org.bouncycastle.pqc.crypto.crystals.dilithium.Poly 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.crystals.dilithium;
import org.bouncycastle.crypto.digests.SHAKEDigest;
class Poly
{
private final int polyUniformNBlocks;
private int[] coeffs;
private final DilithiumEngine engine;
private final int dilithiumN;
private final Symmetric symmetric;
public Poly(DilithiumEngine engine)
{
this.dilithiumN = DilithiumEngine.DilithiumN;
this.coeffs = new int[dilithiumN];
this.engine = engine;
this.symmetric = engine.GetSymmetric();
this.polyUniformNBlocks = (768 + symmetric.stream128BlockBytes - 1) / symmetric.stream128BlockBytes;
}
public int getCoeffIndex(int i)
{
return this.coeffs[i];
}
public int[] getCoeffs()
{
return this.coeffs;
}
public void setCoeffIndex(int i, int val)
{
this.coeffs[i] = val;
}
public void setCoeffs(int[] coeffs)
{
this.coeffs = coeffs;
}
public void uniformBlocks(byte[] seed, short nonce)
{
int i, ctr, off,
buflen = polyUniformNBlocks * symmetric.stream128BlockBytes;
byte[] buf = new byte[buflen + 2];
symmetric.stream128init(seed, nonce);
symmetric.stream128squeezeBlocks(buf, 0, buflen);
ctr = rejectUniform(this, 0, dilithiumN, buf, buflen);
// ctr can be less than N
while (ctr < dilithiumN)
{
off = buflen % 3;
for (i = 0; i < off; ++i)
{
buf[i] = buf[buflen - off + i];
}
symmetric.stream128squeezeBlocks(buf, off, symmetric.stream128BlockBytes);
buflen = symmetric.stream128BlockBytes + off;
ctr += rejectUniform(this, ctr, dilithiumN - ctr, buf, buflen);
}
}
private static int rejectUniform(Poly outputPoly, int coeffOff, int len, byte[] inpBuf, int buflen)
{
int ctr, pos;
int t;
ctr = pos = 0;
while (ctr < len && pos + 3 <= buflen)
{
t = (inpBuf[pos++] & 0xFF);
t |= (inpBuf[pos++] & 0xFF) << 8;
t |= (inpBuf[pos++] & 0xFF) << 16;
t &= 0x7FFFFF;
if (t < DilithiumEngine.DilithiumQ)
{
outputPoly.setCoeffIndex(coeffOff + ctr, t);
ctr++;
}
}
return ctr;
}
public void uniformEta(byte[] seed, short nonce)
{
int ctr, polyUniformEtaNBlocks, eta = engine.getDilithiumEta();
if (engine.getDilithiumEta() == 2)
{
polyUniformEtaNBlocks = ((136 + symmetric.stream256BlockBytes - 1) / symmetric.stream256BlockBytes); // TODO: change with class
}
else if (engine.getDilithiumEta() == 4)
{
polyUniformEtaNBlocks = ((227 + symmetric.stream256BlockBytes - 1) / symmetric.stream256BlockBytes); // TODO: change with class
}
else
{
throw new RuntimeException("Wrong Dilithium Eta!");
}
int buflen = polyUniformEtaNBlocks * symmetric.stream256BlockBytes;
byte[] buf = new byte[buflen];
symmetric.stream256init(seed, nonce);
symmetric.stream256squeezeBlocks(buf, 0, buflen);
