public bool HasTestPassed(AsymmetricCipherKeyPair kp) { byte[] data = Hex.Decode("576a1f885e3420128c8a656097ba7d8bb4c6f1b1853348cf2ba976971dbdbefc"); DsaSigner signer = ENGINE_PROVIDER.CreateEngine(EngineUsage.GENERAL); signer.Init(true, new ParametersWithRandom(kp.Private, Utils.testRandom)); BigInteger[] rv = signer.GenerateSignature(data); signer.Init(false, kp.Public); return(signer.VerifySignature(FipsKats.Values[FipsKats.Vec.DsaKeyPairConsistencyVec], rv[0], rv[1])); }
/// <summary> /// Gets the verifying stream. /// </summary> /// <returns></returns> public VerifyingStream GetVerifyingStream() { var tSigner = new DsaSigner(); tSigner.Init(forSigning: false, parameters: new DsaPublicKeyParameters(Y.ToBouncyBigInteger(), new DsaParameters( P.ToBouncyBigInteger(), Q.ToBouncyBigInteger(), G.ToBouncyBigInteger()))); var digest = GetDigest(); return(new DigestStream(new DsaDigestSigner(tSigner, digest))); }
public void TestNONEwithDSA() { byte[] dummySha1 = Hex.Decode("01020304050607080910111213141516"); SecureRandom rand = new SecureRandom(); DsaParametersGenerator pGen = new DsaParametersGenerator(); pGen.Init(512, 80, rand); IAsymmetricCipherKeyPairGenerator g = GeneratorUtilities.GetKeyPairGenerator("DSA"); g.Init(new DsaKeyGenerationParameters(rand, pGen.GenerateParameters())); AsymmetricCipherKeyPair kp = g.GenerateKeyPair(); ISigner sig = SignerUtilities.GetSigner("NONEwithDSA"); sig.Init(true, kp.Private); sig.BlockUpdate(dummySha1, 0, dummySha1.Length); byte[] sigBytes = sig.GenerateSignature(); sig.Init(false, kp.Public); sig.BlockUpdate(dummySha1, 0, dummySha1.Length); sig.VerifySignature(sigBytes); // reset test sig.BlockUpdate(dummySha1, 0, dummySha1.Length); if (!sig.VerifySignature(sigBytes)) { Fail("NONEwithDSA failed to reset"); } // lightweight test DsaSigner signer = new DsaSigner(); Asn1Sequence derSig = Asn1Sequence.GetInstance(Asn1Object.FromByteArray(sigBytes)); signer.Init(false, kp.Public); if (!signer.VerifySignature(dummySha1, DerInteger.GetInstance(derSig[0]).Value, DerInteger.GetInstance(derSig[1]).Value)) { Fail("NONEwithDSA not really NONE!"); } }
/// <summary> /// Gets the verifying stream. /// </summary> /// <returns></returns> public VerifyingStream GetVerifyingStream(KeyczarBase keyczar) { var signer = new DsaSigner(); signer.Init(forSigning: false, parameters: new DsaPublicKeyParameters(Y.ToBouncyBigInteger(), new DsaParameters( P.ToBouncyBigInteger(), Q.ToBouncyBigInteger(), G.ToBouncyBigInteger()))); var digest = GetDigest(); var digestSigner = new DsaDigestSigner(signer, digest); return(new DigestStream(digestSigner, sigRepair: sig => { if (!keyczar.Config.StrictDsaVerification) { return Utility.RemoveJunkFronAnsiObj(sig); } return sig; })); }
