org.bouncycastle.pqc.crypto.crystals.kyber.Poly Maven / Gradle / Ivy
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Liferay SAML OpenSAML Integration
package org.bouncycastle.pqc.crypto.crystals.kyber;
class Poly
{
private short[] coeffs;
private KyberEngine engine;
private int polyCompressedBytes;
private int eta1;
private int eta2;
private Symmetric symmetric;
public Poly(KyberEngine engine)
{
this.coeffs = new short[KyberEngine.KyberN];
this.engine = engine;
polyCompressedBytes = engine.getKyberPolyCompressedBytes();
this.eta1 = engine.getKyberEta1();
this.eta2 = KyberEngine.getKyberEta2();
this.symmetric = engine.getSymmetric();
}
public short getCoeffIndex(int i)
{
return this.coeffs[i];
}
public short[] getCoeffs()
{
return this.coeffs;
}
public void setCoeffIndex(int i, short val)
{
this.coeffs[i] = val;
}
public void setCoeffs(short[] coeffs)
{
this.coeffs = coeffs;
}
public void polyNtt()
{
this.setCoeffs(Ntt.ntt(this.getCoeffs()));
this.reduce();
}
public void polyInverseNttToMont()
{
this.setCoeffs(Ntt.invNtt(this.getCoeffs()));
}
public void reduce()
{
int i;
for (i = 0; i < KyberEngine.KyberN; i++)
{
this.setCoeffIndex(i, Reduce.barretReduce(this.getCoeffIndex(i)));
}
}
public static void baseMultMontgomery(Poly r, Poly a, Poly b)
{
int i;
for (i = 0; i < KyberEngine.KyberN / 4; i++)
{
Ntt.baseMult(r, 4 * i,
a.getCoeffIndex(4 * i), a.getCoeffIndex(4 * i + 1),
b.getCoeffIndex(4 * i), b.getCoeffIndex(4 * i + 1),
Ntt.nttZetas[64 + i]);
Ntt.baseMult(r, 4 * i + 2,
a.getCoeffIndex(4 * i + 2), a.getCoeffIndex(4 * i + 3),
b.getCoeffIndex(4 * i + 2), b.getCoeffIndex(4 * i + 3),
(short)(-1 * Ntt.nttZetas[64 + i]));
}
}
public void addCoeffs(Poly b)
{
int i;
for (i = 0; i < KyberEngine.KyberN; i++)
{
this.setCoeffIndex(i, (short)(this.getCoeffIndex(i) + b.getCoeffIndex(i)));
}
}
public void convertToMont()
{
int i;
final short f = (short)(((long)1 << 32) % KyberEngine.KyberQ);
for (i = 0; i < KyberEngine.KyberN; i++)
{
this.setCoeffIndex(i, Reduce.montgomeryReduce(this.getCoeffIndex(i) * f));
}
}
public byte[] compressPoly()
{
int i, j;
byte[] t = new byte[8];
byte[] r = new byte[polyCompressedBytes];
int count = 0;
this.conditionalSubQ();
// System.out.print("v = [");
// Helper.printShortArray(this.coeffs);
// System.out.print("]\n");
if (polyCompressedBytes == 128)
{
for (i = 0; i < KyberEngine.KyberN / 8; i++)
{
for (j = 0; j < 8; j++)
{
t[j] =
(byte)((((((short)this.getCoeffIndex(8 * i + j)) << 4)
+
(KyberEngine.KyberQ / 2)
) / KyberEngine.KyberQ)
& 15);
}
r[count + 0] = (byte)(t[0] | (t[1] << 4));
r[count + 1] = (byte)(t[2] | (t[3] << 4));
r[count + 2] = (byte)(t[4] | (t[5] << 4));
r[count + 3] = (byte)(t[6] | (t[7] << 4));
count += 4;
}
}
else if (polyCompressedBytes == 160)
{
for (i = 0; i < KyberEngine.KyberN / 8; i++)
{
for (j = 0; j < 8; j++)
{
t[j] =
(byte)(((((this.getCoeffIndex(8 * i + j) << 5))
+
(KyberEngine.KyberQ / 2)
) / KyberEngine.KyberQ
) & 31
);
}
r[count + 0] = (byte)((t[0] >> 0) | (t[1] << 5));
r[count + 1] = (byte)((t[1] >> 3) | (t[2] << 2) | (t[3] << 7));
r[count + 2] = (byte)((t[3] >> 1) | (t[4] << 4));
r[count + 3] = (byte)((t[4] >> 4) | (t[5] << 1) | (t[6] << 6));
r[count + 4] = (byte)((t[6] >> 2) | (t[7] << 3));
count += 5;
}
}
else
{
throw new RuntimeException("PolyCompressedBytes is neither 128 or 160!");
}
// System.out.print("r = ");
// Helper.printByteArray(r);
// System.out.println();
return r;
}
public void decompressPoly(byte[] compressedPolyCipherText)
{
int i, count = 0;
if (engine.getKyberPolyCompressedBytes() == 128)
{
for (i = 0; i < KyberEngine.KyberN / 2; i++)
{
this.setCoeffIndex(2 * i + 0, (short)((((short)((compressedPolyCipherText[count] & 0xFF) & 15) * KyberEngine.KyberQ) + 8) >> 4));
