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The Bouncy Castle Crypto package is a Java implementation of cryptographic algorithms. This jar contains JCE provider and lightweight API for the Bouncy Castle Cryptography APIs for JDK 1.5 and up.
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package org.bouncycastle.jcajce.provider.asymmetric.rsa;
import java.io.ByteArrayOutputStream;
import java.security.AlgorithmParameters;
import java.security.InvalidAlgorithmParameterException;
import java.security.InvalidKeyException;
import java.security.PrivateKey;
import java.security.ProviderException;
import java.security.PublicKey;
import java.security.SecureRandom;
import java.security.SignatureException;
import java.security.SignatureSpi;
import java.security.interfaces.RSAPrivateKey;
import java.security.interfaces.RSAPublicKey;
import java.security.spec.AlgorithmParameterSpec;
import java.security.spec.MGF1ParameterSpec;
import java.security.spec.PSSParameterSpec;
import org.bouncycastle.asn1.pkcs.PKCSObjectIdentifiers;
import org.bouncycastle.crypto.AsymmetricBlockCipher;
import org.bouncycastle.crypto.CryptoException;
import org.bouncycastle.crypto.Digest;
import org.bouncycastle.crypto.engines.RSABlindedEngine;
import org.bouncycastle.crypto.params.ParametersWithRandom;
import org.bouncycastle.crypto.params.RSAKeyParameters;
import org.bouncycastle.jcajce.provider.util.DigestFactory;
import org.bouncycastle.jcajce.util.BCJcaJceHelper;
import org.bouncycastle.jcajce.util.JcaJceHelper;
public class PSSSignatureSpi
extends SignatureSpi
{
private final JcaJceHelper helper = new BCJcaJceHelper();
private AlgorithmParameters engineParams;
private PSSParameterSpec paramSpec;
private PSSParameterSpec originalSpec;
private AsymmetricBlockCipher signer;
private Digest contentDigest;
private Digest mgfDigest;
private int saltLength;
private byte trailer;
private boolean isRaw;
private RSAKeyParameters key;
private SecureRandom random;
private org.bouncycastle.crypto.signers.PSSSigner pss;
private boolean isInitState = true;
private byte getTrailer(
int trailerField)
{
if (trailerField == 1)
{
return org.bouncycastle.crypto.signers.PSSSigner.TRAILER_IMPLICIT;
}
throw new IllegalArgumentException("unknown trailer field");
}
private void setupContentDigest()
{
if (isRaw)
{
this.contentDigest = new NullPssDigest(mgfDigest);
}
else
{
this.contentDigest = DigestFactory.getDigest(paramSpec.getDigestAlgorithm());
}
}
// care - this constructor is actually used by outside organisations
protected PSSSignatureSpi(
AsymmetricBlockCipher signer,
PSSParameterSpec paramSpecArg)
{
this(signer, paramSpecArg, false);
}
// care - this constructor is actually used by outside organisations
protected PSSSignatureSpi(
AsymmetricBlockCipher signer,
PSSParameterSpec baseParamSpec,
boolean isRaw)
{
this.signer = signer;
this.originalSpec = baseParamSpec;
if (baseParamSpec == null)
{
this.paramSpec = PSSParameterSpec.DEFAULT;
}
else
{
this.paramSpec = baseParamSpec;
}
if ("MGF1".equals(paramSpec.getMGFAlgorithm()))
{
this.mgfDigest = DigestFactory.getDigest(paramSpec.getDigestAlgorithm());
}
else // an XOF
{
this.mgfDigest = DigestFactory.getDigest(paramSpec.getMGFAlgorithm());
}
this.saltLength = paramSpec.getSaltLength();
