rand/rand-x86ish.S: Hoist argument register allocation outside.

[catacomb] / math / g-prime.c

/* -*-c-*-
 *
 * Abstraction for prime groups
 *
 * (c) 2004 Straylight/Edgeware
 */

/*----- Licensing notice --------------------------------------------------*
 *
 * This file is part of Catacomb.
 *
 * Catacomb is free software; you can redistribute it and/or modify
 * it under the terms of the GNU Library General Public License as
 * published by the Free Software Foundation; either version 2 of the
 * License, or (at your option) any later version.
 *
 * Catacomb is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 * GNU Library General Public License for more details.
 *
 * You should have received a copy of the GNU Library General Public
 * License along with Catacomb; if not, write to the Free
 * Software Foundation, Inc., 59 Temple Place - Suite 330, Boston,
 * MA 02111-1307, USA.
 */

/*----- Header files ------------------------------------------------------*/

#include <mLib/sub.h>

#include "mpmont.h"
#include "pgen.h"

#define ge ge_prime
#include "group-guts.h"

/*----- Main code ---------------------------------------------------------*/

/* --- Group operations --- */

static void gdestroygroup(group *gg) {
  gctx_prime *g = (gctx_prime *)gg;
  mp_drop(g->gen.x); mp_drop(g->g.r); mp_drop(g->g.h);
  mpmont_destroy(&g->mm);
  DESTROY(g);
}

static ge_prime *gcreate(group *gg) {
  gctx_prime *g = (gctx_prime *)gg; ge_prime *x = CREATE(ge_prime);
  x->x = MP_COPY(g->i.x); return (x);
}

static void gcopy(group *gg, ge_prime *d, ge_prime *x)
  { mp *t = MP_COPY(x->x); MP_DROP(d->x); d->x = t; }

static void gburn(group *gg, ge_prime *x) { x->x->f |= MP_BURN; }

static void gdestroy(group *gg, ge_prime *x) { MP_DROP(x->x); DESTROY(x); }

static int gsamep(group *gg, group *hh) {
  gctx_prime *g = (gctx_prime *)gg, *h = (gctx_prime *)hh;
  return (MP_EQ(g->mm.m, h->mm.m));
}

static int geq(group *gg, ge_prime *x, ge_prime *y)
  { return (MP_EQ(x->x, y->x)); }

static const char *gcheck(group *gg, grand *gr) {
  gctx_prime *g = (gctx_prime *)gg; int rc; mp *t;
  if (!pgen_primep(g->mm.m, gr)) return ("p is not prime");
  t = mp_mul(MP_NEW, g->g.r, g->g.h); t = mp_add(t, t, MP_ONE);
  rc = MP_EQ(t, g->mm.m); MP_DROP(t); if (!rc) return ("not a subgroup");
  return (group_stdcheck(gg, gr));
}

static void gmul(group *gg, ge_prime *d, ge_prime *x, ge_prime *y) {
  gctx_prime *g = (gctx_prime *)gg;
  d->x = mpmont_mul(&g->mm, d->x, x->x, y->x);
}

static void gsqr(group *gg, ge_prime *d, ge_prime *x) {
  gctx_prime *g = (gctx_prime *)gg; mp *r = mp_sqr(d->x, x->x);
  d->x = mpmont_reduce(&g->mm, r, r);
}

static void ginv(group *gg, ge_prime *d, ge_prime *x) {
  gctx_prime *g = (gctx_prime *)gg;
  mp *r = mpmont_reduce(&g->mm, d->x, x->x);
  r = mp_modinv(r, r, g->mm.m); d->x = mpmont_mul(&g->mm, r, r, g->mm.r2);
}

static void gexp(group *gg, ge_prime *d, ge_prime *x, mp *n)
{
  gctx_prime *g = (gctx_prime *)gg;
  d->x = mpmont_expr(&g->mm, d->x, x->x, n);
}

static void gmexp(group *gg, ge_prime *d, const group_expfactor *f, size_t n)
{
  gctx_prime *g = (gctx_prime *)gg; size_t i;
  mp_expfactor *ff = xmalloc(n * sizeof(mp_expfactor));
  for (i = 0; i < n; i++)
    { ff[i].base = f[i].base->x; ff[i].exp = f[i].exp; }
  d->x = mpmont_mexpr(&g->mm, d->x, ff, n); xfree(ff);
}

