All Downloads are FREE. Search and download functionalities are using the official Maven repository.

org.bouncycastle.jcajce.provider.asymmetric.ec.KeyAgreementSpi Maven / Gradle / Ivy

Go to download

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.

There is a newer version: 1.79
Show newest version
package org.bouncycastle.jcajce.provider.asymmetric.ec;

import java.math.BigInteger;
import java.security.InvalidAlgorithmParameterException;
import java.security.InvalidKeyException;
import java.security.Key;
import java.security.PrivateKey;
import java.security.PublicKey;
import java.security.SecureRandom;
import java.security.spec.AlgorithmParameterSpec;

import org.bouncycastle.asn1.x9.X9IntegerConverter;
import org.bouncycastle.crypto.BasicAgreement;
import org.bouncycastle.crypto.CipherParameters;
import org.bouncycastle.crypto.DerivationFunction;
import org.bouncycastle.crypto.agreement.ECDHBasicAgreement;
import org.bouncycastle.crypto.agreement.ECDHCBasicAgreement;
import org.bouncycastle.crypto.agreement.ECDHCUnifiedAgreement;
import org.bouncycastle.crypto.agreement.ECMQVBasicAgreement;
import org.bouncycastle.crypto.agreement.kdf.ConcatenationKDFGenerator;
import org.bouncycastle.crypto.digests.RIPEMD160Digest;
import org.bouncycastle.crypto.generators.KDF2BytesGenerator;
import org.bouncycastle.crypto.params.ECDHUPrivateParameters;
import org.bouncycastle.crypto.params.ECDHUPublicParameters;
import org.bouncycastle.crypto.params.ECDomainParameters;
import org.bouncycastle.crypto.params.ECPrivateKeyParameters;
import org.bouncycastle.crypto.params.ECPublicKeyParameters;
import org.bouncycastle.crypto.params.MQVPrivateParameters;
import org.bouncycastle.crypto.params.MQVPublicParameters;
import org.bouncycastle.crypto.util.DigestFactory;
import org.bouncycastle.jcajce.provider.asymmetric.util.BaseAgreementSpi;
import org.bouncycastle.jcajce.provider.asymmetric.util.ECUtil;
import org.bouncycastle.jcajce.spec.DHUParameterSpec;
import org.bouncycastle.jcajce.spec.MQVParameterSpec;
import org.bouncycastle.jcajce.spec.UserKeyingMaterialSpec;
import org.bouncycastle.jce.interfaces.ECPrivateKey;
import org.bouncycastle.jce.interfaces.ECPublicKey;
import org.bouncycastle.jce.interfaces.MQVPrivateKey;
import org.bouncycastle.jce.interfaces.MQVPublicKey;
import org.bouncycastle.util.Arrays;

/**
 * Diffie-Hellman key agreement using elliptic curve keys, ala IEEE P1363
 * both the simple one, and the simple one with cofactors are supported.
 * 

* Also, MQV key agreement per SEC-1 */ public class KeyAgreementSpi extends BaseAgreementSpi { private static final X9IntegerConverter converter = new X9IntegerConverter(); private String kaAlgorithm; private ECDomainParameters parameters; private Object agreement; private MQVParameterSpec mqvParameters; private DHUParameterSpec dheParameters; private byte[] result; protected KeyAgreementSpi( String kaAlgorithm, BasicAgreement agreement, DerivationFunction kdf) { super(kaAlgorithm, kdf); this.kaAlgorithm = kaAlgorithm; this.agreement = agreement; } protected KeyAgreementSpi( String kaAlgorithm, ECDHCUnifiedAgreement agreement, DerivationFunction kdf) { super(kaAlgorithm, kdf); this.kaAlgorithm = kaAlgorithm; this.agreement = agreement; } protected byte[] bigIntToBytes( BigInteger r) { return converter.integerToBytes(r, converter.getByteLength(parameters.getCurve())); } protected Key engineDoPhase( Key key, boolean lastPhase) throws InvalidKeyException, IllegalStateException { if (parameters == null) { throw new IllegalStateException(kaAlgorithm + " not initialised."); } if (!lastPhase) { throw new IllegalStateException(kaAlgorithm + " can only be between two parties."); } CipherParameters pubKey; if (agreement instanceof ECMQVBasicAgreement) { if (!