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Azure app service websocket buffer buffer size limits?

I have run into a problem where my websocket connection is functioning as expected locally, but not when deployed to azure app service. (.NET Core 3.0)
I am able to receive messages of any size locally, but the messages cap out at 4088 byte when deploying to azure.
Code example:
await Receive(socket, async (result, buffer) =>
{
Console.WriteLine("Message size: " + result.Count);
message = Encoding.UTF8.GetString(buffer, 0, result.Count);
});
private async Task Receive(WebSocket socket, Action<WebSocketReceiveResult, byte[]> handleMessage)
{
try
{
var buffer = new byte[1024 * 16];
while (socket.State == WebSocketState.Open)
{
WebSocketReceiveResult result = null;
using (var cts = new CancellationTokenSource(1200000))
{
result = await socket.ReceiveAsync(
buffer: new ArraySegment<byte>(buffer),
cancellationToken: cts.Token
);
}
handleMessage(result, buffer);
}
}
catch (Exception ex)
{
Log.Error(ex, "Exception occured when receiving message async");
}
}
Is there any kind of limit that can be changed in the app service?
I have already tried to set up a remote client sending messages both to azure app service and my local environment. This is only an issue with azure app service.

Fixed with:
private async Task Receive(WebSocket webSocket, Action<string> handleMessage)
{
try
{
while (webSocket.State == WebSocketState.Open)
{
var compoundBuffer = new List<byte>();
WebSocketReceiveResult messageReceiveResult = null;
byte[] buffer = new byte[4 * 1024];
do
{
using (var cts = new CancellationTokenSource(1200000))
{
messageReceiveResult = await webSocket.ReceiveAsync(
new ArraySegment<byte>(buffer),
cts.Token
);
}
if (messageReceiveResult.MessageType == WebSocketMessageType.Text)
{
byte[] readBytes = new byte[messageReceiveResult.Count];
Array.Copy(buffer, readBytes, messageReceiveResult.Count);
compoundBuffer.AddRange(readBytes);
}
} while (!messageReceiveResult.EndOfMessage);
string message = Encoding.UTF8.GetString(compoundBuffer.ToArray());
handleMessage(message);
}
}
catch (Exception ex)
{
Log.Error(ex, "Exception occured when receiving message async");
}
}

How to handle the close handshake c#

i developed a guessing game in c# using websockets and https calls. Each time the user is creating an instance of the console application to play, it connects with the server. (await webSocket.ConnectAsync(new Uri("ws://localhost:xxx"), CancellationToken.None);).
I have a websocketmiddlewear class to accept the websocket reqeust and a manager class where i handle the websockets requests. Everything works fine except when the user exit the console game. For example when i press "x" from the console (cmd) i get the following error
The remote party closed the WebSocket connection without completing
the close handshake.
on the following line
WebSocketReceiveResult result = await socket.ReceiveAsync(new ArraySegment<byte>(buffer), CancellationToken.None);
Why the code is not handling the error and how i can fix it?
ConnectionManagerService.cs
public async Task Receive(WebSocket socket)
{
var buffer = new byte[1024 * 4];
while (socket.State == WebSocketState.Open)
{
WebSocketReceiveResult result = await socket.ReceiveAsync(new ArraySegment<byte>(buffer), CancellationToken.None);
if (result.MessageType == WebSocketMessageType.Text)
{
Console.WriteLine($"Receive->Text");
return;
}
else if (result.MessageType == WebSocketMessageType.Close)
{
string id = _sockets.FirstOrDefault(s => s.Value == socket).Key;
//Console.WriteLine($"Receive->Close on: " + id);
_sockets.TryRemove(id, out socket);
Console.WriteLine("Managed Connections: " + _sockets.Count.ToString());
await socket.CloseOutputAsync(result.CloseStatus.Value, result.CloseStatusDescription, CancellationToken.None);
return;
}
}
}
WebsocketMiddleware.cs
}
public async Task Invoke(HttpContext context)
{
var isSocketRequest = context.WebSockets.IsWebSocketRequest;
if (isSocketRequest)
{
WebSocket socket = await context.WebSockets.AcceptWebSocketAsync();
_manager.AddSocket(socket);
await _manager.Receive(socket);
}
else
{
await _next(context);
}
}

