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Merge branch 'develop' into connectErrors

release/3.x.x
Jim Schaad 5 anos atrás
pai
commit
457143c840
6 arquivos alterados com 49 adições e 375 exclusões
  1. +12
    -0
      Source/MQTTnet/Implementations/PlatformAbstractionLayer.cs
  2. +0
    -131
      Source/MQTTnet/Internal/AsyncAutoResetEvent.cs
  3. +3
    -2
      Source/MQTTnet/Internal/Disposable.cs
  4. +32
    -4
      Source/MQTTnet/PacketDispatcher/MqttPacketAwaiter.cs
  5. +2
    -1
      Source/MQTTnet/Server/MqttRetainedMessagesManager.cs
  6. +0
    -237
      Tests/MQTTnet.Core.Tests/AsyncAutoResentEvent_Tests.cs

+ 12
- 0
Source/MQTTnet/Implementations/PlatformAbstractionLayer.cs Ver arquivo

@@ -88,5 +88,17 @@ namespace MQTTnet.Implementations
#endif
}

public static Task CompletedTask
{
get
{
#if NET452
return Task.FromResult(0);
#else
return Task.CompletedTask;
#endif
}
}

}
}

+ 0
- 131
Source/MQTTnet/Internal/AsyncAutoResetEvent.cs Ver arquivo

@@ -1,131 +0,0 @@
using System;
using System.Collections.Generic;
using System.Threading;
using System.Threading.Tasks;

namespace MQTTnet.Internal
{
// Inspired from Stephen Toub (https://blogs.msdn.microsoft.com/pfxteam/2012/02/11/building-async-coordination-primitives-part-2-asyncautoresetevent/) and Chris Gillum (https://stackoverflow.com/a/43012490)
public class AsyncAutoResetEvent
{
private readonly LinkedList<TaskCompletionSource<bool>> _waiters = new LinkedList<TaskCompletionSource<bool>>();

private bool _isSignaled;

public AsyncAutoResetEvent()
: this(false)
{
}

public AsyncAutoResetEvent(bool signaled)
{
_isSignaled = signaled;
}

public int WaitersCount
{
get
{
lock (_waiters)
{
return _waiters.Count;
}
}
}

public Task<bool> WaitOneAsync()
{
return WaitOneAsync(CancellationToken.None);
}

public Task<bool> WaitOneAsync(TimeSpan timeout)
{
return WaitOneAsync(timeout, CancellationToken.None);
}

public Task<bool> WaitOneAsync(CancellationToken cancellationToken)
{
return WaitOneAsync(Timeout.InfiniteTimeSpan, cancellationToken);
}

public async Task<bool> WaitOneAsync(TimeSpan timeout, CancellationToken cancellationToken)
{
cancellationToken.ThrowIfCancellationRequested();

TaskCompletionSource<bool> tcs;

lock (_waiters)
{
if (_isSignaled)
{
_isSignaled = false;
return true;
}

if (timeout == TimeSpan.Zero)
{
return _isSignaled;
}

tcs = new TaskCompletionSource<bool>();
_waiters.AddLast(tcs);
}

Task winner;
if (timeout == Timeout.InfiniteTimeSpan)
{
using (cancellationToken.Register(() => { tcs.TrySetCanceled(); }))
{
await tcs.Task.ConfigureAwait(false);
winner = tcs.Task;
}
}
else
{
winner = await Task.WhenAny(tcs.Task, Task.Delay(timeout, cancellationToken)).ConfigureAwait(false);
}
var taskWasSignaled = winner == tcs.Task;
if (taskWasSignaled)
{
return true;
}

