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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 1.4.
package org.bouncycastle.jcajce.provider.asymmetric.dh;
import java.math.BigInteger;
import java.security.InvalidAlgorithmParameterException;
import java.security.InvalidKeyException;
import java.security.Key;
import java.security.NoSuchAlgorithmException;
import java.security.PrivateKey;
import java.security.PublicKey;
import java.security.SecureRandom;
import java.security.spec.AlgorithmParameterSpec;
import javax.crypto.SecretKey;
import javax.crypto.ShortBufferException;
import javax.crypto.interfaces.DHPrivateKey;
import javax.crypto.interfaces.DHPublicKey;
import javax.crypto.spec.DHParameterSpec;
import javax.crypto.spec.SecretKeySpec;
import org.bouncycastle.crypto.BasicAgreement;
import org.bouncycastle.crypto.DerivationFunction;
import org.bouncycastle.crypto.agreement.DHUnifiedAgreement;
import org.bouncycastle.crypto.agreement.MQVBasicAgreement;
import org.bouncycastle.crypto.agreement.kdf.ConcatenationKDFGenerator;
import org.bouncycastle.crypto.agreement.kdf.DHKEKGenerator;
import org.bouncycastle.crypto.generators.KDF2BytesGenerator;
import org.bouncycastle.crypto.params.DHMQVPrivateParameters;
import org.bouncycastle.crypto.params.DHMQVPublicParameters;
import org.bouncycastle.crypto.params.DHParameters;
import org.bouncycastle.crypto.params.DHPrivateKeyParameters;
import org.bouncycastle.crypto.params.DHPublicKeyParameters;
import org.bouncycastle.crypto.params.DHUPrivateParameters;
import org.bouncycastle.crypto.params.DHUPublicParameters;
import org.bouncycastle.crypto.util.DigestFactory;
import org.bouncycastle.jcajce.provider.asymmetric.util.BaseAgreementSpi;
import org.bouncycastle.jcajce.spec.DHDomainParameterSpec;
import org.bouncycastle.jcajce.spec.DHUParameterSpec;
import org.bouncycastle.jcajce.spec.MQVParameterSpec;
import org.bouncycastle.jcajce.spec.UserKeyingMaterialSpec;
/**
* Diffie-Hellman key agreement. There's actually a better way of doing this
* if you are using long term public keys, see the light-weight version for
* details.
*/
public class KeyAgreementSpi
extends BaseAgreementSpi
{
private static final BigInteger ONE = BigInteger.valueOf(1);
private static final BigInteger TWO = BigInteger.valueOf(2);
private final DHUnifiedAgreement unifiedAgreement;
private final BasicAgreement mqvAgreement;
private DHUParameterSpec dheParameters;
private MQVParameterSpec mqvParameters;
private BigInteger x;
private BigInteger p;
private BigInteger g;
private byte[] result;
public KeyAgreementSpi()
{
this("Diffie-Hellman", null);
}
public KeyAgreementSpi(
String kaAlgorithm,
DerivationFunction kdf)
{
super(kaAlgorithm, kdf);
this.unifiedAgreement = null;
this.mqvAgreement = null;
}
public KeyAgreementSpi(
String kaAlgorithm,
DHUnifiedAgreement unifiedAgreement,
DerivationFunction kdf)
{
super(kaAlgorithm, kdf);
this.unifiedAgreement = unifiedAgreement;
this.mqvAgreement = null;
}
public KeyAgreementSpi(
String kaAlgorithm,
BasicAgreement mqvAgreement,
DerivationFunction kdf)
{
super(kaAlgorithm, kdf);
this.unifiedAgreement = null;
this.mqvAgreement = mqvAgreement;
}
protected byte[] bigIntToBytes(
BigInteger r)
{
//
// RFC 2631 (2.1.2) specifies that the secret should be padded with leading zeros if necessary
// must be the same length as p
//
int expectedLength = (p.bitLength() + 7) / 8;
byte[] tmp = r.toByteArray();
if (tmp.length == expectedLength)
{
return tmp;
}
if (tmp[0] == 0 && tmp.length == expectedLength + 1)
{
byte[] rv = new byte[tmp.length - 1];
System.arraycopy(tmp, 1, rv, 0, rv.length);
return rv;
}
// tmp must be shorter than expectedLength
// pad to the left with zeros.