It happens because you are treating only the graceful connection disconnect.The client might just disconnect and you will get big ol SocketIO Exception in the middle of a read/write operation.
Consider wrapping your Socket operation(s) in a try-catch and deal with them as you please.
public async Task Receive(WebSocket socket)
{
var buffer = new byte[1024 * 4];
try{
while (true)
{
WebSocketReceiveResult result = await socket.ReceiveAsync(new ArraySegment<byte>(buffer), CancellationToken.None);
if (result.MessageType == WebSocketMessageType.Text)
{
Console.WriteLine($"Receive->Text");
return;
}
else if (result.MessageType == WebSocketMessageType.Close)
{
string id = _sockets.FirstOrDefault(s => s.Value == socket).Key;
//Console.WriteLine($"Receive->Close on: " + id);
_sockets.TryRemove(id, out socket);
Console.WriteLine("Managed Connections: " + _sockets.Count.ToString());
await socket.CloseOutputAsync(result.CloseStatus.Value, result.CloseStatusDescription, CancellationToken.None);
return;
}
}
} catch(Exception ex){ //not so graceful disconnect
_sockets.TryRemove(id, out socket);
//deal with closed connection
//maybe reconnect ?
}
}

HTTPS proxy implementation, how to detect a completed request

I'm attempting to write a simple async https proxy server in c#.
I would like to know how I should detect/handle when the request is complete, and how to exit my bActive loop, assuming a loop like this is appropriate.
Would really appreciate some pointers on if my approach is correct and what I could do to improve the logic.
The issue I seem to be running into is that the time it takes for an endpoint to respond along with the network delay means I DataAvailable doenst always have data but there may still be some sending. Requiring a sleep and another attmempt which in turn causes the long completion time in requests.
Listen for TCP connection
Extract CONNECT header and open a connection to the requested server
Copy the requestStream to proxyStream
Copy the proxyStream to the requestStream
Sleep waiting for data and repeat 3 - 4 until no data is avaiable on both streams. Then break out of the loop and close connection.
public async Task Start()
{
listener.Start();
while (listen)
{
if (listener.Pending())
{
HandleClient(await listener.AcceptTcpClientAsync());
}
else
{
await Task.Delay(100); //<--- timeout
}
}
}
private static async Task HandleClient(TcpClient clt)
{
var bytes = new byte[clt.ReceiveBufferSize];
var hostHeaderAvailable = 0;
NetworkStream requestStream = null;
int count;
const string connectText = "connect";
const string hostText = "Host: ";
bool bActive = true;
List<Task> tasks = new List<Task>();
try
{
using (NetworkStream proxyStream = clt.GetStream())
using (TcpClient requestClient = new TcpClient())
{
proxyStream.ReadTimeout = 100;
proxyStream.WriteTimeout = 100;
while (bActive)
{
if (proxyStream.DataAvailable && hostHeaderAvailable == 0)
{
count = await proxyStream.ReadAsync(bytes, 0, bytes.Length);
var text = Encoding.UTF8.GetString(bytes);
Console.WriteLine(text);
if (text.ToLower().StartsWith(connectText))
{
// extract the url and port
var host = text.Remove(0, connectText.Length + 1);
var hostIndex = host.IndexOf(" ", StringComparison.Ordinal);
var hostEntry = host.Remove(hostIndex).Split(new[] { ":" }, StringSplitOptions.None);
// connect to the url and prot supplied
await requestClient.ConnectAsync(hostEntry[0], Convert.ToInt32(hostEntry[1]));
requestStream = requestClient.GetStream();
requestStream.ReadTimeout = 100;
requestStream.WriteTimeout = 100;
// send 200 response to proxyStream
const string sslResponse = "HTTP/1.0 200 Connection established\r\n\r\n";
var sslResponseBytes = Encoding.UTF8.GetBytes(sslResponse);
await proxyStream.WriteAsync(sslResponseBytes, 0, sslResponseBytes.Length);
// delay here seems to prevent the following proxyStream.read from failing as data is not yet avaiable
// without it the loop runs and has to timeout before running again
await Task.Delay(1);
}
}
hostHeaderAvailable++;
if (requestStream == null || !requestClient.Connected || !clt.Connected)
{
bActive = false;
break;
}
Console.WriteLine(proxyStream.DataAvailable || requestStream.DataAvailable);
if (proxyStream.DataAvailable || requestStream.DataAvailable)
{
Task task = proxyStream.CopyToAsync(requestStream);
Task task2 = requestStream.CopyToAsync(proxyStream);
tasks.Add(task);
tasks.Add(task2);
await Task.WhenAll(tasks).ConfigureAwait(false);
bActive = false;
break;
}
await Task.Delay(10);
}
}
}
catch (Exception e)
{
Console.WriteLine(e.ToString());
}
clt.Close();
}
An older attempt that used ReadAsync/WriteAsync too longer to response and still had the timeout issue.
Listen for TCP connection
Extract CONNECT header and open a connection to the requested server
