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When my application is ready to close the tread it created using CreateThread the following algorithm is executed:

_bCloseRequested = TRUE;
dwMsThen = ::GetTickCount();

do
{
    ::GetExitCodeThread( m_hThread, &dwExitCode );
    dwMsNow = ::GetTickCount();
}
while( (dwExitCode == STILL_ACTIVE) && ((dwMsNow - dwMsThen) < 50000UL) );

If the thread fails to close within the 5 allotted seconds, should the thread handle be closed, or allowed to remain open? Thanks.

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4 Answers 4

up vote 6 down vote accepted

First, don't wait for a thread to finish like this. You will eat up all available CPU time just waiting, which has also the disadvantage that your thread will take longer to finish!

Use something like this instead:

WaitForSingleObject(m_hThread, 50000);

That said: whether you want to leave the thread running or not depends on what the thread does. Can it even run even though your main app starts doing something else? Does it have critical stuff (files, connections, databases, ...) open that would be left open if you kill the thread? You have to consider all of this before you decide whether to kill the thread or leave it running.

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The thread is used to receive asynchronous input from the serial port. However, the thread does not own the resources used to open the serial port. The only resource the thread owns is a circular buffer that it manages for processing the received data. Once the thread is closed, the buffer is no longer needed either. –  Jim Fell Nov 19 '10 at 15:45

Just wait on the thread handle. If it takes too long, you should just timeout and terminate your app, and fix whatever bug makes the thread fail to exit.

static const DWORD TIMEOUT_VALUE(50000);

if (WaitforSingleObject(m_hThread, TIMEOUT_VALUE) != WAIT_OBJECT_0))
{
  // thread did not exit in time, log and exit process
}
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Good question.

There are a couple of approaches to this.

The first approach is what I would consider to be the ideal approach. And that is to never terminate threads. The reasons for this are multiple, but here are some biggies:

  1. If your thread owns a synchronization object, they won't be released
  2. RAII objects don't get a chance to clean up
  3. Allocated memory won't be freed
  4. If you are in the middle of certian kernel calls, you could hose your entire application

So going with this approach, you would identify the reasons why the threads are not shutting down, and fix that problem. You may find that the problems run deep. You may find deadlocks, race conditions, etc. Static analysis can help to find these problems.

The ideal approach is the one you should always persue. And in doing this, it's best not to use a spin lock. Instead, Wait() on the thread handle with a timeout. By spinning, your'e wasting resources, and stealing time slices from the thread you're waiting for.

But in the real world, in production code, you need a fallback measure in case everything else fails. You should first try multiple methods to trigger your thread to shut itself down. If everything fails as an absolute last resort, kill the thread. But because of the dangers behind killing a zombie thread, once you've done this, you should restart your entire application. When you kill a thread, you can put your process in a non-deterministic state. So start over. Log an error message, shut the app down, and start again.

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Thanks for the detailed feedback. That's definitely work keeping in mind. I have to chuckle because my primary area of expertise is in the embedded world. There, "spinning" as you call it is common practice. You do have a good point though. I'm going to try to implement WaitForSingleObject other are recommending. +1 for all the detail. –  Jim Fell Nov 19 '10 at 15:54
    
@Jim: I've never done any serious coding for embedded, but I'm suprised that spinning is so common there. I would expect that with the especially limited resources, not-spinning is even more important there than on my dual-cpu machine with 16 GB of ram. : –  John Dibling Nov 19 '10 at 15:58
    
It really depends on how the system is configured. If using an event-driven OS, then polling should be avoided as much as possible. However, most of what I've done isn't so complicated. Usually, you just spin through your main loop watching for flags to get set. –  Jim Fell Nov 19 '10 at 19:28

Neither. You should fix whatever is keeping the thread from exiting cleanly and simply join on it. Everything else is just a hack.

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I'd expand on this by saying that if the thread is not checking the _bCloseRequested variable itself, then that's the real source of the problem. Even a long running user-initiated action should be checking to see if the user has requested a shutdown in order to handle that case correctly. –  Harper Shelby Nov 19 '10 at 15:39
    
@Harper Shelby: Yes, the thread does monitor _bCloseRequested, so that it can cleanup and shut down safely. –  Jim Fell Nov 19 '10 at 15:56
1  
Personally, I think checking bool's or other variables to determine when to shut down is bad design. In an event driven system most threads should be spending most of their time waiting (on a condition variable, on a file descriptor, etc)... Hence, shutting them down should ideally involve waking them up and explicitly telling them to exit (instead of relying on them to notice themselves that it is time to exit)... Additionally, checking a variable is expensive over the life of the program because 99.999999 percent of the time, it is not time to exit. –  dicroce Nov 19 '10 at 16:47
    
That's a good point. I'll look into using an event, as you suggested. –  Jim Fell Nov 19 '10 at 19:29

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