ctr = rejectEta(this, 0, dilithiumN, buf, buflen, eta);
while (ctr < DilithiumEngine.DilithiumN)
{
symmetric.stream256squeezeBlocks(buf, 0, symmetric.stream256BlockBytes);
ctr += rejectEta(this, ctr, dilithiumN - ctr, buf, symmetric.stream256BlockBytes, eta);
}
}
private static int rejectEta(Poly outputPoly, int coeffOff, int len, byte[] buf, int buflen, int eta)
{
int ctr, pos;
int t0, t1;
ctr = pos = 0;
while (ctr < len && pos < buflen)
{
t0 = (buf[pos] & 0xFF) & 0x0F;
t1 = (buf[pos++] & 0xFF) >> 4;
if (eta == 2)
{
if (t0 < 15)
{
t0 = t0 - (205 * t0 >> 10) * 5;
outputPoly.setCoeffIndex(coeffOff + ctr, 2 - t0);
ctr++;
}
if (t1 < 15 && ctr < len)
{
t1 = t1 - (205 * t1 >> 10) * 5;
outputPoly.setCoeffIndex(coeffOff + ctr, 2 - t1);
ctr++;
}
}
else if (eta == 4)
{
if (t0 < 9)
{
outputPoly.setCoeffIndex(coeffOff + ctr, 4 - t0);
ctr++;
}
if (t1 < 9 && ctr < len)
{
outputPoly.setCoeffIndex(coeffOff + ctr, 4 - t1);
ctr++;
}
// System.out.printf("ctr %d coeff %d\n", ctr, outputPoly.getCoeffIndex(ctr - 1));
}
}
return ctr;
}
public void polyNtt()
{
this.setCoeffs(Ntt.ntt(this.coeffs));
}
public void pointwiseMontgomery(Poly v, Poly w)
{
int i;
for (i = 0; i < dilithiumN; ++i)
{
this.setCoeffIndex(i, Reduce.montgomeryReduce((long)((long)v.getCoeffIndex(i) * (long)w.getCoeffIndex(i))));
}
}
public void pointwiseAccountMontgomery(PolyVecL u, PolyVecL v)
{
int i;
Poly t = new Poly(engine);
this.pointwiseMontgomery(u.getVectorIndex(0), v.getVectorIndex(0));
for (i = 1; i < engine.getDilithiumL(); ++i)
{
t.pointwiseMontgomery(u.getVectorIndex(i), v.getVectorIndex(i));
this.addPoly(t);
}
}
public void addPoly(Poly a)
{
int i;
for (i = 0; i < dilithiumN; i++)
{
this.setCoeffIndex(i, this.getCoeffIndex(i) + a.getCoeffIndex(i));
}
}
public void reduce()
{
for (int i = 0; i < dilithiumN; ++i)
{
this.setCoeffIndex(i, Reduce.reduce32(this.getCoeffIndex(i)));
}
}
public void invNttToMont()
{
this.setCoeffs(Ntt.invNttToMont(this.getCoeffs()));
}
public void conditionalAddQ()
{
for (int i = 0; i < dilithiumN; ++i)
{
this.setCoeffIndex(i, Reduce.conditionalAddQ(this.getCoeffIndex(i)));
}
}
public void power2Round(Poly a)
{
for (int i = 0; i < dilithiumN; ++i)
{
int[] p2r = Rounding.power2Round(this.getCoeffIndex(i));
this.setCoeffIndex(i, p2r[0]);
a.setCoeffIndex(i, p2r[1]);
}
}
public byte[] polyt1Pack()
{
byte[] out = new byte[DilithiumEngine.DilithiumPolyT1PackedBytes];
for (int i = 0; i < dilithiumN / 4; ++i)
{
out[5 * i + 0] = (byte)(this.coeffs[4 * i + 0] >> 0);
out[5 * i + 1] = (byte)((this.coeffs[4 * i + 0] >> 8) | (this.coeffs[4 * i + 1] << 2));
