239 lines
7.9 KiB
C++
239 lines
7.9 KiB
C++
/*
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Copyright (c) 2015 Christopher A. Taylor. All rights reserved.
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Redistribution and use in source and binary forms, with or without
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modification, are permitted provided that the following conditions are met:
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* Redistributions of source code must retain the above copyright notice,
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this list of conditions and the following disclaimer.
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* Redistributions in binary form must reproduce the above copyright notice,
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this list of conditions and the following disclaimer in the documentation
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and/or other materials provided with the distribution.
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* Neither the name of CM256 nor the names of its contributors may be
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used to endorse or promote products derived from this software without
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specific prior written permission.
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THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
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AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
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IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
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ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE
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LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
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CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
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SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
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INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
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CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
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ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
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POSSIBILITY OF SUCH DAMAGE.
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*/
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#ifndef GF256_H
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#define GF256_H
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#include "export.h"
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#include <cstdint> // uint32_t etc
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#include <cstring> // memcpy, memset
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// TBD: Fix the polynomial at one value and use precomputed tables here to
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// simplify the API for GF256.h version 2. Avoids user data alignment issues.
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//-----------------------------------------------------------------------------
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// Platform-Specific Definitions
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//
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// Edit these to port to your architecture
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#if defined(USE_SSSE3)
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#ifdef _MSC_VER
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// Compiler-specific 128-bit SIMD register keyword
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#define GF256_M128 __m128i
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// Compiler-specific C++11 restrict keyword
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#define GF256_RESTRICT_KW __restrict
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// Compiler-specific force inline keyword
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#define GF256_FORCE_INLINE __forceinline
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// Compiler-specific alignment keyword
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#define GF256_ALIGNED __declspec(align(16))
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// Compiler-specific SSE headers
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#include <emmintrin.h> // SSE2
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#include <tmmintrin.h> // SSE3: _mm_shuffle_epi8
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#else
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// Compiler-specific 128-bit SIMD register keyword
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#define GF256_M128 __m128i
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// Compiler-specific C++11 restrict keyword
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#define GF256_RESTRICT_KW __restrict__
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// Compiler-specific force inline keyword
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#define GF256_FORCE_INLINE __attribute__((always_inline)) inline
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// Compiler-specific alignment keyword
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#define GF256_ALIGNED __attribute__((aligned(16)))
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// Compiler-specific SSE headers
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#include <x86intrin.h>
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#endif
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#elif defined(USE_NEON)
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#include "sse2neon.h"
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// Compiler-specific 128-bit SIMD register keyword
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#define GF256_M128 __m128i
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// Compiler-specific C++11 restrict keyword
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#define GF256_RESTRICT_KW __restrict__
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// Compiler-specific force inline keyword
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#define GF256_FORCE_INLINE __attribute__((always_inline)) inline
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// Compiler-specific alignment keyword
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#define GF256_ALIGNED __attribute__((aligned(16)))
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#endif
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#if defined(NO_RESTRICT)
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#define GF256_RESTRICT
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#else
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#define GF256_RESTRICT GF256_RESTRICT_KW
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#endif
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#ifndef nullptr
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#define nullptr NULL
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#endif
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//-----------------------------------------------------------------------------
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// GF(256) Context
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//
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// The context object stores tables required to perform library calculations.
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//
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// Usage Notes:
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// This struct should be aligned in memory, meaning that a pointer to it should
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// have the low 4 bits cleared. To achieve this simply tag the gf256_ctx object
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// with the GF256_ALIGNED macro provided above.
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#ifdef _MSC_VER
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#pragma warning(push)
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#pragma warning(disable : 4324) // warning C4324: 'gf256_ctx' : structure was padded due to __declspec(align())
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#endif
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class CM256CC_API gf256_ctx // 141,072 bytes
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{
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public:
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gf256_ctx();
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~gf256_ctx();
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bool isInitialized() const { return initialized; }
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/** Performs "x[] += y[]" bulk memory XOR operation */
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static void gf256_add_mem(void* GF256_RESTRICT vx, const void* GF256_RESTRICT vy, int bytes);
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/** Performs "z[] += x[] + y[]" bulk memory operation */
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static void gf256_add2_mem(void* GF256_RESTRICT vz, const void* GF256_RESTRICT vx, const void* GF256_RESTRICT vy, int bytes);
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/** Performs "z[] = x[] + y[]" bulk memory operation */
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static void gf256_addset_mem(void* GF256_RESTRICT vz, const void* GF256_RESTRICT vx, const void* GF256_RESTRICT vy, int bytes);
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/** Swap two memory buffers in-place */
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static void gf256_memswap(void* GF256_RESTRICT vx, void* GF256_RESTRICT vy, int bytes);
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// return x + y
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static GF256_FORCE_INLINE uint8_t gf256_add(const uint8_t x, const uint8_t y)
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{
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return x ^ y;
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}
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// return x * y
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// For repeated multiplication by a constant, it is faster to put the constant in y.
