#ifndef __PY_IDAAPI__
#define __PY_IDAAPI__
//
//------------------------------------------------------------------------
// String constants used
static const char S_PYINVOKE0[] = "_py_invoke0";
static const char S_PY_SWIEX_CLSNAME[] = "switch_info_ex_t";
static const char S_PY_OP_T_CLSNAME[] = "op_t";
static const char S_PROPS[] = "props";
static const char S_NAME[] = "name";
static const char S_TITLE[] = "title";
static const char S_ASM_KEYWORD[] = "asm_keyword";
static const char S_MENU_NAME[] = "menu_name";
static const char S_HOTKEY[] = "hotkey";
static const char S_EMBEDDED[] = "embedded";
static const char S_POPUP_NAMES[] = "popup_names";
static const char S_FLAGS[] = "flags";
static const char S_VALUE_SIZE[] = "value_size";
static const char S_MAY_CREATE_AT[] = "may_create_at";
static const char S_CALC_ITEM_SIZE[] = "calc_item_size";
static const char S_ID[] = "id";
static const char S_PRINTF[] = "printf";
static const char S_TEXT_WIDTH[] = "text_width";
static const char S_SCAN[] = "scan";
static const char S_ANALYZE[] = "analyze";
static const char S_CBSIZE[] = "cbsize";
static const char S_ON_CLICK[] = "OnClick";
static const char S_ON_CLOSE[] = "OnClose";
static const char S_ON_DBL_CLICK[] = "OnDblClick";
static const char S_ON_CURSOR_POS_CHANGED[] = "OnCursorPosChanged";
static const char S_ON_KEYDOWN[] = "OnKeydown";
static const char S_ON_COMPLETE_LINE[] = "OnCompleteLine";
static const char S_ON_CREATE[] = "OnCreate";
static const char S_ON_POPUP[] = "OnPopup";
static const char S_ON_HINT[] = "OnHint";
static const char S_ON_POPUP_MENU[] = "OnPopupMenu";
static const char S_ON_EDIT_LINE[] = "OnEditLine";
static const char S_ON_INSERT_LINE[] = "OnInsertLine";
static const char S_ON_GET_LINE[] = "OnGetLine";
static const char S_ON_DELETE_LINE[] = "OnDeleteLine";
static const char S_ON_REFRESH[] = "OnRefresh";
static const char S_ON_REFRESHED[] = "OnRefreshed";
static const char S_ON_EXECUTE_LINE[] = "OnExecuteLine";
static const char S_ON_SELECT_LINE[] = "OnSelectLine";
static const char S_ON_SELECTION_CHANGE[] = "OnSelectionChange";
static const char S_ON_COMMAND[] = "OnCommand";
static const char S_ON_GET_ICON[] = "OnGetIcon";
static const char S_ON_GET_LINE_ATTR[] = "OnGetLineAttr";
static const char S_ON_GET_SIZE[] = "OnGetSize";
static const char S_ON_GETTEXT[] = "OnGetText";
static const char S_ON_ACTIVATE[] = "OnActivate";
static const char S_ON_DEACTIVATE[] = "OnDeactivate";
static const char S_ON_SELECT[] = "OnSelect";
static const char S_M_EDGES[] = "_edges";
static const char S_M_NODES[] = "_nodes";
static const char S_M_THIS[] = "_this";
static const char S_M_TITLE[] = "_title";
static const char S_CLINK_NAME[] = "__clink__";
#ifdef __PYWRAPS__
static const char S_PY_IDAAPI_MODNAME[] = "__main__";
#else
static const char S_PY_IDAAPI_MODNAME[] = S_IDAAPI_MODNAME;
#endif
//------------------------------------------------------------------------
static PyObject *py_cvt_helper_module = NULL;
static bool pywraps_initialized = false;
//---------------------------------------------------------------------------
// Context structure used by add|del_menu_item()
struct py_add_del_menu_item_ctx
{
qstring menupath;
PyObject *cb_data;
};
//---------------------------------------------------------------------------
// Context structure used by add|del_idc_hotkey()
struct py_idchotkey_ctx_t
{
qstring hotkey;
PyObject *pyfunc;
};
//---------------------------------------------------------------------------
// Context structure used by register/unregister timer
struct py_timer_ctx_t
{
qtimer_t timer_id;
PyObject *pycallback;
};
//------------------------------------------------------------------------
// check if we have a file which is known to be executed automatically
// by SWIG or Python runtime
bool pywraps_check_autoscripts(char *buf, size_t bufsize)
{
static const char *const exts[] =
{
"py",
"pyc",
"pyd",
"pyo",
"pyw",
};