this.trailer = getTrailer(paramSpec.getTrailerField());
this.isRaw = isRaw;
setupContentDigest();
}
protected void engineInitVerify(
PublicKey publicKey)
throws InvalidKeyException
{
if (!(publicKey instanceof RSAPublicKey))
{
throw new InvalidKeyException("Supplied key is not a RSAPublicKey instance");
}
key = RSAUtil.generatePublicKeyParameter((RSAPublicKey)publicKey);
pss = new org.bouncycastle.crypto.signers.PSSSigner(signer, contentDigest, mgfDigest, saltLength, trailer);
pss.init(false, key);
isInitState = true;
}
protected void engineInitSign(
PrivateKey privateKey,
SecureRandom random)
throws InvalidKeyException
{
this.random = random;
engineInitSign(privateKey);
}
protected void engineInitSign(
PrivateKey privateKey)
throws InvalidKeyException
{
if (!(privateKey instanceof RSAPrivateKey))
{
throw new InvalidKeyException("Supplied key is not a RSAPrivateKey instance");
}
key = RSAUtil.generatePrivateKeyParameter((RSAPrivateKey)privateKey);
pss = new org.bouncycastle.crypto.signers.PSSSigner(signer, contentDigest, mgfDigest, saltLength, trailer);
if (random != null)
{
pss.init(true, new ParametersWithRandom(key, random));
}
else
{
pss.init(true, key);
}
isInitState = true;
}
protected void engineUpdate(
byte b)
throws SignatureException
{
pss.update(b);
isInitState = false;
}
protected void engineUpdate(
byte[] b,
int off,
int len)
throws SignatureException
{
pss.update(b, off, len);
isInitState = false;
}
protected byte[] engineSign()
throws SignatureException
{
isInitState = true;
try
{
return pss.generateSignature();
}
catch (CryptoException e)
{
throw new SignatureException(e.getMessage());
}
}
protected boolean engineVerify(
byte[] sigBytes)
throws SignatureException
{
isInitState = true;
return pss.verifySignature(sigBytes);
}
protected void engineSetParameter(
AlgorithmParameterSpec params)
throws InvalidAlgorithmParameterException
{
if (params == null)
{
if (originalSpec != null)
{
params = originalSpec;
}
else
{
return; // Java 11 bug
}
}
if (!isInitState)
{
throw new ProviderException("cannot call setParameter in the middle of update");
}
if (params instanceof PSSParameterSpec)
{
PSSParameterSpec newParamSpec = (PSSParameterSpec)params;
if (originalSpec != null)
{
if (!DigestFactory.isSameDigest(originalSpec.getDigestAlgorithm(), newParamSpec.getDigestAlgorithm()))
{
throw new InvalidAlgorithmParameterException("parameter must be using " + originalSpec.getDigestAlgorithm());
}
}
Digest mgfDigest;
if (newParamSpec.getMGFAlgorithm().equalsIgnoreCase("MGF1")
|| newParamSpec.getMGFAlgorithm().equals(PKCSObjectIdentifiers.id_mgf1.getId()))
{
if (!(newParamSpec.getMGFParameters() instanceof MGF1ParameterSpec))
{
throw new InvalidAlgorithmParameterException("unknown MGF parameters");
}
MGF1ParameterSpec mgfParams = (MGF1ParameterSpec)newParamSpec.getMGFParameters();
if (!DigestFactory.isSameDigest(mgfParams.getDigestAlgorithm(), newParamSpec.getDigestAlgorithm()))
{
throw new InvalidAlgorithmParameterException("digest algorithm for MGF should be the same as for PSS parameters.");
}
mgfDigest = DigestFactory.getDigest(mgfParams.getDigestAlgorithm());
}
else if (newParamSpec.getMGFAlgorithm().equals("SHAKE128")
|| newParamSpec.getMGFAlgorithm().equals("SHAKE256"))
{
mgfDigest = DigestFactory.getDigest(newParamSpec.getMGFAlgorithm());