// We timed-out; remove our reference to the task.
// This is an O(n) operation since waiters is a LinkedList<T>.
lock (_waiters)
{
_waiters.Remove(tcs);

if (winner.Status == TaskStatus.Canceled)
{
throw new OperationCanceledException(cancellationToken);
}

throw new TimeoutException();
}
}

public void Set()
{
TaskCompletionSource<bool> toRelease = null;

lock (_waiters)
{
if (_waiters.Count > 0)
{
// Signal the first task in the waiters list.
toRelease = _waiters.First.Value;
_waiters.RemoveFirst();
}
else if (!_isSignaled)
{
// No tasks are pending
_isSignaled = true;
}
}

toRelease?.TrySetResult(true);
}
}
}

+ 3
- 2
Source/MQTTnet/Internal/Disposable.cs Ver arquivo

@@ -44,12 +44,13 @@ namespace MQTTnet.Internal
{
return;
}

_isDisposed = true;

// Do not change this code. Put cleanup code in Dispose(bool disposing) above.
Dispose(true);
// TODO: uncomment the following line if the finalizer is overridden above.
// GC.SuppressFinalize(this);

_isDisposed = true;
}
#endregion
}


+ 32
- 4
Source/MQTTnet/PacketDispatcher/MqttPacketAwaiter.cs Ver arquivo

@@ -9,7 +9,7 @@ namespace MQTTnet.PacketDispatcher
{
public sealed class MqttPacketAwaiter<TPacket> : Disposable, IMqttPacketAwaiter where TPacket : MqttBasePacket
{
private readonly TaskCompletionSource<MqttBasePacket> _taskCompletionSource = new TaskCompletionSource<MqttBasePacket>();
private readonly TaskCompletionSource<MqttBasePacket> _taskCompletionSource;
private readonly ushort? _packetIdentifier;
private readonly MqttPacketDispatcher _owningPacketDispatcher;
@@ -17,13 +17,18 @@ namespace MQTTnet.PacketDispatcher
{
_packetIdentifier = packetIdentifier;
_owningPacketDispatcher = owningPacketDispatcher ?? throw new ArgumentNullException(nameof(owningPacketDispatcher));
#if NET452
_taskCompletionSource = new TaskCompletionSource<MqttBasePacket>();
#else
_taskCompletionSource = new TaskCompletionSource<MqttBasePacket>(TaskCreationOptions.RunContinuationsAsynchronously);
#endif
}

public async Task<TPacket> WaitOneAsync(TimeSpan timeout)
{
using (var timeoutToken = new CancellationTokenSource(timeout))
{
timeoutToken.Token.Register(() => _taskCompletionSource.TrySetException(new MqttCommunicationTimedOutException()));
timeoutToken.Token.Register(() => Fail(new MqttCommunicationTimedOutException()));

var packet = await _taskCompletionSource.Task.ConfigureAwait(false);
return (TPacket)packet;
@@ -33,24 +38,47 @@ namespace MQTTnet.PacketDispatcher
public void Complete(MqttBasePacket packet)
{
if (packet == null) throw new ArgumentNullException(nameof(packet));


#if NET452
// To prevent deadlocks it is required to call the _TrySetResult_ method
// from a new thread because the awaiting code will not(!) be executed in
// a new thread automatically (due to await). Furthermore _this_ thread will
// do it. But _this_ thread is also reading incoming packets -> deadlock.
// NET452 does not support RunContinuationsAsynchronously
Task.Run(() => _taskCompletionSource.TrySetResult(packet));
#else
_taskCompletionSource.TrySetResult(packet);
#endif
}

public void Fail(Exception exception)
{
if (exception == null) throw new ArgumentNullException(nameof(exception));

#if NET452
// To prevent deadlocks it is required to call the _TrySetResult_ method
// from a new thread because the awaiting code will not(!) be executed in
// a new thread automatically (due to await). Furthermore _this_ thread will
// do it. But _this_ thread is also reading incoming packets -> deadlock.
// NET452 does not support RunContinuationsAsynchronously
Task.Run(() => _taskCompletionSource.TrySetException(exception));
#else
_taskCompletionSource.TrySetException(exception);
#endif
}

public void Cancel()
{
#if NET452
// To prevent deadlocks it is required to call the _TrySetResult_ method
// from a new thread because the awaiting code will not(!) be executed in
// a new thread automatically (due to await). Furthermore _this_ thread will
// do it. But _this_ thread is also reading incoming packets -> deadlock.
// NET452 does not support RunContinuationsAsynchronously
Task.Run(() => _taskCompletionSource.TrySetCanceled());
#else
_taskCompletionSource.TrySetCanceled();
#endif
}

protected override void Dispose(bool disposing)


