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package io.gatling.recorder.internal.bouncycastle.crypto.signers;
import java.math.BigInteger;
import java.security.SecureRandom;
import io.gatling.recorder.internal.bouncycastle.crypto.Digest;
import io.gatling.recorder.internal.bouncycastle.crypto.macs.HMac;
import io.gatling.recorder.internal.bouncycastle.crypto.params.KeyParameter;
import io.gatling.recorder.internal.bouncycastle.util.Arrays;
import io.gatling.recorder.internal.bouncycastle.util.BigIntegers;
/**
* A deterministic K calculator based on the algorithm in section 3.2 of RFC 6979.
*/
public class HMacDSAKCalculator
implements DSAKCalculator
{
private final HMac hMac;
private final byte[] K;
private final byte[] V;
private BigInteger n;
/**
* Base constructor.
*
* @param digest digest to build the HMAC on.
*/
public HMacDSAKCalculator(Digest digest)
{
this.hMac = new HMac(digest);
int macSize = hMac.getMacSize();
this.V = new byte[macSize];
this.K = new byte[macSize];
}
public boolean isDeterministic()
{
return true;
}
public void init(BigInteger n, SecureRandom random)
{
throw new IllegalStateException("Operation not supported");
}
public void init(BigInteger n, BigInteger d, byte[] message)
{
this.n = n;
BigInteger mInt = bitsToInt(message);
if (mInt.compareTo(n) >= 0)
{
mInt = mInt.subtract(n);
}
int size = BigIntegers.getUnsignedByteLength(n);
byte[] x = BigIntegers.asUnsignedByteArray(size, d);
byte[] m = BigIntegers.asUnsignedByteArray(size, mInt);
Arrays.fill(K, (byte)0x00);
Arrays.fill(V, (byte)0x01);
hMac.init(new KeyParameter(K));
hMac.update(V, 0, V.length);
hMac.update((byte)0x00);
hMac.update(x, 0, x.length);
hMac.update(m, 0, m.length);
initAdditionalInput0(hMac);
hMac.doFinal(K, 0);
hMac.init(new KeyParameter(K));
hMac.update(V, 0, V.length);
hMac.doFinal(V, 0);
hMac.update(V, 0, V.length);
hMac.update((byte)0x01);
hMac.update(x, 0, x.length);
hMac.update(m, 0, m.length);
initAdditionalInput1(hMac);
hMac.doFinal(K, 0);
hMac.init(new KeyParameter(K));
hMac.update(V, 0, V.length);
hMac.doFinal(V, 0);
}
public BigInteger nextK()
{
byte[] t = new byte[BigIntegers.getUnsignedByteLength(n)];
for (;;)
{
int tOff = 0;
while (tOff < t.length)
{
hMac.update(V, 0, V.length);
hMac.doFinal(V, 0);
int len = Math.min(t.length - tOff, V.length);
System.arraycopy(V, 0, t, tOff, len);
tOff += len;
}
BigInteger k = bitsToInt(t);
if (k.signum() > 0 && k.compareTo(n) < 0)
{
return k;
}
hMac.update(V, 0, V.length);
hMac.update((byte)0x00);
hMac.doFinal(K, 0);
hMac.init(new KeyParameter(K));
hMac.update(V, 0, V.length);
hMac.doFinal(V, 0);
}
}
/**
* Supply additional input to HMAC_K(V || 0x00 || int2octets(x) || bits2octets(h1)).
*
* RFC 6979 3.6. Additional data may be added to the input of HMAC [..]. A use case may be a protocol that
* requires a non-deterministic signature algorithm on a system that does not have access to a
* high-quality random source. It suffices that the additional data [..] is non-repeating (e.g., a
* signature counter or a monotonic clock) to ensure "random-looking" signatures are indistinguishable, in
* a cryptographic way, from plain (EC)DSA signatures.
*
* By default there is no additional input. Override this method to supply additional input, bearing in
* mind that this calculator may be used for many signatures.
*
* @param hmac0 the {@link HMac} to which the additional input should be added.
*/
protected void initAdditionalInput0(HMac hmac0)
{
}
/**
* Supply additional input to HMAC_K(V || 0x01 || int2octets(x) || bits2octets(h1)).
*
* Refer to comments for {@link #initAdditionalInput0(HMac)}.
*
* @param hmac1 the {@link HMac} to which the additional input should be added.
*/
protected void initAdditionalInput1(HMac hmac1)
{
}
private BigInteger bitsToInt(byte[] t)
{
int blen = t.length * 8;
int qlen = n.bitLength();
BigInteger v = BigIntegers.fromUnsignedByteArray(t);
if (blen > qlen)
{
v = v.shiftRight(blen - qlen);
}
return v;
}
}
