package org.bouncycastle.math.ec.custom.sec; import java.math.BigInteger; import org.bouncycastle.math.raw.Nat; import org.bouncycastle.math.raw.Nat128; import org.bouncycastle.math.raw.Nat256; /* loaded from: classes6.dex */ public class SecP128R1Field { private static final long M = 4294967295L; private static final int P3 = -3; private static final int PExt7 = -4; static final int[] P = {-1, -1, -1, -3}; static final int[] PExt = {1, 0, 0, 4, -2, -1, 3, -4}; private static final int[] PExtInv = {-1, -1, -1, -5, 1, 0, -4, 3}; public static void twice(int[] iArr, int[] iArr2) { if (Nat.shiftUpBit(4, iArr, 0, iArr2) != 0 || (iArr2[3] == -3 && Nat128.gte(iArr2, P))) { addPInvTo(iArr2); } } public static void subtractExt(int[] iArr, int[] iArr2, int[] iArr3) { if (Nat.sub(10, iArr, iArr2, iArr3) != 0) { int[] iArr4 = PExtInv; Nat.subFrom(iArr4.length, iArr4, iArr3); } } public static void subtract(int[] iArr, int[] iArr2, int[] iArr3) { if (Nat128.sub(iArr, iArr2, iArr3) != 0) { subPInvFrom(iArr3); } } private static void subPInvFrom(int[] iArr) { long j = (iArr[0] & 4294967295L) - 1; iArr[0] = (int) j; long j2 = j >> 32; if (j2 != 0) { long j3 = j2 + (iArr[1] & 4294967295L); iArr[1] = (int) j3; long j4 = (j3 >> 32) + (iArr[2] & 4294967295L); iArr[2] = (int) j4; j2 = j4 >> 32; } iArr[3] = (int) (j2 + ((4294967295L & iArr[3]) - 2)); } public static void squareN(int[] iArr, int i, int[] iArr2) { int[] createExt = Nat128.createExt(); Nat128.square(iArr, createExt); while (true) { reduce(createExt, iArr2); i--; if (i <= 0) { return; } else { Nat128.square(iArr2, createExt); } } } public static void square(int[] iArr, int[] iArr2) { int[] createExt = Nat128.createExt(); Nat128.square(iArr, createExt); reduce(createExt, iArr2); } public static void reduce32(int i, int[] iArr) { while (i != 0) { long j = i & 4294967295L; long j2 = (iArr[0] & 4294967295L) + j; iArr[0] = (int) j2; long j3 = j2 >> 32; if (j3 != 0) { long j4 = j3 + (iArr[1] & 4294967295L); iArr[1] = (int) j4; long j5 = (j4 >> 32) + (iArr[2] & 4294967295L); iArr[2] = (int) j5; j3 = j5 >> 32; } long j6 = j3 + (4294967295L & iArr[3]) + (j << 1); iArr[3] = (int) j6; i = (int) (j6 >> 32); } } public static void reduce(int[] iArr, int[] iArr2) { long j = iArr[0]; long j2 = iArr[1]; long j3 = iArr[2]; long j4 = iArr[3]; long j5 = iArr[4]; long j6 = iArr[5]; long j7 = iArr[7] & 4294967295L; long j8 = (iArr[6] & 4294967295L) + (j7 << 1); long j9 = (j6 & 4294967295L) + (j8 << 1); long j10 = (j5 & 4294967295L) + (j9 << 1); long j11 = (j & 4294967295L) + j10; iArr2[0] = (int) j11; long j12 = (j2 & 4294967295L) + j9 + (j11 >>> 32); iArr2[1] = (int) j12; long j13 = (j3 & 4294967295L) + j8 + (j12 >>> 32); iArr2[2] = (int) j13; long j14 = (j4 & 4294967295L) + j7 + (j10 << 1) + (j13 >>> 32); iArr2[3] = (int) j14; reduce32((int) (j14 >>> 32), iArr2); } public static void negate(int[] iArr, int[] iArr2) { if (Nat128.isZero(iArr)) { Nat128.zero(iArr2); } else { Nat128.sub(P, iArr, iArr2); } } public static void multiplyAddToExt(int[] iArr, int[] iArr2, int[] iArr3) { if (Nat128.mulAddTo(iArr, iArr2, iArr3) != 0 || (iArr3[7] == -4 && Nat256.gte(iArr3, PExt))) { int[] iArr4 = PExtInv; Nat.addTo(iArr4.length, iArr4, iArr3); } } public static void multiply(int[] iArr, int[] iArr2, int[] iArr3) { int[] createExt = Nat128.createExt(); Nat128.mul(iArr, iArr2, createExt); reduce(createExt, iArr3); } public static void half(int[] iArr, int[] iArr2) { if ((iArr[0] & 1) == 0) { Nat.shiftDownBit(4, iArr, 0, iArr2); } else { Nat.shiftDownBit(4, iArr2, Nat128.add(iArr, P, iArr2)); } } public static int[] fromBigInteger(BigInteger bigInteger) { int[] fromBigInteger = Nat128.fromBigInteger(bigInteger); if (fromBigInteger[3] == -3) { int[] iArr = P; if (Nat128.gte(fromBigInteger, iArr)) { Nat128.subFrom(iArr, fromBigInteger); } } return fromBigInteger; } private static void addPInvTo(int[] iArr) { long j = (iArr[0] & 4294967295L) + 1; iArr[0] = (int) j; long j2 = j >> 32; if (j2 != 0) { long j3 = j2 + (iArr[1] & 4294967295L); iArr[1] = (int) j3; long j4 = (j3 >> 32) + (iArr[2] & 4294967295L); iArr[2] = (int) j4; j2 = j4 >> 32; } iArr[3] = (int) (j2 + (4294967295L & iArr[3]) + 2); } public static void addOne(int[] iArr, int[] iArr2) { if (Nat.inc(4, iArr, iArr2) != 0 || (iArr2[3] == -3 && Nat128.gte(iArr2, P))) { addPInvTo(iArr2); } } public static void addExt(int[] iArr, int[] iArr2, int[] iArr3) { if (Nat256.add(iArr, iArr2, iArr3) != 0 || (iArr3[7] == -4 && Nat256.gte(iArr3, PExt))) { int[] iArr4 = PExtInv; Nat.addTo(iArr4.length, iArr4, iArr3); } } public static void add(int[] iArr, int[] iArr2, int[] iArr3) { if (Nat128.add(iArr, iArr2, iArr3) != 0 || (iArr3[3] == -3 && Nat128.gte(iArr3, P))) { addPInvTo(iArr3); } } }