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#region Copyright notice and license
// Copyright 2015, Google Inc.
// All rights reserved.
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are
// met:
//
// * Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
// * Redistributions in binary form must reproduce the above
// copyright notice, this list of conditions and the following disclaimer
// in the documentation and/or other materials provided with the
// distribution.
// * Neither the name of Google Inc. nor the names of its
// contributors may be used to endorse or promote products derived from
// this software without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
#endregion
using System;
using System.Collections.Generic;
using System.Runtime.InteropServices;
using System.Threading.Tasks;
using Grpc.Core.Internal;
using NUnit.Framework;
namespace Grpc.Core.Internal.Tests
{
/// <summary>
/// Uses fake native call to test interaction of <c>AsyncCall</c> wrapping code with C core in different situations.
/// </summary>
public class AsyncCallTest
{
Channel channel;
FakeNativeCall fakeCall;
AsyncCall<string, string> asyncCall;
[SetUp]
public void Init()
{
channel = new Channel("localhost", ChannelCredentials.Insecure);
fakeCall = new FakeNativeCall();
var callDetails = new CallInvocationDetails<string, string>(channel, "someMethod", null, Marshallers.StringMarshaller, Marshallers.StringMarshaller, new CallOptions());
asyncCall = new AsyncCall<string, string>(callDetails, fakeCall);
}
[TearDown]
public void Cleanup()
{
channel.ShutdownAsync().Wait();
}
[Test]
public void AsyncUnary_CanBeStartedOnlyOnce()
{
asyncCall.UnaryCallAsync("request1");
Assert.Throws(typeof(InvalidOperationException),
() => asyncCall.UnaryCallAsync("abc"));
}
[Test]
public void AsyncUnary_StreamingOperationsNotAllowed()
{
asyncCall.UnaryCallAsync("request1");
Assert.ThrowsAsync(typeof(InvalidOperationException),
async () => await asyncCall.ReadMessageAsync());
Assert.Throws(typeof(InvalidOperationException),
() => asyncCall.StartSendMessage("abc", new WriteFlags(), (x,y) => {}));
}
[Test]
public void AsyncUnary_Success()
{
var resultTask = asyncCall.UnaryCallAsync("request1");
fakeCall.UnaryResponseClientHandler(true,
new ClientSideStatus(Status.DefaultSuccess, new Metadata()),
CreateResponsePayload(),
new Metadata());
AssertUnaryResponseSuccess(asyncCall, fakeCall, resultTask);
}
[Test]
public void AsyncUnary_NonSuccessStatusCode()
{
var resultTask = asyncCall.UnaryCallAsync("request1");
fakeCall.UnaryResponseClientHandler(true,
CreateClientSideStatus(StatusCode.InvalidArgument),
CreateResponsePayload(),
new Metadata());
AssertUnaryResponseError(asyncCall, fakeCall, resultTask, StatusCode.InvalidArgument);
}
[Test]
public void AsyncUnary_NullResponsePayload()
{
var resultTask = asyncCall.UnaryCallAsync("request1");
fakeCall.UnaryResponseClientHandler(true,
new ClientSideStatus(Status.DefaultSuccess, new Metadata()),
null,
new Metadata());
// failure to deserialize will result in InvalidArgument status.
