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I have a test program that uses unnamed pipes created with pipe() to communicate between parent and child processes created with fork() on a Linux system.

Normally, when the sending process closes the write fd of the pipe, the receiving process returns from read() with a value of 0, indicating EOF.

However, it seems that if I stuff the pipe with a fairly large amount of data (maybe 100K bytes0 before the receiver starts reading, the receiver blocks after reading all the data in the pipe - even though the sender has closed it.

I have verified that the sending process has closed the pipe with lsof, and it seems pretty clear that the receiver is blocked.

Which leads to the question: is closing one end of the pipe a reliable way to let the receiver know that there is no more data?

If it is, and there are no conditions that can lead to a read() blocking on an empty, closed FIFO, there's something wrong with my code. If not, it means I need to find an alternate method of signalling the end of the data stream.


I was pretty sure that the original assumption was correct, that closing a pipe causes an EOF at the reader side, this question was just a shot in the dark - thinking maybe there was some subtle pipe behavior I was overlooking. Nearly every example you ever see with pipes is a toy that sends a few bytes and exits. Things often work differently when you are no longer doing atomic operations.

In any case, I tried to simplify my code to flush out the problem and was successful in finding my problem. In pseudocode, I ended up doing something like this:

create pipe1
if ( !fork() ) {
    close pipe1 write fd
   do some stuff reading pipe1 until EOF
create pipe2
if ( !fork() )  {
   close pipe2 write fd
   do some stuff reading pipe2 until EOF
close pipe1 read fd
close pipe2 read fd
write data to pipe1
get completion response from child 1
close pipe1 write fd
write data to pipe2
get completion response from child 2
close pipe2 write fd
wait for children to exit

The child process reading pipe1 was hanging, but only when the amount of data in the pipe became substantial. This was occurring even though I had closed the pipe that child1 was reading.

A look at the source shows the problem. When I forked the second child process, it grabbed its own copy of the pipe1 file descriptors, which were left open. Even though only one process should be writing to the pipe, having it open in the second process kept it from going into an EOF state.

The problem didn't show up with small data sets, because child2 was finishing its business quickly, and exiting. But with larger data sets, child2 wasn't returning quickly, and I ended up with a deadlock.

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1 Answer 1

read should return EOF when the writers have closed the write end.

Since you do a pipe and then a fork, both processes will have the write fd open. It could be that in the reader process you have forgotten to close the write portion of the pipe.

Caveat: It has been a long time since I programmed on Unix. So it might be inaccurate.

Here is some code from: http://www.cs.uml.edu/~fredm/courses/91.308/files/pipes.html. Look at the "close unused" comments below.

#include <stdio.h>

/* The index of the "read" end of the pipe */
#define READ 0

/* The index of the "write" end of the pipe */
#define WRITE 1

char *phrase = "Stuff this in your pipe and smoke it";

main () {
  int fd[2], bytesRead;

  char message [100]; /* Parent process message buffer */

  pipe ( fd ); /*Create an unnamed pipe*/

  if ( fork ( ) == 0 ) {
    /* Child Writer */
    close (fd[READ]); /* Close unused end*/
    write (fd[WRITE], phrase, strlen ( phrase) +1); /* include NULL*/
    close (fd[WRITE]); /* Close used end*/
    printf("Child:  Wrote '%s' to pipe!\n", phrase);

  } else {

    /* Parent Reader */
    close (fd[WRITE]); /* Close unused end*/ 
    bytesRead = read ( fd[READ], message, 100);
    printf ( "Parent: Read %d bytes from pipe: %s\n", bytesRead, message);
    close ( fd[READ]); /* Close used end */
share|improve this answer
This is exactly right. Once all file descriptors referencing the write end of the pipe are closed, read() will not block and will return 0. It is likely that you have another file descriptor for the write end hanging around in some process (perhaps in the receiving process, or perhaps a different child process has ended up with a copy of it after a fork()). –  caf Mar 25 '11 at 0:47
No, definitely not the first problem - immediately after the fork I have the same close() statements that show up in every canonical instance of this code. And of course, my code works fine when it is confined to short messages like this. –  Mark Nelson Mar 25 '11 at 10:58
@Mark: Perhaps showing the code will help. I am guessing you don't care about the data that is already there, if the pipe gets closed? In that case, you could potentially have two pipes, one command and one data. Have the writer send a CLOSE command over the command pipe. You can use the select call to do a non blocking test of data on both the fd. –  Aryabhatta Mar 25 '11 at 15:48
As happens often, simplifying the code in order to try to demonstrate the problem led me to the error of my ways. My mistake wasn't too subtle, but it definitely got past me the first time. I'll add it to my question in a second. –  Mark Nelson Mar 25 '11 at 23:11

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