public static PrivateKeyInfo CreatePrivateKeyInfo( AsymmetricKeyParameter key) { if (key == null) throw new ArgumentNullException("key"); if (!key.IsPrivate) throw new ArgumentException("Public key passed - private key expected", "key"); if (key is ElGamalPrivateKeyParameters) { ElGamalPrivateKeyParameters _key = (ElGamalPrivateKeyParameters)key; return new PrivateKeyInfo( new AlgorithmIdentifier( OiwObjectIdentifiers.ElGamalAlgorithm, new ElGamalParameter( _key.Parameters.P, _key.Parameters.G).ToAsn1Object()), new DerInteger(_key.X)); } if (key is DsaPrivateKeyParameters) { DsaPrivateKeyParameters _key = (DsaPrivateKeyParameters)key; return new PrivateKeyInfo( new AlgorithmIdentifier( X9ObjectIdentifiers.IdDsa, new DsaParameter( _key.Parameters.P, _key.Parameters.Q, _key.Parameters.G).ToAsn1Object()), new DerInteger(_key.X)); } if (key is DHPrivateKeyParameters) { DHPrivateKeyParameters _key = (DHPrivateKeyParameters)key; DHParameter p = new DHParameter( _key.Parameters.P, _key.Parameters.G, _key.Parameters.L); return new PrivateKeyInfo( new AlgorithmIdentifier(_key.AlgorithmOid, p.ToAsn1Object()), new DerInteger(_key.X)); } if (key is RsaKeyParameters) { AlgorithmIdentifier algID = new AlgorithmIdentifier( PkcsObjectIdentifiers.RsaEncryption, DerNull.Instance); RsaPrivateKeyStructure keyStruct; if (key is RsaPrivateCrtKeyParameters) { RsaPrivateCrtKeyParameters _key = (RsaPrivateCrtKeyParameters)key; keyStruct = new RsaPrivateKeyStructure( _key.Modulus, _key.PublicExponent, _key.Exponent, _key.P, _key.Q, _key.DP, _key.DQ, _key.QInv); } else { RsaKeyParameters _key = (RsaKeyParameters) key; keyStruct = new RsaPrivateKeyStructure( _key.Modulus, BigInteger.Zero, _key.Exponent, BigInteger.Zero, BigInteger.Zero, BigInteger.Zero, BigInteger.Zero, BigInteger.Zero); } return new PrivateKeyInfo(algID, keyStruct.ToAsn1Object()); } if (key is ECPrivateKeyParameters) { ECPrivateKeyParameters _key = (ECPrivateKeyParameters)key; AlgorithmIdentifier algID; ECPrivateKeyStructure ec; if (_key.AlgorithmName == "ECGOST3410") { if (_key.PublicKeyParamSet == null) throw Platform.CreateNotImplementedException("Not a CryptoPro parameter set"); Gost3410PublicKeyAlgParameters gostParams = new Gost3410PublicKeyAlgParameters( _key.PublicKeyParamSet, CryptoProObjectIdentifiers.GostR3411x94CryptoProParamSet); algID = new AlgorithmIdentifier( CryptoProObjectIdentifiers.GostR3410x2001, gostParams.ToAsn1Object()); // TODO Do we need to pass any parameters here? ec = new ECPrivateKeyStructure(_key.D); } else { X962Parameters x962; if (_key.PublicKeyParamSet == null) { ECDomainParameters kp = _key.Parameters; X9ECParameters ecP = new X9ECParameters(kp.Curve, kp.G, kp.N, kp.H, kp.GetSeed()); x962 = new X962Parameters(ecP); } else { x962 = new X962Parameters(_key.PublicKeyParamSet); } Asn1Object x962Object = x962.ToAsn1Object(); // TODO Possible to pass the publicKey bitstring here? ec = new ECPrivateKeyStructure(_key.D, x962Object); algID = new AlgorithmIdentifier(X9ObjectIdentifiers.IdECPublicKey, x962Object); } return new PrivateKeyInfo(algID, ec.ToAsn1Object()); } if (key is Gost3410PrivateKeyParameters) { Gost3410PrivateKeyParameters _key = (Gost3410PrivateKeyParameters)key; if (_key.PublicKeyParamSet == null) throw Platform.CreateNotImplementedException("Not a CryptoPro parameter set"); byte[] keyEnc = _key.X.ToByteArrayUnsigned(); byte[] keyBytes = new byte[keyEnc.Length]; for (int i = 0; i != keyBytes.Length; i++) { keyBytes[i] = keyEnc[keyEnc.Length - 1 - i]; // must be little endian } Gost3410PublicKeyAlgParameters algParams = new Gost3410PublicKeyAlgParameters( _key.PublicKeyParamSet, CryptoProObjectIdentifiers.GostR3411x94CryptoProParamSet, null); AlgorithmIdentifier algID = new AlgorithmIdentifier( CryptoProObjectIdentifiers.GostR3410x94, algParams.ToAsn1Object()); return new PrivateKeyInfo(algID, new DerOctetString(keyBytes)); } throw new ArgumentException("Class provided is not convertible: " + key.GetType().FullName); }
