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I have a C/C++ application architected with the following components

  1. Native C/C++ application (single-threaded message pump, typical Win32 UI app), which statically links (2)
  2. Native C/C++ Lib/DLL which dynamically loads (3) at run-time
  3. A C++/CLI DLL compiled with /clr which wraps a C# assembly (4)
  4. A C# assembly which uses TPL and has background timers, all exposed via static singleton methods

My issue is this: C# assembly spawns asynchronous I/O threads in response to calls from the parent app and uses a pair of System.Threading.Timer instances in the background.

These threads keep attaching the the native C/C++ application (1) and are causing some side-effects, such as COM initialization issues.

Here's what the output Window looks like when the C# component is running, and I can see those threads attach to the C++/CLI DLL (3) entry point when it runs.

C# threads exiting on native C/C++ application

My question is: how to I firewall these C# threads from the C/C++ application? I don't want those threads to be able to keep calling the entry point of the native code that loaded it.

So far the best work-around we've been able to come up is running all of the code that calls the C++/CLI / C# dlls (3 and 4) in their own separate Win32 thread (which works), but I would appreciate any other suggestions!

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I'm having trouble following the problem; can you try to summarize it? –  Collin Dauphinee Dec 3 '13 at 1:25
    

1 Answer 1

up vote 5 down vote accepted

This is entirely normal. Your DllMain() entrypoint gets called whenever a thread starts running. Doesn't matter who originated the thread, it happens both for threads started by native code as well as managed code. You'll get the DLL_THREAD_ATTACH notification when the thread starts running. DLL_THREAD_DETACH when it stops running again.

The intention of these callbacks is to help you setup thread-local storage. You normally entirely ignore them. You can ask Windows to not bother with it, call DisableThreadLibraryCalls() in your DLL_PROCESS_ATTACH notification handler.

This is purely meant as an optimization, not as a bug workaround. There is no conceivable scenario where these callbacks should ever cause COM problems, I doubt you truly discovered the source of your problem. Unless your DllMain() function is ignoring the fdwReason argument, that would be bad.

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