[u/mdw/catacomb] / mpmont.c

/* -*-c-*-
 *
 * $Id: mpmont.c,v 1.7 1999/12/11 01:51:14 mdw Exp $
 *
 * Montgomery reduction
 *
 * (c) 1999 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.
 */

/*----- Revision history --------------------------------------------------* 
 *
 * $Log: mpmont.c,v $
 * 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.
 *
 * Revision 1.5  1999/11/22 13:58:40  mdw
 * Add an option to disable Montgomery reduction, so that performance
 * comparisons can be done.
 *
 * Revision 1.4  1999/11/21 12:27:06  mdw
 * Remove a division from the Montgomery setup by calculating
 * %$R^2 \bmod m$% first and then %$R \bmod m$% by Montgomery reduction of
 * %$R^2$%.
 *
 * Revision 1.3  1999/11/21 11:35:10  mdw
 * Performance improvement: use @mp_sqr@ and @mpmont_reduce@ instead of
 * @mpmont_mul@ for squaring in exponentiation.
 *
 * Revision 1.2  1999/11/19 13:17:26  mdw
 * Add extra interface to exponentiation which returns a Montgomerized
 * result.
 *
 * Revision 1.1  1999/11/17 18:02:16  mdw
 * New multiprecision integer arithmetic suite.
 *
 */

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

#include "mp.h"
#include "mpmont.h"

/*----- Tweakables --------------------------------------------------------*/

/* --- @MPMONT_DISABLE@ --- *
 *
 * Replace all the clever Montgomery reduction with good old-fashioned long
 * division.
 */

/* #define MPMONT_DISABLE */

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

/* --- @mpmont_create@ --- *
 *
 * Arguments:	@mpmont *mm@ = pointer to Montgomery reduction context
 *		@mp *m@ = modulus to use
 *
 * Returns:	---
 *
 * Use:		Initializes a Montgomery reduction context ready for use.
 *		The argument @m@ must be a positive odd integer.
 */

#ifdef MPMONT_DISABLE

void mpmont_create(mpmont *mm, mp *m)
{
  mp_shrink(m);
  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_create(2 * n + 1);
  mp r;

  /* --- Validate the arguments --- */

  assert(((void)"Montgomery modulus must be positive",
	  (m->f & MP_NEG) == 0));
  assert(((void)"Montgomery modulus must be odd", m->v[0] & 1));

  /* --- Take a copy of the modulus --- */

  mp_shrink(m);
  mm->m = MP_COPY(m);

  /* --- Determine %$R^2$% --- */

  mm->n = n;
  MPX_ZERO(r2->v, r2->vl - 1);
  r2->vl[-1] = 1;

  /* --- 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 %$R^2 \bmod m$% --- */

  mm->r2 = MP_NEW;
  mp_div(0, &mm->r2, r2, m);
  mm->r = mpmont_reduce(mm, MP_NEW, mm->r2);
  MP_DROP(r2);
}

#endif

/* --- @mpmont_destroy@ --- *
 *
 * Arguments:	@mpmont *mm@ = pointer to a Montgomery reduction context
 *
 * Returns:	---
 *
 * Use:		Disposes of a context when it's no longer of any use to
 *		anyone.
 */

void mpmont_destroy(mpmont *mm)
{
  MP_DROP(mm->m);
  MP_DROP(mm->r);
  MP_DROP(mm->r2);
  MP_DROP(mm->mi);
}

/* --- @mpmont_reduce@ --- *
 *
 * Arguments:	@mpmont *mm@ = pointer to Montgomery reduction context
 *		@mp *d@ = destination
 *		@mp *a@ = source, assumed positive
 *
 * Returns:	Result, %$a R^{-1} \bmod m$%.
 */

#ifdef MPMONT_DISABLE

mp *mpmont_reduce(mpmont *mm, mp *d, mp *a)
{
  mp_div(0, &d, a, mm->m);
  return (d);
}

#else

mp *mpmont_reduce(mpmont *mm, mp *d, mp *a)
{
  size_t n = mm->n;

  /* --- Check for serious Karatsuba reduction --- */

  if (n > KARATSUBA_CUTOFF * 2) {
    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);
  }

  /* --- Otherwise do it the hard way --- */

  else {
    mpw *dv, *dvl;
    mpw *mv, *mvl;
    mpw mi;
    size_t k = n;

    /* --- Initial conditioning of the arguments --- */

    if (d == a)
      MP_MODIFY(d, 2 * n + 1);
    else {
      MP_MODIFY(d, 2 * n + 1);
      MPX_COPY(d->v, d->vl, a->v, a->vl);
    }
    
    dv = d->v; dvl = d->vl;
    mv = mm->m->v; mvl = mm->m->vl;

