I am trying to compute 8-character short unique random filenames for, let's say, thousands of files without probable name collision. Is this method safe enough?



To be clearer, I am trying to achieve simplest possible obfuscation of filenames being uploaded to a storage.

I figured out that 8-character string, random enough, would be very efficient and simple way to store tens of thousands of files without probable collision, when implemented right. I don't need guaranteed uniqueness, only high-enough improbability of name collision (talking about only thousands of names).

Files are being stored in concurrent environment, so incrementing shared counter is achievable, but complicated. Storing counter in database would be inefficient.

I am also facing the fact that random() under some circumstances returns same pseudorandom sequences in different processes.

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    By "safe enough", do you mean "I don't have to handle collisions at all", or "collisions will be uncommon enough that it doesn't matter if I handle them inefficiently"? – abarnert Nov 21 '12 at 1:10
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    Stop using md5! Its a broken hash function and makes the output LESS RANDOM because it has problems with its PRNG output. – rook Nov 21 '12 at 2:00
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    @Rook: +1. People generally use it because "it's so much faster than everything else in the library, and I don't really need secure hashes…" but of course if you don't really need secure hashes, you don't need MD5 either, so why not just do urlsafe_b64encode(os.urandom(6)) in the first place? – abarnert Nov 21 '12 at 2:12
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    @Rook Using MD5 here, while pointless, is not going to increase the collision rate. – Nick Johnson Nov 21 '12 at 12:22
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    @PhilGan: What language are you writing in there? – abarnert Nov 21 '12 at 18:55

Is there a reason you can't use tempfile to generate the names?

Functions like mkstemp and NamedTemporaryFile are absolutely guaranteed to give you unique names; nothing based on random bytes is going to give you that.

If for some reason you don't actually want the file created yet (e.g., you're generating filenames to be used on some remote server or something), you can't be perfectly safe, but mktemp is still safer than random names.

Or just keep a 48-bit counter stored in some "global enough" location, so you guarantee going through the full cycle of names before a collision, and you also guarantee knowing when a collision is going to happen.

They're all safer, and simpler, and much more efficient than reading urandom and doing an md5.

If you really do want to generate random names, ''.join(random.choice(my_charset) for _ in range(8)) is also going to be simpler than what you're doing, and more efficient. Even urlsafe_b64encode(os.urandom(6)) is just as random as the MD5 hash, and simpler and more efficient.

The only benefit of the cryptographic randomness and/or cryptographic hash function is in avoiding predictability. If that's not an issue for you, why pay for it? And if you do need to avoid predictability, you almost certainly need to avoid races and other much simpler attacks, so avoiding mkstemp or NamedTemporaryFile is a very bad idea.

Not to mention that, as Root points out in a comment, if you need security, MD5 doesn't actually provide it.

  • I am renaming files being uploaded to the same place, so there is no use of tempfile. Uuid4 is unique enough for anything, but too long. I'm pretty sure 8 chars should be enough to store thousands of names without collision, but I am not sure how to do that. By hashing urandom, I was trying to achieve better randomness. – zahory Nov 21 '12 at 10:09
  • @zahory A UUID is 'too long' by what standard? – Nick Johnson Nov 21 '12 at 12:23
  • @NickJohnson it's too long to be pretty:) Long filenames look ugly in listings. As I wrote before, 8 chars should by enough to store tens of hundreds random unique names without probable collision, I just don't know what's the best way to increase the improbability. – zahory Nov 21 '12 at 13:06
  • @zahory If you want short, you should use a counter. By the birthday paradox, a randomly generated ID has to be at least twice as long as a sequential ID, given the same number of identifiers. – Nick Johnson Nov 21 '12 at 14:02
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    according to my testing, ''.join([random.choice(string.ascii_letters+string.digits+'-_') for ch in range(8)]) gives no collision in millions of strings and is also far more efficient than encoding urandom(). I decided to go this way. – zahory Nov 21 '12 at 14:35

Your current method should be safe enough, but you could also take a look into the uuid module. e.g.

import uuid

print str(uuid.uuid4())[:8]


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    Note that the "4" part of uuid4 is very important. "uuid1" for example generates strings with a fixed prefix based on the host ID. – BoppreH Nov 21 '12 at 1:05
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    This gave me 3 collisions in 100k names. That's probably a bad approach because you're using only 16 chars – JBernardo Nov 21 '12 at 1:20
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    I read elsewhere that truncating uuids is not a good way to generate short random strings. – zahory Nov 21 '12 at 9:54
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    @zahory: Part of the reason for that is the point BoppreH raised. You have to understand how each type of UUID works before you can know how safe it is to truncate them in different ways. – abarnert Nov 21 '12 at 19:00
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    43981 collisions when tried on a list of a million. – sandiprb Aug 13 '17 at 7:43

You can try this

import random
uid_chars = ('a', 'b', 'c', 'd', 'e', 'f', 'g', 'h', 'i', 'j', 'k', 'l', 'm', 'n', 'o', 'p', 'q', 'r', 's', 't', 'u',
             'v', 'w', 'x', 'y', 'z','1','2','3','4','5','6','7','8','9','0')
def short_uid():
    for i in range(0,uid_length):
    return c


print short_uid()

how about a random 8 digit number? random.randrange(10**8)

import random

print random.randrange(10**8)

print '----------------------'

for x in xrange(10):
    print '{:08}'.format(random.randrange(10**8))


$ python foo.py

If you want to ensure that each one is unique, you could keep a list somewhere of the numbers that you've generated so far. Then see if the new number has already been used. Maybe use grep or keep the numbers in a list in memory. A list that big in memory might be too much though.


I am using hashids to convert a timestamp into a unique id. (You can even convert it back to a timestamp if you want).

The drawback with this is if you create ids too fast, you will get a duplicate. But, if you are generating them with time in-between, then this is an option.

Here is an example:

from hashids import Hashids
from datetime import datetime
hashids = Hashids(salt = "lorem ipsum dolor sit amet", alphabet = "ABCDEFGHIJKLMNOPQRSTUVWXYZ1234567890")
print(hashids.encode(int(datetime.today().timestamp()))) #'QJW60PJ1' when I ran it

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