out[5 * i + 2] = (byte)((this.coeffs[4 * i + 1] >> 6) | (this.coeffs[4 * i + 2] << 4));
out[5 * i + 3] = (byte)((this.coeffs[4 * i + 2] >> 4) | (this.coeffs[4 * i + 3] << 6));
out[5 * i + 4] = (byte)(this.coeffs[4 * i + 3] >> 2);
}
return out;
}
public void polyt1Unpack(byte[] a)
{
int i;
for (i = 0; i < dilithiumN / 4; ++i)
{
this.setCoeffIndex(4 * i + 0, (((a[5 * i + 0] & 0xFF) >> 0) | ((int)(a[5 * i + 1] & 0xFF) << 8)) & 0x3FF);
this.setCoeffIndex(4 * i + 1, (((a[5 * i + 1] & 0xFF) >> 2) | ((int)(a[5 * i + 2] & 0xFF) << 6)) & 0x3FF);
this.setCoeffIndex(4 * i + 2, (((a[5 * i + 2] & 0xFF) >> 4) | ((int)(a[5 * i + 3] & 0xFF) << 4)) & 0x3FF);
this.setCoeffIndex(4 * i + 3, (((a[5 * i + 3] & 0xFF) >> 6) | ((int)(a[5 * i + 4] & 0xFF) << 2)) & 0x3FF);
}
}
public byte[] polyEtaPack(byte[] out, int outOff)
{
int i;
byte[] t = new byte[8];
if (engine.getDilithiumEta() == 2)
{
for (i = 0; i < dilithiumN / 8; ++i)
{
t[0] = (byte)(engine.getDilithiumEta() - this.getCoeffIndex(8 * i + 0));
t[1] = (byte)(engine.getDilithiumEta() - this.getCoeffIndex(8 * i + 1));
t[2] = (byte)(engine.getDilithiumEta() - this.getCoeffIndex(8 * i + 2));
t[3] = (byte)(engine.getDilithiumEta() - this.getCoeffIndex(8 * i + 3));
t[4] = (byte)(engine.getDilithiumEta() - this.getCoeffIndex(8 * i + 4));
t[5] = (byte)(engine.getDilithiumEta() - this.getCoeffIndex(8 * i + 5));
t[6] = (byte)(engine.getDilithiumEta() - this.getCoeffIndex(8 * i + 6));
t[7] = (byte)(engine.getDilithiumEta() - this.getCoeffIndex(8 * i + 7));
out[outOff + 3 * i + 0] = (byte)((t[0] >> 0) | (t[1] << 3) | (t[2] << 6));
out[outOff + 3 * i + 1] = (byte)((t[2] >> 2) | (t[3] << 1) | (t[4] << 4) | (t[5] << 7));
out[outOff + 3 * i + 2] = (byte)((t[5] >> 1) | (t[6] << 2) | (t[7] << 5));
}
}
else if (engine.getDilithiumEta() == 4)
{
for (i = 0; i < dilithiumN / 2; ++i)
{
t[0] = (byte)(engine.getDilithiumEta() - this.getCoeffIndex(2 * i + 0));
t[1] = (byte)(engine.getDilithiumEta() - this.getCoeffIndex(2 * i + 1));
out[outOff + i] = (byte)(t[0] | t[1] << 4);
}
}
else
{
throw new RuntimeException("Eta needs to be 2 or 4!");
}
return out;
}
public void polyEtaUnpack(byte[] a, int aOff)
{
int i, eta = engine.getDilithiumEta();
if (engine.getDilithiumEta() == 2)
{
for (i = 0; i < dilithiumN / 8; ++i)
{
int base = aOff + 3 * i;
this.setCoeffIndex(8 * i + 0, (((a[base + 0] & 0xFF) >> 0)) & 7);
this.setCoeffIndex(8 * i + 1, (((a[base + 0] & 0xFF) >> 3)) & 7);
this.setCoeffIndex(8 * i + 2, ((a[base + 0] & 0xFF) >> 6) | ((a[base + 1] & 0xFF) << 2) & 7);
this.setCoeffIndex(8 * i + 3, (((a[base + 1] & 0xFF) >> 1)) & 7);
