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I need to implement RSA encryption/decryption using C#

I have a private key with following parameters:

mod n, exponent, p, q, dP, dQ, and (p-1mod q)

Above parameters are explained in Chinese remainder algorithm

However C#.NET implementation of the RSA has different parameter set as following:

Modulus, Exponent, P, Q, DP, DQ, D, InverseQ

When I'm trying to map the data from CRT to DOTNET, I get error Bad Data

For p,q, dP and dQ the mapping is obvious but about the rest of parameters I'm not sure.

It would be great if I can get help mapping these paramters

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2 Answers 2

up vote 5 down vote accepted

mod n maps to Modulus, p-1mod q maps to InverseQ, the encryption exponent maps to Exponent and the decryption exponent maps to D.

The encryption exponent e and the decryption exponent d are related by e*d = 1 mod (p-1)(q-1). Thus if you have one them you can easily derive the other use a few methods from the System.Numerics.BigInteger class.

var Pminus1 = BigInteger.Subtract(P, BigInteger.One);
var Qminus1 = BigInteger.Subtract(Q, BigInteger.One);
var Phi = BigInteger.Multiply(Pminus1, Qminus1);
var PhiMinus1 = BigInteger.Subtract(Phi, BigInteger.One);
// var D = BigInteger.ModPow(E, PhiMinus1, Phi);

Note that care must be taken when constructing a .NET BigInteger, especially if you are used to Java's BigInteger class. See this question for more information.


As CodeInChaos points out that last line is WRONG!


I am embarrassed. In a bow to the forces of evil the BigInteger class does not have a modular inverse method nor an extended euclidean algorithm method. You can nevertheless google for 'c # extended euclidean algorithm' you can find many implementations. The extended euclidean algorithm will give you integers x and y such that 1 = e*x + phi * y. x is the inverse of e mod phi, so setting D = x mod phi is what is needed.

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GregS, In my case I only have one exponent which is an prime number. should I use it as both encryption and decryption exponents? In other words assign same number to both D and Exponent? –  BobSort Jan 8 '13 at 1:57
No, the encrypt and decrypt exponents are different, although one can be derived from other when you have both the primes. –  GregS Jan 8 '13 at 2:56
When I generate RSA key in C#, D is same size as Modulus (128bytes or 1024bits). As you can see in question, my data does not have D or anything named Encryption/Decryption Exponent. Is there any practical reference to calculate D from given Data. All the sample codes that I could find use an integer Modulus (2 bytes) which is not my case –  BobSort Jan 8 '13 at 3:30
Thanks for your answer. According to your answer in Why is RSAParameters Modulus not equal product of P and Q I assume I need to reverse the p and q before using your method. For Completeness, Could you please include that in your answer too? –  BobSort Jan 8 '13 at 4:06
I tried D calculation with your suggested way on a pre-generated key which didn't work. I posted it as a different question as it wasn't related to this one. Hope you can point out my mistake. Here is the Question –  BobSort Jan 9 '13 at 6:08

D can be calculated like this:

    var qq = BigInteger.Multiply(phi, n);
    var qw = BigInteger.Multiply(phi, qq);
    BigInteger D = BigInteger.ModPow(e, (qw - 1), phi);
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