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This seems to be a fairly common thing to do, and I've managed to teach myself everything that I need to make it work, except that I now have a single problem, which is defying my troubleshooting.

int nonBlockingPOpen(char *const argv[]){
    int inpipe;
    pid_t pid;
    /* open both ends of pipe nonblockingly */
    pid = fork();

        case 0:         /*child*/
            sleep(1); /*child should open after parent has open for reading*/

            /*redirect stdout to opened pipe*/
            int outpipe = open("./fifo", O_WRONLY);
            dup2(outpipe, 1);
            fcntl(1, F_SETFL, fcntl(1, F_GETFL) | O_NONBLOCK);

            printf("HELLO WORLD I AM A CHILD PROCESS\n");
            /*This seems to be written to the pipe immediately, blocking or not.*/
            execvp(*argv, argv);
            /*All output from this program, which outputs "one" sleeps for 1 second
             *outputs "two" sleeps for a second, etc, is captured only after the
             *exec'd program exits!

        default:        /*parent*/
            inpipe = open("./fifo", O_RDONLY | O_NONBLOCK);
            /*no need to do anything special here*/

    return inpipe;

Why won't the child process write its stdout to the pipe each time a line is generated? Is there something I'm missing in the way execvp or dup2 work? I'm aware that my approach to all this is a bit strange, but I can't find another way to capture output of closed-source binaries programatically.

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I have just found… this page, which indicates that I should not be trying to pass a child process a nonblocking descriptor, but none of the reasons listed there seem to apply to what I am doing. I do realize that the program I am running would probably crash if the listening process were to disconnect from the pipe (generating EAGAIN in the child), but that doesn't bother me. – conartist6 Jul 24 '10 at 20:55
up vote 3 down vote accepted

I would guess you only get the exec'd program's output after it exits because it does not flush after each message. If so, there is nothing you can do from the outside.

I am not quite sure how this is supposed to relate to the choice between blocking and nonblocking I/O in your question. A non-blocking write may fail completely or partially: instead of blocking the program until room is available in the pipe, the call returns immediately and says that it was not able to write everything it should have. Non-blocking I/O neither makes the buffer larger nor forces output to be flushed, and it may be badly supported by some programs.

You cannot force the binary-only program that you are exec'ing to flush. If you thought that non-blocking I/O was a solution to that problem, sorry, but I'm afraid it is quite orthogonal.

EDIT: Well, if the exec'd program only uses the buffering provided by libc (does not implement its own) and is dynamically linked, you could force it to flush by linking it against a modified libc that flushes every write. This would be a desperate measure. to try only if everything else failed.

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I accept your solution, and augment it with my own. I was apparently not educated on the full number and type of buffers which are in operation in this situation. filled me in excellently. You were correct in saying that that the cause of failure was the linebuffer not being flushed until program termination, however the linked page detailed many possible solutions for changing the form of buffering used by stdio. The method I am using for now is simply calling unbuffer before my command. I'm not sure how efficient that is, but it works! – conartist6 Jul 24 '10 at 22:43

When a process is started (via execvp() in your example), the behaviour of standard output depends on whether the output device is a terminal or not. If it is not (and a FIFO is not a terminal), then the output will be fully buffered, rather than line buffered. There is nothing you can do about that; the (Standard) C library does that.

If you really want to make it work line buffered, then you will have to provide the program with a pseudo-terminal as its standard output. That gets into interesting realms - pseudo-terminals or ptys are not all that easy to handle. For the POSIX functions, see:

  • grantpt() - grant access to the slave pseudo-terminal device
  • posix_openpt() - open a pseudo-terminal device
  • ptsname() - get name of the slave pseudo-terminal device
  • unlockpt() - unlock a pseudo-terminal master/slave pair
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Why won't the child process write its stdout to the pipe each time a line is generated?

How do you know that? You do not even try to read the output from the fifo.

N.B. by the file name I presume that you are using the fifo. Or is it a plain file?

And the minor bug in the child: after dup2(), you need to close(outpipe).

fcntl(1, F_SETFL, fcntl(1, F_GETFL) | O_NONBLOCK);

Depending on what program you exec(), you might either lose some output or cause the program to fail since write to stdout now might fail with EWOULDBLOCK.

IIRC fifos has the same buffer size as pipes. Per POSIX minimum is 512 bytes, commonly 4K or 8K.

You probably want to explain why you need that at all. Non-blocking IO has different semantics compared to blocking IO and unless your child process expects that you will run into various problems.


stdout is buffered, I would have after that fflush(stdout). (Can't find documentation whether exec() on its own would flush stdout or not.)

Is there something I'm missing in the way execvp or dup2 work? I'm aware that my approach to all this is a bit strange, but I can't find another way to capture output of closed-source binaries programatically.

I wouldn't toy with non-blocking IO - and leave it as it is in blocking mode.

And I would use pipe() instead of the fifo. Linux's man pipe has a convenient example with the fork().

Otherwise, that is a pretty normal practice.

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Sorry - I didn't include the entire program here, just the function which opens the pipe for reading. The file is indeed a named fifo. The problem was not with the out that is in that code, it is is that the exec block will launch code (a server) which will run indeterminately, producing only occasional output (not enough to fill a buffer if everything is going well). Also you are right, it does seem that after all this, it is perfectly ok if the child's IO blocks, and for that matter probably even the parent's as well. Thanks. – conartist6 Jul 25 '10 at 1:49
@conartist6: non-blocking IO flag has totally different effect for the file descriptors. but equally program-logic destructive. or no effect at all. depending on the program. - and look for O_NONBLOCK. simply remove it. – Dummy00001 Jul 25 '10 at 10:05

The sleep()s do not guarantee that the parent will open the pipe first - as Dummy00001 says, you should be using a pipe() pipe, not a named pipe. You should also check for execvp() and fork() failing, and you shouldn't be setting the child side to non-blocking - that's a decision for the child process to make.

int nonBlockingPOpen(char *const argv[])
    int childpipe[2];
    pid_t pid;

    pid = fork();

    if (pid == 0)

        /*redirect stdout to opened pipe*/
        dup2(childpipe[1], 1);

        /* close leftover pipe file descriptors */

        execvp(*argv, argv);

        /* Only reached if execvp fails */


    /* Close leftover pipe file descriptor */

    /* Check for fork() failing */
    if (pid < 0)
         return -1;

    /* Set file descriptor non-blocking */
    fcntl(childpipe[0], F_SETFL, fcntl(childpipe[0], F_GETFL) | O_NONBLOCK);

    return childpipe[0];
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