}
else
{
throw new InvalidAlgorithmParameterException("unknown mask generation function specified");
}
if (mgfDigest == null)
{
throw new InvalidAlgorithmParameterException("no match on MGF algorithm: "+ newParamSpec.getMGFAlgorithm());
}
this.engineParams = null;
this.paramSpec = newParamSpec;
this.mgfDigest = mgfDigest;
this.saltLength = paramSpec.getSaltLength();
this.trailer = getTrailer(paramSpec.getTrailerField());
setupContentDigest();
if (key != null)
{
pss = new org.bouncycastle.crypto.signers.PSSSigner(signer, contentDigest, mgfDigest, saltLength, trailer);
if (key.isPrivate())
{
pss.init(true, key);
}
else
{
pss.init(false, key);
}
}
}
else
{
throw new InvalidAlgorithmParameterException("Only PSSParameterSpec supported");
}
}
protected AlgorithmParameters engineGetParameters()
{
if (engineParams == null)
{
if (paramSpec != null)
{
if (paramSpec.getDigestAlgorithm().equals(paramSpec.getMGFAlgorithm())
&& paramSpec.getMGFParameters() == null)
{
return null; // must be RFC 8702 SHAKE128 or SHAKE256
}
try
{
engineParams = helper.createAlgorithmParameters("PSS");
engineParams.init(paramSpec);
}
catch (Exception e)
{
throw new RuntimeException(e.toString());
}
}
}
return engineParams;
}
/**
* @deprecated replaced with engineSetParameter(java.security.spec.AlgorithmParameterSpec)
*/
protected void engineSetParameter(
String param,
Object value)
{
throw new UnsupportedOperationException("engineSetParameter unsupported");
}
protected Object engineGetParameter(
String param)
{
throw new UnsupportedOperationException("engineGetParameter unsupported");
}
static public class nonePSS
extends PSSSignatureSpi
{
public nonePSS()
{
super(new RSABlindedEngine(), null, true);
}
}
static public class PSSwithRSA
extends PSSSignatureSpi
{
public PSSwithRSA()
{
super(new RSABlindedEngine(), null);
}
}
static public class SHA1withRSA
extends PSSSignatureSpi
{
public SHA1withRSA()
{
super(new RSABlindedEngine(), PSSParameterSpec.DEFAULT);
}
}
static public class SHA1withRSAandSHAKE128
extends PSSSignatureSpi
{
public SHA1withRSAandSHAKE128()
{
super(new RSABlindedEngine(), new PSSParameterSpec("SHA1", "SHAKE128", null, 20, 1));
}
}
static public class SHA1withRSAandSHAKE256
extends PSSSignatureSpi
{
public SHA1withRSAandSHAKE256()
{
super(new RSABlindedEngine(), new PSSParameterSpec("SHA1", "SHAKE256", null, 20, 1));
}
}
static public class SHA224withRSA
extends PSSSignatureSpi
{
public SHA224withRSA()
{
super(new RSABlindedEngine(), new PSSParameterSpec("SHA-224", "MGF1", new MGF1ParameterSpec("SHA-224"), 28, 1));
}
}
static public class SHA224withRSAandSHAKE128
extends PSSSignatureSpi
{
public SHA224withRSAandSHAKE128()
{
super(new RSABlindedEngine(), new PSSParameterSpec("SHA-224", "SHAKE128", null, 28, 1));
}
}
static public class SHA224withRSAandSHAKE256
extends PSSSignatureSpi
{
public SHA224withRSAandSHAKE256()
{
super(new RSABlindedEngine(), new PSSParameterSpec("SHA-224", "SHAKE256", null, 28, 1));
}
}
static public class SHA256withRSA
extends PSSSignatureSpi
{
public SHA256withRSA()
{
super(new RSABlindedEngine(), new PSSParameterSpec("SHA-256", "MGF1", new MGF1ParameterSpec("SHA-256"), 32, 1));
}
}
static public class SHA256withRSAandSHAKE128
extends PSSSignatureSpi
{
public SHA256withRSAandSHAKE128()
{
