cemu-idapython/swig/nalt.i
2014-02-04 02:31:52 +00:00

725 lines
22 KiB
OpenEdge ABL

%ignore nmSerEA;
%ignore nmSerN;
%ignore maxSerialName;
%ignore get_import_module_name;
%rename (get_import_module_name) py_get_import_module_name;
%ignore NALT_EA;
%ignore enum_import_names;
%rename (enum_import_names) py_enum_import_names;
%ignore custom_refinfo_handler_t;
%ignore custom_refinfo_handlers_t;
%ignore register_custom_refinfo;
%ignore unregister_custom_refinfo;
%ignore get_custom_refinfos;
%template (ids_array) wrapped_array<tid_t,32>;
%extend strpath_t {
wrapped_array<tid_t,32> __getIds() {
return wrapped_array<tid_t,32>($self->ids);
}
%pythoncode {
ids = property(__getIds)
}
}
%include "nalt.hpp"
%{
//<code(py_nalt)>
//-------------------------------------------------------------------------
// callback for enumerating imports
// ea: import address
// name: import name (NULL if imported by ordinal)
// ord: import ordinal (0 for imports by name)
// param: user parameter passed to enum_import_names()
// return: 1-ok, 0-stop enumeration
static int idaapi py_import_enum_cb(
ea_t ea,
const char *name,
uval_t ord,
void *param)
{
// If no name, try to get the name associated with the 'ea'. It may be coming from IDS
char name_buf[MAXSTR];
if ( name == NULL )
name = get_true_name(BADADDR, ea, name_buf, sizeof(name_buf));
PYW_GIL_CHECK_LOCKED_SCOPE();
ref_t py_name;
if ( name == NULL )
py_name = borref_t(Py_None);
else
py_name = newref_t(PyString_FromString(name));
newref_t py_ord(Py_BuildValue(PY_FMT64, pyul_t(ord)));
newref_t py_ea(Py_BuildValue(PY_FMT64, pyul_t(ea)));
newref_t py_result(
PyObject_CallFunctionObjArgs(
(PyObject *)param,
py_ea.o,
py_name.o,
py_ord.o,
NULL));
return py_result != NULL && PyObject_IsTrue(py_result.o) ? 1 : 0;
}
//-------------------------------------------------------------------------
switch_info_ex_t *switch_info_ex_t_get_clink(PyObject *self)
{
PYW_GIL_CHECK_LOCKED_SCOPE();
if ( !PyObject_HasAttrString(self, S_CLINK_NAME) )
return NULL;
switch_info_ex_t *r;
newref_t attr(PyObject_GetAttrString(self, S_CLINK_NAME));
return PyCObject_Check(attr.o) ? ((switch_info_ex_t *) PyCObject_AsVoidPtr(attr.o)) : NULL;
}
//</code(py_nalt)>
%}
%rename (get_switch_info_ex) py_get_switch_info_ex;
%rename (set_switch_info_ex) py_set_switch_info_ex;
%rename (del_switch_info_ex) py_del_switch_info_ex;
%rename (create_switch_xrefs) py_create_switch_xrefs;
%rename (create_switch_table) py_create_switch_table;
%inline %{
//<inline(py_nalt)>
//-------------------------------------------------------------------------
/*
#<pydoc>
def get_import_module_name(path, fname, callback):
"""
Returns the name of an imported module given its index
@return: None or the module name
"""
pass
#</pydoc>
*/
static PyObject *py_get_import_module_name(int mod_index)
{
PYW_GIL_CHECK_LOCKED_SCOPE();
char buf[MAXSTR];
if ( !get_import_module_name(mod_index, buf, sizeof(buf)) )
Py_RETURN_NONE;
return PyString_FromString(buf);
}
//-------------------------------------------------------------------------
/*
#<pydoc>
def get_switch_info_ex(ea):
"""
Returns the a switch_info_ex_t structure containing the information about the switch.
