# RSA Decryption Issue C#

RSA Decryption Issue

I am having problems with a C# RSA program. It is not decrypting properly. When I assign `d =(e^-1)%phiN`, and then apply d to my ciphertext it comes up with ridiculous decimal answers. It should come up with a whole number. I think it is a problem with my math. Do you have any advice? If you need details or the rest of the code, please ask. Also, is there a padding scheme I could use to make this code better? Right now this code is vulnerable to frequency analysis.

``````protected void decryptRSA(object sender, EventArgs ev)

{
double p = (double)Convert.ToInt64(P.Text);//I use 123 for testing
double q = (double)Convert.ToInt64(Q.Text);//127
double e = (double)Convert.ToInt64(E.Text);//133
double phiN = (p-1)*(q-1);
double n = p*q;
double d = Math.Pow(e, -1D);
d = d%phiN;

string cipherStr = outputBuffer.Text;
double[] cipherTextDouble = new double[100];
string[]plainText = new string[cipherTextDouble.Length];

cipherTextDouble = parser(cipherStr, 'D');
for(int slot = 0; slot<cipherTextDouble.Length; slot++)
{
cipherTextDouble[slot] = (double)(Math.Pow((double)cipherTextDouble[slot],(double)d)%n);
}
for(int slot = 0; slot<cipherTextDouble.Length; slot++)
{
inputBuffer.Text += Convert.ToChar(cipherTextDouble[slot]) + ' ';//the spot were it dies
//it doesn't like to convert from a decimal like 1.75 to a char. Of course I should never get a decimal like 1.75, which is the problem
}
}
``````
-
don't use double. –  JamesKPolk Jan 15 '12 at 13:00

You are not calculating the exponent correctly. You need to find a number `d` such that `ed = 1 (mod phi)` i.e. the inverse of `e (mod phi)`. This is not the same as calculating the inverse of e in the reals which is what `double d = Math.Pow(e, -1D);` calculates, and then doing the mod operation. This is the reason that you end up with a decimal number (in this case 1/133 ~ 0.007 and 1/133 % 15372 still = 0.007 since `%` is actually a 'remainder' operator in C# and not an integer modulus (otherwise it wouldn't work on a double anyway)).