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So, after all, i want to explain the method:

The ideia is to two persons exchange one value through a public channel of comunication without really sending it.

This is how this works:

https://en.wikipedia.org/wiki/Diffie-Hellman


This is my C# code:

    double primemodulus = 251;
    double generator = 11;

    public string TestarGamaValores()
    {
        Random R = new Random();
        double Alice = R.Next(1, 100); //alice exp
        double AliceCalculado = DefaultMod(Alice);

        double Bob = R.Next(1, 100); //bob exp
        double BobCalculado = DefaultMod(Bob);

        //Trocar os calculados entre eles

        double ChaveFinalAlice = CalcularAposTroca(Alice, BobCalculado);
        double ChaveFinalBob = CalcularAposTroca(Bob, AliceCalculado);

        return ("Chave Final Alice: " + ChaveFinalAlice + " Chave Final Bob: " + ChaveFinalBob);
    }
                  //Calculate after exchange
    public double CalcularAposTroca(double MyExp, double HisResultFromHisModulus)
    {
        double genrt = Math.Pow(HisResultFromHisModulus, MyExp);
        double Chave = genrt % primemodulus;
        return Chave;
    }

    public double DefaultMod(double MyExp)
    {
        double genrt = Math.Pow(generator, MyExp);
        double Chave = genrt % primemodulus;
        return Chave;
    }

the only problem is, i cant get the values to be the same. ive reaserched if the formula is ok, and i think i didnt get it wrong, but the C# code seems not to be agreeing.

the results are indeed between 0 and 251 but are always different.

so what am i doing wrong?

is the C# code ok?

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up vote 1 down vote accepted

I think your problem is that you are using double instead of long (integer values), since doubles are stored only as approximations to the real number you might get rounding errors. See also this post Why is modulus operator not working for double in c#?

If you are dealing with larger values you will have to use a Structure with arbitrary size like BigInteger.

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take into account that even long may be not sufficiently large for cryptographic use – DarkSquirrel42 Nov 10 '13 at 13:18
    
@DarkSquirrel42 yes but I wouldn't use a self implemented algorithm for cryptographic use anyway and for his example it should suffice. – Leonard Brünings Nov 10 '13 at 13:20
    
... true....... – DarkSquirrel42 Nov 10 '13 at 13:20
    
Long doesnt do it, Decimal yes, Long it get some ones rigth, double none, decimal all, but decimal is to small for the values i have, if the exp is to big, the values just wont fit in lol. – JaimeASV Nov 10 '13 at 14:03
    
@JaimeASV as DarkSquirrel42 suggested use BigInteger for larger values. – Leonard Brünings Nov 10 '13 at 14:49

you are using double which is a floating point number for something that is mathematicaly not defined for floating point numbers ... the modulo operator ...

i suggest using arbitrary precision integers like BigInteger

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Yes, that worked, this question should have 2 correct answers, because both of them get this to work. Thanks to both :D – JaimeASV Nov 10 '13 at 15:50

I appreciate that You are going to implement the Diffie-Hellman algorithm idea, but for everyone who are looking for a solution I can tell that there is no need to discover the circle again.

The Diffie-Hellman secret key exchange protocol is already implemented here:

System.Security.Cryptography.ECDiffieHellmanCng 

and there is a link to great example of usage: http://msdn.microsoft.com/en-us/library/system.security.cryptography.ecdiffiehellmancng(v=vs.110).aspx

Pay attention to measure the performance of the solution in Your environment before deploy. Process of generation PublicKey takes up to 40ms on my Intel Core I5. :-(

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