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Process messages async

This commit fixes issues which were caused by processing messages synchronously in the packet receiver loop. This blocked KeepAlive and Ack packets from being processed while a message was processed.

Fixes #648
Fixes #587
Fixes #829
release/3.x.x
PSanetra pirms 4 gadiem
vecāks
revīzija
fcd6b7ff52
4 mainītis faili ar 120 papildinājumiem un 32 dzēšanām
  1. +2
    -0
      Build/MQTTnet.nuspec
  2. +64
    -28
      Source/MQTTnet/Client/MqttClient.cs
  3. +9
    -3
      Source/MQTTnet/Internal/AsyncQueue.cs
  4. +45
    -1
      Tests/MQTTnet.Core.Tests/MqttClient_Tests.cs

+ 2
- 0
Build/MQTTnet.nuspec Parādīt failu

@@ -17,6 +17,8 @@
* [LowLevelMqttClient] Added low level MQTT client in order to provide more flexibility when using the MQTT protocol. This client requires detailed knowledge about the MQTT protocol.
* [Client] Improve connection stability (thanks to @jltjohanlindqvist).
* [Client] Support WithConnectionUri to configure client (thanks to @PMExtra).
* [Client] Support PublishAsync with QoS 1 and QoS 2 from within an ApplicationMessageReceivedHandler (#648, #587, thanks to @PSanetra).
* [Client] Fixed MqttCommunicationTimedOutExceptions, caused by a long running ApplicationMessageReceivedHandler, which blocked MQTT packets from being processed (#829, thanks to @PSanetra).
* [ManagedClient] Added builder class for MqttClientUnsubscribeOptions (thanks to @dominikviererbe).
* [ManagedClient] Added support for persisted sessions (thansk to @PMExtra).
* [ManagedClient] Fixed a memory leak (thanks to @zawodskoj).


+ 64
- 28
Source/MQTTnet/Client/MqttClient.cs Parādīt failu

@@ -34,6 +34,9 @@ namespace MQTTnet.Client
private CancellationTokenSource _backgroundCancellationTokenSource;
private Task _packetReceiverTask;
private Task _keepAlivePacketsSenderTask;
private Task _publishPacketReceiverTask;

private AsyncQueue<MqttPublishPacket> _publishPacketReceiverQueue;

private IMqttChannelAdapter _adapter;
private bool _cleanDisconnectInitiated;
@@ -88,6 +91,9 @@ namespace MQTTnet.Client
await _adapter.ConnectAsync(options.CommunicationTimeout, combined.Token).ConfigureAwait(false);
_logger.Verbose("Connection with server established.");

_publishPacketReceiverQueue = new AsyncQueue<MqttPublishPacket>();
_publishPacketReceiverTask = Task.Run(() => ProcessReceivedPublishPackets(backgroundCancellationToken), backgroundCancellationToken);

_packetReceiverTask = Task.Run(() => TryReceivePacketsAsync(backgroundCancellationToken), backgroundCancellationToken);

authenticateResult = await AuthenticateAsync(adapter, options.WillMessage, combined.Token).ConfigureAwait(false);
@@ -230,6 +236,9 @@ namespace MQTTnet.Client
_backgroundCancellationTokenSource?.Dispose();
_backgroundCancellationTokenSource = null;

_publishPacketReceiverQueue?.Dispose();
_publishPacketReceiverQueue = null;

_adapter?.Dispose();
_adapter = null;
}
@@ -300,9 +309,12 @@ namespace MQTTnet.Client
try
{
var receiverTask = WaitForTaskAsync(_packetReceiverTask, sender);
var publishPacketReceiverTask = WaitForTaskAsync(_publishPacketReceiverTask, sender);
var keepAliveTask = WaitForTaskAsync(_keepAlivePacketsSenderTask, sender);

await Task.WhenAll(receiverTask, keepAliveTask).ConfigureAwait(false);
await Task.WhenAll(receiverTask, publishPacketReceiverTask, keepAliveTask).ConfigureAwait(false);

_publishPacketReceiverQueue.Dispose();
}
catch (Exception e)
{
@@ -522,7 +534,7 @@ namespace MQTTnet.Client

if (packet is MqttPublishPacket publishPacket)
{
await TryProcessReceivedPublishPacketAsync(publishPacket, cancellationToken).ConfigureAwait(false);
EnqueueReceivedPublishPacket(publishPacket);
}
else if (packet is MqttPubRelPacket pubRelPacket)
{
@@ -584,47 +596,71 @@ namespace MQTTnet.Client
}
}

private async Task TryProcessReceivedPublishPacketAsync(MqttPublishPacket publishPacket, CancellationToken cancellationToken)
private void EnqueueReceivedPublishPacket(MqttPublishPacket publishPacket)
{
try
{
if (publishPacket.QualityOfServiceLevel == MqttQualityOfServiceLevel.AtMostOnce)
{
await HandleReceivedApplicationMessageAsync(publishPacket).ConfigureAwait(false);
}
else if (publishPacket.QualityOfServiceLevel == MqttQualityOfServiceLevel.AtLeastOnce)
_publishPacketReceiverQueue.Enqueue(publishPacket);
}
catch (Exception exception)
{
_logger.Error(exception, "Error while enqueueing application message.");
}
}

private async Task ProcessReceivedPublishPackets(CancellationToken cancellationToken)
{
while (!cancellationToken.IsCancellationRequested)
{
try
{
if (await HandleReceivedApplicationMessageAsync(publishPacket).ConfigureAwait(false))
var publishPacketDequeueResult = await _publishPacketReceiverQueue.TryDequeueAsync(cancellationToken);