AssertUnaryResponseError(asyncCall, fakeCall, resultTask, StatusCode.Internal);
}
[Test]
public void ClientStreaming_StreamingReadNotAllowed()
{
asyncCall.ClientStreamingCallAsync();
Assert.ThrowsAsync(typeof(InvalidOperationException),
async () => await asyncCall.ReadMessageAsync());
}
[Test]
public void ClientStreaming_NoRequest_Success()
{
var resultTask = asyncCall.ClientStreamingCallAsync();
fakeCall.UnaryResponseClientHandler(true,
new ClientSideStatus(Status.DefaultSuccess, new Metadata()),
CreateResponsePayload(),
new Metadata());
AssertUnaryResponseSuccess(asyncCall, fakeCall, resultTask);
}
[Test]
public void ClientStreaming_NoRequest_NonSuccessStatusCode()
{
var resultTask = asyncCall.ClientStreamingCallAsync();
fakeCall.UnaryResponseClientHandler(true,
CreateClientSideStatus(StatusCode.InvalidArgument),
CreateResponsePayload(),
new Metadata());
AssertUnaryResponseError(asyncCall, fakeCall, resultTask, StatusCode.InvalidArgument);
}
[Test]
public void ClientStreaming_MoreRequests_Success()
{
var resultTask = asyncCall.ClientStreamingCallAsync();
var requestStream = new ClientRequestStream<string, string>(asyncCall);
var writeTask = requestStream.WriteAsync("request1");
fakeCall.SendCompletionHandler(true);
writeTask.Wait();
var writeTask2 = requestStream.WriteAsync("request2");
fakeCall.SendCompletionHandler(true);
writeTask2.Wait();
var completeTask = requestStream.CompleteAsync();
fakeCall.SendCompletionHandler(true);
completeTask.Wait();
fakeCall.UnaryResponseClientHandler(true,
new ClientSideStatus(Status.DefaultSuccess, new Metadata()),
CreateResponsePayload(),
new Metadata());
AssertUnaryResponseSuccess(asyncCall, fakeCall, resultTask);
}
[Test]
public void ClientStreaming_WriteCompletionFailure()
{
var resultTask = asyncCall.ClientStreamingCallAsync();
var requestStream = new ClientRequestStream<string, string>(asyncCall);
var writeTask = requestStream.WriteAsync("request1");
fakeCall.SendCompletionHandler(false);
// TODO: maybe IOException or waiting for RPCException is more appropriate here.
Assert.ThrowsAsync(typeof(InvalidOperationException), async () => await writeTask);
fakeCall.UnaryResponseClientHandler(true,
CreateClientSideStatus(StatusCode.Internal),
CreateResponsePayload(),
new Metadata());
AssertUnaryResponseError(asyncCall, fakeCall, resultTask, StatusCode.Internal);
}
[Test]
public void ClientStreaming_WriteAfterReceivingStatusThrowsRpcException()
{
var resultTask = asyncCall.ClientStreamingCallAsync();
var requestStream = new ClientRequestStream<string, string>(asyncCall);
fakeCall.UnaryResponseClientHandler(true,
new ClientSideStatus(Status.DefaultSuccess, new Metadata()),
CreateResponsePayload(),
new Metadata());
AssertUnaryResponseSuccess(asyncCall, fakeCall, resultTask);
var ex = Assert.Throws<RpcException>(() => requestStream.WriteAsync("request1"));
Assert.AreEqual(Status.DefaultSuccess, ex.Status);
}
[Test]
public void ClientStreaming_WriteAfterReceivingStatusThrowsRpcException2()
{
var resultTask = asyncCall.ClientStreamingCallAsync();
var requestStream = new ClientRequestStream<string, string>(asyncCall);
fakeCall.UnaryResponseClientHandler(true,
new ClientSideStatus(new Status(StatusCode.OutOfRange, ""), new Metadata()),
CreateResponsePayload(),
new Metadata());
AssertUnaryResponseError(asyncCall, fakeCall, resultTask, StatusCode.OutOfRange);
var ex = Assert.Throws<RpcException>(() => requestStream.WriteAsync("request1"));
