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b14ea6326ec71b9f91d39a9ab8c530d699df8d0b
nuki_hub/Network.cpp
technyon 8b647e8b8e move mqtt loop into network task
2023-02-26 10:26:55 +01:00

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#include "Network.h"
#include "PreferencesKeys.h"
#include "MqttTopics.h"
#include "networkDevices/W5500Device.h"
#include "networkDevices/WifiDevice.h"
#include "Logger.h"
#include "Config.h"
#include <ArduinoJson.h>
#include "RestartReason.h"
#include "networkDevices/EthLan8720Device.h"
Network* Network::_inst = nullptr;
unsigned long Network::_ignoreSubscriptionsTs = 0;
RTC_NOINIT_ATTR char WiFi_fallbackDetect[14];
Network::Network(Preferences *preferences, const String& maintenancePathPrefix)
: _preferences(preferences)
{
_inst = this;
_hostname = _preferences->getString(preference_hostname);
memset(_maintenancePathPrefix, 0, sizeof(_maintenancePathPrefix));
size_t len = maintenancePathPrefix.length();
for(int i=0; i < len; i++)
{
_maintenancePathPrefix[i] = maintenancePathPrefix.charAt(i);
}
setupDevice();
}
void Network::setupDevice()
{
int hardwareDetect = _preferences->getInt(preference_network_hardware);
int hardwareDetectGpio = _preferences->getInt(preference_network_hardware_gpio);
Log->print(F("Hardware detect : ")); Log->println(hardwareDetect);
Log->print(F("Hardware detect GPIO: ")); Log->println(hardwareDetectGpio);
if(hardwareDetect == 0)
{
hardwareDetect = 2;
_preferences->putInt(preference_network_hardware, hardwareDetect);
}
if(hardwareDetectGpio == 0)
{
hardwareDetectGpio = 26;
_preferences->putInt(preference_network_hardware_gpio, hardwareDetectGpio);
}
if(strcmp(WiFi_fallbackDetect, "wifi_fallback") == 0)
{
Log->println(F("Switching to WiFi device as fallback."));
_networkDeviceType = NetworkDeviceType::WiFi;
}
else
{
if(hardwareDetect == 1)
{
Log->println(F("W5500 hardware is disabled, using Wifi."));
_networkDeviceType = NetworkDeviceType::WiFi;
}
else if(hardwareDetect == 2)
{
Log->print(F("Using PIN "));
Log->print(hardwareDetectGpio);
Log->println(F(" for network device selection"));
pinMode(hardwareDetectGpio, INPUT_PULLUP);
_networkDeviceType = digitalRead(hardwareDetectGpio) == HIGH ? NetworkDeviceType::WiFi : NetworkDeviceType::W5500;
}
else if(hardwareDetect == 3)
{
Log->println(F("W5500 on M5Stack Atom POE"));
_networkDeviceType = NetworkDeviceType::W5500;
}
else if(hardwareDetect == 4)
{
Log->println(F("Olimex ESP32-POE / ESP-POE-ISO"));
_networkDeviceType = NetworkDeviceType::LAN8720;
}
else
{
Log->println(F("Unknown hardware selected, falling back to Wifi."));
_networkDeviceType = NetworkDeviceType::WiFi;
}
}
switch(_networkDeviceType)
{
case NetworkDeviceType::W5500:
Log->println(F("Network device: W5500"));
_device = new W5500Device(_hostname, _preferences, hardwareDetect);
break;
case NetworkDeviceType::LAN8720:
Log->println(F("Network device: LAN8720"));
_device = new EthLan8720Device(_hostname, _preferences);
break;
case NetworkDeviceType::WiFi:
Log->println(F("Network device: Builtin WiFi"));
_device = new WifiDevice(_hostname, _preferences);
break;
default:
Log->println(F("Unknown network device type, defaulting to WiFi"));
_device = new WifiDevice(_hostname, _preferences);
break;
}
_device->mqttOnConnect([&](bool sessionPresent)
{
onMqttConnect(sessionPresent);
});
_device->mqttOnDisconnect([&](espMqttClientTypes::DisconnectReason reason)
{
onMqttDisconnect(reason);
});
}
void Network::initialize()
{
_restartOnDisconnect = _preferences->getBool(preference_restart_on_disconnect);
