5 * (c) 2004 Straylight/Edgeware
8 /*----- Licensing notice --------------------------------------------------*
10 * This file is part of the Python interface to Catacomb.
12 * Catacomb/Python is free software; you can redistribute it and/or modify
13 * it under the terms of the GNU General Public License as published by
14 * the Free Software Foundation; either version 2 of the License, or
15 * (at your option) any later version.
17 * Catacomb/Python is distributed in the hope that it will be useful,
18 * but WITHOUT ANY WARRANTY; without even the implied warranty of
19 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
20 * GNU General Public License for more details.
22 * You should have received a copy of the GNU General Public License
23 * along with Catacomb/Python; if not, write to the Free Software Foundation,
24 * Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
27 /*----- Header files ------------------------------------------------------*/
29 #include "catacomb-python.h"
31 /*----- Utility functions -------------------------------------------------*/
33 PyTypeObject *ecpt_pytype;
34 PyTypeObject *ecptcurve_pytype;
35 PyTypeObject *eccurve_pytype;
36 PyTypeObject *ecprimecurve_pytype;
37 PyTypeObject *ecprimeprojcurve_pytype;
38 PyTypeObject *ecbincurve_pytype;
39 PyTypeObject *ecbinprojcurve_pytype;
40 PyTypeObject *ecinfo_pytype;
42 ec_curve *eccurve_copy(ec_curve *c)
47 if ((f = field_copy(c->f)) == 0)
49 a = F_OUT(f, MP_NEW, c->a);
50 b = F_OUT(f, MP_NEW, c->b);
51 if (STRCMP(EC_NAME(c), ==, "prime"))
52 c = ec_prime(f, a, b);
53 else if (STRCMP(EC_NAME(c), ==, "primeproj"))
54 c = ec_primeproj(f, a, b);
55 else if (STRCMP(EC_NAME(c), ==, "bin"))
57 else if (STRCMP(EC_NAME(c), ==, "binproj"))
58 c = ec_binproj(f, a, b);
67 static PyObject *ecpt_dopywrap(PyObject *cobj, ec_curve *c, ec *p)
69 ecpt_pyobj *z = PyObject_New(ecpt_pyobj, (PyTypeObject *)cobj);
73 return ((PyObject *)z);
76 PyObject *ecpt_pywrap(PyObject *cobj, ec *p)
77 { return (ecpt_dopywrap(cobj, ECCURVE_C(cobj), p)); }
79 PyObject *ecpt_pywrapout(void *cobj, ec *p)
83 if (!PyType_IsSubtype(cobj, ecptcurve_pytype))
87 EC_IN(ECCURVE_C(cobj), p, p);
89 return (ecpt_dopywrap(cobj, c, p));
92 int toecpt(ec_curve *c, ec *d, PyObject *p)
94 if (ECPTCURVE_PYCHECK(p)) {
95 if (ECPT_C(p) != c && !ec_samep(ECPT_C(p), c))
97 EC_COPY(d, ECPT_P(p));
98 } else if (ECPT_PYCHECK(p))
99 EC_IN(c, d, ECPT_P(p));
105 int getecpt(ec_curve *c, ec *d, PyObject *p)
107 if (toecpt(c, d, p)) {
108 PyErr_Format(PyExc_TypeError, "can't convert %.100s to ecpt",
109 Py_TYPE(p)->tp_name);
115 void getecptout(ec *d, PyObject *p)
117 if (ECPTCURVE_PYCHECK(p))
118 EC_OUT(ECPT_C(p), d, ECPT_P(p));
120 assert(ECPT_PYCHECK(p));
121 EC_COPY(d, ECPT_P(p));
125 int convecpt(PyObject *o, void *p)
127 if (!ECPT_PYCHECK(o))
128 TYERR("want elliptic curve point");
135 /*----- Curve points ------------------------------------------------------*/
137 static int ecbinop(PyObject *x, PyObject *y,
138 ec_curve **c, PyObject **cobj, ec *xx, ec *yy)
140 if (ECPTCURVE_PYCHECK(x)) *cobj = ECPT_COBJ(x);
141 else if (ECPTCURVE_PYCHECK(y)) *cobj = ECPT_COBJ(y);
143 *c = ECCURVE_C(*cobj);
144 if (toecpt(*c, xx, x) || toecpt(*c, yy, y)) return (-1);
148 #define BINOP(name) \
149 static PyObject *ecpt_py##name(PyObject *x, PyObject *y) { \
150 ec xx = EC_INIT, yy = EC_INIT, zz = EC_INIT; \
153 if (ecbinop(x, y, &c, &cobj, &xx, &yy)) RETURN_NOTIMPL; \
154 c->ops->name(c, &zz, &xx, &yy); \
155 EC_DESTROY(&xx); EC_DESTROY(&yy); \
156 return (ecpt_pywrap(ECPT_COBJ(x), &zz)); \
163 static PyObject *ecpt_py##name(PyObject *x) { \
165 ec_curve *c = ECPT_C(x); \
166 c->ops->name(c, &zz, ECPT_P(x)); \
167 return (ecpt_pywrap(ECPT_COBJ(x), &zz)); \
172 static PyObject *ecpt_pyid(PyObject *x) { RETURN_OBJ(x); }
174 static int ecpt_pynonzerop(PyObject *x) { return (!EC_ATINF(ECPT_P(x))); }
176 static void ecpt_pydealloc(PyObject *x)
178 EC_DESTROY(ECPT_P(x));
179 Py_DECREF(ECPT_COBJ(x));
183 static PyObject *ecpt_pymul(PyObject *x, PyObject *y)
188 if (ECPT_PYCHECK(x)) { PyObject *t; t = x; x = y; y = t; }
189 if (!ECPT_PYCHECK(y) || (xx = tomp(x)) == 0) RETURN_NOTIMPL;
190 ec_imul(ECPT_C(y), &zz, ECPT_P(y), xx);
