public ElGamalKeyGenerationParameters(
SecureRandom random,
ElGamalParameters parameters)
: base(random, parameters.P.BitLength)
{
this.parameters = parameters;
}
public ElGamalKeyGenerationParameters(
SecureRandom random,
ElGamalParameters parameters)
: base(random, GetStrength(parameters))
{
this.parameters = parameters;
}
public ElGamalKeyGenerationParameters(
SecureRandom random,
ElGamalParameters parameters)
: base(random, parameters.P.BitLength)
{
this.parameters = parameters;
}
public ElGamalKeyGenerationParameters(
SecureRandom random,
ElGamalParameters parameters)
: base(random, GetStrength(parameters))
{
this.parameters = parameters;
}
protected bool Equals(ElGamalParameters other)
{
if (p.Equals(other.p) && g.Equals(other.g))
{
return(l == other.l);
}
return(false);
}
protected ElGamalKeyParameters(
bool isPrivate,
ElGamalParameters parameters)
: base(isPrivate)
{
// TODO Should we allow 'parameters' to be null?
this.parameters = parameters;
}
protected ElGamalKeyParameters(
bool isPrivate,
ElGamalParameters parameters)
: base(isPrivate)
{
// TODO Should we allow 'parameters' to be null?
this.parameters = parameters;
}
internal static int GetStrength(ElGamalParameters parameters)
{
if (parameters.L == 0)
{
return(parameters.P.BitLength);
}
return(parameters.L);
}
public ElGamalPrivateKeyParameters(BigInteger x, ElGamalParameters parameters) : base(true, parameters)
{
if (x == null)
{
throw new ArgumentNullException("x");
}
this.x = x;
}
public ElGamalPublicKeyParameters(BigInteger y, ElGamalParameters parameters) : base(false, parameters)
{
if (y == null)
{
throw new ArgumentNullException("y");
}
this.y = y;
}
public ElGamalPublicKeyParameters(IBigInteger y, ElGamalParameters parameters)
: base(false, parameters)
{
if (y == null)
throw new ArgumentNullException("y");
_y = y;
}
public ElGamalPrivateKeyParameters(BigInteger x, ElGamalParameters parameters)
: base(isPrivate: true, parameters)
{
//IL_0010: Unknown result type (might be due to invalid IL or missing references)
if (x == null)
{
throw new ArgumentNullException("x");
}
this.x = x;
}
public override bool Equals(object obj)
{
if (obj == this)
{
return(true);
}
ElGamalParameters elGamalParameters = obj as ElGamalParameters;
return(elGamalParameters != null && this.Equals(elGamalParameters));
}
public ElGamalPublicKeyParameters(BigInteger y, ElGamalParameters parameters)
: base(isPrivate: false, parameters)
{
//IL_0010: Unknown result type (might be due to invalid IL or missing references)
if (y == null)
{
throw new ArgumentNullException("y");
}
this.y = y;
}
public ElGamalPrivateKeyParameters(
BigInteger x,
ElGamalParameters parameters)
: base(true, parameters)
{
if (x == null)
throw new ArgumentNullException("x");
this.x = x;
}
public override bool Equals(object obj)
{
if (obj == this)
{
return(true);
}
ElGamalParameters other = obj as ElGamalParameters;
if (other == null)
{
return(false);
}
return(this.Equals(other));
}
public override bool Equals(object obj)
{
if (obj == this)
{
return(true);
}
ElGamalParameters elGamalParameters = obj as ElGamalParameters;
if (elGamalParameters == null)
{
return(false);
}
return(Equals(elGamalParameters));
}
internal static int GetStrength(
ElGamalParameters parameters)
{
return parameters.L != 0 ? parameters.L : parameters.P.BitLength;
}
public void TestElGamal()
{
BigInteger ELGamalParaG = new BigInteger(Base64.Decode("QAZPRcsH8kHVKS5065R1Xy6QtsPvDkmDZtPuq18EJkvLrCIZivE/m5puQp3/VKJrG7dKgz4NBGpONp3HT+Cn/g=="));
BigInteger ELGamalParaP = new BigInteger(Base64.Decode("AKXmAwgkudDLI/Yxk6wk3APn+mSjX5QSyDwpchmegSIi1ZNC0Jb+IbxjroKNhRTBKjtv4/JTXtJS6IqaZv9uKes="));
BigInteger ELGamalPubY = new BigInteger(Base64.Decode("AJ/gXuZuCA2X044otNkzs8FI36XuFu1L/YHg5cEmDvICTigycRN2E1DnhP+CTqxEqgEqX8rBe5tuGDlkTLwgNqM="));
BigInteger ELGamalPriv = new BigInteger(Base64.Decode("CqVr+K0TpuJKQnc76MjKhxrJzGr93jnuE3mTpth486Meymt8uWEVAQj1tGc9DTt14F9aV9WIT2oYYbvLJRcwow=="));
ElGamalParameters elPara = new ElGamalParameters(ELGamalParaP, ELGamalParaG);
ElGamalPrivateKeyParameters elPriv = new ElGamalPrivateKeyParameters(ELGamalPriv, elPara);
ElGamalPublicKeyParameters elPub = new ElGamalPublicKeyParameters(ELGamalPubY, elPara);
SubjectPublicKeyInfo subInfo = SubjectPublicKeyInfoFactory.CreateSubjectPublicKeyInfo(elPub);
PrivateKeyInfo privInfo = PrivateKeyInfoFactory.CreatePrivateKeyInfo(elPriv);
ElGamalPrivateKeyParameters telPriv = (ElGamalPrivateKeyParameters)PrivateKeyFactory.CreateKey(privInfo);
ElGamalPublicKeyParameters telPub = (ElGamalPublicKeyParameters)PublicKeyFactory.CreateKey(subInfo);
// Console.WriteLine(telPriv.Equals(elPriv));
Assert.IsTrue(telPriv.Equals(elPriv), "ELGamal Private key to into back to private key.");
Assert.IsTrue(telPub.Equals(elPub), "ELGamal Public key to into back to private key.");
Assert.IsTrue(true, "ELGamal Test worked.");
}
/// <summary>
/// Extract a <c>PgpPrivateKey</c> from this secret key's encrypted contents.
