if (!PyArg_ParseTuple(arg, "O:range", &m)) return (0);
if (PyInt_Check(m)) {
long mm = PyInt_AS_LONG(m);
- if (mm < 0)
- goto negative;
+ if (mm <= 0)
+ goto notpos;
if (mm <= 0xffffffff)
return (PyInt_FromLong(grand_range(GRAND_R(me), mm)));
}
if ((x = getmp(m)) == 0)
goto end;
- if (MP_NEGP(x))
- goto negative;
+ if (!MP_POSP(x))
+ goto notpos;
y = mprand_range(MP_NEW, x, GRAND_R(me), 0);
MP_DROP(x);
return (mp_pywrap(y));
-negative:
- TYERR("range must be nonnegative");
+notpos:
+ VALERR("range must be strictly positive");
end:
if (x) MP_DROP(x);
return (0);
static PyObject *grmeth_mp(PyObject *me, PyObject *arg, PyObject *kw)
{
size_t l;
- mpw o;
+ mpw o = 0;
char *kwlist[] = { "bits", "or", 0 };
if (!PyArg_ParseTupleAndKeywords(arg, kw, "O&|O&:mp", kwlist,
convszt, &l, convmpw, &o))
goto end;
+ if (l < MPW_BITS && (o >> l)) VALERR("or mask too large");
return (mp_pywrap(mprand(MP_NEW, l, GRAND_R(me), o)));
end:
return (0);
static PyObject *grmeth_seedblock(PyObject *me, PyObject *arg)
{
char *p;
- int n;
+ Py_ssize_t n;
grand *r = GRAND_R(me);
if (!PyArg_ParseTuple(arg, "s#:seedblock", &p, &n) ||
checkop(r, GRAND_SEEDBLOCK, "seedblock"))
{
grand *r = GRAND_R(me);
char *p, *q;
- int sz;
+ Py_ssize_t sz;
PyObject *rc;
if (!PyArg_ParseTuple(arg, "s#:mask", &p, &sz)) return (0);
static PyObject *trmeth_add(PyObject *me, PyObject *arg)
{
grand *r = GRAND_R(me);
- char *p; int n; unsigned goodbits;
+ char *p; Py_ssize_t n; unsigned goodbits;
if (!PyArg_ParseTuple(arg, "s#O&:add", &p, &n, convuint, &goodbits))
return (0);
r->ops->misc(r, RAND_ADD, p, (size_t)n, goodbits);
static PyObject *trmeth_key(PyObject *me, PyObject *arg)
{
grand *r = GRAND_R(me);
- char *p; int n;
+ char *p; Py_ssize_t n;
if (!PyArg_ParseTuple(arg, "s#:key", &p, &n)) return (0);
r->ops->misc(r, RAND_KEY, p, (size_t)n);
RETURN_ME;
/*----- Generators from symmetric encryption algorithms -------------------*/
-static PyTypeObject *gccrand_pytype, *gcrand_pytype;
+static PyTypeObject *gccrand_pytype, *gcrand_pytype, *gclatinrand_pytype;
typedef grand *gcrand_func(const void *, size_t sz);
typedef grand *gcirand_func(const void *, size_t sz, uint32);
typedef grand *gcnrand_func(const void *, size_t sz, const void *);
+typedef grand *gcshakerand_func(const void *, size_t,
+ const void *, size_t,
+ const void *, size_t);
+typedef grand *gcshafuncrand_func(const void *, size_t,
+ const void *, size_t);
+typedef grand *gckmacrand_func(const void *, size_t, const void *, size_t);
typedef struct gccrand_info {
const char *name;
const octet *keysz;
gcrand_func *func;
} gccrand_info;
-#define RNGF_INT 1u
-#define RNGF_NONCE 2u
+#define RNGF_MASK 255u
+
+enum {
+ RNG_PLAIN = 0,
+ RNG_SEAL,
+ RNG_LATIN,
+ RNG_SHAKE,
+ RNG_KMAC
+};
typedef struct gccrand_pyobj {
PyHeapTypeObject ty;