static const char *const fns[] =
{
"swig_runtime_data" SWIG_RUNTIME_VERSION,
"sitecustomize",
"usercustomize"
};
for ( size_t ifn=0; ifn < qnumber(fns); ++ifn )
{
// check for a script or module with several possible extensions
for ( size_t iext=0; iext < qnumber(exts); ++iext )
{
qsnprintf(buf, bufsize, "%s.%s", fns[ifn], exts[iext]);
if ( qfileexist(buf) )
return true;
}
// check for a subdirectory under current directory
if ( qfileexist(fns[ifn]) )
{
qstrncpy(buf, fns[ifn], bufsize);
return true;
}
}
return false;
}
//------------------------------------------------------------------------
error_t PyW_CreateIdcException(idc_value_t *res, const char *msg)
{
// Create exception object
VarObject(res, find_idc_class("exception"));
// Set the message field
idc_value_t v;
v.set_string(msg);
VarSetAttr(res, "message", &v);
// Throw exception
return set_qerrno(eExecThrow);
}
//------------------------------------------------------------------------
// Calls a Python callable encoded in IDC.pvoid member
static const char idc_py_invoke0_args[] = { VT_PVOID, 0 };
static error_t idaapi idc_py_invoke0(
idc_value_t *argv,
idc_value_t *res)
{
PyObject *pyfunc = (PyObject *) argv[0].pvoid;
PYW_GIL_ENSURE;
PyObject *py_result = PyObject_CallFunctionObjArgs(pyfunc, NULL);
PYW_GIL_RELEASE;
Py_XDECREF(py_result);
// Report Python error as IDC exception
qstring err;
if ( PyW_GetError(&err) )
return PyW_CreateIdcException(res, err.c_str());
return eOk;
}
//------------------------------------------------------------------------
// This function must be called on initialization
bool init_pywraps()
{
if ( pywraps_initialized )
return true;
// Take a reference to the idaapi python module
// (We need it to create instances of certain classes)
if ( py_cvt_helper_module == NULL )
{
// Take a reference to the module so we can create the needed class instances
py_cvt_helper_module = PyW_TryImportModule(S_PY_IDAAPI_MODNAME);
if ( py_cvt_helper_module == NULL )
return false;
}
// Register the IDC PyInvoke0 method (helper function for add_idc_hotkey())
if ( !set_idc_func_ex(S_PYINVOKE0, idc_py_invoke0, idc_py_invoke0_args, 0) )
return false;
// IDC opaque class not registered?
if ( get_py_idc_cvt_opaque() == NULL )
{
// Add the class
idc_class_t *idc_cvt_opaque = add_idc_class(S_PY_IDC_OPAQUE_T);
if ( idc_cvt_opaque == NULL )
return false;
// Form the dtor name
char dtor_name[MAXSTR];
qsnprintf(dtor_name, sizeof(dtor_name), "%s.dtor", S_PY_IDC_OPAQUE_T);
// Register the dtor function
if ( !set_idc_func_ex(dtor_name, py_idc_opaque_dtor, py_idc_cvt_helper_dtor_args, 0) )
return false;
// Link the dtor function to the class
set_idc_dtor(idc_cvt_opaque, dtor_name);
}
pywraps_initialized = true;
return true;
}
//------------------------------------------------------------------------
// This function must be called on de-initialization
void deinit_pywraps()
{
if ( !pywraps_initialized )
return;
pywraps_initialized = false;
Py_XDECREF(py_cvt_helper_module);
py_cvt_helper_module = NULL;
// Unregister the IDC PyInvoke0 method (helper function for add_idc_hotkey())
set_idc_func_ex(S_PYINVOKE0, NULL, idc_py_invoke0_args, 0);
}
//------------------------------------------------------------------------
// Utility function to create a class instance whose constructor takes zero arguments
PyObject *create_idaapi_class_instance0(const char *clsname)
{
PyObject *py_cls = get_idaapi_attr(clsname);
if ( py_cls == NULL )
return NULL;
PYW_GIL_ENSURE;
PyObject *py_obj = PyObject_CallFunctionObjArgs(py_cls, NULL);
PYW_GIL_RELEASE;
Py_DECREF(py_cls);
if ( PyW_GetError() || py_obj == NULL )
{
Py_XDECREF(py_obj);
Py_RETURN_NONE;
}
return py_obj;
}
//------------------------------------------------------------------------
// Utility function to create linked class instances
PyObject *create_idaapi_linked_class_instance(
const char *clsname,
void *lnk)
{
PyObject *py_cls = get_idaapi_attr(clsname);
if ( py_cls == NULL )
