[u/mdw/catacomb] / f-prime.c

/* -*-c-*-
 *
 * $Id: f-prime.c,v 1.10 2004/04/02 01:03:49 mdw Exp $
 *
 * Prime fields with Montgomery arithmetic
 *
 * (c) 2001 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: f-prime.c,v $
 * Revision 1.10  2004/04/02 01:03:49  mdw
 * Miscellaneous constification.
 *
 * Revision 1.9  2004/04/01 21:28:41  mdw
 * Normal basis support (translates to poly basis internally).  Rewrite
 * EC and prime group table generators in awk, so that they can reuse data
 * for repeated constants.
 *
 * Revision 1.8  2004/04/01 12:50:09  mdw
 * Add cyclic group abstraction, with test code.  Separate off exponentation
 * functions for better static linking.  Fix a buttload of bugs on the way.
 * Generally ensure that negative exponents do inversion correctly.  Add
 * table of standard prime-field subgroups.  (Binary field subgroups are
 * currently unimplemented but easy to add if anyone ever finds a good one.)
 *
 * Revision 1.7  2004/03/27 17:54:11  mdw
 * Standard curves and curve checking.
 *
 * Revision 1.6  2004/03/23 15:19:32  mdw
 * Test elliptic curves more thoroughly.
 *
 * Revision 1.5  2004/03/23 12:08:26  mdw
 * Random field-element selection.
 *
 * Revision 1.4  2004/03/21 22:52:06  mdw
 * Merge and close elliptic curve branch.
 *
 * Revision 1.3.4.3  2004/03/21 22:39:46  mdw
 * Elliptic curves on binary fields work.
 *
 * Revision 1.3.4.2  2004/03/20 00:13:31  mdw
 * Projective coordinates for prime curves
 *
 * Revision 1.3.4.1  2003/06/10 13:43:53  mdw
 * Simple (non-projective) curves over prime fields now seem to work.
 *
 * Revision 1.3  2003/05/15 23:25:59  mdw
 * Make elliptic curve stuff build.
 *
 * Revision 1.2  2002/01/13 13:48:44  mdw
 * Further progress.
 *
 * Revision 1.1  2001/04/29 18:12:33  mdw
 * Prototype version.
 *
 */

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

#include <mLib/sub.h>

#include "field.h"
#include "mpmont.h"
#include "mprand.h"

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

typedef struct fctx {
  field f;
  mpmont mm;
} fctx;

/* --- Field operations --- */

static void fdestroy(field *ff)
  { fctx *f = (fctx *)ff; mpmont_destroy(&f->mm); DESTROY(f); }

static mp *frand(field *ff, mp *d, grand *r)
  { fctx *f = (fctx *)ff; return (mprand_range(d, f->mm.m, r, 0)); }

static mp *fin(field *ff, mp *d, mp *x) {
  fctx *f = (fctx *)ff;
  mp_div(0, &d, x, f->mm.m);
  return (mpmont_mul(&f->mm, d, d, f->mm.r2));
}

static mp *fout(field *ff, mp *d, mp *x)
  { fctx *f = (fctx *)ff; return (mpmont_reduce(&f->mm, d, x)); }

static int fzerop(field *ff, mp *x) { return (!MP_LEN(x)); }

static mp *fneg(field *ff, mp *d, mp *x)
  { fctx *f = (fctx *)ff; return (mp_sub(d, f->mm.m, x)); }

static mp *fadd(field *ff, mp *d, mp *x, mp *y) {
  fctx *f = (fctx *)ff; d = mp_add(d, x, y);
  if (d->f & MP_NEG) d = mp_add(d, d, f->mm.m);
  else if (MP_CMP(d, >, f->mm.m)) d = mp_sub(d, d, f->mm.m);
  return (d);
}

static mp *fsub(field *ff, mp *d, mp *x, mp *y) {
  fctx *f = (fctx *)ff; d = mp_sub(d, x, y);
  if (d->f & MP_NEG) d = mp_add(d, d, f->mm.m);
  else if (MP_CMP(d, >, f->mm.m)) d = mp_sub(d, d, f->mm.m);
  return (d);
}

static mp *fmul(field *ff, mp *d, mp *x, mp *y)
  { fctx *f = (fctx *)ff; return (mpmont_mul(&f->mm, d, x, y)); }

static mp *fsqr(field *ff, mp *d, mp *x) {
  fctx *f = (fctx *)ff; d = mp_sqr(d, x);
  return (mpmont_reduce(&f->mm, d, d));
}

