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merge with https://github.com/emsesp/EMS-ESP32/pull/1077

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This commit is contained in:
Proddy
2023-02-22 19:01:58 +01:00
parent 752f0177cf
commit 11ad4d8a0f
7 changed files with 142 additions and 70 deletions
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4
interface/src/i18n/pl/index.ts
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@@ -157,7 +157,7 @@ const pl: BaseTranslation = {
CUSTOMIZATIONS_HELP_3: 'zablokuj akcje zapisu',
CUSTOMIZATIONS_HELP_4: 'wyklucz z MQTT i API',
CUSTOMIZATIONS_HELP_5: 'ukryj na pulpicie',
CUSTOMIZATIONS_HELP_6: 'remove from memory', // TODO translate
CUSTOMIZATIONS_HELP_6: 'usuń z pamięci',
SELECT_DEVICE: 'wybierz urządzenie',
SET_ALL: 'Ustaw wszystko jako',
OPTIONS: 'Opcje',
@@ -201,7 +201,7 @@ const pl: BaseTranslation = {
CPU_FREQ: 'Taktowanie CPU',
HEAP: 'HEAP (wolne / maksymalny przydział)',
PSRAM: 'PSRAM (rozmiar / wolne)',
FLASH: 'Flash (rozmiar / taktowanie)',
FLASH: 'FLASH (rozmiar / taktowanie)',
APPSIZE: 'Aplikacja (wykorzystane / wolne)',
FILESYSTEM: 'System plików (wykorzystane / wolne)',
BUFFER_SIZE: 'Maksymalna pojemność bufora (ilość wpisów)',

22
src/analogsensor.cpp
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@@ -396,10 +396,9 @@ void AnalogSensor::remove_ha_topic(const uint8_t gpio) const {
}
LOG_DEBUG("Removing HA config for analog sensor GPIO %02d", gpio);
char topic[Mqtt::MQTT_TOPIC_MAX_SIZE];
snprintf(topic, sizeof(topic), "sensor/%s/analogsensor_%02d/config", Mqtt::basename().c_str(), gpio);
Mqtt::publish_ha(topic);
Mqtt::remove_topic(topic);
}
// send all sensor values as a JSON package to MQTT
@@ -457,13 +456,16 @@ void AnalogSensor::publish_values(const bool force) {
snprintf(stat_t, sizeof(stat_t), "%s/analogsensor_data", Mqtt::base().c_str()); // use base path
config["stat_t"] = stat_t;
char str[50];
char val_obj[50];
char val_cond[65];
if (Mqtt::is_nested()) {
snprintf(str, sizeof(str), "{{value_json['%02d'].value}}", sensor.gpio());
snprintf(val_obj, sizeof(val_obj), "value_json['%02d'].value", sensor.gpio());
snprintf(val_cond, sizeof(val_cond), "value_json['%02d'] is defined", sensor.gpio());
} else {
snprintf(str, sizeof(str), "{{value_json['%s']}", sensor.name().c_str());
snprintf(val_obj, sizeof(val_obj), "value_json['%s']", sensor.name().c_str());
snprintf(val_cond, sizeof(val_cond), "%s is defined", val_obj);
}
config["val_tpl"] = str;
config["val_tpl"] = (std::string) "{{" + val_obj + " if " + val_cond + "}}";
char uniq_s[70];
if (Mqtt::entity_format() == 2) {
@@ -475,8 +477,9 @@ void AnalogSensor::publish_values(const bool force) {
config["object_id"] = uniq_s;
config["uniq_id"] = uniq_s; // same as object_id
snprintf(str, sizeof(str), "%s", sensor.name().c_str());
config["name"] = str;
char name[50];
snprintf(name, sizeof(name), "%s", sensor.name().c_str());
config["name"] = name;
if (sensor.uom() != DeviceValueUOM::NONE) {
config["unit_of_meas"] = EMSdevice::uom_to_string(sensor.uom());
@@ -486,6 +489,9 @@ void AnalogSensor::publish_values(const bool force) {
JsonArray ids = dev.createNestedArray("ids");
ids.add("ems-esp");
// add "availability" section
Mqtt::add_avty_to_doc(stat_t, config.as<JsonObject>(), val_cond);
char topic[Mqtt::MQTT_TOPIC_MAX_SIZE];
snprintf(topic, sizeof(topic), "sensor/%s/analogsensor_%02d/config", Mqtt::basename().c_str(), sensor.gpio());

21
src/dallassensor.cpp
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@@ -462,7 +462,7 @@ void DallasSensor::remove_ha_topic(const std::string & id) {
