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Helloes good people of Stack Overflow,
I have a .NET client-server application running with a few hundred of clients. The project was migrated from VB6 to .NET about a year ago and it's a platform for card/board games. Although I'll be trying to give as much detail as I can below, the problem is getting a channel frozen when there are 40-70 players inside.


1. Server (.NET 4.0)

  • Divided into three projects: ServerNET, Listener, Channel
  • Listener acts like a login server where clients connect first. It is responsible for checking stuff like version and account info. Also lets the client choose which channel to connect. It's basicly a TCPListener in a do-while, listening anyone trying to connect forever. It is not the reason why both sides get frozen.
  • Channel represents a single port, clients get connected to Channels after they are done with Listener. Much like a space shuttle, this is the main part. Similar to a MIRC channel, it binds all users inside, most of the data is sent to people within the same channel like chat and the games you can join created by other players, hosted by server. This is a console application and serves as a hub for players. Player info is held in "Client" class which includes a TCPClient and some other properties. Each client runs with a thread and makes async calls which are handled by the server. Also these "Client" objects are held in a collection class named "ClientCollection". Channel gets frozen when there are roughly 40-70 players inside. There is a maximum limit of 100 players permitted per channel.
  • ServerNET is the body and does all other general stuff related by the whole system, not channel spesific. This is a form-application and runs stuff like server options.

2. Client (.NET 2.0)

  • Runs with TCPClient, mostly single thread whereas server is multi-thread.
  • Must use .NET 2.0.
  • Mostly consisting of visuals and other non-important stuff.

When there are 40+ clients connected to a single channel, it starts to get frozen totally randomly (or that's what we have right now, got no evidance or enough datas to point out what's totally wrong). We really don't think network traffic is the issue (not quite sure yet) since we have tried it on different server machines with various setups. All the server machines we have used are capable of handling that much of process hardware-wise. So it is about the approach and what's going on code side.

The reason why we are struggling to address the issue is we are not exactly sure what could be causing it. Please check out the following example:
System A has 55 people online in their Channel #1 and it doesn't get frozen anyhow. System A uses A1 IP and the channel is on 16xxx port.
System B has 25 people online in their Channel #4 and it gets frozen like one or two minutes randomly. System B uses B1 IP and 18xxx for the channel port. It's on the same machine with System A which doesn't get frozen.

As a conclusion, it looks irrelevant with the number of online people but it occurs more often when numbers rise.

We tried rolling an Application.DoEvents() in an endless do-loop in Channel project thinking that some X process causing the channel to go frozen state for a few minutes, thus resulting a pause in channel. Then it performs every action which was queued while it was frozen, in a few seconds. CPU usage is averagely between 7%-20% per channel, it looks like it is getting better. However it was no permanant and effective solution.

Things we suspect:

  • ClientCollection that holds players and TCPClients is inherited from CollectionBase. Maybe this is causing some chaos during sync'ing. This used to be an array back in the day and we were having less of these problems. Maybe it shouldn't be inherited from CollectionBase, but something else?
  • We are using SyncLock (lock in C#) to sync ClientCollection. (although we had this problem before we started using locks)

Server info
Intel Xeon X3460 2.80GHz
64-bit Windows Server 2008 Enterprise

I know it is impossible to address the issue without seeing the whole code, but I regret that I'm unable to post the codes. Instead I'm looking for an idea to put me into some direction. However we are happy to share any other info for resolving this problem.

Thanks to everyone helping!

share|improve this question
Sounds like some kind of race condition which is impossible to solve without some code. – ntziolis Feb 28 '11 at 14:22
up vote 2 down vote accepted

We had a very similar problem on a very similar app (ours pushed out stats to ~1300 users).

My best guess is that on your TCPClient, you have an infinite timeout set. This is, unfortunately, the default behavior. So, when TCPClient blocks on a read, it sometimes gets completely frozen.

Set the timeout to 30 seconds (or something more suitable to your situation).

