I'm using Sockets in my Silverlight application to stream data from a server to a client.

However, I'm not quite sure how timeouts are handled in a Silverlight Socket.
In the documentation, I cannot see anything like ReceiveTimeout for Silverlight.

  • Are user-defined timeouts possible? How can I set them? How can I get notifications when a send / receive operation times out?
  • Are there default timeouts? How big are they?
  • If there are no timeouts: what's the easiest method to implement these timeouts manually?
  • Have you come to some conclusion about it? – the_drow May 9 '11 at 11:45
  • Maybe this should be a comment. Don't the answers in this question apply to the Socket class as well? – Simeon May 9 '11 at 12:36
  • @Simeon: Nope, because I'm talking about raw sockets. – the_drow May 9 '11 at 18:14
  • 1
    are we talking about client socket or server socket. I assume Client. Client framework can not have access to system objects. It is OS's kernel privilege to set up socket pools and manage them. Silverlight can not have such API. Furthermore: there can be a situation when the number of sockets is exosted. In this case OS would not be able to open a socket right away – Pavlonator May 16 '11 at 5:05

I've checked the Socket class in Reflector and there's not a single relevant setsockopt call that deals with timeouts - except in the Dispose method. Looks like Silverlight simply relies on the default timeout of the WinSock API.

The Socket class also contains a "SetSocketOption" method which is private that you might be able to call via reflection - though it is very likely that you will run into a security exception.

|improve this answer|||||
  • +1 Silverlight will indeed throw MethodInvocationException if you attempt to invoke non-public methods of any assembly, system or otherwise. – Rick Sladkey May 10 '11 at 5:52
  • @RickSladkey: Or an AccessViolationException. – the_drow May 11 '11 at 16:46

Since I couldn't find any nice solution, I solved the problem manually by creating a System.Threading.Timer with code similar to the following:

System.Threading.Timer t;
bool timeout;


// Initialization
t = new Timer((s) => {
    lock (this) {
        timeout = true;


// Before each asynchronous socket operation
t.Change(10000, System.Threading.Timeout.Infinite);


// In the callback of the asynchronous socket operations
lock (this) {
    t.Change(System.Threading.Timeout.Infinite, System.Threading.Timeout.Infinite);
    if (!timeout) {
        // Perform work

This handles also cases where a timeout occurs which is produced by simple lag, and lets the callback return immediately if the operation took too much time.

|improve this answer|||||

I solved this issue for my project sharpLightFtp like:

Created a class which is injected in the UserToken-property of an instance of System.Net.Sockets.SocketAsyncEventArgs and has an System.Threading.AutoResetEvent, which is used to receive a signal after ConnectAsync, ReceiveAsync and SendAsync with a timeout (like here: line 22 for getting a custom enhanced SocketAsyncEventArgs-instance, line 270 for creating and enhancing the SocketEventArgs-instance, line 286 for sending the signal and line 30 for waiting)

|improve this answer|||||

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.