    /* --- 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++;
    }
  }

  /* --- Wrap everything up --- */

  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);
}

#endif

/* --- @mpmont_mul@ --- *
 *
 * Arguments:	@mpmont *mm@ = pointer to Montgomery reduction context
 *		@mp *d@ = destination
 *		@mp *a, *b@ = sources, assumed positive
 *
 * Returns:	Result, %$a b R^{-1} \bmod m$%.
 */

#ifdef MPMONT_DISABLE

mp *mpmont_mul(mpmont *mm, mp *d, mp *a, mp *b)
{
  d = mp_mul(d, a, b);
  mp_div(0, &d, d, mm->m);
  return (d);
}

#else

mp *mpmont_mul(mpmont *mm, mp *d, mp *a, mp *b)
{
  if (mm->n > KARATSUBA_CUTOFF * 2) {
    d = mp_mul(d, a, b);
    d = mpmont_reduce(mm, d, d);
  } else {
    mpw *dv, *dvl;
    mpw *av, *avl;
    mpw *bv, *bvl;
    mpw *mv, *mvl;
    mpw y;
    size_t n, i;
    mpw mi;

    /* --- Initial conditioning of the arguments --- */

    if (MP_LEN(a) > MP_LEN(b)) {
      mp *t = a; a = b; b = t;
    }
    n = MP_LEN(mm->m);

    a = MP_COPY(a);
    b = MP_COPY(b);
    MP_MODIFY(d, 2 * n + 1);
    dv = d->v; dvl = d->vl;
    MPX_ZERO(dv, dvl);
    av = a->v; avl = a->vl;
    bv = b->v; bvl = b->vl;
    mv = mm->m->v; mvl = mm->m->vl;
    y = *bv;

    /* --- Montgomery multiplication phase --- */

    i = 0;
    mi = mm->mi->v[0];
    while (i < n && av < avl) {
      mpw x = *av++;
      mpw u = MPW((*dv + x * y) * mi);
      MPX_UMLAN(dv, dvl, bv, bvl, x);
      MPX_UMLAN(dv, dvl, mv, mvl, u);
      dv++;
      i++;
    }

    /* --- Simpler Montgomery reduction phase --- */

    while (i < n) {
      mpw u = MPW(*dv * mi);
      MPX_UMLAN(dv, dvl, mv, mvl, u);
      dv++;
      i++;
    }

    /* --- Done --- */

    memmove(d->v, dv, MPWS(dvl - dv));
    d->vl -= dv - d->v;
    MP_SHRINK(d);
    d->f = (a->f | b->f) & MP_BURN;
    if (MP_CMP(d, >=, mm->m))
      d = mp_sub(d, d, mm->m);
    MP_DROP(a);
    MP_DROP(b);
  }

  return (d);
}

#endif

/* --- @mpmont_expr@ --- *
 *
 * Arguments:	@mpmont *mm@ = pointer to Montgomery reduction context
 *		@mp *d@ = fake destination
 *		@mp *a@ = base
 *		@mp *e@ = exponent
 *
 * Returns:	Result, %$a^e R \bmod m$%.
 */

mp *mpmont_expr(mpmont *mm, mp *d, mp *a, mp *e)
{
  mpscan sc;
  mp *ar = mpmont_mul(mm, MP_NEW, a, mm->r2);
  mp *x = MP_COPY(mm->r);
  mp *spare = MP_NEW;

  mp_scan(&sc, e);

  if (MP_STEP(&sc)) {
    size_t sq = 0;
    for (;;) {
      mp *dd;
      if (MP_BIT(&sc)) {
	while (sq) {
	  dd = mp_sqr(spare, ar);
	  dd = mpmont_reduce(mm, dd, dd);
	  spare = ar; ar = dd;
	  sq--;
	}
	dd = mpmont_mul(mm, spare, x, ar);
	spare = x; x = dd;
      }
      sq++;
      if (!MP_STEP(&sc))
	break;
    }
  }
  MP_DROP(ar);
  if (spare != MP_NEW)
    MP_DROP(spare);
  if (d != MP_NEW)
    MP_DROP(d);
  return (x);
}

/* --- @mpmont_exp@ --- *
 *
 * Arguments:	@mpmont *mm@ = pointer to Montgomery reduction context
 *		@mp *d@ = fake destination
 *		@mp *a@ = base
 *		@mp *e@ = exponent
 *
 * Returns:	Result, %$a^e \bmod m$%.
 */

mp *mpmont_exp(mpmont *mm, mp *d, mp *a, mp *e)
{
  d = mpmont_expr(mm, d, a, e);
  d = mpmont_reduce(mm, d, d);
  return (d);
}

