public async Task DoesNotThrowIfOnReadCallbackCalledWithEOFButAllocCallbackNotCalled()
{
var mockLibuv = new MockLibuv();
var transportContext = new TestLibuvTransportContext();
var thread = new LibuvThread(mockLibuv, transportContext);
var listenerContext = new ListenerContext(transportContext)
{
Thread = thread
};
try
{
await thread.StartAsync();
await thread.PostAsync(_ =>
{
var socket = new MockSocket(mockLibuv, Thread.CurrentThread.ManagedThreadId, transportContext.Log);
listenerContext.HandleConnection(socket);
var ignored = new LibuvFunctions.uv_buf_t();
mockLibuv.ReadCallback(socket.InternalGetHandle(), TestConstants.EOF, ref ignored);
}, (object)null);
await using var connection = await listenerContext.AcceptAsync();
var readAwaitable = await connection.Transport.Input.ReadAsync();
Assert.True(readAwaitable.IsCompleted);
}
finally
{
await thread.StopAsync(TimeSpan.FromSeconds(5));
}
}
public async Task LibuvThreadDoesNotThrowIfPostingWorkAfterDispose()
{
var mockConnectionDispatcher = new MockConnectionDispatcher();
var mockLibuv = new MockLibuv();
var transportContext = new TestLibuvTransportContext()
{
ConnectionDispatcher = mockConnectionDispatcher
};
var transport = new LibuvTransport(mockLibuv, transportContext, null);
var thread = new LibuvThread(transport);
var ranOne = false;
var ranTwo = false;
var ranThree = false;
var ranFour = false;
await thread.StartAsync();
await thread.PostAsync <object>(_ =>
{
ranOne = true;
},
null);
Assert.Equal(1, mockLibuv.PostCount);
// Shutdown the libuv thread
await thread.StopAsync(TimeSpan.FromSeconds(5));
Assert.Equal(2, mockLibuv.PostCount);
var task = thread.PostAsync <object>(_ =>
{
ranTwo = true;
},
null);
Assert.Equal(2, mockLibuv.PostCount);
thread.Post <object>(_ =>
{
ranThree = true;
},
null);
Assert.Equal(2, mockLibuv.PostCount);
thread.Schedule(_ =>
{
ranFour = true;
},
(object)null);
Assert.Equal(2, mockLibuv.PostCount);
Assert.True(task.IsCompleted);
Assert.True(ranOne);
Assert.False(ranTwo);
Assert.False(ranThree);
Assert.False(ranFour);
}
public async Task DoesNotEndConnectionOnZeroRead()
{
var mockLibuv = new MockLibuv();
var transportContext = new TestLibuvTransportContext();
var thread = new LibuvThread(mockLibuv, transportContext);
var listenerContext = new ListenerContext(transportContext)
{
Thread = thread
};
try
{
await thread.StartAsync();
await thread.PostAsync(_ =>
{
var socket = new MockSocket(mockLibuv, Thread.CurrentThread.ManagedThreadId, transportContext.Log);
listenerContext.HandleConnection(socket);
mockLibuv.AllocCallback(socket.InternalGetHandle(), 2048, out var ignored);
mockLibuv.ReadCallback(socket.InternalGetHandle(), 0, ref ignored);
}, (object)null);
await using var connection = await listenerContext.AcceptAsync();
var readAwaitable = connection.Transport.Input.ReadAsync();
Assert.False(readAwaitable.IsCompleted);
}
finally
{
await thread.StopAsync(TimeSpan.FromSeconds(5));
}
}
public async Task ConnectionDoesNotResumeAfterSocketCloseIfBackpressureIsApplied()
{
var mockConnectionHandler = new MockConnectionHandler();
var mockLibuv = new MockLibuv();
var transportContext = new TestLibuvTransportContext()
{
ConnectionHandler = mockConnectionHandler
};
var transport = new LibuvTransport(mockLibuv, transportContext, null);
var thread = new LibuvThread(transport);
mockConnectionHandler.InputOptions = pool =>
new PipeOptions(
bufferPool: pool,
maximumSizeHigh: 3);
// We don't set the output writer scheduler here since we want to run the callback inline
mockConnectionHandler.OutputOptions = pool => new PipeOptions(bufferPool: pool, readerScheduler: thread);
Task connectionTask = null;
try
{
