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MQTT and Wifi handling for ESP8266 and ESP32

This library is intended to encapsulate the handling of WiFi and MQTT connections of an ESP8266/ESP32. You just need to provide your credentials and it will manage the following things:

Dependency

The MQTT communication depends on the PubSubClient Library.

Example

#include "EspMQTTClient.h"

EspMQTTClient client(
  "WifiSSID",
  "WifiPassword",
  "192.168.1.100",  // MQTT Broker server ip
  "MQTTUsername",   // Can be omitted if not needed
  "MQTTPassword",   // Can be omitted if not needed
  "TestClient"      // Client name that uniquely identify your device
);

void setup() {}

void onConnectionEstablished() {

  client.subscribe("mytopic/test", [] (const String &payload)  {
    Serial.println(payload);
  });

  client.publish("mytopic/test", "This is a message");
}

void loop() {
  client.loop();
}

See SimpleMQTTClient.ino for the complete example.

Documentation

Construction

For Wifi and MQTT connection handling (Recommended):

  EspMQTTClient(
    const char* wifiSsid,
    const char* wifiPassword,
    const char* mqttServerIp,
    const char* mqttUsername,  // Omit this parameter to disable MQTT authentification
    const char* mqttPassword,  // Omit this parameter to disable MQTT authentification
    const char* mqttClientName = "ESP8266",
    const uint16_t mqttServerPort = 1883);

MQTT connection handling only:

  EspMQTTClient(
    const char* mqttServerIp,
    const uint16_t mqttServerPort,  // It is mandatory here to allow these constructors to be distinct from those with the Wifi handling parameters
    const char* mqttUsername,    // Omit this parameter to disable MQTT authentification
    const char* mqttPassword,    // Omit this parameter to disable MQTT authentification
    const char* mqttClientName = "ESP8266");

Functions

IMPORTANT: Must be called at each loop() of your sketch

void loop();

Basic functions for MQTT communications.

bool publish(const String &topic, const String &payload, bool retain = false);
bool subscribe(const String &topic, MessageReceivedCallback messageReceivedCallback, uint8_t qos = 0);
bool unsubscribe(const String &topic);

Change the maximum packet size that can be sent over MQTT. The default is 128 bytes.

bool setMaxPacketSize(const uint16_t size);

Change the keep alive interval (15 seconds by default)

void setKeepAlive(uint16_t keepAliveSeconds);

Enable debugging messages that will output to serial.

void enableDebuggingMessages(const bool enabled = true);

Enable the web updater. This will host a simple form that will allow firmware upgrade (using, e.g., the .bin file produced by "Export Compiled Binary" in the Arduino IDE's "Sketch" menu). Must be set before the first loop() call.

void enableHTTPWebUpdater(const char* username, const char* password, const char* address = "/");

// this one will set user and password equal to those set for the MQTT connection.
void enableHTTPWebUpdater(const char* address = "/");

Enable last will message. Must be set before the first loop() call.

void enableLastWillMessage(const char* topic, const char* message, const bool retain = false);

Tell the broker to establish a persistent connection. Disabled by default. Must be called before the first loop() execution

void enableMQTTPersistence();

Change the delay between each MQTT reconnection attempt. Default is 15 seconds.

void setMqttReconnectionAttemptDelay(const unsigned int milliseconds);

Change the delay between each Wifi reconnection attempt. Default is 60 seconds.

void setWifiReconnectionAttemptDelay(const unsigned int milliseconds);

Connection status

bool isConnected(); // Return true if everything is connected.
bool isWifiConnected(); // Return true if WiFi is connected.
bool isMqttConnected(); // Return true if MQTT is connected.
bool getConnectionEstablishedCount() // Return the number of time onConnectionEstablished has been called since the beginning.

As ESP8266 does not like to be interrupted too long with the delay() function, this function will allow a delayed execution of a function without interrupting the sketch.

void executeDelayed(const long delay, DelayedExecutionCallback callback);

Some useful getters

const char* getMqttClientName();
const char* getMqttServerIp();
const uint16_t getMqttServerPort();

Connection established callback

To allow this library to work, you need to implement the onConnectionEstablished() function in your sketch.

void onConnectionEstablished()
{
  // Here you are sure that everything is connected.
}

In some special cases, like if you want to handle more than one MQTT connection in the same sketch, you can override this callback to another one for the second MQTT client using this function:

void setOnConnectionEstablishedCallback(ConnectionEstablishedCallback callback);

See example twoMQTTClientHandling.ino for more details.

Subscribing to topics

The function subscribe allows subscribing a specific topic.

For example, if you want to subscribe to topic test/mytopic, you can do this:

void onTestMessageReceived(const String& message) {
  Serial.print("message received from test/mytopic: " + message);
}

client.subscribe("test/mytopic", onTestMessageReceived);

You can also use lambdas to shorten the code like this:

client.subscribe("test/mytopic", [](const String& message) {
  Serial.print("message received from test/mytopic: " + message;
});

Wildcards

This library also handle MQTT topic wildcards. Most of the time, you will want to see what was the original topic when the callback is called. Here is how to do that.

Example: Subscribe to wildcardtest/# and display received topic and message to Serial

void onMessageReceived(const String& topic, const String& message) {
  Serial.println(topic + ": " + message);
}

client.subscribe("wildcardtest/#", onMessageReceived);

The same thing with lambdas:

  client.subscribe("wildcardtest/#", [](const String& topic, const String& message) {
    Serial.println(topic + ": " + message);
  });