this.setCoeffIndex(8 * i + 4, (((a[base + 1] & 0xFF) >> 4)) & 7);
this.setCoeffIndex(8 * i + 5, ((a[base + 1] & 0xFF) >> 7) | ((a[base + 2] & 0xFF) << 1) & 7);
this.setCoeffIndex(8 * i + 6, (((a[base + 2] & 0xFF) >> 2)) & 7);
this.setCoeffIndex(8 * i + 7, (((a[base + 2] & 0xFF) >> 5)) & 7);
this.setCoeffIndex(8 * i + 0, eta - this.getCoeffIndex(8 * i + 0));
this.setCoeffIndex(8 * i + 1, eta - this.getCoeffIndex(8 * i + 1));
this.setCoeffIndex(8 * i + 2, eta - this.getCoeffIndex(8 * i + 2));
this.setCoeffIndex(8 * i + 3, eta - this.getCoeffIndex(8 * i + 3));
this.setCoeffIndex(8 * i + 4, eta - this.getCoeffIndex(8 * i + 4));
this.setCoeffIndex(8 * i + 5, eta - this.getCoeffIndex(8 * i + 5));
this.setCoeffIndex(8 * i + 6, eta - this.getCoeffIndex(8 * i + 6));
this.setCoeffIndex(8 * i + 7, eta - this.getCoeffIndex(8 * i + 7));
}
}
else if (engine.getDilithiumEta() == 4)
{
for (i = 0; i < dilithiumN / 2; ++i)
{
this.setCoeffIndex(2 * i + 0, a[aOff + i] & 0x0F);
this.setCoeffIndex(2 * i + 1, (a[aOff + i] & 0xFF) >> 4);
this.setCoeffIndex(2 * i + 0, eta - this.getCoeffIndex(2 * i + 0));
this.setCoeffIndex(2 * i + 1, eta - this.getCoeffIndex(2 * i + 1));
}
}
}
public byte[] polyt0Pack(byte[] out, int outOff)
{
int i;
int[] t = new int[8];
for (i = 0; i < dilithiumN / 8; ++i)
{
t[0] = (1 << (DilithiumEngine.DilithiumD - 1)) - this.getCoeffIndex(8 * i + 0);
t[1] = (1 << (DilithiumEngine.DilithiumD - 1)) - this.getCoeffIndex(8 * i + 1);
t[2] = (1 << (DilithiumEngine.DilithiumD - 1)) - this.getCoeffIndex(8 * i + 2);
t[3] = (1 << (DilithiumEngine.DilithiumD - 1)) - this.getCoeffIndex(8 * i + 3);
t[4] = (1 << (DilithiumEngine.DilithiumD - 1)) - this.getCoeffIndex(8 * i + 4);
t[5] = (1 << (DilithiumEngine.DilithiumD - 1)) - this.getCoeffIndex(8 * i + 5);
t[6] = (1 << (DilithiumEngine.DilithiumD - 1)) - this.getCoeffIndex(8 * i + 6);
t[7] = (1 << (DilithiumEngine.DilithiumD - 1)) - this.getCoeffIndex(8 * i + 7);
int base = outOff + 13 * i;
out[base + 0] = (byte)(t[0]);
out[base + 1] = (byte)(t[0] >> 8);
out[base + 1] = (byte)(out[base + 1] | (byte)(t[1] << 5));
out[base + 2] = (byte)(t[1] >> 3);
out[base + 3] = (byte)(t[1] >> 11);
out[base + 3] = (byte)(out[base + 3] | (byte)(t[2] << 2));
out[base + 4] = (byte)(t[2] >> 6);
out[base + 4] = (byte)(out[base + 4] | (byte)(t[3] << 7));
out[base + 5] = (byte)(t[3] >> 1);
out[base + 6] = (byte)(t[3] >> 9);
out[base + 6] = (byte)(out[base + 6] | (byte)(t[4] << 4));
out[base + 7] = (byte)(t[4] >> 4);
out[base + 8] = (byte)(t[4] >> 12);
out[base + 8] = (byte)(out[base + 8] | (byte)(t[5] << 1));
