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org.bouncycastle.crypto.modes.KGCMBlockCipher Maven / Gradle / Ivy
package org.bouncycastle.crypto.modes;
import java.io.ByteArrayOutputStream;
import org.bouncycastle.crypto.BlockCipher;
import org.bouncycastle.crypto.BufferedBlockCipher;
import org.bouncycastle.crypto.CipherParameters;
import org.bouncycastle.crypto.DataLengthException;
import org.bouncycastle.crypto.InvalidCipherTextException;
import org.bouncycastle.crypto.OutputLengthException;
import org.bouncycastle.crypto.modes.kgcm.KGCMMultiplier;
import org.bouncycastle.crypto.modes.kgcm.Tables16kKGCMMultiplier_512;
import org.bouncycastle.crypto.modes.kgcm.Tables4kKGCMMultiplier_128;
import org.bouncycastle.crypto.modes.kgcm.Tables8kKGCMMultiplier_256;
import org.bouncycastle.crypto.params.AEADParameters;
import org.bouncycastle.crypto.params.KeyParameter;
import org.bouncycastle.crypto.params.ParametersWithIV;
import org.bouncycastle.util.Arrays;
import org.bouncycastle.util.Pack;
/**
* Implementation of DSTU7624 GCM mode
*/
public class KGCMBlockCipher
implements AEADBlockCipher
{
private static final int MIN_MAC_BITS = 64;
private static KGCMMultiplier createDefaultMultiplier(int blockSize)
{
switch (blockSize)
{
case 16: return new Tables4kKGCMMultiplier_128();
case 32: return new Tables8kKGCMMultiplier_256();
case 64: return new Tables16kKGCMMultiplier_512();
default: throw new IllegalArgumentException("Only 128, 256, and 512 -bit block sizes supported");
}
}
private BlockCipher engine;
private BufferedBlockCipher ctrEngine;
private int macSize;
private boolean forEncryption;
private byte[] initialAssociatedText;
private byte[] macBlock;
private byte[] iv;
private KGCMMultiplier multiplier;
private long[] b;
private final int blockSize;
private ExposedByteArrayOutputStream associatedText = new ExposedByteArrayOutputStream();
private ExposedByteArrayOutputStream data = new ExposedByteArrayOutputStream();
public KGCMBlockCipher(BlockCipher dstu7624Engine)
{
this.engine = dstu7624Engine;
this.ctrEngine = new BufferedBlockCipher(new KCTRBlockCipher(this.engine));
this.macSize = -1;
this.blockSize = engine.getBlockSize();
this.initialAssociatedText = new byte[blockSize];
this.iv = new byte[blockSize];
this.multiplier = createDefaultMultiplier(blockSize);
this.b = new long[blockSize >>> 3];
this.macBlock = null;
}
public void init(boolean forEncryption, CipherParameters params)
throws IllegalArgumentException
{
this.forEncryption = forEncryption;
KeyParameter engineParam;
if (params instanceof AEADParameters)
{
AEADParameters param = (AEADParameters)params;
byte[] iv = param.getNonce();
int diff = this.iv.length - iv.length;
Arrays.fill(this.iv, (byte)0);
System.arraycopy(iv, 0, this.iv, diff, iv.length);
initialAssociatedText = param.getAssociatedText();
int macSizeBits = param.getMacSize();
if (macSizeBits < MIN_MAC_BITS || macSizeBits > (blockSize << 3) || (macSizeBits & 7) != 0)
{
throw new IllegalArgumentException("Invalid value for MAC size: " + macSizeBits);
}
macSize = macSizeBits >>> 3;
engineParam = param.getKey();
if (initialAssociatedText != null)
{
processAADBytes(initialAssociatedText, 0, initialAssociatedText.length);
}
}
else if (params instanceof ParametersWithIV)
{
ParametersWithIV param = (ParametersWithIV)params;
byte[] iv = param.getIV();
int diff = this.iv.length - iv.length;
Arrays.fill(this.iv, (byte)0);
System.arraycopy(iv, 0, this.iv, diff, iv.length);
initialAssociatedText = null;
macSize = blockSize; // Set default mac size
engineParam = (KeyParameter)param.getParameters();
}
else
{
throw new IllegalArgumentException("Invalid parameter passed");
}
// TODO Nonce re-use check (sample code from GCMBlockCipher)
// if (forEncryption)
// {
// if (nonce != null && Arrays.areEqual(nonce, newNonce))
// {
// if (keyParam == null)
// {
// throw new IllegalArgumentException("cannot reuse nonce for GCM encryption");
// }
// if (lastKey != null && Arrays.areEqual(lastKey, keyParam.getKey()))
// {
// throw new IllegalArgumentException("cannot reuse nonce for GCM encryption");
// }
// }
// }
this.macBlock = new byte[blockSize];
ctrEngine.init(true, new ParametersWithIV(engineParam, this.iv));
engine.init(true, engineParam);
}
public String getAlgorithmName()
{
return engine.getAlgorithmName() + "/KGCM";
}
public BlockCipher getUnderlyingCipher()
{
return engine;
}
public void processAADByte(byte in)
{
associatedText.write(in);
}
public void processAADBytes(byte[] in, int inOff, int len)
{
associatedText.write(in, inOff, len);
}
private void processAAD(byte[] authText, int authOff, int len)
{
int pos = authOff, end = authOff + len;
while (pos < end)
{
xorWithInput(b, authText, pos);
multiplier.multiplyH(b);
pos += blockSize;
}
}
public int processByte(byte in, byte[] out, int outOff)
throws DataLengthException, IllegalStateException
{
data.write(in);
return 0;
}
public int processBytes(byte[] in, int inOff, int inLen, byte[] out, int outOff)
throws DataLengthException, IllegalStateException
{
if (in.length < (inOff + inLen))
{
throw new DataLengthException("input buffer too short");
}
data.write(in, inOff, inLen);
return 0;
}
public int doFinal(byte[] out, int outOff)
throws IllegalStateException, InvalidCipherTextException
{
int len = data.size();
if (!forEncryption && len < macSize)
{
throw new InvalidCipherTextException("data too short");
}
// TODO Total blocks restriction in GCM mode (extend limit naturally for larger block sizes?)
