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I am asked:

Using your raspberry pi, write a python script that determines the randomness of /dev/random and /dev/urandom. Read bytes and histogram the results. Plot in matplotlib. For your answer include the python script.

I am currently lost on the phrasing "determines the randomness."

I can read from urandom and random with:

#rb - reading as binary
devrndm = open("/dev/random", 'rb')
#read to a file instead of mem?
rndmdata = devrndm.read(25) #read 25bytes


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

I think the purpose of this exercise was to find out that urandom is faster and has a larger pool than random. However if I try to read anything over ~15 the time to read seems to increase exponentially.

So I am lost right now on how to compare 'randomness'. If I read both urandom and random in to respective files how could I compare them?

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The following, and links therein, might be a good start: en.wikipedia.org/wiki/Randomness_tests –  NPE Feb 6 '13 at 21:05
I think they mean "Read bytes and histogram the results. Plot in matplotlib.". –  nneonneo Feb 6 '13 at 21:13
Although uniform distribution doesn't mean randomness. –  wRAR Feb 6 '13 at 23:12

2 Answers 2

up vote 2 down vote accepted

Could it be as simple as:

In [664]: f = open("/dev/random", "rb")
In [665]: len(set(f.read(256)))
Out[665]: 169

In [666]: ff = open("/dev/urandom", "rb")
In [667]: len(set(ff.read(256)))
Out[667]: 167

In [669]: len(set(f.read(512)))
Out[669]: 218

In [670]: len(set(ff.read(512)))
Out[670]: 224

ie. asking for 256 bytes doesn't give back 256 unique values. So you could plot increasing sample sizes against the unique count until it reaches the 256 saturation point.

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Your experience may be exactly what they're looking for. From the man page of urandom(4):

When read, the /dev/random device will only return random bytes within the estimated number of bits of noise in the entropy pool. /dev/random should be suitable for uses that need very high quality randomness such as one-time pad or key generation. When the entropy pool is empty, reads from /dev/random will block until addi‐ tional environmental noise is gathered.

A read from the /dev/urandom device will not block waiting for more entropy.

Note the bit about blocking. urandom won't, random will. Particularly in an embedded context, additional entropy may be hard to come by, which would lead to the blocking you see.

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Add to the fact that you can add manual entropies and environmental noise, a good deal of information can be found here: calomel.org/entropy_random_number_generators.html –  Torxed Feb 6 '13 at 21:21
The question is about the quality of the output and not about blocking or times. –  wRAR Feb 6 '13 at 22:05
it does ask about the time to read increasing, which is what I responded to. –  Paul Rubel Feb 7 '13 at 17:31

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