await thread.StartAsync();
// Write enough to make sure back pressure will be applied
await thread.PostAsync <object>(_ =>
{
var listenerContext = new ListenerContext(transportContext)
{
Thread = thread
};
var socket = new MockSocket(mockLibuv, Thread.CurrentThread.ManagedThreadId, transportContext.Log);
var connection = new LibuvConnection(listenerContext, socket);
connectionTask = connection.Start();
mockLibuv.AllocCallback(socket.InternalGetHandle(), 2048, out var ignored);
mockLibuv.ReadCallback(socket.InternalGetHandle(), 5, ref ignored);
}, null);
// Now assert that we removed the callback from libuv to stop reading
Assert.Null(mockLibuv.AllocCallback);
Assert.Null(mockLibuv.ReadCallback);
// Now complete the output writer so that the connection closes
mockConnectionHandler.Output.Writer.Complete();
await connectionTask.TimeoutAfter(TimeSpan.FromSeconds(10));
// Assert that we don't try to start reading
Assert.Null(mockLibuv.AllocCallback);
Assert.Null(mockLibuv.ReadCallback);
}
finally
{
await thread.StopAsync(TimeSpan.FromSeconds(1));
}
}
public async Task PipeConnectionsWithWrongMessageAreLoggedAndIgnored()
{
var libuv = new LibuvFunctions();
var endpoint = new IPEndPoint(IPAddress.Loopback, 0);
var logger = new TestApplicationErrorLogger();
var transportContextPrimary = new TestLibuvTransportContext {
Log = logger
};
var transportContextSecondary = new TestLibuvTransportContext();
var pipeName = (libuv.IsWindows ? @"\\.\pipe\kestrel_" : "/tmp/kestrel_") + Guid.NewGuid().ToString("n");
var pipeMessage = Guid.NewGuid().ToByteArray();
// Start primary listener
var libuvThreadPrimary = new LibuvThread(libuv, transportContextPrimary);
await libuvThreadPrimary.StartAsync();
var listenerPrimary = new ListenerPrimary(transportContextPrimary);
await listenerPrimary.StartAsync(pipeName, pipeMessage, endpoint, libuvThreadPrimary);
var address = GetUri(listenerPrimary.EndPoint);
// Add secondary listener with wrong pipe message
var libuvThreadSecondary = new LibuvThread(libuv, transportContextSecondary);
await libuvThreadSecondary.StartAsync();
var listenerSecondary = new ListenerSecondary(transportContextSecondary);
await listenerSecondary.StartAsync(pipeName, Guid.NewGuid().ToByteArray(), endpoint, libuvThreadSecondary);
// Wait up to 10 seconds for error to be logged
for (var i = 0; i < 10 && logger.TotalErrorsLogged == 0; i++)
{
await Task.Delay(100);
}
// TCP Connections don't get round-robined. This should time out if the request goes to the secondary listener
for (int i = 0; i < 3; i++)
{
using var socket = await HttpClientSlim.GetSocket(address);
await using var connection = await listenerPrimary.AcceptAsync().AsTask().DefaultTimeout();
}
await listenerSecondary.DisposeAsync();
await libuvThreadSecondary.StopAsync(TimeSpan.FromSeconds(5));
await listenerPrimary.DisposeAsync();
await libuvThreadPrimary.StopAsync(TimeSpan.FromSeconds(5));
Assert.Equal(1, logger.TotalErrorsLogged);
var errorMessage = logger.Messages.First(m => m.LogLevel == LogLevel.Error);
Assert.IsType <IOException>(errorMessage.Exception);
Assert.Contains("Bad data", errorMessage.Exception.ToString());
}
public async Task ConnectionDoesNotResumeAfterSocketCloseIfBackpressureIsApplied()
{
var mockLibuv = new MockLibuv();
var transportContext = new TestLibuvTransportContext();
var thread = new LibuvThread(mockLibuv, transportContext);
var listenerContext = new ListenerContext(transportContext)
{
Thread = thread,
InputOptions = new PipeOptions(
pool: thread.MemoryPool,
pauseWriterThreshold: 3,
readerScheduler: PipeScheduler.Inline,
writerScheduler: PipeScheduler.Inline,
useSynchronizationContext: false),