// Set up the multiplier
{
byte[] temp = new byte[blockSize];
engine.processBlock(temp, 0, temp, 0);
long[] H = new long[blockSize >>> 3];
Pack.littleEndianToLong(temp, 0, H);
multiplier.init(H);
Arrays.fill(temp, (byte)0);
Arrays.fill(H, 0L);
}
int lenAAD = associatedText.size();
if (lenAAD > 0)
{
processAAD(associatedText.getBuffer(), 0, lenAAD);
}
//use alternative cipher to produce output
int resultLen;
if (forEncryption)
{
if (out.length - outOff - macSize < len)
{
throw new OutputLengthException("Output buffer too short");
}
resultLen = ctrEngine.processBytes(data.getBuffer(), 0, len, out, outOff);
resultLen += ctrEngine.doFinal(out, outOff + resultLen);
calculateMac(out, outOff, len, lenAAD);
}
else
{
int ctLen = len - macSize;
if (out.length - outOff < ctLen)
{
throw new OutputLengthException("Output buffer too short");
}
calculateMac(data.getBuffer(), 0, ctLen, lenAAD);
resultLen = ctrEngine.processBytes(data.getBuffer(), 0, ctLen, out, outOff);
resultLen += ctrEngine.doFinal(out, outOff + resultLen);
}
if (macBlock == null)
{
throw new IllegalStateException("mac is not calculated");
}
if (forEncryption)
{
System.arraycopy(macBlock, 0, out, outOff + resultLen, macSize);
reset();
return resultLen + macSize;
}
else
{
byte[] mac = new byte[macSize];
System.arraycopy(data.getBuffer(), len - macSize, mac, 0, macSize);
byte[] calculatedMac = new byte[macSize];
System.arraycopy(macBlock, 0, calculatedMac, 0, macSize);
if (!Arrays.constantTimeAreEqual(mac, calculatedMac))
{
throw new InvalidCipherTextException("mac verification failed");
}
reset();
return resultLen;
}
}
public byte[] getMac()
{
byte[] mac = new byte[macSize];
System.arraycopy(macBlock, 0, mac, 0, macSize);
return mac;
}
public int getUpdateOutputSize(int len)
{
return 0;
}
public int getOutputSize(int len)
{
int totalData = len + data.size();
if (forEncryption)
{
return totalData + macSize;
}
return totalData < macSize ? 0 : totalData - macSize;
}
public void reset()
{
Arrays.fill(b, 0L);
engine.reset();
data.reset();
associatedText.reset();
if (initialAssociatedText != null)
{
processAADBytes(initialAssociatedText, 0, initialAssociatedText.length);
}
}
private void calculateMac(byte[] input, int inOff, int len, int lenAAD)
{
int pos = inOff, end = inOff + len;
while (pos < end)
{
xorWithInput(b, input, pos);
multiplier.multiplyH(b);
pos += blockSize;
}
long lambda_o = (lenAAD & 0xFFFFFFFFL) << 3;
long lambda_c = (len & 0xFFFFFFFFL) << 3;
// byte[] temp = new byte[blockSize];
// Pack.longToLittleEndian(lambda_o, temp, 0);
// Pack.longToLittleEndian(lambda_c, temp, blockSize / 2);
//
// xorWithInput(b, temp, 0);
b[0] ^= lambda_o;
b[blockSize >>> 4] ^= lambda_c;
macBlock = Pack.longToLittleEndian(b);
engine.processBlock(macBlock, 0, macBlock, 0);
}
private static void xorWithInput(long[] z, byte[] buf, int off)
{
for (int i = 0; i < z.length; ++i)
{
z[i] ^= Pack.littleEndianToLong(buf, off);
off += 8;
}
}
private class ExposedByteArrayOutputStream
extends ByteArrayOutputStream
{
public ExposedByteArrayOutputStream()
{
}
public byte[] getBuffer()
{
return this.buf;
}
}
}