_rssiPublishInterval = _preferences->getInt(preference_rssi_publish_interval) * 1000;
_hostname = _preferences->getString(preference_hostname);
if(_hostname == "")
{
_hostname = "nukihub";
_preferences->putString(preference_hostname, _hostname);
}
if(_rssiPublishInterval == 0)
{
_rssiPublishInterval = -1;
_preferences->putInt(preference_rssi_publish_interval, _rssiPublishInterval);
}
strcpy(_hostnameArr, _hostname.c_str());
_device->initialize();
Log->print(F("Host name: "));
Log->println(_hostname);
String brokerAddr = _preferences->getString(preference_mqtt_broker);
strcpy(_mqttBrokerAddr, brokerAddr.c_str());
int port = _preferences->getInt(preference_mqtt_broker_port);
if(port == 0)
{
port = 1883;
_preferences->putInt(preference_mqtt_broker_port, port);
}
String mqttUser = _preferences->getString(preference_mqtt_user);
if(mqttUser.length() > 0)
{
size_t len = mqttUser.length();
for(int i=0; i < len; i++)
{
_mqttUser[i] = mqttUser.charAt(i);
}
}
String mqttPass = _preferences->getString(preference_mqtt_password);
if(mqttPass.length() > 0)
{
size_t len = mqttPass.length();
for(int i=0; i < len; i++)
{
_mqttPass[i] = mqttPass.charAt(i);
}
}
Log->print(F("MQTT Broker: "));
Log->print(_mqttBrokerAddr);
Log->print(F(":"));
Log->println(port);
_device->mqttSetClientId(_hostnameArr);
_device->mqttSetCleanSession(MQTT_CLEAN_SESSIONS);
_networkTimeout = _preferences->getInt(preference_network_timeout);
if(_networkTimeout == 0)
{
_networkTimeout = -1;
_preferences->putInt(preference_network_timeout, _networkTimeout);
}
_publishDebugInfo = _preferences->getBool(preference_publish_debug_info);
}
bool Network::update()
{
unsigned long ts = millis();
_device->update();
if(!_device->isConnected())
{
if(_restartOnDisconnect && millis() > 60000)
{
restartEsp(RestartReason::RestartOnDisconnectWatchdog);
}
Log->println(F("Network not connected. Trying reconnect."));
ReconnectStatus reconnectStatus = _device->reconnect();
switch(reconnectStatus)
{
case ReconnectStatus::CriticalFailure:
strcpy(WiFi_fallbackDetect, "wifi_fallback");
Log->println("Network device has a critical failure, enable fallback to Wifi and reboot.");
delay(200);
restartEsp(RestartReason::NetworkDeviceCriticalFailure);
break;
case ReconnectStatus::Success:
memset(WiFi_fallbackDetect, 0, sizeof(WiFi_fallbackDetect));
Log->println(F("Reconnect successful"));
break;
case ReconnectStatus::Failure:
Log->println(F("Reconnect failed"));
break;
}
}
if(!_device->mqttConnected())
{
if(_networkTimeout > 0 && (ts - _lastConnectedTs > _networkTimeout * 1000) && ts > 60000)
{
Log->println("Network timeout has been reached, restarting ...");
delay(200);
restartEsp(RestartReason::NetworkTimeoutWatchdog);
}
bool success = reconnect();
if(!success)
{
return false;
}
}
_lastConnectedTs = ts;
if(_presenceCsv != nullptr && strlen(_presenceCsv) > 0)
{
bool success = publishString(_mqttPresencePrefix, mqtt_topic_presence, _presenceCsv);
if(!success)
{
Log->println(F("Failed to publish presence CSV data."));
Log->println(_presenceCsv);
}
_presenceCsv = nullptr;
}
if(_device->signalStrength() != 127 && _rssiPublishInterval > 0 && ts - _lastRssiTs > _rssiPublishInterval)
{
_lastRssiTs = ts;
int8_t rssi = _device->signalStrength();
if(rssi != _lastRssi)
{
publishInt(_maintenancePathPrefix, mqtt_topic_wifi_rssi, _device->signalStrength());
_lastRssi = rssi;
}
}
if(_lastMaintenanceTs == 0 || (ts - _lastMaintenanceTs) > 30000)
{
publishULong(_maintenancePathPrefix, mqtt_topic_uptime, ts / 1000 / 60);
if(_publishDebugInfo)
{
