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I'm using Python 2.5 on Linux, in multiple parallel FCGI processes. I use

    chars = string.ascii_letters + string.digits
    cookie = ''.join([random.choice(chars) for x in range(32)])

to generate distinct cookies. Assuming that the RNG is seeded from /dev/urandom, and that the sequence of random numbers comes from the Mersenne twister, I would expect that there is practically zero chance of collision.

However, I do see regular collisions, even though only a few (<100) users are logged in at any time.

Why are the random numbers not more random?

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3  
What is chars? If you have a single character in there you'll always have collisions (to illustrate the point) –  Vinko Vrsalovic Sep 2 '09 at 6:08
    
what is the length of chars list? –  Nick Dandoulakis Sep 2 '09 at 6:25
    
I've added my definition of chars now - it's not a single character, but has 62 choices. –  Martin v. Löwis Sep 2 '09 at 7:03
    
If you're out to solve the problem, then why not use the UUID module? Calling uuid4() for a random ID would be sufficient. –  Evan Fosmark Sep 2 '09 at 7:05
    
I have solved the problem (hopefully), by using os.random - which is also one of the option that uuid4 uses; another option is to use random.randrange, in which case I wonder whether uuid4 would generate unique IDs. My question really is why my code doesn't work. –  Martin v. Löwis Sep 2 '09 at 7:10

5 Answers 5

up vote 12 down vote accepted

It shouldn't be generating duplicates.

import random
chars = "abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789"
def gen():
    return ''.join([random.choice(chars) for x in range(32)])

test = [gen() for i in range(100000)]
print len(test), len(set(test)) # 100000 100000

The chances of duplicates is significant with chars = "ab"; 126 duplicates in 1000000 iterations. It's nonexistant with 62.

That said, this isn't a good way to generate cookies, because session cookies need to be unpredictable, to avoid attacks involving stealing other people's session cookies. The Mersenne Twister is not designed for generating secure random numbers. This is what I do:

import os, hashlib
def gen():
    return hashlib.sha1(os.urandom(512)).hexdigest()

test = [gen() for i in range(100000)]
print len(test), len(set(test))

... which should be very secure (which is to say, difficult to take a string of session cookies and guess other existing session cookies from them).

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Why is the Mersenne Twister unsuitable for generating secure cookies? It has a period of 2**19937, so it shouldn't be possible to predict the next value even if you know a few subsequent ones. –  Martin v. Löwis Sep 2 '09 at 7:17
3  
From Wikipedia: "The algorithm in its native form is not suitable for cryptography (unlike Blum Blum Shub). Observing a sufficient number of iterates (624 in the case of MT19937) allows one to predict all future iterates." (en.wikipedia.org/wiki/Mersenne_twister) –  Chris Lutz Sep 2 '09 at 7:19
9  
Just because a random number generator has a long cycle doesn't imply that it's difficult to take a sequence within the cycle and figure out where it is. If I give you the sequence 0, 1, 2, 3..., it has a very long cycle (infinite), yet it's trivial to figure out what the next value is. You need a sequence that's cryptographically secure--where it's difficult to determine the state of the engine from its output. That's what secure hashes are for. I prefer hashing urandom through SHA-1, but hashing MT through SHA-1 is probably fine, too. –  Glenn Maynard Sep 2 '09 at 7:22
1  
In practice, I think urandom internally uses SHA-1 to generate data, at least on Linux. The output of urandom should be cryptographically strong on its own. It's just very simple and cheap to ensure this explicitly by hashing data directly. –  Glenn Maynard Sep 2 '09 at 7:53
2  
I just checked: on Linux, /dev/urandom indeed hashes its output. –  Martin v. Löwis Sep 2 '09 at 8:14

This is definitely not a normal collision scenario:

  • 32 characters with 62 options per character is equivalent to 190 bits (log2(62) * 32)
  • According to the birthday paradox, you should be receiving a collision naturally once every 2**95 cookies, which means never

Could this be a concurrency issue?

  • If so, use different random.Random instances for each thread
  • Can save these instances in thread-local storage (threading.local())
  • On linux, Python should seed them using os.urandom() - not system time - so you should get different streams for each thread.
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He said multiple FCGI processes, not threads. Was that correct, Martin, or did you mean threads? –  Glenn Maynard Sep 2 '09 at 7:26
    
Processes, correct. –  Martin v. Löwis Sep 2 '09 at 7:42
  1. I don't know how your FCGI processes are being spawned, but is it possible that it's using fork() after the Python interpreter has started (and the random module has been imported by something), hence effectively seeding two processes' random._insts from the same source?

