what-the-bank/sources/org/bouncycastle/pqc/crypto/rainbow/RainbowKeyPairGenerator.java

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2024-07-27 18:17:47 +07:00
package org.bouncycastle.pqc.crypto.rainbow;
import java.lang.reflect.Array;
import java.security.SecureRandom;
import org.bouncycastle.crypto.AsymmetricCipherKeyPair;
import org.bouncycastle.crypto.AsymmetricCipherKeyPairGenerator;
import org.bouncycastle.crypto.KeyGenerationParameters;
import org.bouncycastle.crypto.params.AsymmetricKeyParameter;
import org.bouncycastle.pqc.crypto.rainbow.util.ComputeInField;
import org.bouncycastle.pqc.crypto.rainbow.util.GF2Field;
/* loaded from: classes6.dex */
public class RainbowKeyPairGenerator implements AsymmetricCipherKeyPairGenerator {
private short[][] A1;
private short[][] A1inv;
private short[][] A2;
private short[][] A2inv;
private short[] b1;
private short[] b2;
private boolean initialized = false;
private Layer[] layers;
private int numOfLayers;
private short[][] pub_quadratic;
private short[] pub_scalar;
private short[][] pub_singular;
private RainbowKeyGenerationParameters rainbowParams;
private SecureRandom sr;
private int[] vi;
public void initialize(KeyGenerationParameters keyGenerationParameters) {
this.rainbowParams = (RainbowKeyGenerationParameters) keyGenerationParameters;
this.sr = new SecureRandom();
this.vi = this.rainbowParams.getParameters().getVi();
this.numOfLayers = this.rainbowParams.getParameters().getNumOfLayers();
this.initialized = true;
}
@Override // org.bouncycastle.crypto.AsymmetricCipherKeyPairGenerator
public void init(KeyGenerationParameters keyGenerationParameters) {
initialize(keyGenerationParameters);
}
@Override // org.bouncycastle.crypto.AsymmetricCipherKeyPairGenerator
public AsymmetricCipherKeyPair generateKeyPair() {
return genKeyPair();
}
public AsymmetricCipherKeyPair genKeyPair() {
if (!this.initialized) {
initializeDefault();
}
keygen();
RainbowPrivateKeyParameters rainbowPrivateKeyParameters = new RainbowPrivateKeyParameters(this.A1inv, this.b1, this.A2inv, this.b2, this.vi, this.layers);
int[] iArr = this.vi;
return new AsymmetricCipherKeyPair((AsymmetricKeyParameter) new RainbowPublicKeyParameters(iArr[iArr.length - 1] - iArr[0], this.pub_quadratic, this.pub_singular, this.pub_scalar), (AsymmetricKeyParameter) rainbowPrivateKeyParameters);
}
private void keygen() {
generateL1();
generateL2();
generateF();
computePublicKey();
}
private void initializeDefault() {
initialize(new RainbowKeyGenerationParameters(new SecureRandom(), new RainbowParameters()));
}
private void generateL2() {
int i;
int i2 = this.vi[r0.length - 1];
this.A2 = (short[][]) Array.newInstance((Class<?>) Short.TYPE, i2, i2);
this.A2inv = null;
ComputeInField computeInField = new ComputeInField();
while (true) {
if (this.A2inv != null) {
break;
}
for (int i3 = 0; i3 < i2; i3++) {
for (int i4 = 0; i4 < i2; i4++) {
this.A2[i3][i4] = (short) (this.sr.nextInt() & 255);
}
}
this.A2inv = computeInField.inverse(this.A2);
}
this.b2 = new short[i2];
for (i = 0; i < i2; i++) {
this.b2[i] = (short) (this.sr.nextInt() & 255);
}
}
private void generateL1() {
int[] iArr = this.vi;
int i = iArr[iArr.length - 1] - iArr[0];
this.A1 = (short[][]) Array.newInstance((Class<?>) Short.TYPE, i, i);
this.A1inv = null;
ComputeInField computeInField = new ComputeInField();
while (this.A1inv == null) {
for (int i2 = 0; i2 < i; i2++) {
for (int i3 = 0; i3 < i; i3++) {
this.A1[i2][i3] = (short) (this.sr.nextInt() & 255);
}
}
this.A1inv = computeInField.inverse(this.A1);
}
this.b1 = new short[i];
for (int i4 = 0; i4 < i; i4++) {
this.b1[i4] = (short) (this.sr.nextInt() & 255);
}
}
private void generateF() {
this.layers = new Layer[this.numOfLayers];
int i = 0;
while (i < this.numOfLayers) {
Layer[] layerArr = this.layers;
int[] iArr = this.vi;
int i2 = i + 1;
layerArr[i] = new Layer(iArr[i], iArr[i2], this.sr);
i = i2;
}
}
private void computePublicKey() {
ComputeInField computeInField = new ComputeInField();
int[] iArr = this.vi;
int i = 0;
int i2 = iArr[iArr.length - 1] - iArr[0];
int i3 = iArr[iArr.length - 1];
short[][][] sArr = (short[][][]) Array.newInstance((Class<?>) Short.TYPE, i2, i3, i3);
this.pub_singular = (short[][]) Array.newInstance((Class<?>) Short.TYPE, i2, i3);
this.pub_scalar = new short[i2];
short[] sArr2 = new short[i3];
int i4 = 0;
int i5 = 0;
while (true) {
