#include <string.h>
+#include <mLib/macros.h>
+
#include "f25519.h"
#include "ed25519.h"
#include "scaf.h"
+#include "scmul.h"
#include "sha512.h"
/*----- Key fetching ------------------------------------------------------*/
/* (E = a C = -C) */
f25519_sub(&t0, &t2, &t1); /* t0 = F = D - C = E + D */
f25519_sqr(&t1, Z0); /* t1 = H = Z0^2 */
- f25519_mulconst(&t1, &t1, 2); /* t1 = 2 H */
+ f25519_add(&t1, &t1, &t1); /* t1 = 2 H */
f25519_sub(&t1, &t0, &t1); /* t1 = J = F - 2 H */
f25519_mul(X, X, &t1); /* X = (B - C - D) J */
f25519_mul(Y, Y, &t0); /* Y = -F (E - D) */
f25519_mul(Z, &t0, &t1); /* Z = F J */
}
-static void ptmul(f25519 *X, f25519 *Y, f25519 *Z,
- const scaf_piece n[NPIECE],
- const f25519 *X0, const f25519 *Y0, const f25519 *Z0)
-{
- /* We assume that the window width divides the scalar piece width. */
-#define WINWD 4
-#define WINLIM (1 << WINWD)
-#define WINMASK (WINLIM - 1)
-#define TABSZ (WINLIM/2 + 1)
-
- f25519 VX[TABSZ], VY[TABSZ], VZ[TABSZ];
- f25519 TX, TY, TZ, UX, UY, UZ;
- unsigned i, j, k, w;
- uint32 m_neg;
- scaf_piece ni;
-
- /* Build a table of small multiples. */
- f25519_set(&VX[0], 0); f25519_set(&VY[0], 1); f25519_set(&VZ[0], 1);
- VX[1] = *X0; VY[1] = *Y0; VZ[1] = *Z0;
- ptdbl(&VX[2], &VY[2], &VZ[2], &VX[1], &VY[1], &VZ[1]);
- for (i = 3; i < TABSZ; i += 2) {
- ptadd(&VX[i], &VY[i], &VZ[i],
- &VX[i - 1], &VY[i - 1], &VZ[i - 1], X0, Y0, Z0);
- ptdbl(&VX[i + 1], &VY[i + 1], &VZ[i + 1],
- &VX[(i + 1)/2], &VY[(i + 1)/2], &VZ[(i + 1)/2]);
- }
-
- /* Now do the multiplication. We lag a window behind the cursor position
- * because of the scalar recoding we do.
- */
- f25519_set(&TX, 0); f25519_set(&TY, 1); f25519_set(&TZ, 1);
- for (i = NPIECE, w = 0, m_neg = 0; i--; ) {
- ni = n[i];
-
- /* Work through each window in the scalar piece. */
- for (j = 0; j < PIECEWD; j += WINWD) {
-
- /* Shift along by a window. */
- for (k = 0; k < WINWD; k++) ptdbl(&TX, &TY, &TZ, &TX, &TY, &TZ);
-
- /* Peek at the next window of four bits. If the top bit is set we lend
- * a bit leftwards, into w. It's too late for this to affect the sign
- * now, but if we negated earlier then the addition would be wrong.
- */
- w += (ni >> (PIECEWD - 1))&0x1u;
- w = ((WINLIM - w)&m_neg) | (w&~m_neg);
-
- /* Collect the entry from the table, and add or subtract. */
- f25519_pickn(&UX, VX, TABSZ, w);
- f25519_pickn(&UY, VY, TABSZ, w);
- f25519_pickn(&UZ, VZ, TABSZ, w);
- f25519_condneg(&UX, &UX, m_neg);
- ptadd(&TX, &TY, &TZ, &TX, &TY, &TZ, &UX, &UY, &UZ);
-
- /* Move the next window into the delay slot. If its top bit is set,
- * then negate it and set m_neg.
