io.gatling.recorder.internal.bouncycastle.pqc.crypto.ntruprime.SNTRUPrimeKeyPairGenerator Maven / Gradle / Ivy
package io.gatling.recorder.internal.bouncycastle.pqc.crypto.ntruprime;
import io.gatling.recorder.internal.bouncycastle.crypto.AsymmetricCipherKeyPair;
import io.gatling.recorder.internal.bouncycastle.crypto.AsymmetricCipherKeyPairGenerator;
import io.gatling.recorder.internal.bouncycastle.crypto.KeyGenerationParameters;
import io.gatling.recorder.internal.bouncycastle.util.Arrays;
public class SNTRUPrimeKeyPairGenerator
implements AsymmetricCipherKeyPairGenerator
{
private SNTRUPrimeKeyGenerationParameters params;
public SNTRUPrimeKeyGenerationParameters getParams()
{
return params;
}
/**
* Initialize the Key Pair Generator.
*
* @param param the parameters the key pair is to be initialised with.
*/
public void init(KeyGenerationParameters param)
{
this.params = (SNTRUPrimeKeyGenerationParameters) param;
}
/**
* return an AsymmetricCipherKeyPair containing the generated keys.
*
* @return an AsymmetricCipherKeyPair containing the generated keys.
*/
public AsymmetricCipherKeyPair generateKeyPair()
{
int p = params.getSntrupParams().getP();
int q = params.getSntrupParams().getQ();
int w = params.getSntrupParams().getW();
/*
* Generate Random Small Polynomial g from R/3 until it is invertible in R/3
* Generate Inverse of Random Small Polynomial (1/g) in R/3
*/
byte[] g = new byte[p];
byte[] ginv = new byte[p];
do Utils.getRandomSmallPolynomial(params.getRandom(), g);
while (!Utils.isInvertiblePolynomialInR3(g, ginv, p));
/*
* Generate Random Short Polynomial from R/3 with weight w
* Generate Inverse of Random Short Polynomial (1/3f) in R/q
*/
byte[] f = new byte[p];
Utils.getRandomShortPolynomial(params.getRandom(), f, p, w);
short[] finv3 = new short[p];
Utils.getOneThirdInverseInRQ(finv3, f, p, q);
/*
* Compute h = g/3f in R/q
*/
short[] h = new short[p];
Utils.multiplicationInRQ(h, finv3, g, p, q);
/*
* Public Key = Encode(h)
*/
byte[] pk = new byte[params.getSntrupParams().getPublicKeyBytes()];
Utils.getEncodedPolynomial(pk, h, p, q);
SNTRUPrimePublicKeyParameters publicKey = new SNTRUPrimePublicKeyParameters(params.getSntrupParams(), pk);
/*
* Private Key = Encode(f) | Encode(1/g) | pk | Random rho | SHA-512(4|pk)
*/
byte[] encF = new byte[(p + 3) / 4];
Utils.getEncodedSmallPolynomial(encF, f, p);
byte[] encGinv = new byte[(p + 3) / 4];
Utils.getEncodedSmallPolynomial(encGinv, ginv, p);
byte[] rho = new byte[(p + 3) / 4];
params.getRandom().nextBytes(rho);
byte[] prefix = {4};
byte[] hash = Utils.getHashWithPrefix(prefix, pk);
SNTRUPrimePrivateKeyParameters privateKey = new SNTRUPrimePrivateKeyParameters(params.getSntrupParams(), encF, encGinv,
pk, rho, Arrays.copyOfRange(hash, 0, hash.length / 2));
return new AsymmetricCipherKeyPair(publicKey, privateKey);
}
}