/* -*-c-*-
*
- * $Id: mpmont.c,v 1.6 1999/12/10 23:18:39 mdw Exp $
+ * $Id: mpmont.c,v 1.9 2000/06/17 11:45:09 mdw Exp $
*
* Montgomery reduction
*
/*----- Revision history --------------------------------------------------*
*
* $Log: mpmont.c,v $
+ * Revision 1.9 2000/06/17 11:45:09 mdw
+ * Major memory management overhaul. Added arena support. Use the secure
+ * arena for secret integers. Replace and improve the MP management macros
+ * (e.g., replace MP_MODIFY by MP_DEST).
+ *
+ * Revision 1.8 1999/12/22 15:55:00 mdw
+ * Adjust Karatsuba parameters.
+ *
+ * Revision 1.7 1999/12/11 01:51:14 mdw
+ * Use a Karatsuba-based reduction for large moduli.
+ *
* Revision 1.6 1999/12/10 23:18:39 mdw
* Change interface for suggested destinations.
*
mm->m = MP_COPY(m);
mm->r = MP_ONE;
mm->r2 = MP_ONE;
+ mm->mi = MP_ONE;
}
#else
void mpmont_create(mpmont *mm, mp *m)
{
+ size_t n = MP_LEN(m);
+ mp *r2 = mp_new(2 * n + 1, 0);
+ mp r;
+
/* --- Validate the arguments --- */
assert(((void)"Montgomery modulus must be positive",
mp_shrink(m);
mm->m = MP_COPY(m);
- /* --- Find the magic value @mi@ --- *
- *
- * This is a slightly grungy way of solving the problem, but it does work.
- */
+ /* --- Determine %$R^2$% --- */
- {
- mpw av[2] = { 0, 1 };
- mp a, b;
- mp *i = MP_NEW;
- mpw mi;
+ mm->n = n;
+ MPX_ZERO(r2->v, r2->vl - 1);
+ r2->vl[-1] = 1;
- mp_build(&a, av, av + 2);
- mp_build(&b, m->v, m->v + 1);
- mp_gcd(0, 0, &i, &a, &b);
- mi = i->v[0];
- if (!(i->f & MP_NEG))
- mi = MPW(-mi);
- mm->mi = mi;
- MP_DROP(i);
- }
+ /* --- Find the magic value @mi@ --- */
+
+ mp_build(&r, r2->v + n, r2->vl);
+ mm->mi = MP_NEW;
+ mp_gcd(0, 0, &mm->mi, &r, m);
+ mm->mi = mp_sub(mm->mi, &r, mm->mi);
/* --- Discover the values %$R \bmod m$% and %$R^2 \bmod m$% --- */
- {
- size_t l = MP_LEN(m);
- mp *r = mp_create(2 * l + 1);
-
- mm->shift = l * MPW_BITS;
- MPX_ZERO(r->v, r->vl - 1);
- r->vl[-1] = 1;
- mm->r2 = MP_NEW;
- mp_div(0, &mm->r2, r, m);
- mm->r = mpmont_reduce(mm, MP_NEW, mm->r2);
- MP_DROP(r);
- }
+ mm->r2 = MP_NEW;
+ mp_div(0, &mm->r2, r2, m);
+ mm->r = mpmont_reduce(mm, MP_NEW, mm->r2);
+ MP_DROP(r2);
}
#endif
MP_DROP(mm->m);
MP_DROP(mm->r);
MP_DROP(mm->r2);
+ MP_DROP(mm->mi);
}
/* --- @mpmont_reduce@ --- *
mp *mpmont_reduce(mpmont *mm, mp *d, mp *a)
{
- mpw *dv, *dvl;
- mpw *mv, *mvl;
- size_t n;
-
- /* --- Initial conditioning of the arguments --- */
+ size_t n = mm->n;
+
+ /* --- Check for serious Karatsuba reduction --- */
+
+ if (n > KARATSUBA_CUTOFF * 3) {
+ mp al;
+ mpw *vl;
+ mp *u;
+
+ if (MP_LEN(a) >= n)
+ vl = a->v + n;
+ else
+ vl = a->vl;
+ mp_build(&al, a->v, vl);
+ u = mp_mul(MP_NEW, &al, mm->mi);
