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The Bouncy Castle Crypto package is a Java implementation of cryptographic algorithms. This jar contains JCE provider and lightweight API for the Bouncy Castle Cryptography APIs for JDK 1.5 to JDK 1.8.

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package org.bouncycastle.crypto.modes.kgcm;

import org.bouncycastle.math.raw.Interleave;

/**
 * Utilities for the GF(2^m) field with corresponding extension polynomial:
 * 
 * GF (2^512) -> x^512 + x^8 + x^5 + x^2 + 1
 * 
* The representation is little-endian arrays of 64-bit words */ public class KGCMUtil_512 { public static final int SIZE = 8; public static void add(long[] x, long[] y, long[] z) { z[0] = x[0] ^ y[0]; z[1] = x[1] ^ y[1]; z[2] = x[2] ^ y[2]; z[3] = x[3] ^ y[3]; z[4] = x[4] ^ y[4]; z[5] = x[5] ^ y[5]; z[6] = x[6] ^ y[6]; z[7] = x[7] ^ y[7]; } public static void copy(long[] x, long[] z) { z[0] = x[0]; z[1] = x[1]; z[2] = x[2]; z[3] = x[3]; z[4] = x[4]; z[5] = x[5]; z[6] = x[6]; z[7] = x[7]; } public static boolean equal(long[] x, long[] y) { long d = 0L; d |= x[0] ^ y[0]; d |= x[1] ^ y[1]; d |= x[2] ^ y[2]; d |= x[3] ^ y[3]; d |= x[4] ^ y[4]; d |= x[5] ^ y[5]; d |= x[6] ^ y[6]; d |= x[7] ^ y[7]; return d == 0L; } public static void multiply(long[] x, long[] y, long[] z) { long y0 = y[0], y1 = y[1], y2 = y[2], y3 = y[3]; long y4 = y[4], y5 = y[5], y6 = y[6], y7 = y[7]; long z0 = 0, z1 = 0, z2 = 0, z3 = 0; long z4 = 0, z5 = 0, z6 = 0, z7 = 0; long z8 = 0; for (int i = 0; i < 8; i += 2) { long x0 = x[i], x1 = x[i + 1]; for (int j = 0; j < 64; ++j) { long m0 = -(x0 & 1L); x0 >>>= 1; z0 ^= (y0 & m0); z1 ^= (y1 & m0); z2 ^= (y2 & m0); z3 ^= (y3 & m0); z4 ^= (y4 & m0); z5 ^= (y5 & m0); z6 ^= (y6 & m0); z7 ^= (y7 & m0); long m1 = -(x1 & 1L); x1 >>>= 1; z1 ^= (y0 & m1); z2 ^= (y1 & m1); z3 ^= (y2 & m1); z4 ^= (y3 & m1); z5 ^= (y4 & m1); z6 ^= (y5 & m1); z7 ^= (y6 & m1); z8 ^= (y7 & m1); long c = y7 >> 63; y7 = (y7 << 1) | (y6 >>> 63); y6 = (y6 << 1) | (y5 >>> 63); y5 = (y5 << 1) | (y4 >>> 63); y4 = (y4 << 1) | (y3 >>> 63); y3 = (y3 << 1) | (y2 >>> 63); y2 = (y2 << 1) | (y1 >>> 63); y1 = (y1 << 1) | (y0 >>> 63); y0 = (y0 << 1) ^ (c & 0x125L); } long y8 = y7; y7 = y6; y6 = y5; y5 = y4; y4 = y3; y3 = y2; y2 = y1; y1 = y0 ^ (y8 >>> 62) ^ (y8 >>> 59) ^ (y8 >>> 56); y0 = y8 ^ (y8 << 2) ^ (y8 << 5) ^ (y8 << 8); } z0 ^= z8 ^ (z8 << 2) ^ (z8 << 5) ^ (z8 << 8); z1 ^= (z8 >>> 62) ^ (z8 >>> 59) ^ (z8 >>> 56); z[0] = z0; z[1] = z1; z[2] = z2; z[3] = z3; z[4] = z4; z[5] = z5; z[6] = z6; z[7] = z7; } public static void multiplyX(long[] x, long[] z) { long x0 = x[0], x1 = x[1], x2 = x[2], x3 = x[3]; long x4 = x[4], x5 = x[5], x6 = x[6], x7 = x[7]; long m = x7 >> 63; z[0] = (x0 << 1) ^ (m & 0x125L); z[1] = (x1 << 1) | (x0 >>> 63); z[2] = (x2 << 1) | (x1 >>> 63); z[3] = (x3 << 1) | (x2 >>> 63); z[4] = (x4 << 1) | (x3 >>> 63); z[5] = (x5 << 1) | (x4 >>> 63); z[6] = (x6 << 1) | (x5 >>> 63); z[7] = (x7 << 1) | (x6 >>> 63); } public static void multiplyX8(long[] x, long[] z) { long x0 = x[0], x1 = x[1], x2 = x[2], x3 = x[3]; long x4 = x[4], x5 = x[5], x6 = x[6], x7 = x[7]; long c = x7 >>> 56; z[0] = (x0 << 8) ^ c ^ (c << 2) ^ (c << 5) ^ (c << 8); z[1] = (x1 << 8) | (x0 >>> 56); z[2] = (x2 << 8) | (x1 >>> 56); z[3] = (x3 << 8) | (x2 >>> 56); z[4] = (x4 << 8) | (x3 >>> 56); z[5] = (x5 << 8) | (x4 >>> 56); z[6] = (x6 << 8) | (x5 >>> 56); z[7] = (x7 << 8) | (x6 >>> 56); } public static void one(long[] z) { z[0] = 1; z[1] = 0; z[2] = 0; z[3] = 0; z[4] = 0; z[5] = 0; z[6] = 0; z[7] = 0; } public static void square(long[] x, long[] z) { long[] t = new long[SIZE << 1]; for (int i = 0; i < SIZE; ++i) { Interleave.expand64To128(x[i], t, i << 1); } int j = SIZE << 1; while (--j >= SIZE) { long n = t[j]; t[j - SIZE ] ^= n ^ (n << 2) ^ (n << 5) ^ (n << 8); t[j - SIZE + 1] ^= (n >>> 62) ^ (n >>> 59) ^ (n >>> 56); } copy(t, z); } public static void x(long[] z) { z[0] = 2; z[1] = 0; z[2] = 0; z[3] = 0; z[4] = 0; z[5] = 0; z[6] = 0; z[7] = 0; } public static void zero(long[] z) { z[0] = 0; z[1] = 0; z[2] = 0; z[3] = 0; z[4] = 0; z[5] = 0; z[6] = 0; z[7] = 0; } }




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