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") == 0)
52 c
= ec_prime(f
, a
, b
);
53 else if (strcmp(EC_NAME(c
), "primeproj") == 0)
54 c
= ec_primeproj(f
, a
, b
);
55 else if (strcmp(EC_NAME(c
), "bin") == 0)
57 else if (strcmp(EC_NAME(c
), "binproj") == 0)
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 p
->ob_type
->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 long 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
, PyObject
*arg
)
230 if (!PyArg_ParseTuple(arg
, ":oncurvep")) return (0);
231 return (getbool(EC_ATINF(ECPT_P(me
)) ||
232 !EC_CHECK(ECPT_C(me
), ECPT_P(me
))));
235 static PyObject
*epmeth_dbl(PyObject
*me
, PyObject
*arg
)
238 if (!PyArg_ParseTuple(arg
, ":dbl")) return (0);
239 EC_DBL(ECPT_C(me
), &p
, ECPT_P(me
));
240 return (ecpt_pywrap(ECPT_COBJ(me
), &p
));
243 static PyObject
*epmeth_tobuf(PyObject
*me
, PyObject
*arg
)
250 if (!PyArg_ParseTuple(arg
, ":tobuf")) return (0);
255 n
= mp_octets(p
.x
) + mp_octets(p
.y
) + 4;
256 rc
= bytestring_pywrap(0, n
);
257 buf_init(&b
, PyString_AS_STRING(rc
), n
);
260 _PyString_Resize(&rc
, BLEN(&b
));
265 static PyObject
*epmeth_toraw(PyObject
*me
, PyObject
*arg
)
270 ec_curve
*c
= ECPT_C(me
);
274 if (!PyArg_ParseTuple(arg
, ":toraw")) return (0);
275 len
= c
->f
->noctets
* 2 + 1;
276 rc
= bytestring_pywrap(0, len
);
277 p
= PyString_AS_STRING(rc
);
278 buf_init(&b
, p
, len
);
279 EC_OUT(c
, &pp
, ECPT_P(me
));
280 ec_putraw(c
, &b
, &pp
);
282 _PyString_Resize(&rc
, BLEN(&b
));
286 static PyObject
*epmeth_ec2osp(PyObject
*me
, PyObject
*arg
, PyObject
*kw
)
291 ec_curve
*c
= ECPT_C(me
);
293 unsigned f
= EC_EXPLY
;
295 char *kwlist
[] = { "flags", 0 };
297 if (!PyArg_ParseTupleAndKeywords(arg
, kw
, "|O&:ec2osp", kwlist
,
300 len
= c
->f
->noctets
* 2 + 1;
301 rc
= bytestring_pywrap(0, len
);
302 p
= PyString_AS_STRING(rc
);
303 buf_init(&b
, p
, len
);
304 EC_OUT(c
, &pp
, ECPT_P(me
));
305 if (ec_ec2osp(c
, f
, &b
, &pp
)) {
306 Py_DECREF(rc
); rc
= 0;
307 VALERR("invalid flags");
310 _PyString_Resize(&rc
, BLEN(&b
));
315 static PyObject
*epget_curve(PyObject
*me
, void *hunoz
)
316 { RETURN_OBJ(ECPT_COBJ(me
)); }
318 static PyObject
*epncget_ix(PyObject
*me
, void *hunoz
)
322 if (EC_ATINF(ECPT_P(me
))) RETURN_NONE
;
324 rc
= mp_pywrap(MP_COPY(p
.x
));
329 static PyObject
*epncget_iy(PyObject
*me
, void *hunoz
)
333 if (EC_ATINF(ECPT_P(me
))) RETURN_NONE
;
335 rc
= mp_pywrap(MP_COPY(p
.y
));
340 static PyObject
*epncget_point(PyObject
*me
, void *hunoz
)
343 static PyObject
*epget_point(PyObject
*me
, void *hunoz
)
347 return (ecpt_pywrapout(ecpt_pytype
, &p
));
350 static PyObject
*epget_x(PyObject
*me
, void *hunoz
)
352 ec_curve
*c
= ECPT_C(me
);
354 PyObject
*fobj
= ECPT_FOBJ(me
);
358 if (EC_ATINF(pp
)) RETURN_NONE
;
360 rc
= fe_pywrap(fobj
, F_IN(c
->f
, MP_NEW
, p
.x
));
365 static PyObject
*epget_y(PyObject
*me
, void *hunoz
)
367 ec_curve
*c
= ECPT_C(me
);
369 PyObject
*fobj
= ECPT_FOBJ(me
);
373 if (EC_ATINF(pp
)) RETURN_NONE
;
375 rc
= fe_pywrap(fobj
, F_IN(c
->f
, MP_NEW
, p
.y
));
380 static PyObject
*epget__x(PyObject
*me
, void *hunoz
)
382 if (EC_ATINF(ECPT_P(me
))) RETURN_NONE
;
383 return (fe_pywrap(ECPT_FOBJ(me
), MP_COPY(ECPT_P(me
)->x
)));
386 static PyObject
*epget__y(PyObject
*me
, void *hunoz
)
388 if (EC_ATINF(ECPT_P(me
))) RETURN_NONE
;
389 return (fe_pywrap(ECPT_FOBJ(me
), MP_COPY(ECPT_P(me
)->y
)));
392 static PyObject
*epget__z(PyObject
*me
, void *hunoz
)
394 if (EC_ATINF(ECPT_P(me
)) || !ECPT_P(me