// We don't set the output writer scheduler here since we want to run the callback inline
OutputOptions = new PipeOptions(
pool: thread.MemoryPool,
readerScheduler: thread,
writerScheduler: PipeScheduler.Inline,
useSynchronizationContext: false)
};
try
{
await thread.StartAsync();
// Write enough to make sure back pressure will be applied
await thread.PostAsync <object>(_ =>
{
var socket = new MockSocket(mockLibuv, Thread.CurrentThread.ManagedThreadId, transportContext.Log);
listenerContext.HandleConnection(socket);
mockLibuv.AllocCallback(socket.InternalGetHandle(), 2048, out var ignored);
mockLibuv.ReadCallback(socket.InternalGetHandle(), 5, ref ignored);
}, null);
var connection = await listenerContext.AcceptAsync();
// Now assert that we removed the callback from libuv to stop reading
Assert.Null(mockLibuv.AllocCallback);
Assert.Null(mockLibuv.ReadCallback);
// Now complete the output writer so that the connection closes
await connection.DisposeAsync();
// Assert that we don't try to start reading
Assert.Null(mockLibuv.AllocCallback);
Assert.Null(mockLibuv.ReadCallback);
}
finally
{
await thread.StopAsync(TimeSpan.FromSeconds(5));
}
}
public async Task DoesNotThrowIfOnReadCallbackCalledWithEOFButAllocCallbackNotCalled()
{
var mockConnectionDispatcher = new MockConnectionDispatcher();
var mockLibuv = new MockLibuv();
var transportContext = new TestLibuvTransportContext()
{
ConnectionDispatcher = mockConnectionDispatcher
};
var transport = new LibuvTransport(mockLibuv, transportContext, null);
var thread = new LibuvThread(transport);
Task connectionTask = null;
try
{
await thread.StartAsync();
await thread.PostAsync(_ =>
{
var listenerContext = new ListenerContext(transportContext)
{
Thread = thread
};
var socket = new MockSocket(mockLibuv, Thread.CurrentThread.ManagedThreadId, transportContext.Log);
var connection = new LibuvConnection(socket, listenerContext.TransportContext.Log, thread, null, null);
listenerContext.TransportContext.ConnectionDispatcher.OnConnection(connection);
connectionTask = connection.Start();
var ignored = new LibuvFunctions.uv_buf_t();
mockLibuv.ReadCallback(socket.InternalGetHandle(), TestConstants.EOF, ref ignored);
}, (object)null);
var readAwaitable = await mockConnectionDispatcher.Input.Reader.ReadAsync();
Assert.True(readAwaitable.IsCompleted);
}
finally
{
mockConnectionDispatcher.Input.Reader.Complete();
mockConnectionDispatcher.Output.Writer.Complete();
await connectionTask;
await thread.StopAsync(TimeSpan.FromSeconds(5));
}
}
public async Task ConnectionsGetRoundRobinedToSecondaryListeners()
{
var libuv = new LibuvFunctions();
var listenOptions = new ListenOptions(new IPEndPoint(IPAddress.Loopback, 0));
var serviceContextPrimary = new TestServiceContext();
var transportContextPrimary = new TestLibuvTransportContext();
var builderPrimary = new ConnectionBuilder();
builderPrimary.UseHttpServer(serviceContextPrimary, new DummyApplication(c => c.Response.WriteAsync("Primary")), HttpProtocols.Http1);
transportContextPrimary.ConnectionDispatcher = new ConnectionDispatcher(serviceContextPrimary, builderPrimary.Build());
var serviceContextSecondary = new TestServiceContext();
var builderSecondary = new ConnectionBuilder();
builderSecondary.UseHttpServer(serviceContextSecondary, new DummyApplication(c => c.Response.WriteAsync("Secondary")), HttpProtocols.Http1);
var transportContextSecondary = new TestLibuvTransportContext();
transportContextSecondary.ConnectionDispatcher = new ConnectionDispatcher(serviceContextSecondary, builderSecondary.Build());
var libuvTransport = new LibuvTransport(libuv, transportContextPrimary, listenOptions);
