本文整理汇总了Java中org.bouncycastle.bcpg.sig.Features类的典型用法代码示例。如果您正苦于以下问题:Java Features类的具体用法?Java Features怎么用?Java Features使用的例子?那么恭喜您, 这里精选的类代码示例或许可以为您提供帮助。
Features类属于org.bouncycastle.bcpg.sig包,在下文中一共展示了Features类的7个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于系统推荐出更棒的Java代码示例。
示例1: getFeatures
import org.bouncycastle.bcpg.sig.Features; //导入依赖的package包/类
public Features getFeatures()
{
SignatureSubpacket p = this.getSubpacket(SignatureSubpacketTags.FEATURES);
if (p == null)
{
return null;
}
return new Features(p.isCritical(), p.isLongLength(), p.getData());
}
示例2: generateKeyPair
import org.bouncycastle.bcpg.sig.Features; //导入依赖的package包/类
public SecretKey generateKeyPair(final String id, final char[] pass) throws CryptoException {
try {
// This object generates individual key-pairs.
final RSAKeyPairGenerator kpg = new RSAKeyPairGenerator();
kpg.init(new RSAKeyGenerationParameters(BigInteger.valueOf(0x10001), new SecureRandom(), 2048, 12));
// First create the master (signing) key with the generator.
final PGPKeyPair keyPair = new BcPGPKeyPair(PGPPublicKey.RSA_GENERAL, kpg.generateKeyPair(), new Date());
// Add a self-signature on the id
final PGPSignatureSubpacketGenerator signhashgen = new PGPSignatureSubpacketGenerator();
signhashgen.setKeyFlags(true, KeyFlags.CERTIFY_OTHER | KeyFlags.SIGN_DATA | KeyFlags.ENCRYPT_COMMS | KeyFlags.ENCRYPT_STORAGE);
signhashgen.setPreferredCompressionAlgorithms(false, new int[] { CompressionAlgorithmTags.ZIP });
signhashgen.setPreferredHashAlgorithms(false, new int[] { HashAlgorithmTags.SHA1 });
signhashgen.setPreferredSymmetricAlgorithms(false, new int[] { SymmetricKeyAlgorithmTags.AES_256 });
signhashgen.setFeature(false, Features.FEATURE_MODIFICATION_DETECTION);
// Create a signature on the encryption subkey.
final PGPSignatureSubpacketGenerator enchashgen = new PGPSignatureSubpacketGenerator();
enchashgen.setKeyFlags(false, KeyFlags.ENCRYPT_COMMS | KeyFlags.ENCRYPT_STORAGE);
// Objects used to encrypt the secret key.
// Finally, create the keyring itself. The constructor
// takes parameters that allow it to generate the self
// signature.
final PGPDigestCalculator sha1Calc = new BcPGPDigestCalculatorProvider().get(HashAlgorithmTags.SHA1);
final PBESecretKeyEncryptor secretKeyEncryptor = new BcPBESecretKeyEncryptorBuilder(PGPEncryptedData.AES_128, sha1Calc).build(pass);
final BcPGPContentSignerBuilder contentSigner = new BcPGPContentSignerBuilder(keyPair.getPublicKey().getAlgorithm(), HashAlgorithmTags.SHA1);
final PGPKeyRingGenerator keyRingGen = new PGPKeyRingGenerator(PGPSignature.POSITIVE_CERTIFICATION, keyPair, id, sha1Calc,
signhashgen.generate(), null, contentSigner, secretKeyEncryptor);
// return new SimpleKeyPair(new BcPGPPublicKey(publicKeyRing.getPublicKey()),
return new BcPGPSecretKey(keyRingGen.generateSecretKeyRing().getSecretKey());
}
catch (final Exception e) {
throw new CryptoException(e);
}
}
示例3: getFeatures
import org.bouncycastle.bcpg.sig.Features; //导入依赖的package包/类
public Features getFeatures()
{
SignatureSubpacket p = this.getSubpacket(SignatureSubpacketTags.FEATURES);
if (p == null)
{
return null;
}
return new Features(p.isCritical(), p.getData());
}
示例4: generateKeyRingGenerator
import org.bouncycastle.bcpg.sig.Features; //导入依赖的package包/类
public final static PGPKeyRingGenerator generateKeyRingGenerator(String id, char[] pass, int s2kcount,
KeyGenPane.BackgroundTask bgt) throws Exception
{
// This object generates individual key-pairs.