192 return (ecpt_pywrap(ECPT_COBJ(y), &zz));
195 static Py_hash_t ecpt_pyhash(PyObject *me)
201 if (EC_ATINF(&p)) h = 0x81d81a94;
202 else h = 0xe0fdd039 ^ (2*mphash(p.x)) ^ (3*mphash(p.y));
207 static PyObject *ecpt_pyrichcompare(PyObject *x, PyObject *y, int op)
209 ec p = EC_INIT, q = EC_INIT;
213 if (!ECPT_PYCHECK(y)) RETURN_NOTIMPL;
217 case Py_EQ: b = EC_EQ(&p, &q); break;
218 case Py_NE: b = !EC_EQ(&p, &q); break;
219 default: TYERR("elliptic curve points are unordered");
228 static PyObject *epmeth_oncurvep(PyObject *me)
230 return (getbool(EC_ATINF(ECPT_P(me)) ||
231 !EC_CHECK(ECPT_C(me), ECPT_P(me))));
234 static PyObject *epmeth_dbl(PyObject *me)
237 EC_DBL(ECPT_C(me), &p, ECPT_P(me));
238 return (ecpt_pywrap(ECPT_COBJ(me), &p));
241 static PyObject *epmeth_tobuf(PyObject *me)
252 n = mp_octets(p.x) + mp_octets(p.y) + 6;
253 rc = bytestring_pywrap(0, n);
254 buf_init(&b, BIN_PTR(rc), n);
257 BIN_SETLEN(rc, BLEN(&b));
262 static PyObject *epmeth_toraw(PyObject *me)
267 ec_curve *c = ECPT_C(me);
271 len = c->f->noctets * 2 + 1;
272 rc = bytestring_pywrap(0, len);
274 buf_init(&b, p, len);
275 EC_OUT(c, &pp, ECPT_P(me));
276 ec_putraw(c, &b, &pp);
278 BIN_SETLEN(rc, BLEN(&b));
282 static PyObject *epmeth_ec2osp(PyObject *me, PyObject *arg, PyObject *kw)
287 ec_curve *c = ECPT_C(me);
289 unsigned f = EC_EXPLY;
291 static const char *const kwlist[] = { "flags", 0 };
293 if (!PyArg_ParseTupleAndKeywords(arg, kw, "|O&:ec2osp", KWLIST,
296 len = c->f->noctets * 2 + 1;
297 rc = bytestring_pywrap(0, len);
299 buf_init(&b, p, len);
300 EC_OUT(c, &pp, ECPT_P(me));
301 if (ec_ec2osp(c, f, &b, &pp)) {
302 Py_DECREF(rc); rc = 0;
303 VALERR("invalid flags");
306 BIN_SETLEN(rc, BLEN(&b));
311 static PyObject *epmeth_frombuf(PyObject *me, PyObject *arg)
318 if (!PyArg_ParseTuple(arg, "O&:frombuf", convbin, &in)) goto end;
319 buf_init(&b, (/*unconst*/ void *)in.p, in.sz);
320 if (buf_getec(&b, &pp)) VALERR("malformed data");
321 rc = Py_BuildValue("(NN)", ecpt_pywrapout(me, &pp),
322 bytestring_pywrapbuf(&b));
327 static PyObject *epmeth_parse(PyObject *me, PyObject *arg)
334 if (!PyArg_ParseTuple(arg, "s:parse", &p)) goto end;
336 if (!ec_ptparse(&qd, &pp)) VALERR(qd.e);
337 rc = Py_BuildValue("(Ns)", ecpt_pywrapout(me, &pp), qd.p);
342 static PyObject *epmeth_fromraw(PyObject *me, PyObject *arg)
350 if (!PyArg_ParseTuple(arg, "O&:fromraw", convbin, &in)) return (0);
351 buf_init(&b, (/*unconst*/ void *)in.p, in.sz);
353 if (ec_getraw(cc, &b, &pp))
356 rc = Py_BuildValue("(NN)", ecpt_pywrap(me, &pp), bytestring_pywrapbuf(&b));
361 static PyObject *epmeth_os2ecp(PyObject *me, PyObject *arg, PyObject *kw)
367 unsigned f = EC_XONLY | EC_LSB | EC_SORT | EC_EXPLY;
369 static const char *const kwlist[] = { "buf", "flags", 0 };
371 if (!PyArg_ParseTupleAndKeywords(arg, kw, "O&|O&:os2ecp", KWLIST,
372 convbin, &in, convuint, &f))
374 buf_init(&b, (/*unconst*/ void *)in.p, in.sz);
376 if (ec_os2ecp(cc, f, &b, &pp)) VALERR("bad point");
378 rc = Py_BuildValue("(NN)", ecpt_pywrap(me, &pp), bytestring_pywrapbuf(&b));
383 static PyObject *epncget_ix(PyObject *me, void *hunoz)
387 if (EC_ATINF(ECPT_P(me))) RETURN_NONE;
389 rc = mp_pywrap(MP_COPY(p.x));
394 static PyObject *epncget_iy(PyObject *me, void *hunoz)
398 if (EC_ATINF(ECPT_P(me))) RETURN_NONE;
400 rc = mp_pywrap(MP_COPY(p.y));
405 static PyObject *epncget_point(PyObject *me, void *hunoz)
408 static PyObject *epget_point(PyObject *me, void *hunoz)
412 return (ecpt_pywrapout(ecpt_pytype, &p));
415 static PyObject *epget_x(PyObject *me, void *hunoz)
417 ec_curve *c = ECPT_C(me);
419 PyObject *fobj = ECPT_FOBJ(me);
423 if (EC_ATINF(pp)) RETURN_NONE;
425 rc = fe_pywrap(fobj, F_IN(c->f, MP_NEW, p.x));
430 static PyObject *epget_y(PyObject *me, void *hunoz)
432 ec_curve *c = ECPT_C(me);
434 PyObject *fobj = ECPT_FOBJ(me);
438 if (EC_ATINF(pp)) RETURN_NONE;
440 rc = fe_pywrap(fobj, F_IN(c->f, MP_NEW, p.y));
445 static PyObject *epget__x(PyObject *me, void *hunoz)
447 if (EC_ATINF(ECPT_P(me))) RETURN_NONE;
448 return (fe_pywrap(ECPT_FOBJ(me), MP_COPY(ECPT_P(me)->x)));
451 static PyObject *epget__y(PyObject *me, void *hunoz)
453 if (EC_ATINF(ECPT_P(me))) RETURN_NONE;
454 return (fe_pywrap(ECPT_FOBJ(me), MP_COPY(ECPT_P(me)->y)));