var pipeName = (libuv.IsWindows ? @"\\.\pipe\kestrel_" : "/tmp/kestrel_") + Guid.NewGuid().ToString("n");
var pipeMessage = Guid.NewGuid().ToByteArray();
// Start primary listener
var libuvThreadPrimary = new LibuvThread(libuvTransport);
await libuvThreadPrimary.StartAsync();
var listenerPrimary = new ListenerPrimary(transportContextPrimary);
await listenerPrimary.StartAsync(pipeName, pipeMessage, listenOptions, libuvThreadPrimary);
var address = GetUri(listenOptions);
// Until a secondary listener is added, TCP connections get dispatched directly
Assert.Equal("Primary", await HttpClientSlim.GetStringAsync(address));
Assert.Equal("Primary", await HttpClientSlim.GetStringAsync(address));
var listenerCount = listenerPrimary.UvPipeCount;
// Add secondary listener
var libuvThreadSecondary = new LibuvThread(libuvTransport);
await libuvThreadSecondary.StartAsync();
var listenerSecondary = new ListenerSecondary(transportContextSecondary);
await listenerSecondary.StartAsync(pipeName, pipeMessage, listenOptions, libuvThreadSecondary);
var maxWait = Task.Delay(TestConstants.DefaultTimeout);
// wait for ListenerPrimary.ReadCallback to add the secondary pipe
while (listenerPrimary.UvPipeCount == listenerCount)
{
var completed = await Task.WhenAny(maxWait, Task.Delay(100));
if (ReferenceEquals(completed, maxWait))
{
throw new TimeoutException("Timed out waiting for secondary listener to become available");
}
}
// Once a secondary listener is added, TCP connections start getting dispatched to it
await AssertResponseEventually(address, "Secondary", allowed : new[] { "Primary" });
// TCP connections will still get round-robined to the primary listener
Assert.Equal("Primary", await HttpClientSlim.GetStringAsync(address));
Assert.Equal("Secondary", await HttpClientSlim.GetStringAsync(address));
Assert.Equal("Primary", await HttpClientSlim.GetStringAsync(address));
await listenerSecondary.DisposeAsync();
await libuvThreadSecondary.StopAsync(TimeSpan.FromSeconds(5));
await listenerPrimary.DisposeAsync();
await libuvThreadPrimary.StopAsync(TimeSpan.FromSeconds(5));
}
public async Task PipeConnectionsWithWrongMessageAreLoggedAndIgnored()
{
var libuv = new LibuvFunctions();
var listenOptions = new ListenOptions(new IPEndPoint(IPAddress.Loopback, 0));
var logger = new TestApplicationErrorLogger();
var serviceContextPrimary = new TestServiceContext();
var builderPrimary = new ConnectionBuilder();
builderPrimary.UseHttpServer(serviceContextPrimary, new DummyApplication(c => c.Response.WriteAsync("Primary")), HttpProtocols.Http1);
var transportContextPrimary = new TestLibuvTransportContext()
{
Log = new LibuvTrace(logger)
};
transportContextPrimary.ConnectionDispatcher = new ConnectionDispatcher(serviceContextPrimary, builderPrimary.Build());
var serviceContextSecondary = new TestServiceContext
{
DateHeaderValueManager = serviceContextPrimary.DateHeaderValueManager,
ServerOptions = serviceContextPrimary.ServerOptions,
Scheduler = serviceContextPrimary.Scheduler,
HttpParser = serviceContextPrimary.HttpParser,
};
var builderSecondary = new ConnectionBuilder();
builderSecondary.UseHttpServer(serviceContextSecondary, new DummyApplication(c => c.Response.WriteAsync("Secondary")), HttpProtocols.Http1);
var transportContextSecondary = new TestLibuvTransportContext();
transportContextSecondary.ConnectionDispatcher = new ConnectionDispatcher(serviceContextSecondary, builderSecondary.Build());
var libuvTransport = new LibuvTransport(libuv, transportContextPrimary, listenOptions);
var pipeName = (libuv.IsWindows ? @"\\.\pipe\kestrel_" : "/tmp/kestrel_") + Guid.NewGuid().ToString("n");
var pipeMessage = Guid.NewGuid().ToByteArray();
// Start primary listener