RSAKeyPairGenerator kpg = new RSAKeyPairGenerator();
// Boilerplate RSA parameters, no need to change anything
// except for the RSA key-size (2048). You can use whatever key-size
// makes sense for you -- 4096, etc.
kpg.init(new RSAKeyGenerationParameters(BigInteger.valueOf(0x10001), new SecureRandom(), 2048, 12));
bgt.setProgressPub(10);
// First create the master (signing) key with the generator.
PGPKeyPair rsakp_sign = new BcPGPKeyPair(PGPPublicKey.RSA_SIGN, kpg.generateKeyPair(), new Date());
// Then an encryption subkey.
PGPKeyPair rsakp_enc = new BcPGPKeyPair(PGPPublicKey.RSA_ENCRYPT, kpg.generateKeyPair(), new Date());
bgt.setProgressPub(50);
// Add a self-signature on the id
PGPSignatureSubpacketGenerator signhashgen = new PGPSignatureSubpacketGenerator();
bgt.setProgressPub(55);
// Add signed metadata on the signature.
// 1) Declare its purpose
signhashgen.setKeyFlags(false, KeyFlags.SIGN_DATA | KeyFlags.CERTIFY_OTHER);
bgt.setProgressPub(60);
// 2) Set preferences for secondary crypto algorithms to use when
// sending messages to this key.
signhashgen.setPreferredSymmetricAlgorithms(false, new int[] { SymmetricKeyAlgorithmTags.AES_256,
SymmetricKeyAlgorithmTags.AES_192, SymmetricKeyAlgorithmTags.AES_128 });
signhashgen.setPreferredHashAlgorithms(false, new int[] { HashAlgorithmTags.SHA256, HashAlgorithmTags.SHA1,
HashAlgorithmTags.SHA384, HashAlgorithmTags.SHA512, HashAlgorithmTags.SHA224, });
// 3) Request senders add additional checksums to the message (useful
// when verifying unsigned messages.)
signhashgen.setFeature(false, Features.FEATURE_MODIFICATION_DETECTION);
// Create a signature on the encryption subkey.
PGPSignatureSubpacketGenerator enchashgen = new PGPSignatureSubpacketGenerator();
// Add metadata to declare its purpose
enchashgen.setKeyFlags(false, KeyFlags.ENCRYPT_COMMS | KeyFlags.ENCRYPT_STORAGE);
// Objects used to encrypt the secret key.
PGPDigestCalculator sha1Calc = new BcPGPDigestCalculatorProvider().get(HashAlgorithmTags.SHA1);
PGPDigestCalculator sha256Calc = new BcPGPDigestCalculatorProvider().get(HashAlgorithmTags.SHA256);
bgt.setProgressPub(70);
// bcpg 1.48 exposes this API that includes s2kcount. Earlier versions
// use a default of 0x60.
PBESecretKeyEncryptor pske = (new BcPBESecretKeyEncryptorBuilder(PGPEncryptedData.AES_256, sha256Calc,
s2kcount)).build(pass);
// Finally, create the keyring itself. The constructor takes parameters
// that allow it to generate the self signature.
