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The slowest part of my code is that I use Bouncy Castle's "BigInteger.Multiply()" method. To try and speed things up I'm attempting to insert the code below to see if there is any improvement.

I know that I'm not doing something right, because I'm getting many errors and exceptions when Bouncy Castle see the BigInteger I'm sending to it:

         if (this.sign != 1 || val.sign != 1)
        {
            //todo: test encoding, twos compliment
        }
        var tempThis = this.ToByteArrayUnsigned();
        Array.Reverse(tempThis);
        System.Numerics.BigInteger aThis = new System.Numerics.BigInteger(tempThis);

        var tempThat = val.ToByteArrayUnsigned();
        Array.Reverse(tempThat);
        System.Numerics.BigInteger bThat = new System.Numerics.BigInteger(tempThat);
        var msResult = System.Numerics.BigInteger.Multiply(aThis, bThat);

        var tmpRet = msResult.ToByteArray();
        Array.Reverse(tmpRet);
        var ret = new BigInteger(tmpRet);
        return ret;

This is the original BC function

    public BigInteger Multiply(     BigInteger val)
    {

       // THEORY: If I use the native System.Numerics here, then I might get better performance

        if (val == this)
            return Square();

        if ((sign & val.sign) == 0)
            return Zero;

        if (val.QuickPow2Check()) // val is power of two
        {
            BigInteger result = this.ShiftLeft(val.Abs().BitLength - 1);
            return val.sign > 0 ? result : result.Negate();
        }

        if (this.QuickPow2Check()) // this is power of two
        {
            BigInteger result = val.ShiftLeft(this.Abs().BitLength - 1);
            return this.sign > 0 ? result : result.Negate();
        }

        int resLength = magnitude.Length + val.magnitude.Length;
        int[] res = new int[resLength];

        Multiply(res, this.magnitude, val.magnitude);

        int resSign = sign ^ val.sign ^ 1;
        return new BigInteger(resSign, res, true);
    }
share|improve this question
    
The integers you're operating on are not secret? – CodesInChaos Feb 13 '14 at 15:42
    
@CodesInChaos Does the secrecy/privacy of the number matter when doing BigInteger operations? Is this something I should be concerned about on a multi-tenant environment / shared system, or just my lone PC. (or OSX running Parallels + Windows 8?) – LamonteCristo Feb 13 '14 at 15:58
    
If you use crypto in a network app or you run untrusted applications (even in a VM), you should use a side channel resistant implementation. – CodesInChaos Feb 13 '14 at 16:12
    
@CodesInChaos Understood. In my situation I'm only verifying signatures, namely the Bitcoin Blockchain in .NET. If I do use secrets, I would offline a system and vanitygen a key using MSFT Big Integer, then import it into the trusted system. Is that OK? – LamonteCristo Feb 13 '14 at 16:17
1  
You could re-formulate your question to be more general. All you want to know is how to convert Org.BouncyCastle.Math.BigInteger to CSharp.Numerics.BigInteger. – Niels Abildgaard Mar 11 '14 at 16:36

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