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I need to generate large prime numbers for a cryptography project. I noticed that .NET 4.0 has some built-in cryptographic primitive (for example RSA) which use random generated large primes (p,q for RSA). Do they all use a common built-in library which is public and can be accessed from outside their class scopes, or do I have to use an external library (I know there are simple algorithms for primality tests, I just don't want to implement more than i have to.).

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Prime numbers must be odd. –  Corbin Dec 10 '11 at 11:15
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@Corbin - not all prime numbers are odd (but large ones would be) –  Damien_The_Unbeliever Dec 10 '11 at 11:16
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I misspoke I suppose. But still, isn't 2 the only non-odd prime? –  Corbin Dec 10 '11 at 11:17
    
Yes, 2 is the only even prime. –  rossum Dec 10 '11 at 12:28
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2 is the oddest prime ... –  DarkSquirrel42 Dec 10 '11 at 13:22

2 Answers 2

up vote 1 down vote accepted

In .NET v4 (and later) Microsoft provides a new assembly, System.Numerics.dll, which includes a BigInteger type. However it does not provide any method to check for primes.

Mono (since before 1.0) also provides a [BigInteger][3] type located in it's Mono.Security.dll assembly. You can either use it as is or port the prime-checking methods (several methods exists) to the new Microsoft BigInteger type.

Do they all use a common built-in library which is public and can be accessed from outside their class scopes

Yes, both RSACryptoServiceProvider and DSACryptoServiceProvider calls into CryptoAPI to do this. However CAPI does not expose it's own BigInteger code (even to native code) so it won't help you.

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Generate a large number in the range you require. Test it to see if it is prime. Reject and repeat if it isn't.

For the testing, just use trial division with primes up to, say, 1500 and then switch to Miller-Rabin. With a properly implemented Miller-Rabin the chances of a hardware failure are greater than mistakenly flagging a composite as prime.

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