**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 - 1/2^{certainty}). 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.

notwant 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 thatprobablePrimegets you a non-prime number (when correctly called). It's all about probabilities :) – SyntaxT3rr0r May 21 '10 at 14:51