/*----- Test rig ----------------------------------------------------------*/

#ifdef TEST_RIG

static int tcreate(dstr *v)
{
  mp *m = *(mp **)v[0].buf;
  mp *mi = *(mp **)v[1].buf;
  mp *r = *(mp **)v[2].buf;
  mp *r2 = *(mp **)v[3].buf;

  mpmont mm;
  int ok = 1;

  mpmont_create(&mm, m);

  if (mm.mi->v[0] != mi->v[0]) {
    fprintf(stderr, "\n*** bad mi: found %lu, expected %lu",
	    (unsigned long)mm.mi->v[0], (unsigned long)mi->v[0]);
    fputs("\nm = ", stderr); mp_writefile(m, stderr, 10);
    fputc('\n', stderr);
    ok = 0;
  }

  if (MP_CMP(mm.r, !=, r)) {
    fputs("\n*** bad r", stderr);
    fputs("\nm = ", stderr); mp_writefile(m, stderr, 10);
    fputs("\nexpected ", stderr); mp_writefile(r, stderr, 10);
    fputs("\n   found ", stderr); mp_writefile(mm.r, stderr, 10);
    fputc('\n', stderr);
    ok = 0;
  }

  if (MP_CMP(mm.r2, !=, r2)) {
    fputs("\n*** bad r2", stderr);
    fputs("\nm = ", stderr); mp_writefile(m, stderr, 10);
    fputs("\nexpected ", stderr); mp_writefile(r2, stderr, 10);
    fputs("\n   found ", stderr); mp_writefile(mm.r2, stderr, 10);
    fputc('\n', stderr);
    ok = 0;
  }

  MP_DROP(m);
  MP_DROP(mi);
  MP_DROP(r);
  MP_DROP(r2);
  mpmont_destroy(&mm);
  assert(mparena_count(MPARENA_GLOBAL) == 0);
  return (ok);
}

static int tmul(dstr *v)
{
  mp *m = *(mp **)v[0].buf;
  mp *a = *(mp **)v[1].buf;
  mp *b = *(mp **)v[2].buf;
  mp *r = *(mp **)v[3].buf;
  int ok = 1;

  mpmont mm;
  mpmont_create(&mm, m);

  {
    mp *qr = mp_mul(MP_NEW, a, b);
    mp_div(0, &qr, qr, m);

    if (MP_CMP(qr, !=, r)) {
      fputs("\n*** classical modmul failed", stderr);
      fputs("\n m = ", stderr); mp_writefile(m, stderr, 10);
      fputs("\n a = ", stderr); mp_writefile(a, stderr, 10);
      fputs("\n b = ", stderr); mp_writefile(b, stderr, 10);
      fputs("\n r = ", stderr); mp_writefile(r, stderr, 10);
      fputs("\nqr = ", stderr); mp_writefile(qr, stderr, 10);
      fputc('\n', stderr);
      ok = 0;
    }

    mp_drop(qr);
  }

  {
    mp *ar = mpmont_mul(&mm, MP_NEW, a, mm.r2);
    mp *br = mpmont_mul(&mm, MP_NEW, b, mm.r2);
    mp *mr = mpmont_mul(&mm, MP_NEW, ar, br);
    mr = mpmont_reduce(&mm, mr, mr);
    if (MP_CMP(mr, !=, r)) {
      fputs("\n*** montgomery modmul failed", stderr);
      fputs("\n m = ", stderr); mp_writefile(m, stderr, 10);
      fputs("\n a = ", stderr); mp_writefile(a, stderr, 10);
      fputs("\n b = ", stderr); mp_writefile(b, stderr, 10);
      fputs("\n r = ", stderr); mp_writefile(r, stderr, 10);
      fputs("\nmr = ", stderr); mp_writefile(mr, stderr, 10);
      fputc('\n', stderr);
      ok = 0;
    }
    MP_DROP(ar); MP_DROP(br);
    mp_drop(mr);
  }


  MP_DROP(m);
  MP_DROP(a);
  MP_DROP(b);
  MP_DROP(r);
  mpmont_destroy(&mm);
  assert(mparena_count(MPARENA_GLOBAL) == 0);
  return ok;
}

static int texp(dstr *v)
{
  mp *m = *(mp **)v[0].buf;
  mp *a = *(mp **)v[1].buf;
  mp *b = *(mp **)v[2].buf;
  mp *r = *(mp **)v[3].buf;
  mp *mr;
  int ok = 1;

  mpmont mm;
  mpmont_create(&mm, m);

  mr = mpmont_exp(&mm, MP_NEW, a, b);

  if (MP_CMP(mr, !=, r)) {
    fputs("\n*** montgomery modexp failed", stderr);
    fputs("\n m = ", stderr); mp_writefile(m, stderr, 10);
    fputs("\n a = ", stderr); mp_writefile(a, stderr, 10);
    fputs("\n e = ", stderr); mp_writefile(b, stderr, 10);
    fputs("\n r = ", stderr); mp_writefile(r, stderr, 10);
    fputs("\nmr = ", stderr); mp_writefile(mr, stderr, 10);
    fputc('\n', stderr);
    ok = 0;
  }