byte[] rv = new byte[expectedLength];
System.arraycopy(tmp, 0, rv, rv.length - tmp.length, tmp.length);
return rv;
}
protected Key engineDoPhase(
Key key,
boolean lastPhase)
throws InvalidKeyException, IllegalStateException
{
if (x == null)
{
throw new IllegalStateException("Diffie-Hellman not initialised.");
}
if (!(key instanceof DHPublicKey))
{
throw new InvalidKeyException("DHKeyAgreement doPhase requires DHPublicKey");
}
DHPublicKey pubKey = (DHPublicKey)key;
if (!pubKey.getParams().getG().equals(g) || !pubKey.getParams().getP().equals(p))
{
throw new InvalidKeyException("DHPublicKey not for this KeyAgreement!");
}
BigInteger peerY = ((DHPublicKey)key).getY();
if (peerY == null || peerY.compareTo(TWO) < 0
|| peerY.compareTo(p.subtract(ONE)) >= 0)
{
throw new InvalidKeyException("Invalid DH PublicKey");
}
if (unifiedAgreement != null)
{
if (!lastPhase)
{
throw new IllegalStateException("unified Diffie-Hellman can use only two key pairs");
}
DHPublicKeyParameters staticKey = generatePublicKeyParameter((PublicKey)key);
DHPublicKeyParameters ephemKey = generatePublicKeyParameter(dheParameters.getOtherPartyEphemeralKey());
DHUPublicParameters pKey = new DHUPublicParameters(staticKey, ephemKey);
result = unifiedAgreement.calculateAgreement(pKey);
return null;
}
else if (mqvAgreement != null)
{
if (!lastPhase)
{
throw new IllegalStateException("MQV Diffie-Hellman can use only two key pairs");
}
DHPublicKeyParameters staticKey = generatePublicKeyParameter((PublicKey)key);
DHPublicKeyParameters ephemKey = generatePublicKeyParameter(mqvParameters.getOtherPartyEphemeralKey());
DHMQVPublicParameters pKey = new DHMQVPublicParameters(staticKey, ephemKey);
result = bigIntToBytes(mqvAgreement.calculateAgreement(pKey));
return null;
}
else
{
BigInteger res = peerY.modPow(x, p);
if (res.compareTo(ONE) == 0)
{
throw new InvalidKeyException("Shared key can't be 1");
}
result = bigIntToBytes(res);
if (lastPhase)
{
return null;
}
return new BCDHPublicKey(res, pubKey.getParams());
}
}
protected byte[] engineGenerateSecret()
throws IllegalStateException
{
if (x == null)
{
throw new IllegalStateException("Diffie-Hellman not initialised.");
}
return super.engineGenerateSecret();
}
protected int engineGenerateSecret(
byte[] sharedSecret,
int offset)
throws IllegalStateException, ShortBufferException
{
if (x == null)
{
throw new IllegalStateException("Diffie-Hellman not initialised.");
}
return super.engineGenerateSecret(sharedSecret, offset);
}
protected SecretKey engineGenerateSecret(
String algorithm)
throws NoSuchAlgorithmException
{
if (x == null)
{
throw new IllegalStateException("Diffie-Hellman not initialised.");
}
// for JSSE compatibility
if (algorithm.equals("TlsPremasterSecret"))
{
return new SecretKeySpec(trimZeroes(result), algorithm);
}
return super.engineGenerateSecret(algorithm);
}
protected void engineInit(
Key key,
AlgorithmParameterSpec params,
SecureRandom random)
throws InvalidKeyException, InvalidAlgorithmParameterException
{
if (!(key instanceof DHPrivateKey))
{
throw new InvalidKeyException("DHKeyAgreement requires DHPrivateKey for initialisation");
}
DHPrivateKey privKey = (DHPrivateKey)key;
if (params != null)
{
if (params instanceof DHParameterSpec) // p, g override.