publishUInt(_maintenancePathPrefix, mqtt_topic_freeheap, esp_get_free_heap_size());
publishString(_maintenancePathPrefix, mqtt_topic_restart_reason_fw, getRestartReason().c_str());
publishString(_maintenancePathPrefix, mqtt_topic_restart_reason_esp, getEspRestartReason().c_str());
}
_lastMaintenanceTs = ts;
}
return true;
}
void Network::onMqttConnect(const bool &sessionPresent)
{
_connectReplyReceived = true;
}
void Network::onMqttDisconnect(const espMqttClientTypes::DisconnectReason &reason)
{
_connectReplyReceived = true;
Log->print("MQTT disconnected. Reason: ");
switch(reason)
{
case espMqttClientTypes::DisconnectReason::USER_OK:
Log->println(F("USER_OK"));
break;
case espMqttClientTypes::DisconnectReason::MQTT_UNACCEPTABLE_PROTOCOL_VERSION:
Log->println(F("MQTT_UNACCEPTABLE_PROTOCOL_VERSION"));
break;
case espMqttClientTypes::DisconnectReason::MQTT_IDENTIFIER_REJECTED:
Log->println(F("MQTT_IDENTIFIER_REJECTED"));
break;
case espMqttClientTypes::DisconnectReason::MQTT_SERVER_UNAVAILABLE:
Log->println(F("MQTT_SERVER_UNAVAILABLE"));
break;
case espMqttClientTypes::DisconnectReason::MQTT_MALFORMED_CREDENTIALS:
Log->println(F("MQTT_MALFORMED_CREDENTIALS"));
break;
case espMqttClientTypes::DisconnectReason::MQTT_NOT_AUTHORIZED:
Log->println(F("MQTT_NOT_AUTHORIZED"));
break;
case espMqttClientTypes::DisconnectReason::TLS_BAD_FINGERPRINT:
Log->println(F("TLS_BAD_FINGERPRINT"));
break;
case espMqttClientTypes::DisconnectReason::TCP_DISCONNECTED:
Log->println(F("TCP_DISCONNECTED"));
break;
default:
Log->println(F("Unknown"));
break;
}
}
bool Network::reconnect()
{
_mqttConnectionState = 0;
int port = _preferences->getInt(preference_mqtt_broker_port);
while (!_device->mqttConnected() && millis() > _nextReconnect)
{
if(strcmp(_mqttBrokerAddr, "") == 0)
{
Log->println(F("MQTT Broker not configured, aborting connection attempt."));
_nextReconnect = millis() + 5000;
return false;
}
Log->println(F("Attempting MQTT connection"));
_connectReplyReceived = false;
if(strlen(_mqttUser) == 0)
{
Log->println(F("MQTT: Connecting without credentials"));
_device->mqttSetServer(_mqttBrokerAddr, port);
_device->mqttConnect();
}
else
{
Log->print(F("MQTT: Connecting with user: ")); Log->println(_mqttUser);
_device->mqttSetCredentials(_mqttUser, _mqttPass);
_device->mqttSetServer(_mqttBrokerAddr, port);
_device->mqttConnect();
}
unsigned long timeout = millis() + 60000;
while(!_connectReplyReceived && millis() < timeout)
{
delay(50);
_device->update();
if(_keepAliveCallback != nullptr)
{
_keepAliveCallback();
}
}
if (_device->mqttConnected())
{
Log->println(F("MQTT connected"));
_mqttConnectionState = 1;
delay(100);
_ignoreSubscriptionsTs = millis() + 2000;
_device->mqttOnMessage(Network::onMqttDataReceivedCallback);
for(const String& topic : _subscribedTopics)
{
_device->mqttSubscribe(topic.c_str(), MQTT_QOS_LEVEL);
}
if(_firstConnect)
{
_firstConnect = false;
for(const auto& it : _initTopics)
{
_device->mqttPublish(it.first.c_str(), MQTT_QOS_LEVEL, true, it.second.c_str());
}
}
_mqttConnectionState = 2;
for(const auto& callback : _reconnectedCallbacks)
{
callback();
}
}
else
{
Log->print(F("MQTT connect failed, rc="));
_device->printError();
_mqttConnectionState = 0;
_nextReconnect = millis() + 5000;
_device->mqttDisonnect(true);
}
}
return _mqttConnectionState > 0;
}
void Network::subscribe(const char* prefix, const char *path)
{
char prefixedPath[500];
buildMqttPath(prefix, path, prefixedPath);
_subscribedTopics.push_back(prefixedPath);
}
void Network::initTopic(const char *prefix, const char *path, const char *value)