Read data from requestStream and copy to proxyStream
Wait checking if data is avaiable on either stream
If data avaiable read from proxyStream and write to requestStream
If data avaiable read from requestStream and write to proxyStream
Sleep waiting for data and repeat 5 - 6 until no data is avaiable on eitboth streams. Then break out of the loop and close connection.
private static TcpListener listener = new TcpListener(IPAddress.Parse("192.168.0.25"), 13000);
private static bool listen = true;
public async Task Start()
{
listener.Start();
while (listen)
{
if (listener.Pending())
{
await HandleClient(await listener.AcceptTcpClientAsync());
}
else
{
await Task.Delay(100);
}
}
}
private static async Task HandleClient(TcpClient clt)
{
var bytes = new byte[clt.ReceiveBufferSize];
var hostHeaderAvailable = 0;
NetworkStream requestStream = null;
int count;
const string connectText = "connect";
const string hostText = "Host: ";
bool bActive = true;
try
{
using (NetworkStream proxyStream = clt.GetStream())
using (TcpClient requestClient = new TcpClient())
{
while (bActive)
{
while (proxyStream.DataAvailable)
{
// handle connect
if (hostHeaderAvailable == 0)
{
count = await proxyStream.ReadAsync(bytes, 0, bytes.Length);
var text = Encoding.UTF8.GetString(bytes);
Console.WriteLine(text);
if (text.ToLower().StartsWith(connectText))
{
// extract the url and port
var host = text.Remove(0, connectText.Length + 1);
var hostIndex = host.IndexOf(" ", StringComparison.Ordinal);
var hostEntry = host.Remove(hostIndex).Split(new[] { ":" }, StringSplitOptions.None);
// connect to the url and prot supplied
await requestClient.ConnectAsync(hostEntry[0], Convert.ToInt32(hostEntry[1]));
requestStream = requestClient.GetStream();
// send 200 response to proxyStream
const string sslResponse = "HTTP/1.0 200 Connection established\r\n\r\n";
var sslResponseBytes = Encoding.UTF8.GetBytes(sslResponse);
await proxyStream.WriteAsync(sslResponseBytes, 0, sslResponseBytes.Length);
// delay here seems to prevent the following proxyStream.read from failing as data is not yet avaiable
// without it the loop runs and has to timeout before running again
await Task.Delay(20);
}
}
hostHeaderAvailable++;
if (requestClient.Connected && hostHeaderAvailable > 1)
{
count = await proxyStream.ReadAsync(bytes, 0, bytes.Length);
await requestStream.WriteAsync(bytes, 0, count);
}
}
while (requestStream.DataAvailable)
{
count = await requestStream.ReadAsync(bytes, 0, bytes.Length);
await proxyStream.WriteAsync(bytes, 0, count);
}
// attempt to detect a timeout / end of data avaiable
var timeout = 0;
while (!proxyStream.DataAvailable && !requestStream.DataAvailable)
{
if (timeout > 5)
{
bActive = false;
break;
}
await Task.Delay(10);
timeout++;
}
}
}
}
catch (Exception e)
{
Console.WriteLine(e.ToString());
}
}
UPDATE
As per AgentFire's answer I have now come to the following working code:
public static async Task HandleDisconnect(TcpClient tcp, TcpClient tcp2, CancellationToken cancellationToken)
{
while (true)
{
if (tcp.Client.Poll(0, SelectMode.SelectRead))
{
byte[] buff = new byte[1];
if (tcp.Client.Receive(buff, SocketFlags.Peek) == 0)
{
// Client disconnected
Console.WriteLine("The requesting client has dropped its connection.");
cancellationToken = new CancellationToken(true);
break;
}
}
if (tcp2.Client.Poll(0, SelectMode.SelectRead))
{
byte[] buff = new byte[1];
if (tcp2.Client.Receive(buff, SocketFlags.Peek) == 0)
{
// Server disconnected
Console.WriteLine("The destination client has dropped its connection.");
cancellationToken = new CancellationToken(true);
break;
}
}
await Task.Delay(1);
}
}
private static async Task HandleClient(TcpClient clt)
{
List<Task> tasks = new List<Task>();
var bytes = new byte[clt.ReceiveBufferSize];
var hostHeaderAvailable = 0;
NetworkStream requestStream = null;
const string connectText = "connect";
try
{
using (NetworkStream proxyStream = clt.GetStream())
using (TcpClient requestClient = new TcpClient())
{
proxyStream.ReadTimeout = 100;
proxyStream.WriteTimeout = 100;
if (proxyStream.DataAvailable && hostHeaderAvailable == 0)
{
await proxyStream.ReadAsync(bytes, 0, bytes.Length);
var text = Encoding.UTF8.GetString(bytes);
Console.WriteLine(text);
if (text.ToLower().StartsWith(connectText))
{
// extract the url and port
var host = text.Remove(0, connectText.Length + 1);
var hostIndex = host.IndexOf(" ", StringComparison.Ordinal);
var hostEntry = host.Remove(hostIndex).Split(new[] { ":" }, StringSplitOptions.None);
// connect to the url and prot supplied
await requestClient.ConnectAsync(hostEntry[0], Convert.ToInt32(hostEntry[1]));
requestStream = requestClient.GetStream();
requestStream.ReadTimeout = 100;
requestStream.WriteTimeout = 100;