)->z
) RETURN_NONE
;
395 return (fe_pywrap(ECPT_FOBJ(me
), MP_COPY(ECPT_P(me
)->z
)));
398 static mp
*coord_in(field
*f
, PyObject
*x
)
401 if (FE_PYCHECK(x
) && FE_F(x
) == f
)
402 return (MP_COPY(FE_X(x
)));
403 else if ((xx
= getmp(x
)) == 0)
406 return (F_IN(f
, xx
, xx
));
409 static int ecptxl_3(ec_curve
*c
, ec
*p
,
410 PyObject
*x
, PyObject
*y
, PyObject
*z
)
414 if (!x
|| !y
|| !z
) TYERR("missing argument");
415 if (!c
) VALERR("internal form with no curve!");
416 if ((p
->x
= coord_in(c
->f
, x
)) == 0 ||
417 (p
->y
= coord_in(c
->f
, y
)) == 0 ||
418 (z
!= Py_None
&& (p
->z
= coord_in(c
->f
, z
)) == 0))
420 if (!p
->z
) p
->z
= MP_COPY(c
->f
->one
); /* just in case */
426 static int ecptxl_2(ec_curve
*c
, ec
*p
, PyObject
*x
, PyObject
*y
)
430 if (!x
|| !y
) TYERR("missing argument");
431 if ((p
->x
= getmp(x
)) == 0 ||
432 (p
->y
= getmp(y
)) == 0)
434 if (c
) EC_IN(c
, p
, p
);
440 static int ecptxl_1(ec_curve
*c
, ec
*p
, PyObject
*x
)
443 PyObject
*y
= 0, *z
= 0, *t
= 0;
450 if (!x
|| x
== Py_None
)
452 else if (ECPT_PYCHECK(x
)) {
455 } else if (PyString_Check(x
)) {
456 if (PyObject_AsReadBuffer(x
, &q
, 0))
460 if (!ec_ptparse(&qd
, p
))
463 } else if (c
&& (xx
= tomp(x
)) != 0) {
464 xx
= F_IN(c
->f
, xx
, xx
);
465 if (!EC_FIND(c
, p
, xx
)) VALERR("not on the curve");
466 } else if (PySequence_Check(x
)) {
468 n
= PySequence_Size(t
);
469 if (n
!= 2 && (n
!= 3 || !c
))
470 TYERR("want sequence of two or three items");
471 if ((x
= PySequence_GetItem(t
, 0)) == 0 ||
472 (y
= PySequence_GetItem(t
, 1)) == 0 ||
473 (n
== 3 && (z
= PySequence_GetItem(t
, 2)) == 0))
475 rc
= (n
== 2) ?
ecptxl_2(c
, p
, x
, y
) : ecptxl_3(c
, p
, x
, y
, z
);
477 TYERR("can't convert to curve point");
481 if (c
) EC_IN(c
, p
, p
);
485 Py_XDECREF(x
); Py_XDECREF(y
); Py_XDECREF(z
); Py_XDECREF(t
);
490 static int ecptxl(ec_curve
*c
, ec
*p
, PyObject
*x
, PyObject
*y
, PyObject
*z
)
493 return (ecptxl_3(c
, p
, x
, y
, z
));
495 return (ecptxl_2(c
, p
, x
, y
));
497 return (ecptxl_1(c
, p
, x
));
500 static PyObject
*ecptnc_pynew(PyTypeObject
*ty
, PyObject
*arg
, PyObject
*kw
)
502 PyObject
*x
= 0, *y
= 0, *z
= 0;
504 char *kwlist
[] = { "x", "y", 0 };
506 if (!PyArg_ParseTupleAndKeywords(arg
, kw
, "|OO:new", kwlist
, &x
, &y
) ||
507 ecptxl(0, &p
, x
, y
, z
))
509 return (ecpt_pywrapout(ty
, &p
));
515 static PyObject
*ecpt_pyint(PyObject
*me
)
520 if (EC_ATINF(ECPT_P(me
))) VALERR("point at infinity");
522 if (!mp_tolong_checked(p
.x
, &l
, 0)) rc
= PyInt_FromLong(l
);
523 else rc
= mp_topylong(p
.x
);
529 static PyObject
*ecpt_pylong(PyObject
*me
)
533 if (EC_ATINF(ECPT_P(me
))) VALERR("point at infinity");
535 rc
= mp_topylong(p
.x
);
541 static PyObject
*ecpt_pynew(PyTypeObject
*ty
, PyObject
*arg
, PyObject
*kw
)
543 PyObject
*x
= 0, *y
= 0, *z
= 0;
545 char *kwlist
[] = { "x", "y", "z", 0 };
547 if (!PyArg_ParseTupleAndKeywords(arg
, kw
, "|OOO:new", kwlist
,
549 ecptxl(ECCURVE_C(ty
), &p
, x
, y
, z
))
551 return (ecpt_pywrap((PyObject
*)ty
, &p
));
557 static PyGetSetDef ecptnc_pygetset
[] = {
558 #define GETSETNAME(op, name) epnc##op##_##name
559 GET (ix
, "P.ix -> integer x coordinate of P")
560 GET (iy
, "P.iy -> integer y coordinate of P")
561 GET (point
, "P.point -> standalone curve point (no-op)")
566 static PyMethodDef ecptnc_pymethods
[] = {
567 #define METHNAME(func) epmeth_##func
568 METH (tobuf
, "X.tobuf() -> BIN")
573 static PyNumberMethods ecpt_pynumber
= {
575 0, /* @nb_subtract@ */
576 0, /* @nb_multiply@ */
