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I am sending simple objects between processes using pipes with Python's multiprocessing module. The documentation states that if a pipe has been closed, calling pipe.recv() should raise EOFError. Instead, my program is just blocking on recv() and never detects that the pipe has been closed.

Example:

import multiprocessing as m

def fn(pipe):
    print "recv:", pipe.recv()
    print "recv:", pipe.recv()

if __name__ == '__main__':
    p1, p2 = m.Pipe()
    pr = m.Process(target=fn, args=(p2,))
    pr.start()

    p1.send(1)
    p1.close()  ## should generate EOFError in remote process

And the output looks like:

recv: 1
<blocks here>

Can anyone tell me what I'm doing wrong? I have this problem on Linux and windows/cygwin, but not with the windows native Python.

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2 Answers 2

up vote 5 down vote accepted

The forked (child) process is inheriting a copy of its parent's file descriptors. So even though the parent calls "close" on p1, the child still has a copy open and the underlying kernel object is not being released.

To fix, you need to close the "write" side of the pipe in the child, like so:

def fn(pipe):
    p1.close()
    print "recv:", pipe.recv()
    print "recv:", pipe.recv()
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1  
Of course this is correct, but the purpose of the question is to determine why the pipe closure is not communicated between the parent and child process, as it does on Windows (and as the documentation suggests it should). –  Luke Jul 4 '11 at 11:23
1  
Ok, upon re-examining, you are absolutely correct (and I did not properly understand your answer). The pipe is not considered 'closed' until all processes using the file descriptor have closed it. –  Luke Jul 4 '11 at 13:37
    
An interesting/awkward consequence of this is that it is necessary to send both ends of the pipe to child processes so they can explicitly close one. –  Luke Jul 4 '11 at 13:45
    
@Luke: Exactly. This is how Unix file descriptors behave in general; the underlying object remains "open" until all the descriptors referencing it are closed. I cannot speak to why Windows behaves differently. –  Nemo Jul 4 '11 at 14:20
    
This is exactly what I was looking for. Excellent answer! ***** –  El Ninja Trepador Jul 30 '14 at 18:54

From this solution I've observed that os.close(pipe.fileno()) could immediately break the pipe where pipe.close() doesn't until all processes/sub-processes end. You could try that instead. Warning: You cannot use pipe.close() after, but pipe.closed stills return "false". So you could do this to be cleaner:

os.close(pipe.fileno())
pipe=open('/dev/null')
pipe.close()
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