internal static ECDomainParameters GetECParameters(NamedCurve namedCurve)
	    {
            if (!Enum.IsDefined(typeof(NamedCurve), namedCurve))
                return null;

            string curveName = namedCurve.ToString();

            // Lazily created the first time a particular curve is accessed
	        X9ECParameters ecP = SecNamedCurves.GetByName(curveName);

            if (ecP == null)
                return null;

	        // It's a bit inefficient to do this conversion every time
	        return new ECDomainParameters(ecP.Curve, ecP.G, ecP.N, ecP.H, ecP.GetSeed());
	    }
Exemplo n.º 2
0
        public static ECDomainParameters ReadECParameters(int[] namedCurves, byte[] ecPointFormats, Stream input)
        {
            try
            {
                byte curveType = TlsUtilities.ReadUint8(input);

                switch (curveType)
                {
                case ECCurveType.explicit_prime:
                {
                    CheckNamedCurve(namedCurves, NamedCurve.arbitrary_explicit_prime_curves);

                    BigInteger prime_p      = ReadECParameter(input);
                    BigInteger a            = ReadECFieldElement(prime_p.BitLength, input);
                    BigInteger b            = ReadECFieldElement(prime_p.BitLength, input);
                    byte[]     baseEncoding = TlsUtilities.ReadOpaque8(input);
                    BigInteger order        = ReadECParameter(input);
                    BigInteger cofactor     = ReadECParameter(input);
                    ECCurve    curve        = new FpCurve(prime_p, a, b, order, cofactor);
                    ECPoint    basePoint    = DeserializeECPoint(ecPointFormats, curve, baseEncoding);
                    return(new ECDomainParameters(curve, basePoint, order, cofactor));
                }

                case ECCurveType.explicit_char2:
                {
                    CheckNamedCurve(namedCurves, NamedCurve.arbitrary_explicit_char2_curves);

                    int  m     = TlsUtilities.ReadUint16(input);
                    byte basis = TlsUtilities.ReadUint8(input);
                    if (!ECBasisType.IsValid(basis))
                    {
                        throw new TlsFatalAlert(AlertDescription.illegal_parameter);
                    }

                    int k1 = ReadECExponent(m, input), k2 = -1, k3 = -1;
                    if (basis == ECBasisType.ec_basis_pentanomial)
                    {
                        k2 = ReadECExponent(m, input);
                        k3 = ReadECExponent(m, input);
                    }

                    BigInteger a            = ReadECFieldElement(m, input);
                    BigInteger b            = ReadECFieldElement(m, input);
                    byte[]     baseEncoding = TlsUtilities.ReadOpaque8(input);
                    BigInteger order        = ReadECParameter(input);
                    BigInteger cofactor     = ReadECParameter(input);

                    ECCurve curve = (basis == ECBasisType.ec_basis_pentanomial)
                        ? new F2mCurve(m, k1, k2, k3, a, b, order, cofactor)
                        : new F2mCurve(m, k1, a, b, order, cofactor);

                    ECPoint basePoint = DeserializeECPoint(ecPointFormats, curve, baseEncoding);

                    return(new ECDomainParameters(curve, basePoint, order, cofactor));
                }

                case ECCurveType.named_curve:
                {
                    int namedCurve = TlsUtilities.ReadUint16(input);
                    if (!NamedCurve.RefersToASpecificNamedCurve(namedCurve))
                    {
                        /*
                         * RFC 4492 5.4. All those values of NamedCurve are allowed that refer to a
                         * specific curve. Values of NamedCurve that indicate support for a class of
                         * explicitly defined curves are not allowed here [...].
                         */
                        throw new TlsFatalAlert(AlertDescription.illegal_parameter);
                    }

                    CheckNamedCurve(namedCurves, namedCurve);

                    return(GetParametersForNamedCurve(namedCurve));
                }

                default:
                    throw new TlsFatalAlert(AlertDescription.illegal_parameter);
                }
            }
            catch (Exception e)
            {
                throw new TlsFatalAlert(AlertDescription.illegal_parameter, e);
            }
        }
Exemplo n.º 3
0
        public static ECDomainParameters ReadECParameters(int[] namedCurves, byte[] ecPointFormats, Stream input)
        {
            ECDomainParameters result;

