#if !BESTHTTP_DISABLE_ALTERNATE_SSL && (!UNITY_WEBGL || UNITY_EDITOR) using System; using System.Collections; using System.IO; using Org.BouncyCastle.Asn1; using Org.BouncyCastle.Asn1.CryptoPro; using Org.BouncyCastle.Asn1.Nist; using Org.BouncyCastle.Asn1.Pkcs; using Org.BouncyCastle.Asn1.TeleTrust; using Org.BouncyCastle.Asn1.X509; using Org.BouncyCastle.Asn1.X9; using Org.BouncyCastle.Security; using Org.BouncyCastle.Crypto.Digests; using Org.BouncyCastle.Crypto; using Org.BouncyCastle.Crypto.Engines; using Org.BouncyCastle.Crypto.Signers; using Org.BouncyCastle.Utilities; namespace Org.BouncyCastle.Security { /// /// Signer Utility class contains methods that can not be specifically grouped into other classes. /// public sealed class SignerUtilities { private SignerUtilities() { } internal static readonly IDictionary algorithms = Org.BouncyCastle.Utilities.Platform.CreateHashtable(); internal static readonly IDictionary oids = Org.BouncyCastle.Utilities.Platform.CreateHashtable(); static SignerUtilities() { algorithms["MD2WITHRSA"] = "MD2withRSA"; algorithms["MD2WITHRSAENCRYPTION"] = "MD2withRSA"; algorithms[PkcsObjectIdentifiers.MD2WithRsaEncryption.Id] = "MD2withRSA"; algorithms["MD4WITHRSA"] = "MD4withRSA"; algorithms["MD4WITHRSAENCRYPTION"] = "MD4withRSA"; algorithms[PkcsObjectIdentifiers.MD4WithRsaEncryption.Id] = "MD4withRSA"; algorithms["MD5WITHRSA"] = "MD5withRSA"; algorithms["MD5WITHRSAENCRYPTION"] = "MD5withRSA"; algorithms[PkcsObjectIdentifiers.MD5WithRsaEncryption.Id] = "MD5withRSA"; algorithms["SHA1WITHRSA"] = "SHA-1withRSA"; algorithms["SHA1WITHRSAENCRYPTION"] = "SHA-1withRSA"; algorithms[PkcsObjectIdentifiers.Sha1WithRsaEncryption.Id] = "SHA-1withRSA"; algorithms["SHA-1WITHRSA"] = "SHA-1withRSA"; algorithms["SHA224WITHRSA"] = "SHA-224withRSA"; algorithms["SHA224WITHRSAENCRYPTION"] = "SHA-224withRSA"; algorithms[PkcsObjectIdentifiers.Sha224WithRsaEncryption.Id] = "SHA-224withRSA"; algorithms["SHA-224WITHRSA"] = "SHA-224withRSA"; algorithms["SHA256WITHRSA"] = "SHA-256withRSA"; algorithms["SHA256WITHRSAENCRYPTION"] = "SHA-256withRSA"; algorithms[PkcsObjectIdentifiers.Sha256WithRsaEncryption.Id] = "SHA-256withRSA"; algorithms["SHA-256WITHRSA"] = "SHA-256withRSA"; algorithms["SHA384WITHRSA"] = "SHA-384withRSA"; algorithms["SHA384WITHRSAENCRYPTION"] = "SHA-384withRSA"; algorithms[PkcsObjectIdentifiers.Sha384WithRsaEncryption.Id] = "SHA-384withRSA"; algorithms["SHA-384WITHRSA"] = "SHA-384withRSA"; algorithms["SHA512WITHRSA"] = "SHA-512withRSA"; algorithms["SHA512WITHRSAENCRYPTION"] = "SHA-512withRSA"; algorithms[PkcsObjectIdentifiers.Sha512WithRsaEncryption.Id] = "SHA-512withRSA"; algorithms["SHA-512WITHRSA"] = "SHA-512withRSA"; algorithms["PSSWITHRSA"] = "PSSwithRSA"; algorithms["RSASSA-PSS"] = "PSSwithRSA"; algorithms[PkcsObjectIdentifiers.IdRsassaPss.Id] = "PSSwithRSA"; algorithms["RSAPSS"] = "PSSwithRSA"; algorithms["SHA1WITHRSAANDMGF1"] = "SHA-1withRSAandMGF1"; algorithms["SHA-1WITHRSAANDMGF1"] = "SHA-1withRSAandMGF1"; algorithms["SHA1WITHRSA/PSS"] = "SHA-1withRSAandMGF1"; algorithms["SHA-1WITHRSA/PSS"] = "SHA-1withRSAandMGF1"; algorithms["SHA224WITHRSAANDMGF1"] = "SHA-224withRSAandMGF1"; algorithms["SHA-224WITHRSAANDMGF1"] = "SHA-224withRSAandMGF1"; algorithms["SHA224WITHRSA/PSS"] = "SHA-224withRSAandMGF1"; algorithms["SHA-224WITHRSA/PSS"] = "SHA-224withRSAandMGF1"; algorithms["SHA256WITHRSAANDMGF1"] = "SHA-256withRSAandMGF1"; algorithms["SHA-256WITHRSAANDMGF1"] = "SHA-256withRSAandMGF1"; algorithms["SHA256WITHRSA/PSS"] = "SHA-256withRSAandMGF1"; algorithms["SHA-256WITHRSA/PSS"] = "SHA-256withRSAandMGF1"; algorithms["SHA384WITHRSAANDMGF1"] = "SHA-384withRSAandMGF1"; algorithms["SHA-384WITHRSAANDMGF1"] = "SHA-384withRSAandMGF1"; algorithms["SHA384WITHRSA/PSS"] = "SHA-384withRSAandMGF1"; algorithms["SHA-384WITHRSA/PSS"] = "SHA-384withRSAandMGF1"; algorithms["SHA512WITHRSAANDMGF1"] = "SHA-512withRSAandMGF1"; algorithms["SHA-512WITHRSAANDMGF1"] = "SHA-512withRSAandMGF1"; algorithms["SHA512WITHRSA/PSS"] = "SHA-512withRSAandMGF1"; algorithms["SHA-512WITHRSA/PSS"] = "SHA-512withRSAandMGF1"; algorithms["RIPEMD128WITHRSA"] = "RIPEMD128withRSA"; algorithms["RIPEMD128WITHRSAENCRYPTION"] = "RIPEMD128withRSA"; algorithms[TeleTrusTObjectIdentifiers.RsaSignatureWithRipeMD128.Id] = "RIPEMD128withRSA"; algorithms["RIPEMD160WITHRSA"] = "RIPEMD160withRSA"; algorithms["RIPEMD160WITHRSAENCRYPTION"] = "RIPEMD160withRSA"; algorithms[TeleTrusTObjectIdentifiers.RsaSignatureWithRipeMD160.Id] = "RIPEMD160withRSA"; algorithms["RIPEMD256WITHRSA"] = "RIPEMD256withRSA"; algorithms["RIPEMD256WITHRSAENCRYPTION"] = "RIPEMD256withRSA"; algorithms[TeleTrusTObjectIdentifiers.RsaSignatureWithRipeMD256.Id] = "RIPEMD256withRSA"; algorithms["NONEWITHRSA"] = "RSA"; algorithms["RSAWITHNONE"] = "RSA"; algorithms["RAWRSA"] = "RSA"; algorithms["RAWRSAPSS"] = "RAWRSASSA-PSS"; algorithms["NONEWITHRSAPSS"] = "RAWRSASSA-PSS"; algorithms["NONEWITHRSASSA-PSS"] = "RAWRSASSA-PSS"; algorithms["NONEWITHDSA"] = "NONEwithDSA"; algorithms["DSAWITHNONE"] = "NONEwithDSA"; algorithms["RAWDSA"] = "NONEwithDSA"; algorithms["DSA"] = "SHA-1withDSA"; algorithms["DSAWITHSHA1"] = "SHA-1withDSA"; algorithms["DSAWITHSHA-1"] = "SHA-1withDSA"; algorithms["SHA/DSA"] = "SHA-1withDSA"; algorithms["SHA1/DSA"] = "SHA-1withDSA"; algorithms["SHA-1/DSA"] = "SHA-1withDSA"; algorithms["SHA1WITHDSA"] = "SHA-1withDSA"; algorithms["SHA-1WITHDSA"] = "SHA-1withDSA"; algorithms[X9ObjectIdentifiers.IdDsaWithSha1.Id] = "SHA-1withDSA"; algorithms["DSAWITHSHA224"] = "SHA-224withDSA"; algorithms["DSAWITHSHA-224"] = "SHA-224