(key instanceof MQVPublicKey)) { ECPublicKeyParameters staticKey = (ECPublicKeyParameters) ECUtils.generatePublicKeyParameter((PublicKey)key); ECPublicKeyParameters ephemKey = (ECPublicKeyParameters) ECUtils.generatePublicKeyParameter(mqvParameters.getOtherPartyEphemeralKey()); pubKey = new MQVPublicParameters(staticKey, ephemKey); } else { MQVPublicKey mqvPubKey = (MQVPublicKey)key; ECPublicKeyParameters staticKey = (ECPublicKeyParameters) ECUtils.generatePublicKeyParameter(mqvPubKey.getStaticKey()); ECPublicKeyParameters ephemKey = (ECPublicKeyParameters) ECUtils.generatePublicKeyParameter(mqvPubKey.getEphemeralKey()); pubKey = new MQVPublicParameters(staticKey, ephemKey); } } else if (agreement instanceof ECDHCUnifiedAgreement) { ECPublicKeyParameters staticKey = (ECPublicKeyParameters) ECUtils.generatePublicKeyParameter((PublicKey)key); ECPublicKeyParameters ephemKey = (ECPublicKeyParameters) ECUtils.generatePublicKeyParameter(dheParameters.getOtherPartyEphemeralKey()); pubKey = new ECDHUPublicParameters(staticKey, ephemKey); } else { if (!(key instanceof PublicKey)) { throw new InvalidKeyException(kaAlgorithm + " key agreement requires " + getSimpleName(ECPublicKey.class) + " for doPhase"); } pubKey = ECUtils.generatePublicKeyParameter((PublicKey)key); } try { if (agreement instanceof BasicAgreement) { result = bigIntToBytes(((BasicAgreement)agreement).calculateAgreement(pubKey)); } else { result = ((ECDHCUnifiedAgreement)agreement).calculateAgreement(pubKey); } } catch (final Exception e) { throw new InvalidKeyException("calculation failed: " + e.getMessage()) { public Throwable getCause() { return e; } }; } return null; } protected void engineInit( Key key, AlgorithmParameterSpec params, SecureRandom random) throws InvalidKeyException, InvalidAlgorithmParameterException { if (params != null && !(params instanceof MQVParameterSpec || params instanceof UserKeyingMaterialSpec || params instanceof DHUParameterSpec)) { throw new InvalidAlgorithmParameterException("No algorithm parameters supported"); } initFromKey(key, params); } protected void engineInit( Key key, SecureRandom random) throws InvalidKeyException { try { initFromKey(key, null); } catch (InvalidAlgorithmParameterException e) { // this should never occur. throw new InvalidKeyException(e.getMessage()); } } private void initFromKey(Key key, AlgorithmParameterSpec parameterSpec) throws InvalidKeyException, InvalidAlgorithmParameterException { if (agreement instanceof ECMQVBasicAgreement) { mqvParameters = null; if (!(key instanceof MQVPrivateKey) && !(parameterSpec instanceof MQVParameterSpec)) { throw new InvalidAlgorithmParameterException(kaAlgorithm + " key agreement requires " + getSimpleName(MQVParameterSpec.class) + " for initialisation"); } ECPrivateKeyParameters staticPrivKey; ECPrivateKeyParameters ephemPrivKey; ECPublicKeyParameters ephemPubKey; if (key instanceof MQVPrivateKey) { MQVPrivateKey mqvPrivKey = (MQVPrivateKey)key; staticPrivKey = (ECPrivateKeyParameters) ECUtil.generatePrivateKeyParameter(mqvPrivKey.getStaticPrivateKey()); ephemPrivKey = (ECPrivateKeyParameters) ECUtil.generatePrivateKeyParameter(mqvPrivKey.getEphemeralPrivateKey()); ephemPubKey = null; if (mqvPrivKey.getEphemeralPublicKey() != null) { ephemPubKey = (ECPublicKeyParameters) ECUtils.generatePublicKeyParameter(mqvPrivKey.getEphemeralPublicKey()); } } else { MQVParameterSpec mqvParameterSpec = (MQVParameterSpec)parameterSpec; staticPrivKey = (ECPrivateKeyParameters) ECUtil.generatePrivateKeyParameter((PrivateKey)key); ephemPrivKey = (ECPrivateKeyParameters) ECUtil.generatePrivateKeyParameter(mqvParameterSpec.getEphemeralPrivateKey()); ephemPubKey = null; if (mqvParameterSpec.getEphemeralPublicKey() != null) { ephemPubKey = (ECPublicKeyParameters) ECUtils.generatePublicKeyParameter(mqvParameterSpec.getEphemeralPublicKey()); } mqvParameters = mqvParameterSpec; ukmParameters = mqvParameterSpec.getUserKeyingMaterial(); } MQVPrivateParameters localParams = new MQVPrivateParameters(staticPrivKey, ephemPrivKey, ephemPubKey); this.parameters = staticPrivKey.getParameters(); // TODO Validate that all the keys are using the same parameters? ((ECMQVBasicAgreement)agreement).init(localParams); } else if (parameterSpec instanceof DHUParameterSpec) { if (!(agreement instanceof ECDHCUnifiedAgreement)) { throw new InvalidAlgorithmParameterException(kaAlgorithm + " key agreement cannot be used with " + getSimpleName(DHUParameterSpec.class)); } DHUParameterSpec dheParameterSpec = (DHUParameterSpec)parameterSpec; ECPrivateKeyParameters staticPrivKey; ECPrivateKeyParameters ephemPrivKey; ECPublicKeyParameters ephemPubKey; staticPrivKey = (ECPrivateKeyParameters) ECUtil.generatePrivateKeyParameter((PrivateKey)key); ephemPrivKey = (ECPrivateKeyParameters) ECUtil.generatePrivateKeyParameter(dheParameterSpec.getEphemeralPrivateKey()); ephemPubKey = null; if (dheParameterSpec.getEphemeralPublicKey() != null) { ephemPubKey = (ECPublicKeyParameters) ECUtils.generatePublicKeyParameter(dheParameterSpec.getEphemeralPublicKey()); } dheParameters = dheParameterSpec; ukmParameters = dheParameterSpec.getUserKeyingMaterial(); ECDHUPrivateParameters localParams = new ECDHUPrivateParameters(staticPrivKey, ephemPrivKey, ephemPubKey); this.parameters = staticPrivKey.getParameters(); ((ECDHCUnifiedAgreement)agreement).init(localParams); } else { if (!(key instanceof PrivateKey)) { throw new InvalidKeyException(kaAlgorithm + " key agreement requires " + getSimpleName(ECPrivateKey.class) + " for initialisation"); } if (kdf == null && parameterSpec instanceof UserKeyingMaterialSpec) { throw new InvalidAlgorithmParameterException("no KDF specified for UserKeyingMaterialSpec"); } ECPrivateKeyParameters privKey = (ECPrivateKeyParameters)ECUtil.generatePrivateKeyParameter((PrivateKey)key); this.parameters = privKey.getParameters(); ukmParameters = (parameterSpec instanceof UserKeyingMaterialSpec) ? ((UserKeyingMaterialSpec)parameterSpec).getUserKeyingMaterial() : null; ((BasicAgreement)agreement).init(privKey); } } private static String getSimpleName(Class clazz) { String fullName = clazz.getName(); return fullName.substring(fullName.lastIndexOf('.') + 1); } protected byte[] calcSecret() { return Arrays.clone(result); } public static class DH extends KeyAgreementSpi { public DH() { super("ECDH", new ECDHBasicAgreement(), null); } } public static class DHC extends KeyAgreementSpi { public DHC() { super("ECDHC", new ECDHCBasicAgreement(), null); } } public static class MQV extends KeyAgreementSpi { public MQV() { super("ECMQV", new ECMQVBasicAgreement(), null); } } public static class DHUC extends KeyAgreementSpi { public