Please refer to the SDK sample 'uiswitch'
@return: None or switch_info_ex_t instance
"""
pass
#</pydoc>
*/
PyObject *py_get_switch_info_ex(ea_t ea)
{
switch_info_ex_t *ex = new switch_info_ex_t();
ref_t py_obj;
PYW_GIL_CHECK_LOCKED_SCOPE();
if ( ::get_switch_info_ex(ea, ex, sizeof(switch_info_ex_t)) <= 0
|| (py_obj = create_idaapi_linked_class_instance(S_PY_SWIEX_CLSNAME, ex)) == NULL )
{
delete ex;
Py_RETURN_NONE;
}
py_obj.incref();
return py_obj.o;
}
//-------------------------------------------------------------------------
/*
#<pydoc>
def create_switch_xrefs(insn_ea, si):
"""
This function creates xrefs from the indirect jump.
Usually there is no need to call this function directly because the kernel
will call it for switch tables
Note: Custom switch information are not supported yet.
@param insn_ea: address of the 'indirect jump' instruction
@param si: switch information
@return: Boolean
"""
pass
#</pydoc>
*/
idaman bool ida_export py_create_switch_xrefs(
ea_t insn_ea,
PyObject *py_swi)
{
switch_info_ex_t *swi = switch_info_ex_t_get_clink(py_swi);
if ( swi == NULL )
return false;
create_switch_xrefs(insn_ea, swi);
return true;
}
//-------------------------------------------------------------------------
/*
#<pydoc>
def create_switch_table(insn_ea, si):
"""
Create switch table from the switch information
@param insn_ea: address of the 'indirect jump' instruction
@param si: switch information
@return: Boolean
"""
pass
#</pydoc>
*/
idaman bool ida_export py_create_switch_table(
ea_t insn_ea,
PyObject *py_swi)
{
switch_info_ex_t *swi = switch_info_ex_t_get_clink(py_swi);
if ( swi == NULL )
return false;
create_switch_table(insn_ea, swi);
return true;
}
//-------------------------------------------------------------------------
/*
#<pydoc>
def set_switch_info_ex(ea, switch_info_ex):
"""
Saves the switch information in the database
Please refer to the SDK sample 'uiswitch'
@return: Boolean
"""
pass
#</pydoc>
*/
bool py_set_switch_info_ex(ea_t ea, PyObject *py_swi)
{
switch_info_ex_t *swi = switch_info_ex_t_get_clink(py_swi);
if ( swi == NULL )
return false;
set_switch_info_ex(ea, swi);
return true;
}
//-------------------------------------------------------------------------
/*
#<pydoc>
def del_switch_info_ex(ea):
"""
Deletes stored switch information
"""
pass
#</pydoc>
*/
void py_del_switch_info_ex(ea_t ea)
{
del_switch_info_ex(ea);
}
//-------------------------------------------------------------------------
/*
#<pydoc>
def enum_import_names(mod_index, callback):
"""
Enumerate imports from a specific module.
Please refer to ex_imports.py example.
@param mod_index: The module index
@param callback: A callable object that will be invoked with an ea, name (could be None) and ordinal.
@return: 1-finished ok, -1 on error, otherwise callback return value (<=0)
"""
pass
#</pydoc>
*/
static int py_enum_import_names(int mod_index, PyObject *py_cb)
{
PYW_GIL_CHECK_LOCKED_SCOPE();
if ( !PyCallable_Check(py_cb) )
return -1;
return enum_import_names(mod_index, py_import_enum_cb, py_cb);
}
//-------------------------------------------------------------------------
static PyObject *switch_info_ex_t_create()
{
switch_info_ex_t *inst = new switch_info_ex_t();
PYW_GIL_CHECK_LOCKED_SCOPE();
return PyCObject_FromVoidPtr(inst, NULL);
}
//---------------------------------------------------------------------------
