#region Copyright notice and license
// Copyright 2015 gRPC authors.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#endregion
using System;
using System.Threading;
using System.Threading.Tasks;
using Grpc.Core.Logging;
using Grpc.Core.Profiling;
using Grpc.Core.Utils;
namespace Grpc.Core.Internal
{
///
/// Manages client side native call lifecycle.
///
internal class AsyncCall : AsyncCallBase, IUnaryResponseClientCallback, IReceivedStatusOnClientCallback, IReceivedResponseHeadersCallback
{
static readonly ILogger Logger = GrpcEnvironment.Logger.ForType>();
readonly CallInvocationDetails details;
readonly INativeCall injectedNativeCall; // for testing
bool registeredWithChannel;
// Dispose of to de-register cancellation token registration
IDisposable cancellationTokenRegistration;
// Completion of a pending unary response if not null.
TaskCompletionSource unaryResponseTcs;
// Completion of a streaming response call if not null.
TaskCompletionSource streamingResponseCallFinishedTcs;
// TODO(jtattermusch): this field could be lazy-initialized (only if someone requests the response headers).
// Response headers set here once received.
TaskCompletionSource responseHeadersTcs = new TaskCompletionSource();
// Set after status is received. Used for both unary and streaming response calls.
ClientSideStatus? finishedStatus;
public AsyncCall(CallInvocationDetails callDetails)
: base(callDetails.RequestMarshaller.ContextualSerializer, callDetails.ResponseMarshaller.ContextualDeserializer)
{
this.details = callDetails.WithOptions(callDetails.Options.Normalize());
this.initialMetadataSent = true; // we always send metadata at the very beginning of the call.
}
///
/// This constructor should only be used for testing.
///
public AsyncCall(CallInvocationDetails callDetails, INativeCall injectedNativeCall) : this(callDetails)
{
this.injectedNativeCall = injectedNativeCall;
}
// TODO: this method is not Async, so it shouldn't be in AsyncCall class, but
// it is reusing fair amount of code in this class, so we are leaving it here.
///
/// Blocking unary request - unary response call.
///
public TResponse UnaryCall(TRequest msg)
{
var profiler = Profilers.ForCurrentThread();
using (profiler.NewScope("AsyncCall.UnaryCall"))
using (CompletionQueueSafeHandle cq = CompletionQueueSafeHandle.CreateSync())
{
bool callStartedOk = false;
try
{
unaryResponseTcs = new TaskCompletionSource();
lock (myLock)
{
GrpcPreconditions.CheckState(!started);
started = true;
Initialize(cq);
halfcloseRequested = true;
readingDone = true;
}
byte[] payload = UnsafeSerialize(msg);
using (var metadataArray = MetadataArraySafeHandle.Create(details.Options.Headers))
{
var ctx = details.Channel.Environment.BatchContextPool.Lease();
try
{
call.StartUnary(ctx, payload, GetWriteFlagsForCall(), metadataArray, details.Options.Flags);
callStartedOk = true;
var ev = cq.Pluck(ctx.Handle);
bool success = (ev.success != 0);
try
{
using (profiler.NewScope("AsyncCall.UnaryCall.HandleBatch"))
{
HandleUnaryResponse(success, ctx.GetReceivedStatusOnClient(), ctx.GetReceivedMessage(), ctx.GetReceivedInitialMetadata());
}
}
catch (Exception e)
{
Logger.Error(e, "Exception occurred while invoking completion delegate.");
}
}
finally
{
ctx.Recycle();
}
}
}
finally
{
if (!callStartedOk)
{
lock (myLock)
{
OnFailedToStartCallLocked();
}
}
}
// Once the blocking call returns, the result should be available synchronously.
// Note that GetAwaiter().GetResult() doesn't wrap exceptions in AggregateException.
return unaryResponseTcs.Task.GetAwaiter().GetResult();
}
}
///
/// Starts a unary request - unary response call.
///
public Task UnaryCallAsync(TRequest msg)
{
lock (myLock)
{
bool callStartedOk = false;
try
{
GrpcPreconditions.CheckState(!started);
started = true;
Initialize(details.Channel.CompletionQueue);
halfcloseRequested = true;
readingDone = true;
byte[] payload = UnsafeSerialize(msg);
unaryResponseTcs = new TaskCompletionSource();
using (var metadataArray = MetadataArraySafeHandle.Create(details.Options.Headers))
{
call.StartUnary(UnaryResponseClientCallback, payload, GetWriteFlagsForCall(), metadataArray, details.Options.Flags);
callStartedOk = true;
}
return unaryResponseTcs.Task;
}
finally
{
if (!callStartedOk)
{
OnFailedToStartCallLocked();
}
}
}
}
///
/// Starts a streamed request - unary response call.
/// Use StartSendMessage and StartSendCloseFromClient to stream requests.
///
public Task ClientStreamingCallAsync()
{
lock (myLock)
{
bool callStartedOk = false;
try
{
GrpcPreconditions.CheckState(!started);
started = true;
Initialize(details.Channel.CompletionQueue);
readingDone = true;
unaryResponseTcs = new TaskCompletionSource();
using (var metadataArray = MetadataArraySafeHandle.Create(details.Options.Headers))
{
call.StartClientStreaming(UnaryResponseClientCallback, metadataArray, details.Options.Flags);
callStartedOk = true;
}
return unaryResponseTcs.Task;
}
finally
{
if (!callStartedOk)
{
OnFailedToStartCallLocked();
}
}
}
}
///
/// Starts a unary request - streamed response call.
///
public void StartServerStreamingCall(TRequest msg)
{
lock (myLock)
{
bool callStartedOk = false;
try
{
GrpcPreconditions.CheckState(!started);
started = true;
Initialize(details.Channel.CompletionQueue);
halfcloseRequested = true;
byte[] payload = UnsafeSerialize(msg);
streamingResponseCallFinishedTcs = new TaskCompletionSource();
using (var metadataArray = MetadataArraySafeHandle.Create(details.Options.Headers))
{
call.StartServerStreaming(ReceivedStatusOnClientCallback, payload, GetWriteFlagsForCall(), metadataArray, details.Options.Flags);
callStartedOk = true;
}
call.StartReceiveInitialMetadata(ReceivedResponseHeadersCallback);
}
finally
{
if (!callStartedOk)
{
OnFailedToStartCallLocked();
}
}
}
}
///
/// Starts a streaming request - streaming response call.
/// Use StartSendMessage and StartSendCloseFromClient to stream requests.
///
public void StartDuplexStreamingCall()
{
lock (myLock)
{
bool callStartedOk = false;
try
{
GrpcPreconditions.CheckState(!started);
started = true;
Initialize(details.Channel.CompletionQueue);
streamingResponseCallFinishedTcs = new TaskCompletionSource();
using (var metadataArray = MetadataArraySafeHandle.Create(details.Options.Headers))
{
call.StartDuplexStreaming(ReceivedStatusOnClientCallback, metadataArray, details.Options.Flags);
callStartedOk = true;
}
call.StartReceiveInitialMetadata(ReceivedResponseHeadersCallback);
}
finally
{
if (!callStartedOk)
{
OnFailedToStartCallLocked();
}
}
}
}
///
/// Sends a streaming request. Only one pending send action is allowed at any given time.
///
public Task SendMessageAsync(TRequest msg, WriteFlags writeFlags)
{
return SendMessageInternalAsync(msg, writeFlags);
}
///
/// Receives a streaming response. Only one pending read action is allowed at any given time.
///
public Task ReadMessageAsync()
{
return ReadMessageInternalAsync();
}
///
/// Sends halfclose, indicating client is done with streaming requests.
/// Only one pending send action is allowed at any given time.
///
public Task SendCloseFromClientAsync()
{
lock (myLock)
{
GrpcPreconditions.CheckState(started);
var earlyResult = CheckSendPreconditionsClientSide();
if (earlyResult != null)
{
return earlyResult;
}
if (disposed || finished)
{
// In case the call has already been finished by the serverside,
// the halfclose has already been done implicitly, so just return
// completed task here.
halfcloseRequested = true;
return TaskUtils.CompletedTask;
}
call.StartSendCloseFromClient(SendCompletionCallback);
halfcloseRequested = true;
streamingWriteTcs = new TaskCompletionSource();
return streamingWriteTcs.Task;
}
}
///
/// Get the task that completes once if streaming response call finishes with ok status and throws RpcException with given status otherwise.
///
public Task StreamingResponseCallFinishedTask
{
get
{
return streamingResponseCallFinishedTcs.Task;
}
}
///
/// Get the task that completes once response headers are received.