std::replace(sensorid.begin(), sensorid.end(), '-', '_');
char topic[Mqtt::MQTT_TOPIC_MAX_SIZE];
snprintf(topic, sizeof(topic), "sensor/%s/dallassensor_%s/config", Mqtt::basename().c_str(), sensorid.c_str());
Mqtt::publish_ha(topic);
Mqtt::remove_topic(topic);
}
// send all dallas sensor values as a JSON package to MQTT
@@ -516,13 +516,16 @@ void DallasSensor::publish_values(const bool force) {
config["unit_of_meas"] = EMSdevice::uom_to_string(DeviceValueUOM::DEGREES);
char str[50];
char val_obj[50];
char val_cond[65];
if (Mqtt::is_nested()) {
snprintf(str, sizeof(str), "{{value_json['%s'].temp}}", sensor.id().c_str());
snprintf(val_obj, sizeof(val_obj), "value_json['%s'].temp", sensor.id().c_str());
snprintf(val_cond, sizeof(val_cond), "value_json['%s'] is defined", sensor.id().c_str());
} else {
snprintf(str, sizeof(str), "{{value_json['%s']}}", sensor.name().c_str());
snprintf(val_obj, sizeof(val_obj), "value_json['%s']", sensor.name().c_str());
snprintf(val_cond, sizeof(val_cond), "%s is defined", val_obj);
}
config["val_tpl"] = str;
config["val_tpl"] = (std::string) "{{" + val_obj + " if " + val_cond + "}}";
char uniq_s[70];
if (Mqtt::entity_format() == 2) {
@@ -534,13 +537,17 @@ void DallasSensor::publish_values(const bool force) {
config["object_id"] = uniq_s;
config["uniq_id"] = uniq_s; // same as object_id
snprintf(str, sizeof(str), "%s", sensor.name().c_str());
config["name"] = str;
char name[50];
snprintf(name, sizeof(name), "%s", sensor.name().c_str());
config["name"] = name;
JsonObject dev = config.createNestedObject("dev");
JsonArray ids = dev.createNestedArray("ids");
ids.add("ems-esp");
// add "availability" section
Mqtt::add_avty_to_doc(stat_t, config.as<JsonObject>(), val_cond);
char topic[Mqtt::MQTT_TOPIC_MAX_SIZE];
// use '_' as HA doesn't like '-' in the topic name
std::string sensorid = sensor.id();

1
src/emsdevice.cpp
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@@ -1670,6 +1670,7 @@ bool EMSdevice::generate_values(JsonObject & output, const uint8_t tag_filter, c
// remove the Home Assistant configs for each device value/entity if its not visible or active or marked as read-only
// this is called when an MQTT publish is done via an EMS Device in emsesp.cpp::publish_device_values()
// TODO remove topic remove on cold start
void EMSdevice::mqtt_ha_entity_config_remove() {
for (auto & dv : devicevalues_) {
if (dv.has_state(DeviceValueState::DV_HA_CONFIG_CREATED)

145
src/mqtt.cpp
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@@ -137,7 +137,7 @@ void Mqtt::loop() {
uint32_t currentMillis = uuid::get_uptime();
// publish top item from MQTT queue to stop flooding
// publish MQTT queue, but timed to avoid overloading the TCP pipe
if ((uint32_t)(currentMillis - last_mqtt_poll_) > MQTT_PUBLISH_WAIT) {
last_mqtt_poll_ = currentMillis;
process_queue();
@@ -212,7 +212,7 @@ void Mqtt::show_mqtt(uuid::console::Shell & shell) {
return;
}
shell.printfln("MQTT queue (%d/%d messages):", mqtt_messages_.size(), MAX_MQTT_MESSAGES);
shell.printfln("MQTT queue (%d):", mqtt_messages_.size());
for (const auto & message : mqtt_messages_) {
auto content = message.content_;
@@ -677,31 +677,26 @@ void Mqtt::queue_message(const uint8_t operation, const std::string & topic, con
// take the topic and prefix the base, unless its for HA
std::shared_ptr<MqttMessage> message = std::make_shared<MqttMessage>(operation, topic, payload, retain);
#if defined(EMSESP_DEBUG)
if (operation == Operation::PUBLISH) {