{
char prefixedPath[500];
buildMqttPath(prefix, path, prefixedPath);
String pathStr = prefixedPath;
String valueStr = value;
_initTopics[pathStr] = valueStr;
}
void Network::buildMqttPath(const char* prefix, const char* path, char* outPath)
{
int offset = 0;
int i=0;
while(prefix[i] != 0x00)
{
outPath[offset] = prefix[i];
++offset;
++i;
}
i=0;
while(path[i] != 0x00)
{
outPath[offset] = path[i];
++i;
++offset;
}
outPath[offset] = 0x00;
}
void Network::registerMqttReceiver(MqttReceiver* receiver)
{
_mqttReceivers.push_back(receiver);
}
void Network::onMqttDataReceivedCallback(const espMqttClientTypes::MessageProperties& properties, const char* topic, const uint8_t* payload, size_t len, size_t index, size_t total)
{
if(millis() < _ignoreSubscriptionsTs)
{
return;
}
uint8_t value[50] = {0};
size_t l = min(len, sizeof(value)-1);
for(int i=0; i<l; i++)
{
value[i] = payload[i];
}
_inst->onMqttDataReceived(properties, topic, value, len, index, total);
}
void Network::onMqttDataReceived(const espMqttClientTypes::MessageProperties& properties, const char* topic, const uint8_t* payload, size_t len, size_t index, size_t total)
{
for(auto receiver : _mqttReceivers)
{
receiver->onMqttDataReceived(topic, (byte*)payload, index);
}
}
void Network::reconfigureDevice()
{
_device->reconfigure();
}
void Network::setMqttPresencePath(char *path)
{
memset(_mqttPresencePrefix, 0, sizeof(_mqttPresencePrefix));
strcpy(_mqttPresencePrefix, path);
}
void Network::disableAutoRestarts()
{
_networkTimeout = 0;
_restartOnDisconnect = false;
}
int Network::mqttConnectionState()
{
return _mqttConnectionState;
}
bool Network::encryptionSupported()
{
return _device->supportsEncryption();
}
const String Network::networkDeviceName() const
{
return _device->deviceName();
}
void Network::publishFloat(const char* prefix, const char* topic, const float value, const uint8_t precision)
{
char str[30];
dtostrf(value, 0, precision, str);
char path[200] = {0};
buildMqttPath(prefix, topic, path);
_device->mqttPublish(path, MQTT_QOS_LEVEL, true, str);
}
void Network::publishInt(const char* prefix, const char *topic, const int value)
{
char str[30];
itoa(value, str, 10);
char path[200] = {0};
buildMqttPath(prefix, topic, path);
_device->mqttPublish(path, MQTT_QOS_LEVEL, true, str);
}
void Network::publishUInt(const char* prefix, const char *topic, const unsigned int value)
{
char str[30];
utoa(value, str, 10);
char path[200] = {0};
buildMqttPath(prefix, topic, path);
_device->mqttPublish(path, MQTT_QOS_LEVEL, true, str);
}
void Network::publishULong(const char* prefix, const char *topic, const unsigned long value)
{
char str[30];
utoa(value, str, 10);
char path[200] = {0};
buildMqttPath(prefix, topic, path);
_device->mqttPublish(path, MQTT_QOS_LEVEL, true, str);
}
void Network::publishBool(const char* prefix, const char *topic, const bool value)
{
char str[2] = {0};
str[0] = value ? '1' : '0';
char path[200] = {0};
buildMqttPath(prefix, topic, path);
_device->mqttPublish(path, MQTT_QOS_LEVEL, true, str);
}
bool Network::publishString(const char* prefix, const char *topic, const char *value)
{
char path[200] = {0};
buildMqttPath(prefix, topic, path);
return _device->mqttPublish(path, MQTT_QOS_LEVEL, true, value) > 0;
}
void Network::publishHASSConfig(char* deviceType, const char* baseTopic, char* name, char* uidString, const bool& hasKeypad, char* lockAction, char* unlockAction, char* openAction, char* lockedState, char* unlockedState)
{
String discoveryTopic = _preferences->getString(preference_mqtt_hass_discovery);
