pqc/crypto_kem/mceliece6960119/sse/sk_gen.c

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/*
This file is for secret-key generation
*/
#include "sk_gen.h"
#include "controlbits.h"
#include "gf.h"
#include "params.h"
#include "util.h"
/* input: f, element in GF((2^m)^t) */
/* output: out, minimal polynomial of f */
/* return: 0 for success and -1 for failure */
int PQCLEAN_MCELIECE6960119_SSE_genpoly_gen(gf *out, gf *f) {
int i, j, k, c;
gf mat[ SYS_T + 1 ][ SYS_T ];
gf mask, inv, t;
// fill matrix
mat[0][0] = 1;
for (i = 1; i < SYS_T; i++) {
mat[0][i] = 0;
}
for (i = 0; i < SYS_T; i++) {
mat[1][i] = f[i];
}
for (j = 2; j <= SYS_T; j++) {
PQCLEAN_MCELIECE6960119_SSE_GF_mul(mat[j], mat[j - 1], f);
}
// gaussian
for (j = 0; j < SYS_T; j++) {
for (k = j + 1; k < SYS_T; k++) {
mask = PQCLEAN_MCELIECE6960119_SSE_gf_iszero(mat[ j ][ j ]);
for (c = j; c < SYS_T + 1; c++) {
mat[ c ][ j ] ^= mat[ c ][ k ] & mask;
}
}
if ( mat[ j ][ j ] == 0 ) { // return if not systematic
return -1;
}
inv = PQCLEAN_MCELIECE6960119_SSE_gf_inv(mat[j][j]);
for (c = j; c < SYS_T + 1; c++) {
mat[ c ][ j ] = PQCLEAN_MCELIECE6960119_SSE_gf_mul(mat[ c ][ j ], inv) ;
}
for (k = 0; k < SYS_T; k++) {
if (k != j) {
t = mat[ j ][ k ];
for (c = j; c < SYS_T + 1; c++) {
mat[ c ][ k ] ^= PQCLEAN_MCELIECE6960119_SSE_gf_mul(mat[ c ][ j ], t);
}
}
}
}
for (i = 0; i < SYS_T; i++) {
out[i] = mat[ SYS_T ][ i ];
}
return 0;
}
/* input: permutation p represented as a list of 32-bit intergers */
/* output: -1 if some interger repeats in p */
/* 0 otherwise */
int PQCLEAN_MCELIECE6960119_SSE_perm_check(const uint32_t *p) {
int i;
uint64_t list[1 << GFBITS];
for (i = 0; i < (1 << GFBITS); i++) {
list[i] = p[i];
}
PQCLEAN_MCELIECE6960119_SSE_sort_63b(1 << GFBITS, list);
for (i = 1; i < (1 << GFBITS); i++) {
if (list[i - 1] == list[i]) {
return -1;
}
}
return 0;
}