  MP_DROP(m);
  MP_DROP(a);
  MP_DROP(b);
  MP_DROP(r);
  MP_DROP(mr);
  mpmont_destroy(&mm);
  assert(mparena_count(MPARENA_GLOBAL) == 0);
  return ok;
}


static test_chunk tests[] = {
  { "create", tcreate, { &type_mp, &type_mp, &type_mp, &type_mp, 0 } },
  { "mul", tmul, { &type_mp, &type_mp, &type_mp, &type_mp, 0 } },
  { "exp", texp, { &type_mp, &type_mp, &type_mp, &type_mp, 0 } },
  { 0, 0, { 0 } },
};

int main(int argc, char *argv[])
{
  sub_init();
  test_run(argc, argv, tests, SRCDIR "/tests/mpmont");
  return (0);
}

#endif

/*----- That's all, folks -------------------------------------------------*/
Commit	Line	Data
d3409d5e	1	/* --c--
d3409d5e	2	*
f5f35081	3	* $Id: mpmont.c,v 1.7 1999/12/11 01:51:14 mdw Exp $
d3409d5e	4	*
	5	* Montgomery reduction
	6	*
	7	* (c) 1999 Straylight/Edgeware
	8	*/
	9
	10	/----- Licensing notice --------------------------------------------------
	11	*
	12	* This file is part of Catacomb.
	13	*
	14	* Catacomb is free software; you can redistribute it and/or modify
	15	* it under the terms of the GNU Library General Public License as
	16	* published by the Free Software Foundation; either version 2 of the
	17	* License, or (at your option) any later version.
	18	*
	19	* Catacomb is distributed in the hope that it will be useful,
	20	* but WITHOUT ANY WARRANTY; without even the implied warranty of
	21	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	22	* GNU Library General Public License for more details.
	23	*
	24	* You should have received a copy of the GNU Library General Public
	25	* License along with Catacomb; if not, write to the Free
	26	* Software Foundation, Inc., 59 Temple Place - Suite 330, Boston,
	27	* MA 02111-1307, USA.
	28	*/
	29
	30	/----- Revision history --------------------------------------------------
	31	*
	32	* $Log: mpmont.c,v $
f5f35081	33	* Revision 1.7 1999/12/11 01:51:14 mdw
	34	* Use a Karatsuba-based reduction for large moduli.
	35	*
ef5f4810	36	* Revision 1.6 1999/12/10 23:18:39 mdw
	37	* Change interface for suggested destinations.
	38	*
52e4b041	39	* Revision 1.5 1999/11/22 13:58:40 mdw
	40	* Add an option to disable Montgomery reduction, so that performance
	41	* comparisons can be done.
	42	*
93feaa6e	43	* Revision 1.4 1999/11/21 12:27:06 mdw
	44	* Remove a division from the Montgomery setup by calculating
	45	* %$R^2 \bmod m$% first and then %$R \bmod m$% by Montgomery reduction of
	46	* %$R^2$%.
	47	*
79a34029	48	* Revision 1.3 1999/11/21 11:35:10 mdw
	49	* Performance improvement: use @mp_sqr@ and @mpmont_reduce@ instead of
	50	* @mpmont_mul@ for squaring in exponentiation.
	51	*
17ad212e	52	* Revision 1.2 1999/11/19 13:17:26 mdw
	53	* Add extra interface to exponentiation which returns a Montgomerized
	54	* result.
	55	*
d3409d5e	56	* Revision 1.1 1999/11/17 18:02:16 mdw
	57	* New multiprecision integer arithmetic suite.
	58	*
	59	*/
	60
	61	/----- Header files ------------------------------------------------------/
	62
	63	#include "mp.h"
	64	#include "mpmont.h"
	65
52e4b041	66	/----- Tweakables --------------------------------------------------------/
	67
	68	/* --- @MPMONT_DISABLE@ --- *
	69	*
	70	* Replace all the clever Montgomery reduction with good old-fashioned long