Layer[] layerArr = this.layers;
if (i4 >= layerArr.length) {
break;
}
short[][][] coeffAlpha = layerArr[i4].getCoeffAlpha();
short[][][] coeffBeta = this.layers[i4].getCoeffBeta();
short[][] coeffGamma = this.layers[i4].getCoeffGamma();
short[] coeffEta = this.layers[i4].getCoeffEta();
int length = coeffAlpha[i].length;
int length2 = coeffBeta[i].length;
int i6 = i;
while (i6 < length) {
int i7 = i;
while (i7 < length) {
while (i < length2) {
int i8 = i3;
int i9 = i2;
int i10 = i7 + length2;
short[] multVect = computeInField.multVect(coeffAlpha[i6][i7][i], this.A2[i10]);
int i11 = i5 + i6;
int i12 = i4;
sArr[i11] = computeInField.addSquareMatrix(sArr[i11], computeInField.multVects(multVect, this.A2[i]));
short[] multVect2 = computeInField.multVect(this.b2[i], multVect);
short[][] sArr3 = this.pub_singular;
sArr3[i11] = computeInField.addVect(multVect2, sArr3[i11]);
short[] multVect3 = computeInField.multVect(this.b2[i10], computeInField.multVect(coeffAlpha[i6][i7][i], this.A2[i]));
short[][] sArr4 = this.pub_singular;
sArr4[i11] = computeInField.addVect(multVect3, sArr4[i11]);
short multElem = GF2Field.multElem(coeffAlpha[i6][i7][i], this.b2[i10]);
short[] sArr5 = this.pub_scalar;
sArr5[i11] = GF2Field.addElem(sArr5[i11], GF2Field.multElem(multElem, this.b2[i]));
i++;
i2 = i9;
i3 = i8;
coeffAlpha = coeffAlpha;
i4 = i12;
coeffEta = coeffEta;
}
i7++;
i = 0;
}
int i13 = i3;
int i14 = i2;
int i15 = i4;
short[][][] sArr6 = coeffAlpha;
short[] sArr7 = coeffEta;
for (int i16 = 0; i16 < length2; i16++) {
for (int i17 = 0; i17 < length2; i17++) {
short[] multVect4 = computeInField.multVect(coeffBeta[i6][i16][i17], this.A2[i16]);
int i18 = i5 + i6;
sArr[i18] = computeInField.addSquareMatrix(sArr[i18], computeInField.multVects(multVect4, this.A2[i17]));
short[] multVect5 = computeInField.multVect(this.b2[i17], multVect4);
short[][] sArr8 = this.pub_singular;
sArr8[i18] = computeInField.addVect(multVect5, sArr8[i18]);
short[] multVect6 = computeInField.multVect(this.b2[i16], computeInField.multVect(coeffBeta[i6][i16][i17], this.A2[i17]));
short[][] sArr9 = this.pub_singular;
sArr9[i18] = computeInField.addVect(multVect6, sArr9[i18]);
short multElem2 = GF2Field.multElem(coeffBeta[i6][i16][i17], this.b2[i16]);
short[] sArr10 = this.pub_scalar;
sArr10[i18] = GF2Field.addElem(sArr10[i18], GF2Field.multElem(multElem2, this.b2[i17]));
}
}
for (int i19 = 0; i19 < length2 + length; i19++) {
short[] multVect7 = computeInField.multVect(coeffGamma[i6][i19], this.A2[i19]);
short[][] sArr11 = this.pub_singular;
int i20 = i5 + i6;
sArr11[i20] = computeInField.addVect(multVect7, sArr11[i20]);
short[] sArr12 = this.pub_scalar;
sArr12[i20] = GF2Field.addElem(sArr12[i20], GF2Field.multElem(coeffGamma[i6][i19], this.b2[i19]));
}
short[] sArr13 = this.pub_scalar;
int i21 = i5 + i6;
sArr13[i21] = GF2Field.addElem(sArr13[i21], sArr7[i6]);
i6++;
i2 = i14;
i3 = i13;
coeffAlpha = sArr6;
i4 = i15;
coeffEta = sArr7;
i = 0;
}
i5 += length;
i4++;
i = 0;
}
short[][][] sArr14 = (short[][][]) Array.newInstance((Class<?>) Short.TYPE, i2, i3, i3);
short[][] sArr15 = (short[][]) Array.newInstance((Class<?>) Short.TYPE, i2, i3);
short[] sArr16 = new short[i2];
for (int i22 = 0; i22 < i2; i22++) {
int i23 = 0;
while (true) {
short[][] sArr17 = this.A1;
if (i23 < sArr17.length) {
sArr14[i22] = computeInField.addSquareMatrix(sArr14[i22], computeInField.multMatrix(sArr17[i22][i23], sArr[i23]));
sArr15[i22] = computeInField.addVect(sArr15[i22], computeInField.multVect(this.A1[i22][i23], this.pub_singular[i23]));
sArr16[i22] = GF2Field.addElem(sArr16[i22], GF2Field.multElem(this.A1[i22][i23], this.pub_scalar[i23]));
i23++;
}
}
sArr16[i22] = GF2Field.addElem(sArr16[i22], this.b1[i22]);
}
this.pub_singular = sArr15;
this.pub_scalar = sArr16;
compactPublicKey(sArr14);
}
private void compactPublicKey(short[][][] sArr) {
int length = sArr.length;
int length2 = sArr[0].length;
this.pub_quadratic = (short[][]) Array.newInstance((Class<?>) Short.TYPE, length, ((length2 + 1) * length2) / 2);
for (int i = 0; i < length; i++) {
int i2 = 0;
for (int i3 = 0; i3 < length2; i3++) {
for (int i4 = i3; i4 < length2; i4++) {
short[][] sArr2 = this.pub_quadratic;
if (i4 == i3) {
sArr2[i][i2] = sArr[i][i3][i4];
} else {
short[] sArr3 = sArr2[i];
short[][] sArr4 = sArr[i];
sArr3[i2] = GF2Field.addElem(sArr4[i3][i4], sArr4[i4][i3]);
}
i2++;
}
}
}
}
}