private byte[] SignDsa(byte[] buffer, int length) { var signer = new DsaSigner(); signer.Init(true, new ParametersWithRandom(PrivateKeyFactory.CreateKey(PrivateKey), _secureRandom)); var sha1 = new Sha1Digest(); sha1.BlockUpdate(buffer, 0, length); byte[] hash = new byte[sha1.GetDigestSize()]; sha1.DoFinal(hash, 0); var signature = signer.GenerateSignature(hash); byte[] res = new byte[41]; res[0] = PublicKey[0]; signature[0].ToByteArrayUnsigned().CopyTo(res, 1); signature[1].ToByteArrayUnsigned().CopyTo(res, 21); return(res); }
private bool VerifyDsa(byte[] buffer, int length, byte[] signature) { int numberSize = 64 + PublicKey[0] * 8; DsaPublicKeyParameters parameters = new DsaPublicKeyParameters( new BigInteger(1, PublicKey, 21 + 2 * numberSize, numberSize), new DsaParameters( new BigInteger(1, PublicKey, 21, numberSize), new BigInteger(1, PublicKey, 1, 20), new BigInteger(1, PublicKey, 21 + numberSize, numberSize)) ); var dsa = new DsaSigner(); dsa.Init(false, parameters); var sha1 = new Sha1Digest(); sha1.BlockUpdate(buffer, 0, length); byte[] hash = new byte[sha1.GetDigestSize()]; sha1.DoFinal(hash, 0); return(dsa.VerifySignature(hash, new BigInteger(1, signature, 1, 20), new BigInteger(1, signature, 21, 20))); }
private byte[] SignBytesDsa(byte[] byteArray, string pathToPrivateKeyPemFile) { // Create a digest of nonce + cnonce // This only seems to work with SHA1 (SHA256 gives us a 401 error) var sha = SHA1.Create(); var digest = sha.ComputeHash(byteArray); // Read DSA key DsaKeyParameters keyParameters; using (var fileStream = System.IO.File.OpenText(pathToPrivateKeyPemFile)) { var pemReader = new PemReader(fileStream); keyParameters = (DsaKeyParameters)pemReader.ReadObject(); } // Create DSA signer DsaSigner sig = new DsaSigner(); sig.Init(true, keyParameters); // Digitally sign the digest with our private key // The corresponding public key is in our admin handle on the server var signature = sig.GenerateSignature(digest); // Signature bytes from a DSA key need to be DER-encoded // This signature is in two parts (r and s) DerSequence seq = new DerSequence(new Asn1Encodable[2] { new DerInteger(signature[0]), new DerInteger(signature[1]) }); var encode = seq.GetEncoded(); var derEncode = seq.GetDerEncoded(); return(seq.GetDerEncoded()); }
private void Dsa2Test4() { byte[] seed = Hex.Decode("193AFCA7C1E77B3C1ECC618C81322E47B8B8B997C9C83515C59CC446C2D9BD47"); DsaParametersGenerator pGen = new DsaParametersGenerator(new Sha256Digest()); pGen.Init(new DsaParameterGenerationParameters(3072, 256, 80, new DsaTestSecureRandom(seed))); DsaParameters parameters = pGen.GenerateParameters(); DsaValidationParameters pv = parameters.ValidationParameters; if (pv.Counter != 20) { Fail("counter incorrect"); } if (!AreEqual(seed, pv.GetSeed())) { Fail("seed