/// </summary>
/// <param name="passPhrase"></param>
/// <returns></returns>
/// <exception cref="PgpException">
/// unknown public key algorithm encountered
/// or
/// Exception constructing key
/// </exception>
public IPgpPrivateKey ExtractPrivateKey(char[] passPhrase)
{
var secKeyData = _secret.GetSecretKeyData();
if (secKeyData == null || secKeyData.Length < 1)
return null;
var pubPk = _secret.PublicKeyPacket;
try
{
var data = ExtractKeyData(passPhrase);
using (var memory = new MemoryStream(data, false))
{
using (var bcpgIn = BcpgInputStream.Wrap(memory))
{
IAsymmetricKeyParameter privateKey;
switch (pubPk.Algorithm)
{
case PublicKeyAlgorithmTag.RsaEncrypt:
case PublicKeyAlgorithmTag.RsaGeneral:
case PublicKeyAlgorithmTag.RsaSign:
var rsaPub = (RsaPublicBcpgKey)pubPk.Key;
var rsaPriv = new RsaSecretBcpgKey(bcpgIn);
var rsaPrivSpec = new RsaPrivateCrtKeyParameters(
rsaPriv.Modulus,
rsaPub.PublicExponent,
rsaPriv.PrivateExponent,
rsaPriv.PrimeP,
rsaPriv.PrimeQ,
rsaPriv.PrimeExponentP,
rsaPriv.PrimeExponentQ,
rsaPriv.CrtCoefficient);
privateKey = rsaPrivSpec;
break;
case PublicKeyAlgorithmTag.Dsa:
var dsaPub = (DsaPublicBcpgKey)pubPk.Key;
var dsaPriv = new DsaSecretBcpgKey(bcpgIn);
var dsaParams = new DsaParameters(dsaPub.P, dsaPub.Q, dsaPub.G);
privateKey = new DsaPrivateKeyParameters(dsaPriv.X, dsaParams);
break;
case PublicKeyAlgorithmTag.ElGamalEncrypt:
case PublicKeyAlgorithmTag.ElGamalGeneral:
var elPub = (ElGamalPublicBcpgKey)pubPk.Key;
var elPriv = new ElGamalSecretBcpgKey(bcpgIn);
var elParams = new ElGamalParameters(elPub.P, elPub.G);
privateKey = new ElGamalPrivateKeyParameters(elPriv.X, elParams);
break;
case PublicKeyAlgorithmTag.Ecdh:
var ecdhPub = (ECDHPublicBcpgKey)pubPk.Key;
var ecdhPriv = new ECSecretBcpgKey(bcpgIn);
privateKey = new ECDHPrivateKeyParameters(ecdhPriv.X,
new ECDHPublicKeyParameters(ecdhPub.Point, ecdhPub.Oid, ecdhPub.HashAlgorithm, ecdhPub.SymmetricKeyAlgorithm),
PgpPublicKey.BuildFingerprint(pubPk));
break;
case PublicKeyAlgorithmTag.Ecdsa:
var ecdsaPub = (ECPublicBcpgKey)pubPk.Key;
var ecdsaPriv = new ECSecretBcpgKey(bcpgIn);
privateKey = new ECPrivateKeyParameters(pubPk.Algorithm.ToString(), ecdsaPriv.X, ecdsaPub.Oid);
break;
default:
throw new PgpException("unknown public key algorithm encountered");
}
return new PgpPrivateKey(privateKey, KeyId);
}
}
}
catch (PgpException)
{
throw;
}
catch (Exception e)
{
throw new PgpException("Exception constructing key", e);
}
}
protected bool Equals(ElGamalParameters other)
{
return(this.p.Equals(other.p) && this.g.Equals(other.g) && this.l == other.l);
}
protected bool Equals(
ElGamalParameters other)
{
return(p.Equals(other.p) && g.Equals(other.g) && l == other.l);
}
protected bool Equals(
ElGamalParameters other)
{
return p.Equals(other.p) && g.Equals(other.g) && l == other.l;
}
public override void PerformTest()
{
PgpPublicKey pubKey = null;
//
// Read the public key
//
PgpObjectFactory pgpFact = new PgpObjectFactory(testPubKeyRing);
PgpPublicKeyRing pgpPub = (PgpPublicKeyRing)pgpFact.NextPgpObject();
pubKey = pgpPub.GetPublicKey();
if (pubKey.BitStrength != 1024)
{
Fail("failed - key strength reported incorrectly.");
}
//
// Read the private key
//
PgpSecretKeyRing sKey = new PgpSecretKeyRing(testPrivKeyRing);
PgpSecretKey secretKey = sKey.GetSecretKey();
PgpPrivateKey pgpPrivKey = secretKey.ExtractPrivateKey(pass);
//
// signature generation
//
const string data = "hello world!";
byte[] dataBytes = Encoding.ASCII.GetBytes(data);
MemoryStream bOut = new MemoryStream();
MemoryStream testIn = new MemoryStream(dataBytes, false);
PgpSignatureGenerator sGen = new PgpSignatureGenerator(PublicKeyAlgorithmTag.Dsa,
HashAlgorithmTag.Sha1);
sGen.InitSign(PgpSignature.BinaryDocument, pgpPrivKey);
PgpCompressedDataGenerator cGen = new PgpCompressedDataGenerator(
CompressionAlgorithmTag.Zip);
BcpgOutputStream bcOut = new BcpgOutputStream(
cGen.Open(new UncloseableStream(bOut)));
sGen.GenerateOnePassVersion(false).Encode(bcOut);
PgpLiteralDataGenerator lGen = new PgpLiteralDataGenerator();
DateTime testDateTime = new DateTime(1973, 7, 27);
Stream lOut = lGen.Open(
new UncloseableStream(bcOut),
PgpLiteralData.Binary,
"_CONSOLE",
dataBytes.Length,
testDateTime);
int ch;
while ((ch = testIn.ReadByte()) >= 0)
{
lOut.WriteByte((byte) ch);
sGen.Update((byte) ch);
}
lGen.Close();
sGen.Generate().Encode(bcOut);
cGen.Close();
//
// verify Generated signature
//
pgpFact = new PgpObjectFactory(bOut.ToArray());
PgpCompressedData c1 = (PgpCompressedData)pgpFact.NextPgpObject();
pgpFact = new PgpObjectFactory(c1.GetDataStream());
PgpOnePassSignatureList p1 = (PgpOnePassSignatureList)pgpFact.NextPgpObject();
PgpOnePassSignature ops = p1[0];
PgpLiteralData p2 = (PgpLiteralData)pgpFact.NextPgpObject();
