private void CheckTestVector_RFC5794(String[] tv) { string name = "'" + tv[0] + "'"; IBlockCipher c = new AriaEngine(); int blockSize = c.GetBlockSize(); IsTrue("Wrong block size returned from getBlockSize() for " + name, 16 == blockSize); KeyParameter key = new KeyParameter(Hex.Decode(tv[1])); byte[] plaintext = Hex.Decode(tv[2]); byte[] ciphertext = Hex.Decode(tv[3]); IsTrue("Unexpected plaintext length for " + name, blockSize == plaintext.Length); IsTrue("Unexpected ciphertext length for " + name, blockSize == ciphertext.Length); c.Init(true, key); byte[] actual = new byte[blockSize]; int num = c.ProcessBlock(plaintext, 0, actual, 0); IsTrue("Wrong length returned from processBlock() (encryption) for " + name, blockSize == num); IsTrue("Incorrect ciphertext computed for " + name, Arrays.AreEqual(ciphertext, actual)); c.Init(false, key); num = c.ProcessBlock(ciphertext, 0, actual, 0); IsTrue("Wrong length returned from processBlock() (decryption) for " + name, blockSize == num); IsTrue("Incorrect plaintext computed for " + name, Arrays.AreEqual(plaintext, actual)); }
private void CheckRandomRoundtrips() { AriaEngine ce = new AriaEngine(); AriaEngine cd = new AriaEngine(); byte[] txt = new byte[ce.GetBlockSize()]; byte[] enc = new byte[ce.GetBlockSize()]; byte[] dec = new byte[ce.GetBlockSize()]; for (int keyLen = 16; keyLen <= 32; keyLen += 8) { byte[] K = new byte[keyLen]; R.NextBytes(K); KeyParameter key = new KeyParameter(K); ce.Init(true, key); cd.Init(false, key); R.NextBytes(txt); for (int i = 0; i < 100; ++i) { ce.ProcessBlock(txt, 0, enc, 0); cd.ProcessBlock(enc, 0, dec, 0); IsTrue(Arrays.AreEqual(txt, dec)); Array.Copy(enc, 0, txt, 0, enc.Length); } } }
/// <summary> /// AriaEngine을 빌드하고 반환합니다. /// </summary> /// <returns></returns> private AriaEngine GetEngine() { if (_engine == null) { SetupKey(); _engine = new AriaEngine(KeySize); _engine.SetKey(Key); _engine.SetupRoundKeys(); } return(_engine); }
public static IBufferedCipher GetCipher( string algorithm) { if (algorithm == null) { throw new ArgumentNullException("algorithm"); } algorithm = Platform.ToUpperInvariant(algorithm); { string aliased = (string)algorithms[algorithm]; if (aliased != null) { algorithm = aliased; } } IBasicAgreement iesAgreement = null; if (algorithm == "IES") { iesAgreement = new DHBasicAgreement(); } else if (algorithm == "ECIES") { iesAgreement = new ECDHBasicAgreement(); } if (iesAgreement != null) { return(new BufferedIesCipher( new IesEngine( iesAgreement, new Kdf2BytesGenerator( new Sha1Digest()), new HMac( new Sha1Digest())))); } if (Platform.StartsWith(algorithm, "PBE")) { if (Platform.EndsWith(algorithm, "-CBC")) { if (algorithm == "PBEWITHSHA1ANDDES-CBC") { return(new PaddedBufferedBlockCipher( new CbcBlockCipher(new DesEngine()))); } else if (algorithm == "PBEWITHSHA1ANDRC2-CBC") { return(new PaddedBufferedBlockCipher( new CbcBlockCipher(new RC2Engine()))); } else if (Strings.IsOneOf(algorithm, "PBEWITHSHAAND2-KEYTRIPLEDES-CBC", "PBEWITHSHAAND3-KEYTRIPLEDES-CBC")) { return(new PaddedBufferedBlockCipher( new CbcBlockCipher(new DesEdeEngine()))); } else if (Strings.IsOneOf(algorithm, "PBEWITHSHAAND128BITRC2-CBC", "PBEWITHSHAAND40BITRC2-CBC")) { return(new PaddedBufferedBlockCipher( new CbcBlockCipher(new RC2Engine()))); } } else if (Platform.EndsWith(algorithm, "-BC") || Platform.EndsWith(algorithm, "-OPENSSL")) { if (Strings.IsOneOf(algorithm, "PBEWITHSHAAND128BITAES-CBC-BC", "PBEWITHSHAAND192BITAES-CBC-BC", "PBEWITHSHAAND256BITAES-CBC-BC", "PBEWITHSHA256AND128BITAES-CBC-BC", "PBEWITHSHA256AND192BITAES-CBC-BC", "PBEWITHSHA256AND256BITAES-CBC-BC", "PBEWITHMD5AND128BITAES-CBC-OPENSSL", "PBEWITHMD5AND192BITAES-CBC-OPENSSL", "PBEWITHMD5AND256BITAES-CBC-OPENSSL")) { return(new PaddedBufferedBlockCipher( new CbcBlockCipher(new AesEngine()))); } } } string[] parts = algorithm.Split('/'); IAeadCipher aeadCipher = null; IBlockCipher blockCipher = null; IAsymmetricBlockCipher asymBlockCipher = null; IStreamCipher streamCipher = null; string algorithmName = parts[0]; { string aliased = (string)algorithms[algorithmName]; if (aliased != null) { algorithmName = aliased; } } CipherAlgorithm cipherAlgorithm; try { cipherAlgorithm = (CipherAlgorithm)Enums.GetEnumValue(typeof(CipherAlgorithm), algorithmName); } catch (ArgumentException) { throw new SecurityUtilityException("Cipher " + algorithm + " not recognised."); } switch (cipherAlgorithm) { case CipherAlgorithm.AES: blockCipher = new AesEngine(); break; case CipherAlgorithm.ARC4: streamCipher = new RC4Engine(); break; case CipherAlgorithm.ARIA: blockCipher = new AriaEngine(); break; case CipherAlgorithm.BLOWFISH: blockCipher = new BlowfishEngine(); break; case CipherAlgorithm.CAMELLIA: blockCipher = new CamelliaEngine(); break; case CipherAlgorithm.CAST5: blockCipher = new Cast5Engine(); break; case CipherAlgorithm.CAST6: blockCipher = new Cast6Engine(); break; case CipherAlgorithm.CHACHA: streamCipher = new ChaChaEngine(); break; case CipherAlgorithm.CHACHA20_POLY1305: aeadCipher = new ChaCha20Poly1305(); break; case CipherAlgorithm.CHACHA7539: streamCipher = new ChaCha7539Engine(); break; case CipherAlgorithm.DES: blockCipher = new DesEngine(); break; case CipherAlgorithm.DESEDE: blockCipher = new DesEdeEngine(); break; case CipherAlgorithm.ELGAMAL: asymBlockCipher = new ElGamalEngine(); break; case CipherAlgorithm.GOST28147: blockCipher = new Gost28147Engine(); break; case CipherAlgorithm.HC128: streamCipher = new HC128Engine(); break; case CipherAlgorithm.HC256: streamCipher = new HC256Engine(); break; case CipherAlgorithm.IDEA: blockCipher = new IdeaEngine(); break; case CipherAlgorithm.NOEKEON: blockCipher = new NoekeonEngine(); break; case CipherAlgorithm.PBEWITHSHAAND128BITRC4: case CipherAlgorithm.PBEWITHSHAAND40BITRC4: streamCipher = new RC4Engine(); break; case CipherAlgorithm.RC2: blockCipher = new RC2Engine(); break; case CipherAlgorithm.RC5: blockCipher = new RC532Engine(); break; case CipherAlgorithm.RC5_64: blockCipher = new RC564Engine(); break; case CipherAlgorithm.RC6: blockCipher = new RC6Engine(); break; case CipherAlgorithm.RIJNDAEL: blockCipher = new RijndaelEngine(); break; case CipherAlgorithm.RSA: asymBlockCipher = new RsaBlindedEngine(); break; case CipherAlgorithm.SALSA20: streamCipher = new Salsa20Engine(); break; case CipherAlgorithm.SEED: blockCipher = new SeedEngine(); break; case CipherAlgorithm.SERPENT: blockCipher = new SerpentEngine(); break; case CipherAlgorithm.SKIPJACK: blockCipher = new SkipjackEngine(); break; case CipherAlgorithm.SM4: blockCipher = new SM4Engine(); break; case CipherAlgorithm.TEA: blockCipher = new TeaEngine(); break; case CipherAlgorithm.THREEFISH_256: blockCipher = new ThreefishEngine(ThreefishEngine.BLOCKSIZE_256); break; case CipherAlgorithm.THREEFISH_512: blockCipher = new ThreefishEngine(ThreefishEngine.BLOCKSIZE_512); break; case CipherAlgorithm.THREEFISH_1024: blockCipher = new