static bool switch_info_ex_t_destroy(PyObject *py_obj)
{
PYW_GIL_CHECK_LOCKED_SCOPE();
if ( !PyCObject_Check(py_obj) )
return false;
switch_info_ex_t *inst = (switch_info_ex_t *) PyCObject_AsVoidPtr(py_obj);
delete inst;
return true;
}
static bool switch_info_ex_t_assign(PyObject *self, PyObject *other)
{
switch_info_ex_t *lhs = switch_info_ex_t_get_clink(self);
switch_info_ex_t *rhs = switch_info_ex_t_get_clink(other);
if (lhs == NULL || rhs == NULL)
return false;
*lhs = *rhs;
return true;
}
//-------------------------------------------------------------------------
// Auto generated - begin
//
static PyObject *switch_info_ex_t_get_regdtyp(PyObject *self)
{
switch_info_ex_t *link = switch_info_ex_t_get_clink(self);
PYW_GIL_CHECK_LOCKED_SCOPE();
if ( link == NULL )
Py_RETURN_NONE;
return Py_BuildValue("b", (char)link->regdtyp);
}
static void switch_info_ex_t_set_regdtyp(PyObject *self, PyObject *value)
{
switch_info_ex_t *link = switch_info_ex_t_get_clink(self);
if ( link == NULL )
return;
PYW_GIL_CHECK_LOCKED_SCOPE();
link->regdtyp = (char)PyInt_AsLong(value);
}
static PyObject *switch_info_ex_t_get_flags2(PyObject *self)
{
switch_info_ex_t *link = switch_info_ex_t_get_clink(self);
PYW_GIL_CHECK_LOCKED_SCOPE();
if ( link == NULL )
Py_RETURN_NONE;
return Py_BuildValue("i", link->flags2);
}
static void switch_info_ex_t_set_flags2(PyObject *self, PyObject *value)
{
switch_info_ex_t *link = switch_info_ex_t_get_clink(self);
if ( link == NULL )
return;
PYW_GIL_CHECK_LOCKED_SCOPE();
link->flags2 = (int)PyInt_AsLong(value);
}
static PyObject *switch_info_ex_t_get_jcases(PyObject *self)
{
switch_info_ex_t *link = switch_info_ex_t_get_clink(self);
PYW_GIL_CHECK_LOCKED_SCOPE();
if ( link == NULL )
Py_RETURN_NONE;
return Py_BuildValue("i", link->jcases);
}
static void switch_info_ex_t_set_jcases(PyObject *self, PyObject *value)
{
switch_info_ex_t *link = switch_info_ex_t_get_clink(self);
if ( link == NULL )
return;
PYW_GIL_CHECK_LOCKED_SCOPE();
link->jcases = (int)PyInt_AsLong(value);
}
static PyObject *switch_info_ex_t_get_regnum(PyObject *self)
{
switch_info_ex_t *link = switch_info_ex_t_get_clink(self);
PYW_GIL_CHECK_LOCKED_SCOPE();
if ( link == NULL )
Py_RETURN_NONE;
return Py_BuildValue("i", (int)link->regnum);
}
static void switch_info_ex_t_set_regnum(PyObject *self, PyObject *value)
{
switch_info_ex_t *link = switch_info_ex_t_get_clink(self);
if ( link == NULL )
return;
PYW_GIL_CHECK_LOCKED_SCOPE();
link->regnum = (int)PyInt_AsLong(value);
}
static PyObject *switch_info_ex_t_get_flags(PyObject *self)
{
switch_info_ex_t *link = switch_info_ex_t_get_clink(self);
PYW_GIL_CHECK_LOCKED_SCOPE();
if ( link == NULL )
Py_RETURN_NONE;
return Py_BuildValue("H", (ushort)link->flags);
}
static void switch_info_ex_t_set_flags(PyObject *self, PyObject *value)
{
switch_info_ex_t *link = switch_info_ex_t_get_clink(self);
if ( link == NULL )
return;
PYW_GIL_CHECK_LOCKED_SCOPE();
link->flags = (uint16)PyInt_AsLong(value);
}
static PyObject *switch_info_ex_t_get_ncases(PyObject *self)
{
switch_info_ex_t *link = switch_info_ex_t_get_clink(self);
PYW_GIL_CHECK_LOCKED_SCOPE();
if ( link == NULL )
Py_RETURN_NONE;
return Py_BuildValue("H", (uint16)link->ncases);
}
static void switch_info_ex_t_set_ncases(PyObject *self, PyObject *value)
{
switch_info_ex_t *link = switch_info_ex_t_get_clink(self);
if ( link == NULL )
return;
