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While running a thread program and repeatedly killing the main program using Ctrl + C, i see unexpected results in the program in second run. However, if i let the program run and voluntarily exit, there are no issues.

So, my doubt is, does Ctrl + C, kill threads also along with the main process?

Thanks in advance.

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up vote 2 down vote accepted

Well, the only thing that Ctrl + C does is sending SIGINT to one thread in the process that is not masking the signal. Signals can be handled or ignored.

If the program does handle Ctrl+C, the usual behavior is self-termination, but once again, it could be used for anything else.

In your case, SIGINT is being received by one thread, which probably does kill itself, but does not kill the others.

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@Heandel: Any key combination you know to kill the process + threads? – kingsmasher1 Apr 29 '11 at 7:48
@Heandel: That i know, and in fact i think all Linux users :) I was interested to know key combinations. – kingsmasher1 Apr 29 '11 at 7:54
@Heandel: Thank You, do u have any web links corresponding to this? If yes, it will be very useful not only for me but for all users. – kingsmasher1 Apr 29 '11 at 8:03
Note that the default action for SIGINT is to terminate the entire process, not just one thread. – caf Apr 29 '11 at 9:28
This answer is completely wrong. As caf pointed out, the default action for SIGINT is to kill the process. There is no such thing as killing one thread. If any thread receives a signal for which the action is to kill the process, then the whole process dies. If you don't want this, you can install a handler for the signal (except for SIGKILL). – R.. Apr 29 '11 at 15:04

In multithreaded programming, signals are delivered to a single thread (usually chosen unpredictably among the threads that don't have that particular signal blocked). However, this does not mean that a signal whose default action is to kill the process only terminates one thread. In fact, there is no way to kill a single thread without killing the whole process.

As long as you leave SIGINT with its default action of terminating the process, it will do so as long as at least one thread leaves SIGINT unblocked. It doesn't matter which thread has it unblocked as long as at least one does, so library code creating threads behind the application's back should always block all signals before calling pthread_create and restore the signal mask in the calling thread afterwards.

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Thanks "R" it was useful. – kingsmasher1 Apr 30 '11 at 14:34

Under Linux 2.6 using NPTL threads: I am assuming that the process uses the default signal handler, or calls exit() in it: Yes it does. The C library exit() call maps to the exit_group system call which exits all the threads immediately; the default signal handler calls this or something similar.

Under Linux 2.4 using Linuxthreads (or using 2.6 if your app still uses Linuxthreads for some weird reason): Not necessarily.

The Linuxthreads library implements threads using clone(), creating a new process which happens to share its address-space with the parent. This does not necessarily die when the parent dies. To fix this, there is a "master thread" which pthreads creates. This master thread does various things, one of them is to try to ensure that all the threads get killed when the process exits (for whatever reason).

  1. It does not necessarily succeed
  2. If it does succeed, it is not necessarily immediate, particularly if there are a large number of threads.

So if you're using Linuxthreads, possibly not.

The other threads might not exit immediately, or indeed at all.

However, no matter what thread library you use, forked child processes will continue (they might receive the signal if they are still in the same process-group, but can freely ignore it)

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Thanks for your answer, it was useful info. – kingsmasher1 Apr 30 '11 at 14:35

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