/** * Read a Key Pair */ private object ReadPrivateKey(PemObject pemObject) { // // extract the key // Debug.Assert(pemObject.Type.EndsWith("PRIVATE KEY")); string type = pemObject.Type.Substring(0, pemObject.Type.Length - "PRIVATE KEY".Length).Trim(); byte[] keyBytes = pemObject.Content; IDictionary fields = Platform.CreateHashtable(); foreach (PemHeader header in pemObject.Headers) { fields[header.Name] = header.Value; } string procType = (string) fields["Proc-Type"]; if (procType == "4,ENCRYPTED") { if (pFinder == null) throw new PasswordException("No password finder specified, but a password is required"); char[] password = pFinder.GetPassword(); if (password == null) throw new PasswordException("Password is null, but a password is required"); string dekInfo = (string) fields["DEK-Info"]; string[] tknz = dekInfo.Split(','); string dekAlgName = tknz[0].Trim(); byte[] iv = Hex.Decode(tknz[1].Trim()); keyBytes = PemUtilities.Crypt(false, keyBytes, password, dekAlgName, iv); } try { AsymmetricKeyParameter pubSpec, privSpec; Asn1Sequence seq = (Asn1Sequence) Asn1Object.FromByteArray(keyBytes); switch (type) { case "RSA": { if (seq.Count != 9) throw new PemException("malformed sequence in RSA private key"); RsaPrivateKeyStructure rsa = new RsaPrivateKeyStructure(seq); pubSpec = new RsaKeyParameters(false, rsa.Modulus, rsa.PublicExponent); privSpec = new RsaPrivateCrtKeyParameters( rsa.Modulus, rsa.PublicExponent, rsa.PrivateExponent, rsa.Prime1, rsa.Prime2, rsa.Exponent1, rsa.Exponent2, rsa.Coefficient); break; } case "DSA": { if (seq.Count != 6) throw new PemException("malformed sequence in DSA private key"); // TODO Create an ASN1 object somewhere for this? //DerInteger v = (DerInteger)seq[0]; DerInteger p = (DerInteger)seq[1]; DerInteger q = (DerInteger)seq[2]; DerInteger g = (DerInteger)seq[3]; DerInteger y = (DerInteger)seq[4]; DerInteger x = (DerInteger)seq[5]; DsaParameters parameters = new DsaParameters(p.Value, q.Value, g.Value); privSpec = new DsaPrivateKeyParameters(x.Value, parameters); pubSpec = new DsaPublicKeyParameters(y.Value, parameters); break; } case "EC": { ECPrivateKeyStructure pKey = new ECPrivateKeyStructure(seq); AlgorithmIdentifier algId = new AlgorithmIdentifier( X9ObjectIdentifiers.IdECPublicKey, pKey.GetParameters()); PrivateKeyInfo privInfo = new PrivateKeyInfo(algId, pKey.ToAsn1Object()); // TODO Are the keys returned here ECDSA, as Java version forces? privSpec = PrivateKeyFactory.CreateKey(privInfo); DerBitString pubKey = pKey.GetPublicKey(); if (pubKey != null) { SubjectPublicKeyInfo pubInfo = new SubjectPublicKeyInfo(algId, pubKey.GetBytes()); // TODO Are the keys returned here ECDSA, as Java version forces? pubSpec = PublicKeyFactory.CreateKey(pubInfo); } else { pubSpec = ECKeyPairGenerator.GetCorrespondingPublicKey( (ECPrivateKeyParameters)privSpec); } break; } case "ENCRYPTED": { char[] password = pFinder.GetPassword(); if (password == null) throw new PasswordException("Password is null, but a password is required"); return PrivateKeyFactory.DecryptKey(password, EncryptedPrivateKeyInfo.GetInstance(seq)); } case "": { return PrivateKeyFactory.CreateKey(PrivateKeyInfo.GetInstance(seq)); } default: throw new ArgumentException("Unknown key type: " + type, "type"); } return new AsymmetricCipherKeyPair(pubSpec, privSpec); } catch (IOException e) { throw e; } catch (Exception e) { throw new PemException( "problem creating " + type + " private key: " + e.ToString()); } }
