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wabbajack/Wabbajack.Common.Test/WorkQueueTests.cs
Justin Swanson ea8b0d601f Removed RxUI from Wabbajack.Common
2020-08-11 10:37:17 -05:00

261 lines
9.4 KiB
C#
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using System;
using System.Collections.Concurrent;
using System.Collections.Generic;
using System.Linq;
using System.Reactive.Linq;
using System.Reactive.Subjects;
using System.Threading;
using System.Threading.Tasks;
using Wabbajack;
using Wabbajack.Common;
using Xunit;
using Xunit.Abstractions;
namespace Wabbajack.Common.Test
{
public class WorkQueueTests : IAsyncLifetime
{
private ITestOutputHelper _output;
private IDisposable _sub;
#region OrderTests
[Fact]
public async Task WorkerQueuesRunDepthFirst()
{
ConcurrentQueue<int> list = new ConcurrentQueue<int>();
using var queue = new WorkQueue(1);
await Enumerable.Range(1, 2).PMap(queue, async i =>
{
Utils.Log(i.ToString());
list.Enqueue(i);
await Enumerable.Range(i * 10, 2).PMap(queue, i2 =>
{
Utils.Log(i2.ToString());
list.Enqueue(i2);
});
});
Assert.Equal(6,list.Count);
Assert.Equal(new List<int> {2, 21, 20, 1, 11, 10}, list.ToArray());
}
[Fact]
public async Task TasksRunOnce()
{
ConcurrentQueue<int> list = new ConcurrentQueue<int>();
using var queue = new WorkQueue(1);
await Enumerable.Range(1, 2).PMap(queue, async i =>
{
Utils.Log($"A {i}");
list.Enqueue(i);
await Enumerable.Range(i * 10, 2).PMap(queue, i2 =>
{
Utils.Log($"B {i2}");
list.Enqueue(i2);
});
});
Assert.Equal(list.ToArray(), list.Distinct().ToArray());
}
#endregion
#region DynamicNumThreads
const int Large = 8;
const int Medium = 6;
const int Small = 4;
public TimeSpan PollMS => TimeSpan.FromSeconds(1);
[Fact]
public void DynamicNumThreads_Typical()
{
using (var queue = new WorkQueue())
{
Assert.Equal(Environment.ProcessorCount, queue.DesiredNumWorkers);
Assert.Equal(Environment.ProcessorCount, queue._tasks.Count);
}
}
[Fact]
public void DynamicNumThreads_Increased()
{
var subj = new BehaviorSubject<int>(Small);
using (var queue = new WorkQueue(subj))
{
Assert.Equal(Small, queue.DesiredNumWorkers);
Assert.Equal(Small, queue._tasks.Count);
subj.OnNext(Large);
Assert.Equal(Large, queue.DesiredNumWorkers);
Assert.Equal(Large, queue._tasks.Count);
}
}
[Fact]
public void DynamicNumThreads_EmptyObs()
{
using (var queue = new WorkQueue(Observable.Empty<int>()))
{
Assert.Equal(0, queue.DesiredNumWorkers);
Assert.Empty(queue._tasks);
}
}
[Fact]
public async Task DynamicNumThreads_Decreased()
{
var subj = new BehaviorSubject<int>(Large);
using (var queue = new WorkQueue(subj))
{
Assert.Equal(Large, queue.DesiredNumWorkers);
Assert.Equal(Large, queue._tasks.Count);
subj.OnNext(Small);
Assert.Equal(Small, queue.DesiredNumWorkers);
// Tasks don't go down immediately
Assert.Equal(Large, queue._tasks.Count);
// After things re-poll, they should be cleaned
await Task.Delay(PollMS * 2);
Assert.Equal(Small, queue._tasks.Count);
}
}
[Fact]
public async Task DynamicNumThreads_IncreasedWhileWorking()
{
var subj = new BehaviorSubject<int>(Small);
var tcs = new TaskCompletionSource<bool>();
using (var queue = new WorkQueue(subj))
{
Assert.Equal(Small, queue.DesiredNumWorkers);
Assert.Equal(Small, queue._tasks.Count);
Enumerable.Range(0, Small).Do(_ => queue.QueueTask(() => tcs.Task));
subj.OnNext(Large);
Assert.Equal(Large, queue.DesiredNumWorkers);
Assert.Equal(Large, queue._tasks.Count);
Task.Run(() => tcs.SetResult(true)).FireAndForget();
Assert.Equal(Large, queue.DesiredNumWorkers);
Assert.Equal(Large, queue._tasks.Count);
await Task.Delay(PollMS * 2);