return NULL;
PyObject *py_lnk = PyCObject_FromVoidPtr(lnk, NULL);
PYW_GIL_ENSURE;
PyObject *py_obj = PyObject_CallFunctionObjArgs(py_cls, py_lnk, NULL);
PYW_GIL_RELEASE;
Py_DECREF(py_cls);
Py_DECREF(py_lnk);
if ( PyW_GetError() || py_obj == NULL )
{
Py_XDECREF(py_obj);
py_obj = NULL;
}
return py_obj;
}
//------------------------------------------------------------------------
// Gets a class type reference in idaapi
// With the class type reference we can create a new instance of that type
// This function takes a reference to the idaapi module and keeps the reference
PyObject *get_idaapi_attr_by_id(const int class_id)
{
if ( class_id >= PY_CLSID_LAST || py_cvt_helper_module == NULL )
return NULL;
// Some class names. The array is parallel with the PY_CLSID_xxx consts
static const char *class_names[]=
{
"PyIdc_cvt_int64__",
"object_t",
"PyIdc_cvt_refclass__"
};
return PyObject_GetAttrString(py_cvt_helper_module, class_names[class_id]);
}
//------------------------------------------------------------------------
// Gets a class reference by name
PyObject *get_idaapi_attr(const char *attrname)
{
return py_cvt_helper_module == NULL
? NULL
: PyW_TryGetAttrString(py_cvt_helper_module, attrname);
}
//------------------------------------------------------------------------
// Returns a qstring from an object attribute
bool PyW_GetStringAttr(
PyObject *py_obj,
const char *attr_name,
qstring *str)
{
PyObject *py_attr = PyW_TryGetAttrString(py_obj, attr_name);
if ( py_attr == NULL )
return false;
bool ok = PyString_Check(py_attr) != 0;
if ( ok )
*str = PyString_AsString(py_attr);
Py_DECREF(py_attr);
return ok;
}
//------------------------------------------------------------------------
// Returns an attribute or NULL
// No errors will be set if the attribute did not exist
PyObject *PyW_TryGetAttrString(PyObject *py_obj, const char *attr)
{
if ( !PyObject_HasAttrString(py_obj, attr) )
return NULL;
else
return PyObject_GetAttrString(py_obj, attr);
}
//------------------------------------------------------------------------
// Tries to import a module and clears the exception on failure
PyObject *PyW_TryImportModule(const char *name)
{
PYW_GIL_ENSURE;
PyObject *result = PyImport_ImportModule(name);
PYW_GIL_RELEASE;
if ( result != NULL )
return result;
if ( PyErr_Occurred() )
PyErr_Clear();
return NULL;
}
//-------------------------------------------------------------------------
// Converts a Python number into an IDC value (32 or 64bits)
// The function will first try to convert the number into a 32bit value
// If the number does not fit then VT_INT64 will be used
// NB: This function cannot properly detect if the Python value should be
// converted to a VT_INT64 or not. For example: 2**32-1 = 0xffffffff which
// can fit in a C long but Python creates a PyLong object for it.
// And because of that we are confused as to whether to convert to 32 or 64
bool PyW_GetNumberAsIDC(PyObject *py_var, idc_value_t *idc_var)
{
if ( !(PyInt_CheckExact(py_var) || PyLong_CheckExact(py_var)) )
return false;
// Can we convert to C long?
long l = PyInt_AsLong(py_var);
if ( !PyErr_Occurred() )
{
idc_var->set_long(l);
return true;
}
// Clear last error
PyErr_Clear();
// Can be fit into a C unsigned long?
l = (long) PyLong_AsUnsignedLong(py_var);
if ( !PyErr_Occurred() )
{
idc_var->set_long(l);
return true;
}
PyErr_Clear();
idc_var->set_int64(PyLong_AsLongLong(py_var));
return true;
}
//-------------------------------------------------------------------------
// Parses a Python object as a long or long long
bool PyW_GetNumber(PyObject *py_var, uint64 *num, bool *is_64)
{
if ( !(PyInt_CheckExact(py_var) || PyLong_CheckExact(py_var)) )
return false;
// Can we convert to C long?
long l = PyInt_AsLong(py_var);
if ( !PyErr_Occurred() )
{
if ( num != NULL )
*num = uint64(l);
if ( is_64 != NULL )
*is_64 = false;
return true;
}
// Clear last error
PyErr_Clear();
// Can be fit into a C unsigned long?