Assert.AreEqual(StatusCode.OutOfRange, ex.Status.StatusCode);
}
[Test]
public void ClientStreaming_WriteAfterCompleteThrowsInvalidOperationException()
{
var resultTask = asyncCall.ClientStreamingCallAsync();
var requestStream = new ClientRequestStream<string, string>(asyncCall);
requestStream.CompleteAsync();
Assert.Throws(typeof(InvalidOperationException), () => requestStream.WriteAsync("request1"));
fakeCall.SendCompletionHandler(true);
fakeCall.UnaryResponseClientHandler(true,
new ClientSideStatus(Status.DefaultSuccess, new Metadata()),
CreateResponsePayload(),
new Metadata());
AssertUnaryResponseSuccess(asyncCall, fakeCall, resultTask);
}
[Test]
public void ClientStreaming_CompleteAfterReceivingStatusSucceeds()
{
var resultTask = asyncCall.ClientStreamingCallAsync();
var requestStream = new ClientRequestStream<string, string>(asyncCall);
fakeCall.UnaryResponseClientHandler(true,
new ClientSideStatus(Status.DefaultSuccess, new Metadata()),
CreateResponsePayload(),
new Metadata());
AssertUnaryResponseSuccess(asyncCall, fakeCall, resultTask);
Assert.DoesNotThrowAsync(async () => await requestStream.CompleteAsync());
}
[Test]
public void ClientStreaming_WriteAfterCancellationRequestThrowsOperationCancelledException()
{
var resultTask = asyncCall.ClientStreamingCallAsync();
var requestStream = new ClientRequestStream<string, string>(asyncCall);
asyncCall.Cancel();
Assert.IsTrue(fakeCall.IsCancelled);
Assert.Throws(typeof(OperationCanceledException), () => requestStream.WriteAsync("request1"));
fakeCall.UnaryResponseClientHandler(true,
CreateClientSideStatus(StatusCode.Cancelled),
CreateResponsePayload(),
new Metadata());
AssertUnaryResponseError(asyncCall, fakeCall, resultTask, StatusCode.Cancelled);
}
[Test]
public void ServerStreaming_StreamingSendNotAllowed()
{
asyncCall.StartServerStreamingCall("request1");
Assert.Throws(typeof(InvalidOperationException),
() => asyncCall.StartSendMessage("abc", new WriteFlags(), (x,y) => {}));
}
[Test]
public void ServerStreaming_NoResponse_Success1()
{
asyncCall.StartServerStreamingCall("request1");
var responseStream = new ClientResponseStream<string, string>(asyncCall);
var readTask = responseStream.MoveNext();
fakeCall.ReceivedResponseHeadersHandler(true, new Metadata());
Assert.AreEqual(0, asyncCall.ResponseHeadersAsync.Result.Count);
fakeCall.ReceivedMessageHandler(true, null);
fakeCall.ReceivedStatusOnClientHandler(true, new ClientSideStatus(Status.DefaultSuccess, new Metadata()));
AssertStreamingResponseSuccess(asyncCall, fakeCall, readTask);
}
[Test]
public void ServerStreaming_NoResponse_Success2()
{
asyncCall.StartServerStreamingCall("request1");
var responseStream = new ClientResponseStream<string, string>(asyncCall);
var readTask = responseStream.MoveNext();
// try alternative order of completions
fakeCall.ReceivedStatusOnClientHandler(true, new ClientSideStatus(Status.DefaultSuccess, new Metadata()));
fakeCall.ReceivedMessageHandler(true, null);
AssertStreamingResponseSuccess(asyncCall, fakeCall, readTask);
}
[Test]
public void ServerStreaming_NoResponse_ReadFailure()
{
asyncCall.StartServerStreamingCall("request1");
var responseStream = new ClientResponseStream<string, string>(asyncCall);
var readTask = responseStream.MoveNext();
fakeCall.ReceivedMessageHandler(false, null); // after a failed read, we rely on C core to deliver appropriate status code.
