First of all, I don't understand why you'd want to return a C function pointer from a Python extension only to call it from Python (via ctypes), while the logical thing would be to call the C function via the Python extension (unless I'm missing something).
Second, it does not look like ctypes supports PyCObject at all. Your call to CFUNCTYPE(None, c_int) [I replaced c_void with None] with a PyCObject argument fails because CFUNCTYPE expects an integer, and does not know what to do with a PyCObject.
Why not write a Python wrapper to my_cfunc instead, which you'll call from Python without the ctypes hassle? For example:
PyObject *call_fptr(PyObject *self, PyObject *args)
if (!PyArg_ParseTuple(args, "i", &arg))
As a bonus, if ctypes is your thing, the Python wrapper to my_func can be used to instantiate a ctypes foreign function (unlike the PyCObject)!
from ctypes import *
SOMEFUNC_T = CFUNCTYPE(None, c_int)
cfunc = SOMEFUNC_T(foo.call_fptr)
Specifying that the C function should take a variable number of arguments makes your question more difficult... How would you wrap your variable argument C function with ctypes anyway, considering that CFUNCTYPE requires a known set of arguments?
The problem in this case really boils down to converting a Python tuple to a variable argument list in C, which is apparently anything but trivial. In fact SWIG has dedicated a section of its documentation to this problem, saying for instance this: Most other wrapper generation tools have wisely chosen to avoid this issue.
It does give the advise, though, that one can dynamically construct variable argument lists in a portable manner with the help of libffi.
My suggestion, ultimately, is to wrap your variable arguments function with SWIG and save yourself the pain.