if (discoveryTopic != "")
{
char* jsonOut = new char[JSON_BUFFER_SIZE];
DynamicJsonDocument json(JSON_BUFFER_SIZE);
auto dev = json.createNestedObject("dev");
auto ids = dev.createNestedArray("ids");
ids.add(String("nuki_") + uidString);
json["dev"]["mf"] = "Nuki";
json["dev"]["mdl"] = deviceType;
json["dev"]["name"] = name;
json["~"] = baseTopic;
json["name"] = name;
json["unique_id"] = String(uidString) + "_lock";
json["cmd_t"] = String("~") + String(mqtt_topic_lock_action);
json["pl_lock"] = lockAction;
json["pl_unlk"] = unlockAction;
json["pl_open"] = openAction;
json["stat_t"] = String("~") + mqtt_topic_lock_binary_state;
json["stat_locked"] = lockedState;
json["stat_unlocked"] = unlockedState;
json["opt"] = "false";
serializeJson(json, reinterpret_cast<char(&)[JSON_BUFFER_SIZE]>(*jsonOut));
String path = discoveryTopic;
path.concat("/lock/");
path.concat(uidString);
path.concat("/smartlock/config");
_device->mqttPublish(path.c_str(), MQTT_QOS_LEVEL, true, jsonOut);
delete jsonOut;
// Battery critical
publishHassTopic("binary_sensor",
"battery_low",
uidString,
"_battery_low",
"battery low",
name,
baseTopic,
mqtt_topic_battery_critical,
deviceType,
"battery",
"",
"diagnostic",
"",
{{"pl_on", "1"},
{"pl_off", "0"}});
if(hasKeypad)
{
// Keypad battery critical
publishHassTopic("binary_sensor",
"keypad_battery_low",
uidString,
"_keypad_battery_low",
"keypad battery low",
name,
baseTopic,
mqtt_topic_battery_keypad_critical,
deviceType,
"battery",
"",
"diagnostic",
"",
{{"pl_on", "1"},
{"pl_off", "0"}});
}
// Battery voltage
publishHassTopic("sensor",
"battery_voltage",
uidString,
"_battery_voltage",
"battery voltage",
name,
baseTopic,
mqtt_topic_battery_voltage,
deviceType,
"voltage",
"measurement",
"diagnostic",
"",
{ {"unit_of_meas", "V"} });
// Trigger
publishHassTopic("sensor",
"trigger",
uidString,
"_trigger",
"trigger",
name,
baseTopic,
mqtt_topic_lock_trigger,
deviceType,
"",
"",
"diagnostic",
"",
{ { "enabled_by_default", "true" } });
// Firmware version
publishHassTopic("sensor",
"firmware_version",
uidString,
"_firmware_version",
"Firmware version",
name,
baseTopic,
mqtt_topic_info_firmware_version,
deviceType,
"",
"",
"diagnostic",
"",
{ { "enabled_by_default", "true" },
{"ic", "mdi:counter"}});
// Firmware version
publishHassTopic("sensor",
"hardware_version",
uidString,
"_hardware_version",
"Hardware version",
name,
baseTopic,
mqtt_topic_info_hardware_version,
deviceType,
"",
"",
"diagnostic",
"",
{ { "enabled_by_default", "true" },
{"ic", "mdi:counter"}});
// LED enabled
publishHassTopic("switch",
"led_enabled",
uidString,
"_led_enabled",
"LED enabled",
name,
baseTopic,
mqtt_topic_config_led_enabled,
deviceType,
"",
"",
"config",
mqtt_topic_config_led_enabled,
{ { "ic", "mdi:led-variant-on" },
{ "pl_on", "1" },
{ "pl_off", "0" },
{ "state_on", "1" },
{ "state_off", "0" }});
// Button enabled
publishHassTopic("switch",
"button_enabled",
uidString,
"_button_enabled",
"Button enabled",
name,
baseTopic,
mqtt_topic_config_button_enabled,
deviceType,
"",
"",
"config",
mqtt_topic_config_button_enabled,
{ { "ic", "mdi:radiobox-marked" },
{ "pl_on", "1" },
{ "pl_off", "0" },
{ "state_on", "1" },
{ "state_off", "0" }});
}
}
//json["cmd_t"] = String("~") + String(mqtt_topic_lock_action);
void Network::publishHASSConfigBatLevel(char *deviceType, const char *baseTopic, char *name, char *uidString)
{
String discoveryTopic = _preferences->getString(preference_mqtt_hass_discovery);
if (discoveryTopic != "")
{
publishHassTopic("sensor",
"battery_level",
uidString,
