From 97f082b6f5018d4db4e3ae94b14768f6ca1f9fa8 Mon Sep 17 00:00:00 2001 From: "Alexander \"PapaTutuWawa" Date: Wed, 4 Oct 2023 22:15:59 +0200 Subject: [PATCH] feat(example): Add a very simple client example --- examples_dart/bin/simple_client.dart | 112 +++++++++++++++++++++++++++ 1 file changed, 112 insertions(+) create mode 100644 examples_dart/bin/simple_client.dart diff --git a/examples_dart/bin/simple_client.dart b/examples_dart/bin/simple_client.dart new file mode 100644 index 0000000..00070f7 --- /dev/null +++ b/examples_dart/bin/simple_client.dart @@ -0,0 +1,112 @@ +import 'package:logging/logging.dart'; +import 'package:moxxmpp/moxxmpp.dart'; +import 'package:moxxmpp_socket_tcp/moxxmpp_socket_tcp.dart'; + +/// The JID we want to authenticate as. +final xmppUser = JID.fromString('jane@example.com'); + +/// The password to authenticate with. +const xmppPass = 'secret'; + +/// The [xmppHost]:[xmppPort] server address to connect to. +/// In a real application, one might prefer to use [TCPSocketWrapper] +/// with a custom DNS implementation to let moxxmpp resolve the XMPP +/// server's address automatically. However, if we just provide a host +/// and a port, then [TCPSocketWrapper] will just skip the resolution and +/// immediately use the provided connection details. +const xmppHost = 'localhost'; +const xmppPort = 5222; + +void main(List args) async { + Logger.root.level = Level.ALL; + Logger.root.onRecord.listen((record) { + print('${record.level.name}|${record.time}: ${record.message}'); + }); + + // This class manages every aspect of handling the XMPP stream. + final connection = XmppConnection( + // A reconnection policy tells the connection how to handle an error + // while or after connecting to the server. The [TestingReconnectionPolicy] + // immediately triggers a reconnection. In a real implementation, one might + // prefer to use a smarter strategy, like using an exponential backoff. + TestingReconnectionPolicy(), + + // A connectivity manager tells the connection when it can connect. This is to + // ensure that we're not constantly trying to reconnect because we have no + // Internet connection. [AlwaysConnectedConnectivityManager] always says that + // we're connected. In a real application, one might prefer to use a smarter + // strategy, like using connectivity_plus to query the system's network connectivity + // state. + AlwaysConnectedConnectivityManager(), + + // This kind of negotiator tells the connection how to handle the stream + // negotiations. The [ClientToServerNegotiator] allows to connect to the server + // as a regular client. Another negotiator would be the [ComponentToServerNegotiator] that + // allows for connections to the server where we're acting as a component. + ClientToServerNegotiator(), + + // A wrapper around any kind of connection. In this case, we use the [TCPSocketWrapper], which + // uses a dart:io Socket/SecureSocket to connect to the server. If you want, you can also + // provide your own socket to use, for example, WebSockets or any other connection + // mechanism. + TCPSocketWrapper(false), + )..connectionSettings = ConnectionSettings( + jid: xmppUser, + password: xmppPass, + host: xmppHost, + port: xmppPort, + ); + + // Register a set of "managers" that provide you with implementations of various + // XEPs. Some have interdependencies, which need to be met. However, this example keeps + // it simple and just registers a [MessageManager], which has no required dependencies. + await connection.registerManagers([ + // The [MessageManager] handles receiving and sending stanzas. + MessageManager(), + ]); + + // Feature negotiators are objects that tell the connection negotiator what stream features + // we can negotiate and enable. moxxmpp negotiators always try to enable their features. + await connection.registerFeatureNegotiators([ + // This negotiator authenticates to the server using SASL PLAIN with the provided + // credentials. + SaslPlainNegotiator(), + // This negotiator attempts to bind a resource. By default, it's always a random one. + ResourceBindingNegotiator(), + // This negotiator attempts to do StartTLS before authenticating. + StartTlsNegotiator(), + ]); + + // Set up a stream handler for the connection's event stream. Managers and negotiators + // may trigger certain events. The [MessageManager], for example, triggers a [MessageEvent] + // whenever a message is received. If other managers are registered that parse a message's + // contents, then they can add their data to the event. + connection.asBroadcastStream().listen((event) { + if (event is! MessageEvent) { + return; + } + + // The text body (contents of the element) are returned as a + // [MessageBodyData] object. However, a message does not have to contain a + // body, so it is nullable. + final body = event.extensions.get()?.body; + print('[<-- ${event.from}] $body'); + }); + + // Connect to the server. + final result = await connection.connect( + // This flag indicates that we want to reconnect in case something happens. + shouldReconnect: true, + // This flag indicates that we want the returned Future to only resolve + // once the stream negotiations are done and no negotiator has any feature left + // to negotiate. + waitUntilLogin: true, + ); + + // Check if the connection was successful. [connection.connect] can return a boolean + // to indicate success or a [XmppError] in case the connection attempt failed. + if (!result.isType()) { + print('Failed to connect to server'); + return; + } +}