457 static PyObject *epget__z(PyObject *me, void *hunoz)
459 if (EC_ATINF(ECPT_P(me)) || !ECPT_P(me)->z) RETURN_NONE;
460 return (fe_pywrap(ECPT_FOBJ(me), MP_COPY(ECPT_P(me)->z)));
463 static mp *coord_in(field *f, PyObject *x)
466 if (FE_PYCHECK(x) && FE_F(x) == f)
467 return (MP_COPY(FE_X(x)));
468 else if ((xx = getmp(x)) == 0)
471 return (F_IN(f, xx, xx));
474 static int ecptxl_3(ec_curve *c, ec *p,
475 PyObject *x, PyObject *y, PyObject *z)
479 if (!x || !y || !z) TYERR("missing argument");
480 if (!c) VALERR("internal form with no curve!");
481 if ((p->x = coord_in(c->f, x)) == 0 ||
482 (p->y = coord_in(c->f, y)) == 0 ||
483 (z != Py_None && (p->z = coord_in(c->f, z)) == 0))
485 if (!p->z) p->z = MP_COPY(c->f->one); /* just in case */
491 static int ecptxl_2(ec_curve *c, ec *p, PyObject *x, PyObject *y)
495 if (!x || !y) TYERR("missing argument");
496 if ((p->x = getmp(x)) == 0 ||
497 (p->y = getmp(y)) == 0)
499 if (c) EC_IN(c, p, p);
505 static int ecptxl_1(ec_curve *c, ec *p, PyObject *x)
508 PyObject *y = 0, *z = 0, *t = 0;
514 if (!x || x == Py_None)
516 else if (ECPT_PYCHECK(x)) {
519 } else if (TEXT_CHECK(x)) {
522 if (!ec_ptparse(&qd, p))
525 } else if (c && (xx = tomp(x)) != 0) {
526 xx = F_IN(c->f, xx, xx);
527 if (!EC_FIND(c, p, xx)) VALERR("not on the curve");
528 } else if (PySequence_Check(x)) {
530 n = PySequence_Size(t); if (n < 0) goto end;
531 if (n != 2 && (n != 3 || !c))
532 TYERR("want sequence of two or three items");
533 if ((x = PySequence_GetItem(t, 0)) == 0 ||
534 (y = PySequence_GetItem(t, 1)) == 0 ||
535 (n == 3 && (z = PySequence_GetItem(t, 2)) == 0))
537 rc = (n == 2) ? ecptxl_2(c, p, x, y) : ecptxl_3(c, p, x, y, z);
540 TYERR("can't convert to curve point");
544 if (c) EC_IN(c, p, p);
548 Py_XDECREF(x); Py_XDECREF(y); Py_XDECREF(z); Py_XDECREF(t);
553 static int ecptxl(ec_curve *c, ec *p, PyObject *x, PyObject *y, PyObject *z)
556 return (ecptxl_3(c, p, x, y, z));
558 return (ecptxl_2(c, p, x, y));
560 return (ecptxl_1(c, p, x));
563 static PyObject *ecptnc_pynew(PyTypeObject *ty, PyObject *arg, PyObject *kw)
565 PyObject *x = 0, *y = 0, *z = 0;
567 static const char *const kwlist[] = { "x", "y", 0 };
569 if (!PyArg_ParseTupleAndKeywords(arg, kw, "|OO:new", KWLIST, &x, &y) ||
570 ecptxl(0, &p, x, y, z))
572 return (ecpt_pywrapout(ty, &p));
574 mp_drop(p.x); mp_drop(p.y); mp_drop(p.z);
578 static PyObject *ecpt_pyint(PyObject *me)
583 if (EC_ATINF(ECPT_P(me))) VALERR("point at infinity");
585 if (!mp_tolong_checked(p.x, &l, 0)) rc = PyInt_FromLong(l);
586 else rc = mp_topylong(p.x);
593 static PyObject *ecpt_pylong(PyObject *me)
597 if (EC_ATINF(ECPT_P(me))) VALERR("point at infinity");
599 rc = mp_topylong(p.x);
606 static PyObject *ecpt_pynew(PyTypeObject *ty, PyObject *arg, PyObject *kw)
608 PyObject *x = 0, *y = 0, *z = 0;
610 static const char *const kwlist[] = { "x", "y", "z", 0 };
612 if (!PyArg_ParseTupleAndKeywords(arg, kw, "|OOO:new", KWLIST,
614 ecptxl(ECCURVE_C(ty), &p, x, y, z))
616 return (ecpt_pywrap((PyObject *)ty, &p));
618 mp_drop(p.x); mp_drop(p.y); mp_drop(p.z);
622 static const PyGetSetDef ecptnc_pygetset[] = {
623 #define GETSETNAME(op, name) epnc##op##_##name
624 GET (ix, "P.ix -> integer x coordinate of P")
625 GET (iy, "P.iy -> integer y coordinate of P")
626 GET (point, "P.point -> standalone curve point (no-op)")
631 static const PyMethodDef ecptnc_pymethods[] = {
632 #define METHNAME(func) epmeth_##func
633 NAMETH(tobuf, "X.tobuf() -> BIN")
634 CMTH (frombuf, "frombuf(STR) -> (P, REST)")
635 CMTH (parse, "parse(STR) -> (P, REST)")
640 static const PyNumberMethods ecpt_pynumber = {
642 0, /* @nb_subtract@ */
643 0, /* @nb_multiply@ */
647 0, /* @nb_remainder@ */
650 0, /* @nb_negative@ */
651 0, /* @nb_positive@ */
652 0, /* @nb_absolute@ */
653 ecpt_pynonzerop, /* @nb_nonzero@ */
663 ecpt_pyint, /* @nb_int@ */
664 PY23(ecpt_pylong, 0), /* @nb_long@ */
671 0, /* @nb_inplace_add@ */
672 0, /* @nb_inplace_subtract@ */
673 0, /* @nb_inplace_multiply@ */
675 0, /* @nb_inplace_divide@ */
677 0, /* @nb_inplace_remainder@ */
678 0, /* @nb_inplace_power@ */
679 0, /* @nb_inplace_lshift@ */
680 0, /* @nb_inplace_rshift@ */
681 0, /* @nb_inplace_and@ */
682 0, /* @nb_inplace_xor@ */
