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.");
// }
}
}
}
public override void PerformTest()
{
//
// RSA tests
//
PgpSecretKeyRing pgpPriv = new PgpSecretKeyRing(rsaKeyRing);
IPgpSecretKey secretKey = pgpPriv.GetSecretKey();
IPgpPrivateKey pgpPrivKey = secretKey.ExtractPrivateKey(rsaPass);
try
{
doTestSig(PublicKeyAlgorithmTag.Dsa, HashAlgorithmTag.Sha1, secretKey.PublicKey, pgpPrivKey);
Fail("RSA wrong key test failed.");
}
catch (PgpException)
{
// expected
}
try
{
doTestSigV3(PublicKeyAlgorithmTag.Dsa, HashAlgorithmTag.Sha1, secretKey.PublicKey, pgpPrivKey);
Fail("RSA V3 wrong key test failed.");
}
catch (PgpException)
{
// expected
}
//
// certifications
//
PgpSignatureGenerator sGen = new PgpSignatureGenerator(PublicKeyAlgorithmTag.RsaGeneral, HashAlgorithmTag.Sha1);
sGen.InitSign(PgpSignature.KeyRevocation, pgpPrivKey);
PgpSignature sig = sGen.GenerateCertification(secretKey.PublicKey);
sig.InitVerify(secretKey.PublicKey);
if (!sig.VerifyCertification(secretKey.PublicKey))
{
Fail("revocation verification failed.");
}
PgpSecretKeyRing pgpDSAPriv = new PgpSecretKeyRing(dsaKeyRing);
IPgpSecretKey secretDSAKey = pgpDSAPriv.GetSecretKey();
IPgpPrivateKey pgpPrivDSAKey = secretDSAKey.ExtractPrivateKey(dsaPass);
sGen = new PgpSignatureGenerator(PublicKeyAlgorithmTag.Dsa, HashAlgorithmTag.Sha1);
sGen.InitSign(PgpSignature.SubkeyBinding, pgpPrivDSAKey);
PgpSignatureSubpacketGenerator unhashedGen = new PgpSignatureSubpacketGenerator();
PgpSignatureSubpacketGenerator hashedGen = new PgpSignatureSubpacketGenerator();
hashedGen.SetSignatureExpirationTime(false, TEST_EXPIRATION_TIME);
hashedGen.SetSignerUserId(true, TEST_USER_ID);
hashedGen.SetPreferredCompressionAlgorithms(false, PREFERRED_COMPRESSION_ALGORITHMS);
hashedGen.SetPreferredHashAlgorithms(false, PREFERRED_HASH_ALGORITHMS);
hashedGen.SetPreferredSymmetricAlgorithms(false, PREFERRED_SYMMETRIC_ALGORITHMS);
sGen.SetHashedSubpackets(hashedGen.Generate());
sGen.SetUnhashedSubpackets(unhashedGen.Generate());
sig = sGen.GenerateCertification(secretDSAKey.PublicKey, secretKey.PublicKey);
byte[] sigBytes = sig.GetEncoded();
PgpObjectFactory f = new PgpObjectFactory(sigBytes);
sig = ((PgpSignatureList) f.NextPgpObject())[0];
sig.InitVerify(secretDSAKey.PublicKey);
if (!sig.VerifyCertification(secretDSAKey.PublicKey, secretKey.PublicKey))
{
Fail("subkey binding verification failed.");
}
var hashedPcks = sig.GetHashedSubPackets();
var unhashedPcks = sig.GetUnhashedSubPackets();
if (hashedPcks.Count != 6)
{
Fail("wrong number of hashed packets found.");
}
if (unhashedPcks.Count != 1)
{
Fail("wrong number of unhashed packets found.");
}
if (!hashedPcks.GetSignerUserId().Equals(TEST_USER_ID))
{
Fail("test userid not matching");
}
if (hashedPcks.GetSignatureExpirationTime() != TEST_EXPIRATION_TIME)
{
Fail("test signature expiration time not matching");
}
if (unhashedPcks.GetIssuerKeyId() != secretDSAKey.KeyId)
{
Fail("wrong issuer key ID found in certification");
}
int[] prefAlgs = hashedPcks.GetPreferredCompressionAlgorithms();
preferredAlgorithmCheck("compression", PREFERRED_COMPRESSION_ALGORITHMS, prefAlgs);
prefAlgs = hashedPcks.GetPreferredHashAlgorithms();
preferredAlgorithmCheck("hash", PREFERRED_HASH_ALGORITHMS, prefAlgs);
prefAlgs = hashedPcks.GetPreferredSymmetricAlgorithms();
preferredAlgorithmCheck("symmetric", PREFERRED_SYMMETRIC_ALGORITHMS, prefAlgs);
SignatureSubpacketTag[] criticalHashed = hashedPcks.GetCriticalTags();
if (criticalHashed.Length != 1)
{
Fail("wrong number of critical packets found.");
}
if (criticalHashed[0] != SignatureSubpacketTag.SignerUserId)
{
Fail("wrong critical packet found in tag list.");
}
//
// no packets passed
//
sGen = new PgpSignatureGenerator(PublicKeyAlgorithmTag.Dsa, HashAlgorithmTag.Sha1);
sGen.InitSign(PgpSignature.SubkeyBinding, pgpPrivDSAKey);
sGen.SetHashedSubpackets(null);
sGen.SetUnhashedSubpackets(null);
sig = sGen.GenerateCertification(TEST_USER_ID, secretKey.PublicKey);
sig.InitVerify(secretDSAKey.PublicKey);
if (!sig.VerifyCertification(TEST_USER_ID, secretKey.PublicKey))
{
Fail("subkey binding verification failed.");
}
hashedPcks = sig.GetHashedSubPackets();
if (hashedPcks.Count != 1)
{
Fail("found wrong number of hashed packets");
}
unhashedPcks = sig.GetUnhashedSubPackets();
if (unhashedPcks.Count != 1)
{
Fail("found wrong number of unhashed packets");
}
try
{
sig.VerifyCertification(secretKey.PublicKey);
Fail("failed to detect non-key signature.");
}
catch (InvalidOperationException)
{
// expected
}
//
// override hash packets
//
sGen = new PgpSignatureGenerator(PublicKeyAlgorithmTag.Dsa, HashAlgorithmTag.Sha1);
sGen.InitSign(PgpSignature.SubkeyBinding, pgpPrivDSAKey);
hashedGen = new PgpSignatureSubpacketGenerator();
DateTime creationTime = new DateTime(1973, 7, 27);
hashedGen.SetSignatureCreationTime(false, creationTime);
sGen.SetHashedSubpackets(hashedGen.Generate());
sGen.SetUnhashedSubpackets(null);
sig = sGen.GenerateCertification(TEST_USER_ID, secretKey.PublicKey);
sig.InitVerify(secretDSAKey.PublicKey);
if (!sig.VerifyCertification(TEST_USER_ID, secretKey.PublicKey))
