From my understanding,
SIGPIPE can only occur as the result of a
write(), which can (and does) return -1 and set
EPIPE... So why do we have the extra overhead of a signal? Every time I work with pipes I ignore
SIGPIPE and have never felt any pain as a result, am I missing something?
From my understanding,
I don't buy the previously-accepted answer.
I believe the reason
Because your program may be waiting for I/O or otherwise suspended. A SIGPIPE interrupts your program asynchronously, terminating the system call, and so can be handled immediately.
Consider a pipeline
Just for definiteness, we'll assume that B is the canonical copy loop:
Aha, you're confused about the behavior of the write. You see, when the file descriptor with the pending write is closed, the SIGPIPE happens right then. While the write will return -1 eventually, the whole point of the signal is to notify you asynchronously that the write is no longer possible. This is part of what makes the whole elegant co-routine structure of pipes work in UNIX.
Now, I could point you to a whole discussion in any of several UNIX system programming books, but there's a better answer: you can verify this yourself. Write a simple
and in another terminal window, attach a debugger to B and put a breakpoint inside the B signal handler.
Now, kill the more and B should break in your signal handler. examine the stack. You'll find that the read is still pending. let the signal handler proceed and return, and look at the result returned by write -- which will then be -1.
 Naturally, you'll write your B program in C. :-)
I think it is to get the error handling correct without requiring a lot of code in everything writing to a pipe.
Some programs ignore the return value of
Programs that check the return value of
This link says:
A pipe or FIFO has to be open at both ends simultaneously. If you read from a pipe or FIFO file that doesn't have any processes writing to it (perhaps because they have all closed the file, or exited), the read returns end-of-file. Writing to a pipe or FIFO that doesn't have a reading process is treated as an error condition; it generates a SIGPIPE signal, and fails with error code EPIPE if the signal is handled or blocked.
— Macro: int SIGPIPE
Broken pipe. If you use pipes or FIFOs, you have to design your application so that one process opens the pipe for reading before another starts writing. If the reading process never starts, or terminates unexpectedly, writing to the pipe or FIFO raises a SIGPIPE signal. If SIGPIPE is blocked, handled or ignored, the offending call fails with EPIPE instead.
Pipes and FIFO special files are discussed in more detail in Pipes and FIFOs.
Linux 3.2.0-53-generic #81-Ubuntu SMP Thu Aug 22 21:01:03 UTC 2013 x86_64 x86_64 x86_64 GNU/Linux
gcc version 4.6.3 (Ubuntu/Linaro 4.6.3-1ubuntu5)
I wrote this code below:
==================== //Reads only 3 characters from stdin //readstdin.c
You can see that in every instance sigpipe is only received after more than 3 characters are (tried to be ) written by the writing process.
Does this not prove that