Ejemplo n.º 1
0
        /// <summary>
        /// Starts key exchange algorithm
        /// </summary>
        /// <param name="session">The session.</param>
        /// <param name="message">Key exchange init message.</param>
        public override void Start(Session session, KeyExchangeInitMessage message)
        {
            base.Start(session, message);

            Session.RegisterMessage("SSH_MSG_KEX_ECDH_REPLY");

            Session.KeyExchangeEcdhReplyMessageReceived += Session_KeyExchangeEcdhReplyMessageReceived;

            DomainParameters = new ECDomainParameters(CurveParameter.Curve,
                                                      CurveParameter.G,
                                                      CurveParameter.N,
                                                      CurveParameter.H,
                                                      CurveParameter.GetSeed());

            var g = new ECKeyPairGenerator();

            g.Init(new ECKeyGenerationParameters(DomainParameters, new SecureRandom()));

            var aKeyPair = g.GenerateKeyPair();

            KeyAgreement = new ECDHCBasicAgreement();
            KeyAgreement.Init(aKeyPair.Private);
            _clientExchangeValue = ((ECPublicKeyParameters)aKeyPair.Public).Q.GetEncoded();

            SendMessage(new KeyExchangeEcdhInitMessage(_clientExchangeValue));
        }
Ejemplo n.º 2
0
        static public byte[] CalculateSharedKey(ECPrivateKeyParameters myKey, ECPublicKeyParameters sharedKey)
        {
            ECDHCBasicAgreement agreement = new ECDHCBasicAgreement();

            agreement.Init(myKey);
            return(agreement.CalculateAgreement(sharedKey).ToByteArray());
        }
Ejemplo n.º 3
0
        public void TestECDHBasicAgreement()
        {
            SecureRandom random = new SecureRandom();

            BigInteger n = new BigInteger("883423532389192164791648750360308884807550341691627752275345424702807307");

            FpCurve curve = new FpCurve(
                new BigInteger("883423532389192164791648750360308885314476597252960362792450860609699839"), // q
                new BigInteger("7fffffffffffffffffffffff7fffffffffff8000000000007ffffffffffc", 16),         // a
                new BigInteger("6b016c3bdcf18941d0d654921475ca71a9db2fb27d1d37796185c2942c0a", 16),         // b
                n, BigInteger.One);

            ECDomainParameters parameters = new ECDomainParameters(
                curve,
                curve.DecodePoint(Hex.Decode("020ffa963cdca8816ccc33b8642bedf905c3d358573d3f27fbbd3b3cb9aaaf")), // G
                n, BigInteger.One);

            ECKeyPairGenerator        pGen     = new ECKeyPairGenerator();
            ECKeyGenerationParameters genParam = new ECKeyGenerationParameters(parameters, random);

            pGen.Init(genParam);

            AsymmetricCipherKeyPair p1 = pGen.GenerateKeyPair();
            AsymmetricCipherKeyPair p2 = pGen.GenerateKeyPair();

            //
            // two way
            //
            IBasicAgreement e1 = new ECDHBasicAgreement();
            IBasicAgreement e2 = new ECDHBasicAgreement();

            e1.Init(p1.Private);
            e2.Init(p2.Private);

            BigInteger k1 = e1.CalculateAgreement(p2.Public);
            BigInteger k2 = e2.CalculateAgreement(p1.Public);

            if (!k1.Equals(k2))
            {
                Fail("calculated agreement test failed");
            }

            //
            // two way
            //
            e1 = new ECDHCBasicAgreement();
            e2 = new ECDHCBasicAgreement();

            e1.Init(p1.Private);
            e2.Init(p2.Private);

            k1 = e1.CalculateAgreement(p2.Public);
            k2 = e2.CalculateAgreement(p1.Public);

            if (!k1.Equals(k2))
            {
                Fail("calculated agreement test failed");
            }
        }
Ejemplo n.º 4
0
        public byte[] GetSharedSecretValue(ECPublicKeyParameters publicKey, ECPrivateKeyParameters privateKey)
        {
            ECDHCBasicAgreement eLacAgreement = new ECDHCBasicAgreement();

            eLacAgreement.Init(privateKey);
            BigInteger eLA = eLacAgreement.CalculateAgreement(publicKey);

            byte[] eLABytes = eLA.ToByteArray();
            return(eLABytes);
        }
Ejemplo n.º 5
0
        public static byte[] simetricKey(string pvtKey, string pubKey)
        {
            AsymmetricKeyParameter publicKey  = (ECPublicKeyParameters)importKey(ReadOnlyParam.PemWritter.beginPublic + pubKey + ReadOnlyParam.PemWritter.endPublic);
            AsymmetricKeyParameter privateKey = ((AsymmetricCipherKeyPair)importKey(ReadOnlyParam.PemWritter.beginPrivate + pvtKey + ReadOnlyParam.PemWritter.endPrivate)).Private;

            ECDHCBasicAgreement acAgreement = new ECDHCBasicAgreement();

            acAgreement.Init(privateKey);
            BigInteger a = acAgreement.CalculateAgreement(publicKey);

            byte[] sharedSecret = a.ToByteArray();