DHUC() { super("ECCDHU", new ECDHCUnifiedAgreement(), null); } } public static class DHwithSHA1KDF extends KeyAgreementSpi { public DHwithSHA1KDF() { super("ECDHwithSHA1KDF", new ECDHBasicAgreement(), new KDF2BytesGenerator(DigestFactory.createSHA1())); } } public static class DHwithSHA1KDFAndSharedInfo extends KeyAgreementSpi { public DHwithSHA1KDFAndSharedInfo() { super("ECDHwithSHA1KDF", new ECDHBasicAgreement(), new KDF2BytesGenerator(DigestFactory.createSHA1())); } } public static class CDHwithSHA1KDFAndSharedInfo extends KeyAgreementSpi { public CDHwithSHA1KDFAndSharedInfo() { super("ECCDHwithSHA1KDF", new ECDHCBasicAgreement(), new KDF2BytesGenerator(DigestFactory.createSHA1())); } } public static class DHwithSHA224KDFAndSharedInfo extends KeyAgreementSpi { public DHwithSHA224KDFAndSharedInfo() { super("ECDHwithSHA224KDF", new ECDHBasicAgreement(), new KDF2BytesGenerator(DigestFactory.createSHA224())); } } public static class CDHwithSHA224KDFAndSharedInfo extends KeyAgreementSpi { public CDHwithSHA224KDFAndSharedInfo() { super("ECCDHwithSHA224KDF", new ECDHCBasicAgreement(), new KDF2BytesGenerator(DigestFactory.createSHA224())); } } public static class DHwithSHA256KDFAndSharedInfo extends KeyAgreementSpi { public DHwithSHA256KDFAndSharedInfo() { super("ECDHwithSHA256KDF", new ECDHBasicAgreement(), new KDF2BytesGenerator(DigestFactory.createSHA256())); } } public static class CDHwithSHA256KDFAndSharedInfo extends KeyAgreementSpi { public CDHwithSHA256KDFAndSharedInfo() { super("ECCDHwithSHA256KDF", new ECDHCBasicAgreement(), new KDF2BytesGenerator(DigestFactory.createSHA256())); } } public static class DHwithSHA384KDFAndSharedInfo extends KeyAgreementSpi { public DHwithSHA384KDFAndSharedInfo() { super("ECDHwithSHA384KDF", new ECDHBasicAgreement(), new KDF2BytesGenerator(DigestFactory.createSHA384())); } } public static class CDHwithSHA384KDFAndSharedInfo extends KeyAgreementSpi { public CDHwithSHA384KDFAndSharedInfo() { super("ECCDHwithSHA384KDF", new ECDHCBasicAgreement(), new KDF2BytesGenerator(DigestFactory.createSHA384())); } } public static class DHwithSHA512KDFAndSharedInfo extends KeyAgreementSpi { public DHwithSHA512KDFAndSharedInfo() { super("ECDHwithSHA512KDF", new ECDHBasicAgreement(), new KDF2BytesGenerator(DigestFactory.createSHA512())); } } public static class CDHwithSHA512KDFAndSharedInfo extends KeyAgreementSpi { public CDHwithSHA512KDFAndSharedInfo() { super("ECCDHwithSHA512KDF", new ECDHCBasicAgreement(), new KDF2BytesGenerator(DigestFactory.createSHA512())); } } public static class MQVwithSHA1KDFAndSharedInfo extends KeyAgreementSpi { public MQVwithSHA1KDFAndSharedInfo() { super("ECMQVwithSHA1KDF", new ECMQVBasicAgreement(), new KDF2BytesGenerator(DigestFactory.createSHA1())); } } public static class MQVwithSHA224KDFAndSharedInfo extends KeyAgreementSpi { public MQVwithSHA224KDFAndSharedInfo() { super("ECMQVwithSHA224KDF", new ECMQVBasicAgreement(), new KDF2BytesGenerator(DigestFactory.createSHA224())); } } public static class MQVwithSHA256KDFAndSharedInfo extends KeyAgreementSpi { public MQVwithSHA256KDFAndSharedInfo() { super("ECMQVwithSHA256KDF", new ECMQVBasicAgreement(), new KDF2BytesGenerator(DigestFactory.createSHA256())); } } public static class MQVwithSHA384KDFAndSharedInfo extends KeyAgreementSpi { public MQVwithSHA384KDFAndSharedInfo() { super("ECMQVwithSHA384KDF", new ECMQVBasicAgreement(), new KDF2BytesGenerator(DigestFactory.createSHA384())); } } public static class