g->rng = rng; Py_INCREF(rng); g->hash = hash; Py_INCREF(hash);
return ((PyObject *)g);
end:
- if (p) Py_DECREF(p);
- FREEOBJ(g);
+ Py_XDECREF(p); FREEOBJ(g);
return (0);
}
return (rc);
}
-static PyMethodDef dsapub_pymethods[] = {
+static const PyMethodDef dsapub_pymethods[] = {
#define METHNAME(name) dsameth_##name
- METH (beginhash, "D.beginhash() -> hash object")
- METH (endhash, "D.endhash(H) -> BYTES")
- METH (verify, "D.verify(MSG, (R, S)) -> true/false")
+ METH (beginhash, "D.beginhash() -> hash object")
+ METH (endhash, "D.endhash(H) -> BYTES")
+ METH (verify, "D.verify(MSG, (R, S)) -> true/false")
#undef METHNAME
{ 0 }
};
-static PyMethodDef dsapriv_pymethods[] = {
+static const PyMethodDef dsapriv_pymethods[] = {
#define METHNAME(name) dsameth_##name
- KWMETH(sign, "D.sign(MSG, k = K) -> R, S")
+ KWMETH(sign, "D.sign(MSG, [k = K]) -> R, S")
#undef METHNAME
{ 0 }
};
-static PyMemberDef dsapub_pymembers[] = {
+static const PyMemberDef dsapub_pymembers[] = {
#define MEMBERSTRUCT dsa_pyobj
MEMBER(G, T_OBJECT, READONLY, "D.G -> group to work in")
MEMBER(p, T_OBJECT, READONLY, "D.p -> public key (group element")
{ 0 }
};
-static PyMemberDef dsapriv_pymembers[] = {
+static const PyMemberDef dsapriv_pymembers[] = {
#define MEMBERSTRUCT dsa_pyobj
MEMBER(u, T_OBJECT, READONLY, "D.u -> private key (exponent)")
#undef MEMBERSTRUCT
Py_TPFLAGS_BASETYPE,
/* @tp_doc@ */
-"DSAPub(GROUP, P, [hash = sha], [rng = rand]): DSA public key.",
+ "DSAPub(GROUP, P, [hash = sha], [rng = rand]): DSA public key.",
0, /* @tp_traverse@ */
0, /* @tp_clear@ */
0, /* @tp_weaklistoffset@ */
0, /* @tp_iter@ */
0, /* @tp_iternext@ */
- dsapub_pymethods, /* @tp_methods@ */
- dsapub_pymembers, /* @tp_members@ */
+ PYMETHODS(dsapub), /* @tp_methods@ */
+ PYMEMBERS(dsapub), /* @tp_members@ */
0, /* @tp_getset@ */
0, /* @tp_base@ */
0, /* @tp_dict@ */
Py_TPFLAGS_BASETYPE,
/* @tp_doc@ */
-"DSAPriv(GROUP, U, [p = u G], [hash = sha], [rng = rand]): DSA private key.",
+ "DSAPriv(GROUP, U, [p = u G], [hash = sha], [rng = rand]): "
+ "DSA private key.",
0, /* @tp_traverse@ */
0, /* @tp_clear@ */
0, /* @tp_weaklistoffset@ */
0, /* @tp_iter@ */
0, /* @tp_iternext@ */
- dsapriv_pymethods, /* @tp_methods@ */
- dsapriv_pymembers, /* @tp_members@ */
+ PYMETHODS(dsapriv), /* @tp_methods@ */
+ PYMEMBERS(dsapriv), /* @tp_members@ */
0, /* @tp_getset@ */
0, /* @tp_base@ */
0, /* @tp_dict@ */
return (rc);
}
-static PyMethodDef kcdsapub_pymethods[] = {
+static const PyMethodDef kcdsapub_pymethods[] = {
#define METHNAME(name) kcdsameth_##name
- METH (beginhash, "D.beginhash() -> hash object")
- METH (endhash, "D.endhash(H) -> BYTES")
- METH (verify, "D.verify(MSG, (R, S)) -> true/false")
+ METH (beginhash, "D.beginhash() -> hash object")
+ METH (endhash, "D.endhash(H) -> BYTES")
+ METH (verify, "D.verify(MSG, (R, S)) -> true/false")
#undef METHNAME
{ 0 }
};
-static PyMethodDef kcdsapriv_pymethods[] = {
+static const PyMethodDef kcdsapriv_pymethods[] = {
#define METHNAME(name) kcdsameth_##name
- KWMETH(sign, "D.sign(MSG, k = K) -> R, S")
+ KWMETH(sign, "D.sign(MSG, [k = K]) -> R, S")