super(new RSABlindedEngine(), new PSSParameterSpec("SHA-256", "SHAKE128", null, 32, 1));
}
}
static public class SHA256withRSAandSHAKE256
extends PSSSignatureSpi
{
public SHA256withRSAandSHAKE256()
{
super(new RSABlindedEngine(), new PSSParameterSpec("SHA-256", "SHAKE256", null, 32, 1));
}
}
static public class SHA384withRSA
extends PSSSignatureSpi
{
public SHA384withRSA()
{
super(new RSABlindedEngine(), new PSSParameterSpec("SHA-384", "MGF1", new MGF1ParameterSpec("SHA-384"), 48, 1));
}
}
static public class SHA384withRSAandSHAKE128
extends PSSSignatureSpi
{
public SHA384withRSAandSHAKE128()
{
super(new RSABlindedEngine(), new PSSParameterSpec("SHA-384", "SHAKE128", null, 48, 1));
}
}
static public class SHA384withRSAandSHAKE256
extends PSSSignatureSpi
{
public SHA384withRSAandSHAKE256()
{
super(new RSABlindedEngine(), new PSSParameterSpec("SHA-384", "SHAKE256", null, 48, 1));
}
}
static public class SHA512withRSA
extends PSSSignatureSpi
{
public SHA512withRSA()
{
super(new RSABlindedEngine(), new PSSParameterSpec("SHA-512", "MGF1", new MGF1ParameterSpec("SHA-512"), 64, 1));
}
}
static public class SHA512withRSAandSHAKE128
extends PSSSignatureSpi
{
public SHA512withRSAandSHAKE128()
{
super(new RSABlindedEngine(), new PSSParameterSpec("SHA-512", "SHAKE128", null, 64, 1));
}
}
static public class SHA512withRSAandSHAKE256
extends PSSSignatureSpi
{
public SHA512withRSAandSHAKE256()
{
super(new RSABlindedEngine(), new PSSParameterSpec("SHA-512", "SHAKE256", null, 64, 1));
}
}
static public class SHA512_224withRSA
extends PSSSignatureSpi
{
public SHA512_224withRSA()
{
super(new RSABlindedEngine(), new PSSParameterSpec("SHA-512(224)", "MGF1", new MGF1ParameterSpec("SHA-512(224)"), 28, 1));
}
}
static public class SHA512_224withRSAandSHAKE128
extends PSSSignatureSpi
{
public SHA512_224withRSAandSHAKE128()
{
super(new RSABlindedEngine(), new PSSParameterSpec("SHA-512(224)", "SHAKE128", null, 28, 1));
}
}
static public class SHA512_224withRSAandSHAKE256
extends PSSSignatureSpi
{
public SHA512_224withRSAandSHAKE256()
{
super(new RSABlindedEngine(), new PSSParameterSpec("SHA-512(224)", "SHAKE256", null, 28, 1));
}
}
static public class SHA512_256withRSA
extends PSSSignatureSpi
{
public SHA512_256withRSA()
{
super(new RSABlindedEngine(), new PSSParameterSpec("SHA-512(256)", "MGF1", new MGF1ParameterSpec("SHA-512(256)"), 32, 1));
}
}
static public class SHA512_256withRSAandSHAKE128
extends PSSSignatureSpi
{
public SHA512_256withRSAandSHAKE128()
{
super(new RSABlindedEngine(), new PSSParameterSpec("SHA-512(256)", "SHAKE128", null, 32, 1));
}
}
static public class SHA512_256withRSAandSHAKE256
extends PSSSignatureSpi
{
public SHA512_256withRSAandSHAKE256()
{
super(new RSABlindedEngine(), new PSSParameterSpec("SHA-512(256)", "SHAKE256", null, 32, 1));
}
}
static public class SHA3_224withRSA
extends PSSSignatureSpi
{
public SHA3_224withRSA()
{
super(new RSABlindedEngine(), new PSSParameterSpec("SHA3-224", "MGF1", new MGF1ParameterSpec("SHA3-224"), 28, 1));
}
}
static public class SHA3_224withRSAandSHAKE128
extends PSSSignatureSpi
{
public SHA3_224withRSAandSHAKE128()
{
super(new RSABlindedEngine(), new PSSParameterSpec("SHA3-224", "SHAKE128", null, 28, 1));
}
}
static public class SHA3_224withRSAandSHAKE256
extends PSSSignatureSpi
{
public SHA3_224withRSAandSHAKE256()
{
super(new RSABlindedEngine(), new PSSParameterSpec("SHA3-224", "SHAKE256", null, 28, 1));
}
}
static public class SHA3_256withRSA
extends PSSSignatureSpi
{
public SHA3_256withRSA()
{
super(new RSABlindedEngine(), new PSSParameterSpec("SHA3-256", "MGF1", new MGF1ParameterSpec("SHA3-256"), 32, 1));
}
}
static public class SHA3_256withRSAandSHAKE128
extends PSSSignatureSpi
{
public SHA3_256withRSAandSHAKE128()
{
super(new RSABlindedEngine(), new PSSParameterSpec("SHA3-256", "SHAKE128", null, 32, 1));
}
}
static public class SHA3_256withRSAandSHAKE256
extends PSSSignatureSpi
{
public SHA3_256withRSAandSHAKE256()
{
super(new RSABlindedEngine(), new PSSParameterSpec("SHA3-256", "SHAKE256", null, 32, 1));
}
}
static public class SHA3_384withRSA
extends PSSSignatureSpi
{
public SHA3_384withRSA()
{
super(new RSABlindedEngine(), new PSSParameterSpec("SHA3-384", "MGF1", new MGF1ParameterSpec("SHA3-384"), 48, 1));
}
}
static public class SHA3_384withRSAandSHAKE128
extends PSSSignatureSpi
{
public SHA3_384withRSAandSHAKE128()
{
super(new RSABlindedEngine(), new PSSParameterSpec("SHA3-384", "SHAKE128", null, 48, 1));
}
}
static public class SHA3_384withRSAandSHAKE256
extends PSSSignatureSpi
{
public SHA3_384withRSAandSHAKE256()
{
super(new RSABlindedEngine(), new PSSParameterSpec("SHA3-384", "SHAKE256", null, 48, 1));
}
}
static public class SHA3_512withRSA
extends PSSSignatureSpi
{
public SHA3_512withRSA()
{
super(new RSABlindedEngine(), new PSSParameterSpec("SHA3-512", "MGF1", new MGF1ParameterSpec("SHA3-512"), 64, 1));
}
}
static public class SHA3_512withRSAandSHAKE128
extends PSSSignatureSpi
{
public SHA3_512withRSAandSHAKE128()
{
super(new RSABlindedEngine(), new PSSParameterSpec("SHA3-512", "SHAKE128", null, 64, 1));
}
}
static public class SHA3_512withRSAandSHAKE256
extends PSSSignatureSpi
{
public SHA3_512withRSAandSHAKE256()
{
super(new RSABlindedEngine(), new PSSParameterSpec("SHA3-512", "SHAKE256", null, 64, 1));
}
}
static public class SHAKE128WithRSAPSS
extends PSSSignatureSpi
{
public SHAKE128WithRSAPSS()
{
super(new RSABlindedEngine(), new PSSParameterSpec("SHAKE128", "SHAKE128", null, 32, 1));
}
}
static public class SHAKE256WithRSAPSS
extends PSSSignatureSpi
{
public SHAKE256WithRSAPSS()
{
super(new RSABlindedEngine(), new PSSParameterSpec("SHAKE256", "SHAKE256", null, 64, 1));
}
}
private class NullPssDigest
implements Digest
{
private ByteArrayOutputStream bOut = new ByteArrayOutputStream();
private Digest baseDigest;
private boolean oddTime = true;
public NullPssDigest(Digest mgfDigest)
{
this.baseDigest = mgfDigest;
}
public String getAlgorithmName()
{
return "NULL";
}
public int getDigestSize()
{
return baseDigest.getDigestSize();
}
public void update(byte in)
{
bOut.write(in);
}
public void update(byte[] in, int inOff, int len)
{
bOut.write(in, inOff, len);
}
public int doFinal(byte[] out, int outOff)
{
byte[] res = bOut.toByteArray();
if (oddTime)
{
System.arraycopy(res, 0, out, outOff, res.length);
}
else
{
baseDigest.update(res, 0, res.length);
baseDigest.doFinal(out, outOff);
}
reset();
oddTime = !oddTime;
return res.length;
}
public void reset()
{
bOut.reset();
baseDigest.reset();
}
public int getByteLength()
{
return 0;
}
}
}
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