/**
* Decompresses a compressed point P = (xp, yp) (X9.62 s 4.2.2).
*
* @param xEnc The encoding of field element xp.
* @param ypBit ~yp, an indication bit for the decompression of yp.
* @return the decompressed point.
*/
private ECPoint decompressPoint(byte[] xEnc, int ypBit) {
ECFieldElement xp =
new ECFieldElement.F2m(this.m, this.k1, this.k2, this.k3, new BigInteger(1, xEnc));
ECFieldElement yp = null;
if (xp.toBigInteger().equals(ECConstants.ZERO)) {
yp = (ECFieldElement.F2m) b;
for (int i = 0; i < m - 1; i++) {
yp = yp.square();
}
} else {
ECFieldElement beta = xp.add(a).add(b.multiply(xp.square().invert()));
ECFieldElement z = solveQuadradicEquation(beta);
if (z == null) {
throw new RuntimeException("Invalid point compression");
}
int zBit = 0;
if (z.toBigInteger().testBit(0)) {
zBit = 1;
}
if (zBit != ypBit) {
z = z.add(new ECFieldElement.F2m(this.m, this.k1, this.k2, this.k3, ECConstants.ONE));
}
yp = xp.multiply(z);
}
return new ECPoint.F2m(this, xp, yp);
}
/**
* Solves a quadratic equation <code>z<sup>2</sup> + z = beta</code>(X9.62 D.1.6) The other
* solution is <code>z + 1</code>.
*
* @param beta The value to solve the qradratic equation for.
* @return the solution for <code>z<sup>2</sup> + z = beta</code> or <code>null</code> if no
* solution exists.
*/
private ECFieldElement solveQuadradicEquation(ECFieldElement beta) {
ECFieldElement zeroElement =
new ECFieldElement.F2m(this.m, this.k1, this.k2, this.k3, ECConstants.ZERO);
if (beta.toBigInteger().equals(ECConstants.ZERO)) {
return zeroElement;
}
ECFieldElement z = null;
ECFieldElement gamma = zeroElement;
Random rand = new Random();
do {
ECFieldElement t =
new ECFieldElement.F2m(this.m, this.k1, this.k2, this.k3, new BigInteger(m, rand));
z = zeroElement;
ECFieldElement w = beta;
for (int i = 1; i <= m - 1; i++) {
ECFieldElement w2 = w.square();
z = z.square().add(w2.multiply(t));
w = w2.add(beta);
}
if (!w.toBigInteger().equals(ECConstants.ZERO)) {
return null;
}
gamma = z.square().add(z);
} while (gamma.toBigInteger().equals(ECConstants.ZERO));
return z;
}
/**
* Solves a quadratic equation <code>z<sup>2</sup> + z = beta</code>(X9.62 D.1.6) The other
* solution is <code>z + 1</code>.
*
* @param beta The value to solve the quadratic equation for.
* @return the solution for <code>z<sup>2</sup> + z = beta</code> or <code>null</code> if no
* solution exists.
*/
private ECFieldElement solveQuadraticEquation(ECFieldElement beta) {
if (beta.isZero()) {
return beta;
}
ECFieldElement zeroElement = fromBigInteger(ECConstants.ZERO);
ECFieldElement z = null;
ECFieldElement gamma = null;
Random rand = new Random();
do {
ECFieldElement t = fromBigInteger(new BigInteger(m, rand));
z = zeroElement;
ECFieldElement w = beta;
for (int i = 1; i <= m - 1; i++) {
ECFieldElement w2 = w.square();
z = z.square().add(w2.multiply(t));
w = w2.add(beta);
}
if (!w.isZero()) {
return null;
}
gamma = z.square().add(z);
} while (gamma.isZero());
return z;
}
protected ECFieldElement doubleProductFromSquares(
ECFieldElement a, ECFieldElement b, ECFieldElement aSquared, ECFieldElement bSquared) {
/*
* NOTE: If squaring in the field is faster than multiplication, then this is a quicker
* way to calculate 2.A.B, if A^2 and B^2 are already known.
*/
return a.add(b).square().subtract(aSquared).subtract(bSquared);
}
/**
* Decompresses a compressed point P = (xp, yp) (X9.62 s 4.2.2).
*
* @param yTilde ~yp, an indication bit for the decompression of yp.
* @param X1 The field element xp.
* @return the decompressed point.
*/
protected ECPoint decompressPoint(int yTilde, BigInteger X1) {
ECFieldElement xp = fromBigInteger(X1);
ECFieldElement yp = null;
if (xp.isZero()) {
yp = (ECFieldElement.F2m) b;
for (int i = 0; i < m - 1; i++) {
yp = yp.square();
}
} else {
ECFieldElement beta = xp.add(a).add(b.multiply(xp.square().invert()));
ECFieldElement z = solveQuadraticEquation(beta);
if (z == null) {
throw new IllegalArgumentException("Invalid point compression");
}
if (z.testBitZero() != (yTilde == 1)) {
z = z.addOne();
}
yp = xp.multiply(z);
switch (this.getCoordinateSystem()) {
case COORD_LAMBDA_AFFINE:
case COORD_LAMBDA_PROJECTIVE:
{
yp = yp.divide(xp).add(xp);
break;
}
default:
{
break;
}
}
}
return new ECPoint.F2m(this, xp, yp, true);
}
protected ECFieldElement two(ECFieldElement x) {
return x.add(x);
}