#undef METHNAME
{ 0 }
};
Py_TPFLAGS_BASETYPE,
/* @tp_doc@ */
-"KCDSAPub(GROUP, P, [hash = sha], [rng = rand]): KCDSA public key.",
+ "KCDSAPub(GROUP, P, [hash = sha], [rng = rand]): KCDSA public key.",
0, /* @tp_traverse@ */
0, /* @tp_clear@ */
0, /* @tp_weaklistoffset@ */
0, /* @tp_iter@ */
0, /* @tp_iternext@ */
- kcdsapub_pymethods, /* @tp_methods@ */
- dsapub_pymembers, /* @tp_members@ */
+ PYMETHODS(kcdsapub), /* @tp_methods@ */
+ PYMEMBERS(dsapub), /* @tp_members@ */
0, /* @tp_getset@ */
0, /* @tp_base@ */
0, /* @tp_dict@ */
Py_TPFLAGS_BASETYPE,
/* @tp_doc@ */
-"KCDSAPriv(GROUP, U, [p = u G], [hash = sha], [rng = rand]): KCDSA private key.",
+ "KCDSAPriv(GROUP, U, [p = u G], [hash = sha], [rng = rand]): "
+ "KCDSA private key.",
0, /* @tp_traverse@ */
0, /* @tp_clear@ */
0, /* @tp_weaklistoffset@ */
0, /* @tp_iter@ */
0, /* @tp_iternext@ */
- kcdsapriv_pymethods, /* @tp_methods@ */
- dsapriv_pymembers, /* @tp_members@ */
+ PYMETHODS(kcdsapriv), /* @tp_methods@ */
+ PYMEMBERS(dsapriv), /* @tp_members@ */
0, /* @tp_getset@ */
0, /* @tp_base@ */
0, /* @tp_dict@ */
goto end;
if ((rp.n && !MP_ODDP(rp.n)) ||
(rp.p && !MP_ODDP(rp.p)) ||
- (rp.p && !MP_ODDP(rp.q)))
+ (rp.q && !MP_ODDP(rp.q)))
VALERR("RSA modulus and factors must be odd");
if (rsa_recover(&rp)) VALERR("couldn't construct private key");
if (rng != Py_None && !GRAND_PYCHECK(rng))
unsigned n = 0;
rsa_priv rp;
mp *e = 0;
- pgev evt = { 0 };
+ struct excinfo exc = EXCINFO_INIT;
+ pypgev evt = { { 0 } };
static const char *const kwlist[] =
{ "class", "nbits", "event", "rng", "nsteps", "e", 0 };
PyObject *rc = 0;
+ evt.exc = &exc;
if (!PyArg_ParseTupleAndKeywords(arg, kw, "OO&|O&O&O&O&:generate", KWLIST,
&me, convuint, &nbits, convpgev, &evt,
convgrand, &r, convuint, &n,
goto end;
if (e) MP_COPY(e);
else e = mp_fromulong(MP_NEW, 65537);
- if (rsa_gen_e(&rp, nbits, e, r, n, evt.proc, evt.ctx))
- PGENERR;
+ if (rsa_gen_e(&rp, nbits, e, r, n, evt.ev.proc, evt.ev.ctx))
+ PGENERR(&exc);
rc = rsapriv_pywrap(&rp);
end:
droppgev(&evt);
return (rc);
}
-static PyGetSetDef rsapub_pygetset[] = {
+static const PyGetSetDef rsapub_pygetset[] = {
#define GETSETNAME(op, name) rsa##op##_##name
- GET (n, "R.n -> N")
- GET (e, "R.e -> E")
+ GET (n, "R.n -> N")
+ GET (e, "R.e -> E")
#undef GETSETNAME
{ 0 }
};
-static PyMethodDef rsapub_pymethods[] = {
+static const PyMethodDef rsapub_pymethods[] = {
#define METHNAME(name) rsameth_##name
- METH (pubop, "R.pubop(X) -> X^E (mod N)")
+ METH (pubop, "R.pubop(X) -> X^E (mod N)")
#undef METHNAME
{ 0 }
};
-static PyGetSetDef rsapriv_pygetset[] = {
+static const PyGetSetDef rsapriv_pygetset[] = {
#define GETSETNAME(op, name) rsa##op##_##name
- GET (d, "R.d -> D")
- GET (p, "R.p -> P")
- GET (q, "R.q -> Q")
- GET (dp, "R.dp -> D mod (P - 1)")
- GET (dq, "R.dq -> D mod (Q - 1)")
- GET (q_inv, "R.q_inv -> Q^{-1} mod P")
- GETSET(rng, "R.rng -> random number source for blinding")
+ GET (d, "R.d -> D")
+ GET (p, "R.p -> P")
+ GET (q, "R.q -> Q")
+ GET (dp, "R.dp -> D mod (P - 1)")
+ GET (dq, "R.dq -> D mod (Q - 1)")
+ GET (q_inv, "R.q_inv -> Q^{-1} mod P")