var libuvThreadPrimary = new LibuvThread(libuvTransport);
await libuvThreadPrimary.StartAsync();
var listenerPrimary = new ListenerPrimary(transportContextPrimary);
await listenerPrimary.StartAsync(pipeName, pipeMessage, listenOptions, libuvThreadPrimary);
var address = GetUri(listenOptions);
// Add secondary listener with wrong pipe message
var libuvThreadSecondary = new LibuvThread(libuvTransport);
await libuvThreadSecondary.StartAsync();
var listenerSecondary = new ListenerSecondary(transportContextSecondary);
await listenerSecondary.StartAsync(pipeName, Guid.NewGuid().ToByteArray(), listenOptions, libuvThreadSecondary);
// Wait up to 10 seconds for error to be logged
for (var i = 0; i < 10 && logger.TotalErrorsLogged == 0; i++)
{
await Task.Delay(100);
}
// TCP Connections don't get round-robined
Assert.Equal("Primary", await HttpClientSlim.GetStringAsync(address));
Assert.Equal("Primary", await HttpClientSlim.GetStringAsync(address));
Assert.Equal("Primary", await HttpClientSlim.GetStringAsync(address));
await listenerSecondary.DisposeAsync();
await libuvThreadSecondary.StopAsync(TimeSpan.FromSeconds(5));
await listenerPrimary.DisposeAsync();
await libuvThreadPrimary.StopAsync(TimeSpan.FromSeconds(5));
Assert.Equal(1, logger.TotalErrorsLogged);
var errorMessage = logger.Messages.First(m => m.LogLevel == LogLevel.Error);
Assert.IsType <IOException>(errorMessage.Exception);
Assert.Contains("Bad data", errorMessage.Exception.ToString());
}
public async Task NonListenerPipeConnectionsAreLoggedAndIgnored()
{
var libuv = new LibuvFunctions();
var listenOptions = new ListenOptions(new IPEndPoint(IPAddress.Loopback, 0));
var logger = new TestApplicationErrorLogger();
var serviceContextPrimary = new TestServiceContext();
var builderPrimary = new ConnectionBuilder();
builderPrimary.UseHttpServer(serviceContextPrimary, new DummyApplication(c => c.Response.WriteAsync("Primary")), HttpProtocols.Http1);
var transportContextPrimary = new TestLibuvTransportContext()
{
Log = new LibuvTrace(logger)
};
transportContextPrimary.ConnectionDispatcher = new ConnectionDispatcher(serviceContextPrimary, builderPrimary.Build());
var serviceContextSecondary = new TestServiceContext
{
DateHeaderValueManager = serviceContextPrimary.DateHeaderValueManager,
ServerOptions = serviceContextPrimary.ServerOptions,
Scheduler = serviceContextPrimary.Scheduler,
HttpParser = serviceContextPrimary.HttpParser,
};
var builderSecondary = new ConnectionBuilder();
builderSecondary.UseHttpServer(serviceContextSecondary, new DummyApplication(c => c.Response.WriteAsync("Secondary")), HttpProtocols.Http1);
var transportContextSecondary = new TestLibuvTransportContext();
transportContextSecondary.ConnectionDispatcher = new ConnectionDispatcher(serviceContextSecondary, builderSecondary.Build());
var libuvTransport = new LibuvTransport(libuv, transportContextPrimary, listenOptions);
var pipeName = (libuv.IsWindows ? @"\\.\pipe\kestrel_" : "/tmp/kestrel_") + Guid.NewGuid().ToString("n");
var pipeMessage = Guid.NewGuid().ToByteArray();
// Start primary listener
var libuvThreadPrimary = new LibuvThread(libuvTransport);
await libuvThreadPrimary.StartAsync();
var listenerPrimary = new ListenerPrimary(transportContextPrimary);
await listenerPrimary.StartAsync(pipeName, pipeMessage, listenOptions, libuvThreadPrimary);
var address = GetUri(listenOptions);
// Add secondary listener
var libuvThreadSecondary = new LibuvThread(libuvTransport);
await libuvThreadSecondary.StartAsync();
var listenerSecondary = new ListenerSecondary(transportContextSecondary);
await listenerSecondary.StartAsync(pipeName, pipeMessage, listenOptions, libuvThreadSecondary);