            ECDHKekGenerator egH = new ECDHKekGenerator(DigestUtilities.GetDigest(ReadOnlyParam.sha));

            egH.Init(new DHKdfParameters(NistObjectIdentifiers.Aes, sharedSecret.Length, sharedSecret));
            byte[] symmetricKey = new byte[DigestUtilities.GetDigest(ReadOnlyParam.sha).GetDigestSize()];
            egH.GenerateBytes(symmetricKey, 0, symmetricKey.Length);

            return(symmetricKey);
        }
Ejemplo n.º 6
0
        public static Byte[] getSharedSecret(Byte[] PrivateKeyIn, Byte[] PublicKeyIn)
        {
            ECDHCBasicAgreement    agreement = new ECDHCBasicAgreement();
            X9ECParameters         curve     = null;
            ECDomainParameters     ecParam   = null;
            ECPrivateKeyParameters privKey   = null;
            ECPublicKeyParameters  pubKey    = null;
            ECPoint point = null;

            curve   = NistNamedCurves.GetByName("P-256");
            ecParam = new ECDomainParameters(curve.Curve, curve.G, curve.N, curve.H, curve.GetSeed());
            privKey = new ECPrivateKeyParameters(new BigInteger(PrivateKeyIn), ecParam);
            point   = ecParam.Curve.DecodePoint(PublicKeyIn);
            pubKey  = new ECPublicKeyParameters(point, ecParam);

            agreement.Init(privKey);

            BigInteger secret = agreement.CalculateAgreement(pubKey);

            return(secret.ToByteArrayUnsigned());
        }
Ejemplo n.º 7
0
        static byte[] GetSharedSecretValue(AsymmetricCipherKeyPair asymmetricCipherKeyPair, AsymmetricCipherKeyPair asymmetricCipherKeyPairA, bool isEncrypt = true)
        {
            var eLacAgreement = new ECDHCBasicAgreement();

            eLacAgreement.Init(asymmetricCipherKeyPair.Private);
            ECDHCBasicAgreement acAgreement = new ECDHCBasicAgreement();

            acAgreement.Init(asymmetricCipherKeyPairA.Private);
            var eLA = eLacAgreement.CalculateAgreement(asymmetricCipherKeyPairA.Public);
            var a   = acAgreement.CalculateAgreement(asymmetricCipherKeyPair.Public);

            if (eLA.Equals(a) && !isEncrypt)
            {
                return(eLA.ToByteArray());
            }
            if (eLA.Equals(a) && isEncrypt)
            {
                return(a.ToByteArray());
            }
            return(null);
        }
Ejemplo n.º 8
0
        public byte[] GetSharedSecret(string LocalPrivateKey, string RemoteAccountId)
        {
            //var pvtKey = Base58Encoding.DecodePrivateKey(privateKey);
            //var kp = new Neo.Wallets.KeyPair(pvtKey);
            //return Base58Encoding.EncodeAccountId(kp.PublicKey.EncodePoint(false).Skip(1).ToArray());

            //var curve = SecNamedCurves.GetByName("secp256k1");
            var curve  = SecNamedCurves.GetByName("secp256r1");
            var domain = new ECDomainParameters(curve.Curve, curve.G, curve.N, curve.H);

            //byte[] pkbytes = Base58Encoding.DecodeWithCheckSum(LocalPrivateKey);
            byte[] pkbytes = Base58Encoding.DecodePrivateKey(LocalPrivateKey);

            var privateKeyParameters = new ECPrivateKeyParameters(new BigInteger(1, pkbytes), domain);

            var dh = new ECDHCBasicAgreement();

            dh.Init(privateKeyParameters);


            //var publicKeyBytes = Base58Encoding.DecodeWithCheckSum(RemotePublicKey);
            var publicKeyBytes = Base58Encoding.DecodeAccountId(RemoteAccountId);



            //var q = curve.Curve.DecodePoint(publicKeyBytes);
            var q = curve.Curve.CreatePoint(new BigInteger(1, publicKeyBytes.Take(32).ToArray()), new BigInteger(1, publicKeyBytes.Skip(32).ToArray()));

            var publicKeyParameters = new ECPublicKeyParameters(q, domain);

            var sharedSecret = dh.CalculateAgreement(publicKeyParameters);

            using (var sha = SHA256.Create())
            {
                var hash = sha.ComputeHash(sharedSecret.ToByteArray());
                return(hash);
            }
        }
Ejemplo n.º 9
0
            public bool HasTestPassed(AsymmetricCipherKeyPair kp)
            {
                ECDHCBasicAgreement agreement = new ECDHCBasicAgreement();

                agreement.Init(kp.Private);

                BigInteger agree1 = agreement.CalculateAgreement(kp.Public);

                AsymmetricCipherKeyPair testKP = getTestKeyPair(kp);

                agreement.Init(testKP.Private);

                BigInteger agree2 = agreement.CalculateAgreement(testKP.Public);

                agreement.Init(kp.Private);

                BigInteger agree3 = agreement.CalculateAgreement(testKP.Public);

                agreement.Init(testKP.Private);

                BigInteger agree4 = agreement.CalculateAgreement(kp.Public).Multiply(BigInteger.ValueOf(FipsKats.Values[FipsKats.Vec.ECDHKeyPairConsistencyVec][0]));

                return(!agree1.Equals(agree2) && !agree1.Equals(agree3) && agree3.Equals(agree4));
            }