{
Fail("subkey binding verification failed.");
}
hashedPcks = sig.GetHashedSubPackets();
if (hashedPcks.Count != 1)
{
Fail("found wrong number of hashed packets in override test");
}
if (!hashedPcks.HasSubpacket(SignatureSubpacketTag.CreationTime))
{
Fail("hasSubpacket test for creation time failed");
}
DateTime sigCreationTime = hashedPcks.GetSignatureCreationTime();
if (!sigCreationTime.Equals(creationTime))
{
Fail("creation of overridden date failed.");
}
prefAlgs = hashedPcks.GetPreferredCompressionAlgorithms();
preferredAlgorithmCheck("compression", NO_PREFERENCES, prefAlgs);
prefAlgs = hashedPcks.GetPreferredHashAlgorithms();
preferredAlgorithmCheck("hash", NO_PREFERENCES, prefAlgs);
prefAlgs = hashedPcks.GetPreferredSymmetricAlgorithms();
preferredAlgorithmCheck("symmetric", NO_PREFERENCES, prefAlgs);
if (hashedPcks.GetKeyExpirationTime() != 0)
{
Fail("unexpected key expiration time found");
}
if (hashedPcks.GetSignatureExpirationTime() != 0)
{
Fail("unexpected signature expiration time found");
}
if (hashedPcks.GetSignerUserId() != null)
{
Fail("unexpected signer user ID found");
}
criticalHashed = hashedPcks.GetCriticalTags();
if (criticalHashed.Length != 0)
{
Fail("critical packets found when none expected");
}
unhashedPcks = sig.GetUnhashedSubPackets();
if (unhashedPcks.Count != 1)
{
Fail("found wrong number of unhashed packets in override test");
}
//
// general signatures
//
doTestSig(PublicKeyAlgorithmTag.RsaGeneral, HashAlgorithmTag.Sha256, secretKey.PublicKey, pgpPrivKey);
doTestSig(PublicKeyAlgorithmTag.RsaGeneral, HashAlgorithmTag.Sha384, secretKey.PublicKey, pgpPrivKey);
doTestSig(PublicKeyAlgorithmTag.RsaGeneral, HashAlgorithmTag.Sha512, secretKey.PublicKey, pgpPrivKey);
doTestSigV3(PublicKeyAlgorithmTag.RsaGeneral, HashAlgorithmTag.Sha1, secretKey.PublicKey, pgpPrivKey);
doTestTextSig(PublicKeyAlgorithmTag.RsaGeneral, HashAlgorithmTag.Sha1, secretKey.PublicKey, pgpPrivKey, TEST_DATA_WITH_CRLF, TEST_DATA_WITH_CRLF);
doTestTextSig(PublicKeyAlgorithmTag.RsaGeneral, HashAlgorithmTag.Sha1, secretKey.PublicKey, pgpPrivKey, TEST_DATA, TEST_DATA_WITH_CRLF);
doTestTextSigV3(PublicKeyAlgorithmTag.RsaGeneral, HashAlgorithmTag.Sha1, secretKey.PublicKey, pgpPrivKey, TEST_DATA_WITH_CRLF, TEST_DATA_WITH_CRLF);
doTestTextSigV3(PublicKeyAlgorithmTag.RsaGeneral, HashAlgorithmTag.Sha1, secretKey.PublicKey, pgpPrivKey, TEST_DATA, TEST_DATA_WITH_CRLF);
//
// DSA Tests
//
pgpPriv = new PgpSecretKeyRing(dsaKeyRing);
secretKey = pgpPriv.GetSecretKey();
pgpPrivKey = secretKey.ExtractPrivateKey(dsaPass);
try
{
doTestSig(PublicKeyAlgorithmTag.RsaGeneral, HashAlgorithmTag.Sha1, secretKey.PublicKey, pgpPrivKey);
Fail("DSA wrong key test failed.");
}
catch (PgpException)
{
// expected
}
try
{
doTestSigV3(PublicKeyAlgorithmTag.RsaGeneral, HashAlgorithmTag.Sha1, secretKey.PublicKey, pgpPrivKey);
Fail("DSA V3 wrong key test failed.");
}
catch (PgpException)
{
// expected
}
doTestSig(PublicKeyAlgorithmTag.Dsa, HashAlgorithmTag.Sha1, secretKey.PublicKey, pgpPrivKey);
doTestSigV3(PublicKeyAlgorithmTag.Dsa, HashAlgorithmTag.Sha1, secretKey.PublicKey, pgpPrivKey);
doTestTextSig(PublicKeyAlgorithmTag.Dsa, HashAlgorithmTag.Sha1, secretKey.PublicKey, pgpPrivKey, TEST_DATA_WITH_CRLF, TEST_DATA_WITH_CRLF);
doTestTextSig(PublicKeyAlgorithmTag.Dsa, HashAlgorithmTag.Sha1, secretKey.PublicKey, pgpPrivKey, TEST_DATA, TEST_DATA_WITH_CRLF);
doTestTextSigV3(PublicKeyAlgorithmTag.Dsa, HashAlgorithmTag.Sha1, secretKey.PublicKey, pgpPrivKey, TEST_DATA_WITH_CRLF, TEST_DATA_WITH_CRLF);
doTestTextSigV3(PublicKeyAlgorithmTag.Dsa, HashAlgorithmTag.Sha1, secretKey.PublicKey, pgpPrivKey, TEST_DATA, TEST_DATA_WITH_CRLF);
// special cases
//
doTestMissingSubpackets(nullPacketsSubKeyBinding);
doTestMissingSubpackets(generateV3BinarySig(pgpPrivKey, PublicKeyAlgorithmTag.Dsa, HashAlgorithmTag.Sha1));
// keyflags
doTestKeyFlagsValues();
}
public override void PerformTest()
{
//
// Read the public key
//
PgpPublicKeyRing pubKeyRing = new PgpPublicKeyRing(testPubKey);
foreach (PgpSignature certification in pubKeyRing.GetPublicKey().GetSignatures())
{
certification.InitVerify(pubKeyRing.GetPublicKey());
if (!certification.VerifyCertification((string)First(pubKeyRing.GetPublicKey().GetUserIds()), pubKeyRing.GetPublicKey()))
{
Fail("self certification does not verify");
}
}
if (pubKeyRing.GetPublicKey().BitStrength != 256)
{
Fail("incorrect bit strength returned");
}
//
// Read the private key
//
PgpSecretKeyRing secretKeyRing = new PgpSecretKeyRing(testPrivKey);
PgpPrivateKey privKey = secretKeyRing.GetSecretKey().ExtractPrivateKey(testPasswd);
GenerateAndSign();
//
// sExpr
//
byte[] msg = Encoding.ASCII.GetBytes("hello world!");
PgpSecretKey key = PgpSecretKey.ParseSecretKeyFromSExpr(new MemoryStream(sExprKey, false), "test".ToCharArray());
PgpSignatureGenerator signGen = new PgpSignatureGenerator(PublicKeyAlgorithmTag.ECDsa, HashAlgorithmTag.Sha256);
signGen.InitSign(PgpSignature.BinaryDocument, key.ExtractPrivateKey(null));
signGen.Update(msg);
PgpSignature sig = signGen.Generate();
sig.InitVerify(key.PublicKey);