+ GETSET(rng, "R.rng -> random number source for blinding")
#undef GETSETNAME
{ 0 }
};
-static PyMethodDef rsapriv_pymethods[] = {
+static const PyMethodDef rsapriv_pymethods[] = {
#define METHNAME(name) rsameth_##name
- KWMETH(privop, "R.privop(X, rng = None) -> X^D (mod N)")
+ KWMETH(privop, "R.privop(X, [rng = None]) -> X^D (mod N)")
#undef METHNAME
{ 0 }
};
Py_TPFLAGS_BASETYPE,
/* @tp_doc@ */
-"RSAPub(N, E): RSA public key.",
+ "RSAPub(N, E): RSA public key.",
0, /* @tp_traverse@ */
0, /* @tp_clear@ */
0, /* @tp_weaklistoffset@ */
0, /* @tp_iter@ */
0, /* @tp_iternext@ */
- rsapub_pymethods, /* @tp_methods@ */
+ PYMETHODS(rsapub), /* @tp_methods@ */
0, /* @tp_members@ */
- rsapub_pygetset, /* @tp_getset@ */
+ PYGETSET(rsapub), /* @tp_getset@ */
0, /* @tp_base@ */
0, /* @tp_dict@ */
0, /* @tp_descr_get@ */
Py_TPFLAGS_BASETYPE,
/* @tp_doc@ */
-"RSAPriv(..., [rng = rand]): RSA private key.\n\
- Keywords: n, e, d, p, q, dp, dq, q_inv; must provide enough",
+ "RSAPriv(..., [rng = rand]): RSA private key.\n"
+ " Keywords: n, e, d, p, q, dp, dq, q_inv; must provide enough",
0, /* @tp_traverse@ */
0, /* @tp_clear@ */
0, /* @tp_weaklistoffset@ */
0, /* @tp_iter@ */
0, /* @tp_iternext@ */
- rsapriv_pymethods, /* @tp_methods@ */
+ PYMETHODS(rsapriv), /* @tp_methods@ */
0, /* @tp_members@ */
- rsapriv_pygetset, /* @tp_getset@ */
+ PYGETSET(rsapriv), /* @tp_getset@ */
0, /* @tp_base@ */
0, /* @tp_dict@ */
0, /* @tp_descr_get@ */
/*----- Global stuff ------------------------------------------------------*/
-static PyMethodDef methods[] = {
+static const PyMethodDef methods[] = {
#define METHNAME(name) meth_##name
- KWMETH(_p1crypt_encode, 0)
- KWMETH(_p1crypt_decode, 0)
- KWMETH(_p1sig_encode, 0)
- KWMETH(_p1sig_decode, 0)
- KWMETH(_oaep_encode, 0)
- KWMETH(_oaep_decode, 0)
- KWMETH(_pss_encode, 0)
- KWMETH(_pss_decode, 0)
- KWMETH(_RSAPriv_generate, "\
-generate(NBITS, [event = pgen_nullev, rng = rand, nsteps = 0]) -> R")
+ KWMETH(_p1crypt_encode, 0)
+ KWMETH(_p1crypt_decode, 0)
+ KWMETH(_p1sig_encode, 0)
+ KWMETH(_p1sig_decode, 0)
+ KWMETH(_oaep_encode, 0)
+ KWMETH(_oaep_decode, 0)
+ KWMETH(_pss_encode, 0)
+ KWMETH(_pss_decode, 0)
+ KWMETH(_RSAPriv_generate, "generate(NBITS, [event = pgen_nullev], "
+ "[rng = rand], [nsteps = 0]) -> R")
#define DEFMETH(X, x) \
- METH (x, "\
-" #x "(KEY, PUBLIC) -> SHARED")
+ METH (x, "" #x "(KEY, PUBLIC) -> SHARED")
XDHS(DEFMETH)
#undef DEFMETH
#define DEFMETH(ED, ed, phdflt, sigver) \
- METH (ed##_pubkey, "\
-" #ed "_pubkey(KEY) -> PUBLIC") \
- KWMETH(ed##_sign, "\
-" #ed "_sign(KEY, MSG, [pub = PUBLIC, " \
- "perso = STRING, phflag = BOOL]) -> SIG") \
- KWMETH(ed##_verify, "\
-" #ed "_verify(PUBLIC, MSG, SIG, " \
- "[perso = STRING, phflag = BOOL]) -> BOOL")
+ METH (ed##_pubkey, "" #ed "_pubkey(KEY) -> PUBLIC") \
+ KWMETH(ed##_sign, "" #ed "_sign(KEY, MSG, [pub = PUBLIC], " \
+ "[perso = STRING], [phflag = BOOL]) -> SIG") \
+ KWMETH(ed##_verify, "" #ed "_verify(PUBLIC, MSG, SIG, " \
+ "[perso = STRING], [phflag = BOOL]) -> BOOL")
EDDSAS(DEFMETH)
#undef DEFMETH
#undef METHNAME