org.bouncycastle.jcajce.spec.DHUParameterSpec Maven / Gradle / Ivy
Go to download
Show more of this group Show more artifacts with this name
Show all versions of bcprov-jdk15on Show documentation
Show all versions of bcprov-jdk15on Show documentation
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.
The newest version!
package org.bouncycastle.jcajce.spec;
import java.security.KeyPair;
import java.security.PrivateKey;
import java.security.PublicKey;
import java.security.spec.AlgorithmParameterSpec;
import org.bouncycastle.util.Arrays;
/**
* Parameter spec to provide Diffie-Hellman Unified model keys and user keying material.
*/
public class DHUParameterSpec
implements AlgorithmParameterSpec
{
private final PublicKey ephemeralPublicKey;
private final PrivateKey ephemeralPrivateKey;
private final PublicKey otherPartyEphemeralKey;
private final byte[] userKeyingMaterial;
/**
* Base constructor for a Diffie-Hellman unified model.
*
* @param ephemeralPublicKey our ephemeral public key.
* @param ephemeralPrivateKey our ephemeral private key.
* @param otherPartyEphemeralKey the ephemeral public key sent by the other party.
* @param userKeyingMaterial key generation material to mix with the calculated secret.
*/
public DHUParameterSpec(PublicKey ephemeralPublicKey, PrivateKey ephemeralPrivateKey, PublicKey otherPartyEphemeralKey, byte[] userKeyingMaterial)
{
if (ephemeralPrivateKey == null)
{
throw new IllegalArgumentException("ephemeral private key cannot be null");
}
if (otherPartyEphemeralKey == null)
{
throw new IllegalArgumentException("other party ephemeral key cannot be null");
}
this.ephemeralPublicKey = ephemeralPublicKey;
this.ephemeralPrivateKey = ephemeralPrivateKey;
this.otherPartyEphemeralKey = otherPartyEphemeralKey;
this.userKeyingMaterial = Arrays.clone(userKeyingMaterial);
}
/**
* Base constructor for a Diffie-Hellman unified model without user keying material.
*
* @param ephemeralPublicKey our ephemeral public key.
* @param ephemeralPrivateKey our ephemeral private key.
* @param otherPartyEphemeralKey the ephemeral public key sent by the other party.
*/
public DHUParameterSpec(PublicKey ephemeralPublicKey, PrivateKey ephemeralPrivateKey, PublicKey otherPartyEphemeralKey)
{
this(ephemeralPublicKey, ephemeralPrivateKey, otherPartyEphemeralKey, null);
}
/**
* Base constructor for a Diffie-Hellman unified model using a key pair.
*
* @param ephemeralKeyPair our ephemeral public and private key.
* @param otherPartyEphemeralKey the ephemeral public key sent by the other party.
* @param userKeyingMaterial key generation material to mix with the calculated secret.
*/
public DHUParameterSpec(KeyPair ephemeralKeyPair, PublicKey otherPartyEphemeralKey, byte[] userKeyingMaterial)
{
this(ephemeralKeyPair.getPublic(), ephemeralKeyPair.getPrivate(), otherPartyEphemeralKey, userKeyingMaterial);
}
/**
* Base constructor for a Diffie-Hellman unified model - calculation of our ephemeral public key
* is required.
*
* @param ephemeralPrivateKey our ephemeral private key.
* @param otherPartyEphemeralKey the ephemeral public key sent by the other party.
* @param userKeyingMaterial key generation material to mix with the calculated secret.
*/
public DHUParameterSpec(PrivateKey ephemeralPrivateKey, PublicKey otherPartyEphemeralKey, byte[] userKeyingMaterial)
{
this(null, ephemeralPrivateKey, otherPartyEphemeralKey, userKeyingMaterial);
}
/**
* Base constructor for a Diffie-Hellman unified model using a key pair without user keying material.
*
* @param ephemeralKeyPair our ephemeral public and private key.
* @param otherPartyEphemeralKey the ephemeral public key sent by the other party.
*/
public DHUParameterSpec(KeyPair ephemeralKeyPair, PublicKey otherPartyEphemeralKey)
{
this(ephemeralKeyPair.getPublic(), ephemeralKeyPair.getPrivate(), otherPartyEphemeralKey, null);
}
/**
* Base constructor for a Diffie-Hellman unified model - calculation of our ephemeral public key
* is required and no user keying material is provided.
*
* @param ephemeralPrivateKey our ephemeral private key.
* @param otherPartyEphemeralKey the ephemeral public key sent by the other party.
*/
public DHUParameterSpec(PrivateKey ephemeralPrivateKey, PublicKey otherPartyEphemeralKey)
{
this(null, ephemeralPrivateKey, otherPartyEphemeralKey, null);
}
/**
* Return our ephemeral private key.
*
* @return our ephemeral private key.
*/
public PrivateKey getEphemeralPrivateKey()
{
return ephemeralPrivateKey;
}
/**
* Return our ephemeral public key, null if it was not provided.
*
* @return our ephemeral public key, can be null.
*/
public PublicKey getEphemeralPublicKey()
{
return ephemeralPublicKey;
}
/**
* Return the ephemeral other party public key.
*
* @return the ephemeral other party public key.
*/
public PublicKey getOtherPartyEphemeralKey()
{
return otherPartyEphemeralKey;
}
/**
* Return a copy of the user keying material, null if none is available.
*
* @return a copy of the user keying material, can be null.
*/
public byte[] getUserKeyingMaterial()
{
return Arrays.clone(userKeyingMaterial);
}
}
© 2015 - 2024 Weber Informatics LLC | Privacy Policy