if (!p2.ModificationTime.Equals(testDateTime))
{
Fail("Modification time not preserved");
}
Stream dIn = p2.GetInputStream();
ops.InitVerify(pubKey);
while ((ch = dIn.ReadByte()) >= 0)
{
ops.Update((byte)ch);
}
PgpSignatureList p3 = (PgpSignatureList)pgpFact.NextPgpObject();
if (!ops.Verify(p3[0]))
{
Fail("Failed Generated signature check");
}
//
// test encryption
//
//
// find a key sutiable for encryption
//
long pgpKeyID = 0;
AsymmetricKeyParameter pKey = null;
foreach (PgpPublicKey pgpKey in pgpPub.GetPublicKeys())
{
if (pgpKey.Algorithm == PublicKeyAlgorithmTag.ElGamalEncrypt
|| pgpKey.Algorithm == PublicKeyAlgorithmTag.ElGamalGeneral)
{
pKey = pgpKey.GetKey();
pgpKeyID = pgpKey.KeyId;
if (pgpKey.BitStrength != 1024)
{
Fail("failed - key strength reported incorrectly.");
}
//
// verify the key
//
}
}
IBufferedCipher c = CipherUtilities.GetCipher("ElGamal/None/PKCS1Padding");
c.Init(true, pKey);
byte[] inBytes = Encoding.ASCII.GetBytes("hello world");
byte[] outBytes = c.DoFinal(inBytes);
pgpPrivKey = sKey.GetSecretKey(pgpKeyID).ExtractPrivateKey(pass);
c.Init(false, pgpPrivKey.Key);
outBytes = c.DoFinal(outBytes);
if (!Arrays.AreEqual(inBytes, outBytes))
{
Fail("decryption failed.");
}
//
// encrypted message
//
byte[] text = { (byte)'h', (byte)'e', (byte)'l', (byte)'l', (byte)'o',
(byte)' ', (byte)'w', (byte)'o', (byte)'r', (byte)'l', (byte)'d', (byte)'!', (byte)'\n' };
PgpObjectFactory pgpF = new PgpObjectFactory(encMessage);
PgpEncryptedDataList encList = (PgpEncryptedDataList)pgpF.NextPgpObject();
PgpPublicKeyEncryptedData encP = (PgpPublicKeyEncryptedData)encList[0];
Stream clear = encP.GetDataStream(pgpPrivKey);
pgpFact = new PgpObjectFactory(clear);
c1 = (PgpCompressedData)pgpFact.NextPgpObject();
pgpFact = new PgpObjectFactory(c1.GetDataStream());
PgpLiteralData ld = (PgpLiteralData)pgpFact.NextPgpObject();
if (!ld.FileName.Equals("test.txt"))
{
throw new Exception("wrong filename in packet");
}
Stream inLd = ld.GetDataStream();
byte[] bytes = Streams.ReadAll(inLd);
if (!Arrays.AreEqual(bytes, text))
{
Fail("wrong plain text in decrypted packet");
}
//
// signed and encrypted message
//
pgpF = new PgpObjectFactory(signedAndEncMessage);
encList = (PgpEncryptedDataList)pgpF.NextPgpObject();
encP = (PgpPublicKeyEncryptedData)encList[0];
clear = encP.GetDataStream(pgpPrivKey);
pgpFact = new PgpObjectFactory(clear);
c1 = (PgpCompressedData)pgpFact.NextPgpObject();
pgpFact = new PgpObjectFactory(c1.GetDataStream());
p1 = (PgpOnePassSignatureList)pgpFact.NextPgpObject();
ops = p1[0];
ld = (PgpLiteralData)pgpFact.NextPgpObject();
bOut = new MemoryStream();
if (!ld.FileName.Equals("test.txt"))
{
throw new Exception("wrong filename in packet");
}
inLd = ld.GetDataStream();
//
// note: we use the DSA public key here.
//
ops.InitVerify(pgpPub.GetPublicKey());
while ((ch = inLd.ReadByte()) >= 0)
{
ops.Update((byte) ch);
bOut.WriteByte((byte) ch);
}
p3 = (PgpSignatureList)pgpFact.NextPgpObject();
if (!ops.Verify(p3[0]))
{
Fail("Failed signature check");
}
if (!Arrays.AreEqual(bOut.ToArray(), text))
{
Fail("wrong plain text in decrypted packet");
}
//
// encrypt
//
MemoryStream cbOut = new MemoryStream();
PgpEncryptedDataGenerator cPk = new PgpEncryptedDataGenerator(
SymmetricKeyAlgorithmTag.TripleDes, random);
PgpPublicKey puK = sKey.GetSecretKey(pgpKeyID).PublicKey;
cPk.AddMethod(puK);
Stream cOut = cPk.Open(new UncloseableStream(cbOut), bOut.ToArray().Length);
cOut.Write(text, 0, text.Length);
cOut.Close();
pgpF = new PgpObjectFactory(cbOut.ToArray());
encList = (PgpEncryptedDataList)pgpF.NextPgpObject();
encP = (PgpPublicKeyEncryptedData)encList[0];
pgpPrivKey = sKey.GetSecretKey(pgpKeyID).ExtractPrivateKey(pass);
clear = encP.GetDataStream(pgpPrivKey);
outBytes = Streams.ReadAll(clear);
if (!Arrays.AreEqual(outBytes, text))
{
Fail("wrong plain text in Generated packet");
}
//
// use of PgpKeyPair
//
BigInteger g = new BigInteger("153d5d6172adb43045b68ae8e1de1070b6137005686d29d3d73a7749199681ee5b212c9b96bfdcfa5b20cd5e3fd2044895d609cf9b410b7a0f12ca1cb9a428cc", 16);
BigInteger p = new BigInteger("9494fec095f3b85ee286542b3836fc81a5dd0a0349b4c239dd38744d488cf8e31db8bcb7d33b41abb9e5a33cca9144b1cef332c94bf0573bf047a3aca98cdf3b", 16);
ElGamalParameters elParams = new ElGamalParameters(p, g);
IAsymmetricCipherKeyPairGenerator kpg = GeneratorUtilities.GetKeyPairGenerator("ELGAMAL");
kpg.Init(new ElGamalKeyGenerationParameters(random, elParams));
AsymmetricCipherKeyPair kp = kpg.GenerateKeyPair();
PgpKeyPair pgpKp = new PgpKeyPair(PublicKeyAlgorithmTag.ElGamalGeneral ,
kp.Public, kp.Private, DateTime.UtcNow);
PgpPublicKey k1 = pgpKp.PublicKey;
PgpPrivateKey k2 = pgpKp.PrivateKey;
// Test bug with ElGamal P size != 0 mod 8 (don't use these sizes at home!)
