The C standard says that the file streams stdin, stdout, and stderr shall be connected somewhere, but they don't specify where, of course. It is perfectly feasible to run a program with them redirected:
some_program_of_yours >/dev/null 2>&1 </dev/null
Your writes will succeed - but the information won't go anywhere. A more brutal way of running your program is:
some_program_of_yours >&- 2>&- </dev/null
This time, it has been run without open file streams for stdout and stderr - in contravention of the the standard. It is still reading from /dev/null in the example, which means it doesn't get any useful data input from stdin.
Many a program doesn't bother to check that the standard I/O channels are open. Many a program doesn't bother to check that the error message was successfully written. Devising a suitable fallback as outline by Tim Post and whitey04 isn't always worth the effort. If you run the
ls command with its outputs suppressed, it will simply do what it can and exits with a non-zero status:
$ ls; echo $?
$ ls >&- 2>&-; echo $?
(Tested RHEL Linux.) There really isn't a need for it to do more. On the other hand, if your program is supposed to run in the background and write to a log file, it probably won't write much to stderr, unless it fails to open the log file (or spots an error on the log file).
Note that if you fall back on
syslog(3) (or POSIX), you have no way of knowing whether your calls were 'successful' or not; the syslog functions all return no status information. You just have to assume that they were successful. It is your last resort, therefore.