PYW_GIL_CHECK_LOCKED_SCOPE();
link->ncases = (ushort)PyInt_AsLong(value);
}
static PyObject *switch_info_ex_t_get_defjump(PyObject *self)
{
switch_info_ex_t *link = switch_info_ex_t_get_clink(self);
PYW_GIL_CHECK_LOCKED_SCOPE();
if ( link == NULL )
Py_RETURN_NONE;
return Py_BuildValue(PY_FMT64, (pyul_t)link->defjump);
}
static void switch_info_ex_t_set_defjump(PyObject *self, PyObject *value)
{
switch_info_ex_t *link = switch_info_ex_t_get_clink(self);
if ( link == NULL )
return;
PYW_GIL_CHECK_LOCKED_SCOPE();
uint64 v(0); PyW_GetNumber(value, &v);
link->defjump = (pyul_t)v;
}
static PyObject *switch_info_ex_t_get_jumps(PyObject *self)
{
switch_info_ex_t *link = switch_info_ex_t_get_clink(self);
if ( link == NULL )
Py_RETURN_NONE;
return Py_BuildValue(PY_FMT64, (pyul_t)link->jumps);
}
static void switch_info_ex_t_set_jumps(PyObject *self, PyObject *value)
{
switch_info_ex_t *link = switch_info_ex_t_get_clink(self);
if ( link == NULL )
return;
PYW_GIL_CHECK_LOCKED_SCOPE();
uint64 v(0); PyW_GetNumber(value, &v);
link->jumps = (pyul_t)v;
}
static PyObject *switch_info_ex_t_get_elbase(PyObject *self)
{
switch_info_ex_t *link = switch_info_ex_t_get_clink(self);
PYW_GIL_CHECK_LOCKED_SCOPE();
if ( link == NULL )
Py_RETURN_NONE;
return Py_BuildValue(PY_FMT64, (pyul_t)link->elbase);
}
static void switch_info_ex_t_set_elbase(PyObject *self, PyObject *value)
{
switch_info_ex_t *link = switch_info_ex_t_get_clink(self);
if ( link == NULL )
return;
uint64 v(0);
PYW_GIL_CHECK_LOCKED_SCOPE();
PyW_GetNumber(value, &v);
link->elbase = (pyul_t)v;
}
static PyObject *switch_info_ex_t_get_startea(PyObject *self)
{
switch_info_ex_t *link = switch_info_ex_t_get_clink(self);
PYW_GIL_CHECK_LOCKED_SCOPE();
if ( link == NULL )
Py_RETURN_NONE;
return Py_BuildValue(PY_FMT64, (pyul_t)link->startea);
}
static void switch_info_ex_t_set_startea(PyObject *self, PyObject *value)
{
switch_info_ex_t *link = switch_info_ex_t_get_clink(self);
if ( link == NULL )
return;
uint64 v(0);
PYW_GIL_CHECK_LOCKED_SCOPE();
PyW_GetNumber(value, &v);
link->startea = (pyul_t)v;
}
static PyObject *switch_info_ex_t_get_custom(PyObject *self)
{
switch_info_ex_t *link = switch_info_ex_t_get_clink(self);
PYW_GIL_CHECK_LOCKED_SCOPE();
if ( link == NULL )
Py_RETURN_NONE;
return Py_BuildValue(PY_FMT64, (pyul_t)link->custom);
}
static void switch_info_ex_t_set_custom(PyObject *self, PyObject *value)
{
switch_info_ex_t *link = switch_info_ex_t_get_clink(self);
if ( link == NULL )
return;
uint64 v(0);
PYW_GIL_CHECK_LOCKED_SCOPE();
PyW_GetNumber(value, &v);
link->custom = (pyul_t)v;
}
static PyObject *switch_info_ex_t_get_ind_lowcase(PyObject *self)
{
switch_info_ex_t *link = switch_info_ex_t_get_clink(self);
PYW_GIL_CHECK_LOCKED_SCOPE();
if ( link == NULL )
Py_RETURN_NONE;
return Py_BuildValue(PY_FMT64, (pyul_t)link->ind_lowcase);
}
static void switch_info_ex_t_set_ind_lowcase(PyObject *self, PyObject *value)
{
switch_info_ex_t *link = switch_info_ex_t_get_clink(self);
if ( link == NULL )
return;
uint64 v(0);
PYW_GIL_CHECK_LOCKED_SCOPE();
PyW_GetNumber(value, &v);
link->ind_lowcase = (pyul_t)v;
}
static PyObject *switch_info_ex_t_get_values_lowcase(PyObject *self)
{
switch_info_ex_t *link = switch_info_ex_t_get_clink(self);
PYW_GIL_CHECK_LOCKED_SCOPE();
if ( link == NULL )
Py_RETURN_NONE;
return Py_BuildValue(PY_FMT64, (pyul_t)link->values);
}