- */
- w = (ni >> (PIECEWD - WINWD))&WINMASK;
- m_neg = -(uint32)((w >> (WINWD - 1))&0x1u);
- ni <<= WINWD;
- }
- }
-
- /* Do the final window. Just fix the sign and go. */
- for (k = 0; k < WINWD; k++) ptdbl(&TX, &TY, &TZ, &TX, &TY, &TZ);
- w = ((WINLIM - w)&m_neg) | (w&~m_neg);
- f25519_pickn(&UX, VX, TABSZ, w);
- f25519_pickn(&UY, VY, TABSZ, w);
- f25519_pickn(&UZ, VZ, TABSZ, w);
- f25519_condneg(&UX, &UX, m_neg);
- ptadd(X, Y, Z, &TX, &TY, &TZ, &UX, &UY, &UZ);
-
-#undef WINWD
-#undef WINLIM
-#undef WINMASK
-#undef TABSZ
-}
-
-static void ptsimmul(f25519 *X, f25519 *Y, f25519 *Z,
- const scaf_piece n0[NPIECE],
- const f25519 *X0, const f25519 *Y0, const f25519 *Z0,
- const scaf_piece n1[NPIECE],
- const f25519 *X1, const f25519 *Y1, const f25519 *Z1)
-{
- /* We assume that the window width divides the scalar piece width. */
-#define WINWD 2
-#define WINLIM (1 << WINWD)
-#define WINMASK (WINLIM - 1)
-#define TABSZ (1 << 2*WINWD)
-
- f25519 VX[TABSZ], VY[TABSZ], VZ[TABSZ];
- f25519 TX, TY, TZ, UX, UY, UZ;
- unsigned i, j, k, w, ni0, ni1;
-
- /* Build a table of small linear combinations. */
- f25519_set(&VX[0], 0); f25519_set(&VY[0], 1); f25519_set(&VZ[0], 1);
- VX[1] = *X0; VX[WINLIM] = *X1;
- VY[1] = *Y0; VY[WINLIM] = *Y1;
- VZ[1] = *Z0; VZ[WINLIM] = *Z1;
- for (i = 2; i < WINLIM; i <<= 1) {
- ptdbl(&VX[i], &VY[i], &VZ[i],
- &VX[i/2], &VY[i/2], &VZ[i/2]);
- ptdbl(&VX[i*WINLIM], &VY[i*WINLIM], &VZ[i*WINLIM],
- &VX[i*WINLIM/2], &VY[i*WINLIM/2], &VZ[i*WINLIM/2]);
- }
- for (i = 2; i < TABSZ; i <<= 1) {
- for (j = 1; j < i; j++)
- ptadd(&VX[i + j], &VY[i + j], &VZ[i + j],
- &VX[i], &VY[i], &VZ[i], &VX[j], &VY[j], &VZ[j]);
- }
-
- /* Do the multiplication. */
- f25519_set(&TX, 0); f25519_set(&TY, 1); f25519_set(&TZ, 1);
- for (i = NPIECE; i--; ) {
- ni0 = n0[i]; ni1 = n1[i];
-
- /* Work through each window in the scalar pieces. */
- for (j = 0; j < PIECEWD; j += WINWD) {
-
- /* Shift along by a window. */
- for (k = 0; k < WINWD; k++) ptdbl(&TX, &TY, &TZ, &TX, &TY, &TZ);
-
- /* Collect the next window from the scalars. */
- w = ((ni0 >> (PIECEWD - WINWD))&WINMASK) |
- ((ni1 >> (PIECEWD - 2*WINWD))&(WINMASK << WINWD));
- ni0 <<= WINWD; ni1 <<= WINWD;
-
- /* Collect the entry from the table, and add. */
- f25519_pickn(&UX, VX, TABSZ, w);
- f25519_pickn(&UY, VY, TABSZ, w);
- f25519_pickn(&UZ, VZ, TABSZ, w);
- ptadd(&TX, &TY, &TZ, &TX, &TY, &TZ, &UX, &UY, &UZ);
- }
- }
-
- /* Done. */
- *X = TX; *Y = TY; *Z = TZ;
