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The C and C++ standards support the concept of signal. However, the C11 standard says that the function signal() cannot be called in multi-threaded environments, or the behavior is undefined. But I think the signal mechanism is by nature for multi-threaded environments.

A quote from the C11 standard 7.14.1.1.7

"Use of this function in a multi-threaded program results in undefined behavior. The implementation shall behave as if no library function calls the signal function."

Any explanations about this?

The following code is self-evident.

#include <thread>
#include <csignal>

using namespace std;

void SignalHandler(int)
{
    // Which thread context here?
}

void f()
{
    //
    // Running in another thread context.
    //
    raise(SIGINT); // Is this call safe?
}

int main()
{
    //
    // Register the signal handler in main thread context.
    //
    signal(SIGINT, SignalHandler);

    thread(f).join();
}
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6  
Signalling was originally intended for interprocess communication (IPC). In POSIX, signal support in multithreaded apps was mostly an afterthought, and a lot of threading stuff gets really evil in the presence of async signals. – nneonneo Jan 30 '13 at 20:47
    
It is not required to be, as the standard says. – David Schwartz Jan 30 '13 at 20:49
2  
Besides, why would you really need this? You have much more straightforward ways of communicating within a multithreaded app besides signaling yourself. – millimoose Jan 30 '13 at 20:55
    
It's standard, I like standard-provided functions if any better than system-provided ones. – xmllmx Jan 30 '13 at 20:58
1  
@A.Mikhaylov Isn't that exactly what the standard quote in the OP's question says? Undefined behaviour means that, for example, you don't know if a signal handler will interrupt all the threads, or if it will be executed on the currently executing thread, or on some predictable thread like the one that set the handler. If the latter, does this preempt the other threads or wait its turn? This is just the tip of the iceberg when it comes to things you have to consider to extend the defined behaviour of those functions for multithreading. The C++ standard just decided to not even try. – millimoose Jul 23 '13 at 14:24

But I think the signal mechanism is by nature for multi-threaded environments.

I think this sentence is the central misunderstanding. signal() is a method for inter-process communication, not for inter-thread. Threads share common memory and can therefore communicate via mutexes and control structures. Processes don't have common memory and must make-do with some explicit communication structures like signal() or the filesystem.

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If one process registered a signal handler, and another process called raise; can the first process' signal handler receive the signal? – xmllmx Jan 30 '13 at 21:09
    
@xmllmx: Undefined by the standard. On Linux, yes. However, when doing stuff Linux-specifically, just use pthread. – thiton Jan 30 '13 at 21:11
    
Are these functions outdated and useless today? Do the standards support them only for backward compatible? – xmllmx Jan 30 '13 at 21:14
    
@xmllmx: signal is superseded by sigaction, but the functions themselves are perfectly OK. They are just not meant for multi-threaded programs. – thiton Jan 30 '13 at 21:16
4  
@xmllmx Signals as defined in C aren't particularly useful for anything. It requires additional implementation defined guarantees, such as that certain library functions may be called in a handler, to make them useful. Windows doesn't support much, if anything, beyond what's required by the standard. Instead Windows has it's own platform specific methods for inter-process communication. For inter-thread communication the C++11 thread library is supported on Windows, so you can write portable, standard conforming code for inter-thread communication. – bames53 Jan 30 '13 at 21:53

I think you're confusing signaling, which is process specific, with communication between threads. If it is sharing information between threads that you're after, you will probably find what you want in the new C++11 thread support library. Of course, it depends on what you really want to do.

From what I can tell of your code, you want a thread to "signal" an event in some way and you want to be able to run some code when that event is signalled. Given that, I'd take a closer look at the Futures section in the thread support library.

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I can understand and use thread, future, promise, etc. I just wan to know why rather than how. – xmllmx Jan 30 '13 at 21:55
    
Fair enough. I guess I would then ask, what you mean by safe - Are you asking whether other threads will be interrupted? Are you asking whether multiple threads can enter the signal handler? – Carl Jan 30 '13 at 22:16
4  
@xmllmx Why? Because those are the tools intended for the task of getting threads to cooperate, when signal() isn't as the documentation flat you tells you to. As in, nobody bothered to define any useful properties it would have for this situation. (Like that a signal handler will be executed on the thread that defined it, or whatever.) You're asking why you shouldn't use a hammer to dice vegetables. Sure if you pound at it you'll end up with smaller pieces of vegetables but it's hardly the approach you'd want to take. – millimoose Jan 30 '13 at 23:56
    
Lol. +1 for the hammer reference :) – Carl Jan 30 '13 at 23:58
    
@millimoose, +1 for your explanations. I think this is because under Windows, there are few people use these functions. – xmllmx Jan 31 '13 at 9:09

The C11 standard's statement that "Use of this function in a multi-threaded program results in undefined behavior," refers specifically to the function signal(). So the question is if the use of signal() is done "in a multi-threaded program."

The term 'multi-threaded program' isn't defined in the C standard as far as I can tell, but I would take it to mean a program in which multiple threads of execution have been created and have not completed. That would mean that at the time signal() is called in your example program the program is not multi-threaded and therefore the program's behavior is not undefined under this requirement.

(However C++11 requires that "All signal handlers shall have C linkage," [18.10 Other runtime support [support.runtime] p9]. Since your example program uses a handler with C++ linkage the behavior is undefined.)


As others have pointed out signals aren't intended for communication between threads. For example the C and C++ standards don't even specify what thread they run on. The standard library instead provides other tools for inter-thread communcation, such as mutexes, atomics, etc.

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