static int gread(group *gg, ge_prime *d, const mptext_ops *ops, void *p) {
  gctx_prime *g = (gctx_prime *)gg; mp *t;
  if ((t = mp_read(MP_NEW, 0, ops, p)) == 0) return (-1);
  mp_drop(d->x); d->x = mpmont_mul(&g->mm, t, t, g->mm.r2); return (0);
}

static int gwrite(group *gg, ge_prime *x, const mptext_ops *ops, void *p) {
  gctx_prime *g = (gctx_prime *)gg;
  mp *t = mpmont_reduce(&g->mm, MP_NEW, x->x);
  int rc = mp_write(t, 10, ops, p); MP_DROP(t); return (rc);
}

static mp *gtoint(group *gg, mp *d, ge_prime *x) {
  gctx_prime *g = (gctx_prime *)gg;
  return (mpmont_reduce(&g->mm, d, x->x));
}

static int gfromint(group *gg, ge_prime *d, mp *x) {
  gctx_prime *g = (gctx_prime *)gg; mp_div(0, &d->x, x, g->mm.m);
  d->x = mpmont_mul(&g->mm, d->x, d->x, g->mm.r2); return (0);
}

static int gtobuf(group *gg, buf *b, ge_prime *x) {
  gctx_prime *g = (gctx_prime *)gg;
  mp *t = mpmont_reduce(&g->mm, MP_NEW, x->x);
  int rc = buf_putmp(b, t); MP_DROP(t); return (rc);
}

static int gfrombuf(group *gg, buf *b, ge_prime *d) {
  gctx_prime * g = (gctx_prime *)gg; mp *x;
  if ((x = buf_getmp(b)) == 0) return (-1);
  mp_div(0, &x, x, g->mm.m); mp_drop(d->x);
  d->x = mpmont_mul(&g->mm, x, x, g->mm.r2); return(0);
}

static int gtoraw(group *gg, buf *b, ge_prime *x) {
  gctx_prime *g = (gctx_prime *)gg; octet *q;
  mp *t = mpmont_reduce(&g->mm, MP_NEW, x->x);
  if ((q = buf_get(b, g->g.noctets)) == 0) { MP_DROP(t); return (-1); }
  mp_storeb(t, q, g->g.noctets); MP_DROP(t); return (0);
}

static int gfromraw(group *gg, buf *b, ge_prime *d) {
  gctx_prime * g = (gctx_prime *)gg; mp *x; octet *q;
  if ((q = buf_get(b, g->g.noctets)) == 0) return (-1);
  x = mp_loadb(MP_NEW, q, g->g.noctets);
  mp_div(0, &x, x, g->mm.m); mp_drop(d->x);
  d->x = mpmont_mul(&g->mm, x, x, g->mm.r2); return(0);
}

/* --- @group_prime@ --- *
 *
 * Arguments:   @const gprime_param *gp@ = group parameters
 *
 * Returns:     A pointer to the group, or null.
 *
 * Use:         Constructs an abstract group interface for a subgroup of a
 *              prime field.  Group elements are @mp *@ pointers.
 */

static const group_ops gops = {
  GTY_PRIME, "prime",
  gdestroygroup, gcreate, gcopy, gburn, gdestroy,
  gsamep, geq, group_stdidentp,
  gcheck,
  gmul, gsqr, ginv, group_stddiv, gexp, gmexp,
  gread, gwrite,
  gtoint, gfromint, group_stdtoec, group_stdfromec, gtobuf, gfrombuf,
  gtoraw, gfromraw
};

group *group_prime(const gprime_param *gp)
{
  gctx_prime *g;

  if (!MP_POSP(gp->p) || !MP_ODDP(gp->p))
    return (0);
  g = CREATE(gctx_prime);
  g->g.ops = &gops;
  g->g.nbits = mp_bits(gp->p);
  g->g.noctets = (g->g.nbits + 7) >> 3;
  mpmont_create(&g->mm, gp->p);
  g->i.x = g->mm.r; g->g.i = &g->i;
  g->gen.x = mpmont_mul(&g->mm, MP_NEW, gp->g, g->mm.r2);
  g->g.g = &g->gen;
  g->g.r = MP_COPY(gp->q);
  g->g.h = MP_NEW; mp_div(&g->g.h, 0, gp->p, gp->q);
  return (&g->g);
}

/*----- That's all, folks -------------------------------------------------*/