feat: Rework how the ReconnectionPolicy system works
This commit is contained in:
parent
1cc266c675
commit
bff4a6f707
@ -1,6 +1,7 @@
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library moxxmpp;
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export 'package:moxxmpp/src/connection.dart';
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export 'package:moxxmpp/src/connectivity.dart';
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export 'package:moxxmpp/src/errors.dart';
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export 'package:moxxmpp/src/events.dart';
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export 'package:moxxmpp/src/iq.dart';
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@ -4,6 +4,7 @@ import 'package:meta/meta.dart';
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import 'package:moxlib/moxlib.dart';
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import 'package:moxxmpp/src/awaiter.dart';
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import 'package:moxxmpp/src/buffer.dart';
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import 'package:moxxmpp/src/connectivity.dart';
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import 'package:moxxmpp/src/errors.dart';
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import 'package:moxxmpp/src/events.dart';
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import 'package:moxxmpp/src/iq.dart';
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@ -94,12 +95,14 @@ class XmppConnectionResult {
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class XmppConnection {
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XmppConnection(
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ReconnectionPolicy reconnectionPolicy,
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ConnectivityManager connectivityManager,
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this._socket,
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{
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this.connectionPingDuration = const Duration(minutes: 3),
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this.connectingTimeout = const Duration(minutes: 2),
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}
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) : _reconnectionPolicy = reconnectionPolicy {
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) : _reconnectionPolicy = reconnectionPolicy,
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_connectivityManager = connectivityManager {
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// Allow the reconnection policy to perform reconnections by itself
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_reconnectionPolicy.register(
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_attemptReconnection,
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@ -122,13 +125,16 @@ class XmppConnection {
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/// The data stream of the socket
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late final Stream<String> _socketStream;
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/// Connection settings
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late ConnectionSettings _connectionSettings;
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/// A policy on how to reconnect
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final ReconnectionPolicy _reconnectionPolicy;
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/// The class responsible for preventing errors on initial connection due
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/// to no network.
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final ConnectivityManager _connectivityManager;
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/// A helper for handling await semantics with stanzas
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final StanzaAwaiter _stanzaAwaiter = StanzaAwaiter();
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@ -378,7 +384,7 @@ class XmppConnection {
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// Connect again
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// ignore: cascade_invocations
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_log.finest('Calling connect() from _attemptReconnection');
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await connect();
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await connect(waitForConnection: true);
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}
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/// Called when a stream ending error has occurred
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@ -401,7 +407,11 @@ class XmppConnection {
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return;
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}
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if (await _connectivityManager.hasConnection()) {
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await _setConnectionState(XmppConnectionState.error);
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} else {
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await _setConnectionState(XmppConnectionState.notConnected);
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}
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await _reconnectionPolicy.onFailure();
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}
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@ -832,7 +842,6 @@ class XmppConnection {
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if (_isMandatoryNegotiationDone(_streamFeatures) && !_isNegotiationPossible(_streamFeatures)) {
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_log.finest('Negotiations done!');
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_updateRoutingState(RoutingState.handleStanzas);
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await _reconnectionPolicy.onSuccess();
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await _resetIsConnectionRunning();
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await _onNegotiationsDone();
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} else {
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@ -857,7 +866,6 @@ class XmppConnection {
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_log.finest('Negotiations done!');
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_updateRoutingState(RoutingState.handleStanzas);
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await _reconnectionPolicy.onSuccess();
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await _resetIsConnectionRunning();
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await _onNegotiationsDone();
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} else {
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@ -875,7 +883,6 @@ class XmppConnection {
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_log.finest('Negotiator wants to skip the remaining negotiation... Negotiations (assumed) done!');
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_updateRoutingState(RoutingState.handleStanzas);
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await _reconnectionPolicy.onSuccess();
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await _resetIsConnectionRunning();
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await _onNegotiationsDone();
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break;
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@ -987,7 +994,7 @@ class XmppConnection {
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}
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Future<void> _disconnect({required XmppConnectionState state, bool triggeredByUser = true}) async {
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_reconnectionPolicy.setShouldReconnect(false);
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await _reconnectionPolicy.setShouldReconnect(false);
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if (triggeredByUser) {
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getPresenceManager().sendUnavailablePresence();
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@ -1018,17 +1025,21 @@ class XmppConnection {
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/// Like [connect] but the Future resolves when the resource binding is either done or
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/// SASL has failed.