out[base + 9] = (byte)(t[5] >> 7);
out[base + 9] = (byte)(out[base + 9] | (byte)(t[6] << 6));
out[base + 10] = (byte)(t[6] >> 2);
out[base + 11] = (byte)(t[6] >> 10);
out[base + 11] = (byte)(out[base + 11] | (byte)(t[7] << 3));
out[base + 12] = (byte)(t[7] >> 5);
}
return out;
}
public void polyt0Unpack(byte[] a, int aOff)
{
int i;
for (i = 0; i < dilithiumN / 8; ++i)
{
int base = aOff + 13 * i;
this.setCoeffIndex(8 * i + 0,
(
(a[base + 0] & 0xFF) |
((a[base + 1] & 0xFF) << 8)
) & 0x1FFF);
this.setCoeffIndex(8 * i + 1,
(
(((a[base + 1] & 0xFF) >> 5) |
((a[base + 2] & 0xFF) << 3)) |
((a[base + 3] & 0xFF) << 11)
) & 0x1FFF);
this.setCoeffIndex(8 * i + 2,
(
(((a[base + 3] & 0xFF) >> 2) |
((a[base + 4] & 0xFF) << 6))
) & 0x1FFF);
this.setCoeffIndex(8 * i + 3,
(
(((a[base + 4] & 0xFF) >> 7) |
((a[base + 5] & 0xFF) << 1)) |
((a[base + 6] & 0xFF) << 9)
) & 0x1FFF);
this.setCoeffIndex(8 * i + 4,
(
(((a[base + 6] & 0xFF) >> 4) |
((a[base + 7] & 0xFF) << 4)) |
((a[base + 8] & 0xFF) << 12)
) & 0x1FFF);
this.setCoeffIndex(8 * i + 5,
(
(((a[base + 8] & 0xFF) >> 1) |
((a[base + 9] & 0xFF) << 7))
) & 0x1FFF);
this.setCoeffIndex(8 * i + 6,
(
(((a[base + 9] & 0xFF) >> 6) |
((a[base + 10] & 0xFF) << 2)) |
((a[base + 11] & 0xFF) << 10)
) & 0x1FFF);
this.setCoeffIndex(8 * i + 7,
(
((a[base + 11] & 0xFF) >> 3 |
((a[base + 12] & 0xFF) << 5))
) & 0x1FFF);
this.setCoeffIndex(8 * i + 0, ((1 << (DilithiumEngine.DilithiumD - 1)) - this.getCoeffIndex(8 * i + 0)));
this.setCoeffIndex(8 * i + 1, ((1 << (DilithiumEngine.DilithiumD - 1)) - this.getCoeffIndex(8 * i + 1)));
this.setCoeffIndex(8 * i + 2, ((1 << (DilithiumEngine.DilithiumD - 1)) - this.getCoeffIndex(8 * i + 2)));
this.setCoeffIndex(8 * i + 3, ((1 << (DilithiumEngine.DilithiumD - 1)) - this.getCoeffIndex(8 * i + 3)));
this.setCoeffIndex(8 * i + 4, ((1 << (DilithiumEngine.DilithiumD - 1)) - this.getCoeffIndex(8 * i + 4)));
this.setCoeffIndex(8 * i + 5, ((1 << (DilithiumEngine.DilithiumD - 1)) - this.getCoeffIndex(8 * i + 5)));
this.setCoeffIndex(8 * i + 6, ((1 << (DilithiumEngine.DilithiumD - 1)) - this.getCoeffIndex(8 * i + 6)));
this.setCoeffIndex(8 * i + 7, ((1 << (DilithiumEngine.DilithiumD - 1)) - this.getCoeffIndex(8 * i + 7)));
}
}
public void uniformGamma1(byte[] seed, short nonce)
{
byte[] buf = new byte[engine.getPolyUniformGamma1NBlocks() * symmetric.stream256BlockBytes];
symmetric.stream256init(seed, nonce);
symmetric.stream256squeezeBlocks(buf, 0, engine.getPolyUniformGamma1NBlocks() * symmetric.stream256BlockBytes);// todo this is final
this.unpackZ(buf);
}
private void unpackZ(byte[] a)
{
int i;