MQVwithSHA512KDFAndSharedInfo extends KeyAgreementSpi { public MQVwithSHA512KDFAndSharedInfo() { super("ECMQVwithSHA512KDF", new ECMQVBasicAgreement(), new KDF2BytesGenerator(DigestFactory.createSHA512())); } } public static class DHwithSHA1CKDF extends KeyAgreementSpi { public DHwithSHA1CKDF() { super("ECDHwithSHA1CKDF", new ECDHCBasicAgreement(), new ConcatenationKDFGenerator(DigestFactory.createSHA1())); } } public static class DHwithSHA256CKDF extends KeyAgreementSpi { public DHwithSHA256CKDF() { super("ECDHwithSHA256CKDF", new ECDHCBasicAgreement(), new ConcatenationKDFGenerator(DigestFactory.createSHA256())); } } public static class DHwithSHA384CKDF extends KeyAgreementSpi { public DHwithSHA384CKDF() { super("ECDHwithSHA384CKDF", new ECDHCBasicAgreement(), new ConcatenationKDFGenerator(DigestFactory.createSHA384())); } } public static class DHwithSHA512CKDF extends KeyAgreementSpi { public DHwithSHA512CKDF() { super("ECDHwithSHA512CKDF", new ECDHCBasicAgreement(), new ConcatenationKDFGenerator(DigestFactory.createSHA512())); } } public static class MQVwithSHA1CKDF extends KeyAgreementSpi { public MQVwithSHA1CKDF() { super("ECMQVwithSHA1CKDF", new ECMQVBasicAgreement(), new ConcatenationKDFGenerator(DigestFactory.createSHA1())); } } public static class MQVwithSHA224CKDF extends KeyAgreementSpi { public MQVwithSHA224CKDF() { super("ECMQVwithSHA224CKDF", new ECMQVBasicAgreement(), new ConcatenationKDFGenerator(DigestFactory.createSHA224())); } } public static class MQVwithSHA256CKDF extends KeyAgreementSpi { public MQVwithSHA256CKDF() { super("ECMQVwithSHA256CKDF", new ECMQVBasicAgreement(), new ConcatenationKDFGenerator(DigestFactory.createSHA256())); } } public static class MQVwithSHA384CKDF extends KeyAgreementSpi { public MQVwithSHA384CKDF() { super("ECMQVwithSHA384CKDF", new ECMQVBasicAgreement(), new ConcatenationKDFGenerator(DigestFactory.createSHA384())); } } public static class MQVwithSHA512CKDF extends KeyAgreementSpi { public MQVwithSHA512CKDF() { super("ECMQVwithSHA512CKDF", new ECMQVBasicAgreement(), new ConcatenationKDFGenerator(DigestFactory.createSHA512())); } } public static class MQVwithSHA1KDF extends KeyAgreementSpi { public MQVwithSHA1KDF() { super("ECMQVwithSHA1KDF", new ECMQVBasicAgreement(), new KDF2BytesGenerator(DigestFactory.createSHA1())); } } public static class MQVwithSHA224KDF extends KeyAgreementSpi { public MQVwithSHA224KDF() { super("ECMQVwithSHA224KDF", new ECMQVBasicAgreement(), new KDF2BytesGenerator(DigestFactory.createSHA224())); } } public static class MQVwithSHA256KDF extends KeyAgreementSpi { public MQVwithSHA256KDF() { super("ECMQVwithSHA256KDF", new ECMQVBasicAgreement(), new KDF2BytesGenerator(DigestFactory.createSHA256())); } } public static class MQVwithSHA384KDF extends KeyAgreementSpi { public MQVwithSHA384KDF() { super("ECMQVwithSHA384KDF", new ECMQVBasicAgreement(), new KDF2BytesGenerator(DigestFactory.createSHA384())); } } public static class MQVwithSHA512KDF extends KeyAgreementSpi { public MQVwithSHA512KDF() { super("ECMQVwithSHA512KDF", new ECMQVBasicAgreement(), new KDF2BytesGenerator(DigestFactory.createSHA512())); } } public static class DHUwithSHA1CKDF extends KeyAgreementSpi { public DHUwithSHA1CKDF() { super("ECCDHUwithSHA1CKDF", new ECDHCUnifiedAgreement(), new ConcatenationKDFGenerator(DigestFactory.createSHA1())); } } public static class DHUwithSHA224CKDF extends KeyAgreementSpi { public DHUwithSHA224CKDF() { super("ECCDHUwithSHA224CKDF", new