fakeCall.ReceivedStatusOnClientHandler(true, CreateClientSideStatus(StatusCode.Internal));
AssertStreamingResponseError(asyncCall, fakeCall, readTask, StatusCode.Internal);
}
[Test]
public void ServerStreaming_MoreResponses_Success()
{
asyncCall.StartServerStreamingCall("request1");
var responseStream = new ClientResponseStream<string, string>(asyncCall);
var readTask1 = responseStream.MoveNext();
fakeCall.ReceivedMessageHandler(true, CreateResponsePayload());
Assert.IsTrue(readTask1.Result);
Assert.AreEqual("response1", responseStream.Current);
var readTask2 = responseStream.MoveNext();
fakeCall.ReceivedMessageHandler(true, CreateResponsePayload());
Assert.IsTrue(readTask2.Result);
Assert.AreEqual("response1", responseStream.Current);
var readTask3 = responseStream.MoveNext();
fakeCall.ReceivedStatusOnClientHandler(true, new ClientSideStatus(Status.DefaultSuccess, new Metadata()));
fakeCall.ReceivedMessageHandler(true, null);
AssertStreamingResponseSuccess(asyncCall, fakeCall, readTask3);
}
[Test]
public void DuplexStreaming_NoRequestNoResponse_Success()
{
asyncCall.StartDuplexStreamingCall();
var requestStream = new ClientRequestStream<string, string>(asyncCall);
var responseStream = new ClientResponseStream<string, string>(asyncCall);
var writeTask1 = requestStream.CompleteAsync();
fakeCall.SendCompletionHandler(true);
Assert.DoesNotThrowAsync(async () => await writeTask1);
var readTask = responseStream.MoveNext();
fakeCall.ReceivedMessageHandler(true, null);
fakeCall.ReceivedStatusOnClientHandler(true, new ClientSideStatus(Status.DefaultSuccess, new Metadata()));
AssertStreamingResponseSuccess(asyncCall, fakeCall, readTask);
}
[Test]
public void DuplexStreaming_WriteAfterReceivingStatusThrowsRpcException()
{
asyncCall.StartDuplexStreamingCall();
var requestStream = new ClientRequestStream<string, string>(asyncCall);
var responseStream = new ClientResponseStream<string, string>(asyncCall);
var readTask = responseStream.MoveNext();
fakeCall.ReceivedMessageHandler(true, null);
fakeCall.ReceivedStatusOnClientHandler(true, new ClientSideStatus(Status.DefaultSuccess, new Metadata()));
AssertStreamingResponseSuccess(asyncCall, fakeCall, readTask);
var ex = Assert.ThrowsAsync<RpcException>(async () => await requestStream.WriteAsync("request1"));
Assert.AreEqual(Status.DefaultSuccess, ex.Status);
}
[Test]
public void DuplexStreaming_CompleteAfterReceivingStatusFails()
{
asyncCall.StartDuplexStreamingCall();
var requestStream = new ClientRequestStream<string, string>(asyncCall);
var responseStream = new ClientResponseStream<string, string>(asyncCall);
var readTask = responseStream.MoveNext();
fakeCall.ReceivedMessageHandler(true, null);
fakeCall.ReceivedStatusOnClientHandler(true, new ClientSideStatus(Status.DefaultSuccess, new Metadata()));
AssertStreamingResponseSuccess(asyncCall, fakeCall, readTask);
Assert.DoesNotThrowAsync(async () => await requestStream.CompleteAsync());
}
[Test]
public void DuplexStreaming_WriteAfterCancellationRequestThrowsOperationCancelledException()
{
asyncCall.StartDuplexStreamingCall();
var requestStream = new ClientRequestStream<string, string>(asyncCall);
var responseStream = new ClientResponseStream<string, string>(asyncCall);
asyncCall.Cancel();
Assert.IsTrue(fakeCall.IsCancelled);
Assert.Throws(typeof(OperationCanceledException), () => requestStream.WriteAsync("request1"));
var readTask = responseStream.MoveNext();
fakeCall.ReceivedMessageHandler(true, null);
fakeCall.ReceivedStatusOnClientHandler(true, CreateClientSideStatus(StatusCode.Cancelled));
AssertStreamingResponseError(asyncCall, fakeCall, readTask, StatusCode.Cancelled);
