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I've been trying to understand the intricacies of how POSIX threads and POSIX signals interact. In particular, I'm interested in:

  • What's the best way to control which thread a signal is delivered to (assuming it isn't fatal in the first place)?
  • What is the best way to tell another thread (that might actually be busy) that the signal has arrived? (I already know that it's a bad idea to be using pthread condition variables from a signal handler.)
  • How can I safely handle passing the information that a signal has occurred to other threads? Does this need to happen in the signal handler? (I do not in general want to kill the other threads; I need a far subtler approach.)

For reference about why I want this, I'm researching how to convert the TclX package to support threads, or to split it up and at least make some useful parts support threads. Signals are one of those parts that is of particular interest.

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up vote 30 down vote accepted
  • What's the best way to control which thread a signal is delivered to?

As @zoli2k indicated, explicitly nominating a single thread to handle all signals you want handled (or a set of threads each with specific signal responsibilities), is a good technique.

  • What is the best way to tell another thread (that might actually be busy) that the signal has arrived?[...]
  • How can I safely handle passing the information that a signal has occurred to other threads? Does this need to happen in the signal handler?

I won't say "best," but here's my recommendation:

Block all desired signals in main, so that all threads are inherit that signal mask. Then, fashion the special signal receiving thread as a signal-driven event loop, dispatching newly arrived signals as some other intra-thread communication.

The simplest way to do this is to have the thread accept signals in a loop using sigwaitinfo or sigtimedwait. The thread then converts the signals somehow, perhaps broadcasting a pthread_cond_t, waking up other threads with more I/O, enqueuing a command in an application-specific thread-safe queue, whatever.

Alternatively, the special thread could allow signals to be delivered to a signal handler, unmasking for delivery only when ready to handle signals. (Signal delivery via handlers tends to be more error-prone than signal acceptance via the sigwait family, however.) In this case, the receiver's signal handler performs some simple and async-signal-safe action: setting sig_atomic_t flags, calling sigaddset(&signals_i_have_seen_recently, latest_sig), write() a byte to a non-blocking self-pipe, etc. Then, back in its masked main loop, the thread communicates receipt of the signal to other threads as above.

(UPDATED @caf rightly points out that sigwait approaches are superior.)

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That's a much more useful answer, especially as it can be used for handling non-fatal signal handling too. Thanks! – Donal Fellows Apr 23 '10 at 20:49
It's easiest if the signal handling thread doesn't install signal handlers at all - instead, it loops around on sigwaitinfo() (or sigtimedwait()), and then dispatches them on to the rest of the application as described in the last paragraph. – caf Jul 20 '15 at 6:55
@caf, indeed so. Updated – pilcrow Jul 20 '15 at 16:37

According to the POSIX standard all threads should appear with the same PID on the system and using pthread_sigmask you can define the signal blocking mask for every thread.

Since it is allowed to define only one signal handler per PID, I prefer to handle all signals in one thread and send pthreads_cancel if a running thread need to be cancelled. It is the preferred way against pthreads_kill since it allows to define cleanup functions for the threads.

On some older systems, because of the lack of proper kernel support, the running threads may have different PID from the parent thread's PID. See FAQ for signal handling with linuxThreads on Linux 2.4.

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In what you say “implemented” means what? Also, it is not correct to always nuke other threads in response to a signal (SIGHUP and SIGWINCH require more subtlety) and yet it is unsafe to use condition variables for letting other threads know. Poor answer. – Donal Fellows Apr 5 '10 at 6:09
@Donal Fellows > Post edited. I hope it is more helpful now. – zoli2k Apr 5 '10 at 7:32
Removed my down-vote, but it's still not a sufficient answer because I can't just kill threads in response to a signal. In some cases I'm going to be queueing events locally in response, in others I've got to tear down threads very carefully (BTW, I've got most of the machinery to do those parts already; it's the connections to the OS signals that are missing). – Donal Fellows Apr 5 '10 at 7:53
@zoli2k: I just recently tried running make menuconfig with freshly cloned git master branch of uClibc. There is a choice between the old LinuxThreads and the newer NPTL as POSIX thread implementations, but the help as of year 2012 still recommends against choosing NPTL. So it is common still in modern embedded Linux systems to see the obsolete LinuxThreads implementation used, even if the system is running recent enough Linux kernel. – FooF May 25 '12 at 4:14

Where I'm at so far:

  • Signals come in different major classes, some of which should typically just kill the process anyway (SIGILL) and some of which never need anything doing (SIGIO; easier to just do async IO right anyway). Those two classes need no action.
  • Some signals don't need to be dealt with immediately; the likes of SIGWINCH can be queued up until it is convenient (just like an event from X11).
  • The tricky ones are the ones where you want to respond to them by interrupting what you're doing but without going to the extent of wiping out a thread. In particular, SIGINT in interactive mode ought to leave things responsive.

I've still got to sort through signal vs sigaction, pselect, sigwait, sigaltstack, and a whole bunch of other bits and pieces of POSIX (and non-POSIX) API.

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IMHO, Unix V signals and posix threads do not mix well. Unix V is 1970. POSIX is 1980 ;)

There are cancellation Points and if you allow signals and pthreads in one application, you will eventually end up writing Loops around each call, which can surprisingly return EINTR.

So what I did in the (few) cases where I had to program multithreaded on Linux or QNX was, to mask out all signals for all (but one) threads.

When a Unix V Signal arrives, the process Switches the stack (that was as much concurrency in Unix V as you could get within a process).

As the other posts here hint, it might be possible now, to tell the System, which posix thread shall be the victim of that stack switching.

Once, you managed to get your Signal handler thread working, the question remains, how to transform the signal information to something civilized, other threads can use. An infrastructure for inter-thread communications is required. One pattern, useful is the actor pattern, where each of your threads is a target for some in-process Messaging mechanism.

So, instead of canceling other threads or killing them (or other weird stuff), you should try to marshall the Signal from the Signal context to your Signal handler thread, then use your actor pattern communications mechanisms to send semantically useful messages to those actors, who need the signal related Information.

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