this.setCoeffIndex(2 * i + 1, (short)((((short)((compressedPolyCipherText[count] & 0xFF) >> 4) * KyberEngine.KyberQ) + 8) >> 4));
count += 1;
}
}
else if (engine.getKyberPolyCompressedBytes() == 160)
{
int j;
byte[] t = new byte[8];
for (i = 0; i < KyberEngine.KyberN / 8; i++)
{
t[0] = (byte)((compressedPolyCipherText[count + 0] & 0xFF) >> 0);
t[1] = (byte)(((compressedPolyCipherText[count + 0] & 0xFF) >> 5) | ((compressedPolyCipherText[count + 1] & 0xFF) << 3));
t[2] = (byte)((compressedPolyCipherText[count + 1] & 0xFF) >> 2);
t[3] = (byte)(((compressedPolyCipherText[count + 1] & 0xFF) >> 7) | ((compressedPolyCipherText[count + 2] & 0xFF) << 1));
t[4] = (byte)(((compressedPolyCipherText[count + 2] & 0xFF) >> 4) | ((compressedPolyCipherText[count + 3] & 0xFF) << 4));
t[5] = (byte)((compressedPolyCipherText[count + 3] & 0xFF) >> 1);
t[6] = (byte)(((compressedPolyCipherText[count + 3] & 0xFF) >> 6) | ((compressedPolyCipherText[count + 4] & 0xFF) << 2));
t[7] = (byte)((compressedPolyCipherText[count + 4] & 0xFF) >> 3);
count += 5;
for (j = 0; j < 8; j++)
{
this.setCoeffIndex(8 * i + j, (short)(((t[j] & 31) * KyberEngine.KyberQ + 16) >> 5));
}
}
}
else
{
throw new RuntimeException("PolyCompressedBytes is neither 128 or 160!");
}
}
public byte[] toBytes()
{
byte[] r = new byte[KyberEngine.KyberPolyBytes];
short t0, t1;
this.conditionalSubQ();
for (int i = 0; i < KyberEngine.KyberN / 2; i++)
{
t0 = this.getCoeffIndex(2 * i);
t1 = this.getCoeffIndex(2 * i + 1);
r[3 * i] = (byte)(t0 >> 0);
r[3 * i + 1] = (byte)((t0 >> 8) | (t1 << 4));
r[3 * i + 2] = (byte)(t1 >> 4);
}
return r;
}
public void fromBytes(byte[] inpBytes)
{
int i;
for (i = 0; i < KyberEngine.KyberN / 2; i++)
{
this.setCoeffIndex(2 * i, (short)(
(
((inpBytes[3 * i + 0] & 0xFF) >> 0)
| ((inpBytes[3 * i + 1] & 0xFF) << 8)
) & 0xFFF)
);
this.setCoeffIndex(2 * i + 1, (short)(
(
((inpBytes[3 * i + 1] & 0xFF) >> 4)
| (long)((inpBytes[3 * i + 2] & 0xFF) << 4)
) & 0xFFF)
);
}
}
public byte[] toMsg()
{
byte[] outMsg = new byte[KyberEngine.getKyberIndCpaMsgBytes()];
int i, j;
short t;
this.conditionalSubQ();
for (i = 0; i < KyberEngine.KyberN / 8; i++)
{
outMsg[i] = 0;
for (j = 0; j < 8; j++)
{
t = (short)(((((short)(this.getCoeffIndex(8 * i + j) << 1) + KyberEngine.KyberQ / 2) / KyberEngine.KyberQ) & 1));
outMsg[i] |= (byte)(t << j);
}
}
return outMsg;
}
public void fromMsg(byte[] msg)
{
int i, j;
short mask;
if (msg.length != KyberEngine.KyberN / 8)
{
throw new RuntimeException("KYBER_INDCPA_MSGBYTES must be equal to KYBER_N/8 bytes!");
}
for (i = 0; i < KyberEngine.KyberN / 8; i++)
{
for (j = 0; j < 8; j++)
{
mask = (short)((-1) * (short)(((msg[i] & 0xFF) >> j) & 1));
this.setCoeffIndex(8 * i + j, (short)(mask & (short)((KyberEngine.KyberQ + 1) / 2)));
}
}
}
public void conditionalSubQ()
{
int i;
for (i = 0; i < KyberEngine.KyberN; i++)
{
this.setCoeffIndex(i, Reduce.conditionalSubQ(this.getCoeffIndex(i)));
}
}
public void getEta1Noise(byte[] seed, byte nonce)
{
byte[] buf = new byte[KyberEngine.KyberN * eta1 / 4];
symmetric.prf(buf, seed, nonce);
CBD.kyberCBD(this, buf, eta1);
}
public void getEta2Noise(byte[] seed, byte nonce)
{
byte[] buf = new byte[KyberEngine.KyberN * eta2 / 4];
symmetric.prf(buf, seed, nonce);
CBD.kyberCBD(this, buf, eta2);
}
public void polySubtract(Poly b)
{
int i;
for (i = 0; i < KyberEngine.KyberN; i++)
{
this.setCoeffIndex(i, (short)(b.getCoeffIndex(i) - this.getCoeffIndex(i)));
}
}
public String toString()
{
StringBuffer out = new StringBuffer();
out.append("[");
for (int i = 0; i < coeffs.length; i++)
{
out.append(coeffs[i]);
if (i != coeffs.length - 1)
{
out.append(", ");
}
}
out.append("]");
return out.toString();
}
}