// send 200 response to proxyStream
const string sslResponse = "HTTP/1.0 200 Connection established\r\n\r\n";
var sslResponseBytes = Encoding.UTF8.GetBytes(sslResponse);
await proxyStream.WriteAsync(sslResponseBytes, 0, sslResponseBytes.Length);
}
}
hostHeaderAvailable++;
CancellationToken cancellationToken = new CancellationToken(false);
Task task = proxyStream.CopyToAsync(requestStream, cancellationToken);
Task task2 = requestStream.CopyToAsync(proxyStream, cancellationToken);
Task handleConnection = HandleDisconnect(clt, requestClient, cancellationToken);
tasks.Add(task);
tasks.Add(task2);
tasks.Add(handleConnection);
await Task.WhenAll(tasks).ConfigureAwait(false);
// close conenctions
clt.Close();
clt.Dispose();
requestClient.Close();
requestClient.Dispose();
}
}
catch (Exception e)
{
Console.WriteLine(e.ToString());
}
}
UPDATE
Attempt at using CancellationTokenSource
CancellationTokenSource source = new CancellationTokenSource();
CancellationToken cancellationToken = source.Token;
TaskFactory factory = new TaskFactory(cancellationToken);
tasks.Add(factory.StartNew(() => {proxyStream.CopyToAsync(requestStream);}, cancellationToken));
tasks.Add(factory.StartNew(() => {requestStream.CopyToAsync(proxyStream);}, cancellationToken));
tasks.Add(factory.StartNew(async () => {
//wait for this to retur, then cancel the token
await HandleDisconnect(clt, requestClient);
source.Cancel();
}, cancellationToken));
try
{
await factory.ContinueWhenAll(tasks.ToArray(),
(results) =>
{
Console.WriteLine("Tasks complete");
}, cancellationToken);
}
catch (AggregateException ae)
{
foreach (Exception e in ae.InnerExceptions)
{
if (e is TaskCanceledException)
Console.WriteLine("Unable to compute mean: {0}",
((TaskCanceledException)e).Message);
else
Console.WriteLine("Exception: " + e.GetType().Name);
}
}
finally
{
source.Dispose();
}
UPDATE
public static class extensionTcpClient{
public static bool CheckIfDisconnected(this TcpClient tcp)
{
if (tcp.Client.Poll(0, SelectMode.SelectRead))
{
byte[] buff = new byte[1];
if (tcp.Client.Receive(buff, SocketFlags.Peek) == 0)
{
// Client disconnected
return false;
}
}
return true;
}
}
class ProxyMaintainer
{
private static TcpListener listener = new TcpListener(IPAddress.Parse("192.168.0.25"), 13000);
public ProxyMaintainer()
{
}
public async Task Start()
{
Console.WriteLine("###############################");
Console.WriteLine("Listening on 192.168.0.25:13000");
Console.WriteLine("###############################\n");
listener.Start();
while (listen)
{
if (listener.Pending())
{
HandleClient(await listener.AcceptTcpClientAsync());
}
else
{
await Task.Delay(100); //<--- timeout
}
}
}
private static async Task Transport(NetworkStream from, NetworkStream to, Func<bool> isAlivePoller, CancellationToken token)
{
byte[] buffer = new byte[4096];
while (isAlivePoller())
{
while (from.DataAvailable)
{
int read = await from.ReadAsync(buffer, 0, buffer.Length, token).ConfigureAwait(false);
await to.WriteAsync(buffer, 0, read, token);
}
// Relieve the CPU a bit.
await Task.Delay(10, token).ConfigureAwait(false);
}
}
private static async Task HandleClient(TcpClient clientFrom)
{
var hostHeaderAvailable = 0;
int count;
var bytes = new byte[clientFrom.ReceiveBufferSize];
const string connectText = "connect";
NetworkStream toStream = null;
using (var fromStream = clientFrom.GetStream())
using(TcpClient clientTo = new TcpClient())
using (var manualStopper = new CancellationTokenSource())
{
count = await fromStream.ReadAsync(bytes, 0, bytes.Length);
var text = Encoding.UTF8.GetString(bytes);
Console.WriteLine(text);
if (text.ToLower().StartsWith(connectText))
{
// extract the url and port
var host = text.Remove(0, connectText.Length + 1);
var hostIndex = host.IndexOf(" ", StringComparison.Ordinal);
var hostEntry = host.Remove(hostIndex).Split(new[] { ":" }, StringSplitOptions.None);
// connect to the url and prot supplied
await clientTo.ConnectAsync(hostEntry[0], Convert.ToInt32(hostEntry[1]));
toStream = clientTo.GetStream();
// send 200 response to proxyStream
const string sslResponse = "HTTP/1.0 200 Connection established\r\n\r\n";
var sslResponseBytes = Encoding.UTF8.GetBytes(sslResponse);
await fromStream.WriteAsync(sslResponseBytes, 0, sslResponseBytes.Length);
}
bool Poller() => clientFrom.CheckIfDisconnected() && clientTo.CheckIfDisconnected();
Task one = Transport(fromStream, toStream, Poller, manualStopper.Token);
Task two = Transport(toStream, fromStream, Poller, manualStopper.Token);
await Task.WhenAll(one, two).ConfigureAwait(false);
//await one; await two; // To get exceptions if you want them and there are any.
// Alternatively, you can use Task.WhenAll to get exceptions aggregated for you.
}
Console.WriteLine("Closing connection");
}
}