578 0, /* @nb_remainder@ */
581 0, /* @nb_negative@ */
582 0, /* @nb_positive@ */
583 0, /* @nb_absolute@ */
584 ecpt_pynonzerop
, /* @nb_nonzero@ */
592 ecpt_pyint
, /* @nb_int@ */
593 ecpt_pylong
, /* @nb_long@ */
598 0, /* @nb_inplace_add@ */
599 0, /* @nb_inplace_subtract@ */
600 0, /* @nb_inplace_multiply@ */
601 0, /* @nb_inplace_divide@ */
602 0, /* @nb_inplace_remainder@ */
603 0, /* @nb_inplace_power@ */
604 0, /* @nb_inplace_lshift@ */
605 0, /* @nb_inplace_rshift@ */
606 0, /* @nb_inplace_and@ */
607 0, /* @nb_inplace_xor@ */
608 0, /* @nb_inplace_or@ */
610 0, /* @nb_floor_divide@ */
611 0, /* @nb_true_divide@ */
612 0, /* @nb_inplace_floor_divide@ */
613 0, /* @nb_inplace_true_divide@ */
616 static PyTypeObject ecpt_pytype_skel
= {
617 PyObject_HEAD_INIT(0) 0, /* Header */
618 "ECPt", /* @tp_name@ */
619 sizeof(ecpt_pyobj
), /* @tp_basicsize@ */
620 0, /* @tp_itemsize@ */
622 ecpt_pydealloc
, /* @tp_dealloc@ */
624 0, /* @tp_getattr@ */
625 0, /* @tp_setattr@ */
626 0, /* @tp_compare@ */
628 &ecpt_pynumber
, /* @tp_as_number@ */
629 0, /* @tp_as_sequence@ */
630 0, /* @tp_as_mapping@ */
631 ecpt_pyhash
, /* @tp_hash@ */
634 0, /* @tp_getattro@ */
635 0, /* @tp_setattro@ */
636 0, /* @tp_as_buffer@ */
637 Py_TPFLAGS_DEFAULT
| /* @tp_flags@ */
638 Py_TPFLAGS_CHECKTYPES
|
642 "Elliptic curve points, not associated with any curve.",
644 0, /* @tp_traverse@ */
646 ecpt_pyrichcompare
, /* @tp_richcompare@ */
647 0, /* @tp_weaklistoffset@ */
649 0, /* @tp_iternext@ */
650 ecptnc_pymethods
, /* @tp_methods@ */
651 0, /* @tp_members@ */
652 ecptnc_pygetset
, /* @tp_getset@ */
655 0, /* @tp_descr_get@ */
656 0, /* @tp_descr_set@ */
657 0, /* @tp_dictoffset@ */
659 PyType_GenericAlloc
, /* @tp_alloc@ */
660 ecptnc_pynew
, /* @tp_new@ */
665 static PyGetSetDef ecpt_pygetset
[] = {
666 #define GETSETNAME(op, name) ep##op##_##name
667 GET (curve
, "P.curve -> elliptic curve containing P")
668 GET (point
, "P.point -> standalone curve point")
669 GET (x
, "P.x -> Cartesian x coordinate of P")
670 GET (y
, "P.y -> Cartesian y coordinate of P")
671 GET (_x
, "P._x -> internal x coordinate of P")
672 GET (_y
, "P._y -> internal y coordinate of P")
673 GET (_z
, "P._z -> internal z coordinate of P, or None")
678 static PyMethodDef ecpt_pymethods
[] = {
679 #define METHNAME(func) epmeth_##func
680 METH (toraw
, "X.toraw() -> BIN")
681 KWMETH(ec2osp
, "X.ec2osp([flags = EC_EXPLY]) -> BIN")
682 METH (dbl
, "X.dbl() -> X + X")
683 METH (oncurvep
, "X.oncurvep() -> BOOL")
688 static PyNumberMethods ecptcurve_pynumber
= {
689 ecpt_pyadd
, /* @nb_add@ */
690 ecpt_pysub
, /* @nb_subtract@ */
691 ecpt_pymul
, /* @nb_multiply@ */
693 0, /* @nb_remainder@ */
696 ecpt_pyneg
, /* @nb_negative@ */
697 ecpt_pyid
, /* @nb_positive@ */
698 0, /* @nb_absolute@ */
699 0, /* @nb_nonzero@ */
713 0, /* @nb_inplace_add@ */
714 0, /* @nb_inplace_subtract@ */
715 0, /* @nb_inplace_multiply@ */
716 0, /* @nb_inplace_divide@ */
717 0, /* @nb_inplace_remainder@ */
718 0, /* @nb_inplace_power@ */
719 0, /* @nb_inplace_lshift@ */
720 0, /* @nb_inplace_rshift@ */
721 0, /* @nb_inplace_and@ */
722 0, /* @nb_inplace_xor@ */
723 0, /* @nb_inplace_or@ */
725 0, /* @nb_floor_divide@ */
726 0, /* @nb_true_divide@ */
727 0, /* @nb_inplace_floor_divide@ */
728 0, /* @nb_inplace_true_divide@ */
731 static PyTypeObject ecptcurve_pytype_skel
= {
732 PyObject_HEAD_INIT(0) 0, /* Header */
733 "ECPtCurve", /* @tp_name@ */
734 sizeof(ecpt_pyobj
), /* @tp_basicsize@ */