"_battery_level",
"battery level",
name,
baseTopic,
mqtt_topic_battery_level,
deviceType,
"battery",
"measurement",
"diagnostic",
"",
{ {"unit_of_meas", "%"} });
}
}
void Network::publishHASSConfigDoorSensor(char *deviceType, const char *baseTopic, char *name, char *uidString,
char *lockAction, char *unlockAction, char *openAction, char *lockedState,
char *unlockedState)
{
String discoveryTopic = _preferences->getString(preference_mqtt_hass_discovery);
if (discoveryTopic != "")
{
publishHassTopic("binary_sensor",
"door_sensor",
uidString,
"_door_sensor",
"door sensor",
name,
baseTopic,
mqtt_topic_lock_door_sensor_state,
deviceType,
"door",
"",
"",
"",
{{"pl_on", "doorOpened"},
{"pl_off", "doorClosed"},
{"pl_not_avail", "unavailable"}});
}
}
void Network::publishHASSConfigRingDetect(char *deviceType, const char *baseTopic, char *name, char *uidString)
{
String discoveryTopic = _preferences->getString(preference_mqtt_hass_discovery);
if (discoveryTopic != "")
{
publishHassTopic("binary_sensor",
"ring",
uidString,
"_ring_detect",
"ring detect",
name,
baseTopic,
mqtt_topic_lock_state,
deviceType,
"sound",
"",
"",
"",
{{"pl_on", "ring"},
{"pl_off", "locked"}});
}
}
void Network::publishHASSConfigLedBrightness(char *deviceType, const char *baseTopic, char *name, char *uidString)
{
publishHassTopic("number",
"led_brightness",
uidString,
"_led_brightness",
"LED brightness",
name,
baseTopic,
mqtt_topic_config_led_brightness,
deviceType,
"",
"",
"config",
mqtt_topic_config_led_brightness,
{ { "ic", "mdi:brightness-6" },
{ "min", "0" },
{ "max", "5" }});
}
void Network::publishHASSConfigSoundLevel(char *deviceType, const char *baseTopic, char *name, char *uidString)
{
publishHassTopic("number",
"sound_level",
uidString,
"_sound_level",
"Sound level",
name,
baseTopic,
mqtt_topic_config_sound_level,
deviceType,
"",
"",
"config",
mqtt_topic_config_sound_level,
{ { "ic", "mdi:volume-source" },
{ "min", "0" },
{ "max", "255" }});
}
void Network::publishHASSWifiRssiConfig(char *deviceType, const char *baseTopic, char *name, char *uidString)
{
if(_device->signalStrength() == 127)
{
return;
}
String discoveryTopic = _preferences->getString(preference_mqtt_hass_discovery);
if (discoveryTopic != "")
{
publishHassTopic("sensor",
"wifi_signal_strength",
uidString,
"_wifi_signal_strength",
"wifi signal strength",
name,
baseTopic,
mqtt_topic_wifi_rssi,
deviceType,
"signal_strength",
"measurement",
"diagnostic",
"",
{ {"unit_of_meas", "dBm"} });
}
}
void Network::publishHASSBleRssiConfig(char *deviceType, const char *baseTopic, char *name, char *uidString)
{
String discoveryTopic = _preferences->getString(preference_mqtt_hass_discovery);
if (discoveryTopic != "")
{
publishHassTopic("sensor",
"bluetooth_signal_strength",
uidString,
"_bluetooth_signal_strength",
"bluetooth signal strength",
name,
baseTopic,
mqtt_topic_lock_rssi,
deviceType,
"signal_strength",
"measurement",
"diagnostic",
"",
{ {"unit_of_meas", "dBm"} });
}
}
void Network::publishHassTopic(const String& mqttDeviceType,
const String& mattDeviceName,
const String& uidString,
const String& uidStringPostfix,
const String& displayName,
const String& name,
const String& baseTopic,
const String& stateTopic,
const String& deviceType,
const String& deviceClass,
const String& stateClass,
const String& entityCat,
const String& commandTopic,
std::vector<std::pair<char*, char*>> additionalEntries
)
{
String discoveryTopic = _preferences->getString(preference_mqtt_hass_discovery);
if (discoveryTopic != "")
{
char *jsonOut = new char[JSON_BUFFER_SIZE];