incorrect"); } if (!parameters.Q.Equals(new BigInteger("CFA0478A54717B08CE64805B76E5B14249A77A4838469DF7F7DC987EFCCFB11D", 16))) { Fail("Q incorrect"); } if (!parameters.P.Equals(new BigInteger( "90066455B5CFC38F9CAA4A48B4281F292C260FEEF01FD610" + "37E56258A7795A1C7AD46076982CE6BB956936C6AB4DCFE0" + "5E6784586940CA544B9B2140E1EB523F009D20A7E7880E4E" + "5BFA690F1B9004A27811CD9904AF70420EEFD6EA11EF7DA1" + "29F58835FF56B89FAA637BC9AC2EFAAB903402229F491D8D" + "3485261CD068699B6BA58A1DDBBEF6DB51E8FE34E8A78E54" + "2D7BA351C21EA8D8F1D29F5D5D15939487E27F4416B0CA63" + "2C59EFD1B1EB66511A5A0FBF615B766C5862D0BD8A3FE7A0" + "E0DA0FB2FE1FCB19E8F9996A8EA0FCCDE538175238FC8B0E" + "E6F29AF7F642773EBE8CD5402415A01451A840476B2FCEB0" + "E388D30D4B376C37FE401C2A2C2F941DAD179C540C1C8CE0" + "30D460C4D983BE9AB0B20F69144C1AE13F9383EA1C08504F" + "B0BF321503EFE43488310DD8DC77EC5B8349B8BFE97C2C56" + "0EA878DE87C11E3D597F1FEA742D73EEC7F37BE43949EF1A" + "0D15C3F3E3FC0A8335617055AC91328EC22B50FC15B941D3" + "D1624CD88BC25F3E941FDDC6200689581BFEC416B4B2CB73", 16))) { Fail("P incorrect"); } if (!parameters.G.Equals(new BigInteger( "5E5CBA992E0A680D885EB903AEA78E4A45A469103D448EDE" + "3B7ACCC54D521E37F84A4BDD5B06B0970CC2D2BBB715F7B8" + "2846F9A0C393914C792E6A923E2117AB805276A975AADB52" + "61D91673EA9AAFFEECBFA6183DFCB5D3B7332AA19275AFA1" + "F8EC0B60FB6F66CC23AE4870791D5982AAD1AA9485FD8F4A" + "60126FEB2CF05DB8A7F0F09B3397F3937F2E90B9E5B9C9B6" + "EFEF642BC48351C46FB171B9BFA9EF17A961CE96C7E7A7CC" + "3D3D03DFAD1078BA21DA425198F07D2481622BCE45969D9C" + "4D6063D72AB7A0F08B2F49A7CC6AF335E08C4720E31476B6" + "7299E231F8BD90B39AC3AE3BE0C6B6CACEF8289A2E2873D5" + "8E51E029CAFBD55E6841489AB66B5B4B9BA6E2F784660896" + "AFF387D92844CCB8B69475496DE19DA2E58259B090489AC8" + "E62363CDF82CFD8EF2A427ABCD65750B506F56DDE3B98856" + "7A88126B914D7828E2B63A6D7ED0747EC59E0E0A23CE7D8A" + "74C1D2C2A7AFB6A29799620F00E11C33787F7DED3B30E1A2" + "2D09F1FBDA1ABBBFBF25CAE05A13F812E34563F99410E73B", 16))) { Fail("G incorrect"); } DsaKeyPairGenerator kpGen = new DsaKeyPairGenerator(); kpGen.Init(new DsaKeyGenerationParameters( FixedSecureRandom.From(Hex.Decode("3ABC1587297CE7B9EA1AD6651CF2BC4D7F92ED25CABC8553F567D1B40EBB8764")), parameters)); AsymmetricCipherKeyPair kp = kpGen.GenerateKeyPair(); DsaPublicKeyParameters pub = (DsaPublicKeyParameters)kp.Public; DsaPrivateKeyParameters priv = (DsaPrivateKeyParameters)kp.Private; if (!pub.Y.Equals(new