Typically, instead of catching
SIGPIPE one ignores it, which causes
write to fail with
EPIPE instead of silently terminating your program.
However: If you are getting a
SIGPIPE when you write to a pipe, then do not try again. It will never work.
SIGPIPE means that the pipe has no reader -- and if the pipe has no reader now, it will never have a reader. (Think about it this way: how would a pipe with no reader get one? It is impossible!)
Your problem is that you are closing the other end of the pipe. Fix that, and don't worry about
SIGPIPE is just the symptom.
Edit: There are two questions to answer here. If you can't answer both of these questions, then don't bother handling
What would cause my program to receive
SIGPIPE? The only way to receieve
SIGPIPE is for the reading end of the pipe to get closed. This happens if the reading process crashes, or if it is programmed to close the pipe. If you are writing a network server, or communicating with an unknown process, this might be common. However, if you write both programs, both run locally, then it probably indicates a programming error.
What would my program do when it catches
SIGPIPE? If you are writing a client process that uses a pipe to communicate with a server, then what are you supposed to do with
SIGPIPE? You can't try again, and clients usually can't restart the server they're connected to. Just do the sensible, default thing and let
SIGPIPE terminate your program. However, if the server is sending data to a client it controls and gets
SIGPIPE, it could restart the client. But this might be a very bad idea -- for example, if the client is deterministic, it will just crash again, and you will end up with an infinite loop rather than a simple crash.
So the general maxim here is "Only catch errors you are prepared to handle." Don't catch errors just for the sake of completeness. Just let them crash your program, or cause the operation to fail, and you can go back and debug it later.
Code snippet: This is a snippet of code from one of my projects. If you run it,
SIGPIPE will not terminate your process. Instead,
write will generate an
EPIPE error. If you are writing a network server, then
EPIPE is one possible way that a client might suddenly disconnect.
struct sigaction act;
memset(&act, 0, sizeof(act));
act.sa_handler = SIG_IGN;
act.sa_flags = SA_RESTART;
r = sigaction(SIGPIPE, &act, NULL);