I'm trying to write a python script to test the randomness of /dev/random, but I can't get it to give me any number. My code looks like this

with open("/dev/random", 'rb') as file: print f.read(10)

which I believe is supposed to print out 10 bytes from /dev/random, but instead of numbers, it prints out weird characters (non-standard letters and no numbers). Any idea what I'm doing wrong?

Thank you!

  • you don't like the python random module? import random;random.randint(1, 100) – monkut Feb 6 '13 at 2:57
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    @monkut, the numbers produced by the random module are "pseudo-random" - they're not truly random, they just do a good imitation. – Mark Ransom Feb 6 '13 at 3:00
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    @HevyLight -- /dev/random does incorporate hardware entropy sources, at least on Linux. en.wikipedia.org/wiki//dev/random It uses network timings, measures times of keypresses, mouse movements, etc. If you have a CPU with a hardware random number instruction, it will use that. And if there isn't enough randomness to fulfill all requests, it will make callers wait while it collects more. The quality of entropy is much higher than a PRNG. – steveha Feb 6 '13 at 3:39
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    @HevyLight I do not think that a randomness system that incorporates entropy is equivalent to a PRNG with a large seed. I was careful not to make any blanket statement such as "/dev/random is a source of truly random bytes". Of course there are problems in certain conditions, but in the general case this is a much better random source than a PRNG. For best results, add additional hardware entropy sources as discussed here: security.stackexchange.com/questions/89/… – steveha Feb 6 '13 at 4:18
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    @steveha This section on Wikipedia sums it up quite well: en.wikipedia.org/wiki/… . PRNGs that are suitable for cryptography are simply CSPRNGs (Cryptographically secure), not true random number generators. Though I'll be totally honest; I would happily take a CSPRNG like most /dev/random implementations unless I was generating keys to Fort Knox. I understand the point you made :). I am thinking of the distinction more from a physics standpoint, not a functional one. – John Colanduoni Feb 6 '13 at 4:22

Python has a builtin function for this (which will also use the appropriate method on other OS's as well)...

import os
print os.urandom(10)
# '\xf1\x11xJOl\xab\xcc\xf0\xfd'

From the docs at http://docs.python.org/2/library/os.html#os.urandom

This function returns random bytes from an OS-specific randomness source. The returned data should be unpredictable enough for cryptographic applications, though its exact quality depends on the OS implementation. On a UNIX-like system this will query /dev/urandom, and on Windows it will use CryptGenRandom. If a randomness source is not found, NotImplementedError will be raised.

If you then wanted those bytes to be a number, you can do so by converting as such:

>>> rand = os.urandom(10)
>>> int(rand.encode('hex'), 16)

Although, /dev/random and /dev/urandom are slightly different, so you can use your existing .read() op and just do the int conversion if the difference is significant to you.

  • Thanks for responding! Does os.urandom use /dev/random, because for this program I HAVE to use the number generator from /dev/random, it's an assignment. So is it the same thing or different? – Northern_Explorer Feb 6 '13 at 2:59
  • @Northern_Explorer yes - see update – Jon Clements Feb 6 '13 at 3:14
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    os.urandom() uses /dev/urandom, the non-blocking random source. The randomness may not be as high quality as /dev/random because it doesn't wait for more randomness if the pool of random bits is low; it just uses a random number generator to gin up some more kinda random bits. – steveha Feb 6 '13 at 3:17
  • @steveha yeah, I just updated the answer LOL – Jon Clements Feb 6 '13 at 3:18
  • I like the trick of using str.encode() to get hexadecimal and then using int() to get an integer value. In my answer I used struct.unpack() which is probably a bit faster, but the way you did it is pretty slick! – steveha Feb 6 '13 at 3:20

You are getting 10 bytes. Python won't automatically turn them into numbers.

I recommend you grab the bytes in multiples of 4, then turn them into 32-bit unsigned integers, then scale them to whatever you need.

EDIT: the old code showed the idea but was poorly divided into functions. Here is the same basic idea but now conveniently packaged into functions.

import os
import struct

_random_source = open("/dev/random", "rb")

def random_bytes(len):
    return _random_source.read(len)

def unpack_uint32(bytes):
    tup = struct.unpack("I", bytes)
    return tup[0]

UINT32_MAX = 0xffffffff
def randint(low, high):
    Return a random integer in the range [low, high], including
    both endpoints.
    n = (high - low) + 1
    assert n >= 1
    scale_factor = n / float(UINT32_MAX + 1)
    random_uint32 = unpack_uint32(random_bytes(4))
    result = int(scale_factor * random_uint32) + low
    return result

def randint_gen(low, high, count):
    Generator that yields random integers in the range [low, high],
    including both endpoints.
    n = (high - low) + 1
    assert n >= 1
    scale_factor = n / float(UINT32_MAX + 1)
    for _ in range(count):
        random_uint32 = unpack_uint32(random_bytes(4))
        result = int(scale_factor * random_uint32) + low
        yield result

if __name__ == "__main__":
    # roll 3 dice individually with randint()
    result = [randint(1, 6) for _ in range(3)]

    # roll 3 dice more efficiently with randint_gen()
    print(list(randint_gen(1, 6, 3)))
  • @Dan good edits; thank you for making those changes. – steveha Jan 16 '14 at 23:17
  • I was actually just improving another edit from the review queue. Most of the important stuff was the original editor's work. – Dan Jan 16 '14 at 23:19
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    @Dan then thanks to you and the original editor. (The revision history just identifies the editor as "Community" so I don't know whom to thank directly.) BTW, now that I took another look at this answer, I felt the code was not well organized and I rewrote it. – steveha Jan 16 '14 at 23:42

It's printing random characters, so just convert them to ints using the ord() function. Something like:

with open("/dev/random", 'rb') as file: print [ord(x) for x in file.read(10)]

This will print a list of 10 random ints from 0 to 255. (I got: [117, 211, 225, 24, 134, 145, 51, 234, 153, 89]).


In Python 3.2 and higher, the following is shorter and probably faster than the solutions in the older answers:

with open("/dev/random", 'rb') as f:
    print(int.from_bytes(f.read(10), 'big'))

This prints a single 80-bit number (range 0 to 2^80-1 inclusive).

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