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Future<XmppConnectionResult> connectAwaitable({ String? lastResource }) async {
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Future<XmppConnectionResult> connectAwaitable({ String? lastResource, bool waitForConnection = false }) async {
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_runPreConnectionAssertions();
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await _resetIsConnectionRunning();
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_connectionCompleter = Completer();
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_log.finest('Calling connect() from connectAwaitable');
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await connect(lastResource: lastResource);
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await connect(
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lastResource: lastResource,
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waitForConnection: waitForConnection,
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shouldReconnect: false,
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);
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return _connectionCompleter!.future;
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}
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/// Start the connection process using the provided connection settings.
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Future<void> connect({ String? lastResource }) async {
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Future<void> connect({ String? lastResource, bool waitForConnection = false, bool shouldReconnect = true }) async {
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if (_connectionState != XmppConnectionState.notConnected && _connectionState != XmppConnectionState.error) {
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_log.fine('Cancelling this connection attempt as one appears to be already running.');
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return;
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@ -1036,15 +1047,25 @@ class XmppConnection {
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_runPreConnectionAssertions();
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await _resetIsConnectionRunning();
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_reconnectionPolicy.setShouldReconnect(true);
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if (lastResource != null) {
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setResource(lastResource);
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}
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if (shouldReconnect) {
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await _reconnectionPolicy.setShouldReconnect(true);
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}
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await _reconnectionPolicy.reset();
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await _sendEvent(ConnectingEvent());
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// If requested, wait until we have a network connection
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if (waitForConnection) {
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_log.info('Waiting for okay from connectivityManager');
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await _connectivityManager.waitForConnection();
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_log.info('Got okay from connectivityManager');
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}
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final smManager = getStreamManagementManager();
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String? host;
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int? port;
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18
packages/moxxmpp/lib/src/connectivity.dart
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18
packages/moxxmpp/lib/src/connectivity.dart
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@ -0,0 +1,18 @@
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/// This manager class is responsible to tell the moxxmpp XmppConnection
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/// when a connection can be established or not, regarding the network availability.
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abstract class ConnectivityManager {
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/// Returns true if a network connection is available. If not, returns false.
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Future<bool> hasConnection();
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/// Returns a future that resolves once we have a network connection.
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Future<void> waitForConnection();
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}
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/// An implementation of [ConnectivityManager] that is always connected.
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class AlwaysConnectedConnectivityManager extends ConnectivityManager {
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@override
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Future<bool> hasConnection() async => true;
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@override
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Future<void> waitForConnection() async {}
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}
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@ -2,6 +2,7 @@ import 'dart:async';
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import 'dart:math';
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import 'package:logging/logging.dart';
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import 'package:meta/meta.dart';
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import 'package:moxxmpp/src/util/queue.dart';
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import 'package:synchronized/synchronized.dart';
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/// A callback function to be called when the connection to the server has been lost.
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@ -24,10 +25,16 @@ abstract class ReconnectionPolicy {
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bool _shouldAttemptReconnection = false;
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/// Indicate if a reconnection attempt is currently running.
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bool _isReconnecting = false;
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@protected
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bool isReconnecting = false;
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/// And the corresponding lock
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final Lock _isReconnectingLock = Lock();
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@protected
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final Lock lock = Lock();
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/// The lock for accessing [_shouldAttemptReconnection]
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@protected
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final Lock shouldReconnectLock = Lock();
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/// Called by XmppConnection to register the policy.