withDSA"; algorithms["SHA224/DSA"] = "SHA-224withDSA"; algorithms["SHA-224/DSA"] = "SHA-224withDSA"; algorithms["SHA224WITHDSA"] = "SHA-224withDSA"; algorithms["SHA-224WITHDSA"] = "SHA-224withDSA"; algorithms[NistObjectIdentifiers.DsaWithSha224.Id] = "SHA-224withDSA"; algorithms["DSAWITHSHA256"] = "SHA-256withDSA"; algorithms["DSAWITHSHA-256"] = "SHA-256withDSA"; algorithms["SHA256/DSA"] = "SHA-256withDSA"; algorithms["SHA-256/DSA"] = "SHA-256withDSA"; algorithms["SHA256WITHDSA"] = "SHA-256withDSA"; algorithms["SHA-256WITHDSA"] = "SHA-256withDSA"; algorithms[NistObjectIdentifiers.DsaWithSha256.Id] = "SHA-256withDSA"; algorithms["DSAWITHSHA384"] = "SHA-384withDSA"; algorithms["DSAWITHSHA-384"] = "SHA-384withDSA"; algorithms["SHA384/DSA"] = "SHA-384withDSA"; algorithms["SHA-384/DSA"] = "SHA-384withDSA"; algorithms["SHA384WITHDSA"] = "SHA-384withDSA"; algorithms["SHA-384WITHDSA"] = "SHA-384withDSA"; algorithms[NistObjectIdentifiers.DsaWithSha384.Id] = "SHA-384withDSA"; algorithms["DSAWITHSHA512"] = "SHA-512withDSA"; algorithms["DSAWITHSHA-512"] = "SHA-512withDSA"; algorithms["SHA512/DSA"] = "SHA-512withDSA"; algorithms["SHA-512/DSA"] = "SHA-512withDSA"; algorithms["SHA512WITHDSA"] = "SHA-512withDSA"; algorithms["SHA-512WITHDSA"] = "SHA-512withDSA"; algorithms[NistObjectIdentifiers.DsaWithSha512.Id] = "SHA-512withDSA"; algorithms["NONEWITHECDSA"] = "NONEwithECDSA"; algorithms["ECDSAWITHNONE"] = "NONEwithECDSA"; algorithms["ECDSA"] = "SHA-1withECDSA"; algorithms["SHA1/ECDSA"] = "SHA-1withECDSA"; algorithms["SHA-1/ECDSA"] = "SHA-1withECDSA"; algorithms["ECDSAWITHSHA1"] = "SHA-1withECDSA"; algorithms["ECDSAWITHSHA-1"] = "SHA-1withECDSA"; algorithms["SHA1WITHECDSA"] = "SHA-1withECDSA"; algorithms["SHA-1WITHECDSA"] = "SHA-1withECDSA"; algorithms[X9ObjectIdentifiers.ECDsaWithSha1.Id] = "SHA-1withECDSA"; algorithms[TeleTrusTObjectIdentifiers.ECSignWithSha1.Id] = "SHA-1withECDSA"; algorithms["SHA224/ECDSA"] = "SHA-224withECDSA"; algorithms["SHA-224/ECDSA"] = "SHA-224withECDSA"; algorithms["ECDSAWITHSHA224"] = "SHA-224withECDSA"; algorithms["ECDSAWITHSHA-224"] = "SHA-224withECDSA"; algorithms["SHA224WITHECDSA"] = "SHA-224withECDSA"; algorithms["SHA-224WITHECDSA"] = "SHA-224withECDSA"; algorithms[X9ObjectIdentifiers.ECDsaWithSha224.Id] = "SHA-224withECDSA"; algorithms["SHA256/ECDSA"] = "SHA-256withECDSA"; algorithms["SHA-256/ECDSA"] = "SHA-256withECDSA"; algorithms["ECDSAWITHSHA256"] = "SHA-256withECDSA"; algorithms["ECDSAWITHSHA-256"] = "SHA-256withECDSA"; algorithms["SHA256WITHECDSA"] = "SHA-256withECDSA"; algorithms["SHA-256WITHECDSA"] = "SHA-256withECDSA"; algorithms[X9ObjectIdentifiers.ECDsaWithSha256.Id] = "SHA-256withECDSA"; algorithms["SHA384/ECDSA"] = "SHA-384withECDSA"; algorithms["SHA-384/ECDSA"] = "SHA-384withECDSA"; algorithms["ECDSAWITHSHA384"] = "SHA-384withECDSA"; algorithms["ECDSAWITHSHA-384"] = "SHA-384withECDSA"; algorithms["SHA384WITHECDSA"] = "SHA-384withECDSA"; algorithms["SHA-384WITHECDSA"] = "SHA-384withECDSA"; algorithms[X9ObjectIdentifiers.ECDsaWithSha384.Id] = "SHA-384withECDSA"; algorithms["SHA512/ECDSA"] = "SHA-512withECDSA"; algorithms["SHA-512/ECDSA"] = "SHA-512withECDSA"; algorithms["ECDSAWITHSHA512"] = "SHA-512withECDSA"; algorithms["ECDSAWITHSHA-512"] = "SHA-512withECDSA"; algorithms["SHA512WITHECDSA"] = "SHA-512withECDSA"; algorithms["SHA-512WITHECDSA"] = "SHA-512withECDSA"; algorithms[X9ObjectIdentifiers.ECDsaWithSha512.Id] = "SHA-512withECDSA"; algorithms["RIPEMD160/ECDSA"] = "RIPEMD160withECDSA"; algorithms["ECDSAWITHRIPEMD160"] = "RIPEMD160withECDSA"; algorithms["RIPEMD160WITHECDSA"] = "RIPEMD160withECDSA"; algorithms[TeleTrusTObjectIdentifiers.ECSignWithRipeMD160.Id] = "RIPEMD160withECDSA"; algorithms["GOST-3410"] = "GOST3410"; algorithms["GOST-3410-94"] = "GOST3410"; algorithms["GOST3411WITHGOST3410"] = "GOST3410"; algorithms[CryptoProObjectIdentifiers.GostR3411x94WithGostR3410x94.Id] = "GOST3410"; algorithms["ECGOST-3410"] = "ECGOST3410"; algorithms["ECGOST-3410-2001"] = "ECGOST3410"; algorithms["GOST3411WITHECGOST3410"] = "ECGOST3410"; algorithms[CryptoProObjectIdentifiers.GostR3411x94WithGostR3410x2001.Id] = "ECGOST3410"; oids["MD2withRSA"] = PkcsObjectIdentifiers.MD2WithRsaEncryption; oids["MD4withRSA"] = PkcsObjectIdentifiers.MD4WithRsaEncryption; oids["MD5withRSA"] = PkcsObjectIdentifiers.MD5WithRsaEncryption; oids["SHA-1withRSA"] = PkcsObjectIdentifiers.Sha1WithRsaEncryption; oids["SHA-224withRSA"] = PkcsObjectIdentifiers.Sha224WithRsaEncryption; oids["SHA-256withRSA"] = PkcsObjectIdentifiers.Sha256WithRsaEncryption; oids["SHA-384withRSA"] = PkcsObjectIdentifiers.Sha384WithRsaEncryption; oids["SHA-512withRSA"] = PkcsObjectIdentifiers.Sha512WithRsaEncryption; oids["PSSwithRSA"] = PkcsObjectIdentifiers.IdRsassaPss; oids["SHA-1withRSAandMGF1"] = PkcsObjectIdentifiers.IdRsassaPss; oids["SHA-224withRSAandMGF1"] = PkcsObjectIdentifiers.IdRsassaPss; oids["SHA-256withRSAandMGF1"] = PkcsObjectIdentifiers.IdRsassaPss; oids["SHA-384withRSAandMGF1"] = PkcsObjectIdentifiers.IdRsassaPss; oids["SHA-512withRSAandMGF1"] = PkcsObjectIdentifiers.IdRsassaPss; oids["RIPEMD128withRSA"] = TeleTrusTObjectIdentifiers.RsaSignatureWithRipeMD128; oids["RIPEMD160withRSA"] = TeleTrusTObjectIdentifiers.RsaSignatureWithRipeMD160; oids["RIPEMD256withRSA"] = TeleTrusTObjectIdentifiers.RsaSignatureWithRipeMD256; oids["SHA-1withDSA"] = X9ObjectIdentifiers.IdDsaWithSha1; oids["SHA-1withECDSA"] = X9ObjectIdentifiers.ECDsaWithSha1; oids["SHA-224withECDSA"] = X9ObjectIdentifiers.ECDsaWithSha224; oids["SHA-256withECDSA"] = X9ObjectIdentifiers.ECDsaWithSha256; oids["SHA-384withECDSA"] = X9ObjectIdentifiers.ECDsaWithSha384; oids["SHA-512withECDSA"] = X9ObjectIdentifiers.ECDsaWithSha512; oids["GOST3410"] = CryptoProObjectIdentifiers.GostR3411x94WithGostR3410x94; oids["ECGOST3410"] = CryptoProObjectIdentifiers.GostR3411x94WithGostR3410x2001; } /// /// Returns