Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

I'm investigating a problem seen on a client workstation where a, fairly large, WinForms .NET 3.5 application will occasionally stop being able to perform any type of network operation and will eventually freeze due to a network operation being performed on the main thread.

By network operation, I mean anything that requires a new network connection. The application connects to multiple Oracle databases and SOAP web services.

Inspecting a memory dump of the application shows various blocked calls to unmanaged code on different threads:

DNS lookup stuck (System.Net.UnsafeNclNativeMethods+SafeNetHandlesXPOrLater.getaddrinfo)

Open Sockets stuck (System.Net.UnsafeNclNativeMethods+OSSOCK.WSAConnect)

Close Sockets stuck (System.Net.UnsafeNclNativeMethods+SafeNetHandles.closesocket)

Open ODBC stuck (System.Data.Common.UnsafeNativeMethods.SQLDriverConnectW)

The top of the unmanaged stacks for all of the above look like this:

0a90df4c 77858cd8 ntdll!ZwWaitForSingleObject+0x15
0a90df74 73c5716f ntdll!RtlIntegerToUnicodeString+0x20b
0a90dfbc 76f45db1 siifslsp!WSPStartup+0x483f

After restarting the application, it returns to normal. This suggests to me some type of resource leak, but how can I track this down?

I checked for instances of open network connections and can see the following counts:

  • System.Net.HttpWebRequest 5 instances
  • System.Net.Sockets.Socket 11 instances
  • System.Data.Odbc.OdbcConnectionHandle 4 instances

These don't look unusually high to me.

Update 1 - Truncated Output of !FinalizeQueue

Output of !FinalizeQueue doesn't show anything unusual to me. I've limited it to anything IO related.

0:024> !FinalizeQueue
SyncBlocks to be cleaned up: 0
MTA Interfaces to be released: 0
STA Interfaces to be released: 0
generation 0 has 359 finalizable objects (41f35654->41f35bf0)
generation 1 has 0 finalizable objects (41f35654->41f35654)
generation 2 has 10697 finalizable objects (41f2af30->41f35654)
Ready for finalization 0 objects (41f35bf0->41f35bf0)
      MT    Count    TotalSize Class Name
6e612a38        1           20 System.Net.SafeLocalFree
6ea7e550        1           24 System.Net.Sockets.TcpClient
6a606c54        1           24 System.Data.Odbc.OdbcEnvironmentHandle
6e60f7f4        2           40 System.Net.SafeFreeAddrInfo
05da845c        2           40 System.Net.SafeCloseSocket+InnerSafeCloseSocket
0642c010        2           56 System.Net.SafeCloseSocketAndEvent
6e6106bc        4           96 System.Net.SafeRegistryHandle
6e6105d0        4          112 System.Net.SafeCloseSocketAndEvent
6a6069bc        4          112 System.Data.Odbc.OdbcConnectionHandle
6a6060c8        4          256 System.Data.Odbc.OdbcConnection
6e60f764       11          264 System.Net.SafeCloseSocket
6e6115cc        7          336 System.Net.Sockets.NetworkStream
66e60eeec       11          836 System.Net.Sockets.Socket

Total 11056 objects

Update 2 - Using !locks and !critsec to see where the blocks are

The output of !critsec is:

0:002> !critsec 73c7147c

CritSec siifslsp!GetLspGuid+1a0fc at 73c7147c
WaiterWoken        No
LockCount          8
RecursionCount     1
OwningThread       5f24
EntryCount         0
ContentionCount    8
*** Locked

Not sure what the 5f24 refers to. The output of !Threads doesn't show any threads with an OSID of 5f24.

share|improve this question
up vote 1 down vote accepted

I admit I don't have a clear answer, but here's some suggestions.

First, try to work out what the threads are blocking on by using the !waitlist command in WinDbg as explained in this blog post. This might throw a clue which could explain why different threads are blocking.

Here's another handy blog post which explains how to dig deeper to find what is blocking a thread.

Another source of good information might be the Event Viewer, specifically the Windows Logs -> System section. You could scan the entries here and look for any Error or Warnings and see what they say. There could be network related messages being posted there, you never know.

I will keep updating this answer as I find other potentially useful information for you.

share|improve this answer
The siifslsp was a WinSock LSP associated with an uninstalled application. Removing the WinSock LSP resolved the problem. – Iain Mar 14 '13 at 15:00
@Iain Glad you solved the problem. Did my answer help you out, I wasn't sure what a WinSock LSP is and how you found out it was associated with an uninstalled application. Sounds very deep :) – Jason Evans Mar 14 '13 at 15:15
It's a long story but your answer inspired me to dig deeper into the unmanaged code. From Update 2 in my answer I used the command lmv m siifslsp to identify the siifslsp DLL and some googling told me that the 'GetLspGuid' method was something you find on a WinSock LSP. I got the DLL and opened it up in Notepad to search for any strings that might hint to it's origin. I found the Vendor and eventually tracked down the Software that it was part of, the user recognised the software as something that he had removed from his machine recently as it was causing him problems. Case closed. – Iain Mar 14 '13 at 16:06
I don't really know the details about LSPs but I recalled years ago encountering problems on machines where a corrupt WinSock stack would stop networking from happening. Usually because an application had inserted it's own unreliable plugin (LSP?) into the WinSock stack – Iain Mar 14 '13 at 16:08

.NET will limit the number of remote connections to 2 by default.

Make sure the following property is appropriately set:

    <add address = "*" maxconnection = "24" />

Look at the following MSDN page for further information:

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

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