Well, tell you what. The data availability, when it comes to HTTP, lies only in one parameter (if we omit things like WebSocket), which is called Connection and is passed as a Header as a one of two possible states: Close or Keep-Alive.
If Close is chosen by the client, the server is obliged to close the conection as soon as the request is served, whereas Keep-Alive tells the server that, if it doesn't want to, it may leave connection open for another request.
Let's consider both cases.
If client chooses Keep-Alive, the connection will persist and work as intended, indefinetely. But:
If either side drops the connection, there is an easy way to detect that. This piece of code was found on StackOverflow and it was told that it still works perfectly:
public static bool CheckIfDisconnected(this TcpClient tcp)
{
if (tcp.Client.Poll(0, SelectMode.SelectRead))
{
byte[] buff = new byte[1];
if (tcp.Client.Receive(buff, SocketFlags.Peek) == 0)
{
// Client disconnected
return true;
}
}
return false;
}
So I believe that you, as a proxy-server, are not obliged to manage connection states at all and can leave it to the actual communication parties. All you have to do is to detect when either of your connections - proxy or request - is dropped, drop the other one and call it a day.
P.S. Now, you also asked about asynchronicity.
I must add that TCP connections are considered full-duplex. which means you are free to create two async-running tasks, both reading and writing to their own sinks. My thoughts, it would be the optimal course of action.