PGPKeyRingGenerator keyRingGen = new PGPKeyRingGenerator(PGPSignature.POSITIVE_CERTIFICATION, rsakp_sign, id,
sha1Calc, signhashgen.generate(), null,
new BcPGPContentSignerBuilder(rsakp_sign.getPublicKey().getAlgorithm(), HashAlgorithmTags.SHA1), pske);
bgt.setProgressPub(80);
// Add our encryption subkey, together with its signature.
keyRingGen.addSubKey(rsakp_enc, enchashgen.generate(), null);
bgt.setProgressPub(90);
return keyRingGen;
}
示例5: generateKeyRingGenerator
import org.bouncycastle.bcpg.sig.Features; //导入依赖的package包/类
static PGPKeyRingGenerator generateKeyRingGenerator(String userId, int numBits, char[] passphrase) throws Exception {
RSAKeyPairGenerator keyPairGenerator = new RSAKeyPairGenerator();
keyPairGenerator.init(
new RSAKeyGenerationParameters(
BigInteger.valueOf(0x10001),
new SecureRandom(),
numBits,
12
)
);
PGPKeyPair rsaKeyPairSign = new BcPGPKeyPair(
PGPPublicKey.RSA_SIGN,
keyPairGenerator.generateKeyPair(),
new Date()
);
PGPKeyPair rsaKeyPairEncrypt = new BcPGPKeyPair(
PGPPublicKey.RSA_ENCRYPT,
keyPairGenerator.generateKeyPair(),
new Date()
);
PGPSignatureSubpacketGenerator signHashGenerator = new PGPSignatureSubpacketGenerator();
signHashGenerator.setKeyFlags(false, KeyFlags.SIGN_DATA | KeyFlags.CERTIFY_OTHER);
signHashGenerator.setPreferredSymmetricAlgorithms(
false,
new int[] {
SymmetricKeyAlgorithmTags.AES_256,
SymmetricKeyAlgorithmTags.AES_192,
SymmetricKeyAlgorithmTags.AES_128
}
);
signHashGenerator.setPreferredHashAlgorithms(
false,
new int[] {
HashAlgorithmTags.SHA512,
HashAlgorithmTags.SHA384,
HashAlgorithmTags.SHA256,
HashAlgorithmTags.SHA1, // Not recommended
HashAlgorithmTags.SHA224, // Not recommended
}
);
signHashGenerator.setFeature(false, Features.FEATURE_MODIFICATION_DETECTION);
PGPSignatureSubpacketGenerator encryptHashGenerator = new PGPSignatureSubpacketGenerator();
encryptHashGenerator.setKeyFlags(false, KeyFlags.ENCRYPT_COMMS | KeyFlags.ENCRYPT_STORAGE);
PGPDigestCalculator sha1DigestCalculator = new BcPGPDigestCalculatorProvider().get(HashAlgorithmTags.SHA1);
PGPDigestCalculator sha512DigestCalculator = new BcPGPDigestCalculatorProvider().get(HashAlgorithmTags.SHA512);
PBESecretKeyEncryptor secretKeyEncryptor = (
new BcPBESecretKeyEncryptorBuilder(PGPEncryptedData.AES_256, sha512DigestCalculator)
)
.build(passphrase);
PGPKeyRingGenerator keyRingGen = new PGPKeyRingGenerator(
PGPSignature.NO_CERTIFICATION,
rsaKeyPairSign,
userId,
sha1DigestCalculator,
signHashGenerator.generate(),
null,
new BcPGPContentSignerBuilder(rsaKeyPairSign.getPublicKey().getAlgorithm(), HashAlgorithmTags.SHA512),
secretKeyEncryptor
);
keyRingGen.addSubKey(rsaKeyPairEncrypt, encryptHashGenerator.generate(), null);
return keyRingGen;
}
示例6: setFeature
import org.bouncycastle.bcpg.sig.Features; //导入依赖的package包/类
public void setFeature(boolean isCritical, byte feature)
{
list.add(new Features(isCritical, feature));
}
示例7: generateKeyRingGenerator
import org.bouncycastle.bcpg.sig.Features; //导入依赖的package包/类
private static PGPKeyRingGenerator generateKeyRingGenerator( String id, char[] pass, int s2kcount, int keySize,
KeyPair keyPair ) throws PGPException
{
// This object generates individual key-pairs.