	71	* division.
	72	*/
	73
	74	/* #define MPMONT_DISABLE */
	75
d3409d5e	76	/----- Main code ---------------------------------------------------------/
	77
	78	/* --- @mpmont_create@ --- *
	79	*
	80	* Arguments: @mpmont *mm@ = pointer to Montgomery reduction context
	81	* @mp *m@ = modulus to use
	82	*
	83	* Returns: ---
	84	*
	85	* Use: Initializes a Montgomery reduction context ready for use.
ef5f4810	86	* The argument @m@ must be a positive odd integer.
d3409d5e	87	*/
d3409d5e	88
52e4b041	89	#ifdef MPMONT_DISABLE
	90
	91	void mpmont_create(mpmont mm, mp m)
	92	{
	93	mp_shrink(m);
	94	mm->m = MP_COPY(m);
	95	mm->r = MP_ONE;
	96	mm->r2 = MP_ONE;
f5f35081	97	mm->mi = MP_ONE;
52e4b041	98	}
	99
	100	#else
	101
d3409d5e	102	void mpmont_create(mpmont mm, mp m)
d3409d5e	103	{
f5f35081	104	size_t n = MP_LEN(m);
	105	mp r2 = mp_create(2 n + 1);
	106	mp r;
	107
ef5f4810	108	/* --- Validate the arguments --- */
	109
	110	assert(((void)"Montgomery modulus must be positive",
	111	(m->f & MP_NEG) == 0));
	112	assert(((void)"Montgomery modulus must be odd", m->v[0] & 1));
	113
d3409d5e	114	/* --- Take a copy of the modulus --- */
	115
	116	mp_shrink(m);
	117	mm->m = MP_COPY(m);
	118
f5f35081	119	/* --- Determine %$R^2$% --- */
d3409d5e	120
f5f35081	121	mm->n = n;
	122	MPX_ZERO(r2->v, r2->vl - 1);
	123	r2->vl[-1] = 1;
d3409d5e	124
f5f35081	125	/* --- Find the magic value @mi@ --- */
	126
	127	mp_build(&r, r2->v + n, r2->vl);
	128	mm->mi = MP_NEW;
	129	mp_gcd(0, 0, &mm->mi, &r, m);
	130	mm->mi = mp_sub(mm->mi, &r, mm->mi);
d3409d5e	131
	132	/* --- Discover the values %$R \bmod m$% and %$R^2 \bmod m$% --- */
	133
f5f35081	134	mm->r2 = MP_NEW;
	135	mp_div(0, &mm->r2, r2, m);
	136	mm->r = mpmont_reduce(mm, MP_NEW, mm->r2);
	137	MP_DROP(r2);
d3409d5e	138	}
d3409d5e	139
52e4b041	140	#endif
52e4b041	141
d3409d5e	142	/* --- @mpmont_destroy@ --- *
	143	*
	144	* Arguments: @mpmont *mm@ = pointer to a Montgomery reduction context
	145	*
	146	* Returns: ---
	147	*
	148	* Use: Disposes of a context when it's no longer of any use to
	149	* anyone.
	150	*/
	151
	152	void mpmont_destroy(mpmont *mm)
	153	{
	154	MP_DROP(mm->m);
	155	MP_DROP(mm->r);
	156	MP_DROP(mm->r2);
f5f35081	157	MP_DROP(mm->mi);
d3409d5e	158	}
	159
	160	/* --- @mpmont_reduce@ --- *
	161	*
	162	* Arguments: @mpmont *mm@ = pointer to Montgomery reduction context
	163	* @mp *d@ = destination
ef5f4810	164	* @mp *a@ = source, assumed positive
d3409d5e	165	*
	166	* Returns: Result, %$a R^{-1} \bmod m$%.
	167	*/
	168
52e4b041	169	#ifdef MPMONT_DISABLE
52e4b041	170
ef5f4810	171	mp mpmont_reduce(mpmont mm, mp d, mp a)
52e4b041	172	{
	173	mp_div(0, &d, a, mm->m);
	174	return (d);
	175	}
	176
	177	#else
	178
ef5f4810	179	mp mpmont_reduce(mpmont mm, mp d, mp a)
d3409d5e	180	{
f5f35081	181	size_t n = mm->n;
	182
	183	/* --- Check for serious Karatsuba reduction --- */
	184
	185	if (n > KARATSUBA_CUTOFF * 2) {
	186	mp al;
	187	mpw *vl;
	188	mp *u;
	189
	190	if (MP_LEN(a) >= n)
	191	vl = a->v + n;
	192	else
	193	vl = a->vl;
	194	mp_build(&al, a->v, vl);
	195	u = mp_mul(MP_NEW, &al, mm->mi);
	196	if (MP_LEN(u) > n)
	197	u->vl = u->v + n;
	198	u = mp_mul(u, u, mm->m);
	199	d = mp_add(d, a, u);
	200	mp_drop(u);
	201	}