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void register(PerformReconnectFunction performReconnect, ConnectionLostCallback triggerConnectionLost) {
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@ -48,96 +55,121 @@ abstract class ReconnectionPolicy {
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/// Caled by the XmppConnection when the reconnection was successful.
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Future<void> onSuccess();
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bool get shouldReconnect => _shouldAttemptReconnection;
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Future<bool> getShouldReconnect() async {
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return shouldReconnectLock.synchronized(() => _shouldAttemptReconnection);
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}
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/// Set whether a reconnection attempt should be made.
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void setShouldReconnect(bool value) {
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_shouldAttemptReconnection = value;
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Future<void> setShouldReconnect(bool value) async {
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return shouldReconnectLock.synchronized(() => _shouldAttemptReconnection = value);
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}
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/// Returns true if the manager is currently triggering a reconnection. If not, returns
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/// false.
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Future<bool> isReconnectionRunning() async {
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return _isReconnectingLock.synchronized(() => _isReconnecting);
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return lock.synchronized(() => isReconnecting);
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}
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/// Set the _isReconnecting state to [value].
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/// Set the isReconnecting state to [value].
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@protected
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Future<void> setIsReconnecting(bool value) async {
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await _isReconnectingLock.synchronized(() async {
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_isReconnecting = value;
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await lock.synchronized(() async {
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isReconnecting = value;
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});
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}
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@protected
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Future<bool> testAndSetIsReconnecting() async {
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return _isReconnectingLock.synchronized(() {
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if (_isReconnecting) {
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return false;
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} else {
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_isReconnecting = true;
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return true;
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}
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});
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}
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}
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/// A simple reconnection strategy: Make the reconnection delays exponentially longer
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/// for every failed attempt.
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/// NOTE: This ReconnectionPolicy may be broken
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class ExponentialBackoffReconnectionPolicy extends ReconnectionPolicy {
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ExponentialBackoffReconnectionPolicy(this._maxBackoffTime) : super();
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class RandomBackoffReconnectionPolicy extends ReconnectionPolicy {
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RandomBackoffReconnectionPolicy(
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this._minBackoffTime,
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this._maxBackoffTime,
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) : assert(_minBackoffTime < _maxBackoffTime, '_minBackoffTime must be smaller than _maxBackoffTime'),
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super();
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/// The maximum time in seconds that a backoff step should be.
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/// The maximum time in seconds that a backoff should be.
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final int _maxBackoffTime;
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/// Amount of consecutive failed reconnections.
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int _counter = 0;
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/// The minimum time in seconds that a backoff should be.
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final int _minBackoffTime;
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/// Backoff timer.
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Timer? _timer;
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final Lock _timerLock = Lock();
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/// Logger.
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final Logger _log = Logger('ExponentialBackoffReconnectionPolicy');
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final Logger _log = Logger('RandomBackoffReconnectionPolicy');
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/// Event queue
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final AsyncQueue _eventQueue = AsyncQueue();
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/// Called when the backoff expired
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Future<void> _onTimerElapsed() async {
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final isReconnecting = await isReconnectionRunning();
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if (shouldReconnect) {
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if (!isReconnecting) {
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await setIsReconnecting(true);
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_log.fine('Timer elapsed. Waiting for lock');
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await lock.synchronized(() async {
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_log.fine('Lock aquired');
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if (!(await getShouldReconnect())) {
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_log.fine('Backoff timer expired but getShouldReconnect() returned false');
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return;
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}
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if (isReconnecting) {
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_log.fine('Backoff timer expired but a reconnection is running, so doing nothing.');
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return;
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}
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_log.fine('Triggering reconnect');
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isReconnecting = true;
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await performReconnect!();
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} else {
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// Should never happen.
