64 lines
2.0 KiB
C
64 lines
2.0 KiB
C
#ifndef GF2X_ARITH_H
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#define GF2X_ARITH_H
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#include <inttypes.h>
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#include <stddef.h>
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/*
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* Elements of GF(2)[x] are stored in compact dense binary form.
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*
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* Each bit in a byte is assumed to be the coefficient of a binary
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* polynomial f(x), in Big-Endian format (i.e., reading everything from
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* left to right, the most significant element is met first):
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*
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* byte:(0000 0000) == 0x00 ... f(x) == 0
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* byte:(0000 0001) == 0x01 ... f(x) == 1
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* byte:(0000 0010) == 0x02 ... f(x) == x
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* byte:(0000 0011) == 0x03 ... f(x) == x+1
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* ... ... ...
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* byte:(0000 1111) == 0x0F ... f(x) == x^{3}+x^{2}+x+1
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* ... ... ...
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* byte:(1111 1111) == 0xFF ... f(x) == x^{7}+x^{6}+x^{5}+x^{4}+x^{3}+x^{2}+x+1
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*
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*
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* A "machine word" (A_i) is considered as a DIGIT.
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* Bytes in a DIGIT are assumed in Big-Endian format:
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* E.g., if sizeof(DIGIT) == 4:
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* A_i: A_{i,3} A_{i,2} A_{i,1} A_{i,0}.
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* A_{i,3} denotes the most significant byte, A_{i,0} the least significant one.
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* f(x) == x^{31} + ... + x^{24} +
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* + x^{23} + ... + x^{16} +
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* + x^{15} + ... + x^{8} +
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* + x^{7} + ... + x^{0}
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*
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*
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* Multi-precision elements (i.e., with multiple DIGITs) are stored in
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* Big-endian format:
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* A = A_{n-1} A_{n-2} ... A_1 A_0
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*
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* position[A_{n-1}] == 0
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* position[A_{n-2}] == 1
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* ...
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* position[A_{1}] == n-2
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* position[A_{0}] == n-1
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*/
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typedef uint64_t DIGIT;
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#define DIGIT_SIZE_B (8)
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#define DIGIT_SIZE_b (DIGIT_SIZE_B << 3)
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#define POSITION_T uint32_t
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#define GF2X_MUL PQCLEAN_LEDAKEMLT32_CLEAN_gf2x_mul_comb
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static inline void gf2x_add(DIGIT Res[], const DIGIT A[], const DIGIT B[], size_t nr) {
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for (size_t i = 0; i < nr; i++) {
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Res[i] = A[i] ^ B[i];
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}
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}
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void PQCLEAN_LEDAKEMLT32_CLEAN_right_bit_shift_n(size_t length, DIGIT in[], unsigned int amount);
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void PQCLEAN_LEDAKEMLT32_CLEAN_left_bit_shift_n(size_t length, DIGIT in[], unsigned int amount);
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void GF2X_MUL(int nr, DIGIT Res[], int na, const DIGIT A[], int nb, const DIGIT B[]);
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#endif
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