683 0, /* @nb_inplace_or@ */
685 0, /* @nb_floor_divide@ */
686 0, /* @nb_true_divide@ */
687 0, /* @nb_inplace_floor_divide@ */
688 0, /* @nb_inplace_true_divide@ */
691 static const PyTypeObject ecpt_pytype_skel = {
692 PyVarObject_HEAD_INIT(0, 0) /* Header */
693 "ECPt", /* @tp_name@ */
694 sizeof(ecpt_pyobj), /* @tp_basicsize@ */
695 0, /* @tp_itemsize@ */
697 ecpt_pydealloc, /* @tp_dealloc@ */
699 0, /* @tp_getattr@ */
700 0, /* @tp_setattr@ */
701 0, /* @tp_compare@ */
703 PYNUMBER(ecpt), /* @tp_as_number@ */
704 0, /* @tp_as_sequence@ */
705 0, /* @tp_as_mapping@ */
706 ecpt_pyhash, /* @tp_hash@ */
709 0, /* @tp_getattro@ */
710 0, /* @tp_setattro@ */
711 0, /* @tp_as_buffer@ */
712 Py_TPFLAGS_DEFAULT | /* @tp_flags@ */
713 Py_TPFLAGS_CHECKTYPES |
717 "ECPt([X, [Y]]): elliptic curve points, not associated with any curve.\n"
718 " X alone may be None, an existing point, a string 'X, Y', an\n"
719 " x-coordinate, or a pair (X, Y); X and Y should be a coordinate pair.",
721 0, /* @tp_traverse@ */
723 ecpt_pyrichcompare, /* @tp_richcompare@ */
724 0, /* @tp_weaklistoffset@ */
726 0, /* @tp_iternext@ */
727 PYMETHODS(ecptnc), /* @tp_methods@ */
728 0, /* @tp_members@ */
729 PYGETSET(ecptnc), /* @tp_getset@ */
732 0, /* @tp_descr_get@ */
733 0, /* @tp_descr_set@ */
734 0, /* @tp_dictoffset@ */
736 PyType_GenericAlloc, /* @tp_alloc@ */
737 ecptnc_pynew, /* @tp_new@ */
742 static const PyMemberDef ecpt_pymembers[] = {
743 #define MEMBERSTRUCT ecpt_pyobj
744 MEMRNM(curve, T_OBJECT, PY23(ob_type, ob_base.ob_type), READONLY,
745 "P.curve -> elliptic curve containing P")
750 static const PyGetSetDef ecpt_pygetset[] = {
751 #define GETSETNAME(op, name) ep##op##_##name
752 GET (point, "P.point -> standalone curve point")
753 GET (x, "P.x -> Cartesian x coordinate of P")
754 GET (y, "P.y -> Cartesian y coordinate of P")
755 GET (_x, "P._x -> internal x coordinate of P")
756 GET (_y, "P._y -> internal y coordinate of P")
757 GET (_z, "P._z -> internal z coordinate of P, or None")
762 static const PyMethodDef ecpt_pymethods[] = {
763 #define METHNAME(func) epmeth_##func
764 NAMETH(toraw, "X.toraw() -> BIN")
765 KWMETH(ec2osp, "X.ec2osp([flags = EC_EXPLY]) -> BIN")
766 NAMETH(dbl, "X.dbl() -> X + X")
767 NAMETH(oncurvep, "X.oncurvep() -> BOOL")
768 CMTH (fromraw, "fromraw(STR) -> (P, REST)")
769 KWCMTH(os2ecp, "os2ecp(STR, [flags = ...]) -> (P, REST)")
774 static const PyNumberMethods ecptcurve_pynumber = {
775 ecpt_pyadd, /* @nb_add@ */
776 ecpt_pysub, /* @nb_subtract@ */
777 ecpt_pymul, /* @nb_multiply@ */
781 0, /* @nb_remainder@ */
784 ecpt_pyneg, /* @nb_negative@ */
785 ecpt_pyid, /* @nb_positive@ */
786 0, /* @nb_absolute@ */
787 0, /* @nb_nonzero@ */
805 0, /* @nb_inplace_add@ */
806 0, /* @nb_inplace_subtract@ */
807 0, /* @nb_inplace_multiply@ */
808 0, /* @nb_inplace_divide@ */
809 0, /* @nb_inplace_remainder@ */
810 0, /* @nb_inplace_power@ */
811 0, /* @nb_inplace_lshift@ */
812 0, /* @nb_inplace_rshift@ */
813 0, /* @nb_inplace_and@ */
814 0, /* @nb_inplace_xor@ */
815 0, /* @nb_inplace_or@ */
817 0, /* @nb_floor_divide@ */
818 0, /* @nb_true_divide@ */
819 0, /* @nb_inplace_floor_divide@ */
820 0, /* @nb_inplace_true_divide@ */
823 static const PyTypeObject ecptcurve_pytype_skel = {
824 PyVarObject_HEAD_INIT(0, 0) /* Header */
825 "ECPtCurve", /* @tp_name@ */
826 sizeof(ecpt_pyobj), /* @tp_basicsize@ */
827 0, /* @tp_itemsize@ */
829 ecpt_pydealloc, /* @tp_dealloc@ */
831 0, /* @tp_getattr@ */
832 0, /* @tp_setattr@ */
833 0, /* @tp_compare@ */
835 PYNUMBER(ecptcurve), /* @tp_as_number@ */
836 0, /* @tp_as_sequence@ */
837 0, /* @tp_as_mapping@ */
841 0, /* @tp_getattro@ */
842 0, /* @tp_setattro@ */
843 0, /* @tp_as_buffer@ */
844 Py_TPFLAGS_DEFAULT | /* @tp_flags@ */
845 Py_TPFLAGS_CHECKTYPES |
849 "Elliptic curve points; abstract base class for points on given curves.",
851 0, /* @tp_traverse@ */
853 0, /* @tp_richcompare@ */
854 0, /* @tp_weaklistoffset@ */
856 0, /* @tp_iternext@ */
857 PYMETHODS(ecpt), /* @tp_methods@ */
858 PYMEMBERS(ecpt), /* @tp_members@ */
859 PYGETSET(ecpt), /* @tp_getset@ */
862 0, /* @tp_descr_get@ */
863 0, /* @tp_descr_set@ */
864 0, /* @tp_dictoffset@ */
866 PyType_GenericAlloc, /* @tp_alloc@ */
867 abstract_pynew, /* @tp_new@ */