unsigned long ul = PyLong_AsUnsignedLong(py_var);
if ( !PyErr_Occurred() )
{
if ( num != NULL )
*num = uint64(ul);
if ( is_64 != NULL )
*is_64 = false;
return true;
}
PyErr_Clear();
// Try to parse as int64
PY_LONG_LONG ll = PyLong_AsLongLong(py_var);
if ( !PyErr_Occurred() )
{
if ( num != NULL )
*num = uint64(ll);
if ( is_64 != NULL )
*is_64 = true;
return true;
}
PyErr_Clear();
// Try to parse as uint64
unsigned PY_LONG_LONG ull = PyLong_AsUnsignedLongLong(py_var);
PyObject *err = PyErr_Occurred();
if ( err == NULL )
{
if ( num != NULL )
*num = uint64(ull);
if ( is_64 != NULL )
*is_64 = true;
return true;
}
// Negative number? _And_ it with uint64(-1)
bool ok = false;
if ( err == PyExc_TypeError )
{
PyObject *py_mask = Py_BuildValue("K", 0xFFFFFFFFFFFFFFFFull);
PyObject *py_num = PyNumber_And(py_var, py_mask);
if ( py_num != NULL && py_mask != NULL )
{
PyErr_Clear();
ull = PyLong_AsUnsignedLongLong(py_num);
if ( !PyErr_Occurred() )
{
if ( num != NULL )
*num = uint64(ull);
if ( is_64 != NULL )
*is_64 = true;
ok = true;
}
}
Py_XDECREF(py_num);
Py_XDECREF(py_mask);
}
PyErr_Clear();
return ok;
}
//-------------------------------------------------------------------------
// Checks if a given object is of sequence type
bool PyW_IsSequenceType(PyObject *obj)
{
if ( !PySequence_Check(obj) )
return false;
Py_ssize_t sz = PySequence_Size(obj);
if ( sz == -1 || PyErr_Occurred() != NULL )
{
PyErr_Clear();
return false;
}
return true;
}
//-------------------------------------------------------------------------
// Returns the string representation of an object
bool PyW_ObjectToString(PyObject *obj, qstring *out)
{
PyObject *py_str = PyObject_Str(obj);
if ( py_str != NULL )
{
*out = PyString_AsString(py_str);
Py_DECREF(py_str);
return true;
}
else
{
out->qclear();
return false;
}
}
//--------------------------------------------------------------------------
// Checks if a Python error occured and fills the out parameter with the
// exception string
bool PyW_GetError(qstring *out, bool clear_err)
{
if ( PyErr_Occurred() == NULL )
return false;
// Error occurred but details not needed?
if ( out == NULL )
{
// Just clear the error
if ( clear_err )
PyErr_Clear();
return true;
}
// Get the exception info
PyObject *err_type, *err_value, *err_traceback, *py_ret(NULL);
PyErr_Fetch(&err_type, &err_value, &err_traceback);
if ( !clear_err )
PyErr_Restore(err_type, err_value, err_traceback);
// Resolve FormatExc()
PyObject *py_fmtexc = get_idaapi_attr(S_IDAAPI_FORMATEXC);
// Helper there?
if ( py_fmtexc != NULL )
{
// Call helper
PYW_GIL_ENSURE;
py_ret = PyObject_CallFunctionObjArgs(
py_fmtexc,
err_type,
err_value,
err_traceback,
NULL);
PYW_GIL_RELEASE;
// Dispose helper reference
Py_DECREF(py_fmtexc);
}
// Clear the error
if ( clear_err )
PyErr_Clear();
// Helper failed?!
if ( py_ret == NULL )
{
// Just convert the 'value' part of the original error
py_ret = PyObject_Str(err_value);
}
// No exception text?