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GF256_FORCE_INLINE uint8_t gf256_mul(uint8_t x, uint8_t y)
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{
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return GF256_MUL_TABLE[((unsigned)y << 8) + x];
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}
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// return x / y
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// Memory-access optimized for constant divisors in y.
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GF256_FORCE_INLINE uint8_t gf256_div(uint8_t x, uint8_t y)
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{
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return GF256_DIV_TABLE[((unsigned)y << 8) + x];
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}
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// return 1 / x
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GF256_FORCE_INLINE uint8_t gf256_inv(uint8_t x)
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{
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return GF256_INV_TABLE[x];
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}
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// This function generates each matrix element based on x_i, x_0, y_j
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// Note that for x_i == x_0, this will return 1, so it is better to unroll out the first row.
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GF256_FORCE_INLINE unsigned char getMatrixElement(const unsigned char x_i, const unsigned char x_0, const unsigned char y_j)
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{
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return gf256_div(gf256_add(y_j, x_0), gf256_add(x_i, y_j));
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}
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/** Performs "z[] = x[] * y" bulk memory operation */
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void gf256_mul_mem(void* GF256_RESTRICT vz, const void* GF256_RESTRICT vx, uint8_t y, int bytes);
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/** Performs "z[] += x[] * y" bulk memory operation */
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void gf256_muladd_mem(void* GF256_RESTRICT vz, uint8_t y, const void* GF256_RESTRICT vx, int bytes);
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/** Performs "x[] /= y" bulk memory operation */
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GF256_FORCE_INLINE void gf256_div_mem(void* GF256_RESTRICT vz,
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const void* GF256_RESTRICT vx, uint8_t y, int bytes)
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{
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gf256_mul_mem(vz, vx, GF256_INV_TABLE[y], bytes); // Multiply by inverse
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}
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// Polynomial used
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unsigned Polynomial;
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// Log/Exp tables
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uint16_t GF256_LOG_TABLE[256];
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uint8_t GF256_EXP_TABLE[512 * 2 + 1];
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// Mul/Div/Inv tables
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uint8_t GF256_MUL_TABLE[256 * 256];
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uint8_t GF256_DIV_TABLE[256 * 256];
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uint8_t GF256_INV_TABLE[256];
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// Muladd_mem tables
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// We require memory to be aligned since the SIMD instructions benefit from
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// aligned accesses to the MM256_* table data.
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GF256_ALIGNED GF256_M128 MM256_TABLE_LO_Y[256];
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GF256_ALIGNED GF256_M128 MM256_TABLE_HI_Y[256];
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private:
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int gf256_init_();
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void gf255_poly_init(int polynomialIndex); //!< Select which polynomial to use
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void gf256_explog_init(); //!< Construct EXP and LOG tables from polynomial
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void gf256_muldiv_init(); //!< Initialize MUL and DIV tables using LOG and EXP tables
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void gf256_inv_init(); //!< Initialize INV table using DIV table
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void gf256_muladd_mem_init(); //!< Initialize the MM256 tables using gf256_mul()
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static bool IsLittleEndian()
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{
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int x = 1;
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char* y = (char*)&x;
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return *y != 0;
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}
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//-----------------------------------------------------------------------------
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// Generator Polynomial
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// There are only 16 irreducible polynomials for GF(256)
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static const int GF256_GEN_POLY_COUNT = 16;
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static const uint8_t GF256_GEN_POLY[GF256_GEN_POLY_COUNT];
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static const int DefaultPolynomialIndex = 3;
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bool initialized;
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};
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#ifdef _MSC_VER
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#pragma warning(pop)
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#endif
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#endif // GF256_H
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