}
[Test]
public void DuplexStreaming_ReadAfterCancellationRequestCanSucceed()
{
asyncCall.StartDuplexStreamingCall();
var responseStream = new ClientResponseStream<string, string>(asyncCall);
asyncCall.Cancel();
Assert.IsTrue(fakeCall.IsCancelled);
var readTask1 = responseStream.MoveNext();
fakeCall.ReceivedMessageHandler(true, CreateResponsePayload());
Assert.IsTrue(readTask1.Result);
Assert.AreEqual("response1", responseStream.Current);
var readTask2 = responseStream.MoveNext();
fakeCall.ReceivedMessageHandler(true, null);
fakeCall.ReceivedStatusOnClientHandler(true, CreateClientSideStatus(StatusCode.Cancelled));
AssertStreamingResponseError(asyncCall, fakeCall, readTask2, StatusCode.Cancelled);
}
[Test]
public void DuplexStreaming_ReadStartedBeforeCancellationRequestCanSucceed()
{
asyncCall.StartDuplexStreamingCall();
var responseStream = new ClientResponseStream<string, string>(asyncCall);
var readTask1 = responseStream.MoveNext(); // initiate the read before cancel request
asyncCall.Cancel();
Assert.IsTrue(fakeCall.IsCancelled);
fakeCall.ReceivedMessageHandler(true, CreateResponsePayload());
Assert.IsTrue(readTask1.Result);
Assert.AreEqual("response1", responseStream.Current);
var readTask2 = responseStream.MoveNext();
fakeCall.ReceivedMessageHandler(true, null);
fakeCall.ReceivedStatusOnClientHandler(true, CreateClientSideStatus(StatusCode.Cancelled));
AssertStreamingResponseError(asyncCall, fakeCall, readTask2, StatusCode.Cancelled);
}
ClientSideStatus CreateClientSideStatus(StatusCode statusCode)
{
return new ClientSideStatus(new Status(statusCode, ""), new Metadata());
}
byte[] CreateResponsePayload()
{
return Marshallers.StringMarshaller.Serializer("response1");
}
static void AssertUnaryResponseSuccess(AsyncCall<string, string> asyncCall, FakeNativeCall fakeCall, Task<string> resultTask)
{
Assert.IsTrue(resultTask.IsCompleted);
Assert.IsTrue(fakeCall.IsDisposed);
Assert.AreEqual(Status.DefaultSuccess, asyncCall.GetStatus());
Assert.AreEqual(0, asyncCall.ResponseHeadersAsync.Result.Count);
Assert.AreEqual(0, asyncCall.GetTrailers().Count);
Assert.AreEqual("response1", resultTask.Result);
}
static void AssertStreamingResponseSuccess(AsyncCall<string, string> asyncCall, FakeNativeCall fakeCall, Task<bool> moveNextTask)
{
Assert.IsTrue(moveNextTask.IsCompleted);
Assert.IsTrue(fakeCall.IsDisposed);
Assert.IsFalse(moveNextTask.Result);
Assert.AreEqual(Status.DefaultSuccess, asyncCall.GetStatus());
Assert.AreEqual(0, asyncCall.GetTrailers().Count);
}
static void AssertUnaryResponseError(AsyncCall<string, string> asyncCall, FakeNativeCall fakeCall, Task<string> resultTask, StatusCode expectedStatusCode)
{
Assert.IsTrue(resultTask.IsCompleted);
Assert.IsTrue(fakeCall.IsDisposed);
Assert.AreEqual(expectedStatusCode, asyncCall.GetStatus().StatusCode);
var ex = Assert.ThrowsAsync<RpcException>(async () => await resultTask);
Assert.AreEqual(expectedStatusCode, ex.Status.StatusCode);
Assert.AreEqual(0, asyncCall.ResponseHeadersAsync.Result.Count);
Assert.AreEqual(0, asyncCall.GetTrailers().Count);
}
static void AssertStreamingResponseError(AsyncCall<string, string> asyncCall, FakeNativeCall fakeCall, Task<bool> moveNextTask, StatusCode expectedStatusCode)
{
Assert.IsTrue(moveNextTask.IsCompleted);
Assert.IsTrue(fakeCall.IsDisposed);
var ex = Assert.ThrowsAsync<RpcException>(async () => await moveNextTask);
Assert.AreEqual(expectedStatusCode, ex.Status.StatusCode);
Assert.AreEqual(expectedStatusCode, asyncCall.GetStatus().StatusCode);
Assert.AreEqual(0, asyncCall.GetTrailers().Count);
}
}
}
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