872 /*----- Elliptic curves themselves ----------------------------------------*/
874 static PyObject *eccurve_pyrichcompare(PyObject *x, PyObject *y, int op)
878 assert(ECCURVE_PYCHECK(x));
879 if (!ECCURVE_PYCHECK(y)) RETURN_NOTIMPL;
880 b = ec_samep(ECCURVE_C(x), ECCURVE_C(y));
883 case Py_NE: b = !b; break;
884 default: TYERR("can't order elliptic curves");
891 static PyObject *ecmmul_id(PyObject *me)
892 { ec p = EC_INIT; return (ecpt_pywrap(me, &p)); }
894 static int ecmmul_fill(void *pp, PyObject *me, PyObject *x, PyObject *m)
896 ec_mulfactor *f = pp;
899 if (getecpt(ECCURVE_C(me), &f->base, x) ||
900 (f->exp = getmp(m)) == 0)
905 static PyObject *ecmmul_exp(PyObject *me, void *pp, int n)
908 ec_immul(ECCURVE_C(me), &p, pp, n);
909 return (ecpt_pywrap(me, &p));
912 static void ecmmul_drop(void *pp)
914 ec_mulfactor *f = pp;
915 EC_DESTROY(&f->base);
919 static PyObject *ecmeth_mmul(PyObject *me, PyObject *arg)
921 return (mexp_common(me, arg, sizeof(ec_mulfactor),
922 ecmmul_id, ecmmul_fill, ecmmul_exp, ecmmul_drop));
925 static void eccurve_pydealloc(PyObject *me)
927 ec_destroycurve(ECCURVE_C(me));
928 Py_DECREF(ECCURVE_FOBJ(me));
929 PyType_Type.tp_dealloc(me);
932 static PyObject *ecmeth_find(PyObject *me, PyObject *arg)
939 if (!PyArg_ParseTuple(arg, "O:find", &x)) goto end;
940 if (FIELD_PYCHECK(x) && FE_F(x) == ECCURVE_C(me)->f)
941 xx = MP_COPY(FE_X(x));
942 else if ((xx = getmp(x)) == 0)
945 xx = F_IN(ECCURVE_C(me)->f, xx, xx);
946 if (EC_FIND(ECCURVE_C(me), &p, xx) == 0)
947 VALERR("not on the curve");
948 rc = ecpt_pywrap(me, &p);
954 static PyObject *ecmeth_rand(PyObject *me, PyObject *arg, PyObject *kw)
956 static const char *const kwlist[] = { "rng", 0 };
957 grand *r = &rand_global;
960 if (!PyArg_ParseTupleAndKeywords(arg, kw, "|O&:rand", KWLIST,
963 ec_rand(ECCURVE_C(me), &p, r);
964 EC_IN(ECCURVE_C(me), &p, &p);
965 return (ecpt_pywrap(me, &p));
968 static PyObject *ecmeth_parse(PyObject *me, PyObject *arg)
975 if (!PyArg_ParseTuple(arg, "s:parse", &p)) goto end;
977 if ((c = ec_curveparse(&qd)) == 0) VALERR(qd.e);
978 rc = eccurve_pywrap(0, c);
983 static PyObject *eccurve_dopywrap(PyTypeObject *ty,
984 PyObject *fobj, ec_curve *c)
986 eccurve_pyobj *cobj = newtype(ty, 0, c->ops->name);
989 cobj->ty.ht_type.tp_basicsize = sizeof(ecpt_pyobj);
990 cobj->ty.ht_type.tp_base = ecptcurve_pytype;
991 Py_INCREF(ecptcurve_pytype);
992 cobj->ty.ht_type.tp_flags = (Py_TPFLAGS_DEFAULT |
993 Py_TPFLAGS_BASETYPE |
994 Py_TPFLAGS_CHECKTYPES |
995 Py_TPFLAGS_HEAPTYPE);
996 cobj->ty.ht_type.tp_alloc = PyType_GenericAlloc;
997 cobj->ty.ht_type.tp_free = 0;
998 cobj->ty.ht_type.tp_new = ecpt_pynew;
999 typeready(&cobj->ty.ht_type);
1000 return ((PyObject *)cobj);
1003 PyObject *eccurve_pywrap(PyObject *fobj, ec_curve *c)
1008 fobj = field_pywrap(c->f);
1011 assert(FIELD_F(fobj) == c->f);
1012 if (STRCMP(EC_NAME(c), ==, "prime"))
1013 ty = ecprimecurve_pytype;
1014 else if (STRCMP(EC_NAME(c), ==, "primeproj"))
1015 ty = ecprimeprojcurve_pytype;
1016 else if (STRCMP(EC_NAME(c), ==, "bin"))
1017 ty = ecbincurve_pytype;
1018 else if (STRCMP(EC_NAME(c), ==, "binproj"))
1019 ty = ecbinprojcurve_pytype;
1022 return (eccurve_dopywrap(ty, fobj, c));
1025 static PyObject *eccurve_pynew(PyTypeObject *ty,
1026 ec_curve *(*make)(field *, mp *, mp *),
1027 PyObject *arg, PyObject *kw)
1031 static const char *const kwlist[] = { "field", "a", "b", 0 };
1032 mp *aa = 0, *bb = 0;
1034 if (!PyArg_ParseTupleAndKeywords(arg, kw, "O!O&O&", KWLIST,
1035 field_pytype, &fobj,
1036 convmp, &aa, convmp, &bb))
1039 cobj = eccurve_dopywrap(ty, fobj, make(FIELD_F(fobj), aa, bb));
1041 if (aa) MP_DROP(aa);
1042 if (bb) MP_DROP(bb);
1046 static PyObject *ecget_name(PyObject *me, void *hunoz)
1047 { return (TEXT_FROMSTR(EC_NAME(ECCURVE_C(me)))); }
1049 static PyObject *ecget_a(PyObject *me, void *hunoz)
1050 { return (fe_pywrap(ECCURVE_FOBJ(me), MP_COPY(ECCURVE_C(me)->a))); }
1052 static PyObject *ecget_b(PyObject *me, void *hunoz)
1053 { return (fe_pywrap(ECCURVE_FOBJ(me), MP_COPY(ECCURVE_C(me)->b))); }
1055 static PyObject *ecget_field(PyObject *me, void *hunoz)
1056 { RETURN_OBJ(ECCURVE_FOBJ(me)); }
1058 static PyObject *ecget_inf(PyObject *me, void *hunoz)