if (message->payload.empty()) {
LOG_INFO("Adding to queue: (publish) topic='%s' empty payload", message->topic.c_str());
LOG_DEBUG("Adding to queue: (publish) topic='%s' empty payload", message->topic.c_str());
} else {
LOG_INFO("Adding to queue: (publish) topic='%s' payload=%s", message->topic.c_str(), message->payload.c_str());
LOG_DEBUG("Adding to queue: (publish) topic='%s' payload=%s", message->topic.c_str(), message->payload.c_str());
}
} else {
LOG_INFO("Adding to queue: (subscribe) topic='%s'", message->topic.c_str());
LOG_DEBUG("Adding to queue: (subscribe) topic='%s'", message->topic.c_str());
}
#endif
// TODO : to look at with @MichaelDvP ...
// 1. check heap instead of counting?
// 2. reduce the time to process the queue so it empties quicker?
// 3. if the queue is full, just exit and don't remove the last message?
#ifndef EMSESP_STANDALONE
if (mqtt_messages_.size() >= MAX_MQTT_MESSAGES) {
// TODO to look at with @MichaelDvP ...
// TODO also reduce the time to process the queue so it empties quicker? I changed MQTT_PUBLISH_WAIT from 100 to 75
// anything below 65MB available free heap is dangerously low
if (ESP.getFreeHeap() < (65 * 1024)) {
// mqtt_messages_.pop_front();
LOG_WARNING("Queue overflow");
mqtt_publish_fails_++;
return; // don't add
return; // TODO - don't add top queue. Check will this have negative side affects?
}
#endif
mqtt_messages_.emplace_back(mqtt_message_id_++, std::move(message));
@@ -770,15 +765,18 @@ void Mqtt::publish_retain(const char * topic, const JsonObject & payload, bool r
}
// publish empty payload to remove the topic
void Mqtt::publish_ha(const char * topic) {
void Mqtt::remove_topic(const char * topic) {
if (!enabled()) {
return;
}
std::string fulltopic = Mqtt::discovery_prefix() + topic;
LOG_DEBUG("Publishing empty HA topic=%s", fulltopic.c_str());
queue_publish_message(fulltopic, "", true); // publish with retain to remove from broker
if (ha_enabled_) {
LOG_DEBUG("Publishing HA topic %s%s", Mqtt::discovery_prefix().c_str(), topic);
queue_publish_message(Mqtt::discovery_prefix() + topic, "", true); // publish with retain to remove from broker
} else {
LOG_DEBUG("Publishing topic %s", topic);
queue_publish_message(topic, "", true); // publish with retain to remove from broker
}
}
// publish a Home Assistant config topic and payload, with retain flag off.
@@ -1076,7 +1074,7 @@ void Mqtt::publish_ha_sensor_config(uint8_t type, // EMSdev
// https://github.com/emsesp/EMS-ESP32/issues/196
if (remove) {
LOG_DEBUG("Removing HA config for %s", uniq_id);
publish_ha(topic);
remove_topic(topic);
return;
}
@@ -1089,6 +1087,8 @@ void Mqtt::publish_ha_sensor_config(uint8_t type, // EMSdev
const char * sc_ha = "stat_cla"; // state class
const char * uom_ha = "unit_of_meas"; // unit of measure
char sample_val[30] = "0"; // sample, correct(!) entity value, used only to prevent warning/error in HA if real value is not published yet
// handle commands, which are device entities that are writable
// we add the command topic parameter
// note: there is no way to handle strings in HA so datetimes (e.g. set_datetime, set_holiday, set_wwswitchtime etc) are excluded
@@ -1108,6 +1108,7 @@ void Mqtt::publish_ha_sensor_config(uint8_t type, // EMSdev
for (uint8_t i = 0; i < options_size; i++) {
option_list.add(Helpers::translated_word(options[i]));
}
snprintf(sample_val, sizeof(sample_val), "'%s'", Helpers::translated_word(options[0]));
} else if (type != DeviceValueType::STRING && type != DeviceValueType::BOOL) {
// Must be Numeric....