sig.Update(msg);
if (!sig.Verify())
{
Fail("signature failed to verify!");
}
}
private void TestDecrypt(PgpSecretKeyRing secretKeyRing)
{
PgpObjectFactory pgpF = new PgpObjectFactory(testMessage);
PgpEncryptedDataList encList = (PgpEncryptedDataList)pgpF.NextPgpObject();
PgpPublicKeyEncryptedData encP = (PgpPublicKeyEncryptedData)encList[0];
PgpSecretKey secretKey = secretKeyRing.GetSecretKey(); // secretKeyRing.GetSecretKey(encP.KeyId);
// PgpPrivateKey pgpPrivKey = secretKey.extractPrivateKey(new JcePBESecretKeyEncryptorBuilder());
// clear = encP.getDataStream(pgpPrivKey, "BC");
//
// bOut.reset();
//
// while ((ch = clear.read()) >= 0)
// {
// bOut.write(ch);
// }
//
// out = bOut.toByteArray();
//
// if (!AreEqual(out, text))
// {
// fail("wrong plain text in Generated packet");
// }
}
private void EmbeddedJpegTest()
{
PgpPublicKeyRing pgpPub = new PgpPublicKeyRing(testPubKey);
PgpSecretKeyRing pgpSec = new PgpSecretKeyRing(testPrivKey);
PgpPublicKey pubKey = pgpPub.GetPublicKey();
PgpUserAttributeSubpacketVectorGenerator vGen = new PgpUserAttributeSubpacketVectorGenerator();
vGen.SetImageAttribute(ImageAttrib.Format.Jpeg, jpegImage);
PgpUserAttributeSubpacketVector uVec = vGen.Generate();
PgpSignatureGenerator sGen = new PgpSignatureGenerator(
PublicKeyAlgorithmTag.RsaGeneral, HashAlgorithmTag.Sha1);
sGen.InitSign(PgpSignature.PositiveCertification, pgpSec.GetSecretKey().ExtractPrivateKey(pass));
PgpSignature sig = sGen.GenerateCertification(uVec, pubKey);
PgpPublicKey nKey = PgpPublicKey.AddCertification(pubKey, uVec, sig);
int count = 0;
foreach (PgpUserAttributeSubpacketVector attributes in nKey.GetUserAttributes())
{
int sigCount = 0;
foreach (PgpSignature s in nKey.GetSignaturesForUserAttribute(attributes))
{
s.InitVerify(pubKey);
if (!s.VerifyCertification(attributes, pubKey))
{
Fail("added signature failed verification");
}
sigCount++;
}
if (sigCount != 1)
{
Fail("Failed added user attributes signature check");
}
count++;
}
if (count != 1)
{
Fail("didn't find added user attributes");
}
nKey = PgpPublicKey.RemoveCertification(nKey, uVec);
if (nKey.GetUserAttributes().GetEnumerator().MoveNext())
{
Fail("found attributes where none expected");
}
}
public override void PerformTest()
{
//
// Read the public key
//
PgpPublicKeyRing pgpPub = new PgpPublicKeyRing(testPubKey);
AsymmetricKeyParameter pubKey = pgpPub.GetPublicKey().GetKey();
IEnumerator enumerator = pgpPub.GetPublicKey().GetUserIds().GetEnumerator();
enumerator.MoveNext();
string uid = (string) enumerator.Current;
enumerator = pgpPub.GetPublicKey().GetSignaturesForId(uid).GetEnumerator();
enumerator.MoveNext();
PgpSignature sig = (PgpSignature) enumerator.Current;
sig.InitVerify(pgpPub.GetPublicKey());
if (!sig.VerifyCertification(uid, pgpPub.GetPublicKey()))
{
Fail("failed to verify certification");
}
//
// write a public key
//
MemoryStream bOut = new UncloseableMemoryStream();
BcpgOutputStream pOut = new BcpgOutputStream(bOut);
pgpPub.Encode(pOut);
if (!Arrays.AreEqual(bOut.ToArray(), testPubKey))
{
Fail("public key rewrite failed");
}
//
// Read the public key
//
PgpPublicKeyRing pgpPubV3 = new PgpPublicKeyRing(testPubKeyV3);
AsymmetricKeyParameter pubKeyV3 = pgpPub.GetPublicKey().GetKey();
//
// write a V3 public key
//
bOut = new UncloseableMemoryStream();
pOut = new BcpgOutputStream(bOut);
pgpPubV3.Encode(pOut);
//
// Read a v3 private key
//
char[] passP = "FIXCITY_QA".ToCharArray();
{
PgpSecretKeyRing pgpPriv2 = new PgpSecretKeyRing(testPrivKeyV3);
PgpSecretKey pgpPrivSecretKey = pgpPriv2.GetSecretKey();
PgpPrivateKey pgpPrivKey2 = pgpPrivSecretKey.ExtractPrivateKey(passP);
//
// write a v3 private key
//
bOut = new UncloseableMemoryStream();
pOut = new BcpgOutputStream(bOut);
pgpPriv2.Encode(pOut);
byte[] result = bOut.ToArray();
if (!Arrays.AreEqual(result, testPrivKeyV3))
{
Fail("private key V3 rewrite failed");
}
}
//
// Read the private key
//
PgpSecretKeyRing pgpPriv = new PgpSecretKeyRing(testPrivKey);
PgpPrivateKey pgpPrivKey = pgpPriv.GetSecretKey().ExtractPrivateKey(pass);
//
// write a private key
//
bOut = new UncloseableMemoryStream();
pOut = new BcpgOutputStream(bOut);
pgpPriv.Encode(pOut);
if (!Arrays.AreEqual(bOut.ToArray(), testPrivKey))
{
Fail("private key rewrite failed");
}
//
// test encryption
//
IBufferedCipher c = CipherUtilities.GetCipher("RSA");
// c.Init(Cipher.ENCRYPT_MODE, pubKey);
c.Init(true, pubKey);
byte[] inBytes = Encoding.ASCII.GetBytes("hello world");
byte[] outBytes = c.DoFinal(inBytes);
// c.Init(Cipher.DECRYPT_MODE, pgpPrivKey.GetKey());
c.Init(false, pgpPrivKey.Key);
outBytes = c.DoFinal(outBytes);
if (!Arrays.AreEqual(inBytes, outBytes))
{
Fail("decryption failed.");
}
//
// test signature message
//
PgpObjectFactory pgpFact = new PgpObjectFactory(sig1);
PgpCompressedData c1 = (PgpCompressedData)pgpFact.NextPgpObject();
pgpFact = new PgpObjectFactory(c1.GetDataStream());
PgpOnePassSignatureList p1 = (PgpOnePassSignatureList)pgpFact.NextPgpObject();
PgpOnePassSignature ops = p1[0];
PgpLiteralData p2 = (PgpLiteralData)pgpFact.NextPgpObject();