BigInteger( "8B891C8692D3DE875879390F2698B26FBECCA6B075535DCE" + "6B0C862577F9FA0DEF6074E7A7624121224A595896ABD4CD" + "A56B2CEFB942E025D2A4282FFAA98A48CDB47E1A6FCB5CFB" + "393EF35AF9DF913102BB303C2B5C36C3F8FC04ED7B8B69FE" + "FE0CF3E1FC05CFA713B3435B2656E913BA8874AEA9F93600" + "6AEB448BCD005D18EC3562A33D04CF25C8D3D69844343442" + "FA3DB7DE618C5E2DA064573E61E6D5581BFB694A23AC87FD" + "5B52D62E954E1376DB8DDB524FFC0D469DF978792EE44173" + "8E5DB05A7DC43E94C11A2E7A4FBE383071FA36D2A7EC8A93" + "88FE1C4F79888A99D3B6105697C2556B79BB4D7E781CEBB3" + "D4866AD825A5E830846072289FDBC941FA679CA82F5F78B7" + "461B2404DB883D215F4E0676CF5493950AC5591697BFEA8D" + "1EE6EC016B89BA51CAFB5F9C84C989FA117375E94578F28B" + "E0B34CE0545DA46266FD77F62D8F2CEE92AB77012AFEBC11" + "008985A821CD2D978C7E6FE7499D1AAF8DE632C21BB48CA5" + "CBF9F31098FD3FD3854C49A65D9201744AACE540354974F9", 16))) { Fail("Y value incorrect"); } if (!priv.X.Equals( new BigInteger("3ABC1587297CE7B9EA1AD6651CF2BC4D7F92ED25CABC8553F567D1B40EBB8764", 16))) { Fail("X value incorrect"); } DsaSigner signer = new DsaSigner(); signer.Init(true, new ParametersWithRandom(kp.Private, FixedSecureRandom.From(Hex.Decode("A6902C1E6E3943C5628061588A8B007BCCEA91DBF12915483F04B24AB0678BEE")))); byte[] msg = Hex.Decode("BA7816BF8F01CFEA414140DE5DAE2223B00361A396177A9CB410FF61F20015AD"); BigInteger[] sig = signer.GenerateSignature(msg); if (!sig[0].Equals(new BigInteger("5F184E645A38BE8FB4A6871B6503A9D12924C7ABE04B71410066C2ECA6E3BE3E", 16))) { Fail("R value incorrect"); } if (!sig[1].Equals(new BigInteger("91EB0C7BA3D4B9B60B825C3D9F2CADA8A2C9D7723267B033CBCDCF8803DB9C18", 16))) { Fail("S value incorrect"); } signer.Init(false, kp.Public); if (!signer.VerifySignature(msg, sig[0], sig[1])) { Fail("signature not verified"); } }
private void Dsa2Test3() { byte[] seed = Hex.Decode("4783081972865EA95D43318AB2EAF9C61A2FC7BBF1B772A09017BDF5A58F4FF0"); DsaParametersGenerator pGen = new DsaParametersGenerator(new Sha256Digest()); pGen.Init(new DsaParameterGenerationParameters(2048, 256, 80, new DsaTestSecureRandom(seed))); DsaParameters parameters = pGen.GenerateParameters(); DsaValidationParameters pv = parameters.ValidationParameters; if (pv.Counter != 12) { Fail("counter incorrect"); } if (!AreEqual(seed, pv.GetSeed())) { Fail("seed incorrect"); } if (!parameters.Q.Equals(new BigInteger("C24ED361870B61E0D367F008F99F8A1F75525889C89DB1B673C45AF5867CB467", 16))) { Fail("Q incorrect"); } if (!parameters.P.Equals(new BigInteger( "F56C2A7D366E3EBDEAA1891FD2A0D099" + "436438A673FED4D75F594959CFFEBCA7BE0FC72E4FE67D91" + "D801CBA0693AC4ED9E411B41D19E2FD1699C4390AD27D94C" + "69C0B143F1DC88932CFE2310C886412047BD9B1C7A67F8A2" + "5909132627F51A0C866877E672E555342BDF9355347DBD43" + "B47156B2C20BAD9D2B071BC2FDCF9757F75C168C5D9FC431" + "31BE162A0756D1BDEC2CA0EB0E3B018A8B38D3EF2487782A" + "EB9FBF99D8B30499C55E4F61E5C7DCEE2A2BB55BD7F75FCD" + "F00E48F2E8356BDB59D86114028F67B8E07B127744778AFF" + "1CF1399A4D679D92FDE7D941C5C85C5D7BFF91BA69F9489D" + "531D1EBFA727CFDA651390F8021719FA9F7216CEB177BD75", 16))) { Fail("P incorrect"); } if (!parameters.G.Equals(new