// // Decompiled by Procyon v0.6.0 // package org.bouncycastle.math.ec.custom.sec; import org.bouncycastle.util.Pack; import java.security.SecureRandom; import org.bouncycastle.math.raw.Mod; import java.math.BigInteger; import org.bouncycastle.math.raw.Nat; import org.bouncycastle.math.raw.Nat224; public class SecP224R1Field { private static final long M = 4294967295L; static final int[] P; private static final int[] PExt; private static final int[] PExtInv; private static final int P6 = -1; private static final int PExt13 = -1; public static void add(final int[] array, final int[] array2, final int[] array3) { if (Nat224.add(array, array2, array3) != 0 || (array3[6] == -1 && Nat224.gte(array3, SecP224R1Field.P))) { addPInvTo(array3); } } public static void addExt(final int[] array, final int[] array2, final int[] array3) { if ((Nat.add(14, array, array2, array3) != 0 || (array3[13] == -1 && Nat.gte(14, array3, SecP224R1Field.PExt))) && Nat.addTo(SecP224R1Field.PExtInv.length, SecP224R1Field.PExtInv, array3) != 0) { Nat.incAt(14, array3, SecP224R1Field.PExtInv.length); } } public static void addOne(final int[] array, final int[] array2) { if (Nat.inc(7, array, array2) != 0 || (array2[6] == -1 && Nat224.gte(array2, SecP224R1Field.P))) { addPInvTo(array2); } } public static int[] fromBigInteger(final BigInteger bigInteger) { final int[] fromBigInteger = Nat224.fromBigInteger(bigInteger); if (fromBigInteger[6] == -1 && Nat224.gte(fromBigInteger, SecP224R1Field.P)) { Nat224.subFrom(SecP224R1Field.P, fromBigInteger); } return fromBigInteger; } public static void half(final int[] array, final int[] array2) { if ((array[0] & 0x1) == 0x0) { Nat.shiftDownBit(7, array, 0, array2); } else { Nat.shiftDownBit(7, array2, Nat224.add(array, SecP224R1Field.P, array2)); } } public static void inv(final int[] array, final int[] array2) { Mod.checkedModOddInverse(SecP224R1Field.P, array, array2); } public static int isZero(final int[] array) { int n = 0; for (int i = 0; i < 7; ++i) { n |= array[i]; } return (n >>> 1 | (n & 0x1)) - 1 >> 31; } public static void multiply(final int[] array, final int[] array2, final int[] array3) { final int[] ext = Nat224.createExt(); Nat224.mul(array, array2, ext); reduce(ext, array3); } public static void multiplyAddToExt(final int[] array, final int[] array2, final int[] array3) { if ((Nat224.mulAddTo(array, array2, array3) != 0 || (array3[13] == -1 && Nat.gte(14, array3, SecP224R1Field.PExt))) && Nat.addTo(SecP224R1Field.PExtInv.length, SecP224R1Field.PExtInv, array3) != 0) { Nat.incAt(14, array3, SecP224R1Field.PExtInv.length); } } public static void negate(final int[] array, final int[] array2) { if (0 != isZero(array)) { Nat224.sub(SecP224R1Field.P, SecP224R1Field.P, array2); } else { Nat224.sub(SecP224R1Field.P, array, array2); } } public static void random(final SecureRandom secureRandom, final int[] array) { final byte[] bytes = new byte[28]; do { secureRandom.nextBytes(bytes); Pack.littleEndianToInt(bytes, 0, array, 0, 7); } while (0 == Nat.lessThan(7, array, SecP224R1Field.P)); } public static void randomMult(final SecureRandom secureRandom, final int[] array) { do { random(secureRandom, array); } while (0 != isZero(array)); } public static void reduce(final int[] array, final int[] array2) { final long n = (long)array[10] & 0xFFFFFFFFL; final long n2 = (long)array[11] & 0xFFFFFFFFL; final long n3 = (long)array[12] & 0xFFFFFFFFL; final long n4 = (long)array[13] & 0xFFFFFFFFL; final long n5 = ((long)array[7] & 0xFFFFFFFFL) + n2 - 1L; final long n6 = ((long)array[8] & 0xFFFFFFFFL) + n3; final long n7 = ((long)array[9] & 0xFFFFFFFFL) + n4; final long n8 = 0L + (((long)array[0] & 0xFFFFFFFFL) - n5); final long n9 = n8 & 0xFFFFFFFFL; final long n10 = (n8 >> 32) + (((long)array[1] & 