To answer your other question
You are still using Stream.CopyToAsync which, as I have told you, is not going to succeed as long as any communicating party decides to wait a bit before sending another chunk of data.
You are also somewhat overcomplicating your solution.
I would put it this way:
async Task Transport(NetworkStream from, NetworkStream to, Func<bool> isAlivePoller, CancellationToken token)
{
byte[] buffer = new byte[4096];
while (isAlivePoller())
{
while (from.DataAvailable)
{
int read = await from.ReadAsync(buffer, 0, buffer.Length, token).ConfigureAwait(false);
await to.WriteAsync(buffer, 0, read, token).ConfigureAwait(false);
}
// Relieve the CPU a bit.
await Task.Delay(100, token).ConfigureAwait(false);
}
}
And then in your main code:
using TcpClient clientFrom = ...;
using TcpClient clientTo = ...;
using var fromStream = clientFrom.GetStream();
using var toStream = clientTo.GetStream();
using var manualStopper = new CancellationTokenSource();
bool Poller() => clientFrom.CheckIfDisconnected() && clientTo.CheckIfDisconnected();
Task one = Transport(fromStream, toStream, Poller, stopper.Token);
Task two = Transport(toStream, fromStream, Poller, stopper.Token);
await Task.WhenAny(one, two).ConfigureAwait(false);
//await one; await two; // To get exceptions if you want them and there are any.
// Alternatively, you can use Task.WhenAll to get exceptions aggregated for you.
And you are pretty much done here.

How can create secure web socket server (Wss) in C#?