///
public Task ResponseHeadersAsync
{
get
{
return responseHeadersTcs.Task;
}
}
///
/// Gets the resulting status if the call has already finished.
/// Throws InvalidOperationException otherwise.
///
public Status GetStatus()
{
lock (myLock)
{
GrpcPreconditions.CheckState(finishedStatus.HasValue, "Status can only be accessed once the call has finished.");
return finishedStatus.Value.Status;
}
}
///
/// Gets the trailing metadata if the call has already finished.
/// Throws InvalidOperationException otherwise.
///
public Metadata GetTrailers()
{
lock (myLock)
{
GrpcPreconditions.CheckState(finishedStatus.HasValue, "Trailers can only be accessed once the call has finished.");
return finishedStatus.Value.Trailers;
}
}
public CallInvocationDetails Details
{
get
{
return this.details;
}
}
protected override void OnAfterReleaseResourcesLocked()
{
if (registeredWithChannel)
{
details.Channel.RemoveCallReference(this);
registeredWithChannel = false;
}
}
protected override void OnAfterReleaseResourcesUnlocked()
{
// If cancellation callback is in progress, this can block
// so we need to do this outside of call's lock to prevent
// deadlock.
// See https://github.com/grpc/grpc/issues/14777
// See https://github.com/dotnet/corefx/issues/14903
cancellationTokenRegistration?.Dispose();
}
protected override bool IsClient
{
get { return true; }
}
protected override Exception GetRpcExceptionClientOnly()
{
return new RpcException(finishedStatus.Value.Status, finishedStatus.Value.Trailers);
}
protected override Task CheckSendAllowedOrEarlyResult()
{
var earlyResult = CheckSendPreconditionsClientSide();
if (earlyResult != null)
{
return earlyResult;
}
if (finishedStatus.HasValue)
{
// throwing RpcException if we already received status on client
// side makes the most sense.
// Note that this throws even for StatusCode.OK.
// Writing after the call has finished is not a programming error because server can close
// the call anytime, so don't throw directly, but let the write task finish with an error.
var tcs = new TaskCompletionSource();
tcs.SetException(new RpcException(finishedStatus.Value.Status, finishedStatus.Value.Trailers));
return tcs.Task;
}
return null;
}
private Task CheckSendPreconditionsClientSide()
{
GrpcPreconditions.CheckState(!halfcloseRequested, "Request stream has already been completed.");
GrpcPreconditions.CheckState(streamingWriteTcs == null, "Only one write can be pending at a time.");
if (cancelRequested)
{
// Return a cancelled task.
var tcs = new TaskCompletionSource();
tcs.SetCanceled();
return tcs.Task;
}
return null;
}
private void Initialize(CompletionQueueSafeHandle cq)
{
var call = CreateNativeCall(cq);
details.Channel.AddCallReference(this);
registeredWithChannel = true;
InitializeInternal(call);
RegisterCancellationCallback();
}
private void OnFailedToStartCallLocked()
{
ReleaseResources();
// We need to execute the hook that disposes the cancellation token
// registration, but it cannot be done from under a lock.
// To make things simple, we just schedule the unregistering
// on a threadpool.
// - Once the native call is disposed, the Cancel() calls are ignored anyway
// - We don't care about the overhead as OnFailedToStartCallLocked() only happens
// when something goes very bad when initializing a call and that should
// never happen when gRPC is used correctly.
ThreadPool.QueueUserWorkItem((state) => OnAfterReleaseResourcesUnlocked());
}
private INativeCall CreateNativeCall(CompletionQueueSafeHandle cq)
{
if (injectedNativeCall != null)
{
return injectedNativeCall; // allows injecting a mock INativeCall in tests.
}
var parentCall = details.Options.PropagationToken != null ? details.Options.PropagationToken.ParentCall : CallSafeHandle.NullInstance;
var credentials = details.Options.Credentials;
using (var nativeCredentials = credentials != null ? credentials.ToNativeCredentials() : null)
{
var result = details.Channel.Handle.CreateCall(
parentCall, ContextPropagationToken.DefaultMask, cq,
details.Method, details.Host, Timespec.FromDateTime(details.Options.Deadline.Value), nativeCredentials);
return result;
}
}
// Make sure that once cancellationToken for this call is cancelled, Cancel() will be called.
private void RegisterCancellationCallback()
{
var token = details.Options.CancellationToken;
if (token.CanBeCanceled)
{
cancellationTokenRegistration = token.Register(() => this.Cancel());
}
}
///
/// Gets WriteFlags set in callDetails.Options.WriteOptions
///
private WriteFlags GetWriteFlagsForCall()
{
var writeOptions = details.Options.WriteOptions;
return writeOptions != null ? writeOptions.Flags : default(WriteFlags);
}
///
/// Handles receive status completion for calls with streaming response.
