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I've been trying to figure out how the fork-exec mechanism is used inside Linux. Everything was going on according to the plan until some web pages started to confuse me.

It is said that a child process should strictly use _exit() instead of a simple exit() or a normal return from main().

As I know, Linux shell fork-execs every one of the external commands; assuming what I said above is true, the conclusion is that none of these external commands nor any other execution happening inside the Linux shell can do normal return!

Wikipedia & some other webpages claim we've got to use _exit() just to prevent a child process causing deletion of parent's temporary files while a probable double flushing of stdio buffers may happen. though I understand the former, I have no clues how a double flushing of buffers could be harmful to a Linux system.

I've spent my whole day on this... Thanks for any clarification.

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up vote 27 down vote accepted

You should use _exit (or its synonym _Exit) to abort the child program when the exec fails, because in this situation, the child process may interfere with the parent process' external data (files) by calling its atexit handlers, calling its signal handlers, and/or flushing buffers.

For the same reason, you should also use _exit in any child process that does not do an exec, but those are rare.

In all other cases, just use exit. As you partially noted yourself, every process in Unix/Linux (except one, init) is the child of another process, so using _exit in every child process would mean that exit is useless outside of init.

switch (fork()) {
  case 0:
    // we're the child
    execlp("some", "program", NULL);
    _exit(1);  // <-- HERE
  case -1:
    // error, no fork done ...
    // we're the parent ...
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TONS of Thanks. I feel much better now; though still twice flushing of a buffer being problematic, has no meaning for me. – ned1986zha Mar 24 '11 at 18:11
@ned1986zha: At the time of the fork(), there may be data in the stdio buffers. If both the parent and the child flush those buffers, that data will appear twice in the output. The problem doesn't exist if exec() succeeds, because in that case the newly exec'd process starts with fresh stdio buffers. – caf Mar 24 '11 at 22:10
@caf: OK, now it makes sense to me. here, conclusion is that buffering is an internal C language mechanism rather than being some OS provided facility. so far, I mistakingly believed that a single open file may have a shared buffer for all the processes! Thank you so much; – ned1986zha Mar 25 '11 at 7:46
@ned1986zha: Yes - the stdio buffer is a C library mechanism. There may be OS-provided buffering as well - but that doesn't matter, because the fork() won't duplicate that. – caf Mar 25 '11 at 8:30

exit() flushes io buffers and does some other things like run functions registered by atexit(). exit() invokes _end( )

_exit() just ends the process without doing that. You call _exit() from the parent process when creating a daemon for example.

Ever notice that main() is a function? Ever wonder what called it in the first place? When a c program runs the shell you are running in provides the executable path to 'exec' system call and the control is passed to kernel which in turn calls the startup function of every executable _start(), calls your main(), when main() returns it then calls _end() Some implementations of C use slightly different names for _end() & _start() ...

exit() and _exit() invoke _end()

Normally - for every main() there should be one & only one exit() call. (or return at the end of main() )

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