d3409d5e	202
f5f35081	203	/* --- Otherwise do it the hard way --- */
d3409d5e	204
d3409d5e	205	else {
f5f35081	206	mpw dv, dvl;
	207	mpw mv, mvl;
	208	mpw mi;
	209	size_t k = n;
	210
	211	/* --- Initial conditioning of the arguments --- */
	212
	213	if (d == a)
	214	MP_MODIFY(d, 2 * n + 1);
	215	else {
	216	MP_MODIFY(d, 2 * n + 1);
	217	MPX_COPY(d->v, d->vl, a->v, a->vl);
	218	}
d3409d5e	219
f5f35081	220	dv = d->v; dvl = d->vl;
f5f35081	221	mv = mm->m->v; mvl = mm->m->vl;
d3409d5e	222
f5f35081	223	/* --- Let's go to work --- */
d3409d5e	224
f5f35081	225	mi = mm->mi->v[0];
	226	while (k--) {
	227	mpw u = MPW(dv mi);
	228	MPX_UMLAN(dv, dvl, mv, mvl, u);
	229	dv++;
	230	}
d3409d5e	231	}
d3409d5e	232
f5f35081	233	/* --- Wrap everything up --- */
d3409d5e	234
d3409d5e	235	d->f = a->f & MP_BURN;
f5f35081	236	memmove(d->v, d->v + n, MPWS(MP_LEN(d) - n));
f5f35081	237	d->vl -= n;
17ad212e	238	if (MP_CMP(d, >=, mm->m))
17ad212e	239	d = mp_sub(d, d, mm->m);
f5f35081	240	MP_SHRINK(d);
d3409d5e	241	return (d);
	242	}
	243
52e4b041	244	#endif
52e4b041	245
d3409d5e	246	/* --- @mpmont_mul@ --- *
	247	*
	248	* Arguments: @mpmont *mm@ = pointer to Montgomery reduction context
	249	* @mp *d@ = destination
ef5f4810	250	* @mp a, b@ = sources, assumed positive
d3409d5e	251	*
	252	* Returns: Result, %$a b R^{-1} \bmod m$%.
	253	*/
	254
52e4b041	255	#ifdef MPMONT_DISABLE
52e4b041	256
ef5f4810	257	mp mpmont_mul(mpmont mm, mp d, mp a, mp *b)
52e4b041	258	{
	259	d = mp_mul(d, a, b);
	260	mp_div(0, &d, d, mm->m);
	261	return (d);
	262	}
	263
	264	#else
	265
ef5f4810	266	mp mpmont_mul(mpmont mm, mp d, mp a, mp *b)
d3409d5e	267	{
f5f35081	268	if (mm->n > KARATSUBA_CUTOFF * 2) {
ef5f4810	269	d = mp_mul(d, a, b);
	270	d = mpmont_reduce(mm, d, d);
	271	} else {
	272	mpw dv, dvl;
	273	mpw av, avl;
	274	mpw bv, bvl;
	275	mpw mv, mvl;
	276	mpw y;
	277	size_t n, i;
f5f35081	278	mpw mi;
ef5f4810	279
	280	/* --- Initial conditioning of the arguments --- */
	281
	282	if (MP_LEN(a) > MP_LEN(b)) {
	283	mp *t = a; a = b; b = t;
	284	}
	285	n = MP_LEN(mm->m);
d3409d5e	286
ef5f4810	287	a = MP_COPY(a);
	288	b = MP_COPY(b);
	289	MP_MODIFY(d, 2 * n + 1);
	290	dv = d->v; dvl = d->vl;
	291	MPX_ZERO(dv, dvl);
	292	av = a->v; avl = a->vl;
	293	bv = b->v; bvl = b->vl;
	294	mv = mm->m->v; mvl = mm->m->vl;
	295	y = *bv;
	296
	297	/* --- Montgomery multiplication phase --- */
	298
	299	i = 0;
f5f35081	300	mi = mm->mi->v[0];
ef5f4810	301	while (i < n && av < avl) {
ef5f4810	302	mpw x = *av++;
f5f35081	303	mpw u = MPW((dv + x y) * mi);
ef5f4810	304	MPX_UMLAN(dv, dvl, bv, bvl, x);
	305	MPX_UMLAN(dv, dvl, mv, mvl, u);
	306	dv++;
	307	i++;
	308	}
d3409d5e	309
ef5f4810	310	/* --- Simpler Montgomery reduction phase --- */
d3409d5e	311
ef5f4810	312	while (i < n) {
f5f35081	313	mpw u = MPW(dv mi);
ef5f4810	314	MPX_UMLAN(dv, dvl, mv, mvl, u);
	315	dv++;
	316	i++;
	317	}
d3409d5e	318
ef5f4810	319	/* --- Done --- */
d3409d5e	320
ef5f4810	321	memmove(d->v, dv, MPWS(dvl - dv));
	322	d->vl -= dv - d->v;
	323	MP_SHRINK(d);
	324	d->f = (a->f \| b->f) & MP_BURN;
	325	if (MP_CMP(d, >=, mm->m))
	326	d = mp_sub(d, d, mm->m);
	327	MP_DROP(a);
	328	MP_DROP(b);
d3409d5e	329	}
d3409d5e	330
d3409d5e	331	return (d);
	332	}
	333
