what-the-bank/sources/org/bouncycastle/pqc/math/linearalgebra/GF2nONBField.java

292 lines
9.9 KiB
Java

package org.bouncycastle.pqc.math.linearalgebra;
import java.lang.reflect.Array;
import java.security.SecureRandom;
import java.util.Random;
/* loaded from: classes6.dex */
public class GF2nONBField extends GF2nField {
private static final int MAXLONG = 64;
private int mBit;
private int mLength;
int[][] mMult;
private int mType;
int[][] invMatrix(int[][] iArr) {
int[][] iArr2 = (int[][]) Array.newInstance((Class<?>) Integer.TYPE, this.mDegree, this.mDegree);
for (int i = 0; i < this.mDegree; i++) {
iArr2[i][i] = 1;
}
for (int i2 = 0; i2 < this.mDegree; i2++) {
for (int i3 = i2; i3 < this.mDegree; i3++) {
iArr[(this.mDegree - 1) - i2][i3] = iArr[i2][i2];
}
}
return null;
}
@Override // org.bouncycastle.pqc.math.linearalgebra.GF2nField
protected GF2nElement getRandomRoot(GF2Polynomial gF2Polynomial) {
GF2nPolynomial gcd;
int degree;
int degree2;
GF2nPolynomial gF2nPolynomial = new GF2nPolynomial(gF2Polynomial, this);
while (gF2nPolynomial.getDegree() > 1) {
while (true) {
GF2nONBElement gF2nONBElement = new GF2nONBElement(this, this.random);
GF2nPolynomial gF2nPolynomial2 = new GF2nPolynomial(2, GF2nONBElement.ZERO(this));
gF2nPolynomial2.set(1, gF2nONBElement);
GF2nPolynomial gF2nPolynomial3 = new GF2nPolynomial(gF2nPolynomial2);
for (int i = 1; i <= this.mDegree - 1; i++) {
gF2nPolynomial3 = gF2nPolynomial3.multiplyAndReduce(gF2nPolynomial3, gF2nPolynomial).add(gF2nPolynomial2);
}
gcd = gF2nPolynomial3.gcd(gF2nPolynomial);
degree = gcd.getDegree();
degree2 = gF2nPolynomial.getDegree();
if (degree != 0 && degree != degree2) {
break;
}
}
gF2nPolynomial = (degree << 1) > degree2 ? gF2nPolynomial.quotient(gcd) : new GF2nPolynomial(gcd);
}
return gF2nPolynomial.at(0);
}
/* JADX INFO: Access modifiers changed from: package-private */
public int getONBLength() {
return this.mLength;
}
/* JADX INFO: Access modifiers changed from: package-private */
public int getONBBit() {
return this.mBit;
}
@Override // org.bouncycastle.pqc.math.linearalgebra.GF2nField
protected void computeFieldPolynomial() {
GF2Polynomial gF2Polynomial;
int i = this.mType;
if (i == 1) {
gF2Polynomial = new GF2Polynomial(this.mDegree + 1, "ALL");
} else {
if (i != 2) {
return;
}
GF2Polynomial gF2Polynomial2 = new GF2Polynomial(this.mDegree + 1, "ONE");
GF2Polynomial gF2Polynomial3 = new GF2Polynomial(this.mDegree + 1, "X");
gF2Polynomial3.addToThis(gF2Polynomial2);
GF2Polynomial gF2Polynomial4 = gF2Polynomial2;
gF2Polynomial = gF2Polynomial3;
int i2 = 1;
while (i2 < this.mDegree) {
GF2Polynomial shiftLeft = gF2Polynomial.shiftLeft();
shiftLeft.addToThis(gF2Polynomial4);
i2++;
gF2Polynomial4 = gF2Polynomial;
gF2Polynomial = shiftLeft;
}
}
this.fieldPolynomial = gF2Polynomial;
}
@Override // org.bouncycastle.pqc.math.linearalgebra.GF2nField
protected void computeCOBMatrix(GF2nField gF2nField) {
GF2nElement randomRoot;
if (this.mDegree != gF2nField.mDegree) {
throw new IllegalArgumentException("GF2nField.computeCOBMatrix: B1 has a different degree and thus cannot be coverted to!");
}
GF2Polynomial[] gF2PolynomialArr = new GF2Polynomial[this.mDegree];
for (int i = 0; i < this.mDegree; i++) {
gF2PolynomialArr[i] = new GF2Polynomial(this.mDegree);
}
do {
randomRoot = gF2nField.getRandomRoot(this.fieldPolynomial);
} while (randomRoot.isZero());
GF2nElement[] gF2nElementArr = new GF2nPolynomialElement[this.mDegree];
gF2nElementArr[0] = (GF2nElement) randomRoot.clone();
for (int i2 = 1; i2 < this.mDegree; i2++) {
gF2nElementArr[i2] = gF2nElementArr[i2 - 1].square();
}
for (int i3 = 0; i3 < this.mDegree; i3++) {
for (int i4 = 0; i4 < this.mDegree; i4++) {
