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Environment: Linux 2.6.32 (RHEL 6.3) on x86_64 with gcc 4.4.6

Background: I am running doing some heavy data crunching: ~500 GB input data spread over ~2000 files. My main process forks N children, each of which receives a list of filenames to crunch.

What I want is for console I/O to pass through the parent. I have been looking into pipe() and see some fascinating stuff about using poll() to have my parent block until there are error messages to read. It seems that I need to have N pipes (one per child) and pass poll() information about what signals I want to listen to. Also, I think that once I dup2(pipe[1], STDOUT) in each child, each child should be able to write to the pipe with cout << stuff; as usual, right?

First, is what I have said above about multiple pipes, poll()ing and dup2() correct?

Second, how do I set up the parent poll() loop so that I move on once all the children have died?

Right now, this (incomplete) section of code reads as follows:

int status;
while (1) { // wait for stuff
    while ((status = poll(pollfds, ss.max_forks, -1)) > 1)
        cout << "fork "<< status << ": " << pipes[status][0];
    if (status == -1)   Die(errno, "poll error");
    if (status == 0) { // check that we still have at least one open fd
        bool still_running = false;
        for (int i=0; i<ss.max_forks; i++) {
             // check pipe i and set still_running if it is not zero
        }
        if (!still_running)
            break;
    }
}

Third, what should I set and when should I set it with fcntl()? Do I want to do O_ASYNC? Do I want to do blocking or nonblocking?

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How many children do you expect? Maybe you're better off with a single fifo or domain socket for all. –  ott-- Sep 19 '12 at 20:15

2 Answers 2

up vote 2 down vote accepted

Actually, you need to close() the respective "unused" side in both processes (parent and child), to make sure the "broken pipe" comes across. Thus, if the child writes into Pipe[0], then the parent will read from Pipe[1] and close its own Pipe[0]. Likewise, the child will close Pipe[1].

If you do this, the parent will get an error when it reads from the pipe after the child has died. Don't forget to use one of the waitpid()-style functions to clean up the dead processes.

You might want to sett the handles to nonblocking, so you can just read whatever is there without having to use 1-byte-reads which would be horribly inefficient. Although I just make one call to read() with a suitable buffersize (usually 1024 or 4096), and just let the next poll trigger if there's more data. But then, I usually just have one child to work with, not a few hundred :-)

As for your loop, you'll have to track the state of each child, and exit when you have no live children left.

EDIT: actually, I find that I assume the child is dead when I get a 0-byte read even though POLLIN was set, or when I get POLLERR or POLLHUP flags. Not sure which case is the correct one...

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The read(2) function will return 0. It is not exactly an error condition, it is end of file. –  fork0 Sep 19 '12 at 20:06
    
Yeah, I was considering adding that as a "feeling", since that's what I was looking for on similar setups using select(). Except that select() doesn't have "HUP", which felt like a strong candidate too :-) –  Christian Stieber Sep 19 '12 at 20:15

Here's a question about select() vs poll(): What are the differences between poll and select?

However, have you thought about using threads as opposed to separate processes? You have more control over the interactions with threads, and the communications are through data structures rather than pipelined I/O streams. Pipelines are expensive; you're going through the OS, and you have to format the results for output / parse the results on input, also expensive.

One last point: Whether you are using lightweight threads or heavyweight fork/exec, you do not want to launch 2000 of them at once unless you have a 2000 CPU multiprocessor. You will create a situation with very expensive and continuous context swapping if you have more threads/processes in contention for CPU than you have CPUs.

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