I'm trying to generate a uuid for a filename, and I'm also using the multiprocessing module. Unpleasantly, all of my uuids end up exactly the same. Here is a small example:

import multiprocessing
import uuid

def get_uuid( a ):
    ## Doesn't help to cycle through a bunch.
    #for i in xrange(10): uuid.uuid4()

    ## Doesn't help to reload the module.
    #reload( uuid )

    ## Doesn't help to load it at the last minute.
    ## (I simultaneously comment out the module-level import).
    #import uuid

    ## uuid1() does work, but it differs only in the first 8 characters and includes identifying information about the computer.
    #return uuid.uuid1()

    return uuid.uuid4()

def main():
    pool = multiprocessing.Pool( 20 )
    uuids = pool.map( get_uuid, range( 20 ) )
    for id in uuids: print id

if __name__ == '__main__': main()

I peeked into uuid.py's code, and it seems to depending-on-the-platform use some OS-level routines for randomness, so I'm stumped as to a python-level solution (to do something like reload the uuid module or choose a new random seed). I could use uuid.uuid1(), but only 8 digits differ and I think there are derived exclusively from the time, which seems dangerous especially given that I'm multiprocessing (so the code could be executing at exactly the same time). Is there some Wisdom out there about this issue?


This is the correct way to generate your own uuid4, if you need to do that:

import os, uuid
return uuid.UUID(bytes=os.urandom(16), version=4)

Python should be doing this automatically--this code is right out of uuid.uuid4, when the native _uuid_generate_random doesn't exist. There must be something wrong with your platform's _uuid_generate_random.

If you have to do this, don't just work around it yourself and let everyone else on your platform suffer; report the bug.

  • 1
    Sure enough, setting uuid._uuid_generate_random = None does the right thing. Must be a bug in Mac OS X's libc uuid_generate_random(). Thanks for the suggestion to file a bug report: bugs.python.org/issue8621 – yig May 5 '10 at 12:01
  • I also filed a platform bug against Mac OS X: openradar.appspot.com/radar?id=334401 – yig May 5 '10 at 14:19

I dont see a way to make this work either. But you could just generate all the uuids in the main thread and pass them to the workers.


This works fine for me. Does your Python installation have os.urandom? If not, random number seeding will be very poor and would lead to this problem (assuming there's also no native UUID module, uuid._uuid_generate_random).

  • This is on Mac OS X (10.6.3, if it matters). I tested and it works fine on my Ubuntu machine. Both have os.urandom. – yig May 4 '10 at 22:27

Currently, I am working on a script, which fetches file either from a zip archive or disk. After fetching, the payload gets pushed to an external tool via web API. For performance reason, I used the multiprocessing.Pool.map method. And for the tmp file name uuid looked quite handy. But I ran into the same issue you asked here.

First please check out the official docs from uuid. There is an class attribute called is_safe which provides more information if the uuid is multiprocess safe or not. In my case it was not.

After some research, I finally changed my strategy and moved from uuid to process pid and name. Because I just need the uuid for tmp file naming, pid and name also works fine. We can access the current worker Process instance via multiprocessing.current_process(). If you really need an uuid, you could potentially integrate the worker pid somehow.

In addition, uuid uses system entropy for the generation (uuid source). Because for me it does not matter how the file is named, this solution also prevents laking entropy.

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