Stream dIn = p2.GetInputStream();
ops.InitVerify(pgpPub.GetPublicKey(ops.KeyId));
int ch;
while ((ch = dIn.ReadByte()) >= 0)
{
ops.Update((byte)ch);
}
PgpSignatureList p3 = (PgpSignatureList)pgpFact.NextPgpObject();
if (!ops.Verify(p3[0]))
{
Fail("Failed signature check");
}
//
// encrypted message - read subkey
//
pgpPriv = new PgpSecretKeyRing(subKey);
//
// encrypted message
//
byte[] text = Encoding.ASCII.GetBytes("hello world!\n");
PgpObjectFactory pgpF = new PgpObjectFactory(enc1);
PgpEncryptedDataList encList = (PgpEncryptedDataList)pgpF.NextPgpObject();
PgpPublicKeyEncryptedData encP = (PgpPublicKeyEncryptedData)encList[0];
pgpPrivKey = pgpPriv.GetSecretKey(encP.KeyId).ExtractPrivateKey(pass);
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");
}
//
// encrypt - short message
//
byte[] shortText = { (byte)'h', (byte)'e', (byte)'l', (byte)'l', (byte)'o' };
MemoryStream cbOut = new UncloseableMemoryStream();
PgpEncryptedDataGenerator cPk = new PgpEncryptedDataGenerator(SymmetricKeyAlgorithmTag.Cast5, new SecureRandom());
PgpPublicKey puK = pgpPriv.GetSecretKey(encP.KeyId).PublicKey;
cPk.AddMethod(puK);
Stream cOut = cPk.Open(new UncloseableStream(cbOut), shortText.Length);
cOut.Write(shortText, 0, shortText.Length);
cOut.Close();
pgpF = new PgpObjectFactory(cbOut.ToArray());
encList = (PgpEncryptedDataList)pgpF.NextPgpObject();
encP = (PgpPublicKeyEncryptedData)encList[0];
pgpPrivKey = pgpPriv.GetSecretKey(encP.KeyId).ExtractPrivateKey(pass);
if (encP.GetSymmetricAlgorithm(pgpPrivKey) != SymmetricKeyAlgorithmTag.Cast5)
{
Fail("symmetric algorithm mismatch");
}
clear = encP.GetDataStream(pgpPrivKey);
outBytes = Streams.ReadAll(clear);
if (!Arrays.AreEqual(outBytes, shortText))
{
Fail("wrong plain text in generated short text packet");
}
//
// encrypt
//
cbOut = new UncloseableMemoryStream();
cPk = new PgpEncryptedDataGenerator(SymmetricKeyAlgorithmTag.Cast5, new SecureRandom());
puK = pgpPriv.GetSecretKey(encP.KeyId).PublicKey;
cPk.AddMethod(puK);
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 = pgpPriv.GetSecretKey(encP.KeyId).ExtractPrivateKey(pass);
clear = encP.GetDataStream(pgpPrivKey);
outBytes = Streams.ReadAll(clear);
if (!Arrays.AreEqual(outBytes, text))
{
Fail("wrong plain text in generated packet");
}
//
// read public key with sub key.
//
pgpF = new PgpObjectFactory(subPubKey);
object o;
while ((o = pgpFact.NextPgpObject()) != null)
{
// TODO Should something be tested here?
// Console.WriteLine(o);
}
//
// key pair generation - CAST5 encryption
//
char[] passPhrase = "hello".ToCharArray();
IAsymmetricCipherKeyPairGenerator kpg = GeneratorUtilities.GetKeyPairGenerator("RSA");
RsaKeyGenerationParameters genParam = new RsaKeyGenerationParameters(
BigInteger.ValueOf(0x10001), new SecureRandom(), 1024, 25);
kpg.Init(genParam);
AsymmetricCipherKeyPair kp = kpg.GenerateKeyPair();
PgpSecretKey secretKey = new PgpSecretKey(
PgpSignature.DefaultCertification,
PublicKeyAlgorithmTag.RsaGeneral,
kp.Public,
kp.Private,
DateTime.UtcNow,
"fred",
SymmetricKeyAlgorithmTag.Cast5,
passPhrase,
null,
null,
new SecureRandom()
);
PgpPublicKey key = secretKey.PublicKey;
enumerator = key.GetUserIds().GetEnumerator();
enumerator.MoveNext();
uid = (string) enumerator.Current;
enumerator = key.GetSignaturesForId(uid).GetEnumerator();
enumerator.MoveNext();
sig = (PgpSignature) enumerator.Current;
sig.InitVerify(key);
if (!sig.VerifyCertification(uid, key))
{
Fail("failed to verify certification");
}
pgpPrivKey = secretKey.ExtractPrivateKey(passPhrase);
key = PgpPublicKey.RemoveCertification(key, uid, sig);
if (key == null)
{
Fail("failed certification removal");
}
byte[] keyEnc = key.GetEncoded();
key = PgpPublicKey.AddCertification(key, uid, sig);
keyEnc = key.GetEncoded();
PgpSignatureGenerator sGen = new PgpSignatureGenerator(PublicKeyAlgorithmTag.RsaGeneral, HashAlgorithmTag.Sha1);
sGen.InitSign(PgpSignature.KeyRevocation, secretKey.ExtractPrivateKey(passPhrase));
sig = sGen.GenerateCertification(key);
key = PgpPublicKey.AddCertification(key, sig);
keyEnc = key.GetEncoded();
PgpPublicKeyRing tmpRing = new PgpPublicKeyRing(keyEnc);
key = tmpRing.GetPublicKey();
IEnumerator sgEnum = key.GetSignaturesOfType(PgpSignature.KeyRevocation).GetEnumerator();
sgEnum.MoveNext();
sig = (PgpSignature) sgEnum.Current;
sig.InitVerify(key);
if (!sig.VerifyCertification(key))
{
Fail("failed to verify revocation certification");
}
//
// use of PgpKeyPair
//
PgpKeyPair pgpKp = new PgpKeyPair(PublicKeyAlgorithmTag.RsaGeneral,
kp.Public, kp.Private, DateTime.UtcNow);
PgpPublicKey k1 = pgpKp.PublicKey;
PgpPrivateKey k2 = pgpKp.PrivateKey;
k1.GetEncoded();
MixedTest(k2, k1);
//
// key pair generation - AES_256 encryption.
//
kp = kpg.GenerateKeyPair();
secretKey = new PgpSecretKey(PgpSignature.DefaultCertification, PublicKeyAlgorithmTag.RsaGeneral, kp.Public, kp.Private, DateTime.UtcNow, "fred", SymmetricKeyAlgorithmTag.Aes256, passPhrase, null, null, new SecureRandom());
secretKey.ExtractPrivateKey(passPhrase);
secretKey.Encode(new UncloseableMemoryStream());
//
// secret key password changing.