for (int pSize = 257; pSize < 264; ++pSize)
{
// Generate some parameters of the given size
ElGamalParametersGenerator epg = new ElGamalParametersGenerator();
epg.Init(pSize, 2, random);
elParams = epg.GenerateParameters();
kpg = GeneratorUtilities.GetKeyPairGenerator("ELGAMAL");
kpg.Init(new ElGamalKeyGenerationParameters(random, elParams));
// Run a short encrypt/decrypt test with random key for the given parameters
kp = kpg.GenerateKeyPair();
PgpKeyPair elGamalKeyPair = new PgpKeyPair(
PublicKeyAlgorithmTag.ElGamalGeneral, kp, DateTime.UtcNow);
cPk = new PgpEncryptedDataGenerator(SymmetricKeyAlgorithmTag.Cast5, random);
puK = elGamalKeyPair.PublicKey;
cPk.AddMethod(puK);
cbOut = new MemoryStream();
cOut = cPk.Open(new UncloseableStream(cbOut), text.Length);
cOut.Write(text, 0, text.Length);
cOut.Close();
pgpF = new PgpObjectFactory(cbOut.ToArray());
encList = (PgpEncryptedDataList)pgpF.NextPgpObject();
encP = (PgpPublicKeyEncryptedData)encList[0];
pgpPrivKey = elGamalKeyPair.PrivateKey;
// Note: This is where an exception would be expected if the P size causes problems
clear = encP.GetDataStream(pgpPrivKey);
byte[] decText = Streams.ReadAll(clear);
if (!Arrays.AreEqual(text, decText))
{
Fail("decrypted message incorrect");
}
}
// check sub key encoding
foreach (PgpPublicKey pgpKey in pgpPub.GetPublicKeys())
{
if (!pgpKey.IsMasterKey)
{
byte[] kEnc = pgpKey.GetEncoded();
PgpObjectFactory objF = new PgpObjectFactory(kEnc);
// TODO Make PgpPublicKey a PgpObject or return a PgpPublicKeyRing
// PgpPublicKey k = (PgpPublicKey)objF.NextPgpObject();
//
// pKey = k.GetKey();
// pgpKeyID = k.KeyId;
// if (k.BitStrength != 1024)
// {
// Fail("failed - key strength reported incorrectly.");
// }
//
// if (objF.NextPgpObject() != null)
// {
// Fail("failed - stream not fully parsed.");
// }
}
}
}
private void doTestEnc(
int size,
int privateValueSize,
BigInteger g,
BigInteger p)
{
ElGamalParameters dhParams = new ElGamalParameters(p, g, privateValueSize);
ElGamalKeyGenerationParameters ekgParams = new ElGamalKeyGenerationParameters(new SecureRandom(), dhParams);
ElGamalKeyPairGenerator kpGen = new ElGamalKeyPairGenerator();
kpGen.Init(ekgParams);
//
// generate pair
//
AsymmetricCipherKeyPair pair = kpGen.GenerateKeyPair();
ElGamalPublicKeyParameters pu = (ElGamalPublicKeyParameters) pair.Public;
ElGamalPrivateKeyParameters pv = (ElGamalPrivateKeyParameters) pair.Private;
checkKeySize(privateValueSize, pv);
ElGamalEngine e = new ElGamalEngine();
e.Init(true, pu);
if (e.GetOutputBlockSize() != size / 4)
{
Fail(size + " GetOutputBlockSize() on encryption failed.");
}
byte[] message = Hex.Decode("5468697320697320612074657374");
byte[] pText = message;
byte[] cText = e.ProcessBlock(pText, 0, pText.Length);
e.Init(false, pv);
if (e.GetOutputBlockSize() != (size / 8) - 1)
{
Fail(size + " GetOutputBlockSize() on decryption failed.");
}
pText = e.ProcessBlock(cText, 0, cText.Length);
if (!Arrays.AreEqual(message, pText))
{
Fail(size + " bit test failed");
}
e.Init(true, pu);
byte[] bytes = new byte[e.GetInputBlockSize() + 2];
try
{
e.ProcessBlock(bytes, 0, bytes.Length);
Fail("out of range block not detected");
}
catch (DataLengthException)
{
// expected
}
try
{
bytes[0] = (byte)0xff;
e.ProcessBlock(bytes, 0, bytes.Length - 1);
Fail("out of range block not detected");
}
catch (DataLengthException)
{
// expected
}
try
{
bytes[0] = (byte)0x7f;
e.ProcessBlock(bytes, 0, bytes.Length - 1);
}
catch (DataLengthException)
{
Fail("in range block failed");
}
}
private void doTestGP(
int size,
int privateValueSize,
BigInteger g,
BigInteger p)
{
IAsymmetricCipherKeyPairGenerator keyGen = GeneratorUtilities.GetKeyPairGenerator("ElGamal");
// DHParameterSpec elParams = new DHParameterSpec(p, g);
// keyGen.initialize(elParams);
ElGamalParameters elParams = new ElGamalParameters(p, g, privateValueSize);
ElGamalKeyGenerationParameters elKgp = new ElGamalKeyGenerationParameters(
new SecureRandom(), elParams);
keyGen.Init(elKgp);
AsymmetricCipherKeyPair keyPair = keyGen.GenerateKeyPair();
SecureRandom rand = new SecureRandom();
checkKeySize(privateValueSize, keyPair);
IBufferedCipher cipher = CipherUtilities.GetCipher("ElGamal");
cipher.Init(true, new ParametersWithRandom(keyPair.Public, rand));
byte[] inBytes = Encoding.ASCII.GetBytes("This is a test");
if (cipher.GetOutputSize(inBytes.Length) != (size / 8) * 2)