doc["mode"] = "box"; // auto, slider or box
@@ -1124,6 +1125,7 @@ void Mqtt::publish_ha_sensor_config(uint8_t type, // EMSdev
if (dv_set_min != 0 || dv_set_max != 0) {
doc["min"] = dv_set_min;
doc["max"] = dv_set_max;
snprintf(sample_val, sizeof(sample_val), "%i", dv_set_min);
}
// set icons
@@ -1151,7 +1153,8 @@ void Mqtt::publish_ha_sensor_config(uint8_t type, // EMSdev
char ha_name[70];
char * F_name = strdup(fullname);
Helpers::CharToUpperUTF8(F_name); // capitalize first letter
if (tag != DeviceValueTAG::TAG_NONE) {
if (tag > DeviceValueTAG::TAG_HEARTBEAT) {
// exclude heartbeat tag
snprintf(ha_name, sizeof(ha_name), "%s %s", EMSdevice::tag_to_string(tag), F_name);
} else {
snprintf(ha_name, sizeof(ha_name), "%s", F_name); // no tag
@@ -1161,17 +1164,15 @@ void Mqtt::publish_ha_sensor_config(uint8_t type, // EMSdev
// value template
// if its nested mqtt format then use the appended entity name, otherwise take the original name
char val_tpl[75];
if (is_nested()) {
if (tag >= DeviceValueTAG::TAG_HC1) {
snprintf(val_tpl, sizeof(val_tpl), "{{value_json.%s.%s}}", EMSdevice::tag_to_mqtt(tag), entity);
} else {
snprintf(val_tpl, sizeof(val_tpl), "{{value_json.%s}}", entity);
}
char val_obj[100];
char val_cond[200];
if (is_nested() && tag >= DeviceValueTAG::TAG_HC1) {
snprintf(val_obj, sizeof(val_obj), "value_json.%s.%s", EMSdevice::tag_to_mqtt(tag), entity);
snprintf(val_cond, sizeof(val_cond), "value_json.%s is defined and %s is defined", EMSdevice::tag_to_mqtt(tag), val_obj);
} else {
snprintf(val_tpl, sizeof(val_tpl), "{{value_json.%s}}", entity);
snprintf(val_obj, sizeof(val_obj), "value_json.%s", entity);
snprintf(val_cond, sizeof(val_cond), "%s is defined", val_obj);
}
doc["val_tpl"] = val_tpl;
// special case to handle booleans
// applies to both Binary Sensor (read only) and a Switch (for a command)
@@ -1180,6 +1181,7 @@ void Mqtt::publish_ha_sensor_config(uint8_t type, // EMSdev
if (EMSESP::system_.bool_format() == BOOL_FORMAT_TRUEFALSE) {
doc["pl_on"] = true;
doc["pl_off"] = false;
snprintf(sample_val, sizeof(sample_val), "false");
} else if (EMSESP::system_.bool_format() == BOOL_FORMAT_10) {
doc["pl_on"] = 1;
doc["pl_off"] = 0;
@@ -1187,8 +1189,8 @@ void Mqtt::publish_ha_sensor_config(uint8_t type, // EMSdev
char result[12];
doc["pl_on"] = Helpers::render_boolean(result, true);
doc["pl_off"] = Helpers::render_boolean(result, false);
snprintf(sample_val, sizeof(sample_val), "'%s'", Helpers::render_boolean(result, false));
}
// doc[sc_ha] = F_(measurement); // not needed
} else {
// always set the uom, using the standards except for hours/minutes/seconds
// using HA specific codes from https://github.com/home-assistant/core/blob/dev/homeassistant/const.py
@@ -1202,6 +1204,7 @@ void Mqtt::publish_ha_sensor_config(uint8_t type, // EMSdev
doc[uom_ha] = EMSdevice::uom_to_string(uom); // default
}
}
doc["val_tpl"] = (std::string) "{{" + val_obj + " if " + val_cond + " else " + sample_val + "}}";