static void switch_info_ex_t_set_values_lowcase(PyObject *self, PyObject *value)
{
switch_info_ex_t *link = switch_info_ex_t_get_clink(self);
if ( link == NULL )
return;
uint64 v(0);
PYW_GIL_CHECK_LOCKED_SCOPE();
PyW_GetNumber(value, &v);
link->values = (pyul_t)v;
}
//
// Auto generated - end
//
//-------------------------------------------------------------------------
//</inline(py_nalt)>
%}
%pythoncode %{
#<pycode(py_nalt)>
SWI_SPARSE = 0x1
"""sparse switch ( value table present ) otherwise lowcase present"""
SWI_V32 = 0x2
"""32-bit values in table"""
SWI_J32 = 0x4
"""32-bit jump offsets"""
SWI_VSPLIT = 0x8
"""value table is split (only for 32-bit values)"""
SWI_DEFAULT = 0x10
"""default case is present"""
SWI_END_IN_TBL = 0x20
"""switchend in table (default entry)"""
SWI_JMP_INV = 0x40
"""jumptable is inversed (last entry is for first entry in values table)"""
SWI_SHIFT_MASK = 0x180
"""use formula (element*shift + elbase) to find jump targets"""
SWI_ELBASE = 0x200
"""elbase is present (if not and shift!=0, endof(jumpea) is used)"""
SWI_JSIZE = 0x400
"""jump offset expansion bit"""
SWI_VSIZE = 0x800
"""value table element size expansion bit"""
SWI_SEPARATE = 0x1000
"""do not create an array of individual dwords"""
SWI_SIGNED = 0x2000
"""jump table entries are signed"""
SWI_CUSTOM = 0x4000
"""custom jump table - ph.create_switch_xrefs will be called to create code xrefs for the table. it must return 2. custom jump table must be created by the module"""
SWI_EXTENDED = 0x8000
"""this is switch_info_ex_t"""
SWI2_INDIRECT = 0x0001
"""value table elements are used as indexes into the jump table"""
SWI2_SUBTRACT = 0x0002
"""table values are subtracted from the elbase instead of being addded"""
# --------------------------------------------------------------------------
class switch_info_ex_t(py_clinked_object_t):
def __init__(self, lnk = None):
py_clinked_object_t.__init__(self, lnk)
def _create_clink(self):
return _idaapi.switch_info_ex_t_create()
def _del_clink(self, lnk):
return _idaapi.switch_info_ex_t_destroy(lnk)
def assign(self, other):
return _idaapi.switch_info_ex_t_assign(self, other)
def is_indirect(self):
return (self.flags & SWI_EXTENDED) != 0 and (self.flags2 & SWI2_INDIRECT) != 0
def is_subtract(self):
return (self.flags & SWI_EXTENDED) != 0 and (self.flags2 & SWI2_SUBTRACT) != 0
def get_jtable_size(self):
return self.jcases if self.is_indirect() else self.ncases
def get_lowcase(self):
return self.ind_lowcase if self.is_indirect() else self.lowcase
def set_expr(self, r, dt):
self.regnum = r
self.regdtyp = dt
def get_shift(self):
return (self.flags & SWI_SHIFT_MASK) >> 7
def set_shift(self, shift):
self.flags &= ~SWI_SHIFT_MASK
self.flags |= ((shift & 3) << 7)
def get_jtable_element_size(self):
code = self.flags & (SWI_J32|SWI_JSIZE)
if code == 0: return 2
elif code == SWI_J32: return 4
elif code == SWI_JSIZE: return 1
else: return 8
def set_jtable_element_size(self, size):
self.flags &= ~(SWI_J32|SWI_JSIZE)
if size == 4: self.flags |= SWI_J32
elif size == 1: self.flags |= SWI_JSIZE
elif size == 8: self.flags |= SWI_J32|SWI_JSIZE
elif size != 2: return False
return True
def get_vtable_element_size(self):
code = self.flags & (SWI_V32|SWI_VSIZE)
if code == 0: return 2
elif code == SWI_V32: return 4
elif code == SWI_VSIZE: return 1
return 8
def set_vtable_element_size(self, size):
self.flags &= ~SWI_V32|SWI_VSIZE