How can i create secure web socket server (WSS). ??
Currently the web socket server implemented over HTTPListener.
The data communication between server and client should be secure. How can i implement the secure communication ?
Sample code as follows:
class WebsocketServer
{
public async void Start(string httpListenerPrefix)
{
HttpListener httpListener = new HttpListener();
httpListener.Prefixes.Add(httpListenerPrefix);
httpListener.Start();
while (true)
{
HttpListenerContext httpListenerContext = await httpListener.GetContextAsync();
if (httpListenerContext.Request.IsWebSocketRequest)
{
ProcessRequest(httpListenerContext);
}
else
{
httpListenerContext.Response.StatusCode = 400;
httpListenerContext.Response.Close();
}
}
}
private async void ProcessRequest(HttpListenerContext httpListenerContext)
{
WebSocketContext webSocketContext = null;
webSocketContext = await httpListenerContext.AcceptWebSocketAsync(subProtocol: null);
WebSocket webSocket = webSocketContext.WebSocket;
byte[] receiveBuffer = new byte[1024];
while (webSocket.State == WebSocketState.Open)
{
WebSocketReceiveResult receiveResult = await webSocket.ReceiveAsync(new ArraySegment<byte>(receiveBuffer), CancellationToken.None);
if (receiveResult.MessageType == WebSocketMessageType.Close)
await webSocket.CloseAsync(WebSocketCloseStatus.NormalClosure, "", CancellationToken.None);
else
{
await webSocket.SendAsync(new ArraySegment<byte>(receiveBuffer, 0, receiveResult.Count), WebSocketMessageType.Binary, receiveResult.EndOfMessage, CancellationToken.None);
}
}
}
}

How to listen properly with HttpListener

I've been writing a server for an app of mine. Due to suggestions, I decided to use HttpListener to listen for incoming connections in an async method. My current code is as following:
public static async void StartServerAsync()
{
while (true)
{
Console.WriteLine("Waiting for client.. ");
var context = await listener.GetContextAsync();
Console.WriteLine("Client connected!");
// ReSharper disable once CSharpWarnings::CS4014
Task.Factory.StartNew(() => ProcessClient(context));
}
listener.Close();
}
This method is started with this:
public static void ServerBoot()
{
listener.Prefixes.Add("http://localhost:1000/");
listener.Start();
StartServerAsync();
}
The ProcessClient() method is as following:
private static void ProcessClient(HttpListenerContext context)
{
try
{
var request = context.Request;
string response;
using (var reader = new StreamReader(request.InputStream, request.ContentEncoding))
{
response = reader.ReadToEnd();
}
Console.WriteLine("Got command: {0}", response);
}
catch (WebException)
{
Console.WriteLine("Error reading string, closing..");
return;
}
}
Right now it's only supposed to get the string posted. However, when I run the client with this code:
Console.WriteLine(" -- Bagrut Client -- ");
Console.Write("Enter IP of server to connect to: ");
// ReSharper disable once AssignNullToNotNullAttribute
var ip = Console.ReadLine();
WebClient client = new WebClient();
var response = client.UploadString(ip, "query");
Console.WriteLine("Type of response is {0}", response);
the server does not do anything. As you can see in ProcessClient(), and in the server loop itself, it should at least say something when a client connects. However, when the code is run, nothing happens. Am I doing something wrong?
EDIT: new code:
public static void ServerBoot()
{
HttpListener listener = new HttpListener();
listener.Prefixes.Add("http://localhost:1337/");
listener.Start();
StartServerAsync(listener).ContinueWith(task => { });
}
private static void ProcessClient(HttpListenerContext context)
{
try
{
var request = context.Request;
string response;
using (var reader = new StreamReader(request.InputStream, request.ContentEncoding))
{
response = reader.ReadToEnd();
}
Console.WriteLine("Got command: {0}", response);
}
catch (WebException)
{
Console.WriteLine("Error reading string, closing..");
return;
}
}
private static async Task StartServerAsync(HttpListener listener)
{
while (true)
{
Console.WriteLine("Waiting for client.. ");
var context = await listener.GetContextAsync();
Console.WriteLine("Client connected!");
// ReSharper disable once CSharpWarnings::CS4014
Task.Factory.StartNew(() => StartServerAsync(listener));
ProcessClient(context);
await StartServerAsync(listener);
}
listener.Close();
}