if (engine.getDilithiumGamma1() == (1 << 17))
{
for (i = 0; i < dilithiumN / 4; ++i)
{
this.setCoeffIndex(4 * i + 0,
(
(((a[9 * i + 0] & 0xFF)) |
((a[9 * i + 1] & 0xFF) << 8)) |
((a[9 * i + 2] & 0xFF) << 16)
) & 0x3FFFF);
this.setCoeffIndex(4 * i + 1,
(
(((a[9 * i + 2] & 0xFF) >> 2) |
((a[9 * i + 3] & 0xFF) << 6)) |
((a[9 * i + 4] & 0xFF) << 14)
) & 0x3FFFF);
this.setCoeffIndex(4 * i + 2,
(
(((a[9 * i + 4] & 0xFF) >> 4) |
((a[9 * i + 5] & 0xFF) << 4)) |
((a[9 * i + 6] & 0xFF) << 12)
) & 0x3FFFF);
this.setCoeffIndex(4 * i + 3,
(
(((a[9 * i + 6] & 0xFF) >> 6) |
((a[9 * i + 7] & 0xFF) << 2)) |
((a[9 * i + 8] & 0xFF) << 10)
) & 0x3FFFF);
this.setCoeffIndex(4 * i + 0, engine.getDilithiumGamma1() - this.getCoeffIndex(4 * i + 0));
this.setCoeffIndex(4 * i + 1, engine.getDilithiumGamma1() - this.getCoeffIndex(4 * i + 1));
this.setCoeffIndex(4 * i + 2, engine.getDilithiumGamma1() - this.getCoeffIndex(4 * i + 2));
this.setCoeffIndex(4 * i + 3, engine.getDilithiumGamma1() - this.getCoeffIndex(4 * i + 3));
}
}
else if (engine.getDilithiumGamma1() == (1 << 19))
{
for (i = 0; i < dilithiumN / 2; ++i)
{
this.setCoeffIndex(2 * i + 0,
(
(((a[5 * i + 0] & 0xFF)) |
((a[5 * i + 1] & 0xFF) << 8)) |
((a[5 * i + 2] & 0xFF) << 16)
) & 0xFFFFF);
this.setCoeffIndex(2 * i + 1,
(
(((a[5 * i + 2] & 0xFF) >> 4) |
((a[5 * i + 3] & 0xFF) << 4)) |
((a[5 * i + 4] & 0xFF) << 12)
) & 0xFFFFF);
this.setCoeffIndex(2 * i + 0, engine.getDilithiumGamma1() - this.getCoeffIndex(2 * i + 0));
this.setCoeffIndex(2 * i + 1, engine.getDilithiumGamma1() - this.getCoeffIndex(2 * i + 1));
}
}
else
{
throw new RuntimeException("Wrong Dilithiumn Gamma1!");
}
}
public void decompose(Poly a)
{
int i;
for (i = 0; i < dilithiumN; ++i)
{
int[] decomp = Rounding.decompose(this.getCoeffIndex(i), engine.getDilithiumGamma2());
this.setCoeffIndex(i, decomp[1]);
a.setCoeffIndex(i, decomp[0]);
}
}
public byte[] w1Pack()
{
int i;
byte[] out = new byte[engine.getDilithiumPolyW1PackedBytes()];
if (engine.getDilithiumGamma2() == (DilithiumEngine.DilithiumQ - 1) / 88)
{
for (i = 0; i < dilithiumN / 4; ++i)
{
out[3 * i + 0] = (byte)(((byte)this.getCoeffIndex(4 * i + 0)) | (this.getCoeffIndex(4 * i + 1) << 6));
out[3 * i + 1] = (byte)((byte)(this.getCoeffIndex(4 * i + 1) >> 2) | (this.getCoeffIndex(4 * i + 2) << 4));
out[3 * i + 2] = (byte)((byte)(this.getCoeffIndex(4 * i + 2) >> 4) | (this.getCoeffIndex(4 * i + 3) << 2));
}
}
else if (engine.getDilithiumGamma2() == (DilithiumEngine.DilithiumQ - 1) / 32)
{
for (i = 0; i < dilithiumN / 2; ++i)
{
out[i] = (byte)(this.getCoeffIndex(2 * i + 0) | (this.getCoeffIndex(2 * i + 1) << 4));