static mp *finv(field *ff, mp *d, mp *x) {
  fctx *f = (fctx *)ff; d = mpmont_reduce(&f->mm, d, x);
  mp_gcd(0, 0, &d, f->mm.m, d); return (mpmont_mul(&f->mm, d, d, f->mm.r2));
}

static mp *freduce(field *ff, mp *d, mp *x)
  { fctx *f = (fctx *)ff; mp_div(0, &d, x, f->mm.m); return (d); }

static mp *fsqrt(field *ff, mp *d, mp *x) {
  fctx *f = (fctx *)ff; d = mpmont_reduce(&f->mm, d, x);
  d = mp_modsqrt(d, d, f->mm.m); if (!d) return (d);
  return (mpmont_mul(&f->mm, d, d, f->mm.r2));
}

static mp *fdbl(field *ff, mp *d, mp *x) {
  fctx *f = (fctx *)ff; d = mp_lsl(d, x, 1);
  if (MP_CMP(d, >, f->mm.m)) d = mp_sub(d, d, f->mm.m);
  return (d);
}

static mp *ftpl(field *ff, mp *d, mp *x) {
  fctx *f = (fctx *)ff; MP_DEST(d, MP_LEN(x) + 1, x->f);
  MPX_UMULN(d->v, d->vl, x->v, x->vl, 3);
  while (MP_CMP(d, >, f->mm.m)) d = mp_sub(d, d, f->mm.m);
  return (d);
}

static mp *fqdl(field *ff, mp *d, mp *x) {
  fctx *f = (fctx *)ff; d = mp_lsl(d, x, 2);
  while (MP_CMP(d, >, f->mm.m)) d = mp_sub(d, d, f->mm.m);
  return (d);
}

static mp *fhlv(field *ff, mp *d, mp *x) {
  fctx *f = (fctx *)ff;
  if (!MP_LEN(x)) { MP_COPY(x); MP_DROP(d); return (x); }
  if (x->v[0] & 1) { d = mp_add(d, x, f->mm.m); x = d; }
  return (mp_lsr(d, x, 1));
}

/* --- Field operations table --- */

static const field_ops fops = {
  FTY_PRIME, "prime",
  fdestroy, frand, field_stdsamep,
  fin, fout,
  fzerop, fneg, fadd, fsub, fmul, fsqr, finv, freduce, fsqrt,
  0,
  fdbl, ftpl, fqdl, fhlv
};

/* --- @field_prime@ --- *
 *
 * Arguments:	@mp *p@ = the characteristic of the field
 *
 * Returns:	A pointer to the field.
 *
 * Use:		Creates a field structure for a prime field of size %$p$%,
 *		using Montgomery reduction for arithmetic.
 */

field *field_prime(mp *p)
{
  fctx *f = CREATE(fctx);
  f->f.ops = &fops;
  mpmont_create(&f->mm, p);
  f->f.zero = MP_ZERO;
  f->f.one = f->mm.r;
  f->f.m = f->mm.m;
  f->f.nbits = mp_bits(p);
  f->f.noctets = (f->f.nbits + 7) >> 3;
  return (&f->f);
}