+ 2
- 1
Source/MQTTnet/Server/MqttRetainedMessagesManager.cs Ver arquivo

@@ -3,6 +3,7 @@ using System.Collections.Generic;
using System.Linq;
using System.Threading.Tasks;
using MQTTnet.Diagnostics;
using MQTTnet.Implementations;
using MQTTnet.Internal;

namespace MQTTnet.Server
@@ -21,7 +22,7 @@ namespace MQTTnet.Server
if (logger == null) throw new ArgumentNullException(nameof(logger));
_logger = logger.CreateChildLogger(nameof(MqttRetainedMessagesManager));
_options = options ?? throw new ArgumentNullException(nameof(options));
return Task.CompletedTask;
return PlatformAbstractionLayer.CompletedTask;
}

public async Task LoadMessagesAsync()


+ 0
- 237
Tests/MQTTnet.Core.Tests/AsyncAutoResentEvent_Tests.cs Ver arquivo

@@ -1,237 +0,0 @@
using System;
using System.Threading;
using System.Threading.Tasks;
using Microsoft.VisualStudio.TestTools.UnitTesting;
using MQTTnet.Internal;

namespace MQTTnet.Tests
{
[TestClass]
// Inspired from the vs-threading tests (https://github.com/Microsoft/vs-threading/blob/master/src/Microsoft.VisualStudio.Threading.Tests/AsyncAutoResetEventTests.cs)
public class AsyncAutoResetEvent_Tests
{
private readonly AsyncAutoResetEvent _aare;

public AsyncAutoResetEvent_Tests()
{
_aare = new AsyncAutoResetEvent();
}

[TestMethod]
public async Task Cleanup_Waiters()
{
var @lock = new AsyncAutoResetEvent();
var waitOnePassed = false;

#pragma warning disable 4014
Task.Run(async () =>
#pragma warning restore 4014
{
await @lock.WaitOneAsync(TimeSpan.FromSeconds(2));
waitOnePassed = true;
});

await Task.Delay(500);

Assert.AreEqual(1, @lock.WaitersCount);

@lock.Set();

await Task.Delay(1000);

Assert.IsTrue(waitOnePassed);
Assert.AreEqual(0, @lock.WaitersCount);
}

[TestMethod]
public async Task SingleThreadedPulse()
{
for (int i = 0; i < 5; i++)
{
var t = _aare.WaitOneAsync();
Assert.IsFalse(t.IsCompleted);
_aare.Set();
await t;
Assert.IsTrue(t.IsCompleted);
}
}

[TestMethod]
public async Task MultipleSetOnlySignalsOnce()
{
_aare.Set();
_aare.Set();
await _aare.WaitOneAsync();
var t = _aare.WaitOneAsync();
Assert.IsFalse(t.IsCompleted);
await Task.Delay(500);
Assert.IsFalse(t.IsCompleted);
_aare.Set();
await t;
Assert.IsTrue(t.IsCompleted);
}

[TestMethod]
public async Task OrderPreservingQueue()
{
var waiters = new Task[5];
for (int i = 0; i < waiters.Length; i++)
{
waiters[i] = _aare.WaitOneAsync();
}

for (int i = 0; i < waiters.Length; i++)
{
_aare.Set();
await waiters[i].ConfigureAwait(false);
}
}

// This test does not work in appveyor but on local machine it does!?
/////// <summary>
/////// Verifies that inlining continuations do not have to complete execution before Set() returns.
/////// </summary>
////[TestMethod]
////public async Task SetReturnsBeforeInlinedContinuations()
////{
//// var setReturned = new ManualResetEventSlim();
//// var inlinedContinuation = _aare.WaitOneAsync()
//// .ContinueWith(delegate
//// {
//// // Arrange to synchronously block the continuation until Set() has returned,
//// // which would deadlock if Set does not return until inlined continuations complete.
//// Assert.IsTrue(setReturned.Wait(500));
//// });
//// await Task.Delay(100);
//// _aare.Set();
//// setReturned.Set();
//// Assert.IsTrue(inlinedContinuation.Wait(500));
////}