}
}
return out;
}
public void challenge(byte[] seed)
{
int i, b = 0, pos;
long signs;
byte[] buf = new byte[symmetric.stream256BlockBytes];
SHAKEDigest shake256Digest = new SHAKEDigest(256);
shake256Digest.update(seed, 0, DilithiumEngine.SeedBytes);
shake256Digest.doOutput(buf, 0, symmetric.stream256BlockBytes);
signs = (long)0;
for (i = 0; i < 8; ++i)
{
signs |= (long)(buf[i] & 0xFF) << 8 * i;
}
pos = 8;
for (i = 0; i < dilithiumN; ++i)
{
this.setCoeffIndex(i, 0);
}
for (i = dilithiumN - engine.getDilithiumTau(); i < dilithiumN; ++i)
{
do
{
if (pos >= symmetric.stream256BlockBytes)
{
shake256Digest.doOutput(buf, 0, symmetric.stream256BlockBytes);
pos = 0;
}
b = (buf[pos++] & 0xFF);
}
while (b > i);
this.setCoeffIndex(i, this.getCoeffIndex(b));
this.setCoeffIndex(b, (int)(1 - 2 * (signs & 1)));
signs = (long)(signs >> 1);
}
}
public boolean checkNorm(int B)
{
int i, t;
if (B > (DilithiumEngine.DilithiumQ - 1) / 8)
{
return true;
}
for (i = 0; i < dilithiumN; ++i)
{
t = this.getCoeffIndex(i) >> 31;
t = this.getCoeffIndex(i) - (t & 2 * this.getCoeffIndex(i));
if (t >= B)
{
return true;
}
}
return false;
}
public void subtract(Poly inpPoly)
{
for (int i = 0; i < dilithiumN; ++i)
{
this.setCoeffIndex(i, this.getCoeffIndex(i) - inpPoly.getCoeffIndex(i));
}
}
public int polyMakeHint(Poly a0, Poly a1)
{
int i, s = 0;
for (i = 0; i < dilithiumN; ++i)
{
this.setCoeffIndex(i, Rounding.makeHint(a0.getCoeffIndex(i), a1.getCoeffIndex(i), engine));
s += this.getCoeffIndex(i);
}
return s;
}
public void polyUseHint(Poly a, Poly h)
{
for (int i = 0; i < dilithiumN; ++i)
{
this.setCoeffIndex(i, Rounding.useHint(a.getCoeffIndex(i), h.getCoeffIndex(i), engine.getDilithiumGamma2()));
}
}
public byte[] zPack()
{
byte[] outBytes = new byte[engine.getDilithiumPolyZPackedBytes()];
int i;
int[] t = new int[4];
if (engine.getDilithiumGamma1() == (1 << 17))
{
for (i = 0; i < dilithiumN / 4; ++i)
{
t[0] = engine.getDilithiumGamma1() - this.getCoeffIndex(4 * i + 0);
t[1] = engine.getDilithiumGamma1() - this.getCoeffIndex(4 * i + 1);
t[2] = engine.getDilithiumGamma1() - this.getCoeffIndex(4 * i + 2);
t[3] = engine.getDilithiumGamma1() - this.getCoeffIndex(4 * i + 3);
outBytes[9 * i + 0] = (byte)t[0];
outBytes[9 * i + 1] = (byte)(t[0] >> 8);
outBytes[9 * i + 2] = (byte)((byte)(t[0] >> 16) | (t[1] << 2));
outBytes[9 * i + 3] = (byte)(t[1] >> 6);
outBytes[9 * i + 4] = (byte)((byte)(t[1] >> 14) | (t[2] << 4));
outBytes[9 * i + 5] = (byte)(t[2] >> 4);
outBytes[9 * i + 6] = (byte)((byte)(t[2] >> 12) | (t[3] << 6));
outBytes[9 * i + 7] = (byte)(t[3] >> 2);