Assert.Equal(Large, queue.DesiredNumWorkers);
Assert.Equal(Large, queue._tasks.Count);
}
}
[Fact]
public async Task DynamicNumThreads_DecreasedWhileWorking()
{
var subj = new BehaviorSubject<int>(Large);
var tcs = new TaskCompletionSource<bool>();
using (var queue = new WorkQueue(subj))
{
Assert.Equal(Large, queue.DesiredNumWorkers);
Assert.Equal(Large, queue._tasks.Count);
Enumerable.Range(0, Large).Do(_ => queue.QueueTask(() => tcs.Task));
subj.OnNext(Small);
Assert.Equal(Small, queue.DesiredNumWorkers);
Assert.Equal(Large, queue._tasks.Count);
// After things re-poll, they should still be working at max
await Task.Delay(PollMS * 2);
Assert.Equal(Large, queue._tasks.Count);
// Complete, repoll, and check again
Task.Run(() => tcs.SetResult(true)).FireAndForget();
await Task.Delay(PollMS * 2);
Assert.Equal(Small, queue._tasks.Count);
}
}
[Fact]
public async Task DynamicNumThreads_IncreasedThenDecreased()
{
var subj = new BehaviorSubject<int>(Small);
using (var queue = new WorkQueue(subj))
{
Assert.Equal(Small, queue.DesiredNumWorkers);
Assert.Equal(Small, queue._tasks.Count);
subj.OnNext(Large);
Assert.Equal(Large, queue.DesiredNumWorkers);
Assert.Equal(Large, queue._tasks.Count);
subj.OnNext(Small);
// Still large number of threads, as not immediate
Assert.Equal(Small, queue.DesiredNumWorkers);
Assert.Equal(Large, queue._tasks.Count);
// After things re-poll, they should still be working at max
await Task.Delay(PollMS * 2);
Assert.Equal(Small, queue.DesiredNumWorkers);
Assert.Equal(Small, queue._tasks.Count);
}
}
[Fact]
public async Task DynamicNumThreads_DecreasedThenIncreased()
{
var subj = new BehaviorSubject<int>(Large);
using (var queue = new WorkQueue(subj))
{
Assert.Equal(Large, queue.DesiredNumWorkers);
Assert.Equal(Large, queue._tasks.Count);
subj.OnNext(Small);
Assert.Equal(Small, queue.DesiredNumWorkers);
Assert.Equal(Large, queue._tasks.Count);
subj.OnNext(Large);
// New threads allocated immediately
Assert.Equal(Large, queue.DesiredNumWorkers);
Assert.Equal(Large, queue._tasks.Count);
// After things re-poll, still here
await Task.Delay(PollMS * 2);
Assert.Equal(Large, queue.DesiredNumWorkers);
Assert.Equal(Large, queue._tasks.Count);
}
}
#endregion
#region Known Deadlock Scenario
/// <summary>
/// Known "deadlock" scenario related to WorkQueue.
///
/// When a task is completed via a TaskCompletionSource, the current thread is "in charge" of running the continuation code that
/// completing that task kicked off. The problem with this when related to WorkQueue is that it's an infinite while loop of continuation.
///
/// The solution to this is just make sure that any work done relating to WorkQueue be done within its own Task.Run() call, so that if it that thread
/// "takes over" a workqueue loop, it doesn't matter as it was a threadpool thread anyway.
/// </summary>
[Fact]
public async Task Deadlock()
{
var task = Task.Run(async () =>
{
var subj = new BehaviorSubject<int>(Large);
var tcs = new TaskCompletionSource<bool>();
using (var queue = new WorkQueue(subj))
{
Enumerable.Range(0, Large).Do(_ => queue.QueueTask(() => tcs.Task));
// This call deadlocks, as the continuations is a WorkQueue while loop
tcs.SetResult(true);
}
});
var completed = await Task.WhenAny(Task.Delay(3000), task);
Assert.Equal(completed, task);
}
#endregion
public WorkQueueTests(ITestOutputHelper output)
{
_output = output;
}
public async Task InitializeAsync()
{
_sub = Utils.LogMessages.Subscribe(msg => _output.WriteLine(msg.ToString()));
}
public async Task DisposeAsync()
{
_sub.Dispose();
}
}
}
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