pqc/crypto_kem/hqc-192/clean/gf.c

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#include "gf.h"
#include "parameters.h"
#include <stdint.h>
/**
* @file gf.c
* Galois field implementation with multiplication using lookup tables
*/
/**
* @brief Multiplies nonzero element a by element b
* @returns the product a*b
* @param[in] a First element of GF(2^PARAM_M) to multiply (cannot be zero)
* @param[in] b Second element of GF(2^PARAM_M) to multiply (cannot be zero)
*/
uint16_t PQCLEAN_HQC192_CLEAN_gf_mul(uint16_t a, uint16_t b) {
uint16_t mask;
mask = (uint16_t) (-((int32_t) a) >> 31); // a != 0
mask &= (uint16_t) (-((int32_t) b) >> 31); // b != 0
return mask & gf_exp[PQCLEAN_HQC192_CLEAN_gf_mod(gf_log[a] + gf_log[b])];
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}
/**
* @brief Squares an element of GF(2^PARAM_M)
* @returns a^2
* @param[in] a Element of GF(2^PARAM_M)
*/
uint16_t PQCLEAN_HQC192_CLEAN_gf_square(uint16_t a) {
int16_t mask = (uint16_t) (-((int32_t) a) >> 31); // a != 0
return mask & gf_exp[PQCLEAN_HQC192_CLEAN_gf_mod(2 * gf_log[a])];
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}
/**
* @brief Computes the inverse of an element of GF(2^PARAM_M)
* @returns the inverse of a
* @param[in] a Element of GF(2^PARAM_M)
*/
uint16_t PQCLEAN_HQC192_CLEAN_gf_inverse(uint16_t a) {
int16_t mask = (uint16_t) (-((int32_t) a) >> 31); // a != 0
return mask & gf_exp[PARAM_GF_MUL_ORDER - gf_log[a]];
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}
/**
* @brief Returns i modulo 2^PARAM_M-1
* i must be less than 2*(2^PARAM_M-1).
* Therefore, the return value is either i or i-2^PARAM_M+1.
* @returns i mod (2^PARAM_M-1)
* @param[in] i The integer whose modulo is taken
*/
uint16_t PQCLEAN_HQC192_CLEAN_gf_mod(uint16_t i) {
uint16_t tmp = (uint16_t) (i - PARAM_GF_MUL_ORDER);
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// mask = 0xffff if(i < PARAM_GF_MUL_ORDER)
uint16_t mask = -(tmp >> 15);
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return tmp + (mask & PARAM_GF_MUL_ORDER);
}