-}
+static DEFINE_SCMUL(ptmul, f25519, 4, PIECEWD, NPIECE, ptadd, ptdbl)
+static DEFINE_SCSIMMUL(ptsimmul, f25519, 2, PIECEWD, NPIECE, ptadd, ptdbl)
/*----- Key derivation utilities ------------------------------------------*/
const void *m, size_t msz)
{
sha512_ctx h;
- scaf_piece a[NPIECE], r[NPIECE], t[NPIECE], scratch[3*NPIECE + 1];
+ scaf_piece a[NPIECE], r[NPIECE], t[NPIECE], scratch[3*NPIECE];
scaf_dblpiece tt[2*NPIECE];
f25519 RX, RY, RZ;
octet h1[32], pb[PREFIX_BUFSZ], rb[SHA512_HASHSZ];
const octet sig[ED25519_SIGSZ])
{
sha512_ctx h;
- scaf_piece s[NPIECE], t[NPIECE], scratch[3*NPIECE + 1];
+ scaf_piece s[NPIECE], t[NPIECE], scratch[3*NPIECE];
scaf_dblpiece tt[2*NPIECE];
f25519 AX, AY, AZ, RX, RY, RZ;
octet b[PREFIX_BUFSZ];
scaf_loaddbl(tt, sig + 32, 32, 2*NPIECE, PIECEWD);
scaf_reduce(s, tt, l, mu, NPIECE, PIECEWD, scratch);
scaf_store(b, 32, s, NPIECE, PIECEWD);
- if (memcmp(b, sig + 32, 32) != 0) return (-1);
+ if (MEMCMP(b, !=, sig + 32, 32)) return (-1);
/* Check the signature. */
psz = prefix(b, phflag, p, psz);
scaf_reduce(t, tt, l, mu, NPIECE, PIECEWD, scratch);
ptsimmul(&RX, &RY, &RZ, s, BX, BY, BZ, t, &AX, &AY, &AZ);
ptencode(b, &RX, &RY, &RZ);
- if (memcmp(b, sig, 32) != 0) return (-1);
+ if (MEMCMP(b, !=, sig, 32)) return (-1);
/* All is good. */
return (0);
#include <mLib/report.h>
#include <mLib/testrig.h>
+#include "ct.h"
+
static int vrf_pubkey(dstr dv[])
{
dstr dpub = DSTR_INIT;
if (dv[1].len != ED25519_PUBSZ) die(1, "bad pub length");
+ ct_poison(dv[0].buf, dv[0].len);
dstr_ensure(&dpub, ED25519_PUBSZ); dpub.len = ED25519_PUBSZ;
ed25519_pubkey((octet *)dpub.buf, dv[0].buf, dv[0].len);
- if (memcmp(dpub.buf, dv[1].buf, ED25519_PUBSZ) != 0) {
+ ct_remedy(dpub.buf, dpub.len);
+ if (MEMCMP(dpub.buf, !=, dv[1].buf, ED25519_PUBSZ)) {
ok = 0;
fprintf(stderr, "failed!");
fprintf(stderr, "\n\tpriv = "); type_hex.dump(&dv[0], stderr);
if (want->len != ED25519_SIGSZ) die(1, "bad result length");
+ ct_poison(priv->buf, priv->len);
dstr_ensure(&dsig, ED25519_SIGSZ); dsig.len = ED25519_SIGSZ;
if (phflag <= 0)
m = msg;
ed25519ctx_sign((octet *)dsig.buf, priv->buf, priv->len, K,
phflag, perso ? perso->buf : 0, perso ? perso->len : 0,
m->buf, m->len);
- if (memcmp(dsig.buf, want->buf, ED25519_SIGSZ) != 0) {
+ ct_remedy(dsig.buf, dsig.len);
+ if (MEMCMP(dsig.buf, !=, want->buf, ED25519_SIGSZ)) {
ok = 0;
fprintf(stderr, "failed!");
fprintf(stderr, "\n\tpriv = "); type_hex.dump(priv, stderr);