            try
            {
                switch (TlsUtilities.ReadUint8(input))
                {
                case 1:
                {
                    TlsEccUtilities.CheckNamedCurve(namedCurves, 65281);
                    BigInteger bigInteger  = TlsEccUtilities.ReadECParameter(input);
                    BigInteger a           = TlsEccUtilities.ReadECFieldElement(bigInteger.BitLength, input);
                    BigInteger b           = TlsEccUtilities.ReadECFieldElement(bigInteger.BitLength, input);
                    byte[]     encoding    = TlsUtilities.ReadOpaque8(input);
                    BigInteger bigInteger2 = TlsEccUtilities.ReadECParameter(input);
                    BigInteger bigInteger3 = TlsEccUtilities.ReadECParameter(input);
                    ECCurve    curve       = new FpCurve(bigInteger, a, b, bigInteger2, bigInteger3);
                    ECPoint    g           = TlsEccUtilities.DeserializeECPoint(ecPointFormats, curve, encoding);
                    result = new ECDomainParameters(curve, g, bigInteger2, bigInteger3);
                    break;
                }

                case 2:
                {
                    TlsEccUtilities.CheckNamedCurve(namedCurves, 65282);
                    int  num = TlsUtilities.ReadUint16(input);
                    byte b2  = TlsUtilities.ReadUint8(input);
                    if (!ECBasisType.IsValid(b2))
                    {
                        throw new TlsFatalAlert(47);
                    }
                    int num2 = TlsEccUtilities.ReadECExponent(num, input);
                    int k    = -1;
                    int k2   = -1;
                    if (b2 == 2)
                    {
                        k  = TlsEccUtilities.ReadECExponent(num, input);
                        k2 = TlsEccUtilities.ReadECExponent(num, input);
                    }
                    BigInteger a2          = TlsEccUtilities.ReadECFieldElement(num, input);
                    BigInteger b3          = TlsEccUtilities.ReadECFieldElement(num, input);
                    byte[]     encoding2   = TlsUtilities.ReadOpaque8(input);
                    BigInteger bigInteger4 = TlsEccUtilities.ReadECParameter(input);
                    BigInteger bigInteger5 = TlsEccUtilities.ReadECParameter(input);
                    ECCurve    curve2      = (b2 == 2) ? new F2mCurve(num, num2, k, k2, a2, b3, bigInteger4, bigInteger5) : new F2mCurve(num, num2, a2, b3, bigInteger4, bigInteger5);
                    ECPoint    g2          = TlsEccUtilities.DeserializeECPoint(ecPointFormats, curve2, encoding2);
                    result = new ECDomainParameters(curve2, g2, bigInteger4, bigInteger5);
                    break;
                }

                case 3:
                {
                    int namedCurve = TlsUtilities.ReadUint16(input);
                    if (!NamedCurve.RefersToASpecificNamedCurve(namedCurve))
                    {
                        throw new TlsFatalAlert(47);
                    }
                    TlsEccUtilities.CheckNamedCurve(namedCurves, namedCurve);
                    result = TlsEccUtilities.GetParametersForNamedCurve(namedCurve);
                    break;
                }

                default:
                    throw new TlsFatalAlert(47);
                }
            }
            catch (Exception alertCause)
            {
                throw new TlsFatalAlert(47, alertCause);
            }
            return(result);
        }
Exemplo n.º 4
0
        // TODO Refactor around ServerECDHParams before making this public
        internal static ECPrivateKeyParameters GenerateEphemeralServerKeyExchange(SecureRandom random, int[] namedCurves,
                                                                                  byte[] ecPointFormats, Stream output)
        {
            /* First we try to find a supported named curve from the client's list. */
            int namedCurve = -1;

            if (namedCurves == null)
            {
                // TODO Let the peer choose the default named curve
                namedCurve = NamedCurve.secp256r1;
            }
            else
            {
                for (int i = 0; i < namedCurves.Length; ++i)
                {
                    int entry = namedCurves[i];
                    if (NamedCurve.IsValid(entry) && IsSupportedNamedCurve(entry))
                    {
                        namedCurve = entry;
                        break;
                    }
                }
            }