735 0, /* @tp_itemsize@ */
737 ecpt_pydealloc
, /* @tp_dealloc@ */
739 0, /* @tp_getattr@ */
740 0, /* @tp_setattr@ */
741 0, /* @tp_compare@ */
743 &ecptcurve_pynumber
, /* @tp_as_number@ */
744 0, /* @tp_as_sequence@ */
745 0, /* @tp_as_mapping@ */
749 0, /* @tp_getattro@ */
750 0, /* @tp_setattro@ */
751 0, /* @tp_as_buffer@ */
752 Py_TPFLAGS_DEFAULT
| /* @tp_flags@ */
753 Py_TPFLAGS_CHECKTYPES
|
757 "Elliptic curve points; abstract base class for points on given curves.",
759 0, /* @tp_traverse@ */
761 0, /* @tp_richcompare@ */
762 0, /* @tp_weaklistoffset@ */
764 0, /* @tp_iternext@ */
765 ecpt_pymethods
, /* @tp_methods@ */
766 0, /* @tp_members@ */
767 ecpt_pygetset
, /* @tp_getset@ */
770 0, /* @tp_descr_get@ */
771 0, /* @tp_descr_set@ */
772 0, /* @tp_dictoffset@ */
774 PyType_GenericAlloc
, /* @tp_alloc@ */
775 abstract_pynew
, /* @tp_new@ */
780 /*----- Elliptic curves themselves ----------------------------------------*/
782 static PyObject
*eccurve_pyrichcompare(PyObject
*x
, PyObject
*y
, int op
)
786 assert(ECCURVE_PYCHECK(x
));
787 if (!ECCURVE_PYCHECK(y
)) RETURN_NOTIMPL
;
788 b
= ec_samep(ECCURVE_C(x
), ECCURVE_C(y
));
791 case Py_NE
: b
= !b
; break;
792 default: TYERR("can't order elliptic curves");
799 static PyObject
*ecmmul_id(PyObject
*me
)
800 { ec p
= EC_INIT
; return (ecpt_pywrap(me
, &p
)); }
802 static int ecmmul_fill(void *pp
, PyObject
*me
, PyObject
*x
, PyObject
*m
)
804 ec_mulfactor
*f
= pp
;
807 if (getecpt(ECCURVE_C(me
), &f
->base
, x
) ||
808 (f
->exp
= getmp(m
)) == 0)
813 static PyObject
*ecmmul_exp(PyObject
*me
, void *pp
, int n
)
816 ec_immul(ECCURVE_C(me
), &p
, pp
, n
);
817 return (ecpt_pywrap(me
, &p
));
820 static void ecmmul_drop(void *pp
)
822 ec_mulfactor
*f
= pp
;
823 EC_DESTROY(&f
->base
);
827 static PyObject
*ecmeth_mmul(PyObject
*me
, PyObject
*arg
)
829 return (mexp_common(me
, arg
, sizeof(ec_mulfactor
),
830 ecmmul_id
, ecmmul_fill
, ecmmul_exp
, ecmmul_drop
));
833 static PyObject
*meth__ECPtCurve_fromraw(PyObject
*me
, PyObject
*arg
)
842 if (!PyArg_ParseTuple(arg
, "Os#:fromraw", &me
, &p
, &len
))
844 buf_init(&b
, p
, len
);
846 if (ec_getraw(cc
, &b
, &pp
))
849 rc
= Py_BuildValue("(NN)", ecpt_pywrap(me
, &pp
), bytestring_pywrapbuf(&b
));
854 static PyObject
*meth__ECPtCurve_os2ecp(PyObject
*me
,
855 PyObject
*arg
, PyObject
*kw
)
862 unsigned f
= EC_XONLY
| EC_LSB
| EC_SORT
| EC_EXPLY
;
864 char *kwlist
[] = { "class", "buf", "flags", 0 };
866 if (!PyArg_ParseTupleAndKeywords(arg
, kw
, "Os#|O&:os2ecp", kwlist
,
867 &me
, &p
, &len
, convuint
, &f
))
869 buf_init(&b
, p
, len
);
871 if (ec_os2ecp(cc
, f
, &b
, &pp
)) VALERR("bad point");
873 rc
= Py_BuildValue("(NN)", ecpt_pywrap(me
, &pp
), bytestring_pywrapbuf(&b
));
878 static PyObject
*meth__ECPt_frombuf(PyObject
*me
, PyObject
*arg
)
886 if (!PyArg_ParseTuple(arg
, "Os#:frombuf", &me
, &p
, &sz
)) goto end
;
888 if (buf_getec(&b
, &pp
)) VALERR("malformed data");
889 rc
= Py_BuildValue("(NN)", ecpt_pywrapout(me
, &pp
),
890 bytestring_pywrapbuf(&b
));
895 static PyObject
*meth__ECPt_parse(PyObject
*me
, PyObject
*arg
)
902 if (!PyArg_ParseTuple(arg
, "Os:parse", &me
, &p
)) goto end
;
905 if (!ec_ptparse(&qd
, &pp
)) VALERR(qd
.e
);
906 rc
= Py_BuildValue("(Ns)", ecpt_pywrapout(me
, &pp
), qd
.p
);
911 static void eccurve_pydealloc(PyObject
*me
)
913 ec_destroycurve(ECCURVE_C(me
));
914 Py_DECREF(ECCURVE_FOBJ(me
));
915 PyType_Type
.tp_dealloc(me
);
918 static PyObject
*ecmeth_find(PyObject
*me
, PyObject
*arg