// this next section is adding the state class, device class and sometimes the icon
// used for Sensor and Binary Sensor Entities in HA
@@ -1298,6 +1301,9 @@ void Mqtt::publish_ha_sensor_config(uint8_t type, // EMSdev
// add the dev json object to the end
doc["dev"] = dev_json;
// add "availability" section
add_avty_to_doc(stat_t, doc.as<JsonObject>(), val_cond);
publish_ha(topic, doc.as<JsonObject>());
}
@@ -1309,6 +1315,9 @@ void Mqtt::publish_ha_climate_config(const uint8_t tag, const bool has_roomtemp,
char hc_mode_s[30];
char seltemp_s[30];
char currtemp_s[30];
char hc_mode_cond[70];
char seltemp_cond[70];
char currtemp_cond[170];
char mode_str_tpl[400];
char name_s[10];
char uniq_id_s[60];
@@ -1319,31 +1328,39 @@ void Mqtt::publish_ha_climate_config(const uint8_t tag, const bool has_roomtemp,
snprintf(topic, sizeof(topic), "climate/%s/thermostat_hc%d/config", mqtt_basename_.c_str(), hc_num);
if (remove) {
publish_ha(topic); // publish empty payload with retain flag
remove_topic(topic); // publish empty payload with retain flag
return;
}
if (Mqtt::is_nested()) {
// nested format
snprintf(hc_mode_s, sizeof(hc_mode_s), "value_json.hc%d.mode", hc_num);
snprintf(seltemp_s, sizeof(seltemp_s), "{{value_json.hc%d.seltemp}}", hc_num);
snprintf(hc_mode_cond, sizeof(hc_mode_cond), "value_json.hc%d is undefined or %s is undefined", hc_num, hc_mode_s);
snprintf(seltemp_s, sizeof(seltemp_s), "value_json.hc%d.seltemp", hc_num);
snprintf(seltemp_cond, sizeof(seltemp_cond), "value_json.hc%d is defined and %s is defined", hc_num, seltemp_s);
if (has_roomtemp) {
snprintf(currtemp_s, sizeof(currtemp_s), "{{value_json.hc%d.currtemp}}", hc_num);
snprintf(currtemp_s, sizeof(currtemp_s), "value_json.hc%d.currtemp", hc_num);
snprintf(currtemp_cond, sizeof(currtemp_cond), "value_json.hc%d is defined and %s is defined", hc_num, currtemp_s);
}
snprintf(topic_t, sizeof(topic_t), "~/%s", Mqtt::tag_to_topic(EMSdevice::DeviceType::THERMOSTAT, DeviceValueTAG::TAG_NONE).c_str());
} else {
// single format
snprintf(hc_mode_s, sizeof(hc_mode_s), "value_json.mode");
snprintf(seltemp_s, sizeof(seltemp_s), "{{value_json.seltemp}}");
snprintf(hc_mode_cond, sizeof(hc_mode_cond), "%s is undefined", hc_mode_s);
snprintf(seltemp_s, sizeof(seltemp_s), "value_json.seltemp");
snprintf(seltemp_cond, sizeof(seltemp_cond), "%s is defined", seltemp_s);
if (has_roomtemp) {
snprintf(currtemp_s, sizeof(currtemp_s), "{{value_json.currtemp}}");
snprintf(currtemp_s, sizeof(currtemp_s), "value_json.currtemp");
snprintf(currtemp_cond, sizeof(currtemp_cond), "%s is defined", currtemp_s);
}
snprintf(topic_t, sizeof(topic_t), "~/%s", Mqtt::tag_to_topic(EMSdevice::DeviceType::THERMOSTAT, DeviceValueTAG::TAG_HC1 + hc_num - 1).c_str());
}
snprintf(mode_str_tpl,
sizeof(mode_str_tpl),
"{%%if %s=='manual'%%}heat{%%elif %s=='day'%%}heat{%%elif %s=='night'%%}off{%%elif %s=='off'%%}off{%%else%%}auto{%%endif%%}",
"{%%if %s%%}off{%%elif %s=='manual'%%}heat{%%elif %s=='day'%%}heat{%%elif %s=='night'%%}off{%%elif %s=='off'%%}off{%%else%%}auto{%%endif%%}",