outBytes[9 * i + 8] = (byte)(t[3] >> 10);
}
}
else if (engine.getDilithiumGamma1() == (1 << 19))
{
for (i = 0; i < dilithiumN / 2; ++i)
{
t[0] = engine.getDilithiumGamma1() - this.getCoeffIndex(2 * i + 0);
t[1] = engine.getDilithiumGamma1() - this.getCoeffIndex(2 * i + 1);
outBytes[5 * i + 0] = (byte)t[0];
outBytes[5 * i + 1] = (byte)(t[0] >> 8);
outBytes[5 * i + 2] = (byte)((byte)(t[0] >> 16) | (t[1] << 4));
outBytes[5 * i + 3] = (byte)(t[1] >> 4);
outBytes[5 * i + 4] = (byte)(t[1] >> 12);
}
}
else
{
throw new RuntimeException("Wrong Dilithium Gamma1!");
}
return outBytes;
}
void zUnpack(byte[] a)
{
int i;
if (engine.getDilithiumGamma1() == (1 << 17))
{
for (i = 0; i < dilithiumN / 4; ++i)
{
this.setCoeffIndex(4 * i + 0,
(((int)(a[9 * i + 0] & 0xFF)
| (int)((a[9 * i + 1] & 0xFF) << 8))
| (int)((a[9 * i + 2] & 0xFF) << 16))
& 0x3FFFF);
this.setCoeffIndex(4 * i + 1,
(((int)((a[9 * i + 2] & 0xFF) >>> 2)
| (int)((a[9 * i + 3] & 0xFF) << 6))
| (int)((a[9 * i + 4] & 0xFF) << 14))
& 0x3FFFF);
this.setCoeffIndex(4 * i + 2,
(((int)((a[9 * i + 4] & 0xFF) >>> 4)
| (int)((a[9 * i + 5] & 0xFF) << 4))
| (int)((a[9 * i + 6] & 0xFF) << 12))
& 0x3FFFF);
this.setCoeffIndex(4 * i + 3,
(((int)((a[9 * i + 6] & 0xFF) >>> 6)
| (int)((a[9 * i + 7] & 0xFF) << 2))
| (int)((a[9 * i + 8] & 0xFF) << 10))
& 0x3FFFF);
this.setCoeffIndex(4 * i + 0, engine.getDilithiumGamma1() - this.getCoeffIndex(4 * i + 0));
this.setCoeffIndex(4 * i + 1, engine.getDilithiumGamma1() - this.getCoeffIndex(4 * i + 1));
this.setCoeffIndex(4 * i + 2, engine.getDilithiumGamma1() - this.getCoeffIndex(4 * i + 2));
this.setCoeffIndex(4 * i + 3, engine.getDilithiumGamma1() - this.getCoeffIndex(4 * i + 3));
}
}
else if (engine.getDilithiumGamma1() == (1 << 19))
{
for (i = 0; i < dilithiumN / 2; ++i)
{
this.setCoeffIndex(2 * i + 0,
(int)(((((int)(a[5 * i + 0] & 0xFF))
| (int)((a[5 * i + 1] & 0xFF) << 8))
| (int)((a[5 * i + 2] & 0xFF) << 16))
& 0xFFFFF)
);
this.setCoeffIndex(2 * i + 1,
(int)(((((int)((a[5 * i + 2] & 0xFF) >>> 4))
| (int)((a[5 * i + 3] & 0xFF) << 4))
| (int)((a[5 * i + 4] & 0xFF) << 12))
& 0xFFFFF)
);
this.setCoeffIndex(2 * i + 0, engine.getDilithiumGamma1() - this.getCoeffIndex(2 * i + 0));
this.setCoeffIndex(2 * i + 1, engine.getDilithiumGamma1() - this.getCoeffIndex(2 * i + 1));
}
}
else
{
throw new RuntimeException("Wrong Dilithium Gamma1!");
}
}
public void shiftLeft()
{
for (int i = 0; i < dilithiumN; ++i)
{
this.setCoeffIndex(i, this.getCoeffIndex(i) << DilithiumEngine.DilithiumD);
}
}
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();
}
}
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