# How do I find a random BigInteger smaller than another random BigInteger?

How do I Select a random element α ∈ Z∗p? P is a random 1024 bit prime BigInteger.

Here is how I find BigInteger p:

Random rand = new Random(new Date().getTime());

BigInteger p= new BigInteger(1024, rand);

while(!p.isProbablePrime(3))
{
BigInteger p= new BigInteger(1024, rand);
}


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## migrated from crypto.stackexchange.comDec 15 '14 at 12:35

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Why are you selecting a random element within $Z^*_p$? In crypto, the order of the element is usually critical (depending on the intended use); by selecting a random element, you won't know if the order is prime (or, for that matter, nonsmooth). –  poncho Dec 12 '14 at 22:16
In my experience sampling a random number in some $Z_p$ is a pretty normal thing to do. –  Guut Boy Dec 13 '14 at 10:05
@GuutBoy: indeed, selecting a large random value is quite normal. However, he specifically mentioned $Z^*_p$, and not all values in that group are the same. Depending on why he is generating that value, that may be an indication that selecting an arbitrary value may select a value that is weak –  poncho Dec 13 '14 at 23:30
@poncho I needed an element in that set because I was implementing ElGamal's algorithm. This was just a step for it. And I decided to choose 1023 bits random prime instead of a random element which is α ∈ Z∗p. But if you know a function that directly gives a random prime in a given range that will help. –  bug Dec 15 '14 at 16:19

I assume this is Java. In that case you are actually not picking a 1024 bit prime. You are picking a prime between 0 and $2^{1024}$. Take a look at the API though. There is a static method called some thing like probableprime which will give you a probable prime of a given bit length.

Now to sample a number $a \in Z_p$, you can use the method you used before to sample a random number $r$ between 0 and $2^{1024}$. Then check if $r < p$. If not resamble $r$ until you get an $r < p$. This is called rejection sampling, and should be reasonably efficient in this case.

You should, however, make sure that the randomness used by Java is good enough for your purpose.

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For Java you need either new SecureRandom() or possibly - for 1.8 - SecureRandom.getInstanceStrong() to get cryptographically secure random values. –  Maarten Bodewes Dec 13 '14 at 10:34
@Guut Boy I could not find a function which gives a 'random' prime of a given bit lenght in java. For selecting $a \in Z_p$, I think there is no function that directly gives a random prime in a given range. If you know any that will help. I'm now choosing 1023 bit prime instead of selecting in this [0,p-1] range. –  bug Dec 15 '14 at 16:25

I guess what you probably need in practice is a random k-bit prime (cf. Guut Boy's answer). Maurer published an algorithm of generating such a prime that is "provably" prime (in contrast to one that is obtained with the Miller-Rabin test). I have a Python implementation of Maurer's algorithm available at: http://s13.zetaboards.com/Crypto/topic/7234475/1/

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