-rw-r--r-- 2390 lib25519-20241004/crypto_multiscalar/ed25519/amd64-64/ge25519_unpack.c raw
#include "crypto_verify_32.h"
#include "fe25519.h"
#include "ge25519_unpack.h"
/* d */
static const fe25519 ecd = {{0x75EB4DCA135978A3, 0x00700A4D4141D8AB, 0x8CC740797779E898, 0x52036CEE2B6FFE73}};
/* sqrt(-1) */
static const fe25519 sqrtm1 = {{0xC4EE1B274A0EA0B0, 0x2F431806AD2FE478, 0x2B4D00993DFBD7A7, 0x2B8324804FC1DF0B}};
static const fe25519 zero = {{0,0,0,0}};
static const fe25519 point26_x = {{0x5bf5acbd527f9b28,0xa4564f8c5508aa23,0x4daaa6d39e2975af,0x6fe31a937f53b071}};
static const fe25519 point26_y = {{26,0,0,0}};
/* return 1 on success, 0 otherwise */
int ge25519_unpack_vartime(ge25519_p3 *r, const unsigned char p[32])
{
int ok = 1;
unsigned char pcheck[32];
fe25519 t, chk, num, den, den2, den4, den6;
unsigned char par = p[31] >> 7;
fe25519_setint(&r->z,1);
fe25519_unpack(&r->y, p);
fe25519_pack(pcheck,&r->y);
pcheck[31] |= par<<7;
if (crypto_verify_32(pcheck,p)) ok = 0;
fe25519_square(&num, &r->y); /* x = y^2 */
fe25519_mul(&den, &num, &ecd); /* den = dy^2 */
fe25519_sub(&num, &num, &r->z); /* x = y^2-1 */
fe25519_add(&den, &r->z, &den); /* den = dy^2+1 */
/* Computation of sqrt(num/den)
1.: computation of num^((p-5)/8)*den^((7p-35)/8) = (num*den^7)^((p-5)/8)
*/
fe25519_square(&den2, &den);
fe25519_square(&den4, &den2);
fe25519_mul(&den6, &den4, &den2);
fe25519_mul(&t, &den6, &num);
fe25519_mul(&t, &t, &den);
fe25519_pow2523(&t, &t);
/* 2. computation of r->x = t * num * den^3
*/
fe25519_mul(&t, &t, &num);
fe25519_mul(&t, &t, &den);
fe25519_mul(&t, &t, &den);
fe25519_mul(&r->x, &t, &den);
/* 3. Check whether sqrt computation gave correct result, multiply by sqrt(-1) if not:
*/
fe25519_square(&chk, &r->x);
fe25519_mul(&chk, &chk, &den);
if (!fe25519_iseq_vartime(&chk, &num))
fe25519_mul(&r->x, &r->x, &sqrtm1);
/* 4. Now we have one of the two square roots, except if input was not a square
*/
fe25519_square(&chk, &r->x);
fe25519_mul(&chk, &chk, &den);
if (!fe25519_iseq_vartime(&chk,&num)) ok = 0;
/* 5. Choose the desired square root according to parity:
*/
if(fe25519_getparity(&r->x) == (1-par))
fe25519_sub(&r->x,&zero,&r->x);
if (par && fe25519_iseq_vartime(&r->x,&zero)) ok = 0;
if (!ok) { /* treat all invalid points as point26 */
r->x = point26_x;
r->y = point26_y;
}
fe25519_mul(&r->t, &r->x, &r->y);
return ok;
}