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- 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 ex)
- {
- }
-
- // 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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