if size == 4: self.flags |= SWI_V32
elif size == 1: self.flags |= SWI_VSIZE
elif size == 8: self.flags |= SWI_V32|SWI_VSIZE
elif size != 2: return False
return True
#
# Autogenerated
#
def __get_regdtyp__(self):
return _idaapi.switch_info_ex_t_get_regdtyp(self)
def __set_regdtyp__(self, v):
_idaapi.switch_info_ex_t_set_regdtyp(self, v)
def __get_flags2__(self):
return _idaapi.switch_info_ex_t_get_flags2(self)
def __set_flags2__(self, v):
_idaapi.switch_info_ex_t_set_flags2(self, v)
def __get_jcases__(self):
return _idaapi.switch_info_ex_t_get_jcases(self)
def __set_jcases__(self, v):
_idaapi.switch_info_ex_t_set_jcases(self, v)
def __get_regnum__(self):
return _idaapi.switch_info_ex_t_get_regnum(self)
def __set_regnum__(self, v):
_idaapi.switch_info_ex_t_set_regnum(self, v)
def __get_flags__(self):
return _idaapi.switch_info_ex_t_get_flags(self)
def __set_flags__(self, v):
_idaapi.switch_info_ex_t_set_flags(self, v)
def __get_ncases__(self):
return _idaapi.switch_info_ex_t_get_ncases(self)
def __set_ncases__(self, v):
_idaapi.switch_info_ex_t_set_ncases(self, v)
def __get_defjump__(self):
return _idaapi.switch_info_ex_t_get_defjump(self)
def __set_defjump__(self, v):
_idaapi.switch_info_ex_t_set_defjump(self, v)
def __get_jumps__(self):
return _idaapi.switch_info_ex_t_get_jumps(self)
def __set_jumps__(self, v):
_idaapi.switch_info_ex_t_set_jumps(self, v)
def __get_elbase__(self):
return _idaapi.switch_info_ex_t_get_elbase(self)
def __set_elbase__(self, v):
_idaapi.switch_info_ex_t_set_elbase(self, v)
def __get_startea__(self):
return _idaapi.switch_info_ex_t_get_startea(self)
def __set_startea__(self, v):
_idaapi.switch_info_ex_t_set_startea(self, v)
def __get_custom__(self):
return _idaapi.switch_info_ex_t_get_custom(self)
def __set_custom__(self, v):
_idaapi.switch_info_ex_t_set_custom(self, v)
def __get_ind_lowcase__(self):
return _idaapi.switch_info_ex_t_get_ind_lowcase(self)
def __set_ind_lowcase__(self, v):
_idaapi.switch_info_ex_t_set_ind_lowcase(self, v)
def __get_values_lowcase__(self):
return _idaapi.switch_info_ex_t_get_values_lowcase(self)
def __set_values_lowcase__(self, v):
_idaapi.switch_info_ex_t_set_values_lowcase(self, v)
regdtyp = property(__get_regdtyp__, __set_regdtyp__)
"""size of the switch expression register as dtyp"""
flags2 = property(__get_flags2__, __set_flags2__)
jcases = property(__get_jcases__, __set_jcases__)
"""number of entries in the jump table (SWI2_INDIRECT)"""
regnum = property(__get_regnum__, __set_regnum__)
"""the switch expression as a register number"""
flags = property(__get_flags__, __set_flags__)
"""the switch expression as a register number"""
ncases = property(__get_ncases__, __set_ncases__)
"""number of cases (excluding default)"""
defjump = property(__get_defjump__, __set_defjump__)
"""default jump address"""
jumps = property(__get_jumps__, __set_jumps__)
"""jump table address"""
elbase = property(__get_elbase__, __set_elbase__)
"""element base"""
startea = property(__get_startea__, __set_startea__)
"""start of switch idiom"""
custom = property(__get_custom__, __set_custom__)
"""information for custom tables (filled and used by modules)"""
ind_lowcase = property(__get_ind_lowcase__, __set_ind_lowcase__)
values = property(__get_values_lowcase__, __set_values_lowcase__)
lowcase = property(__get_values_lowcase__, __set_values_lowcase__)
#</pycode(py_nalt)>
%}