{
Fail("getOutputSize wrong on encryption");
}
byte[] outBytes = cipher.DoFinal(inBytes);
cipher.Init(false, keyPair.Private);
if (cipher.GetOutputSize(outBytes.Length) != (size / 8) - 1)
{
Fail("GetOutputSize wrong on decryption");
}
//
// No Padding - maximum length
//
byte[] modBytes = ((ElGamalPublicKeyParameters)keyPair.Public).Parameters.P.ToByteArray();
byte[] maxInput = new byte[modBytes.Length - 1];
maxInput[0] |= 0x7f;
cipher.Init(true, new ParametersWithRandom(keyPair.Public, rand));
outBytes = cipher.DoFinal(maxInput);
cipher.Init(false, keyPair.Private);
outBytes = cipher.DoFinal(outBytes);
if (!AreEqual(outBytes, maxInput))
{
Fail("NoPadding test failed on decrypt expected "
+ Hex.ToHexString(maxInput) + " got "
+ Hex.ToHexString(outBytes));
}
//
// encrypt/decrypt
//
IBufferedCipher c1 = CipherUtilities.GetCipher("ElGamal");
IBufferedCipher c2 = CipherUtilities.GetCipher("ElGamal");
c1.Init(true, new ParametersWithRandom(keyPair.Public, rand));
byte[] out1 = c1.DoFinal(inBytes);
c2.Init(false, keyPair.Private);
byte[] out2 = c2.DoFinal(out1);
if (!AreEqual(inBytes, out2))
{
Fail(size + " encrypt test failed");
}
//
// encrypt/decrypt with update
//
int outLen = c1.ProcessBytes(inBytes, 0, 2, out1, 0);
outLen += c1.DoFinal(inBytes, 2, inBytes.Length - 2, out1, outLen);
outLen = c2.ProcessBytes(out1, 0, 2, out2, 0);
outLen += c2.DoFinal(out1, 2, out1.Length - 2, out2, outLen);
if (!AreEqual(inBytes, out2))
{
Fail(size + " encrypt with update test failed");
}
//
// public key encoding test
//
// byte[] pubEnc = keyPair.Public.GetEncoded();
byte[] pubEnc = SubjectPublicKeyInfoFactory.CreateSubjectPublicKeyInfo(keyPair.Public).GetDerEncoded();
// KeyFactory keyFac = KeyFactory.GetInstance("ElGamal");
// X509EncodedKeySpec pubX509 = new X509EncodedKeySpec(pubEnc);
// DHPublicKeyParameters pubKey = (DHPublicKeyParameters)keyFac.generatePublic(pubX509);
ElGamalPublicKeyParameters pubKey = (ElGamalPublicKeyParameters)
PublicKeyFactory.CreateKey(pubEnc);
ElGamalParameters spec = pubKey.Parameters;
if (!spec.G.Equals(elParams.G) || !spec.P.Equals(elParams.P))
{
Fail(size + " bit public key encoding/decoding test failed on parameters");
}
if (!((ElGamalPublicKeyParameters)keyPair.Public).Y.Equals(pubKey.Y))
{
Fail(size + " bit public key encoding/decoding test failed on y value");
}
/*
//
// public key serialisation test
//
// TODO Is there some standard this serialization must conform to?
BinaryFormatter formatter = new BinaryFormatter();
MemoryStream bOut = new MemoryStream();
// ObjectOutputStream oOut = new ObjectOutputStream(bOut);
// oOut.writeObject(keyPair.Public);
formatter.Serialize(bOut, keyPair.Public);
MemoryStream bIn = new MemoryStream(bOut.ToArray(), false);
// ObjectInputStream oIn = new ObjectInputStream(bIn);
// pubKey = (DHPublicKeyParameters)oIn.readObject();
pubKey = (ElGamalPublicKeyParameters) formatter.Deserialize(bIn);
spec = pubKey.Parameters;
if (!spec.G.Equals(elParams.G) || !spec.P.Equals(elParams.P))
{
Fail(size + " bit public key serialisation test failed on parameters");
}
if (!((ElGamalPublicKeyParameters )keyPair.Public).Y.Equals(pubKey.Y))
{
Fail(size + " bit public key serialisation test failed on y value");
}
*/
//
// private key encoding test
//
// TODO Keys don't support GetEncoded
// byte[] privEnc = keyPair.Private.GetEncoded();
byte[] privEnc = PrivateKeyInfoFactory.CreatePrivateKeyInfo(keyPair.Private).GetDerEncoded();
// PKCS8EncodedKeySpec privPKCS8 = new PKCS8EncodedKeySpec(privEnc);
// DHPrivateKeyParameters privKey = (DHPrivateKeyParameters)keyFac.generatePrivate(privPKCS8);
ElGamalPrivateKeyParameters privKey = (ElGamalPrivateKeyParameters)
PrivateKeyFactory.CreateKey(privEnc);
spec = privKey.Parameters;
if (!spec.G.Equals(elParams.G) || !spec.P.Equals(elParams.P))
{
Fail(size + " bit private key encoding/decoding test failed on parameters");
}
if (!((ElGamalPrivateKeyParameters)keyPair.Private).X.Equals(privKey.X))
{
Fail(size + " bit private key encoding/decoding test failed on y value");
}
/*
//
// private key serialisation test
//
bOut = new MemoryStream();
// oOut = new ObjectOutputStream(bOut);
// oOut.writeObject(keyPair.Private);
formatter.Serialize(bOut, keyPair.Private);
bIn = new MemoryStream(bOut.ToArray(), false);
// oIn = new ObjectInputStream(bIn);
// privKey = (DHPrivateKeyParameters)oIn.readObject();