BigInteger( "8DC6CC814CAE4A1C05A3E186A6FE27EA" + "BA8CDB133FDCE14A963A92E809790CBA096EAA26140550C1" + "29FA2B98C16E84236AA33BF919CD6F587E048C52666576DB" + "6E925C6CBE9B9EC5C16020F9A44C9F1C8F7A8E611C1F6EC2" + "513EA6AA0B8D0F72FED73CA37DF240DB57BBB27431D61869" + "7B9E771B0B301D5DF05955425061A30DC6D33BB6D2A32BD0" + "A75A0A71D2184F506372ABF84A56AEEEA8EB693BF29A6403" + "45FA1298A16E85421B2208D00068A5A42915F82CF0B858C8" + "FA39D43D704B6927E0B2F916304E86FB6A1B487F07D8139E" + "428BB096C6D67A76EC0B8D4EF274B8A2CF556D279AD267CC" + "EF5AF477AFED029F485B5597739F5D0240F67C2D948A6279", 16))) { Fail("G incorrect"); } DsaKeyPairGenerator kpGen = new DsaKeyPairGenerator(); kpGen.Init(new DsaKeyGenerationParameters( FixedSecureRandom.From(Hex.Decode("0CAF2EF547EC49C4F3A6FE6DF4223A174D01F2C115D49A6F73437C29A2A8458C")), parameters)); AsymmetricCipherKeyPair kp = kpGen.GenerateKeyPair(); DsaPublicKeyParameters pub = (DsaPublicKeyParameters)kp.Public; DsaPrivateKeyParameters priv = (DsaPrivateKeyParameters)kp.Private; if (!pub.Y.Equals(new BigInteger( "2828003D7C747199143C370FDD07A286" + "1524514ACC57F63F80C38C2087C6B795B62DE1C224BF8D1D" + "1424E60CE3F5AE3F76C754A2464AF292286D873A7A30B7EA" + "CBBC75AAFDE7191D9157598CDB0B60E0C5AA3F6EBE425500" + "C611957DBF5ED35490714A42811FDCDEB19AF2AB30BEADFF" + "2907931CEE7F3B55532CFFAEB371F84F01347630EB227A41" + "9B1F3F558BC8A509D64A765D8987D493B007C4412C297CAF" + "41566E26FAEE475137EC781A0DC088A26C8804A98C23140E" + "7C936281864B99571EE95C416AA38CEEBB41FDBFF1EB1D1D" + "C97B63CE1355257627C8B0FD840DDB20ED35BE92F08C49AE" + "A5613957D7E5C7A6D5A5834B4CB069E0831753ECF65BA02B", 16))) { Fail("Y value incorrect"); } if (!priv.X.Equals( new BigInteger("0CAF2EF547EC49C4F3A6FE6DF4223A174D01F2C115D49A6F73437C29A2A8458C", 16))) { Fail("X value incorrect"); } DsaSigner signer = new DsaSigner(); signer.Init(true, new ParametersWithRandom(kp.Private, FixedSecureRandom.From(Hex.Decode("0CAF2EF547EC49C4F3A6FE6DF4223A174D01F2C115D49A6F73437C29A2A8458C")))); byte[] msg = Hex.Decode("BA7816BF8F01CFEA414140DE5DAE2223B00361A396177A9CB410FF61F20015AD"); BigInteger[] sig = signer.GenerateSignature(msg); if (!sig[0].Equals(new BigInteger("315C875DCD4850E948B8AC42824E9483A32D5BA5ABE0681B9B9448D444F2BE3C", 16))) { Fail("R value incorrect"); } if (!sig[1].Equals(new BigInteger("89718D12E54A8D9ED066E4A55F7ED5A2229CD23B9A3CEE78F83ED6AA61F6BCB9", 16))) { Fail("S value incorrect"); } signer.Init(false, kp.Public); if (!signer.VerifySignature(msg, sig[0], sig[1])) { Fail("signature not verified"); } }