            ECDomainParameters ecParams = null;

            if (namedCurve >= 0)
            {
                ecParams = GetParametersForNamedCurve(namedCurve);
            }
            else
            {
                /* If no named curves are suitable, check if the client supports explicit curves. */
                if (Arrays.Contains(namedCurves, NamedCurve.arbitrary_explicit_prime_curves))
                {
                    ecParams = GetParametersForNamedCurve(NamedCurve.secp256r1);
                }
                else if (Arrays.Contains(namedCurves, NamedCurve.arbitrary_explicit_char2_curves))
                {
                    ecParams = GetParametersForNamedCurve(NamedCurve.sect283r1);
                }
            }

            if (ecParams == null)
            {
                /*
                 * NOTE: We shouldn't have negotiated ECDHE key exchange since we apparently can't find
                 * a suitable curve.
                 */
                throw new TlsFatalAlert(AlertDescription.internal_error);
            }

            if (namedCurve < 0)
            {
                WriteExplicitECParameters(ecPointFormats, ecParams, output);
            }
            else
            {
                WriteNamedECParameters(namedCurve, output);
            }

            return(GenerateEphemeralClientKeyExchange(random, ecPointFormats, ecParams, output));
        }
Exemplo n.º 5
0
        public override byte[] GenerateServerKeyExchange()
        {
            /*
             * First we try to find a supported named curve from the client's list.
             */
            int namedCurve = -1;

            if (mNamedCurves == null)
            {
                // TODO Let the peer choose the default named curve
                namedCurve = NamedCurve.secp256r1;
            }
            else
            {
                for (int i = 0; i < mNamedCurves.Length; ++i)
                {
                    int entry = mNamedCurves[i];
                    if (NamedCurve.IsValid(entry) && TlsEccUtilities.IsSupportedNamedCurve(entry))
                    {
                        namedCurve = entry;
                        break;
                    }
                }
            }

            ECDomainParameters curve_params = null;

            if (namedCurve >= 0)
            {
                curve_params = TlsEccUtilities.GetParametersForNamedCurve(namedCurve);
            }
            else
            {
                /*
                 * If no named curves are suitable, check if the client supports explicit curves.
                 */
                if (Arrays.Contains(mNamedCurves, NamedCurve.arbitrary_explicit_prime_curves))
                {
                    curve_params = TlsEccUtilities.GetParametersForNamedCurve(NamedCurve.secp256r1);
                }
                else if (Arrays.Contains(mNamedCurves, NamedCurve.arbitrary_explicit_char2_curves))
                {
                    curve_params = TlsEccUtilities.GetParametersForNamedCurve(NamedCurve.sect283r1);
                }
            }

            if (curve_params == null)
            {
                /*
                 * NOTE: We shouldn't have negotiated ECDHE key exchange since we apparently can't find
                 * a suitable curve.
                 */
                throw new TlsFatalAlert(AlertDescription.internal_error);
            }

            AsymmetricCipherKeyPair kp = TlsEccUtilities.GenerateECKeyPair(context.SecureRandom, curve_params);

            this.mECAgreePrivateKey = (ECPrivateKeyParameters)kp.Private;

            DigestInputBuffer buf = new DigestInputBuffer();

            if (namedCurve < 0)
            {
                TlsEccUtilities.WriteExplicitECParameters(mClientECPointFormats, curve_params, buf);
            }
            else
            {
                TlsEccUtilities.WriteNamedECParameters(namedCurve, buf);
            }

            ECPublicKeyParameters ecPublicKey = (ECPublicKeyParameters)kp.Public;

            TlsEccUtilities.WriteECPoint(mClientECPointFormats, ecPublicKey.Q, buf);

            /*
             * RFC 5246 4.7. digitally-signed element needs SignatureAndHashAlgorithm from TLS 1.2
             */
            SignatureAndHashAlgorithm signatureAndHashAlgorithm;
            IDigest d;

            if (TlsUtilities.IsTlsV12(context))
            {
                signatureAndHashAlgorithm = mServerCredentials.SignatureAndHashAlgorithm;
                if (signatureAndHashAlgorithm == null)
                {
                    throw new TlsFatalAlert(AlertDescription.internal_error);
                }

                d = TlsUtilities.CreateHash(signatureAndHashAlgorithm.Hash);
            }
            else
            {
                signatureAndHashAlgorithm = null;
                d = new CombinedHash();
            }

            SecurityParameters securityParameters = context.SecurityParameters;

            d.BlockUpdate(securityParameters.clientRandom, 0, securityParameters.clientRandom.Length);
            d.BlockUpdate(securityParameters.serverRandom, 0, securityParameters.serverRandom.Length);
            buf.UpdateDigest(d);

            byte[] hash = DigestUtilities.DoFinal(d);

            byte[] signature = mServerCredentials.GenerateCertificateSignature(hash);

            DigitallySigned signed_params = new DigitallySigned(signatureAndHashAlgorithm, signature);

            signed_params.Encode(buf);

            return(buf.ToArray());
        }