//
const string newPass = "******";
secretKey = PgpSecretKey.CopyWithNewPassword(secretKey, passPhrase, newPass.ToCharArray(), secretKey.KeyEncryptionAlgorithm, new SecureRandom());
secretKey.ExtractPrivateKey(newPass.ToCharArray());
secretKey.Encode(new UncloseableMemoryStream());
key = secretKey.PublicKey;
key.Encode(new UncloseableMemoryStream());
enumerator = key.GetUserIds().GetEnumerator();
enumerator.MoveNext();
uid = (string) enumerator.Current;
enumerator = key.GetSignaturesForId(uid).GetEnumerator();
enumerator.MoveNext();
sig = (PgpSignature) enumerator.Current;
sig.InitVerify(key);
if (!sig.VerifyCertification(uid, key))
{
Fail("failed to verify certification");
}
pgpPrivKey = secretKey.ExtractPrivateKey(newPass.ToCharArray());
//
// signature generation
//
const string data = "hello world!";
byte[] dataBytes = Encoding.ASCII.GetBytes(data);
bOut = new UncloseableMemoryStream();
MemoryStream testIn = new MemoryStream(dataBytes, false);
sGen = new PgpSignatureGenerator(
PublicKeyAlgorithmTag.RsaGeneral, 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);
// TODO Need a stream object to automatically call Update?
// (via ISigner implementation of PgpSignatureGenerator)
while ((ch = testIn.ReadByte()) >= 0)
{
lOut.WriteByte((byte)ch);
sGen.Update((byte)ch);
}
lOut.Close();
sGen.Generate().Encode(bcOut);
bcOut.Close();
//
// verify generated signature
//
pgpFact = new PgpObjectFactory(bOut.ToArray());
c1 = (PgpCompressedData)pgpFact.NextPgpObject();
pgpFact = new PgpObjectFactory(c1.GetDataStream());
p1 = (PgpOnePassSignatureList)pgpFact.NextPgpObject();
ops = p1[0];
p2 = (PgpLiteralData)pgpFact.NextPgpObject();
if (!p2.ModificationTime.Equals(testDateTime))
{
Fail("Modification time not preserved");
}
dIn = p2.GetInputStream();
ops.InitVerify(secretKey.PublicKey);
// TODO Need a stream object to automatically call Update?
// (via ISigner implementation of PgpSignatureGenerator)
while ((ch = dIn.ReadByte()) >= 0)
{
ops.Update((byte)ch);
}
p3 = (PgpSignatureList)pgpFact.NextPgpObject();
if (!ops.Verify(p3[0]))
{
Fail("Failed generated signature check");
}
//
// signature generation - version 3
//
bOut = new UncloseableMemoryStream();
testIn = new MemoryStream(dataBytes);
PgpV3SignatureGenerator sGenV3 = new PgpV3SignatureGenerator(
PublicKeyAlgorithmTag.RsaGeneral, HashAlgorithmTag.Sha1);
sGen.InitSign(PgpSignature.BinaryDocument, pgpPrivKey);
cGen = new PgpCompressedDataGenerator(CompressionAlgorithmTag.Zip);
bcOut = new BcpgOutputStream(cGen.Open(new UncloseableStream(bOut)));
sGen.GenerateOnePassVersion(false).Encode(bcOut);
lGen = new PgpLiteralDataGenerator();
lOut = lGen.Open(
new UncloseableStream(bcOut),
PgpLiteralData.Binary,
"_CONSOLE",
dataBytes.Length,
testDateTime);
// TODO Need a stream object to automatically call Update?
// (via ISigner implementation of PgpSignatureGenerator)
while ((ch = testIn.ReadByte()) >= 0)
{
lOut.WriteByte((byte) ch);
sGen.Update((byte)ch);
}
lOut.Close();
sGen.Generate().Encode(bcOut);
bcOut.Close();
//
// verify generated signature
//
pgpFact = new PgpObjectFactory(bOut.ToArray());
c1 = (PgpCompressedData)pgpFact.NextPgpObject();
pgpFact = new PgpObjectFactory(c1.GetDataStream());
p1 = (PgpOnePassSignatureList)pgpFact.NextPgpObject();
ops = p1[0];
p2 = (PgpLiteralData)pgpFact.NextPgpObject();
if (!p2.ModificationTime.Equals(testDateTime))
{
Fail("Modification time not preserved");
}
dIn = p2.GetInputStream();
ops.InitVerify(secretKey.PublicKey);
// TODO Need a stream object to automatically call Update?
// (via ISigner implementation of PgpSignatureGenerator)
while ((ch = dIn.ReadByte()) >= 0)
{
ops.Update((byte)ch);
}
p3 = (PgpSignatureList)pgpFact.NextPgpObject();
if (!ops.Verify(p3[0]))
{
Fail("Failed v3 generated signature check");
}
//
// extract PGP 8 private key
//
pgpPriv = new PgpSecretKeyRing(pgp8Key);
secretKey = pgpPriv.GetSecretKey();
pgpPrivKey = secretKey.ExtractPrivateKey(pgp8Pass);
//
// other sig tests
//
PerformTestSig(HashAlgorithmTag.Sha256, secretKey.PublicKey, pgpPrivKey);
PerformTestSig(HashAlgorithmTag.Sha384, secretKey.PublicKey, pgpPrivKey);
PerformTestSig(HashAlgorithmTag.Sha512, secretKey.PublicKey, pgpPrivKey);
FingerPrintTest();
ExistingEmbeddedJpegTest();
EmbeddedJpegTest();
}
public override void PerformTest()
{
//
// Read the public key
//
PgpPublicKeyRing pgpPub = new PgpPublicKeyRing(testPubKey);
var pubKey = pgpPub.GetPublicKey();
//
// Read the private key
//
PgpSecretKeyRing sKey = new PgpSecretKeyRing(testPrivKey);
IPgpSecretKey secretKey = sKey.GetSecretKey();
IPgpPrivateKey pgpPrivKey = secretKey.ExtractPrivateKey(pass);
//
// test signature message
//
PgpObjectFactory pgpFact = new PgpObjectFactory(sig1);
PgpCompressedData c1 = (PgpCompressedData)pgpFact.NextPgpObject();
pgpFact = new PgpObjectFactory(c1.GetDataStream());
PgpOnePassSignatureList p1 = (PgpOnePassSignatureList)pgpFact.NextPgpObject();
PgpOnePassSignature ops = p1[0];
PgpLiteralData p2 = (PgpLiteralData)pgpFact.NextPgpObject();
Stream dIn = p2.GetInputStream();
ops.InitVerify(pubKey);
int ch;
while ((ch = dIn.ReadByte()) >= 0)
{
ops.Update((byte) ch);
}
PgpSignatureList p3 = (PgpSignatureList) pgpFact.NextPgpObject();
if (!ops.Verify(p3[0]))
{
Fail("Failed signature check");
}
//
// signature generation
//
GenerateTest(sKey, pubKey, pgpPrivKey);
//
// signature generation - canonical text
//
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.CanonicalTextDocument, 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.Text,
"_CONSOLE",
dataBytes.Length,
testDateTime);
while ((ch = testIn.ReadByte()) >= 0)
{
lOut.WriteByte((byte) ch);
sGen.Update((byte)ch);
}
lGen.Close();
sGen.Generate().Encode(bcOut);
cGen.Close();
//
// verify Generated signature - canconical text
//
pgpFact = new PgpObjectFactory(bOut.ToArray());
c1 = (PgpCompressedData) pgpFact.NextPgpObject();
pgpFact = new PgpObjectFactory(c1.GetDataStream());
p1 = (PgpOnePassSignatureList) pgpFact.NextPgpObject();
ops = p1[0];
p2 = (PgpLiteralData) pgpFact.NextPgpObject();
if (!p2.ModificationTime.Equals(testDateTime))
{
Fail("Modification time not preserved");
}
dIn = p2.GetInputStream();
ops.InitVerify(pubKey);
while ((ch = dIn.ReadByte()) >= 0)
{
ops.Update((byte)ch);
}
p3 = (PgpSignatureList) pgpFact.NextPgpObject();
if (!ops.Verify(p3[0]))
{
Fail("Failed generated signature check");
}
//
// Read the public key with user attributes
//
pgpPub = new PgpPublicKeyRing(testPubWithUserAttr);
pubKey = pgpPub.GetPublicKey();
int count = 0;
foreach (PgpUserAttributeSubpacketVector attributes in pubKey.GetUserAttributes())
{
int sigCount = 0;
foreach (object sigs in pubKey.GetSignaturesForUserAttribute(attributes))
{
if (sigs == null)
Fail("null signature found");
sigCount++;
}
if (sigCount != 1)
{
Fail("Failed user attributes signature check");
}
count++;
}
if (count != 1)
{
Fail("Failed user attributes check");
}
byte[] pgpPubBytes = pgpPub.GetEncoded();
pgpPub = new PgpPublicKeyRing(pgpPubBytes);
pubKey = pgpPub.GetPublicKey();
count = 0;
foreach (object ua in pubKey.GetUserAttributes())
{
if (ua == null)
Fail("null user attribute found");
count++;
}
if (count != 1)
{
Fail("Failed user attributes reread");
}
//
// reading test extra data - key with edge condition for DSA key password.
