org.bouncycastle.pqc.crypto.ntruprime.SNTRUPrimeKEMGenerator Maven / Gradle / Ivy
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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.pqc.crypto.ntruprime;
import java.security.SecureRandom;
import org.bouncycastle.crypto.EncapsulatedSecretGenerator;
import org.bouncycastle.crypto.SecretWithEncapsulation;
import org.bouncycastle.crypto.params.AsymmetricKeyParameter;
import org.bouncycastle.pqc.crypto.util.SecretWithEncapsulationImpl;
import org.bouncycastle.util.Arrays;
public class SNTRUPrimeKEMGenerator
implements EncapsulatedSecretGenerator
{
private final SecureRandom random;
public SNTRUPrimeKEMGenerator(SecureRandom random)
{
this.random = random;
}
public SecretWithEncapsulation generateEncapsulated(AsymmetricKeyParameter recipientKey)
{
SNTRUPrimePublicKeyParameters publicKey = (SNTRUPrimePublicKeyParameters)recipientKey;
SNTRUPrimeParameters params = publicKey.getParameters();
int p = params.getP();
int q = params.getQ();
int w = params.getW();
int roundedPolynomialBytes = params.getRoundedPolynomialBytes();
/*
* cache = SHA-512(4|pk)
*/
byte[] cachePrefix = {4};
byte[] cache = Utils.getHashWithPrefix(cachePrefix, publicKey.getEncoded());
/*
* Generate Random Short Polynomial r
* encR = Encode(r)
*/
byte[] r = new byte[p];
Utils.getRandomShortPolynomial(random, r, p, w);
byte[] encR = new byte[(p + 3) / 4];
Utils.getEncodedSmallPolynomial(encR, r, p);
/*
* h = Decode(pk)
*/
short[] h = new short[p];
Utils.getDecodedPolynomial(h, publicKey.getEncH(), p, q);
/*
* c = Round(hr)
*/
short[] hr = new short[p];
Utils.multiplicationInRQ(hr, h, r, p, q);
short[] c = new short[p];
Utils.roundPolynomial(c, hr);
/*
* C = Encode(c)
*/
byte[] C = new byte[roundedPolynomialBytes];
Utils.getRoundedEncodedPolynomial(C, c, p, q);
/*
* hc = SHA-512(2 | SHA-512(3|encR)[0:32] | cache[0:32])
*/
byte[] innerHCPrefix = {3};
byte[] innerHCHash = Utils.getHashWithPrefix(innerHCPrefix, encR);
byte[] hcInput = new byte[(innerHCHash.length / 2) + (cache.length / 2)];
System.arraycopy(innerHCHash, 0, hcInput, 0, innerHCHash.length / 2);
System.arraycopy(cache, 0, hcInput, innerHCHash.length / 2, cache.length / 2);
byte[] hcPrefix = {2};
byte[] hc = Utils.getHashWithPrefix(hcPrefix, hcInput);
/*
* ct = C | hc[0:32]
*/
byte[] ct = new byte[C.length + (hc.length / 2)];
System.arraycopy(C, 0, ct, 0, C.length);
System.arraycopy(hc, 0, ct, C.length, hc.length / 2);
/*
* ss = SHA-512(1 | SHA-512(3|encR)[0:32] | ct)[0:32]
*/
byte[] innerSSPrefix = {3};
byte[] innerSSHash = Utils.getHashWithPrefix(innerSSPrefix, encR);
byte[] ssInput = new byte[(innerSSHash.length / 2) + ct.length];
System.arraycopy(innerSSHash, 0, ssInput, 0, innerSSHash.length / 2);
System.arraycopy(ct, 0, ssInput, innerSSHash.length / 2, ct.length);
byte[] ssPrefix = {1};
byte[] ssHash = Utils.getHashWithPrefix(ssPrefix, ssInput);
byte[] ss = Arrays.copyOfRange(ssHash, 0, params.getSessionKeySize() / 8);
return new SecretWithEncapsulationImpl(ss, ct);
}
}