-rw-r--r-- 2557 lib25519-20240928/crypto_multiscalar/ed25519/amd64-avx2-9l-maa4-p3/multiscalar.c raw
#include "crypto_multiscalar.h"
#include "fe25519.h"
#include "sc25519.h"
#include "ge25519.h"
#include "crypto_verify_32.h"
#include "ge25519_unpack.h"
// warning: these constants are not encapsulated
#define P_WINDOWSIZE 5
#define P_MULTIPLES (1<<(P_WINDOWSIZE-2))
static void ge25519_sub(ge25519_p3 *r, const ge25519_p3 *p, const ge25519_p3 *q)
{
ge25519_p3 qneg;
fe25519_neg(&qneg.x,&q->x);
fe25519_neg(&qneg.t,&q->t);
qneg.y = q->y;
qneg.z = q->z;
ge25519_add(r,p,&qneg);
}
static void ge25519_multi_scalarmult_precompute(ge25519_p3 *cP, const ge25519_p3 *P, unsigned long long multiples)
{
CRYPTO_ALIGN(32) ge25519_p3 twoP;
ge25519_double(&twoP,P);
cP[0] = *P;
for (long long i = 0;i < multiples-1;++i)
ge25519_add(&cP[i+1],&twoP,&cP[i]);
}
static void ge25519_p3_0(ge25519_p3 *r)
{
fe25519_setint(&r->x,0);
fe25519_setint(&r->y,1);
fe25519_setint(&r->z,1);
fe25519_setint(&r->t,0);
}
static void ge25519_multi_scalarmult_process(ge25519_p3 *r, const signed char (*nslide)[256], const ge25519_p3 (*cP)[P_MULTIPLES], long long num)
{
int maybenonzero = 0;
ge25519_p3_0(r);
for (long long i = 255;i >= 0;--i) {
if (maybenonzero)
ge25519_double(r,r);
for (long long j = 0;j < num;++j) {
signed char c = nslide[j][i];
if (c == 0) continue;
maybenonzero = 1;
if (c > 0)
ge25519_add(r,r,&cP[j][c/2]);
else
ge25519_sub(r,r,&cP[j][-c/2]);
}
}
}
#define MAXTODO 16
void crypto_multiscalar(
unsigned char *Q,
const unsigned char *n,
const unsigned char *P,
long long len
)
{
int ok = 1;
CRYPTO_ALIGN(32) ge25519_p3 bigresult;
ge25519_p3_0(&bigresult);
while (len > 0) {
signed char nslide[MAXTODO][256];
CRYPTO_ALIGN(32)
ge25519_p3 cP[MAXTODO][P_MULTIPLES]; /* P,3P,5P,7P,9P,11P,13P,15P */
long long todo = MAXTODO;
if (len < todo) todo = len;
for (long long j = 0;j < todo;++j) {
sc25519 nj;
unsigned char njcheck[32];
ge25519_p3 Pj;
sc25519_from32bytes(&nj,n);
sc25519_to32bytes(njcheck,&nj);
if (crypto_verify_32(njcheck,n)) ok = 0;
sc25519_slide(nslide[j],&nj,P_WINDOWSIZE);
ok &= ge25519_unpack_vartime(&Pj,P);
ge25519_multi_scalarmult_precompute(cP[j],&Pj,P_MULTIPLES);
P += 32;
n += 32;
--len;
}
{
CRYPTO_ALIGN(32) ge25519_p3 u;
ge25519_multi_scalarmult_process(&u,nslide,cP,todo);
ge25519_add(&bigresult,&bigresult,&u);
}
}
ge25519_pack(Q,(ge25519_p2 *) &bigresult);
Q[32] = ok;
}