DynamicJsonDocument json(JSON_BUFFER_SIZE);
// Battery level
json.clear();
auto dev = json.createNestedObject("dev");
auto ids = dev.createNestedArray("ids");
ids.add(String("nuki_") + uidString);
json["dev"]["mf"] = "Nuki";
json["dev"]["mdl"] = deviceType;
json["dev"]["name"] = name;
json["~"] = baseTopic;
json["name"] = name + String(" " + displayName);
json["unique_id"] = String(uidString) + uidStringPostfix;
if(deviceClass != "")
{
json["dev_cla"] = deviceClass;
}
json["stat_t"] = String("~") + stateTopic;
if(stateClass != "")
{
json["stat_cla"] = stateClass;
}
if(entityCat != "")
{
json["ent_cat"] = entityCat;
}
if(commandTopic != "")
{
json["cmd_t"] = String("~") + commandTopic;
}
for(const auto& entry : additionalEntries)
{
json[entry.first] = entry.second;
}
serializeJson(json, reinterpret_cast<char (&)[JSON_BUFFER_SIZE]>(*jsonOut));
String path = discoveryTopic;
path.concat("/");
path.concat(mqttDeviceType);
path.concat("/");
path.concat(uidString);
path.concat("/");
path.concat(mattDeviceName);
path.concat("/config");
_device->mqttPublish(path.c_str(), MQTT_QOS_LEVEL, true, jsonOut);
delete jsonOut;
}
}
void Network::removeHASSConfig(char* uidString)
{
String discoveryTopic = _preferences->getString(preference_mqtt_hass_discovery);
if(discoveryTopic != "")
{
String path = discoveryTopic;
path.concat("/lock/");
path.concat(uidString);
path.concat("/smartlock/config");
_device->mqttPublish(path.c_str(), MQTT_QOS_LEVEL, true, "");
path = discoveryTopic;
path.concat("/binary_sensor/");
path.concat(uidString);
path.concat("/battery_low/config");
_device->mqttPublish(path.c_str(), MQTT_QOS_LEVEL, true, "");
path = discoveryTopic;
path.concat("/sensor/");
path.concat(uidString);
path.concat("/battery_voltage/config");
_device->mqttPublish(path.c_str(), MQTT_QOS_LEVEL, true, "");
path = discoveryTopic;
path.concat("/sensor/");
path.concat(uidString);
path.concat("/trigger/config");
_device->mqttPublish(path.c_str(), MQTT_QOS_LEVEL, true, "");
path = discoveryTopic;
path.concat("/sensor/");
path.concat(uidString);
path.concat("/battery_level/config");
_device->mqttPublish(path.c_str(), MQTT_QOS_LEVEL, true, "");
path = discoveryTopic;
path.concat("/binary_sensor/");
path.concat(uidString);
path.concat("/door_sensor/config");
_device->mqttPublish(path.c_str(), MQTT_QOS_LEVEL, true, "");
path = discoveryTopic;
path.concat("/binary_sensor/");
path.concat(uidString);
path.concat("/ring/config");
_device->mqttPublish(path.c_str(), MQTT_QOS_LEVEL, true, "");
path = discoveryTopic;
path.concat("/sensor/");
path.concat(uidString);
path.concat("/wifi_signal_strength/config");
_device->mqttPublish(path.c_str(), MQTT_QOS_LEVEL, true, "");
path = discoveryTopic;
path.concat("/sensor/");
path.concat(uidString);
path.concat("/bluetooth_signal_strength/config");
_device->mqttPublish(path.c_str(), MQTT_QOS_LEVEL, true, "");
}
}
void Network::publishPresenceDetection(char *csv)
{
_presenceCsv = csv;
}
const NetworkDeviceType Network::networkDeviceType()
{
return _networkDeviceType;
}
uint16_t Network::subscribe(const char *topic, uint8_t qos)
{
return _device->mqttSubscribe(topic, qos);
}
void Network::setKeepAliveCallback(std::function<void()> reconnectTick)
{
_keepAliveCallback = reconnectTick;
}
void Network::addReconnectedCallback(std::function<void()> reconnectedCallback)
{
_reconnectedCallbacks.push_back(reconnectedCallback);
}
void Network::clearWifiFallback()
{
memset(WiFi_fallbackDetect, 0, sizeof(WiFi_fallbackDetect));
}
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