Keep in mind that the default behavior inside a signal-handler is to block the signal that is being handled. Also when making function calls inside of signal-handlers, you want to only call signal-safe functions. With that said,
sigprocmask() is a signal-safe function, and if you are using it to block the same signal that is being blocked by the signal handler it's being called inside, then really nothing is going to happen ... you're going to remain with the same signal-mask that you currently have. The only difference is that inside the signal-handler, only the signals for either
SIGCHLD are guaranteed to be blocked (it will depend on which signal-handler you are in), where-as when you call
sigprocmask() to block those specific signals, both signals will be blocked after the call.
The thing to watch out for is the second part of your code in
criticalFunction when you try to call
sigprocmask() to enable the signals that are currently blocked in the signal mask. What this could create is a situation where you end up with a level of re-entrancy in the calls to your signal handler. In other words enabling the signal for the signal-handler you're in can mean that before you exit from the current signal handler, another
SIGCHLD is caught, and you'll re-enter the signal-handler again to handle this newly caught signal. As long as you're enabling the signals after any critical-section updates, then I think you should be fine with this re-entrant situation, but just to play it safe, you may only want to enable the signals in
criticalFunction at the very end of
criticalFunction, not somewhere in the middle, and when you return from
criticalFunction, don't do anything that would not be async-safe ... you have to assume that the any code after the return of the second
sigprocmask() may not be executing in-order (i.e., it might be executing after a second signal was caught and its signal-handler was run).
You would only need to be concerned about "stalling" if you tried to call something from the
exec family, or something of that nature inside of your signal-handler. What would happen is that the newly overlaid process would inherit the signal-mask from the current process, so if the current process had blocked certain signals, then they would also be blocked in the new process. Thus if the new process was assuming the signals were unblocked, your signal-handler in the new process would never run.
BTW, one warning: don't mix signals and threads! You mention "main process" in your question ... I hope that doesn't mean you're attempting to mix signals and threads. If so, that requires a very specific idiom, otherwise you will create all sorts of havoc.