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I'm migrating a multi threaded application from HP-UX to Solaris and so far, everything is OK except for one thing! The application has a thread that is handling the signals and, when some of them are received, it runs some cleaning (logging, kill child processes and so on).

I've reduced the code as much as it was possible to make a somehow simple example showing the problem:

#include <pthread.h>
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <unistd.h>
#include <signal.h>
#include <synch.h>
#include <iostream>
#include <unistd.h>

using namespace std;

pthread_t       m_signalHandlerThread;
sigset_t        m_signalSet;

void    signalHandler()
    while ( true )
        cout << "SigWait..." << endl;
        sigwait( &m_signalSet, &sig );
        cout << "Signal!! : " << sig << endl;


    cout << "OUT" << endl;

void*   signalHandlerThreadFunction( void* arg )

   return (void*)0;

int main()  
    sigemptyset( &m_signalSet );
    sigaddset( &m_signalSet, SIGQUIT );             //kill -QUIT
    sigaddset( &m_signalSet, SIGTERM );             //kill
    sigaddset( &m_signalSet, SIGINT );              //ctrl-C
    sigaddset( &m_signalSet, SIGHUP );              //reload config

    if ( pthread_create( &m_signalHandlerThread, NULL, signalHandlerThreadFunction, NULL ) )
        cout << "cannot create signal handler thread, system shut down.\n" << endl;

    int iTimeout = 0;
    while (1) 
        if (iTimeout >= 10)

        cout << "Waiting... " << iTimeout << endl;

    cout << "END" << endl;

    exit (0);

Using compile command lines: Solaris:

CC -m64 -g temp.cpp -D_POSIX_PTHREAD_SEMANTICS -lpthread


/opt/aCC/bin/aCC +p +DA2.0W -AA -g -z -lpthread -mt -I/usr/include  temp.cpp     

Running both applications, the behaviour (pressing CTRL+C while in the 10 seconds loop):



Waiting... 1
Waiting... 2
Signal!! : 2   <---- CTRL + C
Waiting... 3
Waiting... 4   <---- CTRL + C again to terminate



Waiting... 1
Waiting... 2   <---- CTRL + C

Any help will be more then welcome since I'm already tearing my hair (not much left) :)!


share|improve this question
up vote -1 down vote accepted

This is rather unorthodox way to handle signals. If you want to marry the signals and threads, better choice would be to have the usual signal handlers from where the signal is serialized internally to another thread which is responsible for the actual handling of the event.

That is also a better option, as it is undefined which thread in an MT application receives the signal. Any threads which doesn't have the signal blocked might receive it. If you have 2 threads (and you have two threads in the example) then any of the threads might get the SIGINT.

You might want to check sigprocmask() as a way to tell OS that SIGINT should be blocked in a thread. That should be done for every thread, IIRC even the one calling sigwait().

Edit1. Actually I'm wrong about the "should be done for every thread" bit above. A new thread inherits its signal mask from the current thread. I have realized that that can't be true because that would have introduced the race condition: signal arrives at the time when new thread created but hasn't yet set its signal mask. In other words, it is sufficient to set the signal mask in the main thread.

share|improve this answer
Thanks! This did solve my problem, even in the entire application. I just don't understand why this works on HP-UX... maybe in that thread implementation all threads receive the signal? – JoaoSantos Oct 20 '10 at 13:58
"maybe in that thread implementation all threads receive the signal?" the application received the signal - but it may be handled in any random thread where it could be handled. HP-UX might have noticed that a thread in your app uses sigwait() while Solaris hasn't bothered. Signals vs. threads is best described as a gray area where you really do not want to experiment. Even POSIX can't describe the behavior in full since finer details differ greatly from one OS to another. – Dummy00001 Oct 20 '10 at 14:14
I am giving -1 for this answer. This answer is wrong in that you cannot serialize the signal from the classic signal handler to any other thread or data structure. You would have to use some locking inside the signal handler and that is not possible. There is very little you can do in a signal handler, using locking primitives is not one of them. – wilx Oct 20 '10 at 16:09
@wilx: Please read this (scroll down to for the list of functions safe to be used from the signal handler). Locking isn't only option: I generally use write() on a pipe, but used sem_post() once too. – Dummy00001 Oct 20 '10 at 16:22
sem_post() is not usable, IMHO, you could miss individual signals. Pipe and write() is but then you still have to have a thread waiting for the "signal". Using sigwait() in a dedicated thread is much simpler. – wilx Oct 20 '10 at 16:42

It's unspecified which of your 2 threads will handle SIGINT. If you need only one of your threads to handle the signal, you need to block that signal in all the other threads you have.

share|improve this answer
Your answer pointed me to the right direction. Thanks. – JoaoSantos Oct 20 '10 at 14:13

You should block signals to other threads by using pthread_sigmask. that page also contains an example for a program with a signal handling thread.

share|improve this answer
You are correct on the function to use. I accepted the previous one because it was posted before yours although it mention the call for single threaded function. – JoaoSantos Oct 20 '10 at 14:00
@JoaoSantos: pthread_sigmask() is equivalent to sigprocmask(). There is no "single-threaded" or "multi-threaded" signal functions - there are functions which have defined behavior in MT applications (like the two) or undefined (e.g. sigpause() may be used only in ST apps/shouldn't be used at all). – Dummy00001 Oct 20 '10 at 14:20

About the only way how to handle signals well in multithreaded application is to do the following:

  1. Block all signals in main() early, before any other threads are spawned, using pthread_sigmask().
  2. Spawn a signals handling thread. Use sigwait() or sigwaitinfo() to handle the signals in a simple loop.

This way no threads except the one dedicated for signal handling will get the signals. Also, since the signal delivery is synchronous this way, you can use any inter-thread communication facilities you have, unlike inside classic signal handlers.

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