[TestMethod]
public void WaitAsync_WithCancellationToken()
{
var cts = new CancellationTokenSource();
Task waitTask = _aare.WaitOneAsync(cts.Token);
Assert.IsFalse(waitTask.IsCompleted);

// Cancel the request and ensure that it propagates to the task.
cts.Cancel();
try
{
waitTask.GetAwaiter().GetResult();
Assert.IsTrue(false, "Task was expected to transition to a canceled state.");
}
catch (OperationCanceledException)
{
}

// Now set the event and verify that a future waiter gets the signal immediately.
_aare.Set();
waitTask = _aare.WaitOneAsync();
Assert.AreEqual(TaskStatus.WaitingForActivation, waitTask.Status);
}

[TestMethod]
public void WaitAsync_WithCancellationToken_Precanceled()
{
// We construct our own pre-canceled token so that we can do
// a meaningful identity check later.
var tokenSource = new CancellationTokenSource();
tokenSource.Cancel();
var token = tokenSource.Token;

// Verify that a pre-set signal is not reset by a canceled wait request.
_aare.Set();
try
{
_aare.WaitOneAsync(token).GetAwaiter().GetResult();
Assert.IsTrue(false, "Task was expected to transition to a canceled state.");
}
catch (OperationCanceledException ex)
{
Assert.AreEqual(token, ex.CancellationToken);
}

// Verify that the signal was not acquired.
Task waitTask = _aare.WaitOneAsync();
Assert.AreEqual(TaskStatus.RanToCompletion, waitTask.Status);
}

[TestMethod]
public async Task WaitAsync_WithTimeout()
{
Task waitTask = _aare.WaitOneAsync(TimeSpan.FromMilliseconds(500));
Assert.IsFalse(waitTask.IsCompleted);

// Cancel the request and ensure that it propagates to the task.
await Task.Delay(1000).ConfigureAwait(false);
try
{
waitTask.GetAwaiter().GetResult();
Assert.IsTrue(false, "Task was expected to transition to a timeout state.");
}
catch (TimeoutException)
{
Assert.IsTrue(true);
}

// Now set the event and verify that a future waiter gets the signal immediately.
_aare.Set();
waitTask = _aare.WaitOneAsync(TimeSpan.FromMilliseconds(500));
Assert.AreEqual(TaskStatus.RanToCompletion, waitTask.Status);
}

[TestMethod]
public void WaitAsync_Canceled_DoesNotInlineContinuations()
{
var cts = new CancellationTokenSource();
var task = _aare.WaitOneAsync(cts.Token);

var completingActionFinished = new ManualResetEventSlim();
var continuation = task.ContinueWith(
_ => Assert.IsTrue(completingActionFinished.Wait(500)),
CancellationToken.None,
TaskContinuationOptions.None,
TaskScheduler.Default);

cts.Cancel();
completingActionFinished.Set();

// Rethrow the exception if it turned out it deadlocked.
continuation.GetAwaiter().GetResult();
}

[TestMethod]
public async Task AsyncAutoResetEvent()
{
var aare = new AsyncAutoResetEvent();

var globalI = 0;
#pragma warning disable 4014
Task.Run(async () =>
#pragma warning restore 4014
{
await aare.WaitOneAsync(CancellationToken.None);
globalI += 1;
});

#pragma warning disable 4014
Task.Run(async () =>
#pragma warning restore 4014
{
await aare.WaitOneAsync(CancellationToken.None);
globalI += 2;
});

await Task.Delay(500);
aare.Set();
await Task.Delay(500);
aare.Set();
await Task.Delay(100);

Assert.AreEqual(3, globalI);
}
}
}

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