1059 { ec inf = EC_INIT; return (ecpt_pywrap(me, &inf)); }
1061 static const PyGetSetDef eccurve_pygetset[] = {
1062 #define GETSETNAME(op, name) ec##op##_##name
1063 GET (name, "E.name -> name of this kind of curve")
1064 GET (a, "E.a -> first parameter of curve")
1065 GET (b, "E.b -> second parameter of curve")
1066 GET (field, "E.field -> finite field containing this curve")
1067 GET (inf, "E.inf -> point at infinity of this curve")
1072 static const PyMethodDef eccurve_pymethods[] = {
1073 #define METHNAME(name) ecmeth_##name
1074 METH (mmul, "E.mmul([(P0, N0), (P1, N1), ...]) = N0 P0 + N1 P1 + ...")
1075 METH (find, "E.find(X) -> P")
1076 KWMETH(rand, "E.rand([rng = rand]) -> P")
1077 SMTH (parse, "parse(STR) -> (E, REST)")
1082 static const PyTypeObject eccurve_pytype_skel = {
1083 PyVarObject_HEAD_INIT(0, 0) /* Header */
1084 "ECCurve", /* @tp_name@ */
1085 sizeof(eccurve_pyobj), /* @tp_basicsize@ */
1086 0, /* @tp_itemsize@ */
1088 eccurve_pydealloc, /* @tp_dealloc@ */
1090 0, /* @tp_getattr@ */
1091 0, /* @tp_setattr@ */
1092 0, /* @tp_compare@ */
1094 0, /* @tp_as_number@ */
1095 0, /* @tp_as_sequence@ */
1096 0, /* @tp_as_mapping@ */
1100 0, /* @tp_getattro@ */
1101 0, /* @tp_setattro@ */
1102 0, /* @tp_as_buffer@ */
1103 Py_TPFLAGS_DEFAULT | /* @tp_flags@ */
1104 Py_TPFLAGS_BASETYPE,
1107 "An elliptic curve. Abstract class.",
1109 0, /* @tp_traverse@ */
1111 eccurve_pyrichcompare, /* @tp_richcompare@ */
1112 0, /* @tp_weaklistoffset@ */
1114 0, /* @tp_iternext@ */
1115 PYMETHODS(eccurve), /* @tp_methods@ */
1116 0, /* @tp_members@ */
1117 PYGETSET(eccurve), /* @tp_getset@ */
1120 0, /* @tp_descr_get@ */
1121 0, /* @tp_descr_set@ */
1122 0, /* @tp_dictoffset@ */
1124 PyType_GenericAlloc, /* @tp_alloc@ */
1125 abstract_pynew, /* @tp_new@ */
1130 static PyObject *ecprimecurve_pynew(PyTypeObject *ty,
1131 PyObject *arg, PyObject *kw)
1133 return (eccurve_pynew(ty, ec_prime, arg, kw));
1136 static const PyTypeObject ecprimecurve_pytype_skel = {
1137 PyVarObject_HEAD_INIT(0, 0) /* Header */
1138 "ECPrimeCurve", /* @tp_name@ */
1139 sizeof(eccurve_pyobj), /* @tp_basicsize@ */
1140 0, /* @tp_itemsize@ */
1142 eccurve_pydealloc, /* @tp_dealloc@ */
1144 0, /* @tp_getattr@ */
1145 0, /* @tp_setattr@ */
1146 0, /* @tp_compare@ */
1148 0, /* @tp_as_number@ */
1149 0, /* @tp_as_sequence@ */
1150 0, /* @tp_as_mapping@ */
1154 0, /* @tp_getattro@ */
1155 0, /* @tp_setattro@ */
1156 0, /* @tp_as_buffer@ */
1157 Py_TPFLAGS_DEFAULT | /* @tp_flags@ */
1158 Py_TPFLAGS_BASETYPE,
1161 "ECPrimeCurve(FIELD, A, B): an elliptic curve over a prime field.\n"
1162 " Use ECPrimeProjCurve instead.",
1164 0, /* @tp_traverse@ */
1166 0, /* @tp_richcompare@ */
1167 0, /* @tp_weaklistoffset@ */
1169 0, /* @tp_iternext@ */
1170 0, /* @tp_methods@ */
1171 0, /* @tp_members@ */
1172 0, /* @tp_getset@ */
1175 0, /* @tp_descr_get@ */
1176 0, /* @tp_descr_set@ */
1177 0, /* @tp_dictoffset@ */
1179 PyType_GenericAlloc, /* @tp_alloc@ */
1180 ecprimecurve_pynew, /* @tp_new@ */
1185 static PyObject *ecprimeprojcurve_pynew(PyTypeObject *ty,
1186 PyObject *arg, PyObject *kw)
1188 return (eccurve_pynew(ty, ec_primeproj, arg, kw));
1191 static const PyTypeObject ecprimeprojcurve_pytype_skel = {
1192 PyVarObject_HEAD_INIT(0, 0) /* Header */
1193 "ECPrimeProjCurve", /* @tp_name@ */
1194 sizeof(eccurve_pyobj), /* @tp_basicsize@ */
1195 0, /* @tp_itemsize@ */
1197 eccurve_pydealloc, /* @tp_dealloc@ */
1199 0, /* @tp_getattr@ */
1200 0, /* @tp_setattr@ */
1201 0, /* @tp_compare@ */
1203 0, /* @tp_as_number@ */
1204 0, /* @tp_as_sequence@ */
1205 0, /* @tp_as_mapping@ */
1209 0, /* @tp_getattro@ */
1210 0, /* @tp_setattro@ */
1211 0, /* @tp_as_buffer@ */
1212 Py_TPFLAGS_DEFAULT | /* @tp_flags@ */
1213 Py_TPFLAGS_BASETYPE,
1216 "ECPrimeProjCurve(FIELD, A, B): an elliptic curve over a prime field\n"
1217 " using projective coordinates.",
1219 0, /* @tp_traverse@ */
1221 0, /* @tp_richcompare@ */
1222 0, /* @tp_weaklistoffset@ */
1224 0, /* @tp_iternext@ */
1225 0, /* @tp_methods@ */
1226 0, /* @tp_members@ */