public override void PerformTest() { byte[] k1 = Hex.Decode("d5014e4b60ef2ba8b6211b4062ba3224e0427dd3"); byte[] k2 = Hex.Decode("345e8d05c075c3a508df729a1685690e68fcfb8c8117847e89063bca1f85d968fd281540b6e13bd1af989a1fbf17e06462bf511f9d0b140fb48ac1b1baa5bded"); SecureRandom random = FixedSecureRandom.From(k1, k2); byte[] keyData = Hex.Decode("b5014e4b60ef2ba8b6211b4062ba3224e0427dd3"); SecureRandom keyRandom = FixedSecureRandom.From(keyData, keyData); BigInteger r = new BigInteger("68076202252361894315274692543577577550894681403"); BigInteger s = new BigInteger("1089214853334067536215539335472893651470583479365"); DsaParametersGenerator pGen = new DsaParametersGenerator(); pGen.Init(512, 80, random); DsaParameters parameters = pGen.GenerateParameters(); DsaValidationParameters pValid = parameters.ValidationParameters; if (pValid.Counter != 105) { Fail("Counter wrong"); } if (!pValue.Equals(parameters.P) || !qValue.Equals(parameters.Q)) { Fail("p or q wrong"); } DsaKeyPairGenerator dsaKeyGen = new DsaKeyPairGenerator(); DsaKeyGenerationParameters genParam = new DsaKeyGenerationParameters(keyRandom, parameters); dsaKeyGen.Init(genParam); AsymmetricCipherKeyPair pair = dsaKeyGen.GenerateKeyPair(); ParametersWithRandom param = new ParametersWithRandom(pair.Private, keyRandom); DsaSigner dsa = new DsaSigner(); dsa.Init(true, param); byte[] message = new BigInteger("968236873715988614170569073515315707566766479517").ToByteArrayUnsigned(); BigInteger[] sig = dsa.GenerateSignature(message); if (!r.Equals(sig[0])) { Fail("r component wrong." + SimpleTest.NewLine + " expecting: " + r + SimpleTest.NewLine + " got : " + sig[0]); } if (!s.Equals(sig[1])) { Fail("s component wrong." + SimpleTest.NewLine + " expecting: " + s + SimpleTest.NewLine + " got : " + sig[1]); } dsa.Init(false, pair.Public); if (!dsa.VerifySignature(message, sig[0], sig[1])) { Fail("verification fails"); } Dsa2Test1(); Dsa2Test2(); Dsa2Test3(); Dsa2Test4(); }
private void Dsa2Test2() { byte[] seed = Hex.Decode("5AFCC1EFFC079A9CCA6ECA86D6E3CC3B18642D9BE1CC6207C84002A9"); DsaParametersGenerator pGen = new DsaParametersGenerator(new Sha224Digest()); pGen.Init(new DsaParameterGenerationParameters(2048, 224, 80, new DsaTestSecureRandom(seed))); DsaParameters parameters = pGen.GenerateParameters(); DsaValidationParameters pv = parameters.ValidationParameters; if (pv.Counter != 21) { Fail("counter incorrect"); } if (!AreEqual(seed, pv.GetSeed())) { Fail("seed incorrect"); } if (!parameters.Q.Equals(new BigInteger("90EAF4D1AF0708B1B612FF35E0A2997EB9E9D263C9CE659528945C0D", 16))) { Fail("Q incorrect"); } if (!parameters.P.Equals(new BigInteger( "C196BA05AC29E1F9C3C72D56DFFC6154" + "A033F1477AC88EC37F09BE6C5BB95F51C296DD20D1A28A06" + "7CCC4D4316A4BD1DCA55ED1066D438C35AEBAABF57E7DAE4" + "28782A95ECA1C143DB701FD48533A3C18F0FE23557EA7AE6" + "19ECACC7E0B51652A8776D02A425567DED36EABD90CA33A1" + "E8D988F0BBB92D02D1D20290113BB562CE1FC856EEB7CDD9" + "2D33EEA6F410859B179E7E789A8F75F645FAE2E136D252BF" + "FAFF89528945C1ABE705A38DBC2D364AADE99BE0D0AAD82E" + "5320121496DC65B3930E38047294FF877831A16D5228418D" + "E8AB275D7D75651CEFED65F78AFC3EA7FE4D79B35F62A040" + "2A1117599ADAC7B269A59F353CF450E6982D3B1702D9CA83", 