{
DHParameterSpec p = (DHParameterSpec)params;
this.p = p.getP();
this.g = p.getG();
this.dheParameters = null;
this.ukmParameters = null;
}
else if (params instanceof DHUParameterSpec)
{
if (unifiedAgreement == null)
{
throw new InvalidAlgorithmParameterException("agreement algorithm not DHU based");
}
this.p = privKey.getParams().getP();
this.g = privKey.getParams().getG();
this.dheParameters = (DHUParameterSpec)params;
this.ukmParameters = ((DHUParameterSpec)params).getUserKeyingMaterial();
if (dheParameters.getEphemeralPublicKey() != null)
{
unifiedAgreement.init(new DHUPrivateParameters(generatePrivateKeyParameter(privKey),
generatePrivateKeyParameter(dheParameters.getEphemeralPrivateKey()),
generatePublicKeyParameter(dheParameters.getEphemeralPublicKey())));
}
else
{
unifiedAgreement.init(new DHUPrivateParameters(generatePrivateKeyParameter(privKey),
generatePrivateKeyParameter(dheParameters.getEphemeralPrivateKey())));
}
}
else if (params instanceof MQVParameterSpec)
{
if (mqvAgreement == null)
{
throw new InvalidAlgorithmParameterException("agreement algorithm not MQV based");
}
this.p = privKey.getParams().getP();
this.g = privKey.getParams().getG();
this.mqvParameters = (MQVParameterSpec)params;
this.ukmParameters = ((MQVParameterSpec)params).getUserKeyingMaterial();
if (mqvParameters.getEphemeralPublicKey() != null)
{
mqvAgreement.init(new DHMQVPrivateParameters(generatePrivateKeyParameter(privKey),
generatePrivateKeyParameter(mqvParameters.getEphemeralPrivateKey()),
generatePublicKeyParameter(mqvParameters.getEphemeralPublicKey())));
}
else
{
mqvAgreement.init(new DHMQVPrivateParameters(generatePrivateKeyParameter(privKey),
generatePrivateKeyParameter(mqvParameters.getEphemeralPrivateKey())));
}
}
else if (params instanceof UserKeyingMaterialSpec)
{
if (kdf == null)
{
throw new InvalidAlgorithmParameterException("no KDF specified for UserKeyingMaterialSpec");
}
this.p = privKey.getParams().getP();
this.g = privKey.getParams().getG();
this.dheParameters = null;
this.ukmParameters = ((UserKeyingMaterialSpec)params).getUserKeyingMaterial();
}
else
{
throw new InvalidAlgorithmParameterException("DHKeyAgreement only accepts DHParameterSpec");
}
}
else
{
this.p = privKey.getParams().getP();
this.g = privKey.getParams().getG();
}
this.x = privKey.getX();
this.result = bigIntToBytes(x);
}
protected void engineInit(
Key key,
SecureRandom random)
throws InvalidKeyException
{
if (!(key instanceof DHPrivateKey))
{
throw new InvalidKeyException("DHKeyAgreement requires DHPrivateKey");
}
DHPrivateKey privKey = (DHPrivateKey)key;
this.p = privKey.getParams().getP();
this.g = privKey.getParams().getG();
this.x = privKey.getX();
this.result = bigIntToBytes(x);
}
protected byte[] calcSecret()
{
return result;
}
private DHPrivateKeyParameters generatePrivateKeyParameter(PrivateKey privKey)
throws InvalidKeyException
{
if (privKey instanceof DHPrivateKey)
{
if (privKey instanceof BCDHPrivateKey)
{
return ((BCDHPrivateKey)privKey).engineGetKeyParameters();
}
else
{
DHPrivateKey pub = (DHPrivateKey)privKey;
DHParameterSpec params = pub.getParams();
return new DHPrivateKeyParameters(pub.getX(),
new DHParameters(params.getP(), params.getG(), null, params.getL()));
}
}
else
{
throw new InvalidKeyException("private key not a DHPrivateKey");
}
}
private DHPublicKeyParameters generatePublicKeyParameter(PublicKey pubKey)