an ObjectIdentifier for a given encoding. /// /// A string representation of the encoding. /// A DerObjectIdentifier, null if the OID is not available. // TODO Don't really want to support this public static DerObjectIdentifier GetObjectIdentifier( string mechanism) { if (mechanism == null) throw new ArgumentNullException("mechanism"); mechanism = Org.BouncyCastle.Utilities.Platform.ToUpperInvariant(mechanism); string aliased = (string) algorithms[mechanism]; if (aliased != null) mechanism = aliased; return (DerObjectIdentifier) oids[mechanism]; } public static ICollection Algorithms { get { return oids.Keys; } } public static Asn1Encodable GetDefaultX509Parameters( DerObjectIdentifier id) { return GetDefaultX509Parameters(id.Id); } public static Asn1Encodable GetDefaultX509Parameters( string algorithm) { if (algorithm == null) throw new ArgumentNullException("algorithm"); algorithm = Org.BouncyCastle.Utilities.Platform.ToUpperInvariant(algorithm); string mechanism = (string) algorithms[algorithm]; if (mechanism == null) mechanism = algorithm; if (mechanism == "PSSwithRSA") { // TODO The Sha1Digest here is a default. In JCE version, the actual digest // to be used can be overridden by subsequent parameter settings. return GetPssX509Parameters("SHA-1"); } if (Org.BouncyCastle.Utilities.Platform.EndsWith(mechanism, "withRSAandMGF1")) { string digestName = mechanism.Substring(0, mechanism.Length - "withRSAandMGF1".Length); return GetPssX509Parameters(digestName); } return DerNull.Instance; } private static Asn1Encodable GetPssX509Parameters( string digestName) { AlgorithmIdentifier hashAlgorithm = new AlgorithmIdentifier( DigestUtilities.GetObjectIdentifier(digestName), DerNull.Instance); // TODO Is it possible for the MGF hash alg to be different from the PSS one? AlgorithmIdentifier maskGenAlgorithm = new AlgorithmIdentifier( PkcsObjectIdentifiers.IdMgf1, hashAlgorithm); int saltLen = DigestUtilities.GetDigest(digestName).GetDigestSize(); return new RsassaPssParameters(hashAlgorithm, maskGenAlgorithm, new DerInteger(saltLen), new DerInteger(1)); } public static ISigner GetSigner( DerObjectIdentifier id) { return GetSigner(id.Id); } public static ISigner GetSigner( string algorithm) { if (algorithm == null) throw new ArgumentNullException("algorithm"); algorithm = Org.BouncyCastle.Utilities.Platform.ToUpperInvariant(algorithm); string mechanism = (string) algorithms[algorithm]; if (mechanism == null) mechanism = algorithm; if (mechanism.Equals("RSA")) { return (new RsaDigestSigner(new NullDigest(), (AlgorithmIdentifier)null)); } if (mechanism.Equals("MD2withRSA")) { return (new RsaDigestSigner(new MD2Digest())); } if (mechanism.Equals("MD4withRSA")) { return (new RsaDigestSigner(new MD4Digest())); } if (mechanism.Equals("MD5withRSA")) { return (new RsaDigestSigner(new MD5Digest())); } if (mechanism.Equals("SHA-1withRSA")) { return (new RsaDigestSigner(new Sha1Digest())); } if (mechanism.Equals("SHA-224withRSA")) { return (new RsaDigestSigner(new Sha224Digest())); } if (mechanism.Equals("SHA-256withRSA")) { return (new RsaDigestSigner(new Sha256Digest())); } if (mechanism.Equals("SHA-384withRSA")) { return (new RsaDigestSigner(new Sha384Digest())); } if (mechanism.Equals("SHA-512withRSA")) { return (new RsaDigestSigner(new Sha512Digest())); } if (mechanism.Equals("RIPEMD128withRSA")) { return (new RsaDigestSigner(new RipeMD128Digest())); } if (mechanism.Equals("RIPEMD160withRSA")) { return (new RsaDigestSigner(new RipeMD160Digest())); } if (mechanism.Equals("RIPEMD256withRSA")) { return (new RsaDigestSigner(new RipeMD256Digest())); } if (mechanism.Equals("RAWRSASSA-PSS")) { // TODO Add support for other parameter settings return PssSigner.CreateRawSigner(new RsaBlindedEngine(), new Sha1Digest()); } if (mechanism.Equals("PSSwithRSA")) { // TODO The Sha1Digest here is a default. In JCE version, the actual digest // to be used can be overridden by subsequent parameter settings. return (new PssSigner(new RsaBlindedEngine(), new Sha1Digest())); } if (mechanism.Equals("SHA-1withRSAandMGF1")) { return (new PssSigner(new RsaBlindedEngine(), new Sha1Digest())); } if (mechanism.Equals("SHA-224withRSAandMGF1")) { return (new PssSigner(new RsaBlindedEngine(), new Sha224Digest())); } if (mechanism.Equals("SHA-256withRSAandMGF1")) { return (new PssSigner(new RsaBlindedEngine(), new Sha256Digest())); } if (mechanism.Equals("SHA-384withRSAandMGF1")) { return (new PssSigner(new RsaBlindedEngine(), new Sha384Digest())); } if (mechanism.Equals("SHA-512withRSAandMGF1")) { return (new PssSigner(new RsaBlindedEngine(), new Sha512Digest())); } if (mechanism.Equals("NONEwithDSA")) { return (new DsaDigestSigner(new DsaSigner(), new NullDigest())); } if (mechanism.Equals("SHA-1withDSA")) { return (new DsaDigestSigner(new DsaSigner(), new Sha1Digest())); } if (mechanism.Equals("SHA-224withDSA")) { return (new DsaDigestSigner(new DsaSigner(), new Sha224Digest())); } if (mechanism.Equals("SHA-256withDSA")) { return (new DsaDigestSigner(new DsaSigner(), new Sha256Digest())); } if (mechanism.Equals("SHA-384withDSA")) { return (new DsaDigestSigner(new DsaSigner(), new Sha384Digest())); } if (mechanism.Equals("SHA-512withDSA")) { return (new DsaDigestSigner(new DsaSigner(), new