I'm writing an application that uses timer to do some data acquisition and processing at a fix sample rate (200Hz). The application acts like a server and run in background. It should be controllable from other processes or other machines from UDP.
To do so, I use the timer_create() API to generate SIGUSR1 periodically and call an handler that do the acquisition and the processing.
The code to configure the timer is as follow (minus error check for clarity):
sa.sa_flags = SA_SIGINFO; sa.sa_sigaction = handler; sigemptyset(&sa.sa_mask); sigaction(SIGUSR1, &sa, NULL); sev.sigev_notify = SIGEV_SIGNAL; sev.sigev_signo = SIGUSR1; sev.sigev_value.sival_ptr = &timerid; timer_create(CLOCK_REALTIME, &sev, &timerid); timer_settime(...)
The code above is called when a 'start' command is received from UDP. To check for command I have an infinite loop in my main program that call recvfrom() syscall.
The problem is, when a 'start' command is received, and then, the timer is properly started and running (using the code above), I get an 'interrupted system calls' error (EINTR) due the SIGUSR1 signal sent by the timer interrupting the recvfrom() call. If I check for this particular error code and ignore it, I finally get a 'connection refused' error when calling recvfrom().
So here my questions:
- How to solve this 'interrupted system calls' error as it seems to ignore it and re-do the recvfrom() doesn't work?
- Why do I get the 'connection refused' error after about twenty tries?
- I have the feeling that using SIGEV_THREAD could be a solution, as I understand it, create a new thread (like phread_create) without generate a signal. Am I right?
- Is the signal number important here? Is there any plus to use real time signal?
- Is there any other way to do what I intent to do: having a background loop checking for command from UDP and real-time periodic task?
And here the bonus question:
- Is it safe to do the data acquisition and the processing in the handler or should I use a semaphore mechanism to wake up a thread that do it?
Solution: As suggest in an answer and in the comments, using SA_RESTART seems to fix the main issue.
Solution 2: Using SIGEV_THREAD over SIGEV_SIGNAL works too. I've read somewhere that using SIGEV_THREAD could require more ressources than SIGEV_SIGNAL. However I have not seen significant difference regarding the timing of the task.