)
925 if (!PyArg_ParseTuple(arg
, "O:find", &x
)) goto end
;
926 if (FIELD_PYCHECK(x
) && FE_F(x
) == ECCURVE_C(me
)->f
)
927 xx
= MP_COPY(FE_X(x
));
928 else if ((xx
= getmp(x
)) == 0)
931 xx
= F_IN(ECCURVE_C(me
)->f
, xx
, xx
);
932 if (EC_FIND(ECCURVE_C(me
), &p
, xx
) == 0)
933 VALERR("not on the curve");
934 rc
= ecpt_pywrap(me
, &p
);
940 static PyObject
*ecmeth_rand(PyObject
*me
, PyObject
*arg
, PyObject
*kw
)
942 char *kwlist
[] = { "rng", 0 };
943 grand
*r
= &rand_global
;
946 if (!PyArg_ParseTupleAndKeywords(arg
, kw
, "|O&:rand", kwlist
,
949 ec_rand(ECCURVE_C(me
), &p
, r
);
950 EC_IN(ECCURVE_C(me
), &p
, &p
);
951 return (ecpt_pywrap(me
, &p
));
954 static PyObject
*eccurve_dopywrap(PyTypeObject
*ty
,
955 PyObject
*fobj
, ec_curve
*c
)
957 eccurve_pyobj
*cobj
= newtype(ty
, 0, c
->ops
->name
);
960 cobj
->ty
.ht_type
.tp_basicsize
= sizeof(ecpt_pyobj
);
961 cobj
->ty
.ht_type
.tp_base
= ecptcurve_pytype
;
962 Py_INCREF(ecptcurve_pytype
);
963 cobj
->ty
.ht_type
.tp_flags
= (Py_TPFLAGS_DEFAULT
|
964 Py_TPFLAGS_BASETYPE
|
965 Py_TPFLAGS_CHECKTYPES
|
966 Py_TPFLAGS_HEAPTYPE
);
967 cobj
->ty
.ht_type
.tp_alloc
= PyType_GenericAlloc
;
968 cobj
->ty
.ht_type
.tp_free
= 0;
969 cobj
->ty
.ht_type
.tp_new
= ecpt_pynew
;
970 typeready(&cobj
->ty
.ht_type
);
971 return ((PyObject
*)cobj
);
974 PyObject
*eccurve_pywrap(PyObject
*fobj
, ec_curve
*c
)
979 fobj
= field_pywrap(c
->f
);
982 assert(FIELD_F(fobj
) == c
->f
);
983 if (strcmp(EC_NAME(c
), "prime") == 0)
984 ty
= ecprimecurve_pytype
;
985 else if (strcmp(EC_NAME(c
), "primeproj") == 0)
986 ty
= ecprimeprojcurve_pytype
;
987 else if (strcmp(EC_NAME(c
), "bin") == 0)
988 ty
= ecbincurve_pytype
;
989 else if (strcmp(EC_NAME(c
), "binproj") == 0)
990 ty
= ecbinprojcurve_pytype
;
993 return (eccurve_dopywrap(ty
, fobj
, c
));
996 static PyObject
*eccurve_pynew(PyTypeObject
*ty
,
997 ec_curve
*(*make
)(field
*, mp
*, mp
*),
998 PyObject
*arg
, PyObject
*kw
)
1002 char *kwlist
[] = { "field", "a", "b", 0 };
1003 mp
*aa
= 0, *bb
= 0;
1005 if (!PyArg_ParseTupleAndKeywords(arg
, kw
, "O!O&O&", kwlist
,
1006 field_pytype
, &fobj
,
1007 convmp
, &aa
, convmp
, &bb
))
1010 cobj
= eccurve_dopywrap(ty
, fobj
, make(FIELD_F(fobj
), aa
, bb
));
1012 if (aa
) MP_DROP(aa
);
1013 if (bb
) MP_DROP(bb
);
1017 static PyObject
*meth__ECCurve_parse(PyObject
*me
, PyObject
*arg
)
1024 if (!PyArg_ParseTuple(arg
, "Os:parse", &me
, &p
))
1028 if ((c
= ec_curveparse(&qd
)) == 0)
1030 rc
= eccurve_pywrap(0, c
);
1035 static PyObject
*ecget_name(PyObject
*me
, void *hunoz
)
1036 { return (PyString_FromString(EC_NAME(ECCURVE_C(me
)))); }
1038 static PyObject
*ecget_a(PyObject
*me
, void *hunoz
)
1039 { return (fe_pywrap(ECCURVE_FOBJ(me
), MP_COPY(ECCURVE_C(me
)->a
))); }
1041 static PyObject
*ecget_b(PyObject
*me
, void *hunoz
)
1042 { return (fe_pywrap(ECCURVE_FOBJ(me
), MP_COPY(ECCURVE_C(me
)->b
))); }
1044 static PyObject
*ecget_field(PyObject
*me
, void *hunoz
)
1045 { RETURN_OBJ(ECCURVE_FOBJ(me
)); }
1047 static PyObject
*ecget_inf(PyObject
*me
, void *hunoz
)
1048 { ec inf
= EC_INIT
; return (ecpt_pywrap(me
, &inf
)); }
1050 static PyGetSetDef eccurve_pygetset
[] = {
1051 #define GETSETNAME(op, name) ec##op##_##name
1052 GET (name
, "E.name -> name of this kind of curve")
1053 GET (a
, "E.a -> first parameter of curve")
1054 GET (b
, "E.b -> second parameter of curve")
1055 GET (field
, "E.field -> finite field containing this curve")
1056 GET (inf
, "E.inf -> point at infinity of this curve")