  2. Maybe put some debugging in to check that it is correctly seeding from urandom, and not falling back to the less rigorous time-based seed?

eta re comment: man! That's me stumped then; if the RNG always has different state at startup I can't see how you could possibly get collisions. Weird. Would have to put in a lot of state logging to investigate the particular cases which result in collisions, I guess, which sounds like a lot of work trawling through logs. Could it be (1a) the FCGI server usually doesn't fork, but occasionally does (maybe under load, or something)?

Or (3) some higher-level problem such as a broken HTTP proxy passing the same Set-Cookie to multiple clients?

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Thanks for the ideas: 1. I have dumped the state of the RNG at startup, and they are all different. 2. I had it create files good (uses urandom) and bad (uses time); the "good" file was created; the bad file was not. –  Martin v. Löwis Sep 3 '09 at 4:09

I had to erase my original answer, which suggested that generator is not seeded from /dev/urandom, since its source (for Python 3.x) clearly says that it is:

def seed(self, a=None):
    """Initialize internal state from hashable object.

    None or no argument seeds from current time or from an operating
    system specific randomness source if available.

    If a is not None or an int or long, hash(a) is used instead.
    """

    if a is None:
        try:
            a = int(_hexlify(_urandom(16)), 16)
        except NotImplementedError:
            import time
            a = int(time.time() * 256) # use fractional seconds

    super().seed(a)
    self.gauss_next = None

I therefore humbly accept that there are mysteries in the world that I may not be able to decipher.

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Where do you see it seeded from some hash()? In random.py, around line 108, it's seeded from long(_hexlify(_urandom(16)), 16). –  Martin v. Löwis Sep 2 '09 at 7:35
    
Indeed, I just read that myself. –  ilya n. Sep 2 '09 at 7:43
    
If you're really looking into that -- perhaps the next step would be checking that the line a = int(_hexlify(_urandom(16)), 16) doesn't raise NotImplementedError for some strange reason? –  ilya n. Sep 2 '09 at 7:51
    
Thanks for the idea. Alas, I tried, and it all works as it should (i.e. it does get seeded from urandom). –  Martin v. Löwis Sep 2 '09 at 18:28

To avoid the problem, you can use a sequence of cookies, that are guaranteed to be different (you can e.g. use a set). Each time you give a cookie to someone, you take it from the sequence and you add another to it. Another option is to generate a UUID and use that as a cookie.

Another way to avoid the problem could be to hold a private key, and use a (e.g. MD5) checksum of the private key, with a counter value joined to it. The probability for collisions will then be very low. To be safer, add a few more variables to the checksum, like the current time, the ip address of the user, ...

Libraries to generate cookies exist. Any WSGI implementation probably contains a cookie generator.

If you're only interested in how random your strings are, you could generate a file with, say, one million cookies and perform randomness checks on that file. This, however, is not what I would recommend.

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This isn't really my question - I don't want a work-around; I want to understand what's happening. My work-around is to use os.urandom. As for using sequences - that would be bad, since the cookie can be guessed. Using uuids: if the UUID generator uses the random module, they might not be unique. –  Martin v. Löwis Sep 2 '09 at 7:08
    
A UUID can't be guaranteed to be unique. For theoretical reasons, because there are only 2**128 of them, and for practical reasons, because perhaps the code generating them is flawed - in particular if it is very similar to the code I posted, which should also generate unique values, but doesn't. –  Martin v. Löwis Sep 2 '09 at 7:26
    
Better use someone else's "flawed" code that might get better in the future than trying your own stuff, of which you don't know what it actually does. –  pvoosten Sep 2 '09 at 7:31
    
With <i>only 2**128</i> UUIDs, you can assign a unique UUID to every single sand grain on the planet. So I guess for at most a thousand users you will not be in trouble with UUIDs. –  pvoosten Sep 2 '09 at 7:40
    
Better to use something that's flawed which you don't understand, because it might get better? Righto... –  Glenn Maynard Sep 2 '09 at 7:41

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