopic_P(TELE, PSTR(D_RSLT_HASS_STATE));
}
void HAssDiscovery(void)
{
// Configure Tasmota for default Home Assistant parameters to keep discovery message as short as possible
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if (Settings.flag.hass_discovery)
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{ // SetOption19 - Control Home Assistant automatic discovery (See SetOption59)
Settings.flag.mqtt_response = 0; // SetOption4 - Switch between MQTT RESULT or COMMAND - Response always as RESULT and not as uppercase command
Settings.flag.decimal_text = 1; // SetOption17 - Switch between decimal or hexadecimal output - Respond with decimal color values
Settings.flag3.hass_tele_on_power = 1; // SetOption59 - Send tele/%topic%/STATE in addition to stat/%topic%/RESULT - send tele/STATE message as stat/RESULT
// the purpose of that is so that if HA is restarted, state in HA will be correct within one teleperiod otherwise state
// will not be correct until the device state is changed this is why in the patterns for switch and light, we tell HA to trigger on STATE, not RESULT.
Settings.light_scheme = 0; // To just control color it needs to be Scheme 0
}
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if (Settings.flag.hass_discovery || (1 == hass_mode))
{ // SetOption19 - Control Home Assistantautomatic discovery (See SetOption59)
// Send info about relays and lights
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HAssAnnounceRelayLight();
// Send info about buttons
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HAssAnnounceButtons();
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// Send info about switches
HAssAnnounceSwitches();
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// Send info about sensors
HAssAnnounceSensors();
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// Send info about status sensor
HAssAnnounceStatusSensor();
}
}
void HAssDiscover(void)
{
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hass_mode = 1; // Force discovery
hass_init_step = 1; // Delayed discovery
}
void HAssAnyKey(void)
{
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if (!Settings.flag.hass_discovery)
{
return;
} // SetOption19 - Control Home Assistantautomatic discovery (See SetOption59)
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uint32_t key = (XdrvMailbox.payload >> 16) & 0xFF; // 0 = Button, 1 = Switch
uint32_t device = XdrvMailbox.payload & 0xFF; // Device number or 1 if more Buttons than Devices
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uint32_t state = (XdrvMailbox.payload >> 8) & 0xFF; // 0 = Off, 1 = On, 2 = Toggle, 3 = Hold
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if (!key && KeyTopicActive(0)) { // Button and ButtonTopic is active
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device = (XdrvMailbox.payload >> 24) & 0xFF; // Button number
}
char scommand[CMDSZ];
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char sw_topic[TOPSZ];
char key_topic[TOPSZ];
char *tmpbtn = SettingsText(SET_MQTT_BUTTON_TOPIC);
char *tmpsw = SettingsText(SET_MQTT_SWITCH_TOPIC);
uint8_t evkey = 0; // Flag to select the correct topic for a trigger or a binary_sensor
Format(sw_topic, tmpsw, sizeof(sw_topic));
Format(key_topic, tmpbtn, sizeof(key_topic));
if (state == 2 || state == 3 ) { evkey = 1;}
snprintf_P(scommand, sizeof(scommand), PSTR("%s%d%s"), (key) ? "SWITCH" : "BUTTON", device, (evkey) ? "T" : "");
char stopic[TOPSZ];
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GetTopic_P(stopic, STAT, mqtt_topic, scommand);
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Response_P(S_JSON_COMMAND_SVALUE, (evkey) ? "TRIG" : PSTR(D_RSLT_STATE), GetStateText(state));
MqttPublish(stopic);
}
/*********************************************************************************************\
* Interface
\*********************************************************************************************/
bool Xdrv12(uint8_t function)
{
bool result = false;
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if (Settings.flag.mqtt_enabled)
{ // SetOption3 - Enable MQTT
switch (function)
{
case FUNC_EVERY_SECOND:
if (hass_init_step)
{
hass_init_step--;
if (!hass_init_step)
{
HAssDiscovery(); // Scheduled discovery using available resources
}
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}
else if (Settings.flag.hass_discovery && Settings.tele_period)
{ // SetOption19 - Control Home Assistantautomatic discovery (See SetOption59)
hass_tele_period++;
if (hass_tele_period >= Settings.tele_period)
{
hass_tele_period = 0;
mqtt_data[0] = '\0';
HAssPublishStatus();
}
}
break;
case FUNC_ANY_KEY:
HAssAnyKey();
break;
case FUNC_MQTT_INIT:
hass_mode = 0; // Discovery only if Settings.flag.hass_discovery is set
hass_init_step = 2; // Delayed discovery
break;
}
}
return result;
}
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#endif // USE_HOME_ASSISTANT