A process can send signal to another process. process can register its own signal handler to handle the signal. SIGKILL and SIGSTOP are two signals which can not be captured.
When process executes signal handler, it blocks the same signal, That means, when signal handler is in execution, if another same signal arrives, it will not invoke the signal handler [ called blocking the signal], but it makes the note that the signal has arrived [ ie: pending signal]. once the already running signal handler is executed, then the pending signal is handled. If you do not want to run the pending signal, then you can IGNORE the signal.
The problem in the above concept is:
Assume the following:
process A has registered signal handler for SIGUSR1.
1) process A gets signal SIGUSR1, and executes signalhandler()
2) process A gets SIGUSR1,
3) process A gets SIGUSR1,
4) process A gets SIGUSR1,
When step (2) occurs, is it made as 'pending signal'. Ie; it needs to be served.
And when the step (3) occors, it is just ignored as, there is only one bit
available to indicate the pending signal for each available signals.
To avoid such problem, ie: if we dont want to loose the signals, then we can use
real time signals.
2) Signals are executed synchronously,
1) process is executing in the middle of signal handler for SIGUSR1,
2) Now, it gets another signal SIGUSR2,
3) It stops the SIGUSR1, and continues with SIGUSR2,
and once it is done with SIGUSR2, then it continues with SIGUSR1.
3) IMHO, what i remember about checking if there are any signal has arrived to the process is:
1) When context switch happens.
Hope this helps to some extend.