//
char[] passPhrase = { '0', '1', '2', '3', '4', '5', '6', '7', '8', '9' };
sKey = new PgpSecretKeyRing(testPrivKey2);
pgpPrivKey = sKey.GetSecretKey().ExtractPrivateKey(passPhrase);
//
// reading test - aes256 encrypted passphrase.
//
sKey = new PgpSecretKeyRing(aesSecretKey);
pgpPrivKey = sKey.GetSecretKey().ExtractPrivateKey(pass);
//
// reading test - twofish encrypted passphrase.
//
sKey = new PgpSecretKeyRing(twofishSecretKey);
pgpPrivKey = sKey.GetSecretKey().ExtractPrivateKey(pass);
//
// use of PgpKeyPair
//
DsaParametersGenerator pGen = new DsaParametersGenerator();
pGen.Init(512, 80, new SecureRandom()); // TODO Is the certainty okay?
DsaParameters dsaParams = pGen.GenerateParameters();
DsaKeyGenerationParameters kgp = new DsaKeyGenerationParameters(new SecureRandom(), dsaParams);
IAsymmetricCipherKeyPairGenerator kpg = GeneratorUtilities.GetKeyPairGenerator("DSA");
kpg.Init(kgp);
IAsymmetricCipherKeyPair kp = kpg.GenerateKeyPair();
PgpKeyPair pgpKp = new PgpKeyPair(PublicKeyAlgorithmTag.Dsa,
kp.Public, kp.Private, DateTime.UtcNow);
PgpPublicKey k1 = pgpKp.PublicKey;
PgpPrivateKey k2 = pgpKp.PrivateKey;
}
/**
* Generated signature test
*
* @param sKey
* @param pgpPrivKey
* @return test result
*/
public void GenerateTest(
PgpSecretKeyRing sKey,
IPgpPublicKey pgpPubKey,
IPgpPrivateKey pgpPrivKey)
{
string data = "hello world!";
MemoryStream bOut = new MemoryStream();
byte[] dataBytes = Encoding.ASCII.GetBytes(data);
MemoryStream testIn = new MemoryStream(dataBytes, false);
PgpSignatureGenerator sGen = new PgpSignatureGenerator(PublicKeyAlgorithmTag.Dsa, HashAlgorithmTag.Sha1);
sGen.InitSign(PgpSignature.BinaryDocument, pgpPrivKey);
PgpSignatureSubpacketGenerator spGen = new PgpSignatureSubpacketGenerator();
IEnumerator enumerator = sKey.GetSecretKey().PublicKey.GetUserIds().GetEnumerator();
enumerator.MoveNext();
string primaryUserId = (string) enumerator.Current;
spGen.SetSignerUserId(true, primaryUserId);
sGen.SetHashedSubpackets(spGen.Generate());
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();
PgpObjectFactory 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(pgpPubKey);
while ((ch = dIn.ReadByte()) >= 0)
{
ops.Update((byte) ch);
}
PgpSignatureList p3 = (PgpSignatureList) pgpFact.NextPgpObject();
if (!ops.Verify(p3[0]))
{
Fail("Failed generated signature check");
}
}
public override void PerformTest()
{
PgpSecretKeyRing pgpSecRing = new PgpSecretKeyRing(pgpPrivateFull);
PgpSecretKey pgpSecKey = pgpSecRing.GetSecretKey();
bool isFullEmpty = pgpSecKey.IsPrivateKeyEmpty;
pgpSecRing = new PgpSecretKeyRing(pgpPrivateEmpty);
pgpSecKey = pgpSecRing.GetSecretKey();
bool isEmptyEmpty = pgpSecKey.IsPrivateKeyEmpty;
//
// Check isPrivateKeyEmpty() is public
//
if (isFullEmpty || !isEmptyEmpty)
{
Fail("Empty private keys not detected correctly.");
}
//
// Check copyWithNewPassword doesn't throw an exception for secret
// keys without private keys (PGPException: unknown S2K type: 101).
//
SecureRandom rand = new SecureRandom();
try
{
PgpSecretKey pgpChangedKey = PgpSecretKey.CopyWithNewPassword(pgpSecKey,
pgpOldPass.ToCharArray(), pgpNewPass.ToCharArray(), pgpSecKey.KeyEncryptionAlgorithm, rand);
}
catch (PgpException e)
{
if (!e.Message.Equals("no private key in this SecretKey - public key present only."))