ThreefishEngine(ThreefishEngine.BLOCKSIZE_1024); break; case CipherAlgorithm.TNEPRES: blockCipher = new TnepresEngine(); break; case CipherAlgorithm.TWOFISH: blockCipher = new TwofishEngine(); break; case CipherAlgorithm.VMPC: streamCipher = new VmpcEngine(); break; case CipherAlgorithm.VMPC_KSA3: streamCipher = new VmpcKsa3Engine(); break; case CipherAlgorithm.XTEA: blockCipher = new XteaEngine(); break; default: throw new SecurityUtilityException("Cipher " + algorithm + " not recognised."); } if (aeadCipher != null) { if (parts.Length > 1) { throw new ArgumentException("Modes and paddings cannot be applied to AEAD ciphers"); } return(new BufferedAeadCipher(aeadCipher)); } if (streamCipher != null) { if (parts.Length > 1) { throw new ArgumentException("Modes and paddings not used for stream ciphers"); } return(new BufferedStreamCipher(streamCipher)); } bool cts = false; bool padded = true; IBlockCipherPadding padding = null; IAeadBlockCipher aeadBlockCipher = null; if (parts.Length > 2) { if (streamCipher != null) { throw new ArgumentException("Paddings not used for stream ciphers"); } string paddingName = parts[2]; CipherPadding cipherPadding; if (paddingName == "") { cipherPadding = CipherPadding.RAW; } else if (paddingName == "X9.23PADDING") { cipherPadding = CipherPadding.X923PADDING; } else { try { cipherPadding = (CipherPadding)Enums.GetEnumValue(typeof(CipherPadding), paddingName); } catch (ArgumentException) { throw new SecurityUtilityException("Cipher " + algorithm + " not recognised."); } } switch (cipherPadding) { case CipherPadding.NOPADDING: padded = false; break; case CipherPadding.RAW: break; case CipherPadding.ISO10126PADDING: case CipherPadding.ISO10126D2PADDING: case CipherPadding.ISO10126_2PADDING: padding = new ISO10126d2Padding(); break; case CipherPadding.ISO7816_4PADDING: case CipherPadding.ISO9797_1PADDING: padding = new ISO7816d4Padding(); break; case CipherPadding.ISO9796_1: case CipherPadding.ISO9796_1PADDING: asymBlockCipher = new ISO9796d1Encoding(asymBlockCipher); break; case CipherPadding.OAEP: case CipherPadding.OAEPPADDING: asymBlockCipher = new OaepEncoding(asymBlockCipher); break; case CipherPadding.OAEPWITHMD5ANDMGF1PADDING: asymBlockCipher = new OaepEncoding(asymBlockCipher, new MD5Digest()); break; case CipherPadding.OAEPWITHSHA1ANDMGF1PADDING: case CipherPadding.OAEPWITHSHA_1ANDMGF1PADDING: asymBlockCipher = new OaepEncoding(asymBlockCipher, new Sha1Digest()); break; case CipherPadding.OAEPWITHSHA224ANDMGF1PADDING: case CipherPadding.OAEPWITHSHA_224ANDMGF1PADDING: asymBlockCipher = new OaepEncoding(asymBlockCipher, new Sha224Digest()); break; case CipherPadding.OAEPWITHSHA256ANDMGF1PADDING: case CipherPadding.OAEPWITHSHA_256ANDMGF1PADDING: case CipherPadding.OAEPWITHSHA256ANDMGF1WITHSHA256PADDING: case CipherPadding.OAEPWITHSHA_256ANDMGF1WITHSHA_256PADDING: asymBlockCipher = new OaepEncoding(asymBlockCipher, new Sha256Digest()); break; case CipherPadding.OAEPWITHSHA256ANDMGF1WITHSHA1PADDING: case CipherPadding.OAEPWITHSHA_256ANDMGF1WITHSHA_1PADDING: asymBlockCipher = new OaepEncoding(asymBlockCipher, new Sha256Digest(), new Sha1Digest(), null); break; case CipherPadding.OAEPWITHSHA384ANDMGF1PADDING: case CipherPadding.OAEPWITHSHA_384ANDMGF1PADDING: asymBlockCipher = new OaepEncoding(asymBlockCipher, new Sha384Digest()); break; case CipherPadding.OAEPWITHSHA512ANDMGF1PADDING: case CipherPadding.OAEPWITHSHA_512ANDMGF1PADDING: asymBlockCipher = new