1227 0, /* @tp_getset@ */
1230 0, /* @tp_descr_get@ */
1231 0, /* @tp_descr_set@ */
1232 0, /* @tp_dictoffset@ */
1234 PyType_GenericAlloc, /* @tp_alloc@ */
1235 ecprimeprojcurve_pynew, /* @tp_new@ */
1240 static PyObject *ecbincurve_pynew(PyTypeObject *ty,
1241 PyObject *arg, PyObject *kw)
1243 return (eccurve_pynew(ty, ec_bin, arg, kw));
1246 static const PyTypeObject ecbincurve_pytype_skel = {
1247 PyVarObject_HEAD_INIT(0, 0) /* Header */
1248 "ECBinCurve", /* @tp_name@ */
1249 sizeof(eccurve_pyobj), /* @tp_basicsize@ */
1250 0, /* @tp_itemsize@ */
1252 eccurve_pydealloc, /* @tp_dealloc@ */
1254 0, /* @tp_getattr@ */
1255 0, /* @tp_setattr@ */
1256 0, /* @tp_compare@ */
1258 0, /* @tp_as_number@ */
1259 0, /* @tp_as_sequence@ */
1260 0, /* @tp_as_mapping@ */
1264 0, /* @tp_getattro@ */
1265 0, /* @tp_setattro@ */
1266 0, /* @tp_as_buffer@ */
1267 Py_TPFLAGS_DEFAULT | /* @tp_flags@ */
1268 Py_TPFLAGS_BASETYPE,
1271 "ECBinCurve(FIELD, A, B): an elliptic curve over a binary field.\n"
1272 " Use ECBinProjCurve instead.",
1274 0, /* @tp_traverse@ */
1276 0, /* @tp_richcompare@ */
1277 0, /* @tp_weaklistoffset@ */
1279 0, /* @tp_iternext@ */
1280 0, /* @tp_methods@ */
1281 0, /* @tp_members@ */
1282 0, /* @tp_getset@ */
1285 0, /* @tp_descr_get@ */
1286 0, /* @tp_descr_set@ */
1287 0, /* @tp_dictoffset@ */
1289 PyType_GenericAlloc, /* @tp_alloc@ */
1290 ecbincurve_pynew, /* @tp_new@ */
1295 static PyObject *ecbinprojcurve_pynew(PyTypeObject *ty,
1296 PyObject *arg, PyObject *kw)
1298 return (eccurve_pynew(ty, ec_binproj, arg, kw));
1301 static const PyTypeObject ecbinprojcurve_pytype_skel = {
1302 PyVarObject_HEAD_INIT(0, 0) /* Header */
1303 "ECBinProjCurve", /* @tp_name@ */
1304 sizeof(eccurve_pyobj), /* @tp_basicsize@ */
1305 0, /* @tp_itemsize@ */
1307 eccurve_pydealloc, /* @tp_dealloc@ */
1309 0, /* @tp_getattr@ */
1310 0, /* @tp_setattr@ */
1311 0, /* @tp_compare@ */
1313 0, /* @tp_as_number@ */
1314 0, /* @tp_as_sequence@ */
1315 0, /* @tp_as_mapping@ */
1319 0, /* @tp_getattro@ */
1320 0, /* @tp_setattro@ */
1321 0, /* @tp_as_buffer@ */
1322 Py_TPFLAGS_DEFAULT | /* @tp_flags@ */
1323 Py_TPFLAGS_BASETYPE,
1326 "ECBinProjCurve(FIELD, A, B): an elliptic curve over a binary field,\n"
1327 " using projective coordinates.",
1329 0, /* @tp_traverse@ */
1331 0, /* @tp_richcompare@ */
1332 0, /* @tp_weaklistoffset@ */
1334 0, /* @tp_iternext@ */
1335 0, /* @tp_methods@ */
1336 0, /* @tp_members@ */
1337 0, /* @tp_getset@ */
1340 0, /* @tp_descr_get@ */
1341 0, /* @tp_descr_set@ */
1342 0, /* @tp_dictoffset@ */
1344 PyType_GenericAlloc, /* @tp_alloc@ */
1345 ecbinprojcurve_pynew, /* @tp_new@ */
1350 /*----- Curve info --------------------------------------------------------*/
1352 void ecinfo_copy(ec_info *eic, const ec_info *ei)
1354 eic->c = eccurve_copy(ei->c);
1356 EC_COPY(&eic->g, &ei->g);
1357 eic->r = MP_COPY(ei->r);
1358 eic->h = MP_COPY(ei->h);
1361 PyObject *ecinfo_pywrap(ec_info *ei)
1365 o = PyObject_NEW(ecinfo_pyobj, ecinfo_pytype);
1367 o->cobj = eccurve_pywrap(0, o->ei.c);
1369 return ((PyObject *)o);
1372 static void ecinfo_pydealloc(PyObject *me)
1374 ec_info *ei = ECINFO_EI(me);
1378 Py_DECREF(ECINFO_COBJ(me));
1382 static PyObject *ecinfo_pynew(PyTypeObject *ty, PyObject *arg, PyObject *kw)
1386 static const char *const kwlist[] = { "curve", "G", "r", "h", 0 };
1387 ecinfo_pyobj *rc = 0;
1389 if (!PyArg_ParseTupleAndKeywords(arg, kw, "O!O!O&O&:new", KWLIST,
1390 eccurve_pytype, &e, ecpt_pytype, &g,
1391 convmp, &ei.r, convmp, &ei.h))
1393 if (ECPT_C(g) != ECCURVE_C(e) && !ec_samep(ECPT_C(g), ECCURVE_C(e)))
1394 TYERR("point not from this curve");
1395 ei.c = ECCURVE_C(e);
1397 EC_OUT(ei.c, &ei.g, ECPT_P(g));
1398 rc = (ecinfo_pyobj *)ty->tp_alloc(ty, 0);
1401 Py_INCREF(rc->cobj);
1402 return ((PyObject *)rc);
1410 static PyObject *eimeth_parse(PyObject *me, PyObject *arg)
1417 if (!PyArg_ParseTuple(arg, "s:parse", &p)) goto end;
1419 if (ec_infoparse(&qd, &ei)) VALERR(qd.e);
1420 rc = Py_BuildValue("(Ns)", ecinfo_pywrap(&ei), qd.p);