1061 static PyMethodDef eccurve_pymethods
[] = {
1062 #define METHNAME(name) ecmeth_##name
1064 E.mmul([(P0, N0), (P1, N1), ...]) = N0 P0 + N1 P1 + ...")
1065 METH (find
, "E.find(X) -> P")
1066 KWMETH(rand
, "E.rand([rng = rand]) -> P")
1071 static PyTypeObject eccurve_pytype_skel
= {
1072 PyObject_HEAD_INIT(0) 0, /* Header */
1073 "ECCurve", /* @tp_name@ */
1074 sizeof(eccurve_pyobj
), /* @tp_basicsize@ */
1075 0, /* @tp_itemsize@ */
1077 eccurve_pydealloc
, /* @tp_dealloc@ */
1079 0, /* @tp_getattr@ */
1080 0, /* @tp_setattr@ */
1081 0, /* @tp_compare@ */
1083 0, /* @tp_as_number@ */
1084 0, /* @tp_as_sequence@ */
1085 0, /* @tp_as_mapping@ */
1089 0, /* @tp_getattro@ */
1090 0, /* @tp_setattro@ */
1091 0, /* @tp_as_buffer@ */
1092 Py_TPFLAGS_DEFAULT
| /* @tp_flags@ */
1093 Py_TPFLAGS_BASETYPE
,
1096 "An elliptic curve. Abstract class.",
1098 0, /* @tp_traverse@ */
1100 eccurve_pyrichcompare
, /* @tp_richcompare@ */
1101 0, /* @tp_weaklistoffset@ */
1103 0, /* @tp_iternext@ */
1104 eccurve_pymethods
, /* @tp_methods@ */
1105 0, /* @tp_members@ */
1106 eccurve_pygetset
, /* @tp_getset@ */
1109 0, /* @tp_descr_get@ */
1110 0, /* @tp_descr_set@ */
1111 0, /* @tp_dictoffset@ */
1113 PyType_GenericAlloc
, /* @tp_alloc@ */
1114 abstract_pynew
, /* @tp_new@ */
1119 static PyObject
*ecprimecurve_pynew(PyTypeObject
*ty
,
1120 PyObject
*arg
, PyObject
*kw
)
1122 return (eccurve_pynew(ty
, ec_prime
, arg
, kw
));
1125 static PyTypeObject ecprimecurve_pytype_skel
= {
1126 PyObject_HEAD_INIT(0) 0, /* Header */
1127 "ECPrimeCurve", /* @tp_name@ */
1128 sizeof(eccurve_pyobj
), /* @tp_basicsize@ */
1129 0, /* @tp_itemsize@ */
1131 eccurve_pydealloc
, /* @tp_dealloc@ */
1133 0, /* @tp_getattr@ */
1134 0, /* @tp_setattr@ */
1135 0, /* @tp_compare@ */
1137 0, /* @tp_as_number@ */
1138 0, /* @tp_as_sequence@ */
1139 0, /* @tp_as_mapping@ */
1143 0, /* @tp_getattro@ */
1144 0, /* @tp_setattro@ */
1145 0, /* @tp_as_buffer@ */
1146 Py_TPFLAGS_DEFAULT
| /* @tp_flags@ */
1147 Py_TPFLAGS_BASETYPE
,
1150 "An elliptic curve over a prime field. Use ecprimeprojcurve.",
1152 0, /* @tp_traverse@ */
1154 eccurve_pyrichcompare
, /* @tp_richcompare@ */
1155 0, /* @tp_weaklistoffset@ */
1157 0, /* @tp_iternext@ */
1158 0, /* @tp_methods@ */
1159 0, /* @tp_members@ */
1160 0, /* @tp_getset@ */
1163 0, /* @tp_descr_get@ */
1164 0, /* @tp_descr_set@ */
1165 0, /* @tp_dictoffset@ */
1167 PyType_GenericAlloc
, /* @tp_alloc@ */
1168 ecprimecurve_pynew
, /* @tp_new@ */
1173 static PyObject
*ecprimeprojcurve_pynew(PyTypeObject
*ty
,
1174 PyObject
*arg
, PyObject
*kw
)
1176 return (eccurve_pynew(ty
, ec_primeproj
, arg
, kw
));
1179 static PyTypeObject ecprimeprojcurve_pytype_skel
= {
1180 PyObject_HEAD_INIT(0) 0, /* Header */
1181 "ECPrimeProjCurve", /* @tp_name@ */
1182 sizeof(eccurve_pyobj
), /* @tp_basicsize@ */
1183 0, /* @tp_itemsize@ */
1185 eccurve_pydealloc
, /* @tp_dealloc@ */
1187 0, /* @tp_getattr@ */
1188 0, /* @tp_setattr@ */
1189 0, /* @tp_compare@ */
1191 0, /* @tp_as_number@ */
1192 0, /* @tp_as_sequence@ */
1193 0, /* @tp_as_mapping@ */
1197 0, /* @tp_getattro@ */
1198 0, /* @tp_setattro@ */
1199 0, /* @tp_as_buffer@ */
1200 Py_TPFLAGS_DEFAULT
| /* @tp_flags@ */
1201 Py_TPFLAGS_BASETYPE
,
1204 "An elliptic curve over a prime field, using projective coordinates.",
1206 0, /* @tp_traverse@ */
1208 eccurve_pyrichcompare
, /* @tp_richcompare@ */
1209 0, /* @tp_weaklistoffset@ */
1211 0, /* @tp_iternext@ */
1212 0, /* @tp_methods@ */
1213 0, /* @tp_members@ */
1214 0, /* @tp_getset@ */
1217 0, /* @tp_descr_get@ */
1218 0, /* @tp_descr_set@ */
1219 0, /* @tp_dictoffset@ */
1221 PyType_GenericAlloc
, /* @tp_alloc@ */
1222 ecprimeprojcurve_pynew
, /* @tp_new@ */
1227 static PyObject
*ecbincurve_pynew(PyTypeObject
*ty
,
1228 PyObject
*arg
, PyObject
*kw
)
1230 return (eccurve_pynew(ty
, ec_bin
, arg
, kw
));
1233 static PyTypeObject ecbincurve_pytype_skel
= {
1234 PyObject_HEAD_INIT(0) 0, /* Header */
1235 "ECBinCurve", /* @tp_name@ */
1236 sizeof(eccurve_pyobj
), /* @tp_basicsize@ */
