mqtt_client 3.3.1 mqtt_client: ^3.3.1 copied to clipboard
A server side MQTT client for Dart supporting both secure sockets and websockets.
/*
* Package : mqtt_client
* Author : S. Hamblett <steve.hamblett@linux.com>
* Date : 31/05/2017
* Copyright : S.Hamblett
*/
import 'dart:async';
import 'dart:io';
import 'package:mqtt_client/mqtt_client.dart';
/// An annotated simple subscribe/publish usage example for mqtt_client. Please read in with reference
/// to the MQTT specification. The example is runnable, also refer to test/mqtt_client_broker_test...dart
/// files for separate subscribe/publish tests.
Future<int> main() async {
/// First create a client, the client is constructed with a broker name, client identifier
/// and port if needed. The client identifier (short ClientId) is an identifier of each MQTT
/// client connecting to a MQTT broker. As the word identifier already suggests, it should be unique per broker.
/// The broker uses it for identifying the client and the current state of the client. If you don’t need a state
/// to be hold by the broker, in MQTT 3.1.1 you can set an empty ClientId, which results in a connection without any state.
/// A condition is that clean session connect flag is true, otherwise the connection will be rejected.
/// The client identifier can be a maximum length of 23 characters. If a port is not specified the standard port
/// of 1883 is used.
/// If you want to use websockets rather than TCP see below.
final MqttClient client = new MqttClient("test.mosquitto.org", "");
/// A websocket URL must start with ws:// or wss:// or Dart will throw an exception, consult your websocket MQTT broker
/// for details.
/// To use websockets add the following lines -:
/// client.useWebSocket = true;
/// client.port = 80; ( or whatever your WS port is)
/// Note do not set the secure flag if you are using wss, the secure flags is for TCP sockets only.
/// Set logging on if needed, defaults to off
client.logging(false);
/// If you intend to use a keep alive value in your connect message that is not the default(60s)
/// you must set it here
client.keepAlivePeriod = 20;
/// Add the unsolicited disconnection callback
client.onDisconnected = onDisconnected;
/// Add a subscribed callback, there is also an unsubscribed callback if you need it.
/// You can add these before connection or change them dynamically after connection if
/// you wish.
client.onSubscribed = onSubscribed;
/// Create a connection message to use or use the default one. The default one sets the
/// client identifier, any supplied username/password, the default keepalive interval(60s)
/// and clean session, an example of a specific one below.
final MqttConnectMessage connMess = new MqttConnectMessage()
.withClientIdentifier("Mqtt_MyClientUniqueId")
.keepAliveFor(20) // Must agree with the keep alive set above or not set
.withWillTopic("willtopic") // If you set this you must set a will message
.withWillMessage("My Will message")
.startClean() // Non persistent session for testing
.withWillQos(MqttQos.atLeastOnce);
print("EXAMPLE::Mosquitto client connecting....");
client.connectionMessage = connMess;
/// Connect the client, any errors here are communicated by raising of the appropriate exception. Note
/// in some circumstances the broker will just disconnect us, see the spec about this, we however eill
/// never send malformed messages.
try {
await client.connect();
} catch (e) {
print("EXAMPLE::client exception - $e");
client.disconnect();
}
/// Check we are connected
if (client.connectionState == ConnectionState.connected) {
print("EXAMPLE::Mosquitto client connected");
} else {
print(
"EXAMPLE::ERROR Mosquitto client connection failed - disconnecting, state is ${client.connectionState}");
client.disconnect();
exit(-1);
}
/// Ok, lets try a subscription
final String topic = "test/lol"; // Not a wildcard topic
client.subscribe(topic, MqttQos.atMostOnce);
/// The client has a change notifier object(see the Observable class) which we then listen to to get
/// notifications of published updates to each subscribed topic.
client.updates.listen((List<MqttReceivedMessage> c) {
final MqttPublishMessage recMess = c[0].payload as MqttPublishMessage;
final String pt =
MqttPublishPayload.bytesToStringAsString(recMess.payload.message);
/// The above may seem a little convoluted for users only interested in the
/// payload, some users however may be interested in the received publish message,
/// lets not constrain ourselves yet until the package has been in the wild
/// for a while.
/// The payload is a byte buffer, this will be specific to the topic
print(
"EXAMPLE::Change notification:: topic is <${c[0].topic}>, payload is <-- ${pt} -->");
print("");
});
/// Lets publish to our topic
// Use the payload builder rather than a raw buffer
print("EXAMPLE::Publishing our topic");
/// Our known topic to publish to
final String pubTopic = "Dart/Mqtt_client/testtopic";
final MqttClientPayloadBuilder builder = new MqttClientPayloadBuilder();
builder.addString("Hello from mqtt_client");
/// Subscribe to it
client.subscribe(pubTopic, MqttQos.exactlyOnce);
/// Publish it
client.publishMessage(pubTopic, MqttQos.exactlyOnce, builder.payload);
/// Ok, we will now sleep a while, in this gap you will see ping request/response
/// messages being exchanged by the keep alive mechanism.
print("EXAMPLE::Sleeping....");
await MqttUtilities.asyncSleep(120);
/// Finally, unsubscribe and exit gracefully
print("EXAMPLE::Unsubscribing");
client.unsubscribe(topic);
/// Wait for the unsubscribe message from the broker if you wish.
await MqttUtilities.asyncSleep(2);
print("EXAMPLE::Disconnecting");
client.disconnect();
return 0;
}
/// The subscribed callback
void onSubscribed(String topic) {
print("EXAMPLE::Subscription confirmed for topic $topic");
}
/// The unsolicited disconnect callback
void onDisconnected() {
print("EXAMPLE::OnDisconnected client callback - Client disconnection");
exit(-1);
}