RSAKeyPairGenerator kpg = new RSAKeyPairGenerator();
// Boilerplate RSA parameters, no need to change anything
// except for the RSA key-size (2048). You can use whatever
// key-size makes sense for you -- 4096, etc.
kpg.init( new RSAKeyGenerationParameters( BigInteger.valueOf( 0x10001 ), new SecureRandom(), keySize, 12 ) );
// First create the master (signing) key with the generator.
PGPKeyPair rsakp_sign = new BcPGPKeyPair( PGPPublicKey.RSA_GENERAL, kpg.generateKeyPair(), new Date() );
// Then an encryption subkey.
PGPKeyPair rsakp_enc = new BcPGPKeyPair( PGPPublicKey.RSA_GENERAL, kpg.generateKeyPair(), new Date() );
keyPair.setPrimaryKeyId( Long.toHexString( rsakp_sign.getKeyID() ) );
keyPair.setPrimaryKeyFingerprint( BytesToHex( rsakp_sign.getPublicKey().getFingerprint() ) );
keyPair.setSubKeyId( Long.toHexString( rsakp_enc.getKeyID() ) );
keyPair.setSubKeyFingerprint( BytesToHex( rsakp_enc.getPublicKey().getFingerprint() ) );
// Add a self-signature on the id
PGPSignatureSubpacketGenerator signhashgen = new PGPSignatureSubpacketGenerator();
// Add signed metadata on the signature.
// 1) Declare its purpose
signhashgen.setKeyFlags( false, KeyFlags.SIGN_DATA | KeyFlags.CERTIFY_OTHER );
// 2) Set preferences for secondary crypto algorithms to use
// when sending messages to this key.
signhashgen.setPreferredSymmetricAlgorithms( false, new int[] {
SymmetricKeyAlgorithmTags.AES_256, SymmetricKeyAlgorithmTags.AES_192, SymmetricKeyAlgorithmTags.AES_128,
SymmetricKeyAlgorithmTags.CAST5, SymmetricKeyAlgorithmTags.TRIPLE_DES
} );
signhashgen.setPreferredHashAlgorithms( false, new int[] {
HashAlgorithmTags.SHA256, HashAlgorithmTags.SHA1, HashAlgorithmTags.SHA384, HashAlgorithmTags.SHA512,
HashAlgorithmTags.SHA224,
} );
signhashgen.setPreferredCompressionAlgorithms( false, new int[] {
CompressionAlgorithmTags.ZLIB, CompressionAlgorithmTags.BZIP2, CompressionAlgorithmTags.ZIP
} );
// 3) Request senders add additional checksums to the
// message (useful when verifying unsigned messages.)
signhashgen.setFeature( false, Features.FEATURE_MODIFICATION_DETECTION );
// Create a signature on the encryption subkey.
PGPSignatureSubpacketGenerator enchashgen = new PGPSignatureSubpacketGenerator();
// Add metadata to declare its purpose
enchashgen.setKeyFlags( false, KeyFlags.ENCRYPT_COMMS | KeyFlags.ENCRYPT_STORAGE );
// Objects used to encrypt the secret key.
PGPDigestCalculator sha1Calc = new BcPGPDigestCalculatorProvider().get( HashAlgorithmTags.SHA1 );
// bcpg 1.48 exposes this API that includes s2kcount. Earlier
// versions use a default of 0x60.
PBESecretKeyEncryptor pske =
( new BcPBESecretKeyEncryptorBuilder( PGPEncryptedData.CAST5, sha1Calc, s2kcount ) ).build( pass );
// Finally, create the keyring itself. The constructor
// takes parameters that allow it to generate the self
// signature.
PGPKeyRingGenerator keyRingGen =
new PGPKeyRingGenerator( PGPSignature.POSITIVE_CERTIFICATION, rsakp_sign, id, sha1Calc,
signhashgen.generate(), null,
new BcPGPContentSignerBuilder( rsakp_sign.getPublicKey().getAlgorithm(),
HashAlgorithmTags.SHA1 ), pske );
// Add our encryption subkey, together with its signature.
keyRingGen.addSubKey( rsakp_enc, enchashgen.generate(), null );
return keyRingGen;
}