// TCP Connections get round-robined
await AssertResponseEventually(address, "Secondary", allowed : new[] { "Primary" });
Assert.Equal("Primary", await HttpClientSlim.GetStringAsync(address));
// Create a pipe connection and keep it open without sending any data
var connectTcs = new TaskCompletionSource <object>(TaskCreationOptions.RunContinuationsAsynchronously);
var connectionTrace = new LibuvTrace(new TestApplicationErrorLogger());
var pipe = new UvPipeHandle(connectionTrace);
libuvThreadPrimary.Post(_ =>
{
var connectReq = new UvConnectRequest(connectionTrace);
pipe.Init(libuvThreadPrimary.Loop, libuvThreadPrimary.QueueCloseHandle);
connectReq.Init(libuvThreadPrimary);
connectReq.Connect(
pipe,
pipeName,
(req, status, ex, __) =>
{
req.Dispose();
if (ex != null)
{
connectTcs.SetException(ex);
}
else
{
connectTcs.SetResult(null);
}
},
null);
}, (object)null);
await connectTcs.Task;
// TCP connections will still get round-robined between only the two listeners
Assert.Equal("Secondary", await HttpClientSlim.GetStringAsync(address));
Assert.Equal("Primary", await HttpClientSlim.GetStringAsync(address));
Assert.Equal("Secondary", await HttpClientSlim.GetStringAsync(address));
await libuvThreadPrimary.PostAsync(_ => pipe.Dispose(), (object)null);
// Wait up to 10 seconds for error to be logged
for (var i = 0; i < 10 && logger.TotalErrorsLogged == 0; i++)
{
await Task.Delay(100);
}
// Same for after the non-listener pipe connection is closed
Assert.Equal("Primary", await HttpClientSlim.GetStringAsync(address));
Assert.Equal("Secondary", await HttpClientSlim.GetStringAsync(address));
Assert.Equal("Primary", await HttpClientSlim.GetStringAsync(address));
await listenerSecondary.DisposeAsync();
await libuvThreadSecondary.StopAsync(TimeSpan.FromSeconds(5));
await listenerPrimary.DisposeAsync();
await libuvThreadPrimary.StopAsync(TimeSpan.FromSeconds(5));
Assert.Equal(1, logger.TotalErrorsLogged);
var errorMessage = logger.Messages.First(m => m.LogLevel == LogLevel.Error);
Assert.Equal(TestConstants.EOF, Assert.IsType <UvException>(errorMessage.Exception).StatusCode);
}
public async Task ConnectionDoesNotResumeAfterReadCallbackScheduledAndSocketCloseIfBackpressureIsApplied()
{
var mockConnectionDispatcher = new MockConnectionDispatcher();
var mockLibuv = new MockLibuv();
var transportContext = new TestLibuvTransportContext()
{
ConnectionDispatcher = mockConnectionDispatcher
};
var transport = new LibuvTransport(mockLibuv, transportContext, null);
var thread = new LibuvThread(transport);
var mockScheduler = new Mock <PipeScheduler>();
Action backPressure = null;
mockScheduler.Setup(m => m.Schedule(It.IsAny <Action <object> >(), It.IsAny <object>())).Callback <Action <object>, object>((a, o) =>
{
backPressure = () => a(o);
});
mockConnectionDispatcher.InputOptions = pool =>
new PipeOptions(
pool: pool,
pauseWriterThreshold: 3,
resumeWriterThreshold: 3,
writerScheduler: mockScheduler.Object,
readerScheduler: PipeScheduler.Inline,
useSynchronizationContext: false);
mockConnectionDispatcher.OutputOptions = pool => new PipeOptions(pool: pool, readerScheduler: thread, writerScheduler: PipeScheduler.Inline, useSynchronizationContext: false);
Task connectionTask = null;
try
{
await thread.StartAsync();
// Write enough to make sure back pressure will be applied
await thread.PostAsync <object>(_ =>
{
var listenerContext = new ListenerContext(transportContext)
{
Thread = thread
};
var socket = new MockSocket(mockLibuv, Thread.CurrentThread.ManagedThreadId, transportContext.Log);
var connection = new LibuvConnection(socket, listenerContext.TransportContext.Log, thread, null, null);