if (gF2nElementArr[i3].testBit(i4)) {
gF2PolynomialArr[(this.mDegree - i4) - 1].setBit((this.mDegree - i3) - 1);
}
}
}
this.fields.addElement(gF2nField);
this.matrices.addElement(gF2PolynomialArr);
gF2nField.fields.addElement(this);
gF2nField.matrices.addElement(invertMatrix(gF2PolynomialArr));
}
private int elementOfOrder(int i, int i2) {
int order;
Random random = new Random();
int i3 = 0;
while (i3 == 0) {
int i4 = i2 - 1;
i3 = random.nextInt() % i4;
if (i3 < 0) {
i3 += i4;
}
}
while (true) {
order = IntegerFunctions.order(i3, i2);
if (order % i == 0 && order != 0) {
break;
}
while (i3 == 0) {
int i5 = i2 - 1;
i3 = random.nextInt() % i5;
if (i3 < 0) {
i3 += i5;
}
}
}
int i6 = i3;
for (int i7 = 2; i7 <= i / order; i7++) {
i6 *= i3;
}
return i6;
}
private void computeType() throws RuntimeException {
if ((this.mDegree & 7) == 0) {
throw new RuntimeException("The extension degree is divisible by 8!");
}
this.mType = 1;
int i = 0;
while (i != 1) {
int i2 = (this.mType * this.mDegree) + 1;
if (IntegerFunctions.isPrime(i2)) {
i = IntegerFunctions.gcd((this.mType * this.mDegree) / IntegerFunctions.order(2, i2), this.mDegree);
}
this.mType++;
}
int i3 = this.mType - 1;
this.mType = i3;
if (i3 == 1) {
int i4 = (this.mDegree << 1) + 1;
if (IntegerFunctions.isPrime(i4)) {
if (IntegerFunctions.gcd((this.mDegree << 1) / IntegerFunctions.order(2, i4), this.mDegree) == 1) {
this.mType++;
}
}
}
}
private void computeMultMatrix() {
int i;
int i2 = this.mType;
if ((i2 & 7) == 0) {
throw new RuntimeException("bisher nur fuer Gausssche Normalbasen implementiert");
}
int i3 = i2 * this.mDegree;
int i4 = i3 + 1;
int[] iArr = new int[i4];
int i5 = this.mType;
int elementOfOrder = i5 == 1 ? 1 : i5 == 2 ? i3 : elementOfOrder(i5, i4);
int i6 = 1;
int i7 = 0;
while (true) {
i = this.mType;
if (i7 >= i) {
break;
}
int i8 = i6;
for (int i9 = 0; i9 < this.mDegree; i9++) {
iArr[i8] = i9;
i8 = (i8 << 1) % i4;
if (i8 < 0) {
i8 += i4;
}
}
i6 = (i6 * elementOfOrder) % i4;
if (i6 < 0) {
i6 += i4;
}
i7++;
}
if (i != 1) {
if (i != 2) {
throw new RuntimeException("only type 1 or type 2 implemented");
}
int i10 = 1;
while (i10 < i3) {
int i11 = i10 + 1;
int[] iArr2 = this.mMult[iArr[i11]];
int i12 = i4 - i10;
if (iArr2[0] == -1) {
iArr2[0] = iArr[i12];
} else {
iArr2[1] = iArr[i12];
}
i10 = i11;
}
return;
}
int i13 = 1;
while (i13 < i3) {
int i14 = i13 + 1;
int[] iArr3 = this.mMult[iArr[i14]];
int i15 = i4 - i13;
if (iArr3[0] == -1) {
iArr3[0] = iArr[i15];
} else {
iArr3[1] = iArr[i15];
}
i13 = i14;
}
int i16 = this.mDegree >> 1;
for (int i17 = 1; i17 <= i16; i17++) {
int[][] iArr4 = this.mMult;
int i18 = i17 - 1;
int[] iArr5 = iArr4[i18];
if (iArr5[0] == -1) {
iArr5[0] = (i16 + i17) - 1;
} else {
iArr5[1] = (i16 + i17) - 1;
}
int[] iArr6 = iArr4[(i16 + i17) - 1];
if (iArr6[0] == -1) {
iArr6[0] = i18;
} else {
iArr6[1] = i18;
}
}
}
public GF2nONBField(int i, SecureRandom secureRandom) throws RuntimeException {
super(secureRandom);
if (i < 3) {
throw new IllegalArgumentException("k must be at least 3");
}
this.mDegree = i;
this.mLength = this.mDegree / 64;
int i2 = this.mDegree & 63;
this.mBit = i2;
if (i2 == 0) {
this.mBit = 64;
} else {
this.mLength++;
}
computeType();
if (this.mType >= 3) {
StringBuilder sb = new StringBuilder("\nThe type of this field is ");
sb.append(this.mType);
throw new RuntimeException(sb.toString());
}
this.mMult = (int[][]) Array.newInstance((Class<?>) Integer.TYPE, this.mDegree, 2);
for (int i3 = 0; i3 < this.mDegree; i3++) {
int[] iArr = this.mMult[i3];
iArr[0] = -1;
iArr[1] = -1;
}
computeMultMatrix();
computeFieldPolynomial();
this.fields = new java.util.Vector();
this.matrices = new java.util.Vector();
}
}