You are doing 2 things here:
sigset_t. A sigset_t is just a collection of values for signals, and are used in various system calls. You can:
- Create an empty sigset_t (sigemptyset()
- Add a signal to the set (sigaddset())
- Remove a signal to the set (sigdelset())
Setting the signal mask for the signal handler. You do that by manipulating the
sigset_t sa_mask member of the
struct sigaction when you set up a signal handler in with a call to sigaction().
The signal mask of a signal handler means that while the signal handler is executing, the signals that are in the mask will be blocked - i.e. those signals will not be handled as long as they are blocked. When the signal handler are finished, the signals in will be unblocked.
A signal that is blocked isn't "lost", it will be handled when that particular signal is unblocked again.
sigaddset(&act.sa_mask, SIGINT); means the the SIGINT signal cannot occur while the code for the
SIGALRM handler is running.
On the other hand, if you comment out
sigaddset(&act.sa_mask, SIGINT);, you're left with just an empty list of signals created with
sigemptyset(&act.sa_mask);. So any signals that occur while the SIGALRM handler function is running might preempt that handler and execute the signal handler for that other signal.
For a SIGINT, you would normally not notice any difference with manual testing - it's unlikely you manage to hit CTRL-C exactly when your handler for SIGALRM is running, and your SIGALRM handler probably runs quickly enough that you would not notice if the SIGINT was slightly delayed.