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_log.fine('Backoff timer expired but reconnection is running, so doing nothing.');
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}
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});
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await _timerLock.synchronized(() {
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_timer?.cancel();
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_timer = null;
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});
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}
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Future<void> _reset() async {
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_log.finest('Resetting internal state');
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await _timerLock.synchronized(() {
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_timer?.cancel();
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_timer = null;
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});
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await setIsReconnecting(false);
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}
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@override
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Future<void> reset() async {
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_log.finest('Resetting internal state');
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_counter = 0;
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await setIsReconnecting(false);
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if (_timer != null) {
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_timer!.cancel();
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_timer = null;
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// ignore: unnecessary_lambdas
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await _eventQueue.addJob(() => _reset());
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}
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Future<void> _onFailure() async {
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final shouldContinue = await _timerLock.synchronized(() {
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return _timer == null;
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});
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if (!shouldContinue) {
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_log.finest('_onFailure: Not backing off since _timer is already running');
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return;
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}
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final seconds = Random().nextInt(_maxBackoffTime - _minBackoffTime) + _minBackoffTime;
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_log.finest('Failure occured. Starting random backoff with ${seconds}s');
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_timer?.cancel();
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_timer = Timer(Duration(seconds: seconds), _onTimerElapsed);
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}
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@override
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Future<void> onFailure() async {
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_log.finest('Failure occured. Starting exponential backoff');
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_counter++;
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if (_timer != null) {
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_timer!.cancel();
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}
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// Wait at max 80 seconds.
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final seconds = min(min(pow(2, _counter).toInt(), 80), _maxBackoffTime);
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_timer = Timer(Duration(seconds: seconds), _onTimerElapsed);
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// ignore: unnecessary_lambdas
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await _eventQueue.addJob(() => _onFailure());
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}
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@override
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56
packages/moxxmpp/lib/src/util/queue.dart
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56
packages/moxxmpp/lib/src/util/queue.dart
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import 'dart:async';
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import 'dart:collection';
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import 'package:meta/meta.dart';
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import 'package:synchronized/synchronized.dart';
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/// A job to be submitted to an [AsyncQueue].
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typedef AsyncQueueJob = Future<void> Function();
