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I'm aware of the function BigInteger.probablePrime(int bitLength, Random rnd) that outputs probably prime number of any bit length. I want a REAL prime number in Java. Is there any FOSS library to do so with acceptable performance? Thanks in advance!

EDIT:

I'm looking at 1024 & 2048 bit primes.

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Are you sure you need real prime numbers? In most cases, relative prime is good enough. Most RSA keys are generated with relative prime numbers. –  ZZ Coder May 21 '10 at 13:23
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you probably do not want to write any cryptography stuff if you don't understand that it's more probable that you get struck by lightning the day you won the national lottery than it is probable that probablePrime gets you a non-prime number (when correctly called). It's all about probabilities :) –  SyntaxT3rr0r May 21 '10 at 14:51

5 Answers 5

up vote 8 down vote accepted

edit: Or, if you don't trust the isProbablePrime to be large enough certainty, use the BigInteger constructor BigInteger(int bitLength, int certainty, Random rnd) that lets you tune your certainty threshold:

certainty - a measure of the uncertainty that the caller is willing to tolerate. The probability that the new BigInteger represents a prime number will exceed (1 - 1/2certainty). The execution time of this constructor is proportional to the value of this parameter.

Probabilistic tests used for cryptographic purposes are guaranteed to bound the probability of false positives -- it's not like there's some gotcha numbers that exist that will sneak through, it's just a matter of how low you want the probability to be. If you don't trust the Java BigInteger class to use these (it would be nice if they documented what test was used), use the Rabin-Miller test.

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"fast" is very, very relative here, of course. –  Michael Borgwardt May 21 '10 at 13:24
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+1 - however, it should be noted that the worst case of AKS is O((logN)^12). That is fast compared with factorizing a prime N, but not fast in absolute terms. –  Stephen C May 21 '10 at 13:34
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+1 thanks! Adding certainty surely increases security. –  Viet May 24 '10 at 16:52
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"Adding certainty surely increases security" -- you can be fairly certain but not absolutely certain. ;-) –  Jason S May 24 '10 at 19:02

There are some methods to generate very large primes with acceptable performance, but not with sufficient density for most purposes other than getting into the Guiness Book of Records.

Look at it like this: the likelihood that a number returned by probablePrime() is not prime is lower than the likelihood of you and everyone you know getting hit by lighting. Twice. On a single day.

Just don't worry about it.

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Thanks but I'm looking for cryptographically secure random prime numbers. –  Viet May 21 '10 at 13:06
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@Viet, I'm assuming you want to implement an RSA algorithm? Even the official implementations of these need to use probable primes. –  Martin Konecny May 21 '10 at 13:08
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the cryptographic community uses probable prime tests to generate cryptographically secure random prime numbers. –  Jason S May 21 '10 at 13:09
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So "probable" is an understatement, but they didn't want to name the method almostAlwaysButOnceInABlueMoonNotPrime()... ;-) –  Jesper May 21 '10 at 13:12
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@Viet: Then use probablePrime(). That's what is for. Nobody in the whole wide world knows a better method. And if they did, it would most likely mean that prime-based cryptography has become useless. –  Michael Borgwardt May 21 '10 at 13:19

You could also use the constructor of BigInteger to generate a real prime:

BigInteger(int bitLength, int certainty, Random rnd)

The time to execute is proportional to the certainty, but on my Core i7 it isn't a problem.

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Make a method and wrap it.

BigInteger definitePrime(int bits, Random rnd) {
    BigInteger prime = new BigInteger("4");
    while(!isPrime(prime)) prime = BigInteger.probablePrime(bits,rnd);
    return prime;
}
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Sorry, did you understand what I want? –  Viet May 21 '10 at 13:05
Random rnd = new SecureRandom();
System.out.println(BigInteger.probablePrime(bitLength, rnd));

The probability that a BigInteger returned by method probablePrime() is composite does not exceed 2^-100.

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