+1 To Greg Hewgill for leading my thought process in the correct direction to find the answer.
The real reason for
SIGPIPE in both sockets and pipes is the filter idiom / pattern which applies to typical I/O in Unix systems.
Starting with pipes. Filter programs like grep typically write to
STDOUT and read from
STDIN, which may be redirected by the shell to a pipe. For example:
cat someVeryBigFile | grep foo | doSomeThingErrorProne
The shell when it forks and then exec's these programs probably uses the
dup2 system call to redirect
STDERR to the appropriate pipes.
Since the filter program
grep doesn't know and has no way of knowing that it's output has been redirected then the only way to tell it to stop writing to a broken pipe if
doSomeThingErrorProne crashes is with a signal since return values of writes to
STDOUT are rarely if ever checked.
The analog with sockets would be the
inetd server taking the place of the shell.
As an example I assume you could turn
grep into a network service which operates over
TCP sockets. For example with
inetd if you want to have a
grep server on
TCP port 8000 then add this to
grep 8000/tcp # grep server
Then add this to
grep stream tcp nowait root /usr/bin/grep grep foo
inetd and connect to port 8000 with telnet. This should cause
inetd to fork, dup the socket onto
STDERR and then exec
grep with foo as an argument. If you start typing lines into telnet
grep will echo those lines which contain foo.
Now replace telnet with a program named
ticker that for instance writes a stream of real time stock quotes to
STDOUT and gets commands on
STDIN. Someone telnets to port 8000 and types "start java" to get quotes for Sun Microsystems. Then they get up and go to lunch. telnet inexplicably crashes. If there was no
SIGPIPE to send then
ticker would keep sending quotes forever, never knowing that the process on the other end had crashed, and needlessly wasting system resources.