listenerContext.TransportContext.ConnectionDispatcher.OnConnection(connection);
connectionTask = connection.Start();
mockLibuv.AllocCallback(socket.InternalGetHandle(), 2048, out var ignored);
mockLibuv.ReadCallback(socket.InternalGetHandle(), 5, ref ignored);
}, null);
// Now assert that we removed the callback from libuv to stop reading
Assert.Null(mockLibuv.AllocCallback);
Assert.Null(mockLibuv.ReadCallback);
// Now release backpressure by reading the input
var result = await mockConnectionDispatcher.Input.Reader.ReadAsync();
// Calling advance will call into our custom scheduler that captures the back pressure
// callback
mockConnectionDispatcher.Input.Reader.AdvanceTo(result.Buffer.End);
// Cancel the current pending flush
mockConnectionDispatcher.Input.Writer.CancelPendingFlush();
// Now release the back pressure
await thread.PostAsync(a => a(), backPressure);
// Assert that we don't try to start reading since the write was cancelled
Assert.Null(mockLibuv.AllocCallback);
Assert.Null(mockLibuv.ReadCallback);
// Now complete the output writer and wait for the connection to close
mockConnectionDispatcher.Output.Writer.Complete();
await connectionTask.DefaultTimeout();
// Assert that we don't try to start reading
Assert.Null(mockLibuv.AllocCallback);
Assert.Null(mockLibuv.ReadCallback);
}
finally
{
await thread.StopAsync(TimeSpan.FromSeconds(5));
}
}
public void Dispose()
{
_libuvThread.StopAsync(TimeSpan.FromSeconds(5)).Wait();
_memoryPool.Dispose();
}
public void Dispose()
{
_libuvThread.StopAsync(TimeSpan.FromSeconds(1)).Wait();
_pipeFactory.Dispose();
}
public async Task NonListenerPipeConnectionsAreLoggedAndIgnored()
{
var libuv = new LibuvFunctions();
var endpoint = new IPEndPoint(IPAddress.Loopback, 0);
var logger = new TestApplicationErrorLogger();
var transportContextPrimary = new TestLibuvTransportContext {
Log = logger
};
var transportContextSecondary = new TestLibuvTransportContext();
var pipeName = (libuv.IsWindows ? @"\\.\pipe\kestrel_" : "/tmp/kestrel_") + Guid.NewGuid().ToString("n");
var pipeMessage = Guid.NewGuid().ToByteArray();
// Start primary listener
var libuvThreadPrimary = new LibuvThread(libuv, transportContextPrimary);
await libuvThreadPrimary.StartAsync();
var listenerPrimary = new ListenerPrimary(transportContextPrimary);
await listenerPrimary.StartAsync(pipeName, pipeMessage, endpoint, libuvThreadPrimary);
var address = GetUri(listenerPrimary.EndPoint);
// Add secondary listener
var libuvThreadSecondary = new LibuvThread(libuv, transportContextSecondary);
await libuvThreadSecondary.StartAsync();
var listenerSecondary = new ListenerSecondary(transportContextSecondary);
await listenerSecondary.StartAsync(pipeName, pipeMessage, endpoint, libuvThreadSecondary);
// TCP Connections get round-robined
var primary = await WaitForSecondaryListener(address, listenerPrimary, listenerSecondary);
// Make sure the pending accept get yields
using (var socket = await HttpClientSlim.GetSocket(address))
{
await(await primary.DefaultTimeout()).DisposeAsync();
}
// Create a pipe connection and keep it open without sending any data
var connectTcs = new TaskCompletionSource(TaskCreationOptions.RunContinuationsAsynchronously);
var connectionTrace = new TestApplicationErrorLogger();
var pipe = new UvPipeHandle(connectionTrace);
libuvThreadPrimary.Post(_ =>
{
var connectReq = new UvConnectRequest(connectionTrace);
pipe.Init(libuvThreadPrimary.Loop, libuvThreadPrimary.QueueCloseHandle);
connectReq.Init(libuvThreadPrimary);
connectReq.Connect(
pipe,
pipeName,
(req, status, ex, __) =>
{
req.Dispose();
if (ex != null)
{
connectTcs.SetException(ex);
}
else
{
connectTcs.SetResult();
}
},
null);
}, (object)null);
await connectTcs.Task;
