5

I would like to exchange data between 2 processes (A and B) using 2 named pipes (a2b and b2a) as follows:

  1. Process A creates the a2b and b2a pipes using mkfifo(3).
  2. Process A starts process B (either using fork(), exec*() or even system())
  3. A waits until B open()s a2b and b2a
  4. A write()s data to a2b
  5. B read()s data from a2b
  6. B write()s data to b2a
  7. A read()s data from b2a

How can I make process A wait until process B open()s the other ends of the named pipes? -- i.e. How do I implement step 3?

EDIT 1: As mentioned by @EJP, it is possible to implement step 3 using read/write/select. However, I would like to know if there are other approaches.

12
  • 1
    it would be better for B to write something to A first, just a Hello message. Then A could just block in the corresponding read, or select() on the pipe for readability.
    – user207421
    Commented Feb 9, 2018 at 1:01
  • I agree that it is a possible approach. However, I don't want to use read/write to determine whether the other end is open. (I should have made this clear in my post)
    – maddouri
    Commented Feb 9, 2018 at 1:11
  • 1
    So you want something that tells you when another process has opened a file descriptor in its private address space? I don't think that is possible, apart from say polling /proc/PID_PROCESSB/fd and looking for the pipe. Otherwise you could ask PROCESS B to signal you when it is ready, but there is no mechanism to my knowledge to communicate this information over fifos
    – user7287311
    Commented Feb 9, 2018 at 1:17
  • Interesting. Could you post an answer with some code for doing that? (i.e. polling /proc/process_b/fd for the named pipes. TBH I'm not fond of using signals)
    – maddouri
    Commented Feb 9, 2018 at 1:22
  • UNIX Domain sockets might be more suitable. You can use select() and then check whether an accept() occurred. When the other end of the "pipe" (the socket) connects, select in this end returns and you can check that. Commented Feb 9, 2018 at 1:25

1 Answer 1

6

The behavior of POSIX open is specified for FIFOs. If you're using Linux, man 7 fifo has some nice discussion:

The kernel maintains exactly one pipe object for each FIFO special file that is opened by at least one process. The FIFO must be opened on both ends (reading and writing) before data can be passed. Normally, opening the FIFO blocks until the other end is opened also.

A process can open a FIFO in nonblocking mode. In this case, opening for read-only succeeds even if no one has opened on the write side yet and opening for write-only fails with ENXIO (no such device or address) unless the other end has already been opened.

So you have two options:

  1. use blocking mode and the open call will block till the other end is open, or
  2. use non-blocking mode and spin on the open call until it succeeds.

If your requirements permit, you can skip a named pipe (FIFO) altogether and just use a pipe. The child process inherits open file descriptors to each end of the pipe and can use either one as needed (don't forget to close the unneeded descriptor).


However, considering your end goal is bi-directional communication, might I suggest a (unix domain) socket and some IO multiplexing strategy (select, poll, epoll, kqueue, etc.)?

1
  • 2
    A key point is that the two processes must cooperate by opening the two FIFOs in the same sequence — they must both open a2b before b2a or vice versa. If one opens a2b and the other opens b2a first, then they get deadlocked — the first is waiting for the other to open a2b while the second is waiting for the other to open b2a and both are hung until the other does what is expected. Commented Feb 9, 2018 at 6:23

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

Not the answer you're looking for? Browse other questions tagged or ask your own question.