if (!publishPacketDequeueResult.IsSuccess)
{
return;
}

var publishPacket = publishPacketDequeueResult.Item;

if (publishPacket.QualityOfServiceLevel == MqttQualityOfServiceLevel.AtMostOnce)
{
await SendAsync(new MqttPubAckPacket
await HandleReceivedApplicationMessageAsync(publishPacket).ConfigureAwait(false);
}
else if (publishPacket.QualityOfServiceLevel == MqttQualityOfServiceLevel.AtLeastOnce)
{
if (await HandleReceivedApplicationMessageAsync(publishPacket).ConfigureAwait(false))
{
PacketIdentifier = publishPacket.PacketIdentifier,
ReasonCode = MqttPubAckReasonCode.Success
}, cancellationToken).ConfigureAwait(false);
await SendAsync(new MqttPubAckPacket
{
PacketIdentifier = publishPacket.PacketIdentifier,
ReasonCode = MqttPubAckReasonCode.Success
}, cancellationToken).ConfigureAwait(false);
}
}
}
else if (publishPacket.QualityOfServiceLevel == MqttQualityOfServiceLevel.ExactlyOnce)
{
if (await HandleReceivedApplicationMessageAsync(publishPacket).ConfigureAwait(false))
else if (publishPacket.QualityOfServiceLevel == MqttQualityOfServiceLevel.ExactlyOnce)
{
var pubRecPacket = new MqttPubRecPacket
if (await HandleReceivedApplicationMessageAsync(publishPacket).ConfigureAwait(false))
{
PacketIdentifier = publishPacket.PacketIdentifier,
ReasonCode = MqttPubRecReasonCode.Success
};
var pubRecPacket = new MqttPubRecPacket
{
PacketIdentifier = publishPacket.PacketIdentifier,
ReasonCode = MqttPubRecReasonCode.Success
};

await SendAsync(pubRecPacket, cancellationToken).ConfigureAwait(false);
await SendAsync(pubRecPacket, cancellationToken).ConfigureAwait(false);
}
}
else
{
throw new MqttProtocolViolationException("Received a not supported QoS level.");
}
}
else
catch (Exception exception)
{
throw new MqttProtocolViolationException("Received a not supported QoS level.");
_logger.Error(exception, "Error while handling application message.");
}
}
catch (Exception exception)
{
_logger.Error(exception, "Error while handling application message.");
}
}

private async Task<MqttClientPublishResult> PublishAtMostOnce(MqttPublishPacket publishPacket, CancellationToken cancellationToken)


Source/MQTTnet/Internal/AsyncBlockingQueue.cs → Source/MQTTnet/Internal/AsyncQueue.cs Parādīt failu

@@ -23,9 +23,15 @@ namespace MQTTnet.Internal
{
while (!cancellationToken.IsCancellationRequested)
{
await _semaphore.WaitAsync(cancellationToken).ConfigureAwait(false);

cancellationToken.ThrowIfCancellationRequested();
try
{
await _semaphore.WaitAsync(cancellationToken).ConfigureAwait(false);
cancellationToken.ThrowIfCancellationRequested();
}
catch (OperationCanceledException)
{
return new AsyncQueueDequeueResult<TItem>(false, default(TItem));
}

if (_queue.TryDequeue(out var item))
{

+ 45
- 1
Tests/MQTTnet.Core.Tests/MqttClient_Tests.cs Parādīt failu

@@ -12,6 +12,7 @@ using System;
using System.Collections.Generic;
using System.Linq;
using System.Net.Sockets;
using System.Text;
using System.Threading;
using System.Threading.Tasks;

@@ -434,6 +435,49 @@ namespace MQTTnet.Tests
}
}

[TestMethod]
public async Task Publish_QoS_1_In_ApplicationMessageReceiveHandler()
{
using (var testEnvironment = new TestEnvironment(TestContext))
{
await testEnvironment.StartServerAsync();

const string client1Topic = "client1/topic";
const string client2Topic = "client2/topic";
const string expectedClient2Message = "hello client2";

var client1 = await testEnvironment.ConnectClientAsync();
client1.UseApplicationMessageReceivedHandler(async c =>
{
await client1.PublishAsync(client2Topic, expectedClient2Message, MqttQualityOfServiceLevel.AtLeastOnce);
});

await client1.SubscribeAsync(client1Topic, MqttQualityOfServiceLevel.AtLeastOnce);

var client2 = await testEnvironment.ConnectClientAsync();

var client2TopicResults = new List<string>();

client2.UseApplicationMessageReceivedHandler(c =>
{
client2TopicResults.Add(Encoding.UTF8.GetString(c.ApplicationMessage.Payload));
});

await client2.SubscribeAsync(client2Topic);

var client3 = await testEnvironment.ConnectClientAsync();
var message = new MqttApplicationMessageBuilder().WithTopic(client1Topic).Build();
await client3.PublishAsync(message);
await client3.PublishAsync(message);

await Task.Delay(500);

Assert.AreEqual(2, client2TopicResults.Count);
Assert.AreEqual(expectedClient2Message, client2TopicResults[0]);
Assert.AreEqual(expectedClient2Message, client2TopicResults[1]);
}
}

[TestMethod]
public async Task Subscribe_In_Callback_Events()
{
@@ -565,7 +609,7 @@ namespace MQTTnet.Tests

for (var i = 0; i < 98; i++)
{
Assert.IsFalse(clients[i].IsConnected);
Assert.IsFalse(clients[i].IsConnected, $"clients[{i}] is not connected");
}

Assert.IsTrue(clients[99].IsConnected);


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