ECDHCUnifiedAgreement(), new ConcatenationKDFGenerator(DigestFactory.createSHA224())); } } public static class DHUwithSHA256CKDF extends KeyAgreementSpi { public DHUwithSHA256CKDF() { super("ECCDHUwithSHA256CKDF", new ECDHCUnifiedAgreement(), new ConcatenationKDFGenerator(DigestFactory.createSHA256())); } } public static class DHUwithSHA384CKDF extends KeyAgreementSpi { public DHUwithSHA384CKDF() { super("ECCDHUwithSHA384CKDF", new ECDHCUnifiedAgreement(), new ConcatenationKDFGenerator(DigestFactory.createSHA384())); } } public static class DHUwithSHA512CKDF extends KeyAgreementSpi { public DHUwithSHA512CKDF() { super("ECCDHUwithSHA512CKDF", new ECDHCUnifiedAgreement(), new ConcatenationKDFGenerator(DigestFactory.createSHA512())); } } public static class DHUwithSHA1KDF extends KeyAgreementSpi { public DHUwithSHA1KDF() { super("ECCDHUwithSHA1KDF", new ECDHCUnifiedAgreement(), new KDF2BytesGenerator(DigestFactory.createSHA1())); } } public static class DHUwithSHA224KDF extends KeyAgreementSpi { public DHUwithSHA224KDF() { super("ECCDHUwithSHA224KDF", new ECDHCUnifiedAgreement(), new KDF2BytesGenerator(DigestFactory.createSHA224())); } } public static class DHUwithSHA256KDF extends KeyAgreementSpi { public DHUwithSHA256KDF() { super("ECCDHUwithSHA256KDF", new ECDHCUnifiedAgreement(), new KDF2BytesGenerator(DigestFactory.createSHA256())); } } public static class DHUwithSHA384KDF extends KeyAgreementSpi { public DHUwithSHA384KDF() { super("ECCDHUwithSHA384KDF", new ECDHCUnifiedAgreement(), new KDF2BytesGenerator(DigestFactory.createSHA384())); } } public static class DHUwithSHA512KDF extends KeyAgreementSpi { public DHUwithSHA512KDF() { super("ECCDHUwithSHA512KDF", new ECDHCUnifiedAgreement(), new KDF2BytesGenerator(DigestFactory.createSHA512())); } } /** * KeyAgreement according to BSI TR-03111 chapter 4.3.1 */ public static class ECKAEGwithSHA1KDF extends KeyAgreementSpi { public ECKAEGwithSHA1KDF() { super("ECKAEGwithSHA1KDF", new ECDHBasicAgreement(), new KDF2BytesGenerator(DigestFactory.createSHA1())); } } /** * KeyAgreement according to BSI TR-03111 chapter 4.3.1 */ public static class ECKAEGwithRIPEMD160KDF extends KeyAgreementSpi { public ECKAEGwithRIPEMD160KDF() { super("ECKAEGwithRIPEMD160KDF", new ECDHBasicAgreement(), new KDF2BytesGenerator(new RIPEMD160Digest())); } } /** * KeyAgreement according to BSI TR-03111 chapter 4.3.1 */ public static class ECKAEGwithSHA224KDF extends KeyAgreementSpi { public ECKAEGwithSHA224KDF() { super("ECKAEGwithSHA224KDF", new ECDHBasicAgreement(), new KDF2BytesGenerator(DigestFactory.createSHA224())); } } /** * KeyAgreement according to BSI TR-03111 chapter 4.3.1 */ public static class ECKAEGwithSHA256KDF extends KeyAgreementSpi { public ECKAEGwithSHA256KDF() { super("ECKAEGwithSHA256KDF", new ECDHBasicAgreement(), new KDF2BytesGenerator(DigestFactory.createSHA256())); } } /** * KeyAgreement according to BSI TR-03111 chapter 4.3.1 */ public static class ECKAEGwithSHA384KDF extends KeyAgreementSpi { public ECKAEGwithSHA384KDF() { super("ECKAEGwithSHA384KDF", new ECDHBasicAgreement(), new KDF2BytesGenerator(DigestFactory.createSHA384())); } } /** * KeyAgreement according to BSI TR-03111 chapter 4.3.1 */ public static class ECKAEGwithSHA512KDF extends KeyAgreementSpi { public ECKAEGwithSHA512KDF() { super("ECKAEGwithSHA512KDF", new ECDHBasicAgreement(), new KDF2BytesGenerator(DigestFactory.createSHA512())); } } }





© 2015 - 2024 Weber Informatics LLC | Privacy Policy