throws InvalidKeyException
{
if (pubKey instanceof DHPublicKey)
{
if (pubKey instanceof BCDHPublicKey)
{
return ((BCDHPublicKey)pubKey).engineGetKeyParameters();
}
else
{
DHPublicKey pub = (DHPublicKey)pubKey;
DHParameterSpec params = pub.getParams();
if (params instanceof DHDomainParameterSpec)
{
return new DHPublicKeyParameters(pub.getY(), ((DHDomainParameterSpec)params).getDomainParameters());
}
return new DHPublicKeyParameters(pub.getY(),
new DHParameters(params.getP(), params.getG(), null, params.getL()));
}
}
else
{
throw new InvalidKeyException("public key not a DHPublicKey");
}
}
public static class DHwithRFC2631KDF
extends KeyAgreementSpi
{
public DHwithRFC2631KDF()
{
super("DHwithRFC2631KDF", new DHKEKGenerator(DigestFactory.createSHA1()));
}
}
public static class DHwithSHA1KDF
extends KeyAgreementSpi
{
public DHwithSHA1KDF()
{
super("DHwithSHA1CKDF", new KDF2BytesGenerator(DigestFactory.createSHA1()));
}
}
public static class DHwithSHA224KDF
extends KeyAgreementSpi
{
public DHwithSHA224KDF()
{
super("DHwithSHA224CKDF", new KDF2BytesGenerator(DigestFactory.createSHA224()));
}
}
public static class DHwithSHA256KDF
extends KeyAgreementSpi
{
public DHwithSHA256KDF()
{
super("DHwithSHA256CKDF", new KDF2BytesGenerator(DigestFactory.createSHA256()));
}
}
public static class DHwithSHA384KDF
extends KeyAgreementSpi
{
public DHwithSHA384KDF()
{
super("DHwithSHA384KDF", new KDF2BytesGenerator(DigestFactory.createSHA384()));
}
}
public static class DHwithSHA512KDF
extends KeyAgreementSpi
{
public DHwithSHA512KDF()
{
super("DHwithSHA512KDF", new KDF2BytesGenerator(DigestFactory.createSHA512()));
}
}
public static class DHwithSHA1CKDF
extends KeyAgreementSpi
{
public DHwithSHA1CKDF()
{
super("DHwithSHA1CKDF", new ConcatenationKDFGenerator(DigestFactory.createSHA1()));
}
}
public static class DHwithSHA224CKDF
extends KeyAgreementSpi
{
public DHwithSHA224CKDF()
{
super("DHwithSHA224CKDF", new ConcatenationKDFGenerator(DigestFactory.createSHA224()));
}
}
public static class DHwithSHA256CKDF
extends KeyAgreementSpi
{
public DHwithSHA256CKDF()
{
super("DHwithSHA256CKDF", new ConcatenationKDFGenerator(DigestFactory.createSHA256()));
}
}
public static class DHwithSHA384CKDF
extends KeyAgreementSpi
{
public DHwithSHA384CKDF()
{
super("DHwithSHA384CKDF", new ConcatenationKDFGenerator(DigestFactory.createSHA384()));
}
}
public static class DHwithSHA512CKDF
extends KeyAgreementSpi
{
public DHwithSHA512CKDF()
{
super("DHwithSHA512CKDF", new ConcatenationKDFGenerator(DigestFactory.createSHA512()));
}
}
public static class DHUwithSHA1KDF
extends KeyAgreementSpi
{
public DHUwithSHA1KDF()
{
super("DHUwithSHA1KDF", new DHUnifiedAgreement(), new KDF2BytesGenerator(DigestFactory.createSHA1()));
}
}
public static class DHUwithSHA224KDF
extends KeyAgreementSpi
{
public DHUwithSHA224KDF()
{
super("DHUwithSHA224KDF", new DHUnifiedAgreement(), new KDF2BytesGenerator(DigestFactory.createSHA224()));
}
}
public static class DHUwithSHA256KDF
extends KeyAgreementSpi
{
public DHUwithSHA256KDF()
{
super("DHUwithSHA256KDF", new DHUnifiedAgreement(), new KDF2BytesGenerator(DigestFactory.createSHA256()));
}
}
public static class DHUwithSHA384KDF
extends KeyAgreementSpi
{
public DHUwithSHA384KDF()
{
super("DHUwithSHA384KDF", new DHUnifiedAgreement(), new KDF2BytesGenerator(DigestFactory.createSHA384()));
}
}