/*----- That's all, folks -------------------------------------------------*/
Commit	Line	Data
b0ab12e6	1	/* --c--
b0ab12e6	2	*
4e66da02	3	* $Id: f-prime.c,v 1.10 2004/04/02 01:03:49 mdw Exp $
b0ab12e6	4	*
	5	* Prime fields with Montgomery arithmetic
	6	*
	7	* (c) 2001 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: f-prime.c,v $
4e66da02	33	* Revision 1.10 2004/04/02 01:03:49 mdw
	34	* Miscellaneous constification.
	35	*
4edc47b8	36	* Revision 1.9 2004/04/01 21:28:41 mdw
	37	* Normal basis support (translates to poly basis internally). Rewrite
	38	* EC and prime group table generators in awk, so that they can reuse data
	39	* for repeated constants.
	40	*
34e4f738	41	* Revision 1.8 2004/04/01 12:50:09 mdw
	42	* Add cyclic group abstraction, with test code. Separate off exponentation
	43	* functions for better static linking. Fix a buttload of bugs on the way.
	44	* Generally ensure that negative exponents do inversion correctly. Add
	45	* table of standard prime-field subgroups. (Binary field subgroups are
	46	* currently unimplemented but easy to add if anyone ever finds a good one.)
	47	*
432c4e18	48	* Revision 1.7 2004/03/27 17:54:11 mdw
	49	* Standard curves and curve checking.
	50	*
bc985cef	51	* Revision 1.6 2004/03/23 15:19:32 mdw
	52	* Test elliptic curves more thoroughly.
	53	*
9b8b6877	54	* Revision 1.5 2004/03/23 12:08:26 mdw
	55	* Random field-element selection.
	56	*
c3caa2fa	57	* Revision 1.4 2004/03/21 22:52:06 mdw
	58	* Merge and close elliptic curve branch.
	59	*
ceb3f0c0	60	* Revision 1.3.4.3 2004/03/21 22:39:46 mdw
	61	* Elliptic curves on binary fields work.
	62	*
8823192f	63	* Revision 1.3.4.2 2004/03/20 00:13:31 mdw
	64	* Projective coordinates for prime curves
	65	*
dbfee00a	66	* Revision 1.3.4.1 2003/06/10 13:43:53 mdw
	67	* Simple (non-projective) curves over prime fields now seem to work.
	68	*
41cb1beb	69	* Revision 1.3 2003/05/15 23:25:59 mdw
	70	* Make elliptic curve stuff build.
	71	*
b085fd91	72	* Revision 1.2 2002/01/13 13:48:44 mdw
	73	* Further progress.
	74	*
b0ab12e6	75	* Revision 1.1 2001/04/29 18:12:33 mdw
	76	* Prototype version.
	77	*
	78	*/
	79
	80	/----- Header files ------------------------------------------------------/
	81
	82	#include <mLib/sub.h>
	83
	84	#include "field.h"
	85	#include "mpmont.h"
9b8b6877	86	#include "mprand.h"
b0ab12e6	87
4edc47b8	88	/----- Main code ---------------------------------------------------------/
b0ab12e6	89
	90	typedef struct fctx {
	91	field f;
	92	mpmont mm;
	93	} fctx;
	94
b0ab12e6	95	/* --- Field operations --- */
	96
	97	static void fdestroy(field *ff)
4edc47b8	98	{ fctx f = (fctx )ff; mpmont_destroy(&f->mm); DESTROY(f); }
b0ab12e6	99
9b8b6877	100	static mp frand(field ff, mp d, grand r)
4edc47b8	101	{ fctx f = (fctx )ff; return (mprand_range(d, f->mm.m, r, 0)); }
9b8b6877	102
4edc47b8	103	static mp fin(field ff, mp d, mp x) {
b0ab12e6	104	fctx f = (fctx )ff;
dbfee00a	105	mp_div(0, &d, x, f->mm.m);
dbfee00a	106	return (mpmont_mul(&f->mm, d, d, f->mm.r2));
b0ab12e6	107	}
	108
	109	static mp fout(field ff, mp d, mp x)
4edc47b8	110	{ fctx f = (fctx )ff; return (mpmont_reduce(&f->mm, d, x)); }
b0ab12e6	111
4edc47b8	112	static int fzerop(field ff, mp x) { return (!MP_LEN(x)); }
8823192f	113
b085fd91	114	static mp fneg(field ff, mp d, mp x)
4edc47b8	115	{ fctx f = (fctx )ff; return (mp_sub(d, f->mm.m, x)); }
b085fd91	116
4edc47b8	117	static mp fadd(field ff, mp d, mp x, mp *y) {