///
private void HandleReceivedResponseHeaders(bool success, Metadata responseHeaders)
{
// TODO(jtattermusch): handle success==false
responseHeadersTcs.SetResult(responseHeaders);
}
///
/// Handler for unary response completion.
///
private void HandleUnaryResponse(bool success, ClientSideStatus receivedStatus, byte[] receivedMessage, Metadata responseHeaders)
{
// NOTE: because this event is a result of batch containing GRPC_OP_RECV_STATUS_ON_CLIENT,
// success will be always set to true.
TaskCompletionSource delayedStreamingWriteTcs = null;
TResponse msg = default(TResponse);
var deserializeException = TryDeserialize(receivedMessage, out msg);
bool releasedResources;
lock (myLock)
{
finished = true;
if (deserializeException != null && receivedStatus.Status.StatusCode == StatusCode.OK)
{
receivedStatus = new ClientSideStatus(DeserializeResponseFailureStatus, receivedStatus.Trailers);
}
finishedStatus = receivedStatus;
if (isStreamingWriteCompletionDelayed)
{
delayedStreamingWriteTcs = streamingWriteTcs;
streamingWriteTcs = null;
}
releasedResources = ReleaseResourcesIfPossible();
}
if (releasedResources)
{
OnAfterReleaseResourcesUnlocked();
}
responseHeadersTcs.SetResult(responseHeaders);
if (delayedStreamingWriteTcs != null)
{
delayedStreamingWriteTcs.SetException(GetRpcExceptionClientOnly());
}
var status = receivedStatus.Status;
if (status.StatusCode != StatusCode.OK)
{
unaryResponseTcs.SetException(new RpcException(status, receivedStatus.Trailers));
return;
}
unaryResponseTcs.SetResult(msg);
}
///
/// Handles receive status completion for calls with streaming response.
///
private void HandleFinished(bool success, ClientSideStatus receivedStatus)
{
// NOTE: because this event is a result of batch containing GRPC_OP_RECV_STATUS_ON_CLIENT,
// success will be always set to true.
TaskCompletionSource delayedStreamingWriteTcs = null;
bool releasedResources;
lock (myLock)
{
finished = true;
finishedStatus = receivedStatus;
if (isStreamingWriteCompletionDelayed)
{
delayedStreamingWriteTcs = streamingWriteTcs;
streamingWriteTcs = null;
}
releasedResources = ReleaseResourcesIfPossible();
}
if (releasedResources)
{
OnAfterReleaseResourcesUnlocked();
}
if (delayedStreamingWriteTcs != null)
{
delayedStreamingWriteTcs.SetException(GetRpcExceptionClientOnly());
}
var status = receivedStatus.Status;
if (status.StatusCode != StatusCode.OK)
{
streamingResponseCallFinishedTcs.SetException(new RpcException(status, receivedStatus.Trailers));
return;
}
streamingResponseCallFinishedTcs.SetResult(null);
}
IUnaryResponseClientCallback UnaryResponseClientCallback => this;
void IUnaryResponseClientCallback.OnUnaryResponseClient(bool success, ClientSideStatus receivedStatus, byte[] receivedMessage, Metadata responseHeaders)
{
HandleUnaryResponse(success, receivedStatus, receivedMessage, responseHeaders);
}
IReceivedStatusOnClientCallback ReceivedStatusOnClientCallback => this;
void IReceivedStatusOnClientCallback.OnReceivedStatusOnClient(bool success, ClientSideStatus receivedStatus)
{
HandleFinished(success, receivedStatus);
}
IReceivedResponseHeadersCallback ReceivedResponseHeadersCallback => this;
void IReceivedResponseHeadersCallback.OnReceivedResponseHeaders(bool success, Metadata responseHeaders)
{
HandleReceivedResponseHeaders(success, responseHeaders);
}
}
}