public static class DHUwithSHA512KDF
extends KeyAgreementSpi
{
public DHUwithSHA512KDF()
{
super("DHUwithSHA512KDF", new DHUnifiedAgreement(), new KDF2BytesGenerator(DigestFactory.createSHA512()));
}
}
public static class DHUwithSHA1CKDF
extends KeyAgreementSpi
{
public DHUwithSHA1CKDF()
{
super("DHUwithSHA1CKDF", new DHUnifiedAgreement(), new ConcatenationKDFGenerator(DigestFactory.createSHA1()));
}
}
public static class DHUwithSHA224CKDF
extends KeyAgreementSpi
{
public DHUwithSHA224CKDF()
{
super("DHUwithSHA224CKDF", new DHUnifiedAgreement(), new ConcatenationKDFGenerator(DigestFactory.createSHA224()));
}
}
public static class DHUwithSHA256CKDF
extends KeyAgreementSpi
{
public DHUwithSHA256CKDF()
{
super("DHUwithSHA256CKDF", new DHUnifiedAgreement(), new ConcatenationKDFGenerator(DigestFactory.createSHA256()));
}
}
public static class DHUwithSHA384CKDF
extends KeyAgreementSpi
{
public DHUwithSHA384CKDF()
{
super("DHUwithSHA384CKDF", new DHUnifiedAgreement(), new ConcatenationKDFGenerator(DigestFactory.createSHA384()));
}
}
public static class DHUwithSHA512CKDF
extends KeyAgreementSpi
{
public DHUwithSHA512CKDF()
{
super("DHUwithSHA512CKDF", new DHUnifiedAgreement(), new ConcatenationKDFGenerator(DigestFactory.createSHA512()));
}
}
public static class MQVwithSHA1KDF
extends KeyAgreementSpi
{
public MQVwithSHA1KDF()
{
super("MQVwithSHA1KDF", new MQVBasicAgreement(), new KDF2BytesGenerator(DigestFactory.createSHA1()));
}
}
public static class MQVwithSHA224KDF
extends KeyAgreementSpi
{
public MQVwithSHA224KDF()
{
super("MQVwithSHA224KDF", new MQVBasicAgreement(), new KDF2BytesGenerator(DigestFactory.createSHA224()));
}
}
public static class MQVwithSHA256KDF
extends KeyAgreementSpi
{
public MQVwithSHA256KDF()
{
super("MQVwithSHA256KDF", new MQVBasicAgreement(), new KDF2BytesGenerator(DigestFactory.createSHA256()));
}
}
public static class MQVwithSHA384KDF
extends KeyAgreementSpi
{
public MQVwithSHA384KDF()
{
super("MQVwithSHA384KDF", new MQVBasicAgreement(), new KDF2BytesGenerator(DigestFactory.createSHA384()));
}
}
public static class MQVwithSHA512KDF
extends KeyAgreementSpi
{
public MQVwithSHA512KDF()
{
super("MQVwithSHA512KDF", new MQVBasicAgreement(), new KDF2BytesGenerator(DigestFactory.createSHA512()));
}
}
public static class MQVwithSHA1CKDF
extends KeyAgreementSpi
{
public MQVwithSHA1CKDF()
{
super("MQVwithSHA1CKDF", new MQVBasicAgreement(), new ConcatenationKDFGenerator(DigestFactory.createSHA1()));
}
}
public static class MQVwithSHA224CKDF
extends KeyAgreementSpi
{
public MQVwithSHA224CKDF()
{
super("MQVwithSHA224CKDF", new MQVBasicAgreement(), new ConcatenationKDFGenerator(DigestFactory.createSHA224()));
}
}
public static class MQVwithSHA256CKDF
extends KeyAgreementSpi
{
public MQVwithSHA256CKDF()
{
super("MQVwithSHA256CKDF", new MQVBasicAgreement(), new ConcatenationKDFGenerator(DigestFactory.createSHA256()));
}
}
public static class MQVwithSHA384CKDF
extends KeyAgreementSpi
{
public MQVwithSHA384CKDF()
{
super("MQVwithSHA384CKDF", new MQVBasicAgreement(), new ConcatenationKDFGenerator(DigestFactory.createSHA384()));
}
}
public static class MQVwithSHA512CKDF
extends KeyAgreementSpi
{
public MQVwithSHA512CKDF()
{
super("MQVwithSHA512CKDF", new MQVBasicAgreement(), new ConcatenationKDFGenerator(DigestFactory.createSHA512()));
}
}
}
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