	118	fctx f = (fctx )ff; d = mp_add(d, x, y);
	119	if (d->f & MP_NEG) d = mp_add(d, d, f->mm.m);
	120	else if (MP_CMP(d, >, f->mm.m)) d = mp_sub(d, d, f->mm.m);
dbfee00a	121	return (d);
b0ab12e6	122	}
b0ab12e6	123
4edc47b8	124	static mp fsub(field ff, mp d, mp x, mp *y) {
	125	fctx f = (fctx )ff; d = mp_sub(d, x, y);
	126	if (d->f & MP_NEG) d = mp_add(d, d, f->mm.m);
	127	else if (MP_CMP(d, >, f->mm.m)) d = mp_sub(d, d, f->mm.m);
dbfee00a	128	return (d);
b0ab12e6	129	}
	130
	131	static mp fmul(field ff, mp d, mp x, mp *y)
4edc47b8	132	{ fctx f = (fctx )ff; return (mpmont_mul(&f->mm, d, x, y)); }
b0ab12e6	133
4edc47b8	134	static mp fsqr(field ff, mp d, mp x) {
4edc47b8	135	fctx f = (fctx )ff; d = mp_sqr(d, x);
b0ab12e6	136	return (mpmont_reduce(&f->mm, d, d));
	137	}
	138
4edc47b8	139	static mp finv(field ff, mp d, mp x) {
	140	fctx f = (fctx )ff; d = mpmont_reduce(&f->mm, d, x);
	141	mp_gcd(0, 0, &d, f->mm.m, d); return (mpmont_mul(&f->mm, d, d, f->mm.r2));
b0ab12e6	142	}
	143
	144	static mp freduce(field ff, mp d, mp x)
4edc47b8	145	{ fctx f = (fctx )ff; mp_div(0, &d, x, f->mm.m); return (d); }
b0ab12e6	146
4edc47b8	147	static mp fsqrt(field ff, mp d, mp x) {
	148	fctx f = (fctx )ff; d = mpmont_reduce(&f->mm, d, x);
	149	d = mp_modsqrt(d, d, f->mm.m); if (!d) return (d);
ceb3f0c0	150	return (mpmont_mul(&f->mm, d, d, f->mm.r2));
	151	}
	152
4edc47b8	153	static mp fdbl(field ff, mp d, mp x) {
	154	fctx f = (fctx )ff; d = mp_lsl(d, x, 1);
	155	if (MP_CMP(d, >, f->mm.m)) d = mp_sub(d, d, f->mm.m);
dbfee00a	156	return (d);
b0ab12e6	157	}
b0ab12e6	158
4edc47b8	159	static mp ftpl(field ff, mp d, mp x) {
4edc47b8	160	fctx f = (fctx )ff; MP_DEST(d, MP_LEN(x) + 1, x->f);
b0ab12e6	161	MPX_UMULN(d->v, d->vl, x->v, x->vl, 3);
4edc47b8	162	while (MP_CMP(d, >, f->mm.m)) d = mp_sub(d, d, f->mm.m);
b0ab12e6	163	return (d);
	164	}
	165
4edc47b8	166	static mp fqdl(field ff, mp d, mp x) {
	167	fctx f = (fctx )ff; d = mp_lsl(d, x, 2);
	168	while (MP_CMP(d, >, f->mm.m)) d = mp_sub(d, d, f->mm.m);
8823192f	169	return (d);
	170	}
	171
4edc47b8	172	static mp fhlv(field ff, mp d, mp x) {
8823192f	173	fctx f = (fctx )ff;
4edc47b8	174	if (!MP_LEN(x)) { MP_COPY(x); MP_DROP(d); return (x); }
4edc47b8	175	if (x->v[0] & 1) { d = mp_add(d, x, f->mm.m); x = d; }
8823192f	176	return (mp_lsr(d, x, 1));
b0ab12e6	177	}
	178
	179	/* --- Field operations table --- */
	180
4e66da02	181	static const field_ops fops = {
bc985cef	182	FTY_PRIME, "prime",
34e4f738	183	fdestroy, frand, field_stdsamep,
b0ab12e6	184	fin, fout,
ceb3f0c0	185	fzerop, fneg, fadd, fsub, fmul, fsqr, finv, freduce, fsqrt,
	186	0,
	187	fdbl, ftpl, fqdl, fhlv
b0ab12e6	188	};
	189
	190	/* --- @field_prime@ --- *
	191	*
	192	* Arguments: @mp *p@ = the characteristic of the field
	193	*
	194	* Returns: A pointer to the field.
	195	*
	196	* Use: Creates a field structure for a prime field of size %$p$%,
	197	* using Montgomery reduction for arithmetic.
	198	*/
	199
	200	field field_prime(mp p)
	201	{
41cb1beb	202	fctx *f = CREATE(fctx);
b0ab12e6	203	f->f.ops = &fops;
b0ab12e6	204	mpmont_create(&f->mm, p);
41cb1beb	205	f->f.zero = MP_ZERO;
41cb1beb	206	f->f.one = f->mm.r;
432c4e18	207	f->f.m = f->mm.m;
	208	f->f.nbits = mp_bits(p);
	209	f->f.noctets = (f->f.nbits + 7) >> 3;
b0ab12e6	210	return (&f->f);
	211	}
	212
	213	/----- That's all, folks -------------------------------------------------/