OaepEncoding(asymBlockCipher, new Sha512Digest()); break; case CipherPadding.PKCS1: case CipherPadding.PKCS1PADDING: asymBlockCipher = new Pkcs1Encoding(asymBlockCipher); break; case CipherPadding.PKCS5: case CipherPadding.PKCS5PADDING: case CipherPadding.PKCS7: case CipherPadding.PKCS7PADDING: padding = new Pkcs7Padding(); break; case CipherPadding.TBCPADDING: padding = new TbcPadding(); break; case CipherPadding.WITHCTS: cts = true; break; case CipherPadding.X923PADDING: padding = new X923Padding(); break; case CipherPadding.ZEROBYTEPADDING: padding = new ZeroBytePadding(); break; default: throw new SecurityUtilityException("Cipher " + algorithm + " not recognised."); } } string mode = ""; if (parts.Length > 1) { mode = parts[1]; int di = GetDigitIndex(mode); string modeName = di >= 0 ? mode.Substring(0, di) : mode; try { CipherMode cipherMode = modeName == "" ? CipherMode.NONE : (CipherMode)Enums.GetEnumValue(typeof(CipherMode), modeName); switch (cipherMode) { case CipherMode.ECB: case CipherMode.NONE: break; case CipherMode.CBC: blockCipher = new CbcBlockCipher(blockCipher); break; case CipherMode.CCM: aeadBlockCipher = new CcmBlockCipher(blockCipher); break; case CipherMode.CFB: { int bits = (di < 0) ? 8 * blockCipher.GetBlockSize() : int.Parse(mode.Substring(di)); blockCipher = new CfbBlockCipher(blockCipher, bits); break; } case CipherMode.CTR: blockCipher = new SicBlockCipher(blockCipher); break; case CipherMode.CTS: cts = true; blockCipher = new CbcBlockCipher(blockCipher); break; case CipherMode.EAX: aeadBlockCipher = new EaxBlockCipher(blockCipher); break; case CipherMode.GCM: aeadBlockCipher = new GcmBlockCipher(blockCipher); break; case CipherMode.GOFB: blockCipher = new GOfbBlockCipher(blockCipher); break; case CipherMode.OCB: aeadBlockCipher = new OcbBlockCipher(blockCipher, CreateBlockCipher(cipherAlgorithm)); break; case CipherMode.OFB: { int bits = (di < 0) ? 8 * blockCipher.GetBlockSize() : int.Parse(mode.Substring(di)); blockCipher = new OfbBlockCipher(blockCipher, bits); break; } case CipherMode.OPENPGPCFB: blockCipher = new OpenPgpCfbBlockCipher(blockCipher); break; case CipherMode.SIC: if (blockCipher.GetBlockSize() < 16) { throw new ArgumentException("Warning: SIC-Mode can become a twotime-pad if the blocksize of the cipher is too small. Use a cipher with a block size of at least 128 bits (e.g. AES)"); } blockCipher = new SicBlockCipher(blockCipher); break; default: throw new SecurityUtilityException("Cipher " + algorithm + " not recognised."); } } catch (ArgumentException) { throw new SecurityUtilityException("Cipher " + algorithm + " not recognised."); } } if (aeadBlockCipher != null) { if (cts) { throw new SecurityUtilityException("CTS mode not valid for AEAD ciphers."); } if (padded && parts.Length > 2 && parts[2] != "") { throw new SecurityUtilityException("Bad padding specified for AEAD cipher."); } return(new BufferedAeadBlockCipher(aeadBlockCipher)); } if (blockCipher != null) { if (cts) { return(new CtsBlockCipher(blockCipher)); } if (padding != null) { return(new PaddedBufferedBlockCipher(blockCipher, padding)); } if (!padded || blockCipher.IsPartialBlockOkay) { return(new BufferedBlockCipher(blockCipher)); } return(new PaddedBufferedBlockCipher(blockCipher)); } if (asymBlockCipher != null) { return(new BufferedAsymmetricBlockCipher(asymBlockCipher)); } throw new SecurityUtilityException("Cipher " + algorithm + " not recognised."); }
public void Dispose() { _engine = null; }