org.bouncycastle.jcajce.provider.asymmetric.DH Maven / Gradle / Ivy
Go to download
Show more of this group Show more artifacts with this name
Show all versions of bcprov-jdk15to18 Show documentation
Show all versions of bcprov-jdk15to18 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 to JDK 1.8.
package org.bouncycastle.jcajce.provider.asymmetric;
import java.util.HashMap;
import java.util.Map;
import org.bouncycastle.asn1.pkcs.PKCSObjectIdentifiers;
import org.bouncycastle.asn1.x9.X9ObjectIdentifiers;
import org.bouncycastle.jcajce.provider.asymmetric.dh.KeyFactorySpi;
import org.bouncycastle.jcajce.provider.config.ConfigurableProvider;
import org.bouncycastle.jcajce.provider.util.AsymmetricAlgorithmProvider;
public class DH
{
private static final String PREFIX = "org.bouncycastle.jcajce.provider.asymmetric" + ".dh.";
private static final Map generalDhAttributes = new HashMap();
static
{
generalDhAttributes.put("SupportedKeyClasses", "javax.crypto.interfaces.DHPublicKey|javax.crypto.interfaces.DHPrivateKey");
generalDhAttributes.put("SupportedKeyFormats", "PKCS#8|X.509");
}
public static class Mappings
extends AsymmetricAlgorithmProvider
{
public Mappings()
{
}
public void configure(ConfigurableProvider provider)
{
provider.addAlgorithm("KeyPairGenerator.DH", PREFIX + "KeyPairGeneratorSpi");
provider.addAlgorithm("Alg.Alias.KeyPairGenerator.DIFFIEHELLMAN", "DH");
provider.addAttributes("KeyAgreement.DH", generalDhAttributes);
provider.addAlgorithm("KeyAgreement.DH", PREFIX + "KeyAgreementSpi");
provider.addAlgorithm("Alg.Alias.KeyAgreement.DIFFIEHELLMAN", "DH");
provider.addAlgorithm("KeyAgreement", PKCSObjectIdentifiers.id_alg_ESDH, PREFIX + "KeyAgreementSpi$DHwithRFC2631KDF");
provider.addAlgorithm("KeyAgreement", PKCSObjectIdentifiers.id_alg_SSDH, PREFIX + "KeyAgreementSpi$DHwithRFC2631KDF");
provider.addAlgorithm("KeyFactory.DH", PREFIX + "KeyFactorySpi");
provider.addAlgorithm("Alg.Alias.KeyFactory.DIFFIEHELLMAN", "DH");
provider.addAlgorithm("AlgorithmParameters.DH", PREFIX + "AlgorithmParametersSpi");
provider.addAlgorithm("Alg.Alias.AlgorithmParameters.DIFFIEHELLMAN", "DH");
provider.addAlgorithm("Alg.Alias.AlgorithmParameterGenerator.DIFFIEHELLMAN", "DH");
provider.addAlgorithm("AlgorithmParameterGenerator.DH", PREFIX + "AlgorithmParameterGeneratorSpi");
provider.addAlgorithm("Cipher.IES", PREFIX + "IESCipher$IES");
provider.addAlgorithm("Cipher.IESwithAES-CBC", PREFIX + "IESCipher$IESwithAESCBC");
provider.addAlgorithm("Cipher.IESWITHAES-CBC", PREFIX + "IESCipher$IESwithAESCBC");
provider.addAlgorithm("Cipher.IESWITHDESEDE-CBC", PREFIX + "IESCipher$IESwithDESedeCBC");
provider.addAlgorithm("Cipher.DHIES", PREFIX + "IESCipher$IES");
provider.addAlgorithm("Cipher.DHIESwithAES-CBC", PREFIX + "IESCipher$IESwithAESCBC");
provider.addAlgorithm("Cipher.DHIESWITHAES-CBC", PREFIX + "IESCipher$IESwithAESCBC");