1425 static PyObject *ecinfo_pyrichcompare(PyObject *x, PyObject *y, int op)
1427 int b = ec_sameinfop(ECINFO_EI(x), ECINFO_EI(y));
1431 default: TYERR("can't order elliptic curve infos");
1433 return (getbool(b));
1438 static PyObject *eimeth_check(PyObject *me, PyObject *arg, PyObject *kw)
1440 static const char *const kwlist[] = { "rng", 0 };
1441 grand *r = &rand_global;
1444 if (!PyArg_ParseTupleAndKeywords(arg, kw, "|O&:check", KWLIST,
1447 if ((p = ec_checkinfo(ECINFO_EI(me), r)) != 0)
1454 static PyObject *eiget_curve(PyObject *me, void *hunoz)
1455 { RETURN_OBJ(ECINFO_COBJ(me)); }
1457 static PyObject *eiget_G(PyObject *me, void *hunoz)
1459 ec_info *ei = ECINFO_EI(me);
1461 EC_IN(ei->c, &p, &ei->g);
1462 return (ecpt_pywrap(ECINFO_COBJ(me), &p));
1465 static PyObject *eiget_r(PyObject *me, void *hunoz)
1466 { return (mp_pywrap(MP_COPY(ECINFO_EI(me)->r))); }
1468 static PyObject *eiget_h(PyObject *me, void *hunoz)
1469 { return (mp_pywrap(MP_COPY(ECINFO_EI(me)->h))); }
1471 static const PyGetSetDef ecinfo_pygetset[] = {
1472 #define GETSETNAME(op, name) ei##op##_##name
1473 GET (curve, "I.curve -> the elliptic curve")
1474 GET (G, "I.G -> generator point for the group")
1475 GET (r, "I.r -> order of the group (and hence of G")
1476 GET (h, "I.h -> cofactor of the group")
1481 static const PyMethodDef ecinfo_pymethods[] = {
1482 #define METHNAME(name) eimeth_##name
1483 KWMETH(check, "I.check([rng = rand]) -> None")
1484 SMTH (parse, "parse(STR) -> (I, REST)")
1489 static const PyTypeObject ecinfo_pytype_skel = {
1490 PyVarObject_HEAD_INIT(0, 0) /* Header */
1491 "ECInfo", /* @tp_name@ */
1492 sizeof(ecinfo_pyobj), /* @tp_basicsize@ */
1493 0, /* @tp_itemsize@ */
1495 ecinfo_pydealloc, /* @tp_dealloc@ */
1497 0, /* @tp_getattr@ */
1498 0, /* @tp_setattr@ */
1499 0, /* @tp_compare@ */
1501 0, /* @tp_as_number@ */
1502 0, /* @tp_as_sequence@ */
1503 0, /* @tp_as_mapping@ */
1507 0, /* @tp_getattro@ */
1508 0, /* @tp_setattro@ */
1509 0, /* @tp_as_buffer@ */
1510 Py_TPFLAGS_DEFAULT | /* @tp_flags@ */
1511 Py_TPFLAGS_BASETYPE,
1514 "ECInfo(CURVE, G, R, H): elliptic curve domain parameters.",
1516 0, /* @tp_traverse@ */
1518 ecinfo_pyrichcompare, /* @tp_richcompare@ */
1519 0, /* @tp_weaklistoffset@ */
1521 0, /* @tp_iternext@ */
1522 PYMETHODS(ecinfo), /* @tp_methods@ */
1523 0, /* @tp_members@ */
1524 PYGETSET(ecinfo), /* @tp_getset@ */
1527 0, /* @tp_descr_get@ */
1528 0, /* @tp_descr_set@ */
1529 0, /* @tp_dictoffset@ */
1531 PyType_GenericAlloc, /* @tp_alloc@ */
1532 ecinfo_pynew, /* @tp_new@ */
1537 /*----- Setup -------------------------------------------------------------*/
1539 static const struct nameval consts[] = {
1540 CONST(EC_XONLY), CONST(EC_YBIT), CONST(EC_LSB),
1541 CONST(EC_CMPR), CONST(EC_EXPLY), CONST(EC_SORT),
1545 void ec_pyinit(void)
1547 INITTYPE(ecpt, root);
1548 INITTYPE(ecptcurve, ecpt);
1549 INITTYPE(eccurve, type);
1550 INITTYPE(ecprimecurve, eccurve);
1551 INITTYPE(ecprimeprojcurve, ecprimecurve);
1552 INITTYPE(ecbincurve, eccurve);
1553 INITTYPE(ecbinprojcurve, ecbincurve);
1554 INITTYPE(ecinfo, root);
1557 static const char *ec_namefn(const void *p)
1558 { const ecentry *ec = p; return (ec->name); }
1560 static int ec_ixfn(const void *p)
1562 const ecentry *ec = p;
1565 for (i = 0; ectab[i].name; i++)
1566 if (ectab[i].data == ec->data) return (i);
1570 static PyObject *ec_valfn(int i)
1574 ec_infofromdata(&ei, ectab[i].data);
1575 return (ecinfo_pywrap(&ei));
1578 void ec_pyinsert(PyObject *mod)
1580 INSERT("ECPt", ecpt_pytype);
1581 INSERT("ECPtCurve", ecptcurve_pytype);
1582 INSERT("ECCurve", eccurve_pytype);
1583 INSERT("ECPrimeCurve", ecprimecurve_pytype);
1584 INSERT("ECPrimeProjCurve", ecprimeprojcurve_pytype);
1585 INSERT("ECBinCurve", ecbincurve_pytype);
1586 INSERT("ECBinProjCurve", ecbinprojcurve_pytype);
1587 INSERT("ECInfo", ecinfo_pytype);
1588 INSERT("eccurves", make_grouptab(ectab, sizeof(*ectab),
1589 ec_namefn, ec_ixfn, ec_valfn));
1590 setconstants(mod, consts);
1593 /*----- That's all, folks -------------------------------------------------*/