0xFFFFFFFFL) - n6); array2[1] = (int)n10; final long n11 = (n10 >> 32) + (((long)array[2] & 0xFFFFFFFFL) - n7); array2[2] = (int)n11; final long n12 = (n11 >> 32) + (((long)array[3] & 0xFFFFFFFFL) + n5 - n); final long n13 = n12 & 0xFFFFFFFFL; final long n14 = (n12 >> 32) + (((long)array[4] & 0xFFFFFFFFL) + n6 - n2); array2[4] = (int)n14; final long n15 = (n14 >> 32) + (((long)array[5] & 0xFFFFFFFFL) + n7 - n3); array2[5] = (int)n15; final long n16 = (n15 >> 32) + (((long)array[6] & 0xFFFFFFFFL) + n - n4); array2[6] = (int)n16; final long n17 = (n16 >> 32) + 1L; long n18 = n13 + n17; final long n19 = n9 - n17; array2[0] = (int)n19; final long n20 = n19 >> 32; if (n20 != 0L) { final long n21 = n20 + ((long)array2[1] & 0xFFFFFFFFL); array2[1] = (int)n21; final long n22 = (n21 >> 32) + ((long)array2[2] & 0xFFFFFFFFL); array2[2] = (int)n22; n18 += n22 >> 32; } array2[3] = (int)n18; if ((n18 >> 32 != 0L && Nat.incAt(7, array2, 4) != 0) || (array2[6] == -1 && Nat224.gte(array2, SecP224R1Field.P))) { addPInvTo(array2); } } public static void reduce32(final int n, final int[] array) { long n2 = 0L; if (n != 0) { final long n3 = (long)n & 0xFFFFFFFFL; final long n4 = n2 + (((long)array[0] & 0xFFFFFFFFL) - n3); array[0] = (int)n4; long n5 = n4 >> 32; if (n5 != 0L) { final long n6 = n5 + ((long)array[1] & 0xFFFFFFFFL); array[1] = (int)n6; final long n7 = (n6 >> 32) + ((long)array[2] & 0xFFFFFFFFL); array[2] = (int)n7; n5 = n7 >> 32; } final long n8 = n5 + (((long)array[3] & 0xFFFFFFFFL) + n3); array[3] = (int)n8; n2 = n8 >> 32; } if ((n2 != 0L && Nat.incAt(7, array, 4) != 0) || (array[6] == -1 && Nat224.gte(array, SecP224R1Field.P))) { addPInvTo(array); } } public static void square(final int[] array, final int[] array2) { final int[] ext = Nat224.createExt(); Nat224.square(array, ext); reduce(ext, array2); } public static void squareN(final int[] array, int n, final int[] array2) { final int[] ext = Nat224.createExt(); Nat224.square(array, ext); reduce(ext, array2); while (--n > 0) { Nat224.square(array2, ext); reduce(ext, array2); } } public static void subtract(final int[] array, final int[] array2, final int[] array3) { if (Nat224.sub(array, array2, array3) != 0) { subPInvFrom(array3); } } public static void subtractExt(final int[] array, final int[] array2, final int[] array3) { if (Nat.sub(14, array, array2, array3) != 0 && Nat.subFrom(SecP224R1Field.PExtInv.length, SecP224R1Field.PExtInv, array3) != 0) { Nat.decAt(14, array3, SecP224R1Field.PExtInv.length); } } public static void twice(final int[] array, final int[] array2) { if (Nat.shiftUpBit(7, array, 0, array2) != 0 || (array2[6] == -1 && Nat224.gte(array2, SecP224R1Field.P))) { addPInvTo(array2); } } private static void addPInvTo(final int[] array) { final long n = ((long)array[0] & 0xFFFFFFFFL) - 1L; array[0] = (int)n; long n2 = n >> 32; if (n2 != 0L) { final long n3 = n2 + ((long)array[1] & 0xFFFFFFFFL); array[1] = (int)n3; final long n4 = (n3 >> 32) + ((long)array[2] & 0xFFFFFFFFL); array[2] = (int)n4; n2 = n4 >> 32; } final long n5 = n2 + (((long)array[3] & 0xFFFFFFFFL) + 1L); array[3] = (int)n5; if (n5 >> 32 != 0L) { Nat.incAt(7, array, 4); } } private static void subPInvFrom(final int[] array) { final long n = ((long)array[0] & 0xFFFFFFFFL) + 1L; array[0] = (int)n; long n2 = n >> 32; if (n2 != 0L) { final long n3 = n2 + ((long)array[1] & 0xFFFFFFFFL); array[1] = (int)n3; final long n4 = (n3 >> 32) + ((long)array[2] & 0xFFFFFFFFL); array[2] = (int)n4; n2 = n4 >> 32; } final long n5 = n2 + (((long)array[3] & 0xFFFFFFFFL) - 1L); array[3] = (int)n5; if (n5 >> 32 != 0L) { Nat.decAt(7, array, 4); } } static { P = new int[] { 1, 0, 0, -1, -1, -1, -1 }; PExt = new int[] { 1, 0, 0, -2, -1, -1, 0, 2, 0, 0, -2, -1, -1, -1 }; PExtInv = new int[] { -1, -1, -1, 1, 0, 0, -1, -3, -1, -1, 1 }; } }