52e4b041	334	#endif
52e4b041	335
17ad212e	336	/* --- @mpmont_expr@ --- *
d3409d5e	337	*
d3409d5e	338	* Arguments: @mpmont *mm@ = pointer to Montgomery reduction context
ef5f4810	339	* @mp *d@ = fake destination
	340	* @mp *a@ = base
	341	* @mp *e@ = exponent
d3409d5e	342	*
17ad212e	343	* Returns: Result, %$a^e R \bmod m$%.
d3409d5e	344	*/
d3409d5e	345
ef5f4810	346	mp mpmont_expr(mpmont mm, mp d, mp a, mp *e)
d3409d5e	347	{
	348	mpscan sc;
	349	mp *ar = mpmont_mul(mm, MP_NEW, a, mm->r2);
ef5f4810	350	mp *x = MP_COPY(mm->r);
17ad212e	351	mp *spare = MP_NEW;
d3409d5e	352
	353	mp_scan(&sc, e);
	354
	355	if (MP_STEP(&sc)) {
17ad212e	356	size_t sq = 0;
d3409d5e	357	for (;;) {
	358	mp *dd;
	359	if (MP_BIT(&sc)) {
17ad212e	360	while (sq) {
79a34029	361	dd = mp_sqr(spare, ar);
79a34029	362	dd = mpmont_reduce(mm, dd, dd);
17ad212e	363	spare = ar; ar = dd;
	364	sq--;
	365	}
ef5f4810	366	dd = mpmont_mul(mm, spare, x, ar);
ef5f4810	367	spare = x; x = dd;
d3409d5e	368	}
17ad212e	369	sq++;
d3409d5e	370	if (!MP_STEP(&sc))
d3409d5e	371	break;
d3409d5e	372	}
	373	}
	374	MP_DROP(ar);
17ad212e	375	if (spare != MP_NEW)
17ad212e	376	MP_DROP(spare);
ef5f4810	377	if (d != MP_NEW)
	378	MP_DROP(d);
	379	return (x);
17ad212e	380	}
	381
	382	/* --- @mpmont_exp@ --- *
	383	*
	384	* Arguments: @mpmont *mm@ = pointer to Montgomery reduction context
ef5f4810	385	* @mp *d@ = fake destination
	386	* @mp *a@ = base
	387	* @mp *e@ = exponent
17ad212e	388	*
	389	* Returns: Result, %$a^e \bmod m$%.
	390	*/
	391
ef5f4810	392	mp mpmont_exp(mpmont mm, mp d, mp a, mp *e)
17ad212e	393	{
ef5f4810	394	d = mpmont_expr(mm, d, a, e);
17ad212e	395	d = mpmont_reduce(mm, d, d);
17ad212e	396	return (d);
d3409d5e	397	}
	398
	399	/----- Test rig ----------------------------------------------------------/
	400
	401	#ifdef TEST_RIG
	402
	403	static int tcreate(dstr *v)
	404	{
	405	mp m = (mp **)v[0].buf;
	406	mp mi = (mp **)v[1].buf;
	407	mp r = (mp **)v[2].buf;
	408	mp r2 = (mp **)v[3].buf;
	409
	410	mpmont mm;
	411	int ok = 1;
	412
	413	mpmont_create(&mm, m);
	414
f5f35081	415	if (mm.mi->v[0] != mi->v[0]) {
d3409d5e	416	fprintf(stderr, "\n*** bad mi: found %lu, expected %lu",
f5f35081	417	(unsigned long)mm.mi->v[0], (unsigned long)mi->v[0]);
d3409d5e	418	fputs("\nm = ", stderr); mp_writefile(m, stderr, 10);
	419	fputc('\n', stderr);
	420	ok = 0;
	421	}
	422
	423	if (MP_CMP(mm.r, !=, r)) {
	424	fputs("\n*** bad r", stderr);
	425	fputs("\nm = ", stderr); mp_writefile(m, stderr, 10);
	426	fputs("\nexpected ", stderr); mp_writefile(r, stderr, 10);
17ad212e	427	fputs("\n found ", stderr); mp_writefile(mm.r, stderr, 10);
d3409d5e	428	fputc('\n', stderr);
	429	ok = 0;
	430	}
	431
	432	if (MP_CMP(mm.r2, !=, r2)) {
	433	fputs("\n*** bad r2", stderr);
	434	fputs("\nm = ", stderr); mp_writefile(m, stderr, 10);
	435	fputs("\nexpected ", stderr); mp_writefile(r2, stderr, 10);
17ad212e	436	fputs("\n found ", stderr); mp_writefile(mm.r2, stderr, 10);
d3409d5e	437	fputc('\n', stderr);
	438	ok = 0;
	439	}
	440
	441	MP_DROP(m);
	442	MP_DROP(mi);
	443	MP_DROP(r);
	444	MP_DROP(r2);
	445	mpmont_destroy(&mm);
ef5f4810	446	assert(mparena_count(MPARENA_GLOBAL) == 0);
d3409d5e	447	return (ok);
	448	}
	449
	450	static int tmul(dstr *v)
