Ejemplo n.º 1
0
        public static ASNLSignatureType Generate(List <byte[]> x, List <Cryptography.ECC.ECPoint> P1, List <Cryptography.ECC.ECPoint> P2, List <int> indices)
        {
            List <byte[]> s1 = new List <byte[]>();

            ASNLSignatureType asnlSig = new ASNLSignatureType();

            asnlSig.InitSField();

            for (int i = 0; i < AMOUNT_SIZE; i++)
            {
                SchnorrSignatureType schnorrSig = SchnorrNonLinkable.Generate(x[i], P1[i], P2[i], indices[i]);

                if (!SchnorrNonLinkable.Verify(P1[i], P2[i], schnorrSig))
                {
                    throw new Exception("Schnorr Sign Error!");
                }

                asnlSig.L1.Add(schnorrSig.L1);
                s1.Add(schnorrSig.s1);
                asnlSig.s2.Add(schnorrSig.s2);

                asnlSig.s = ScalarFunctions.Add(asnlSig.s, s1[i]);
            }

            return(asnlSig.Exports());
        }
Ejemplo n.º 2
0
        public static EcdhTuple EcdhEncode(this EcdhTuple unmask, ECPoint receiverPk)
        {
            EcdhTuple ret = new EcdhTuple();

            byte[] esk = SchnorrNonLinkable.GenerateRandomScalar();
            ret.senderPK = ECCurve.Secp256r1.G * esk;

            byte[] sharedSec1 = Cryptography.Crypto.Default.Hash256(ScalarFunctions.MulWithPoint(receiverPk, esk));
            byte[] sharedSec2 = Cryptography.Crypto.Default.Hash256(sharedSec1);

            ret.mask   = ScalarFunctions.Add(unmask.mask, sharedSec1);
            ret.amount = ScalarFunctions.Add(unmask.amount, sharedSec2);
            return(ret);
        }
Ejemplo n.º 3
0
        public static MLSAGSignatureType Generate(List <List <ECPoint> > PK, List <byte[]> X, int index)
        {
            MLSAGSignatureType sig = new MLSAGSignatureType();

            int rows = PK[0].Count;
            int cols = PK.Count;

            #region Initialize
            for (int j = 0; j < cols; j++)
            {
                sig.ss.Add(new List <byte[]>());
            }
            #endregion

            if (cols < 2)
            {
                throw new Exception("Error! What is c if cols = 1!");
            }

            List <byte[]>  alpha = new List <byte[]>();
            List <ECPoint> aG    = new List <ECPoint>();
            List <byte[]>  aHP   = new List <byte[]>();

            List <ECPoint> Li = new List <ECPoint>();
            List <byte[]>  Ri = new List <byte[]>();

            for (int j = 0; j < rows; j++)
            {
                byte[] a = SchnorrNonLinkable.GenerateRandomScalar();
                alpha.Add(a);
                aG.Add(ECCurve.Secp256r1.G * a);

                byte[] Hi = Crypto.Default.Hash256(PK[index][j].ToString().HexToBytes());
                aHP.Add(ScalarFunctions.Mul(a, Hi));

                sig.II.Add(ScalarFunctions.Mul(X[j], Hi));
            }

            byte[] c_old = MakeHash(PK[index], aG, aHP);

            int i = (index + 1) % cols;

            if (i == 0)
            {
                Buffer.BlockCopy(c_old, 0, sig.cc, 0, c_old.Length);
            }

            while (i != index)
            {
                for (int j = 0; j < rows; j++)
                {
                    sig.ss[i].Add(SchnorrNonLinkable.GenerateRandomScalar());
                }

                byte[] c = new byte[32];

                Li.Clear();
                Ri.Clear();
                for (int j = 0; j < rows; j++)
                {
                    ECPoint L  = ECCurve.Secp256r1.G * sig.ss[i][j] + PK[i][j] * c_old;
                    byte[]  Hi = Crypto.Default.Hash256(PK[i][j].ToString().HexToBytes());
                    byte[]  R  = ScalarFunctions.Add(ScalarFunctions.Mul(sig.ss[i][j], Hi), ScalarFunctions.Mul(c_old, sig.II[j]));

                    Li.Add(L);
                    Ri.Add(R);
                }

                c_old = MakeHash(PK[i], Li, Ri);

                i = (i + 1) % cols;

                if (i == 0)
                {
                    Buffer.BlockCopy(c_old, 0, sig.cc, 0, c_old.Length);
                }
            }

            for (int j = 0; j < rows; j++)
            {
                sig.ss[index].Add(ScalarFunctions.MulSub(c_old, X[j], alpha[j]));
            }

            return(sig);
        }