const gccrand_info *info = GCCRAND_INFO(ty);
static char *kwlist[] = { "key", 0 };
char *k;
- int n;
+ Py_ssize_t n;
if (!PyArg_ParseTupleAndKeywords(arg, kw, "s#:new", kwlist, &k, &n))
goto end;
uint32 i = 0;
static char *kwlist[] = { "key", "i", 0 };
char *k;
- int n;
+ Py_ssize_t n;
if (!PyArg_ParseTupleAndKeywords(arg, kw, "s#O&:new", kwlist,
&k, &n, convu32, &i))
const gccrand_info *info = GCCRAND_INFO(ty);
static char *kwlist[] = { "key", "nonce", 0 };
char *k, *n;
- int ksz, nsz;
+ Py_ssize_t ksz, nsz;
if (!PyArg_ParseTupleAndKeywords(arg, kw, "s#s#:new", kwlist,
&k, &ksz, &n, &nsz))
return (0);
}
+static PyObject *gcshakyrand_pynew(PyTypeObject *ty,
+ PyObject *arg, PyObject *kw)
+{
+ const gccrand_info *info = GCCRAND_INFO(ty);
+ static char *kwlist_shake[] = { "key", "func", "perso", 0 };
+ static char *kwlist_func[] = { "key", "perso", 0 };
+ char *k, *f = 0, *p = 0;
+ Py_ssize_t ksz, fsz = 0, psz = 0;
+
+ if ((info->f&RNGF_MASK) == RNG_SHAKE
+ ? !PyArg_ParseTupleAndKeywords(arg, kw, "s#|s#s#:new", kwlist_shake,
+ &k, &ksz, &f, &fsz, &p, &psz)
+ : !PyArg_ParseTupleAndKeywords(arg, kw, "s#|s#:new", kwlist_func,
+ &k, &ksz, &p, &psz))
+ goto end;
+ if (keysz(ksz, info->keysz) != ksz) VALERR("bad key length");
+ return (grand_dopywrap(ty,
+ (info->f&RNGF_MASK) == RNG_SHAKE
+ ? ((gcshakerand_func *)info->func)(f, fsz,
+ p, psz,
+ k, ksz)
+ : ((gcshafuncrand_func *)info->func)(p, psz,
+ k, ksz),
+ f_freeme));
+end:
+ return (0);
+}
+
static PyObject *gccrand_pywrap(const gccrand_info *info)
{
gccrand_pyobj *g = newtype(gccrand_pytype, 0, info->name);
g->info = info;
g->ty.ht_type.tp_basicsize = sizeof(grand_pyobj);
- g->ty.ht_type.tp_base = gcrand_pytype;
- Py_INCREF(gcrand_pytype);
+ switch (info->f&RNGF_MASK) {
+ case RNG_LATIN: g->ty.ht_type.tp_base = gclatinrand_pytype; break;
+ default: g->ty.ht_type.tp_base = gcrand_pytype; break;
+ }
+ Py_INCREF(g->ty.ht_type.tp_base);
g->ty.ht_type.tp_flags = (Py_TPFLAGS_DEFAULT |
Py_TPFLAGS_BASETYPE |
Py_TPFLAGS_HEAPTYPE);
g->ty.ht_type.tp_alloc = PyType_GenericAlloc;
g->ty.ht_type.tp_free = 0;
- if (info->f & RNGF_INT) g->ty.ht_type.tp_new = gcirand_pynew;
- else if (info->f & RNGF_NONCE) g->ty.ht_type.tp_new = gcnrand_pynew;
- else g->ty.ht_type.tp_new = gcrand_pynew;
+ switch (info->f&RNGF_MASK) {
+ case RNG_LATIN: g->ty.ht_type.tp_new = gcnrand_pynew; break;
+ case RNG_SEAL: g->ty.ht_type.tp_new = gcirand_pynew; break;
+ case RNG_SHAKE: case RNG_KMAC:
+ g->ty.ht_type.tp_new = gcshakyrand_pynew; break;
+ default: g->ty.ht_type.tp_new = gcrand_pynew; break;
+ }
typeready(&g->ty.ht_type);
return ((PyObject *)g);
}
static PyObject *gccrget_keysz(PyObject *me, void *hunoz)
{ return (keysz_pywrap(GCCRAND_INFO(me)->keysz)); }
+static PyObject *gclrmeth_tell(PyObject *me, PyObject *arg)