provider.addAlgorithm("Cipher.DHIESWITHDESEDE-CBC", PREFIX + "IESCipher$IESwithDESedeCBC");
provider.addAlgorithm("KeyAgreement.DHWITHSHA1KDF", PREFIX + "KeyAgreementSpi$DHwithSHA1KDF");
provider.addAlgorithm("KeyAgreement.DHWITHSHA224KDF", PREFIX + "KeyAgreementSpi$DHwithSHA224KDF");
provider.addAlgorithm("KeyAgreement.DHWITHSHA256KDF", PREFIX + "KeyAgreementSpi$DHwithSHA256KDF");
provider.addAlgorithm("KeyAgreement.DHWITHSHA384KDF", PREFIX + "KeyAgreementSpi$DHwithSHA384KDF");
provider.addAlgorithm("KeyAgreement.DHWITHSHA512KDF", PREFIX + "KeyAgreementSpi$DHwithSHA512KDF");
provider.addAlgorithm("KeyAgreement.DHUWITHSHA1KDF", PREFIX + "KeyAgreementSpi$DHUwithSHA1KDF");
provider.addAlgorithm("KeyAgreement.DHUWITHSHA224KDF", PREFIX + "KeyAgreementSpi$DHUwithSHA224KDF");
provider.addAlgorithm("KeyAgreement.DHUWITHSHA256KDF", PREFIX + "KeyAgreementSpi$DHUwithSHA256KDF");
provider.addAlgorithm("KeyAgreement.DHUWITHSHA384KDF", PREFIX + "KeyAgreementSpi$DHUwithSHA384KDF");
provider.addAlgorithm("KeyAgreement.DHUWITHSHA512KDF", PREFIX + "KeyAgreementSpi$DHUwithSHA512KDF");
provider.addAlgorithm("KeyAgreement.DHUWITHSHA1CKDF", PREFIX + "KeyAgreementSpi$DHUwithSHA1CKDF");
provider.addAlgorithm("KeyAgreement.DHUWITHSHA224CKDF", PREFIX + "KeyAgreementSpi$DHUwithSHA224CKDF");
provider.addAlgorithm("KeyAgreement.DHUWITHSHA256CKDF", PREFIX + "KeyAgreementSpi$DHUwithSHA256CKDF");
provider.addAlgorithm("KeyAgreement.DHUWITHSHA384CKDF", PREFIX + "KeyAgreementSpi$DHUwithSHA384CKDF");
provider.addAlgorithm("KeyAgreement.DHUWITHSHA512CKDF", PREFIX + "KeyAgreementSpi$DHUwithSHA512CKDF");
provider.addAlgorithm("KeyAgreement.MQVWITHSHA1KDF", PREFIX + "KeyAgreementSpi$MQVwithSHA1KDF");
provider.addAlgorithm("KeyAgreement.MQVWITHSHA224KDF", PREFIX + "KeyAgreementSpi$MQVwithSHA224KDF");
provider.addAlgorithm("KeyAgreement.MQVWITHSHA256KDF", PREFIX + "KeyAgreementSpi$MQVwithSHA256KDF");
provider.addAlgorithm("KeyAgreement.MQVWITHSHA384KDF", PREFIX + "KeyAgreementSpi$MQVwithSHA384KDF");
provider.addAlgorithm("KeyAgreement.MQVWITHSHA512KDF", PREFIX + "KeyAgreementSpi$MQVwithSHA512KDF");
provider.addAlgorithm("KeyAgreement.MQVWITHSHA1CKDF", PREFIX + "KeyAgreementSpi$MQVwithSHA1CKDF");
provider.addAlgorithm("KeyAgreement.MQVWITHSHA224CKDF", PREFIX + "KeyAgreementSpi$MQVwithSHA224CKDF");
provider.addAlgorithm("KeyAgreement.MQVWITHSHA256CKDF", PREFIX + "KeyAgreementSpi$MQVwithSHA256CKDF");
provider.addAlgorithm("KeyAgreement.MQVWITHSHA384CKDF", PREFIX + "KeyAgreementSpi$MQVwithSHA384CKDF");
provider.addAlgorithm("KeyAgreement.MQVWITHSHA512CKDF", PREFIX + "KeyAgreementSpi$MQVwithSHA512CKDF");
registerOid(provider, PKCSObjectIdentifiers.dhKeyAgreement, "DH", new KeyFactorySpi());
registerOid(provider, X9ObjectIdentifiers.dhpublicnumber, "DH", new KeyFactorySpi());
}
}
}