Sha512Digest())); } if (mechanism.Equals("NONEwithECDSA")) { return (new DsaDigestSigner(new ECDsaSigner(), new NullDigest())); } if (mechanism.Equals("SHA-1withECDSA")) { return (new DsaDigestSigner(new ECDsaSigner(), new Sha1Digest())); } if (mechanism.Equals("SHA-224withECDSA")) { return (new DsaDigestSigner(new ECDsaSigner(), new Sha224Digest())); } if (mechanism.Equals("SHA-256withECDSA")) { return (new DsaDigestSigner(new ECDsaSigner(), new Sha256Digest())); } if (mechanism.Equals("SHA-384withECDSA")) { return (new DsaDigestSigner(new ECDsaSigner(), new Sha384Digest())); } if (mechanism.Equals("SHA-512withECDSA")) { return (new DsaDigestSigner(new ECDsaSigner(), new Sha512Digest())); } if (mechanism.Equals("RIPEMD160withECDSA")) { return (new DsaDigestSigner(new ECDsaSigner(), new RipeMD160Digest())); } if (mechanism.Equals("SHA1WITHECNR")) { return (new DsaDigestSigner(new ECNRSigner(), new Sha1Digest())); } if (mechanism.Equals("SHA224WITHECNR")) { return (new DsaDigestSigner(new ECNRSigner(), new Sha224Digest())); } if (mechanism.Equals("SHA256WITHECNR")) { return (new DsaDigestSigner(new ECNRSigner(), new Sha256Digest())); } if (mechanism.Equals("SHA384WITHECNR")) { return (new DsaDigestSigner(new ECNRSigner(), new Sha384Digest())); } if (mechanism.Equals("SHA512WITHECNR")) { return (new DsaDigestSigner(new ECNRSigner(), new Sha512Digest())); } if (mechanism.Equals("GOST3410")) { return new Gost3410DigestSigner(new Gost3410Signer(), new Gost3411Digest()); } if (mechanism.Equals("ECGOST3410")) { return new Gost3410DigestSigner(new ECGost3410Signer(), new Gost3411Digest()); } if (mechanism.Equals("SHA1WITHRSA/ISO9796-2")) { return new Iso9796d2Signer(new RsaBlindedEngine(), new Sha1Digest(), true); } if (mechanism.Equals("MD5WITHRSA/ISO9796-2")) { return new Iso9796d2Signer(new RsaBlindedEngine(), new MD5Digest(), true); } if (mechanism.Equals("RIPEMD160WITHRSA/ISO9796-2")) { return new Iso9796d2Signer(new RsaBlindedEngine(), new RipeMD160Digest(), true); } if (Org.BouncyCastle.Utilities.Platform.EndsWith(mechanism, "/X9.31")) { string x931 = mechanism.Substring(0, mechanism.Length - "/X9.31".Length); int withPos = Org.BouncyCastle.Utilities.Platform.IndexOf(x931, "WITH"); if (withPos > 0) { int endPos = withPos + "WITH".Length; string digestName = x931.Substring(0, withPos); IDigest digest = DigestUtilities.GetDigest(digestName); string cipherName = x931.Substring(endPos, x931.Length - endPos); if (cipherName.Equals("RSA")) { IAsymmetricBlockCipher cipher = new RsaBlindedEngine(); return new X931Signer(cipher, digest); } } } throw new SecurityUtilityException("Signer " + algorithm + " not recognised."); } public static string GetEncodingName( DerObjectIdentifier oid) { return (string) algorithms[oid.Id]; } } } #endif