	451	{
	452	mp m = (mp **)v[0].buf;
	453	mp a = (mp **)v[1].buf;
	454	mp b = (mp **)v[2].buf;
	455	mp r = (mp **)v[3].buf;
d3409d5e	456	int ok = 1;
	457
	458	mpmont mm;
	459	mpmont_create(&mm, m);
	460
	461	{
79a34029	462	mp *qr = mp_mul(MP_NEW, a, b);
	463	mp_div(0, &qr, qr, m);
	464
	465	if (MP_CMP(qr, !=, r)) {
	466	fputs("\n*** classical modmul failed", stderr);
	467	fputs("\n m = ", stderr); mp_writefile(m, stderr, 10);
	468	fputs("\n a = ", stderr); mp_writefile(a, stderr, 10);
	469	fputs("\n b = ", stderr); mp_writefile(b, stderr, 10);
	470	fputs("\n r = ", stderr); mp_writefile(r, stderr, 10);
	471	fputs("\nqr = ", stderr); mp_writefile(qr, stderr, 10);
	472	fputc('\n', stderr);
	473	ok = 0;
	474	}
	475
	476	mp_drop(qr);
	477	}
	478
	479	{
d3409d5e	480	mp *ar = mpmont_mul(&mm, MP_NEW, a, mm.r2);
d3409d5e	481	mp *br = mpmont_mul(&mm, MP_NEW, b, mm.r2);
79a34029	482	mp *mr = mpmont_mul(&mm, MP_NEW, ar, br);
d3409d5e	483	mr = mpmont_reduce(&mm, mr, mr);
79a34029	484	if (MP_CMP(mr, !=, r)) {
	485	fputs("\n*** montgomery modmul failed", stderr);
	486	fputs("\n m = ", stderr); mp_writefile(m, stderr, 10);
	487	fputs("\n a = ", stderr); mp_writefile(a, stderr, 10);
	488	fputs("\n b = ", stderr); mp_writefile(b, stderr, 10);
	489	fputs("\n r = ", stderr); mp_writefile(r, stderr, 10);
	490	fputs("\nmr = ", stderr); mp_writefile(mr, stderr, 10);
	491	fputc('\n', stderr);
	492	ok = 0;
	493	}
d3409d5e	494	MP_DROP(ar); MP_DROP(br);
79a34029	495	mp_drop(mr);
d3409d5e	496	}
d3409d5e	497
d3409d5e	498
	499	MP_DROP(m);
	500	MP_DROP(a);
	501	MP_DROP(b);
	502	MP_DROP(r);
d3409d5e	503	mpmont_destroy(&mm);
ef5f4810	504	assert(mparena_count(MPARENA_GLOBAL) == 0);
d3409d5e	505	return ok;
	506	}
	507
	508	static int texp(dstr *v)
	509	{
	510	mp m = (mp **)v[0].buf;
	511	mp a = (mp **)v[1].buf;
	512	mp b = (mp **)v[2].buf;
	513	mp r = (mp **)v[3].buf;
	514	mp *mr;
	515	int ok = 1;
	516
	517	mpmont mm;
	518	mpmont_create(&mm, m);
	519
ef5f4810	520	mr = mpmont_exp(&mm, MP_NEW, a, b);
d3409d5e	521
	522	if (MP_CMP(mr, !=, r)) {
	523	fputs("\n*** montgomery modexp failed", stderr);
	524	fputs("\n m = ", stderr); mp_writefile(m, stderr, 10);
	525	fputs("\n a = ", stderr); mp_writefile(a, stderr, 10);
	526	fputs("\n e = ", stderr); mp_writefile(b, stderr, 10);
	527	fputs("\n r = ", stderr); mp_writefile(r, stderr, 10);
	528	fputs("\nmr = ", stderr); mp_writefile(mr, stderr, 10);
	529	fputc('\n', stderr);
	530	ok = 0;
	531	}
	532
	533	MP_DROP(m);
	534	MP_DROP(a);
	535	MP_DROP(b);
	536	MP_DROP(r);
	537	MP_DROP(mr);
	538	mpmont_destroy(&mm);
ef5f4810	539	assert(mparena_count(MPARENA_GLOBAL) == 0);
d3409d5e	540	return ok;
	541	}
	542
	543
	544	static test_chunk tests[] = {
ef5f4810	545	{ "create", tcreate, { &type_mp, &type_mp, &type_mp, &type_mp, 0 } },
	546	{ "mul", tmul, { &type_mp, &type_mp, &type_mp, &type_mp, 0 } },
	547	{ "exp", texp, { &type_mp, &type_mp, &type_mp, &type_mp, 0 } },
d3409d5e	548	{ 0, 0, { 0 } },
	549	};
	550
	551	int main(int argc, char *argv[])
	552	{
	553	sub_init();
	554	test_run(argc, argv, tests, SRCDIR "/tests/mpmont");
	555	return (0);
	556	}
	557
	558	#endif
	559
	560	/----- That's all, folks -------------------------------------------------/