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/// A (hopefully) async-safe queue that attempts to force
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/// in-order execution of its jobs.
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class AsyncQueue {
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/// The lock for accessing [AsyncQueue._lock] and [AsyncQueue._running].
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final Lock _lock = Lock();
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/// The actual job queue.
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final Queue<AsyncQueueJob> _queue = Queue<AsyncQueueJob>();
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/// Indicates whether we are currently executing a job.
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bool _running = false;
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@visibleForTesting
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Queue<AsyncQueueJob> get queue => _queue;
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@visibleForTesting
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bool get isRunning => _running;
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/// Adds a job [job] to the queue.
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Future<void> addJob(AsyncQueueJob job) async {
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await _lock.synchronized(() {
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_queue.add(job);
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if (!_running && _queue.isNotEmpty) {
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_running = true;
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unawaited(_popJob());
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}
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});
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}
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Future<void> clear() async {
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await _lock.synchronized(_queue.clear);
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}
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Future<void> _popJob() async {
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final job = _queue.removeFirst();
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final future = job();
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await future;
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await _lock.synchronized(() {
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if (_queue.isNotEmpty) {
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unawaited(_popJob());
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} else {
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_running = false;
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}
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});
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}
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}
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43
packages/moxxmpp/test/async_queue_test.dart
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43
packages/moxxmpp/test/async_queue_test.dart
Normal file
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import 'package:moxxmpp/src/util/queue.dart';
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import 'package:test/test.dart';
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void main() {
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test('Test the async queue', () async {
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final queue = AsyncQueue();
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int future1Finish = 0;
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int future2Finish = 0;
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int future3Finish = 0;
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await queue.addJob(() => Future<void>.delayed(const Duration(seconds: 3), () => future1Finish = DateTime.now().millisecondsSinceEpoch));
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await queue.addJob(() => Future<void>.delayed(const Duration(seconds: 3), () => future2Finish = DateTime.now().millisecondsSinceEpoch));
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await queue.addJob(() => Future<void>.delayed(const Duration(seconds: 3), () => future3Finish = DateTime.now().millisecondsSinceEpoch));
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await Future<void>.delayed(const Duration(seconds: 12));
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// The three futures must be done
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expect(future1Finish != 0, true);
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expect(future2Finish != 0, true);
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expect(future3Finish != 0, true);
