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SpotMicroESP32-Leika/esp32/lib/ESP32-sveltekit/MqttSettingsService.cpp
T
Rune Harlyk b804b9df1f Adds template libs
2024-05-03 16:23:03 +02:00

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/**
* ESP32 SvelteKit
*
* A simple, secure and extensible framework for IoT projects for ESP32 platforms
* with responsive Sveltekit front-end built with TailwindCSS and DaisyUI.
* https://github.com/theelims/ESP32-sveltekit
*
* Copyright (C) 2018 - 2023 rjwats
* Copyright (C) 2023 theelims
*
* All Rights Reserved. This software may be modified and distributed under
* the terms of the LGPL v3 license. See the LICENSE file for details.
**/
#include <MqttSettingsService.h>
extern const uint8_t rootca_crt_bundle_start[] asm("_binary_src_certs_x509_crt_bundle_bin_start");
/**
* Retains a copy of the cstr provided in the pointer provided using dynamic allocation.
*
* Frees the pointer before allocation and leaves it as nullptr if cstr == nullptr.
*/
static char *retainCstr(const char *cstr, char **ptr)
{
// free up previously retained value if exists
free(*ptr);
*ptr = nullptr;
// dynamically allocate and copy cstr (if non null)
if (cstr != nullptr)
{
*ptr = (char *)malloc(strlen(cstr) + 1);
strcpy(*ptr, cstr);
}
// return reference to pointer for convenience
return *ptr;
}
MqttSettingsService::MqttSettingsService(PsychicHttpServer *server,
FS *fs,
SecurityManager *securityManager) : _server(server),
_securityManager(securityManager),
_httpEndpoint(MqttSettings::read, MqttSettings::update, this, server, MQTT_SETTINGS_SERVICE_PATH, securityManager),
_fsPersistence(MqttSettings::read, MqttSettings::update, this, fs, MQTT_SETTINGS_FILE),
_retainedHost(nullptr),
_retainedClientId(nullptr),
_retainedUsername(nullptr),
_retainedPassword(nullptr),
_reconfigureMqtt(false),
_mqttClient(),
_lastError("None")
{
addUpdateHandler([&](const String &originId)
{ onConfigUpdated(); },
false);
_mqttClient.setCACertBundle(rootca_crt_bundle_start);
}
MqttSettingsService::~MqttSettingsService()
{
}
void MqttSettingsService::begin()
{
WiFi.onEvent(
std::bind(&MqttSettingsService::onStationModeDisconnected, this, std::placeholders::_1, std::placeholders::_2),
WiFiEvent_t::ARDUINO_EVENT_WIFI_STA_DISCONNECTED);
WiFi.onEvent(std::bind(&MqttSettingsService::onStationModeGotIP, this, std::placeholders::_1, std::placeholders::_2),
WiFiEvent_t::ARDUINO_EVENT_WIFI_STA_GOT_IP);
_mqttClient.onConnect(std::bind(&MqttSettingsService::onMqttConnect, this, std::placeholders::_1));
_mqttClient.onDisconnect(std::bind(&MqttSettingsService::onMqttDisconnect, this, std::placeholders::_1));
_mqttClient.onError(std::bind(&MqttSettingsService::onMqttError, this, std::placeholders::_1));
_httpEndpoint.begin();
_fsPersistence.readFromFS();
}
void MqttSettingsService::loop()
{
if (_reconfigureMqtt)
{
// reconfigure MQTT client
configureMqtt();
// clear the reconnection flags
_reconfigureMqtt = false;
}
}
bool MqttSettingsService::isEnabled()
{
return _state.enabled;
}
bool MqttSettingsService::isConnected()
{
return _mqttClient.connected();
}
const char *MqttSettingsService::getClientId()
{
// return _mqttClient.getClientId();
return _state.clientId.c_str();
}
PsychicMqttClient *MqttSettingsService::getMqttClient()
{
return &_mqttClient;
}
String MqttSettingsService::getLastError()
{
return _lastError;
}
void MqttSettingsService::onMqttConnect(bool sessionPresent)
{
ESP_LOGI("MQTT", "Connected to MQTT: %s", _mqttClient.getMqttConfig()->uri);
#ifdef SERIAL_INFO
Serial.printf("Connected to MQTT: %s\n", _mqttClient.getMqttConfig()->uri);
#endif
_lastError = "None";
}
void MqttSettingsService::onMqttDisconnect(bool sessionPresent)
{
ESP_LOGI("MQTT", "Disconnected from MQTT.");
#ifdef SERIAL_INFO
Serial.println("Disconnected from MQTT.");
#endif
}
void MqttSettingsService::onMqttError(esp_mqtt_error_codes_t error)
{
if (error.error_type == MQTT_ERROR_TYPE_TCP_TRANSPORT)
{
_lastError = strerror(error.esp_transport_sock_errno);
ESP_LOGE("MQTT", "MQTT TCP error: %s", _lastError.c_str());
}
}
void MqttSettingsService::onConfigUpdated()
{
_reconfigureMqtt = true;
}
void MqttSettingsService::onStationModeGotIP(WiFiEvent_t event, WiFiEventInfo_t info)
{
if (_state.enabled)
{
ESP_LOGI("MQTT", "WiFi connection established, starting MQTT client.");
onConfigUpdated();
}
}
void MqttSettingsService::onStationModeDisconnected(WiFiEvent_t event, WiFiEventInfo_t info)
{
if (_state.enabled)
{
ESP_LOGI("MQTT", "WiFi connection dropped, stopping MQTT client.");
onConfigUpdated();
}
}
void MqttSettingsService::configureMqtt()
{
// disconnect if currently connected
_mqttClient.disconnect();
// only connect if WiFi is connected and MQTT is enabled
if (_state.enabled && WiFi.isConnected())
{
#ifdef SERIAL_INFO
Serial.println("Connecting to MQTT...");
#endif
_mqttClient.setServer(retainCstr(_state.uri.c_str(), &_retainedHost));
if (_state.username.length() > 0)
{
_mqttClient.setCredentials(
retainCstr(_state.username.c_str(), &_retainedUsername),
retainCstr(_state.password.length() > 0 ? _state.password.c_str() : nullptr, &_retainedPassword));
}
else
{
_mqttClient.setCredentials(retainCstr(nullptr, &_retainedUsername), retainCstr(nullptr, &_retainedPassword));
}
_mqttClient.setClientId(retainCstr(_state.clientId.c_str(), &_retainedClientId));
_mqttClient.setKeepAlive(_state.keepAlive);
_mqttClient.setCleanSession(_state.cleanSession);
_mqttClient.connect();
}
}
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