privKey = (ElGamalPrivateKeyParameters) formatter.Deserialize(bIn);
spec = privKey.Parameters;
if (!spec.G.Equals(elParams.G) || !spec.P.Equals(elParams.P))
{
Fail(size + " bit private key serialisation test failed on parameters");
}
if (!((ElGamalPrivateKeyParameters) keyPair.Private).X.Equals(privKey.X))
{
Fail(size + " bit private key serialisation test failed on y value");
}
*/
}
internal PgpPrivateKey DoExtractPrivateKey(byte[] rawPassPhrase, bool clearPassPhrase)
{
if (IsPrivateKeyEmpty)
return null;
PublicKeyPacket pubPk = secret.PublicKeyPacket;
try
{
byte[] data = ExtractKeyData(rawPassPhrase, clearPassPhrase);
BcpgInputStream bcpgIn = BcpgInputStream.Wrap(new MemoryStream(data, false));
AsymmetricKeyParameter privateKey;
switch (pubPk.Algorithm)
{
case PublicKeyAlgorithmTag.RsaEncrypt:
case PublicKeyAlgorithmTag.RsaGeneral:
case PublicKeyAlgorithmTag.RsaSign:
RsaPublicBcpgKey rsaPub = (RsaPublicBcpgKey)pubPk.Key;
RsaSecretBcpgKey rsaPriv = new RsaSecretBcpgKey(bcpgIn);
RsaPrivateCrtKeyParameters rsaPrivSpec = new RsaPrivateCrtKeyParameters(
rsaPriv.Modulus,
rsaPub.PublicExponent,
rsaPriv.PrivateExponent,
rsaPriv.PrimeP,
rsaPriv.PrimeQ,
rsaPriv.PrimeExponentP,
rsaPriv.PrimeExponentQ,
rsaPriv.CrtCoefficient);
privateKey = rsaPrivSpec;
break;
case PublicKeyAlgorithmTag.Dsa:
DsaPublicBcpgKey dsaPub = (DsaPublicBcpgKey)pubPk.Key;
DsaSecretBcpgKey dsaPriv = new DsaSecretBcpgKey(bcpgIn);
DsaParameters dsaParams = new DsaParameters(dsaPub.P, dsaPub.Q, dsaPub.G);
privateKey = new DsaPrivateKeyParameters(dsaPriv.X, dsaParams);
break;
case PublicKeyAlgorithmTag.ECDH:
privateKey = GetECKey("ECDH", bcpgIn);
break;
case PublicKeyAlgorithmTag.ECDsa:
privateKey = GetECKey("ECDSA", bcpgIn);
break;
case PublicKeyAlgorithmTag.ElGamalEncrypt:
case PublicKeyAlgorithmTag.ElGamalGeneral:
ElGamalPublicBcpgKey elPub = (ElGamalPublicBcpgKey)pubPk.Key;
ElGamalSecretBcpgKey elPriv = new ElGamalSecretBcpgKey(bcpgIn);
ElGamalParameters elParams = new ElGamalParameters(elPub.P, elPub.G);
privateKey = new ElGamalPrivateKeyParameters(elPriv.X, elParams);
break;
default:
throw new PgpException("unknown public key algorithm encountered");
}
return new PgpPrivateKey(KeyId, pubPk, privateKey);
}
catch (PgpException e)
{
throw e;
}
catch (Exception e)
{
throw new PgpException("Exception constructing key", e);
}
}
public void TestInvalidP()
{
ElGamalParameters dhParams = new ElGamalParameters(pPgpBogusPSamp, gPgpBogusPSamp, lPgpBogusPSamp);
ElGamalPublicKeyParameters pu = new ElGamalPublicKeyParameters(yPgpBogusPSamp, dhParams);
ElGamalPrivateKeyParameters pv = new ElGamalPrivateKeyParameters(xPgpBogusPSamp, dhParams);
ElGamalEngine e = new ElGamalEngine();
e.Init(true, pu);
byte[] message = Hex.Decode("5468697320697320612074657374");
byte[] pText = message;
byte[] cText = e.ProcessBlock(pText, 0, pText.Length);
e.Init(false, pv);
pText = e.ProcessBlock(cText, 0, cText.Length);
if (Arrays.AreEqual(message, pText))
{
Fail("invalid test failed");
}
}
public static int Main(
string[] args)
{
if (args.Length < 2)
{
Console.WriteLine("DsaElGamalKeyRingGenerator [-a] identity passPhrase");
return 0;
}
IAsymmetricCipherKeyPairGenerator dsaKpg = GeneratorUtilities.GetKeyPairGenerator("DSA");
DsaParametersGenerator pGen = new DsaParametersGenerator();
pGen.Init(1024, 80, new SecureRandom());
DsaParameters dsaParams = pGen.GenerateParameters();
DsaKeyGenerationParameters kgp = new DsaKeyGenerationParameters(new SecureRandom(), dsaParams);
dsaKpg.Init(kgp);
//
// this takes a while as the key generator has to Generate some DSA parameters
// before it Generates the key.
//
AsymmetricCipherKeyPair dsaKp = dsaKpg.GenerateKeyPair();
IAsymmetricCipherKeyPairGenerator elgKpg = GeneratorUtilities.GetKeyPairGenerator("ELGAMAL");
BigInteger g = new BigInteger("153d5d6172adb43045b68ae8e1de1070b6137005686d29d3d73a7749199681ee5b212c9b96bfdcfa5b20cd5e3fd2044895d609cf9b410b7a0f12ca1cb9a428cc", 16);
BigInteger p = new BigInteger("9494fec095f3b85ee286542b3836fc81a5dd0a0349b4c239dd38744d488cf8e31db8bcb7d33b41abb9e5a33cca9144b1cef332c94bf0573bf047a3aca98cdf3b", 16);
ElGamalParameters elParams = new ElGamalParameters(p, g);
ElGamalKeyGenerationParameters elKgp = new ElGamalKeyGenerationParameters(new SecureRandom(), elParams);
elgKpg.Init(elKgp);
//
// this is quicker because we are using preGenerated parameters.