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// The end times of the futures must be ordered (on a timeline)
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// |-- future1Finish -- future2Finish -- future3Finish --|
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expect(
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future1Finish < future2Finish && future1Finish < future3Finish,
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true,
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);
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expect(
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future2Finish < future3Finish && future2Finish > future1Finish,
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true,
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);
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expect(
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future3Finish > future1Finish && future3Finish > future2Finish,
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true,
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);
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// The queue must be empty at the end
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expect(queue.queue.isEmpty, true);
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// The queue must not be executing anything at the end
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expect(queue.isRunning, false);
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});
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}
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@ -54,8 +54,11 @@ void main() {
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],
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);
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final connection = XmppConnection(TestingReconnectionPolicy(), stubSocket)
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..registerFeatureNegotiators([
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final connection = XmppConnection(
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TestingReconnectionPolicy(),
|
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AlwaysConnectedConnectivityManager(),
|
||||
stubSocket,
|
||||
)..registerFeatureNegotiators([
|
||||
StubNegotiator1(),
|
||||
StubNegotiator2(),
|
||||
])
|
||||
|
@ -65,7 +65,11 @@ void main() {
|
||||
|
||||
],
|
||||
);
|
||||
final XmppConnection conn = XmppConnection(TestingReconnectionPolicy(), socket: fakeSocket);
|
||||
final XmppConnection conn = XmppConnection(
|
||||
TestingReconnectionPolicy(),
|
||||
AlwaysConnectedConnectivityManager(),
|
||||
fakeSocket,
|
||||
);
|
||||
conn.setConnectionSettings(ConnectionSettings(
|
||||
jid: JID.fromString('polynomdivision@test.server'),
|
||||
password: 'aaaa',
|
||||
@ -74,7 +78,7 @@ void main() {
|
||||
),);
|
||||
conn.registerManagers([
|
||||
PresenceManager('http://moxxmpp.example'),
|
||||
RosterManager(),
|
||||
RosterManager(TestingRosterStateManager(null, [])),
|
||||
DiscoManager(),
|
||||
PingManager(),
|
||||
]);
|
@ -34,7 +34,7 @@ XmppManagerAttributes mkAttributes(void Function(Stanza) callback) {
|
||||
isFeatureSupported: (_) => false,
|
||||
getFullJID: () => JID.fromString('hallo@example.server/uwu'),
|
||||
getSocket: () => StubTCPSocket(play: []),
|
||||
getConnection: () => XmppConnection(TestingReconnectionPolicy(), StubTCPSocket(play: [])),
|
||||
getConnection: () => XmppConnection(TestingReconnectionPolicy(), AlwaysConnectedConnectivityManager(), StubTCPSocket(play: [])),
|
||||
getNegotiatorById: getNegotiatorNullStub,
|
||||
);
|
||||
}
|
||||
@ -233,7 +233,11 @@ void main() {
|
||||
]
|
||||
);
|
||||
|
||||
final XmppConnection conn = XmppConnection(TestingReconnectionPolicy(), fakeSocket);
|
||||
final XmppConnection conn = XmppConnection(
|
||||
TestingReconnectionPolicy(),
|
||||
AlwaysConnectedConnectivityManager(),
|
||||
fakeSocket,
|
||||
);
|
||||
conn.setConnectionSettings(ConnectionSettings(
|
||||
jid: JID.fromString('polynomdivision@test.server'),
|
||||
password: 'aaaa',
|
||||
@ -355,7 +359,11 @@ void main() {
|
||||
]
|
||||
);
|
||||
|
||||
final XmppConnection conn = XmppConnection(TestingReconnectionPolicy(), fakeSocket);
|
||||
final XmppConnection conn = XmppConnection(
|
||||
TestingReconnectionPolicy(),
|
||||
AlwaysConnectedConnectivityManager(),
|
||||
fakeSocket,
|
||||
);
|
||||
conn.setConnectionSettings(ConnectionSettings(
|
||||
jid: JID.fromString('polynomdivision@test.server'),
|
||||
password: 'aaaa',
|
||||
@ -510,7 +518,11 @@ void main() {
|
||||
]
|
||||
);
|
||||
|
||||
final XmppConnection conn = XmppConnection(TestingReconnectionPolicy(), fakeSocket);
|
||||
final XmppConnection conn = XmppConnection(
|
||||
TestingReconnectionPolicy(),
|
||||
AlwaysConnectedConnectivityManager(),
|
||||
fakeSocket,
|
||||
);
|
||||
conn.setConnectionSettings(ConnectionSettings(
|
||||
jid: JID.fromString('polynomdivision@test.server'),
|
||||
password: 'aaaa',
|
||||
@ -602,7 +614,11 @@ void main() {