16))) { Fail("P incorrect"); } if (!parameters.G.Equals(new BigInteger( "A59A749A11242C58C894E9E5A91804E8" + "FA0AC64B56288F8D47D51B1EDC4D65444FECA0111D78F35F" + "C9FDD4CB1F1B79A3BA9CBEE83A3F811012503C8117F98E50" + "48B089E387AF6949BF8784EBD9EF45876F2E6A5A495BE64B" + "6E770409494B7FEE1DBB1E4B2BC2A53D4F893D418B715959" + "2E4FFFDF6969E91D770DAEBD0B5CB14C00AD68EC7DC1E574" + "5EA55C706C4A1C5C88964E34D09DEB753AD418C1AD0F4FDF" + "D049A955E5D78491C0B7A2F1575A008CCD727AB376DB6E69" + "5515B05BD412F5B8C2F4C77EE10DA48ABD53F5DD498927EE" + "7B692BBBCDA2FB23A516C5B4533D73980B2A3B60E384ED20" + "0AE21B40D273651AD6060C13D97FD69AA13C5611A51B9085", 16))) { Fail("G incorrect"); } DsaKeyPairGenerator kpGen = new DsaKeyPairGenerator(); kpGen.Init(new DsaKeyGenerationParameters( FixedSecureRandom.From(Hex.Decode("00D0F09ED3E2568F6CADF9224117DA2AEC5A4300E009DE1366023E17")), parameters)); AsymmetricCipherKeyPair kp = kpGen.GenerateKeyPair(); DsaPublicKeyParameters pub = (DsaPublicKeyParameters)kp.Public; DsaPrivateKeyParameters priv = (DsaPrivateKeyParameters)kp.Private; if (!pub.Y.Equals(new BigInteger( "70035C9A3B225B258F16741F3941FBF0" + "6F3D056CD7BD864604CBB5EE9DD85304EE8E8E4ABD5E9032" + "11DDF25CE149075510ACE166970AFDC7DF552B7244F342FA" + "02F7A621405B754909D757F97290E1FE5036E904CF593446" + "0C046D95659821E1597ED9F2B1F0E20863A6BBD0CE74DACB" + "A5D8C68A90B29C2157CDEDB82EC12B81EE3068F9BF5F7F34" + "6ECA41ED174CCCD7D154FA4F42F80FFE1BF46AE9D8125DEB" + "5B4BA08A72BDD86596DBEDDC9550FDD650C58F5AE5133509" + "A702F79A31ECB490F7A3C5581631F7C5BE4FF7F9E9F27FA3" + "90E47347AD1183509FED6FCF198BA9A71AB3335B4F38BE8D" + "15496A00B6DC2263E20A5F6B662320A3A1EC033AA61E3B68", 16))) { Fail("Y value incorrect"); } if (!priv.X.Equals( new BigInteger("00D0F09ED3E2568F6CADF9224117DA2AEC5A4300E009DE1366023E17", 16))) { Fail("X value incorrect"); } DsaSigner signer = new DsaSigner(); signer.Init(true, new ParametersWithRandom(kp.Private, FixedSecureRandom.From(Hex.Decode("735959CC4463B8B440E407EECA8A473BF6A6D1FE657546F67D401F05")))); byte[] msg = Hex.Decode("23097D223405D8228642A477BDA255B32AADBCE4BDA0B3F7E36C9DA7"); BigInteger[] sig = signer.GenerateSignature(msg); if (!sig[0].Equals(new BigInteger("4400138D05F9639CAF54A583CAAF25D2B76D0C3EAD752CE17DBC85FE", 16))) { Fail("R value incorrect"); } if (!sig[1].Equals(new BigInteger("874D4F12CB13B61732D398445698CFA9D92381D938AA57EE2C9327B3", 16))) { Fail("S value incorrect"); } signer.Init(false, kp.Public); if (!signer.VerifySignature(msg, sig[0], sig[1])) { Fail("signature not verified"); } }