//
AsymmetricCipherKeyPair elgKp = elgKpg.GenerateKeyPair();
Stream out1, out2;
if (args[0].Equals("-a"))
{
if (args.Length < 3)
{
Console.WriteLine("DSAElGamalKeyRingGenerator [-a] identity passPhrase");
return 0;
}
out1 = File.Create("secret.asc");
out2 = File.Create("pub.asc");
ExportKeyPair(out1, out2, dsaKp, elgKp, args[1], args[2].ToCharArray(), true);
}
else
{
out1 = File.Create("secret.bpg");
out2 = File.Create("pub.bpg");
ExportKeyPair(out1, out2, dsaKp, elgKp, args[0], args[1].ToCharArray(), false);
}
out1.Close();
out2.Close();
return 0;
}
internal static int GetStrength(ElGamalParameters parameters) => ((parameters.L == 0) ? parameters.P.BitLength : parameters.L);
protected bool Equals(ElGamalParameters other) => ((this.p.Equals(other.p) && this.g.Equals(other.g)) && (this.l == other.l));
/// <summary>Extract a <c>PgpPrivateKey</c> from this secret key's encrypted contents.</summary>
public PgpPrivateKey ExtractPrivateKey(
char[] passPhrase)
{
byte[] secKeyData = secret.GetSecretKeyData();
if (secKeyData == null || secKeyData.Length < 1)
return null;
PublicKeyPacket pubPk = secret.PublicKeyPacket;
try
{
byte[] data = ExtractKeyData(passPhrase);
BcpgInputStream bcpgIn = BcpgInputStream.Wrap(new MemoryStream(data, false));
AsymmetricKeyParameter privateKey;
switch (pubPk.Algorithm)
{
case PublicKeyAlgorithmTag.RsaEncrypt:
case PublicKeyAlgorithmTag.RsaGeneral:
case PublicKeyAlgorithmTag.RsaSign:
RsaPublicBcpgKey rsaPub = (RsaPublicBcpgKey)pubPk.Key;
RsaSecretBcpgKey rsaPriv = new RsaSecretBcpgKey(bcpgIn);
RsaPrivateCrtKeyParameters rsaPrivSpec = new RsaPrivateCrtKeyParameters(
rsaPriv.Modulus,
rsaPub.PublicExponent,
rsaPriv.PrivateExponent,
rsaPriv.PrimeP,
rsaPriv.PrimeQ,
rsaPriv.PrimeExponentP,
rsaPriv.PrimeExponentQ,
rsaPriv.CrtCoefficient);
privateKey = rsaPrivSpec;
break;
case PublicKeyAlgorithmTag.Dsa:
DsaPublicBcpgKey dsaPub = (DsaPublicBcpgKey)pubPk.Key;
DsaSecretBcpgKey dsaPriv = new DsaSecretBcpgKey(bcpgIn);
DsaParameters dsaParams = new DsaParameters(dsaPub.P, dsaPub.Q, dsaPub.G);
privateKey = new DsaPrivateKeyParameters(dsaPriv.X, dsaParams);
break;
case PublicKeyAlgorithmTag.ElGamalEncrypt:
case PublicKeyAlgorithmTag.ElGamalGeneral:
ElGamalPublicBcpgKey elPub = (ElGamalPublicBcpgKey)pubPk.Key;
ElGamalSecretBcpgKey elPriv = new ElGamalSecretBcpgKey(bcpgIn);
ElGamalParameters elParams = new ElGamalParameters(elPub.P, elPub.G);
privateKey = new ElGamalPrivateKeyParameters(elPriv.X, elParams);
break;
default:
throw new PgpException("unknown public key algorithm encountered");
}
return new PgpPrivateKey(privateKey, KeyId);
}
catch (PgpException e)
{
throw e;
}
catch (Exception e)
{
throw new PgpException("Exception constructing key", e);
}
}
private void doTestRandom(
int size)
{
// AlgorithmParameterGenerator a = AlgorithmParameterGenerator.getInstance("ElGamal");
// a.init(size, new SecureRandom());
ElGamalParametersGenerator a = new ElGamalParametersGenerator();
a.Init(size, 20, new SecureRandom());
// AlgorithmParameters parameters = a.generateParameters();
ElGamalParameters p = a.GenerateParameters();
// byte[] encodeParams = parameters.GetEncoded();
byte[] encodeParams = new ElGamalParameter(p.P, p.G).GetDerEncoded();
// AlgorithmParameters a2 = AlgorithmParameters.getInstance("ElGamal");
// a2.init(encodeParams);
ElGamalParameter elP = new ElGamalParameter((Asn1Sequence) Asn1Object.FromByteArray(encodeParams));
ElGamalParameters p2 = new ElGamalParameters(elP.P, elP.G);
// a and a2 should be equivalent!