hc_mode_s,
hc_mode_s,
hc_mode_s,
@@ -1360,7 +1377,7 @@ void Mqtt::publish_ha_climate_config(const uint8_t tag, const bool has_roomtemp,
snprintf(temp_cmd_s, sizeof(temp_cmd_s), "~/thermostat/hc%d/seltemp", hc_num);
snprintf(mode_cmd_s, sizeof(temp_cmd_s), "~/thermostat/hc%d/mode", hc_num);
StaticJsonDocument<EMSESP_JSON_SIZE_LARGE> doc;
StaticJsonDocument<EMSESP_JSON_SIZE_LARGE> doc; // doc is 787 typically so 1024 should be enough
doc["~"] = mqtt_base_;
doc["uniq_id"] = uniq_id_s;
@@ -1370,17 +1387,17 @@ void Mqtt::publish_ha_climate_config(const uint8_t tag, const bool has_roomtemp,
doc["mode_stat_tpl"] = mode_str_tpl;
doc["temp_cmd_t"] = temp_cmd_s;
doc["temp_stat_t"] = topic_t;
doc["temp_stat_tpl"] = seltemp_s;
doc["mode_cmd_t"] = mode_cmd_s;
doc["temp_stat_tpl"] = (std::string) "{{" + seltemp_s + " if " + seltemp_cond + " else 0}}";
if (has_roomtemp) {
doc["curr_temp_t"] = topic_t;
doc["curr_temp_tpl"] = currtemp_s;
doc["curr_temp_tpl"] = (std::string) "{{" + currtemp_s + " if " + currtemp_cond + " else 0}}";
}
doc["min_temp"] = Helpers::render_value(min_s, min, 0, EMSESP::system_.fahrenheit() ? 2 : 0);
doc["max_temp"] = Helpers::render_value(max_s, max, 0, EMSESP::system_.fahrenheit() ? 2 : 0);
doc["temp_step"] = "0.5";
doc["min_temp"] = Helpers::render_value(min_s, min, 0, EMSESP::system_.fahrenheit() ? 2 : 0);
doc["max_temp"] = Helpers::render_value(max_s, max, 0, EMSESP::system_.fahrenheit() ? 2 : 0);
doc["temp_step"] = "0.5";
doc["mode_cmd_t"] = mode_cmd_s;
// the HA climate component only responds to auto, heat and off
JsonArray modes = doc.createNestedArray("modes");
@@ -1393,6 +1410,9 @@ void Mqtt::publish_ha_climate_config(const uint8_t tag, const bool has_roomtemp,
JsonArray ids = dev.createNestedArray("ids");
ids.add("ems-esp-thermostat");
// add "availability" section
add_avty_to_doc(topic_t, doc.as<JsonObject>(), seltemp_cond, has_roomtemp ? currtemp_cond : nullptr, hc_mode_cond);
publish_ha(topic, doc.as<JsonObject>()); // publish the config payload with retain flag
}
@@ -1415,4 +1435,39 @@ std::string Mqtt::tag_to_topic(uint8_t device_type, uint8_t tag) {
}
}
// adds "availability" section to HA Discovery config
void Mqtt::add_avty_to_doc(const char * state_t, const JsonObject & doc, const char * cond1, const char * cond2, const char * negcond) {
const char * tpl_draft = "{{'online' if %s else 'offline'}}";
char tpl[150];
JsonArray avty = doc.createNestedArray("avty");
StaticJsonDocument<512> avty_json;
snprintf(tpl, sizeof(tpl), "%s/status", mqtt_base_.c_str());
avty_json["t"] = tpl;
snprintf(tpl, sizeof(tpl), tpl_draft, "value == 'online'");
avty_json["val_tpl"] = tpl;
avty.add(avty_json);
avty_json["t"] = state_t;
snprintf(tpl, sizeof(tpl), tpl_draft, cond1 == nullptr ? "value is defined" : cond1);
avty_json["val_tpl"] = tpl;
avty.add(avty_json);
if (cond2 != nullptr) {
snprintf(tpl, sizeof(tpl), tpl_draft, cond2);
avty_json["val_tpl"] = tpl;
avty.add(avty_json);