{
Fail("wrong exception.");
}
}
}
public static void Main(string[] args)
{
if (args.Length == 1)
{
Stream fis = File.OpenRead(args[0]);
var ring = new PgpPublicKeyRing(
PgpUtilities.GetDecoderStream(fis));
var key = ring.GetPublicKey();
// iterate through all direct key signautures and look for NotationData subpackets
foreach (PgpSignature sig in key.GetSignaturesOfType(PgpSignature.DirectKey))
{
Console.WriteLine("Signature date is: "
+ sig.GetHashedSubPackets().GetSignatureCreationTime());
var data = sig.GetHashedSubPackets().GetNotationDataOccurences();
for (int i = 0; i < data.Length; i++)
{
Console.WriteLine("Found Notaion named '" + data[i].GetNotationName()
+"' with content '" + data[i].GetNotationValue() + "'.");
}
}
fis.Close();
}
else if (args.Length == 5)
{
Stream secFis = File.OpenRead(args[0]);
Stream pubFis = File.OpenRead(args[2]);
// gather command line arguments
PgpSecretKeyRing secRing = new PgpSecretKeyRing(
PgpUtilities.GetDecoderStream(secFis));
String secretKeyPass = args[1];
PgpPublicKeyRing ring = new PgpPublicKeyRing(
PgpUtilities.GetDecoderStream(pubFis));
String notationName = args[3];
String notationValue = args[4];
// create the signed keyRing
PgpPublicKeyRing sRing = null;
sRing = new PgpPublicKeyRing(
new MemoryStream(
SignPublicKey(secRing.GetSecretKey(), secretKeyPass,
ring.GetPublicKey(), notationName, notationValue, true),
false));
ring = sRing;
secFis.Close();
pubFis.Close();
Stream fos = File.Create("SignedKey.asc");
// write the created keyRing to file
ArmoredOutputStream aOut = new ArmoredOutputStream(fos);
sRing.Encode(aOut);
aOut.Close();
// Note: ArmoredOutputStream.Close() leaves underlying stream open
fos.Close();
}
else
{
Console.Error.WriteLine("usage: DirectKeySignature secretKeyFile secretKeyPass publicKeyFile(key to be signed) NotationName NotationValue");
Console.Error.WriteLine("or: DirectKeySignature signedPublicKeyFile");
}
}
public override void PerformTest()
{
//
// RSA tests
//
PgpSecretKeyRing pgpPriv = new PgpSecretKeyRing(rsaKeyRing);
PgpSecretKey secretKey = pgpPriv.GetSecretKey();
PgpPrivateKey pgpPrivKey = secretKey.ExtractPrivateKey(rsaPass);
try
{
doTestSig(PublicKeyAlgorithmTag.Dsa, HashAlgorithmTag.Sha1, secretKey.PublicKey, pgpPrivKey);
Fail("RSA wrong key test failed.");
}
catch (PgpException)
{
// expected
}
try
{
doTestSigV3(PublicKeyAlgorithmTag.Dsa, HashAlgorithmTag.Sha1, secretKey.PublicKey, pgpPrivKey);
Fail("RSA V3 wrong key test failed.");
}
catch (PgpException)
{
// expected
}
//
// certifications
//
PgpSignatureGenerator sGen = new PgpSignatureGenerator(PublicKeyAlgorithmTag.RsaGeneral, HashAlgorithmTag.Sha1);
sGen.InitSign(PgpSignature.KeyRevocation, pgpPrivKey);
PgpSignature sig = sGen.GenerateCertification(secretKey.PublicKey);
sig.InitVerify(secretKey.PublicKey);
if (!sig.VerifyCertification(secretKey.PublicKey))
{
Fail("revocation verification failed.");
}
PgpSecretKeyRing pgpDSAPriv = new PgpSecretKeyRing(dsaKeyRing);
PgpSecretKey secretDSAKey = pgpDSAPriv.GetSecretKey();
PgpPrivateKey pgpPrivDSAKey = secretDSAKey.ExtractPrivateKey(dsaPass);
sGen = new PgpSignatureGenerator(PublicKeyAlgorithmTag.Dsa, HashAlgorithmTag.Sha1);
sGen.InitSign(PgpSignature.SubkeyBinding, pgpPrivDSAKey);
PgpSignatureSubpacketGenerator unhashedGen = new PgpSignatureSubpacketGenerator();
PgpSignatureSubpacketGenerator hashedGen = new PgpSignatureSubpacketGenerator();
hashedGen.SetSignatureExpirationTime(false, TEST_EXPIRATION_TIME);
hashedGen.SetSignerUserId(true, TEST_USER_ID);
hashedGen.SetPreferredCompressionAlgorithms(false, PREFERRED_COMPRESSION_ALGORITHMS);
hashedGen.SetPreferredHashAlgorithms(false, PREFERRED_HASH_ALGORITHMS);
hashedGen.SetPreferredSymmetricAlgorithms(false, PREFERRED_SYMMETRIC_ALGORITHMS);
sGen.SetHashedSubpackets(hashedGen.Generate());
sGen.SetUnhashedSubpackets(unhashedGen.Generate());
sig = sGen.GenerateCertification(secretDSAKey.PublicKey, secretKey.PublicKey);
byte[] sigBytes = sig.GetEncoded();
PgpObjectFactory f = new PgpObjectFactory(sigBytes);
sig = ((PgpSignatureList)f.NextPgpObject())[0];
sig.InitVerify(secretDSAKey.PublicKey);
if (!sig.VerifyCertification(secretDSAKey.PublicKey, secretKey.PublicKey))
{
Fail("subkey binding verification failed.");
}
PgpSignatureSubpacketVector hashedPcks = sig.GetHashedSubPackets();
PgpSignatureSubpacketVector unhashedPcks = sig.GetUnhashedSubPackets();
if (hashedPcks.Count != 6)
{
Fail("wrong number of hashed packets found.");
}
if (unhashedPcks.Count != 1)
{
Fail("wrong number of unhashed packets found.");
}
if (!hashedPcks.GetSignerUserId().Equals(TEST_USER_ID))
{
Fail("test userid not matching");
}
if (hashedPcks.GetSignatureExpirationTime() != TEST_EXPIRATION_TIME)
{
Fail("test signature expiration time not matching");
}
if (unhashedPcks.GetIssuerKeyId() != secretDSAKey.KeyId)
{
Fail("wrong issuer key ID found in certification");
}
int[] prefAlgs = hashedPcks.GetPreferredCompressionAlgorithms();
preferredAlgorithmCheck("compression", PREFERRED_COMPRESSION_ALGORITHMS, prefAlgs);
prefAlgs = hashedPcks.GetPreferredHashAlgorithms();
preferredAlgorithmCheck("hash", PREFERRED_HASH_ALGORITHMS, prefAlgs);
prefAlgs = hashedPcks.GetPreferredSymmetricAlgorithms();
preferredAlgorithmCheck("symmetric", PREFERRED_SYMMETRIC_ALGORITHMS, prefAlgs);
SignatureSubpacketTag[] criticalHashed = hashedPcks.GetCriticalTags();
if (criticalHashed.Length != 1)
{
Fail("wrong number of critical packets found.");
}
if (criticalHashed[0] != SignatureSubpacketTag.SignerUserId)