TcpClient newClient = incoming.AcceptTcpClient();
newClient.NoDelay = true;  // Send & receive immediately, even when the buffers aren't full
newClient.ReceiveTimeout = 30000;
newClient.SendTimeout = 30000;
share|improve this answer
Will run a test with those props set and let you know (hopefully today). Thank you for the suggestion. – Mithgroth Feb 28 '11 at 14:54
We have released a test with NoDelay set to true with Timeouts set suitable (like 15-20 seconds). Also would like to correct that Timeout props are set in miliseconds, not seconds. The test is on about 5 hours now and it hasn't been frozen yet. However will need to wait more and get more users connected (Tested with 45ish, it used to be frozen by that much which is a good sign). – Mithgroth Mar 1 '11 at 16:44
@Mithgroth: Great to hear! If this answer helps you, please up-vote it (th up arrow). If it turns out that it was the soultion, please accept it (the check mark). – John Gietzen Mar 2 '11 at 13:50
We have been testing it for a couple of days, no reports about getting it frozen. Although still not sure yet your solution makes sense, but I'm still having trouble to understand how it got better only by setting three props :) Also I'd like to ask your further opinion about these kind of optimizations on TCPListener and TCPClient objects, or any other. We managed to hit 70ish in a single channel and the result was completely satisfying. Thank you! (ps: I'll vote up when I got 15+ rep, slacking atm with this new account :p) – Mithgroth Mar 3 '11 at 11:26

is it possible to take a full proces hang dump when the system is frozen ? then you can see what each thread was doing to better understand why.

  • to take a hang dump you need download Windwos Deugging Tools,comes with the .net 4.0 SDK
  • and run the AdPlus.vbs with the -Hang flag and process id.
  • the in winDbg run the ~*e !clrstack command to get all of the call stacks
share|improve this answer
Downloading, will post results. – Mithgroth Feb 28 '11 at 14:46
since this is a hang situation, taking 2 ,3 dumps one after another a few seconds apart, will give us a better view of what thread is still in the same place. – Menahem Feb 28 '11 at 14:53
I got the hang dump file and even managed to run it with VS. I was able to check out threads but everything else was running on Assembly without any call stacks. Then I run winDbg, hit File->Open->Crash Dump with ~*e !clrstack command, I get the following: "0:000> ~*e !clrstack No export clrstack found" – Mithgroth Feb 28 '11 at 17:28 here's the screenshot about the windbg dump error – Mithgroth Feb 28 '11 at 18:08
my apologies, you need to load the SOS extention first, heres how: .loadby sos mscorwks (note the dot before the loadby command) – Menahem Mar 1 '11 at 8:11

For me, using synchronous sockets is a big no no in server applications. Do not use one thread per connected client. Do not use TcpClient.Read/TcpClient.Send.

Read about the BeginRead/EndRead + BeginSend/EndSend methods. They scale a lot better than using threads and synchronous methods.


Reading asynchronously doesn't mean that you cannot handle the read command synchronously. The reason to read async is to be able to get a complete command without having to use your own thread for each client.

Do something like this for reading:

  1. BeginRead
  2. In OnRead (the BeginRead callback). call EndRead
  3. 0 bytes = disconnect
  4. Append received data to the buffer (do not use a string as buffer if your commands are strings, use StringBuilder)
  5. Check if the buffer contains a complete package.
  6. Invoke your method/event/delegate that processes complete packages
  7. Invoke BeginRead

As you see, handling can still be synchronous and you do not have to create a new thread per client. AFAIK, .Net uses IO Completion ports for their socket IO operations which scales really well.

Using BeginSend/EndSend isn't really necessary when starting with sockets, since you usually just fire and forget when sending. It's the read thread per client that really hurts performance.

share|improve this answer
Thank you for your answer. What I'd like to ask is; in my application there are many commands that assume the command before it has already been read. Will reading and sending them asynchronously using BeginRead/EndRead + BeginSend/EndSend cause inconsistancy and chaos for the command order? Also, "Do not use one thread per connected client.". Why shouldn't I? Also how should I be dealing with them? – Mithgroth Mar 1 '11 at 16:39
updated my answer. – jgauffin Mar 1 '11 at 18:18

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