}
if (negcond != nullptr) {
snprintf(tpl, sizeof(tpl), "{{'offline' if %s else 'online'}}", negcond);
avty_json["val_tpl"] = tpl;
avty.add(avty_json);
}
doc["avty_mode"] = "all";
}
} // namespace emsesp

12
src/mqtt.h
View File

@@ -29,9 +29,6 @@
using uuid::console::Shell;
// size of queue
static constexpr uint16_t MAX_MQTT_MESSAGES = 300;
namespace emsesp {
using mqtt_sub_function_p = std::function<bool(const char * message)>;
@@ -87,7 +84,7 @@ class Mqtt {
static void publish_retain(const char * topic, const std::string & payload, bool retain);
static void publish_retain(const char * topic, const JsonObject & payload, bool retain);
static void publish_ha(const char * topic, const JsonObject & payload);
static void publish_ha(const char * topic);
static void remove_topic(const char * topic);
static void publish_ha_sensor_config(DeviceValue & dv, const char * model, const char * brand, const bool remove, const bool create_device_config = false);
static void publish_ha_sensor_config(uint8_t type,
@@ -242,6 +239,9 @@ class Mqtt {
static std::string tag_to_topic(uint8_t device_type, uint8_t tag);
static void
add_avty_to_doc(const char * state_t, const JsonObject & doc, const char * cond1 = nullptr, const char * cond2 = nullptr, const char * negcond = nullptr);
struct QueuedMqttMessage {
const uint32_t id_;
const std::shared_ptr<const MqttMessage> content_;
@@ -263,8 +263,8 @@ class Mqtt {
static AsyncMqttClient * mqttClient_;
static uint32_t mqtt_message_id_;
static constexpr uint32_t MQTT_PUBLISH_WAIT = 100; // delay between sending publishes, to account for large payloads
static constexpr uint8_t MQTT_PUBLISH_MAX_RETRY = 3; // max retries for giving up on publishing
static constexpr uint32_t MQTT_PUBLISH_WAIT = 75; // delay in ms between sending publishes, to account for large payloads
static constexpr uint8_t MQTT_PUBLISH_MAX_RETRY = 3; // max retries for giving up on publishing
static void queue_message(const uint8_t operation, const std::string & topic, const std::string & payload, bool retain);
static void queue_publish_message(const std::string & topic, const std::string & payload, bool retain);

7
src/shower.cpp
View File

@@ -168,8 +168,8 @@ void Shower::set_shower_state(bool state, bool force) {
doc["stat_t"] = stat_t;
if (EMSESP::system_.bool_format() == BOOL_FORMAT_TRUEFALSE) {
doc["pl_on"] = true;
doc["pl_off"] = false;
doc["pl_on"] = "true";
doc["pl_off"] = "false";
} else if (EMSESP::system_.bool_format() == BOOL_FORMAT_10) {
doc["pl_on"] = 1;
doc["pl_off"] = 0;
@@ -183,6 +183,9 @@ void Shower::set_shower_state(bool state, bool force) {
JsonArray ids = dev.createNestedArray("ids");
ids.add("ems-esp");
// add "availability" section
Mqtt::add_avty_to_doc(stat_t, doc.as<JsonObject>());
char topic[Mqtt::MQTT_TOPIC_MAX_SIZE];
snprintf(topic, sizeof(topic), "binary_sensor/%s/shower_active/config", Mqtt::basename().c_str());
Mqtt::publish_ha(topic, doc.as<JsonObject>()); // publish the config payload with retain flag