{
Fail("wrong critical packet found in tag list.");
}
//
// no packets passed
//
sGen = new PgpSignatureGenerator(PublicKeyAlgorithmTag.Dsa, HashAlgorithmTag.Sha1);
sGen.InitSign(PgpSignature.SubkeyBinding, pgpPrivDSAKey);
sGen.SetHashedSubpackets(null);
sGen.SetUnhashedSubpackets(null);
sig = sGen.GenerateCertification(TEST_USER_ID, secretKey.PublicKey);
sig.InitVerify(secretDSAKey.PublicKey);
if (!sig.VerifyCertification(TEST_USER_ID, secretKey.PublicKey))
{
Fail("subkey binding verification failed.");
}
hashedPcks = sig.GetHashedSubPackets();
if (hashedPcks.Count != 1)
{
Fail("found wrong number of hashed packets");
}
unhashedPcks = sig.GetUnhashedSubPackets();
if (unhashedPcks.Count != 1)
{
Fail("found wrong number of unhashed packets");
}
try
{
sig.VerifyCertification(secretKey.PublicKey);
Fail("failed to detect non-key signature.");
}
catch (InvalidOperationException)
{
// expected
}
//
// override hash packets
//
sGen = new PgpSignatureGenerator(PublicKeyAlgorithmTag.Dsa, HashAlgorithmTag.Sha1);
sGen.InitSign(PgpSignature.SubkeyBinding, pgpPrivDSAKey);
hashedGen = new PgpSignatureSubpacketGenerator();
DateTime creationTime = new DateTime(1973, 7, 27);
hashedGen.SetSignatureCreationTime(false, creationTime);
sGen.SetHashedSubpackets(hashedGen.Generate());
sGen.SetUnhashedSubpackets(null);
sig = sGen.GenerateCertification(TEST_USER_ID, secretKey.PublicKey);
sig.InitVerify(secretDSAKey.PublicKey);
if (!sig.VerifyCertification(TEST_USER_ID, secretKey.PublicKey))
{
Fail("subkey binding verification failed.");
}
hashedPcks = sig.GetHashedSubPackets();
if (hashedPcks.Count != 1)
{
Fail("found wrong number of hashed packets in override test");
}
if (!hashedPcks.HasSubpacket(SignatureSubpacketTag.CreationTime))
{
Fail("hasSubpacket test for creation time failed");
}
DateTime sigCreationTime = hashedPcks.GetSignatureCreationTime();
if (!sigCreationTime.Equals(creationTime))
{
Fail("creation of overridden date failed.");
}
prefAlgs = hashedPcks.GetPreferredCompressionAlgorithms();
preferredAlgorithmCheck("compression", NO_PREFERENCES, prefAlgs);
prefAlgs = hashedPcks.GetPreferredHashAlgorithms();
preferredAlgorithmCheck("hash", NO_PREFERENCES, prefAlgs);
prefAlgs = hashedPcks.GetPreferredSymmetricAlgorithms();
preferredAlgorithmCheck("symmetric", NO_PREFERENCES, prefAlgs);
if (hashedPcks.GetKeyExpirationTime() != 0)
{
Fail("unexpected key expiration time found");
}
if (hashedPcks.GetSignatureExpirationTime() != 0)
{
Fail("unexpected signature expiration time found");
}
if (hashedPcks.GetSignerUserId() != null)
{
Fail("unexpected signer user ID found");
}
criticalHashed = hashedPcks.GetCriticalTags();
if (criticalHashed.Length != 0)
{
Fail("critical packets found when none expected");
}
unhashedPcks = sig.GetUnhashedSubPackets();
if (unhashedPcks.Count != 1)
{
Fail("found wrong number of unhashed packets in override test");
}
//
// general signatures
//
doTestSig(PublicKeyAlgorithmTag.RsaGeneral, HashAlgorithmTag.Sha256, secretKey.PublicKey, pgpPrivKey);
doTestSig(PublicKeyAlgorithmTag.RsaGeneral, HashAlgorithmTag.Sha384, secretKey.PublicKey, pgpPrivKey);
doTestSig(PublicKeyAlgorithmTag.RsaGeneral, HashAlgorithmTag.Sha512, secretKey.PublicKey, pgpPrivKey);
doTestSigV3(PublicKeyAlgorithmTag.RsaGeneral, HashAlgorithmTag.Sha1, secretKey.PublicKey, pgpPrivKey);
doTestTextSig(PublicKeyAlgorithmTag.RsaGeneral, HashAlgorithmTag.Sha1, secretKey.PublicKey, pgpPrivKey, TEST_DATA_WITH_CRLF, TEST_DATA_WITH_CRLF);
doTestTextSig(PublicKeyAlgorithmTag.RsaGeneral, HashAlgorithmTag.Sha1, secretKey.PublicKey, pgpPrivKey, TEST_DATA, TEST_DATA_WITH_CRLF);
doTestTextSigV3(PublicKeyAlgorithmTag.RsaGeneral, HashAlgorithmTag.Sha1, secretKey.PublicKey, pgpPrivKey, TEST_DATA_WITH_CRLF, TEST_DATA_WITH_CRLF);
doTestTextSigV3(PublicKeyAlgorithmTag.RsaGeneral, HashAlgorithmTag.Sha1, secretKey.PublicKey, pgpPrivKey, TEST_DATA, TEST_DATA_WITH_CRLF);
//
// DSA Tests
//
pgpPriv = new PgpSecretKeyRing(dsaKeyRing);
secretKey = pgpPriv.GetSecretKey();
pgpPrivKey = secretKey.ExtractPrivateKey(dsaPass);
try
{
doTestSig(PublicKeyAlgorithmTag.RsaGeneral, HashAlgorithmTag.Sha1, secretKey.PublicKey, pgpPrivKey);
Fail("DSA wrong key test failed.");
}
catch (PgpException)
{
// expected
}
try
{
doTestSigV3(PublicKeyAlgorithmTag.RsaGeneral, HashAlgorithmTag.Sha1, secretKey.PublicKey, pgpPrivKey);
Fail("DSA V3 wrong key test failed.");
}
catch (PgpException)
{
// expected
}
doTestSig(PublicKeyAlgorithmTag.Dsa, HashAlgorithmTag.Sha1, secretKey.PublicKey, pgpPrivKey);
doTestSigV3(PublicKeyAlgorithmTag.Dsa, HashAlgorithmTag.Sha1, secretKey.PublicKey, pgpPrivKey);
doTestTextSig(PublicKeyAlgorithmTag.Dsa, HashAlgorithmTag.Sha1, secretKey.PublicKey, pgpPrivKey, TEST_DATA_WITH_CRLF, TEST_DATA_WITH_CRLF);
doTestTextSig(PublicKeyAlgorithmTag.Dsa, HashAlgorithmTag.Sha1, secretKey.PublicKey, pgpPrivKey, TEST_DATA, TEST_DATA_WITH_CRLF);
doTestTextSigV3(PublicKeyAlgorithmTag.Dsa, HashAlgorithmTag.Sha1, secretKey.PublicKey, pgpPrivKey, TEST_DATA_WITH_CRLF, TEST_DATA_WITH_CRLF);
doTestTextSigV3(PublicKeyAlgorithmTag.Dsa, HashAlgorithmTag.Sha1, secretKey.PublicKey, pgpPrivKey, TEST_DATA, TEST_DATA_WITH_CRLF);
// special cases
//
doTestMissingSubpackets(nullPacketsSubKeyBinding);
doTestMissingSubpackets(generateV3BinarySig(pgpPrivKey, PublicKeyAlgorithmTag.Dsa, HashAlgorithmTag.Sha1));
// keyflags
doTestKeyFlagsValues();
// TODO Seems to depend on some other functionality that's yet to be ported
//doTestUserAttributeEncoding();
}
