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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. Note: this package includes the NTRU encryption algorithms.
package org.bouncycastle.crypto.tls;
import java.io.IOException;
import org.bouncycastle.crypto.Mac;
import org.bouncycastle.crypto.StreamCipher;
import org.bouncycastle.crypto.engines.ChaCha7539Engine;
import org.bouncycastle.crypto.macs.Poly1305;
import org.bouncycastle.crypto.params.KeyParameter;
import org.bouncycastle.crypto.params.ParametersWithIV;
import org.bouncycastle.util.Arrays;
import org.bouncycastle.util.Pack;
/**
* draft-ietf-tls-chacha20-poly1305-04
*/
public class Chacha20Poly1305 implements TlsCipher
{
private static final byte[] ZEROES = new byte[15];
protected TlsContext context;
protected ChaCha7539Engine encryptCipher, decryptCipher;
protected byte[] encryptIV, decryptIV;
public Chacha20Poly1305(TlsContext context) throws IOException
{
if (!TlsUtils.isTLSv12(context))
{
throw new TlsFatalAlert(AlertDescription.internal_error);
}
this.context = context;
int cipherKeySize = 32;
// TODO SecurityParameters.fixed_iv_length
int fixed_iv_length = 12;
// TODO SecurityParameters.record_iv_length = 0
int key_block_size = (2 * cipherKeySize) + (2 * fixed_iv_length);
byte[] key_block = TlsUtils.calculateKeyBlock(context, key_block_size);
int offset = 0;
KeyParameter client_write_key = new KeyParameter(key_block, offset, cipherKeySize);
offset += cipherKeySize;
KeyParameter server_write_key = new KeyParameter(key_block, offset, cipherKeySize);
offset += cipherKeySize;
byte[] client_write_IV = Arrays.copyOfRange(key_block, offset, offset + fixed_iv_length);
offset += fixed_iv_length;
byte[] server_write_IV = Arrays.copyOfRange(key_block, offset, offset + fixed_iv_length);
offset += fixed_iv_length;
if (offset != key_block_size)
{
throw new TlsFatalAlert(AlertDescription.internal_error);
}
this.encryptCipher = new ChaCha7539Engine();
this.decryptCipher = new ChaCha7539Engine();
KeyParameter encryptKey, decryptKey;
if (context.isServer())
{
encryptKey = server_write_key;
decryptKey = client_write_key;
this.encryptIV = server_write_IV;
this.decryptIV = client_write_IV;
}
else
{
encryptKey = client_write_key;
decryptKey = server_write_key;
this.encryptIV = client_write_IV;
this.decryptIV = server_write_IV;
}
this.encryptCipher.init(true, new ParametersWithIV(encryptKey, encryptIV));
this.decryptCipher.init(false, new ParametersWithIV(decryptKey, decryptIV));
}
public int getPlaintextLimit(int ciphertextLimit)
{
return ciphertextLimit - 16;
}
public byte[] encodePlaintext(long seqNo, short type, byte[] plaintext, int offset, int len) throws IOException
{
KeyParameter macKey = initRecord(encryptCipher, true, seqNo, encryptIV);
byte[] output = new byte[len + 16];
encryptCipher.processBytes(plaintext, offset, len, output, 0);
byte[] additionalData = getAdditionalData(seqNo, type, len);
byte[] mac = calculateRecordMAC(macKey, additionalData, output, 0, len);
System.arraycopy(mac, 0, output, len, mac.length);
return output;
}
public byte[] decodeCiphertext(long seqNo, short type, byte[] ciphertext, int offset, int len) throws IOException
{
if (getPlaintextLimit(len) < 0)
{
throw new TlsFatalAlert(AlertDescription.decode_error);
}
KeyParameter macKey = initRecord(decryptCipher, false, seqNo, decryptIV);
int plaintextLength = len - 16;
byte[] additionalData = getAdditionalData(seqNo, type, plaintextLength);
byte[] calculatedMAC = calculateRecordMAC(macKey, additionalData, ciphertext, offset, plaintextLength);
byte[] receivedMAC = Arrays.copyOfRange(ciphertext, offset + plaintextLength, offset + len);
if (!Arrays.constantTimeAreEqual(calculatedMAC, receivedMAC))
{
throw new TlsFatalAlert(AlertDescription.bad_record_mac);
}
byte[] output = new byte[plaintextLength];
decryptCipher.processBytes(ciphertext, offset, plaintextLength, output, 0);
return output;
}
protected KeyParameter initRecord(StreamCipher cipher, boolean forEncryption, long seqNo, byte[] iv)
{
byte[] nonce = calculateNonce(seqNo, iv);
cipher.init(forEncryption, new ParametersWithIV(null, nonce));
return generateRecordMACKey(cipher);
}
protected byte[] calculateNonce(long seqNo, byte[] iv)
{
byte[] nonce = new byte[12];
TlsUtils.writeUint64(seqNo, nonce, 4);
for (int i = 0; i < 12; ++i)
{
nonce[i] ^= iv[i];
}
return nonce;
}
protected KeyParameter generateRecordMACKey(StreamCipher cipher)
{
byte[] firstBlock = new byte[64];
cipher.processBytes(firstBlock, 0, firstBlock.length, firstBlock, 0);
KeyParameter macKey = new KeyParameter(firstBlock, 0, 32);
Arrays.fill(firstBlock, (byte)0);
return macKey;
}
protected byte[] calculateRecordMAC(KeyParameter macKey, byte[] additionalData, byte[] buf, int off, int len)
{
Mac mac = new Poly1305();
mac.init(macKey);
updateRecordMACText(mac, additionalData, 0, additionalData.length);
updateRecordMACText(mac, buf, off, len);
updateRecordMACLength(mac, additionalData.length);
updateRecordMACLength(mac, len);
byte[] output = new byte[mac.getMacSize()];
mac.doFinal(output, 0);
return output;
}
protected void updateRecordMACLength(Mac mac, int len)
{
byte[] longLen = Pack.longToLittleEndian(len & 0xFFFFFFFFL);
mac.update(longLen, 0, longLen.length);
}
protected void updateRecordMACText(Mac mac, byte[] buf, int off, int len)
{
mac.update(buf, off, len);
int partial = len % 16;
if (partial != 0)
{
mac.update(ZEROES, 0, 16 - partial);
}
}
protected byte[] getAdditionalData(long seqNo, short type, int len) throws IOException
{
/*
* additional_data = seq_num + TLSCompressed.type + TLSCompressed.version +
* TLSCompressed.length
*/
byte[] additional_data = new byte[13];
TlsUtils.writeUint64(seqNo, additional_data, 0);
TlsUtils.writeUint8(type, additional_data, 8);
TlsUtils.writeVersion(context.getServerVersion(), additional_data, 9);
TlsUtils.writeUint16(len, additional_data, 11);
return additional_data;
}
}