public static AsymmetricKeyParameter CreateKey( PrivateKeyInfo keyInfo) { AlgorithmIdentifier algID = keyInfo.AlgorithmID; DerObjectIdentifier algOid = algID.ObjectID; // TODO See RSAUtil.isRsaOid in Java build if (algOid.Equals(PkcsObjectIdentifiers.RsaEncryption) || algOid.Equals(X509ObjectIdentifiers.IdEARsa) || algOid.Equals(PkcsObjectIdentifiers.IdRsassaPss) || algOid.Equals(PkcsObjectIdentifiers.IdRsaesOaep)) { RsaPrivateKeyStructure keyStructure = new RsaPrivateKeyStructure( Asn1Sequence.GetInstance(keyInfo.PrivateKey)); return new RsaPrivateCrtKeyParameters( keyStructure.Modulus, keyStructure.PublicExponent, keyStructure.PrivateExponent, keyStructure.Prime1, keyStructure.Prime2, keyStructure.Exponent1, keyStructure.Exponent2, keyStructure.Coefficient); } // TODO? // else if (algOid.Equals(X9ObjectIdentifiers.DHPublicNumber)) else if (algOid.Equals(PkcsObjectIdentifiers.DhKeyAgreement)) { DHParameter para = new DHParameter( Asn1Sequence.GetInstance(algID.Parameters.ToAsn1Object())); DerInteger derX = (DerInteger)keyInfo.PrivateKey; BigInteger lVal = para.L; int l = lVal == null ? 0 : lVal.IntValue; DHParameters dhParams = new DHParameters(para.P, para.G, null, l); return new DHPrivateKeyParameters(derX.Value, dhParams, algOid); } else if (algOid.Equals(OiwObjectIdentifiers.ElGamalAlgorithm)) { ElGamalParameter para = new ElGamalParameter( Asn1Sequence.GetInstance(algID.Parameters.ToAsn1Object())); DerInteger derX = (DerInteger)keyInfo.PrivateKey; return new ElGamalPrivateKeyParameters( derX.Value, new ElGamalParameters(para.P, para.G)); } else if (algOid.Equals(X9ObjectIdentifiers.IdDsa)) { DerInteger derX = (DerInteger) keyInfo.PrivateKey; Asn1Encodable ae = algID.Parameters; DsaParameters parameters = null; if (ae != null) { DsaParameter para = DsaParameter.GetInstance(ae.ToAsn1Object()); parameters = new DsaParameters(para.P, para.Q, para.G); } return new DsaPrivateKeyParameters(derX.Value, parameters); } else if (algOid.Equals(X9ObjectIdentifiers.IdECPublicKey)) { X962Parameters para = new X962Parameters(algID.Parameters.ToAsn1Object()); X9ECParameters ecP; if (para.IsNamedCurve) { ecP = ECKeyPairGenerator.FindECCurveByOid((DerObjectIdentifier) para.Parameters); } else { ecP = new X9ECParameters((Asn1Sequence) para.Parameters); } ECDomainParameters dParams = new ECDomainParameters( ecP.Curve, ecP.G, ecP.N, ecP.H, ecP.GetSeed()); ECPrivateKeyStructure ec = new ECPrivateKeyStructure( Asn1Sequence.GetInstance(keyInfo.PrivateKey)); return new ECPrivateKeyParameters(ec.GetKey(), dParams); } else if (algOid.Equals(CryptoProObjectIdentifiers.GostR3410x2001)) { Gost3410PublicKeyAlgParameters gostParams = new Gost3410PublicKeyAlgParameters( Asn1Sequence.GetInstance(algID.Parameters.ToAsn1Object())); ECPrivateKeyStructure ec = new ECPrivateKeyStructure( Asn1Sequence.GetInstance(keyInfo.PrivateKey)); ECDomainParameters ecP = ECGost3410NamedCurves.GetByOid(gostParams.PublicKeyParamSet); if (ecP == null) return null; return new ECPrivateKeyParameters("ECGOST3410", ec.GetKey(), gostParams.PublicKeyParamSet); } else if (algOid.Equals(CryptoProObjectIdentifiers.GostR3410x94)) { Gost3410PublicKeyAlgParameters gostParams = new Gost3410PublicKeyAlgParameters( Asn1Sequence.GetInstance(algID.Parameters.ToAsn1Object())); DerOctetString derX = (DerOctetString) keyInfo.PrivateKey; byte[] keyEnc = derX.GetOctets(); byte[] keyBytes = new byte[keyEnc.Length]; for (int i = 0; i != keyEnc.Length; i++) { keyBytes[i] = keyEnc[keyEnc.Length - 1 - i]; // was little endian } BigInteger x = new BigInteger(1, keyBytes); return new Gost3410PrivateKeyParameters(x, gostParams.PublicKeyParamSet); } else { throw new SecurityUtilityException("algorithm identifier in key not recognised"); } }