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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.crypto.tls;
import java.io.IOException;
import java.io.InputStream;
import java.util.Vector;
import org.bouncycastle.crypto.Digest;
import org.bouncycastle.crypto.Signer;
import org.bouncycastle.crypto.params.ECDomainParameters;
import org.bouncycastle.util.io.TeeInputStream;
/**
* (D)TLS ECDHE key exchange (see RFC 4492).
*
* @deprecated Migrate to the (D)TLS API in org.bouncycastle.tls (bctls jar).
*/
public class TlsECDHEKeyExchange
extends TlsECDHKeyExchange
{
protected TlsSignerCredentials serverCredentials = null;
public TlsECDHEKeyExchange(int keyExchange, Vector supportedSignatureAlgorithms, int[] namedCurves,
short[] clientECPointFormats, short[] serverECPointFormats)
{
super(keyExchange, supportedSignatureAlgorithms, namedCurves, clientECPointFormats, serverECPointFormats);
}
public void processServerCredentials(TlsCredentials serverCredentials)
throws IOException
{
if (!(serverCredentials instanceof TlsSignerCredentials))
{
throw new TlsFatalAlert(AlertDescription.internal_error);
}
processServerCertificate(serverCredentials.getCertificate());
this.serverCredentials = (TlsSignerCredentials)serverCredentials;
}
public byte[] generateServerKeyExchange()
throws IOException
{
DigestInputBuffer buf = new DigestInputBuffer();
this.ecAgreePrivateKey = TlsECCUtils.generateEphemeralServerKeyExchange(context.getSecureRandom(), namedCurves,
clientECPointFormats, buf);
/*
* RFC 5246 4.7. digitally-signed element needs SignatureAndHashAlgorithm from TLS 1.2
*/
SignatureAndHashAlgorithm signatureAndHashAlgorithm = TlsUtils.getSignatureAndHashAlgorithm(
context, serverCredentials);
Digest d = TlsUtils.createHash(signatureAndHashAlgorithm);
SecurityParameters securityParameters = context.getSecurityParameters();
d.update(securityParameters.clientRandom, 0, securityParameters.clientRandom.length);
d.update(securityParameters.serverRandom, 0, securityParameters.serverRandom.length);
buf.updateDigest(d);
byte[] hash = new byte[d.getDigestSize()];
d.doFinal(hash, 0);
byte[] signature = serverCredentials.generateCertificateSignature(hash);
DigitallySigned signed_params = new DigitallySigned(signatureAndHashAlgorithm, signature);
signed_params.encode(buf);
return buf.toByteArray();
}
public void processServerKeyExchange(InputStream input)
throws IOException
{
SecurityParameters securityParameters = context.getSecurityParameters();
SignerInputBuffer buf = new SignerInputBuffer();
InputStream teeIn = new TeeInputStream(input, buf);
ECDomainParameters curve_params = TlsECCUtils.readECParameters(namedCurves, clientECPointFormats, teeIn);
byte[] point = TlsUtils.readOpaque8(teeIn);
DigitallySigned signed_params = parseSignature(input);
Signer signer = initVerifyer(tlsSigner, signed_params.getAlgorithm(), securityParameters);
buf.updateSigner(signer);
if (!signer.verifySignature(signed_params.getSignature()))
{
throw new TlsFatalAlert(AlertDescription.decrypt_error);
}
this.ecAgreePublicKey = TlsECCUtils.validateECPublicKey(TlsECCUtils.deserializeECPublicKey(
clientECPointFormats, curve_params, point));
}
public void validateCertificateRequest(CertificateRequest certificateRequest)
throws IOException
{
/*
* RFC 4492 3. [...] The ECDSA_fixed_ECDH and RSA_fixed_ECDH mechanisms are usable with
* ECDH_ECDSA and ECDH_RSA. Their use with ECDHE_ECDSA and ECDHE_RSA is prohibited because
* the use of a long-term ECDH client key would jeopardize the forward secrecy property of
* these algorithms.
*/
short[] types = certificateRequest.getCertificateTypes();
for (int i = 0; i < types.length; ++i)
{
switch (types[i])
{
case ClientCertificateType.rsa_sign:
case ClientCertificateType.dss_sign:
case ClientCertificateType.ecdsa_sign:
break;
default:
throw new TlsFatalAlert(AlertDescription.illegal_parameter);
}
}
}
public void processClientCredentials(TlsCredentials clientCredentials)
throws IOException
{
if (clientCredentials instanceof TlsSignerCredentials)
{
// OK
}
else
{
throw new TlsFatalAlert(AlertDescription.internal_error);
}
}
protected Signer initVerifyer(TlsSigner tlsSigner, SignatureAndHashAlgorithm algorithm, SecurityParameters securityParameters)
{
Signer signer = tlsSigner.createVerifyer(algorithm, this.serverPublicKey);
signer.update(securityParameters.clientRandom, 0, securityParameters.clientRandom.length);
signer.update(securityParameters.serverRandom, 0, securityParameters.serverRandom.length);
return signer;
}
}
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