1237 0, /* @tp_itemsize@ */
1239 eccurve_pydealloc
, /* @tp_dealloc@ */
1241 0, /* @tp_getattr@ */
1242 0, /* @tp_setattr@ */
1243 0, /* @tp_compare@ */
1245 0, /* @tp_as_number@ */
1246 0, /* @tp_as_sequence@ */
1247 0, /* @tp_as_mapping@ */
1251 0, /* @tp_getattro@ */
1252 0, /* @tp_setattro@ */
1253 0, /* @tp_as_buffer@ */
1254 Py_TPFLAGS_DEFAULT
| /* @tp_flags@ */
1255 Py_TPFLAGS_BASETYPE
,
1258 "An elliptic curve over a binary field. Use ecbinprojcurve.",
1260 0, /* @tp_traverse@ */
1262 eccurve_pyrichcompare
, /* @tp_richcompare@ */
1263 0, /* @tp_weaklistoffset@ */
1265 0, /* @tp_iternext@ */
1266 0, /* @tp_methods@ */
1267 0, /* @tp_members@ */
1268 0, /* @tp_getset@ */
1271 0, /* @tp_descr_get@ */
1272 0, /* @tp_descr_set@ */
1273 0, /* @tp_dictoffset@ */
1275 PyType_GenericAlloc
, /* @tp_alloc@ */
1276 ecbincurve_pynew
, /* @tp_new@ */
1281 static PyObject
*ecbinprojcurve_pynew(PyTypeObject
*ty
,
1282 PyObject
*arg
, PyObject
*kw
)
1284 return (eccurve_pynew(ty
, ec_binproj
, arg
, kw
));
1287 static PyTypeObject ecbinprojcurve_pytype_skel
= {
1288 PyObject_HEAD_INIT(0) 0, /* Header */
1289 "ECBinProjCurve", /* @tp_name@ */
1290 sizeof(eccurve_pyobj
), /* @tp_basicsize@ */
1291 0, /* @tp_itemsize@ */
1293 eccurve_pydealloc
, /* @tp_dealloc@ */
1295 0, /* @tp_getattr@ */
1296 0, /* @tp_setattr@ */
1297 0, /* @tp_compare@ */
1299 0, /* @tp_as_number@ */
1300 0, /* @tp_as_sequence@ */
1301 0, /* @tp_as_mapping@ */
1305 0, /* @tp_getattro@ */
1306 0, /* @tp_setattro@ */
1307 0, /* @tp_as_buffer@ */
1308 Py_TPFLAGS_DEFAULT
| /* @tp_flags@ */
1309 Py_TPFLAGS_BASETYPE
,
1312 "An elliptic curve over a binary field, using projective coordinates.",
1314 0, /* @tp_traverse@ */
1316 eccurve_pyrichcompare
, /* @tp_richcompare@ */
1317 0, /* @tp_weaklistoffset@ */
1319 0, /* @tp_iternext@ */
1320 0, /* @tp_methods@ */
1321 0, /* @tp_members@ */
1322 0, /* @tp_getset@ */
1325 0, /* @tp_descr_get@ */
1326 0, /* @tp_descr_set@ */
1327 0, /* @tp_dictoffset@ */
1329 PyType_GenericAlloc
, /* @tp_alloc@ */
1330 ecbinprojcurve_pynew
, /* @tp_new@ */
1335 /*----- Curve info --------------------------------------------------------*/
1337 static int ncurves
= -1;
1339 void ecinfo_copy(ec_info
*eic
, const ec_info
*ei
)
1341 eic
->c
= eccurve_copy(ei
->c
);
1343 EC_COPY(&eic
->g
, &ei
->g
);
1344 eic
->r
= MP_COPY(ei
->r
);
1345 eic
->h
= MP_COPY(ei
->h
);
1348 PyObject
*ecinfo_pywrap(ec_info
*ei
)
1352 o
= PyObject_NEW(ecinfo_pyobj
, ecinfo_pytype
);
1354 o
->cobj
= eccurve_pywrap(0, o
->ei
.c
);
1356 return ((PyObject
*)o
);
1359 static void ecinfo_pydealloc(PyObject
*me
)
1361 ec_info
*ei
= ECINFO_EI(me
);
1365 Py_DECREF(ECINFO_COBJ(me
));
1369 static PyObject
*ecinfo_pynew(PyTypeObject
*ty
, PyObject
*arg
, PyObject
*kw
)
1373 char *kwlist
[] = { "curve", "G", "r", "h", 0 };
1374 ecinfo_pyobj
*rc
= 0;
1376 if (!PyArg_ParseTupleAndKeywords(arg
, kw
, "O!O!O&O&:new", kwlist
,
1377 eccurve_pytype
, &e
, ecpt_pytype
, &g
,
1378 convmp
, &ei
.r
, convmp
, &ei
.h
))
1380 if (ECPT_C(g
) != ECCURVE_C(e
) && !ec_samep(ECPT_C(g
), ECCURVE_C(e
)))
1381 TYERR("point not from this curve");
1382 ei
.c
= ECCURVE_C(e
);
1384 EC_OUT(ei
.c
, &ei
.g
, ECPT_P(g
));
1385 rc
= (ecinfo_pyobj
*)ty
->tp_alloc(ty
, 0);
1388 Py_INCREF(rc
->cobj
);
1389 return ((PyObject
*)rc
);
1397 static PyObject
*meth__ECInfo_parse(PyObject
*me
, PyObject
*arg
)
1404 if (!PyArg_ParseTuple(arg
, "Os:parse", &me
, &p
))
1408 if (ec_infoparse(&qd
, &ei
))
1410 rc
= Py_BuildValue("(Ns)", ecinfo_pywrap(&ei
), qd
.p
);
1415 static PyObject
*meth__ECInfo__curven(PyObject
*me
, PyObject
*arg
)
1421 if (!PyArg_ParseTuple(arg
, "Oi:_curven", &me
, &i
)) goto end
;
1422 if (i
< 0 || i
>= ncurves
) VALERR("curve index out of range");
1423 ec_infofromdata(&ei
, ectab
[i
].data
);
1424 rc
= ecinfo_pywrap(&ei
);
1429 static PyObject
*ecinfo_pyrichcompare(PyObject
*x
, PyObject
*y
, int op
)
1431 int b
= ec_sameinfop(ECINFO_EI(x
), ECINFO_EI(y
));
1435 default: TYERR("can't order elliptic curve infos");
1437 return (getbool(b
));
1442 static PyObject