+{
+ grand *r = GRAND_R(me);
+ PyObject *rc = 0;
+ kludge64 off;
+
+ if (!PyArg_ParseTuple(arg, ":tell")) return (0);
+ r->ops->misc(r, SALSA20_TELLU64, &off);
+ rc = getk64(off);
+ return (rc);
+}
+
+static PyObject *gclrmeth_seek(PyObject *me, PyObject *arg)
+{
+ grand *r = GRAND_R(me);
+ kludge64 off;
+
+ if (!PyArg_ParseTuple(arg, "O&:seek", convk64, &off)) return (0);
+ r->ops->misc(r, SALSA20_SEEKU64, off);
+ RETURN_ME;
+}
+
static PyGetSetDef gccrand_pygetset[] = {
#define GETSETNAME(op, name) gccr##op##_##name
GET (keysz, "CR.keysz -> acceptable key sizes")
{ 0 }
};
+static PyMethodDef gclatinrand_pymethods[] = {
+#define METHNAME(name) gclrmeth_##name
+ METH (tell, "R.tell() -> OFF")
+ METH (seek, "R.seek(OFF)")
+#undef METHNAME
+ { 0 }
+};
+
static PyTypeObject gccrand_pytype_skel = {
PyObject_HEAD_INIT(0) 0, /* Header */
"GCCRand", /* @tp_name@ */
0 /* @tp_is_gc@ */
};
+static PyTypeObject gclatinrand_pytype_skel = {
+ PyObject_HEAD_INIT(0) 0, /* Header */
+ "GCLatinRand", /* @tp_name@ */
+ sizeof(grand_pyobj), /* @tp_basicsize@ */
+ 0, /* @tp_itemsize@ */
+
+ grand_pydealloc, /* @tp_dealloc@ */
+ 0, /* @tp_print@ */
+ 0, /* @tp_getattr@ */
+ 0, /* @tp_setattr@ */
+ 0, /* @tp_compare@ */
+ 0, /* @tp_repr@ */
+ 0, /* @tp_as_number@ */
+ 0, /* @tp_as_sequence@ */
+ 0, /* @tp_as_mapping@ */
+ 0, /* @tp_hash@ */
+ 0, /* @tp_call@ */
+ 0, /* @tp_str@ */
+ 0, /* @tp_getattro@ */
+ 0, /* @tp_setattro@ */
+ 0, /* @tp_as_buffer@ */
+ Py_TPFLAGS_DEFAULT | /* @tp_flags@ */
+ Py_TPFLAGS_BASETYPE,
+
+ /* @tp_doc@ */
+"Abstract base class for symmetric crypto-based generators.",
+
+ 0, /* @tp_traverse@ */
+ 0, /* @tp_clear@ */
+ 0, /* @tp_richcompare@ */
+ 0, /* @tp_weaklistoffset@ */
+ 0, /* @tp_iter@ */
+ 0, /* @tp_iternext@ */
+ gclatinrand_pymethods, /* @tp_methods@ */
+ 0, /* @tp_members@ */
+ 0, /* @tp_getset@ */
+ 0, /* @tp_base@ */
+ 0, /* @tp_dict@ */
+ 0, /* @tp_descr_get@ */
+ 0, /* @tp_descr_set@ */
+ 0, /* @tp_dictoffset@ */
+ 0, /* @tp_init@ */
+ PyType_GenericAlloc, /* @tp_alloc@ */
+ abstract_pynew, /* @tp_new@ */
+ 0, /* @tp_free@ */
+ 0 /* @tp_is_gc@ */
+};
+
/*----- SSL and TLS generators --------------------------------------------*/
static PyObject *sslprf_pynew(PyTypeObject *ty, PyObject *arg, PyObject *kw)
INITTYPE(tlsprf, grand);
INITTYPE(gccrand, type);
INITTYPE(gcrand, grand);
+ INITTYPE(gclatinrand, gcrand);
rand_noisesrc(RAND_GLOBAL, &noise_source);
rand_seed(RAND_GLOBAL, 160);
addmethods(methods);
INSERT("BBSPriv", bbspriv_pytype);
INSERT("GCCRand", gccrand_pytype);
INSERT("GCRand", gcrand_pytype);
+ INSERT("GCLatinRand", gclatinrand_pytype);
rand_pyobj = grand_pywrap(&rand_global, 0); Py_INCREF(rand_pyobj);
gccrands_dict = gccrands(); Py_INCREF(gccrands_dict);
INSERT("gccrands", gccrands_dict);