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I have a program which creates a thread (I am using C++ Boost library for creating threads) when started. In the main program I have registered my cleanup function as.

atexit(cleanExit)
// Trap some signals for a clean exit.
signal(SIGQUIT, signalled)
signal(SIGABRT, signalled)
signal(SIGTERM, signalled)
signal(SIGINT, signalled)

static void signalled(int signal)
{
    exit(signal)
}
static void cleanExit(void)
{
     thread->interrupt();
     thread->join();
}

As you can see above during the clean exit process I interrupt the thread and then wait here (in the main process) so that the thread does its clean up stuff. When I call thread->interrupt, my thread gets interrupted and I do the thread cleanUp stuff. Till here everything is working smooth and there is no problem.

But the problem comes in when I call the cleanup function in the thread. In the cleanup function I am sending some status back to a server, for that I have created a utility function, In this utility function I am accessing a "const static string" member of the class. The problem is when I access this const static string my application got just stuck. I have checked with strace and I am getting a Seg Fault. But when I change this "const static string" to "const string" my cleanup goes smooth.

QUESTION What is the behavior of C++ "const static" once the program is terminated. Do they giveup when exit is called (which can be seen in above case) or any thoughts on this behavior.


UPDATE # 1

Here is the thread handler function. As I have mentioned above its a Boost thread.

try {
    while ( true ) {
        // Do your job here.
        // 1: We can be interrupted.
        boost::this_thread::interruption_point();
    }
}
catch (boost::thread_interrupted const& )
{
    // Before exiting we need to process all request messages in the queue
    completeAllWorkBeforeExiting();
}

When the main program calls thread->interrupt, the thread will raise thread_interrupted exception at # 1, and catching this exception I am doing my cleanup stuff.

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1 Answer 1

const does not affect when any object is destroyed.

static objects are destroyed in the order opposite to their order of creation. atexit essentially creates an anonymous static object with the given function as its destructor. That is, static object destructors and atexit callbacks occur in the order opposite their construction/registration.

It's completely unsafe to call exit from a signal handler. All the signal handler is practically allowed to do is set a flag which is later polled by the threads. As you've mentioned, the signal handler runs at interrupt time, so it might interrupt a system call. It might interrupt malloc in such a way that bypasses malloc's multithreading locks, since the reentrancy is on the same thread, not a different one as usually happens.

So that's a source of all sorts of unpredictable behavior. Without seeing more, I can't be more specific about what effect static is having, but it probably has something to do with changing the object's lifetime and/or instantiating it once per object.

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Thanks, I have provided an Update to my actual question. Considering this can you please elaborate why it is unsafe to call exit from signal handler. –  Farrukh Arshad Jan 9 '13 at 9:03
    
Potatoswatter - Re static objects are destroyed after atexit handlers run, in the order opposite to their order of creation. - That's only true if all of the atexit handlers were registered after entry into main. Things get a bit messier for functions registered with atexit from within the dynamic scope of a constructor of a static object. –  David Hammen Jan 9 '13 at 10:52
    
@FarrukhArshad - Calling exit from within the dynamic scope of a signal handler results in undefined behavior. Per C99, the only library functions that can be called from within the dynamic scope of a signal handler are _Exit and abort. –  David Hammen Jan 9 '13 at 11:23
    
@DavidHammen Oh, really I'm completely wrong. Thanks for reminding me, I'll fix the answer. –  Potatoswatter Jan 10 '13 at 0:17

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