*eimeth_check(PyObject
*me
, PyObject
*arg
, PyObject
*kw
)
1444 char *kwlist
[] = { "rng", 0 };
1445 grand
*r
= &rand_global
;
1448 if (!PyArg_ParseTupleAndKeywords(arg
, kw
, "|O&:check", kwlist
,
1451 if ((p
= ec_checkinfo(ECINFO_EI(me
), r
)) != 0)
1458 static PyObject
*eiget_curve(PyObject
*me
, void *hunoz
)
1459 { RETURN_OBJ(ECINFO_COBJ(me
)); }
1461 static PyObject
*eiget_G(PyObject
*me
, void *hunoz
)
1463 ec_info
*ei
= ECINFO_EI(me
);
1465 EC_IN(ei
->c
, &p
, &ei
->g
);
1466 return (ecpt_pywrap(ECINFO_COBJ(me
), &p
));
1469 static PyObject
*eiget_r(PyObject
*me
, void *hunoz
)
1470 { return (mp_pywrap(MP_COPY(ECINFO_EI(me
)->r
))); }
1472 static PyObject
*eiget_h(PyObject
*me
, void *hunoz
)
1473 { return (mp_pywrap(MP_COPY(ECINFO_EI(me
)->h
))); }
1475 static PyGetSetDef ecinfo_pygetset
[] = {
1476 #define GETSETNAME(op, name) ei##op##_##name
1477 GET (curve
, "I.curve -> the elliptic curve")
1478 GET (G
, "I.G -> generator point for the group")
1479 GET (r
, "I.r -> order of the group (and hence of G")
1480 GET (h
, "I.h -> cofactor of the group")
1485 static PyMethodDef ecinfo_pymethods
[] = {
1486 #define METHNAME(name) eimeth_##name
1487 KWMETH(check
, "I.check([rng = rand]) -> None")
1492 static PyTypeObject ecinfo_pytype_skel
= {
1493 PyObject_HEAD_INIT(0) 0, /* Header */
1494 "ECInfo", /* @tp_name@ */
1495 sizeof(ecinfo_pyobj
), /* @tp_basicsize@ */
1496 0, /* @tp_itemsize@ */
1498 ecinfo_pydealloc
, /* @tp_dealloc@ */
1500 0, /* @tp_getattr@ */
1501 0, /* @tp_setattr@ */
1502 0, /* @tp_compare@ */
1504 0, /* @tp_as_number@ */
1505 0, /* @tp_as_sequence@ */
1506 0, /* @tp_as_mapping@ */
1510 0, /* @tp_getattro@ */
1511 0, /* @tp_setattro@ */
1512 0, /* @tp_as_buffer@ */
1513 Py_TPFLAGS_DEFAULT
| /* @tp_flags@ */
1514 Py_TPFLAGS_BASETYPE
,
1517 "Elliptic curve domain parameters.",
1519 0, /* @tp_traverse@ */
1521 ecinfo_pyrichcompare
, /* @tp_richcompare@ */
1522 0, /* @tp_weaklistoffset@ */
1524 0, /* @tp_iternext@ */
1525 ecinfo_pymethods
, /* @tp_methods@ */
1526 0, /* @tp_members@ */
1527 ecinfo_pygetset
, /* @tp_getset@ */
1530 0, /* @tp_descr_get@ */
1531 0, /* @tp_descr_set@ */
1532 0, /* @tp_dictoffset@ */
1534 PyType_GenericAlloc
, /* @tp_alloc@ */
1535 ecinfo_pynew
, /* @tp_new@ */
1540 /*----- Setup -------------------------------------------------------------*/
1542 static PyMethodDef methods
[] = {
1543 #define METHNAME(func) meth_##func
1544 METH (_ECPt_frombuf
, "frombuf(E, STR) -> (P, REST)")
1545 METH (_ECPtCurve_fromraw
, "fromraw(E, STR) -> (P, REST)")
1546 KWMETH(_ECPtCurve_os2ecp
, "os2ecp(E, STR, [flags = ...]) -> (P, REST)")
1547 METH (_ECPt_parse
, "parse(E, STR) -> (P, REST)")
1548 METH (_ECCurve_parse
, "parse(STR) -> (E, REST)")
1549 METH (_ECInfo_parse
, "parse(STR) -> (I, REST)")
1550 METH (_ECInfo__curven
, "_curven(N) -> I")
1555 void ec_pyinit(void)
1557 INITTYPE(ecpt
, root
);
1558 INITTYPE(ecptcurve
, ecpt
);
1559 INITTYPE(eccurve
, type
);
1560 INITTYPE(ecprimecurve
, eccurve
);
1561 INITTYPE(ecprimeprojcurve
, ecprimecurve
);
1562 INITTYPE(ecbincurve
, eccurve
);
1563 INITTYPE(ecbinprojcurve
, ecbincurve
);
1564 INITTYPE(ecinfo
, root
);
1565 addmethods(methods
);
1568 static PyObject
*namedcurves(void)
1575 for (i
= 0; ectab
[i
].name
; i
++) {
1577 for (j
= 0; j
< i
; j
++) {
1578 if (ectab
[i
].data
== ectab
[j
].data
) {
1579 c
= PyDict_GetItemString(d
, (/*unconst*/ char *)ectab
[j
].name
);
1584 c
= PyInt_FromLong(i
);
1586 PyDict_SetItemString(d
, (/*unconst*/ char *)p
, c
);
1593 void ec_pyinsert(PyObject
*mod
)
1595 INSERT("ECPt", ecpt_pytype
);
1596 INSERT("ECPtCurve", ecptcurve_pytype
);
1597 INSERT("ECCurve", eccurve_pytype
);
1598 INSERT("ECPrimeCurve", ecprimecurve_pytype
);
1599 INSERT("ECPrimeProjCurve", ecprimeprojcurve_pytype
);
1600 INSERT("ECBinCurve", ecbincurve_pytype
);
1601 INSERT("ECBinProjCurve", ecbinprojcurve_pytype
);
1602 INSERT("ECInfo", ecinfo_pytype
);
1603 INSERT("_eccurves", namedcurves());
1606 /*----- That's all, folks -------------------------------------------------*/