-rw-r--r-- 1805 libmceliece-20241009/crypto_kem/348864/vec/vec.c raw
// 20221230 djb: add linker line // linker define vec_mul vec_sq vec_inv #include "vec.h" #include "params.h" void vec_mul(vec * h, const vec * f, const vec * g) { int i, j; vec buf[ 2*GFBITS-1 ]; for (i = 0; i < 2*GFBITS-1; i++) buf[i] = 0; for (i = 0; i < GFBITS; i++) for (j = 0; j < GFBITS; j++) buf[i+j] ^= f[i] & g[j]; for (i = 2*GFBITS-2; i >= GFBITS; i--) { buf[i-GFBITS+3] ^= buf[i]; buf[i-GFBITS+0] ^= buf[i]; } for (i = 0; i < GFBITS; i++) h[i] = buf[i]; } /* bitsliced field squarings */ void vec_sq(vec *out, vec *in) { int i; uint64_t result[GFBITS]; // result[0] = in[0]^in[6]; result[1] = in[11]; result[2] = in[1]^in[7]; result[3] = in[6]; result[4] = in[2] ^ in[11] ^ in[8]; result[5] = in[7]; result[6] = in[3]^in[9]; result[7] = in[8]; result[8] = in[4]^in[10]; result[9] = in[9]; result[10] = in[5] ^ in[11]; result[11] = in[10]; // for (i = 0; i < GFBITS; i++) out[i] = result[i]; } /* bitsliced field inverses */ void vec_inv(vec *out, vec *in) { uint64_t tmp_11[GFBITS]; uint64_t tmp_1111[GFBITS]; vec_copy(out, in); vec_sq(out, out); vec_mul(tmp_11, out, in); // 11 vec_sq(out, tmp_11); vec_sq(out, out); vec_mul(tmp_1111, out, tmp_11); // 1111 vec_sq(out, tmp_1111); vec_sq(out, out); vec_sq(out, out); vec_sq(out, out); vec_mul(out, out, tmp_1111); // 11111111 vec_sq(out, out); vec_sq(out, out); vec_mul(out, out, tmp_11); // 1111111111 vec_sq(out, out); vec_mul(out, out, in); // 11111111111 vec_sq(out, out); // 111111111110 }