// byte[] encodeParams_2 = a2.GetEncoded();
byte[] encodeParams_2 = new ElGamalParameter(p2.P, p2.G).GetDerEncoded();
if (!AreEqual(encodeParams, encodeParams_2))
{
Fail(this.Name + ": encode/decode parameters failed");
}
// DHParameters elP = (DHParameters)parameters.getParameterSpec(typeof(DHParameters));
doTestGP(size, 0, elP.G, elP.P);
}
public void TestElGamal()
{
BigInteger g512 = new BigInteger("153d5d6172adb43045b68ae8e1de1070b6137005686d29d3d73a7749199681ee5b212c9b96bfdcfa5b20cd5e3fd2044895d609cf9b410b7a0f12ca1cb9a428cc", 16);
BigInteger p512 = new BigInteger("9494fec095f3b85ee286542b3836fc81a5dd0a0349b4c239dd38744d488cf8e31db8bcb7d33b41abb9e5a33cca9144b1cef332c94bf0573bf047a3aca98cdf3b", 16);
ElGamalParameters dhParams = new ElGamalParameters(p512, g512);
ElGamalKeyGenerationParameters parameters = new ElGamalKeyGenerationParameters(new SecureRandom(), dhParams); ElGamalKeyPairGenerator kpGen = new ElGamalKeyPairGenerator();
kpGen.Init(parameters);
AsymmetricCipherKeyPair pair = kpGen.GenerateKeyPair();
ElGamalPublicKeyParameters pu1 = (ElGamalPublicKeyParameters)pair.Public;
ElGamalPrivateKeyParameters pv1 = (ElGamalPrivateKeyParameters)pair.Private;
ElGamalPublicKeyParameters pu2 = new ElGamalPublicKeyParameters(pu1.Y, pu1.Parameters);
ElGamalPrivateKeyParameters pv2 = new ElGamalPrivateKeyParameters(pv1.X, pv1.Parameters);
ElGamalPublicKeyParameters pu3 = new ElGamalPublicKeyParameters(pv1.X, pu1.Parameters);
ElGamalPrivateKeyParameters pv3 = new ElGamalPrivateKeyParameters(pu1.Y, pu1.Parameters);
doTest(pu1, pu2, pu3);
doTest(pv1, pv2, pv3);
ElGamalParameters pr1 = pu1.Parameters;
ElGamalParameters pr2 = new ElGamalParameters(pr1.P, pr1.G);
ElGamalParameters pr3 = new ElGamalParameters(pr1.G, pr1.P);
doTest(pr1, pr2, pr3);
pu2 = new ElGamalPublicKeyParameters(pu1.Y, pr2);
pv2 = new ElGamalPrivateKeyParameters(pv1.X, pr2);
doTest(pu1, pu2, pu3);
doTest(pv1, pv2, pv3);
ElGamalTestKeyParameters k1 = new ElGamalTestKeyParameters(false, null);
ElGamalTestKeyParameters k2 = new ElGamalTestKeyParameters(false, null);
ElGamalTestKeyParameters k3 = new ElGamalTestKeyParameters(false, pu1.Parameters);
doTest(k1, k2, k3);
}
public ElGamalTestKeyParameters(
bool isPrivate,
ElGamalParameters parameters)
: base(isPrivate, parameters)
{
}
public void GenerateTest()
{
char[] passPhrase = "hello".ToCharArray();
DsaParametersGenerator pGen = new DsaParametersGenerator();
pGen.Init(512, 80, new SecureRandom());
DsaParameters dsaParams = pGen.GenerateParameters();
DsaKeyGenerationParameters dsaKgp = new DsaKeyGenerationParameters(new SecureRandom(), dsaParams);
IAsymmetricCipherKeyPairGenerator dsaKpg = GeneratorUtilities.GetKeyPairGenerator("DSA");
dsaKpg.Init(dsaKgp);
//
// this takes a while as the key generator has to Generate some DSA parameters
// before it Generates the key.
//
AsymmetricCipherKeyPair dsaKp = dsaKpg.GenerateKeyPair();
IAsymmetricCipherKeyPairGenerator elgKpg = GeneratorUtilities.GetKeyPairGenerator("ELGAMAL");
BigInteger g = new BigInteger("153d5d6172adb43045b68ae8e1de1070b6137005686d29d3d73a7749199681ee5b212c9b96bfdcfa5b20cd5e3fd2044895d609cf9b410b7a0f12ca1cb9a428cc", 16);
BigInteger p = new BigInteger("9494fec095f3b85ee286542b3836fc81a5dd0a0349b4c239dd38744d488cf8e31db8bcb7d33b41abb9e5a33cca9144b1cef332c94bf0573bf047a3aca98cdf3b", 16);
ElGamalParameters elParams = new ElGamalParameters(p, g);
ElGamalKeyGenerationParameters elKgp = new ElGamalKeyGenerationParameters(new SecureRandom(), elParams);
elgKpg.Init(elKgp);
//
// this is quicker because we are using preGenerated parameters.
//
AsymmetricCipherKeyPair elgKp = elgKpg.GenerateKeyPair();
PgpKeyPair dsaKeyPair = new PgpKeyPair(PublicKeyAlgorithmTag.Dsa, dsaKp, DateTime.UtcNow);
PgpKeyPair elgKeyPair = new PgpKeyPair(PublicKeyAlgorithmTag.ElGamalEncrypt, elgKp, DateTime.UtcNow);
PgpKeyRingGenerator keyRingGen = new PgpKeyRingGenerator(PgpSignature.PositiveCertification, dsaKeyPair,
"test", SymmetricKeyAlgorithmTag.Aes256, passPhrase, null, null, new SecureRandom());
keyRingGen.AddSubKey(elgKeyPair);
PgpSecretKeyRing keyRing = keyRingGen.GenerateSecretKeyRing();
keyRing.GetSecretKey().ExtractPrivateKey(passPhrase);
PgpPublicKeyRing pubRing = keyRingGen.GeneratePublicKeyRing();
PgpPublicKey vKey = null;
PgpPublicKey sKey = null;
foreach (PgpPublicKey pk in pubRing.GetPublicKeys())
{
if (pk.IsMasterKey)
{
vKey = pk;
}
else
{
sKey = pk;
}
}
foreach (PgpSignature sig in sKey.GetSignatures())
{
if (sig.KeyId == vKey.KeyId
&& sig.SignatureType == PgpSignature.SubkeyBinding)
{
sig.InitVerify(vKey);
if (!sig.VerifyCertification(vKey, sKey))
{
Fail("failed to verify sub-key signature.");
}
}
}
}
internal static int GetStrength(
ElGamalParameters parameters)
{
return(parameters.L != 0 ? parameters.L : parameters.P.BitLength);
}
protected ElGamalKeyParameters(bool isPrivate, ElGamalParameters parameters) : base(isPrivate)
{
this.parameters = parameters;
}