+ if (MP_LEN(u) > n)
+ u->vl = u->v + n;
+ u = mp_mul(u, u, mm->m);
+ d = mp_add(d, a, u);
+ mp_drop(u);
+ }
- n = MP_LEN(mm->m);
+ /* --- Otherwise do it the hard way --- */
- if (d == a)
- MP_MODIFY(d, 2 * n + 1);
else {
- MP_MODIFY(d, 2 * n + 1);
- memcpy(d->v, a->v, MPWS(MP_LEN(a)));
- memset(d->v + MP_LEN(a), 0, MPWS(MP_LEN(d) - MP_LEN(a)));
- }
-
- dv = d->v; dvl = d->vl;
- mv = mm->m->v; mvl = mm->m->vl;
+ mpw *dv, *dvl;
+ mpw *mv, *mvl;
+ mpw mi;
+ size_t k = n;
+
+ /* --- Initial conditioning of the arguments --- */
- /* --- Let's go to work --- */
+ a = MP_COPY(a);
+ if (d)
+ MP_DROP(d);
+ d = a;
+ MP_DEST(d, 2 * n + 1, a->f);
+
+ dv = d->v; dvl = d->vl;
+ mv = mm->m->v; mvl = mm->m->vl;
- while (n--) {
- mpw u = MPW(*dv * mm->mi);
- MPX_UMLAN(dv, dvl, mv, mvl, u);
- dv++;
+ /* --- Let's go to work --- */
+
+ mi = mm->mi->v[0];
+ while (k--) {
+ mpw u = MPW(*dv * mi);
+ MPX_UMLAN(dv, dvl, mv, mvl, u);
+ dv++;
+ }
}
- /* --- Done --- */
+ /* --- Wrap everything up --- */
- memmove(d->v, dv, MPWS(dvl - dv));
- d->vl -= dv - d->v;
- MP_SHRINK(d);
- d->f = a->f & MP_BURN;
+ memmove(d->v, d->v + n, MPWS(MP_LEN(d) - n));
+ d->vl -= n;
if (MP_CMP(d, >=, mm->m))
d = mp_sub(d, d, mm->m);
+ MP_SHRINK(d);
return (d);
}
mp *mpmont_mul(mpmont *mm, mp *d, mp *a, mp *b)
{
- if (MP_LEN(a) > KARATSUBA_CUTOFF && MP_LEN(b) > KARATSUBA_CUTOFF) {
+ if (mm->n > KARATSUBA_CUTOFF * 3) {
d = mp_mul(d, a, b);
d = mpmont_reduce(mm, d, d);
} else {
mpw *mv, *mvl;
mpw y;
size_t n, i;
+ mpw mi;
/* --- Initial conditioning of the arguments --- */
a = MP_COPY(a);
b = MP_COPY(b);
- MP_MODIFY(d, 2 * n + 1);
+ MP_DEST(d, 2 * n + 1, a->f | b->f | MP_UNDEF);
dv = d->v; dvl = d->vl;
MPX_ZERO(dv, dvl);
av = a->v; avl = a->vl;
/* --- Montgomery multiplication phase --- */
i = 0;
+ mi = mm->mi->v[0];
while (i < n && av < avl) {
mpw x = *av++;
- mpw u = MPW((*dv + x * y) * mm->mi);
+ mpw u = MPW((*dv + x * y) * mi);
MPX_UMLAN(dv, dvl, bv, bvl, x);
MPX_UMLAN(dv, dvl, mv, mvl, u);
dv++;
/* --- Simpler Montgomery reduction phase --- */
while (i < n) {
- mpw u = MPW(*dv * mm->mi);
+ mpw u = MPW(*dv * mi);
MPX_UMLAN(dv, dvl, mv, mvl, u);
dv++;
i++;
mpscan sc;
mp *ar = mpmont_mul(mm, MP_NEW, a, mm->r2);
mp *x = MP_COPY(mm->r);
- mp *spare = MP_NEW;
+ mp *spare = (e->f & MP_BURN) ? MP_NEWSEC : MP_NEW;
mp_scan(&sc, e);
mpmont_create(&mm, m);
- if (mm.mi != mi->v[0]) {
+ if (mm.mi->v[0] != mi->v[0]) {
fprintf(stderr, "\n*** bad mi: found %lu, expected %lu",
- (unsigned long)mm.mi, (unsigned long)mi->v[0]);
+ (unsigned long)mm.mi->v[0], (unsigned long)mi->v[0]);
fputs("\nm = ", stderr); mp_writefile(m, stderr, 10);
fputc('\n', stderr);
ok = 0;