|
||||
]
|
||||
);
|
||||
|
||||
final XmppConnection conn = XmppConnection(TestingReconnectionPolicy(), fakeSocket);
|
||||
final XmppConnection conn = XmppConnection(
|
||||
TestingReconnectionPolicy(),
|
||||
AlwaysConnectedConnectivityManager(),
|
||||
fakeSocket,
|
||||
);
|
||||
conn.setConnectionSettings(ConnectionSettings(
|
||||
jid: JID.fromString('polynomdivision@test.server'),
|
||||
password: 'aaaa',
|
||||
@ -694,7 +710,11 @@ void main() {
|
||||
]
|
||||
);
|
||||
|
||||
final XmppConnection conn = XmppConnection(TestingReconnectionPolicy(), fakeSocket);
|
||||
final XmppConnection conn = XmppConnection(
|
||||
TestingReconnectionPolicy(),
|
||||
AlwaysConnectedConnectivityManager(),
|
||||
fakeSocket,
|
||||
);
|
||||
conn.setConnectionSettings(ConnectionSettings(
|
||||
jid: JID.fromString('polynomdivision@test.server'),
|
||||
password: 'aaaa',
|
||||
|
@ -22,7 +22,7 @@ void main() {
|
||||
isFeatureSupported: (_) => false,
|
||||
getFullJID: () => JID.fromString('bob@xmpp.example/uwu'),
|
||||
getSocket: () => StubTCPSocket(play: []),
|
||||
getConnection: () => XmppConnection(TestingReconnectionPolicy(), StubTCPSocket(play: [])),
|
||||
getConnection: () => XmppConnection(TestingReconnectionPolicy(), AlwaysConnectedConnectivityManager(), StubTCPSocket(play: [])),
|
||||
getNegotiatorById: getNegotiatorNullStub,
|
||||
);
|
||||
final manager = CarbonsManager();
|
||||
|
@ -50,7 +50,7 @@ void main() {
|
||||
isFeatureSupported: (_) => false,
|
||||
getFullJID: () => JID.fromString('some.user@example.server/aaaaa'),
|
||||
getSocket: () => StubTCPSocket(play: []),
|
||||
getConnection: () => XmppConnection(TestingReconnectionPolicy(), StubTCPSocket(play: [])),
|
||||
getConnection: () => XmppConnection(TestingReconnectionPolicy(), AlwaysConnectedConnectivityManager(), StubTCPSocket(play: [])),
|
||||
),
|
||||
);
|
||||
|
||||
@ -79,7 +79,7 @@ void main() {
|
||||
isFeatureSupported: (_) => false,
|
||||
getFullJID: () => JID.fromString('some.user@example.server/aaaaa'),
|
||||
getSocket: () => StubTCPSocket(play: []),
|
||||
getConnection: () => XmppConnection(TestingReconnectionPolicy(), StubTCPSocket(play: [])),
|
||||
getConnection: () => XmppConnection(TestingReconnectionPolicy(), AlwaysConnectedConnectivityManager(), StubTCPSocket(play: [])),
|
||||
),
|
||||
);
|
||||
|
||||
|
@ -25,7 +25,7 @@ Future<bool> testRosterManager(String bareJid, String resource, String stanzaStr
|
||||
isFeatureSupported: (_) => false,
|
||||
getFullJID: () => JID.fromString('$bareJid/$resource'),
|
||||
getSocket: () => StubTCPSocket(play: []),
|
||||
getConnection: () => XmppConnection(TestingReconnectionPolicy(), StubTCPSocket(play: [])),
|
||||
getConnection: () => XmppConnection(TestingReconnectionPolicy(), AlwaysConnectedConnectivityManager(), StubTCPSocket(play: [])),
|
||||
),);
|
||||
|
||||
final stanza = Stanza.fromXMLNode(XMLNode.fromString(stanzaString));
|
||||
@ -118,7 +118,10 @@ void main() {
|
||||
],
|
||||
);
|
||||
// TODO: This test is broken since we query the server and enable carbons
|
||||
final XmppConnection conn = XmppConnection(TestingReconnectionPolicy(), fakeSocket);
|
||||
final XmppConnection conn = XmppConnection(
|
||||
TestingReconnectionPolicy(),
|
||||
AlwaysConnectedConnectivityManager(),
|
||||
fakeSocket);
|
||||
conn.setConnectionSettings(ConnectionSettings(
|
||||
jid: JID.fromString('polynomdivision@test.server'),
|
||||
password: 'aaaa',
|
||||
@ -172,7 +175,11 @@ void main() {
|
||||
],
|
||||
);
|
||||
var receivedEvent = false;
|
||||
final XmppConnection conn = XmppConnection(TestingReconnectionPolicy(), fakeSocket);
|
||||
final XmppConnection conn = XmppConnection(
|
||||
TestingReconnectionPolicy(),
|
||||
AlwaysConnectedConnectivityManager(),
|
||||
fakeSocket,
|
||||
);
|
||||
conn.setConnectionSettings(ConnectionSettings(
|
||||
jid: JID.fromString('polynomdivision@test.server'),
|
||||
password: 'aaaa',
|
||||
@ -226,7 +233,11 @@ void main() {
|
||||
],
|
||||
);
|
||||
var receivedEvent = false;
|
||||
final XmppConnection conn = XmppConnection(TestingReconnectionPolicy(), fakeSocket);
|
||||
final XmppConnection conn = XmppConnection(
|
||||
TestingReconnectionPolicy(),
|
||||
AlwaysConnectedConnectivityManager(),
|
||||
fakeSocket,
|
||||
);
|
||||
conn.setConnectionSettings(ConnectionSettings(
|
||||
jid: JID.fromString('polynomdivision@test.server'),
|
||||
password: 'aaaa',
|
||||
@ -326,7 +337,7 @@ void main() {
|
||||
isFeatureSupported: (_) => false,
|
||||
getFullJID: () => JID.fromString('some.user@example.server/aaaaa'),
|
||||
getSocket: () => StubTCPSocket(play: []),
|
||||
getConnection: () => XmppConnection(TestingReconnectionPolicy(), StubTCPSocket(play: [])),
|
||||
getConnection: () => XmppConnection(TestingReconnectionPolicy(), AlwaysConnectedConnectivityManager(), StubTCPSocket(play: [])),
|
||||
),);
|
||||
|
||||
// NOTE: Based on https://gultsch.de/gajim_roster_push_and_message_interception.html
|
||||
|
Loading…
Reference in New Issue
Block a user