The classical way to specify a handler for a certain signal is via
sigaction. Linux additionally provides the
signalfd functionality, where we can connect signals to a file descriptor and then apply select/(e)poll to that descriptor, which perfectly fits the concept of many event loop-driven systems.
I am wondering what happens / should happen when both mechanisms collide. Can there be race conditions? On the signalfd manpage (http://man7.org/linux/man-pages/man2/signalfd.2.html) we read:
Normally, the set of signals to be received via the file descriptor should be blocked using sigprocmask(2), to prevent the signals being handled according to their default dispositions.
So, it says "normally" we use the signal mask in order to prevent the (default) handler from processing a signal. It does not say that we have to block that signal when we have a file descriptor connected to it. Unfortunately, the man page does not specify what happens when we don't block the signal.
This looks like poorly defined behavior. I do not believe that this is actually not well-defined and am wondering if anyone here knows i) were I can find a detailed specification about how the system should behave or ii) how it behaves.
What I am specifically interested in, is this order of execution:
- signalfd for a certain signal, including blockage of this signal
- unblockage of this signal
- sigaction for this signal (default handler or custom handler)
Is this undefined behavior or is there a standard/specification for what must happen? Does the handler always take precedence over the file descriptor? Is the handler called and the file descriptor fires off an event? Does setting
sigaction change the signal mask, rendering step (2) unnecessary?
I could try to derive the actual behavior from systematic tests involving actual code. However, I of course prefer to find a detailed piece of documentation and consider that I was not able to find the right reference myself.