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MessageDispatcher.cs
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//
// Copyright (c) Microsoft. All rights reserved.
// Licensed under the MIT license. See LICENSE file in the project root for full license information.
//
using Microsoft.PowerShell.EditorServices.Utility;
using Nito.AsyncEx;
using System;
using System.Collections.Generic;
using System.Threading;
using System.Threading.Tasks;
namespace Microsoft.PowerShell.EditorServices.Protocol.MessageProtocol
{
public class MessageDispatcher
{
#region Fields
private AsyncContextThread messageLoopThread;
private Dictionary<string, Func<Message, MessageWriter, Task>> requestHandlers =
new Dictionary<string, Func<Message, MessageWriter, Task>>();
private Dictionary<string, Func<Message, MessageWriter, Task>> eventHandlers =
new Dictionary<string, Func<Message, MessageWriter, Task>>();
private Action<Message> responseHandler;
#endregion
#region Properties
public SynchronizationContext SynchronizationContext { get; private set; }
public bool InMessageLoopThread
{
get
{
// We're in the same thread as the message loop if the
// current synchronization context equals the one we
// know.
return SynchronizationContext.Current == this.SynchronizationContext;
}
}
protected MessageReader MessageReader { get; private set; }
protected MessageWriter MessageWriter { get; private set; }
#endregion
#region Constructors
public MessageDispatcher(
MessageReader messageReader,
MessageWriter messageWriter)
{
this.MessageReader = messageReader;
this.MessageWriter = messageWriter;
}
#endregion
#region Public Methods
public void Start()
{
// Start the main message loop thread. The Task is
// not explicitly awaited because it is running on
// an independent background thread.
this.messageLoopThread = new AsyncContextThread(true);
this.messageLoopThread
.Factory
.Run(this.ListenForMessages)
.ContinueWith(this.OnListenTaskCompleted);
}
public void Stop()
{
// By disposing the thread we cancel all existing work
// and cause the thread to be destroyed.
if (this.messageLoopThread != null)
this.messageLoopThread.Dispose();
}
public void SetRequestHandler<TParams, TResult>(
RequestType<TParams, TResult> requestType,
Func<TParams, RequestContext<TResult>, Task> requestHandler)
{
this.SetRequestHandler(
requestType,
requestHandler,
false);
}
public void SetRequestHandler<TParams, TResult>(
RequestType<TParams, TResult> requestType,
Func<TParams, RequestContext<TResult>, Task> requestHandler,
bool overrideExisting)
{
if (overrideExisting)
{
// Remove the existing handler so a new one can be set
this.requestHandlers.Remove(requestType.MethodName);
}
this.requestHandlers.Add(
requestType.MethodName,
(requestMessage, messageWriter) =>
{
var requestContext =
new RequestContext<TResult>(
requestMessage,
messageWriter);
TParams typedParams = default(TParams);
if (requestMessage.Contents != null)
{
// TODO: Catch parse errors!
typedParams = requestMessage.Contents.ToObject<TParams>();
}
return requestHandler(typedParams, requestContext);
});
}
public void SetEventHandler<TParams>(
EventType<TParams> eventType,
Func<TParams, EventContext, Task> eventHandler)
{
this.SetEventHandler(
eventType,
eventHandler,
false);
}
public void SetEventHandler<TParams>(
EventType<TParams> eventType,
Func<TParams, EventContext, Task> eventHandler,
bool overrideExisting)
{
if (overrideExisting)
{
// Remove the existing handler so a new one can be set
this.eventHandlers.Remove(eventType.MethodName);
}
this.eventHandlers.Add(
eventType.MethodName,
(eventMessage, messageWriter) =>
{
var eventContext = new EventContext(messageWriter);
TParams typedParams = default(TParams);
if (eventMessage.Contents != null)
{
// TODO: Catch parse errors!
typedParams = eventMessage.Contents.ToObject<TParams>();
}
return eventHandler(typedParams, eventContext);
});
}
public void SetResponseHandler(Action<Message> responseHandler)
{
this.responseHandler = responseHandler;
}
public event EventHandler<Exception> UnhandledException;
protected void OnUnhandledException(Exception unhandledException)
{
if (this.UnhandledException != null)
{
this.UnhandledException(this, unhandledException);
}
}
#endregion
#region Private Methods
private async Task ListenForMessages()
{
this.SynchronizationContext = SynchronizationContext.Current;
// Run the message loop
bool isRunning = true;
while (isRunning)
{
Message newMessage = null;
try
{
// Read a message from stdin
newMessage = await this.MessageReader.ReadMessage();
}
catch (MessageParseException e)
{
// TODO: Write an error response
Logger.Write(
LogLevel.Error,
"Could not parse a message that was received:\r\n\r\n" +
e.ToString());
// Continue the loop
continue;
}
catch (Exception e)
{
var b = e.Message;
newMessage = null;
}
// The message could be null if there was an error parsing the
// previous message. In this case, do not try to dispatch it.
if (newMessage != null)
{
// Process the message
await this.DispatchMessage(
newMessage,
this.MessageWriter);
}
}
}
protected async Task DispatchMessage(
Message messageToDispatch,
MessageWriter messageWriter)
{
if (messageToDispatch.MessageType == MessageType.Request)
{
Func<Message, MessageWriter, Task> requestHandler = null;
if (this.requestHandlers.TryGetValue(messageToDispatch.Method, out requestHandler))
{
await requestHandler(messageToDispatch, messageWriter);
}
else
{
// TODO: Message not supported error
}
}
else if (messageToDispatch.MessageType == MessageType.Response)
{
if (this.responseHandler != null)
{
this.responseHandler(messageToDispatch);
}
}
else if (messageToDispatch.MessageType == MessageType.Event)
{
Func<Message, MessageWriter, Task> eventHandler = null;
if (this.eventHandlers.TryGetValue(messageToDispatch.Method, out eventHandler))
{
await eventHandler(messageToDispatch, messageWriter);
}
else
{
// TODO: Message not supported error
}
}
else
{
// TODO: Return message not supported
}
}
private void OnListenTaskCompleted(Task listenTask)
{
if (listenTask.IsFaulted)
{
this.OnUnhandledException(listenTask.Exception);
}
else if (listenTask.IsCompleted || listenTask.IsCanceled)
{
// TODO: Dispose of anything?
}
}
#endregion
}
}