private void Dsa2Test1() { byte[] seed = Hex.Decode("ED8BEE8D1CB89229D2903CBF0E51EE7377F48698"); DsaParametersGenerator pGen = new DsaParametersGenerator(); pGen.Init(new DsaParameterGenerationParameters(1024, 160, 80, new DsaTestSecureRandom(seed))); DsaParameters parameters = pGen.GenerateParameters(); DsaValidationParameters pv = parameters.ValidationParameters; if (pv.Counter != 5) { Fail("counter incorrect"); } if (!AreEqual(seed, pv.GetSeed())) { Fail("seed incorrect"); } if (!parameters.Q.Equals(new BigInteger("E950511EAB424B9A19A2AEB4E159B7844C589C4F", 16))) { Fail("Q incorrect"); } if (!parameters.P.Equals(new BigInteger( "E0A67598CD1B763B" + "C98C8ABB333E5DDA0CD3AA0E5E1FB5BA8A7B4EABC10BA338" + "FAE06DD4B90FDA70D7CF0CB0C638BE3341BEC0AF8A7330A3" + "307DED2299A0EE606DF035177A239C34A912C202AA5F83B9" + "C4A7CF0235B5316BFC6EFB9A248411258B30B839AF172440" + "F32563056CB67A861158DDD90E6A894C72A5BBEF9E286C6B", 16))) { Fail("P incorrect"); } if (!parameters.G.Equals(new BigInteger( "D29D5121B0423C27" + "69AB21843E5A3240FF19CACC792264E3BB6BE4F78EDD1B15" + "C4DFF7F1D905431F0AB16790E1F773B5CE01C804E509066A" + "9919F5195F4ABC58189FD9FF987389CB5BEDF21B4DAB4F8B" + "76A055FFE2770988FE2EC2DE11AD92219F0B351869AC24DA" + "3D7BA87011A701CE8EE7BFE49486ED4527B7186CA4610A75", 16))) { Fail("G incorrect"); } DsaKeyPairGenerator kpGen = new DsaKeyPairGenerator(); kpGen.Init(new DsaKeyGenerationParameters(FixedSecureRandom.From(Hex.Decode("D0EC4E50BB290A42E9E355C73D8809345DE2E139")), parameters)); AsymmetricCipherKeyPair kp = kpGen.GenerateKeyPair(); DsaPublicKeyParameters pub = (DsaPublicKeyParameters)kp.Public; DsaPrivateKeyParameters priv = (DsaPrivateKeyParameters)kp.Private; if (!pub.Y.Equals(new BigInteger( "25282217F5730501" + "DD8DBA3EDFCF349AAFFEC20921128D70FAC44110332201BB" + "A3F10986140CBB97C726938060473C8EC97B4731DB004293" + "B5E730363609DF9780F8D883D8C4D41DED6A2F1E1BBBDC97" + "9E1B9D6D3C940301F4E978D65B19041FCF1E8B518F5C0576" + "C770FE5A7A485D8329EE2914A2DE1B5DA4A6128CEAB70F79", 16))) { Fail("Y value incorrect"); } if (!priv.X.Equals( new BigInteger("D0EC4E50BB290A42E9E355C73D8809345DE2E139", 16))) { Fail("X value incorrect"); } DsaSigner signer = new DsaSigner(); signer.Init(true, new ParametersWithRandom(kp.Private, FixedSecureRandom.From(Hex.Decode("349C55648DCF992F3F33E8026CFAC87C1D2BA075")))); byte[] msg = Hex.Decode("A9993E364706816ABA3E25717850C26C9CD0D89D"); BigInteger[] sig = signer.GenerateSignature(msg); if (!sig[0].Equals(new BigInteger("636155AC9A4633B4665D179F9E4117DF68601F34", 16))) { Fail("R value incorrect"); } if (!sig[1].Equals(new BigInteger("6C540B02D9D4852F89DF8CFC99963204F4347704", 16))) { Fail("S value incorrect"); } signer.Init(false, kp.Public); if (!signer.VerifySignature(msg, sig[0], sig[1])) { Fail("signature not verified"); } }