// TCP connections will still get round-robined between only the two listeners
await AssertRoundRobin(address, listenerPrimary, listenerSecondary, listenerPrimary);
await libuvThreadPrimary.PostAsync(_ => pipe.Dispose(), (object)null);
// Wait up to 10 seconds for error to be logged
for (var i = 0; i < 10 && logger.TotalErrorsLogged == 0; i++)
{
await Task.Delay(100);
}
// Same for after the non-listener pipe connection is closed
await AssertRoundRobin(address, listenerPrimary, listenerSecondary, listenerPrimary);
await listenerSecondary.DisposeAsync();
await libuvThreadSecondary.StopAsync(TimeSpan.FromSeconds(5));
await listenerPrimary.DisposeAsync();
await libuvThreadPrimary.StopAsync(TimeSpan.FromSeconds(5));
Assert.Equal(0, logger.TotalErrorsLogged);
var logMessage = logger.Messages.Single(m => m.Message == "An internal pipe was opened unexpectedly.");
Assert.Equal(LogLevel.Debug, logMessage.LogLevel);
}
public async Task ConnectionsGetRoundRobinedToSecondaryListeners()
{
var libuv = new LibuvFunctions();
var endpoint = new IPEndPoint(IPAddress.Loopback, 0);
var transportContextPrimary = new TestLibuvTransportContext();
var transportContextSecondary = new TestLibuvTransportContext();
var pipeName = (libuv.IsWindows ? @"\\.\pipe\kestrel_" : "/tmp/kestrel_") + Guid.NewGuid().ToString("n");
var pipeMessage = Guid.NewGuid().ToByteArray();
// Start primary listener
var libuvThreadPrimary = new LibuvThread(libuv, transportContextPrimary);
await libuvThreadPrimary.StartAsync();
var listenerPrimary = new ListenerPrimary(transportContextPrimary);
await listenerPrimary.StartAsync(pipeName, pipeMessage, endpoint, libuvThreadPrimary);
var address = GetUri(listenerPrimary.EndPoint);
var acceptTask = listenerPrimary.AcceptAsync().AsTask();
using (var socket = await HttpClientSlim.GetSocket(address))
{
await(await acceptTask.DefaultTimeout()).DisposeAsync();
}
acceptTask = listenerPrimary.AcceptAsync().AsTask();
using (var socket = await HttpClientSlim.GetSocket(address))
{
await(await acceptTask.DefaultTimeout()).DisposeAsync();
}
var listenerCount = listenerPrimary.UvPipeCount;
// Add secondary listener
var libuvThreadSecondary = new LibuvThread(libuv, transportContextSecondary);
await libuvThreadSecondary.StartAsync();
var listenerSecondary = new ListenerSecondary(transportContextSecondary);
await listenerSecondary.StartAsync(pipeName, pipeMessage, endpoint, libuvThreadSecondary);
var maxWait = Task.Delay(TestConstants.DefaultTimeout);
// wait for ListenerPrimary.ReadCallback to add the secondary pipe
while (listenerPrimary.UvPipeCount == listenerCount)
{
var completed = await Task.WhenAny(maxWait, Task.Delay(100));
if (ReferenceEquals(completed, maxWait))
{
throw new TimeoutException("Timed out waiting for secondary listener to become available");
}
}
// Once a secondary listener is added, TCP connections start getting dispatched to it
// This returns the incomplete primary task after the secondary listener got the last
// connection
var primary = await WaitForSecondaryListener(address, listenerPrimary, listenerSecondary);
// TCP connections will still get round-robined to the primary listener
ListenerContext currentListener = listenerSecondary;
Task <LibuvConnection> expected = primary;
await AssertRoundRobin(address, listenerPrimary, listenerSecondary, currentListener, expected);
await listenerSecondary.DisposeAsync();
await libuvThreadSecondary.StopAsync(TimeSpan.FromSeconds(5));
await listenerPrimary.DisposeAsync();
await libuvThreadPrimary.StopAsync(TimeSpan.FromSeconds(5));
}
public void Dispose()
{
_libuvThread.StopAsync(TimeSpan.FromSeconds(1)).Wait();
_bufferPool.Dispose();
}