if ( py_ret == NULL )
{
*out = "IDAPython: unknown error!";
}
else
{
*out = PyString_AsString(py_ret);
Py_DECREF(py_ret);
}
if ( clear_err )
{
Py_XDECREF(err_traceback);
Py_XDECREF(err_value);
Py_XDECREF(err_type);
}
return true;
}
//-------------------------------------------------------------------------
bool PyW_GetError(char *buf, size_t bufsz, bool clear_err)
{
qstring s;
if ( !PyW_GetError(&s, clear_err) )
return false;
qstrncpy(buf, s.c_str(), bufsz);
return true;
}
//-------------------------------------------------------------------------
// A loud version of PyGetError() which gets the error and displays it
// This method is used to display errors that occurred in a callback
bool PyW_ShowCbErr(const char *cb_name)
{
static qstring err_str;
if ( !PyW_GetError(&err_str) )
return false;
warning("IDAPython: Error while calling Python callback <%s>:\n%s", cb_name, err_str.c_str());
return true;
}
//---------------------------------------------------------------------------
void *pyobj_get_clink(PyObject *pyobj)
{
// Try to query the link attribute
PyObject *attr = PyW_TryGetAttrString(pyobj, S_CLINK_NAME);
void *t = attr != NULL && PyCObject_Check(attr) ? PyCObject_AsVoidPtr(attr) : NULL;
Py_XDECREF(attr);
return t;
}
//
//
//------------------------------------------------------------------------
/*
#
def parse_command_line(cmdline):
"""
Parses a space separated string (quotes and escape character are supported)
@param cmdline: The command line to parse
@return: A list of strings or None on failure
"""
pass
#
*/
static PyObject *py_parse_command_line(const char *cmdline)
{
qstrvec_t args;
if ( parse_command_line2(cmdline, &args, NULL) == 0 )
Py_RETURN_NONE;
PyObject *py_list = PyList_New(args.size());
for ( size_t i=0; i
def get_inf_structure():
"""
Returns the global variable 'inf' (an instance of idainfo structure, see ida.hpp)
"""
pass
#
*/
idainfo *get_inf_structure(void)
{
return &inf;
}
//-------------------------------------------------------------------------
// Declarations from Python.cpp
/*
#
def set_script_timeout(timeout):
"""
Changes the script timeout value. The script wait box dialog will be hidden and shown again when the timeout elapses.
See also L{disable_script_timeout}.
@param timeout: This value is in seconds.
If this value is set to zero then the script will never timeout.
@return: Returns the old timeout value
"""
pass
#
*/
int set_script_timeout(int timeout);
/*
#
def disable_script_timeout():
"""
Disables the script timeout and hides the script wait box.
Calling L{set_script_timeout} will not have any effects until the script is compiled and executed again
@return: None
"""
pass
#
*/
void disable_script_timeout();
/*
#
def enable_extlang_python(enable):
"""
Enables or disables Python extlang.
When enabled, all expressions will be evaluated by Python.
@param enable: Set to True to enable, False otherwise
"""
pass
#
*/
void enable_extlang_python(bool enable);
void enable_python_cli(bool enable);
/*
#
def RunPythonStatement(stmt):
"""
This is an IDC function exported from the Python plugin.
It is used to evaluate Python statements from IDC.
@param stmt: The statement to evaluate
@return: 0 - on success otherwise a string containing the error
"""
pass
#
*/
//---------------------------------------------------------------------------
// qstrvec_t wrapper
//---------------------------------------------------------------------------
DECLARE_PY_CLINKED_OBJECT(qstrvec_t);
static bool qstrvec_t_assign(PyObject *self, PyObject *other)
{
qstrvec_t *lhs = qstrvec_t_get_clink(self);
qstrvec_t *rhs = qstrvec_t_get_clink(other);
if (lhs == NULL || rhs == NULL)
return false;
*lhs = *rhs;
return true;
}
static PyObject *qstrvec_t_addressof(PyObject *self, size_t idx)
{
qstrvec_t *sv = qstrvec_t_get_clink(self);
if ( sv == NULL || idx >= sv->size() )
Py_RETURN_NONE;
else
return PyLong_FromUnsignedLongLong((unsigned PY_LONG_LONG)&sv->at(idx));
}
static bool qstrvec_t_set(
PyObject *self,
size_t idx,
const char *s)
{
qstrvec_t *sv = qstrvec_t_get_clink(self);
if ( sv == NULL || idx >= sv->size() )
return false;
(*sv)[idx] = s;
return true;
}
static bool qstrvec_t_from_list(
PyObject *self,
PyObject *py_list)
{
qstrvec_t *sv = qstrvec_t_get_clink(self);
return sv == NULL ? false : PyW_PyListToStrVec(py_list, *sv);
}
static size_t qstrvec_t_size(PyObject *self)
{
qstrvec_t *sv = qstrvec_t_get_clink(self);
return sv == NULL ? 0 : sv->size();
}
static PyObject *qstrvec_t_get(PyObject *self, size_t idx)
{
qstrvec_t *sv = qstrvec_t_get_clink(self);
if ( sv == NULL || idx >= sv->size() )
Py_RETURN_NONE;
return PyString_FromString(sv->at(idx).c_str());
}
static bool qstrvec_t_add(PyObject *self, const char *s)
{
qstrvec_t *sv = qstrvec_t_get_clink(self);
if ( sv == NULL )
return false;
sv->push_back(s);
return true;
}
static bool qstrvec_t_clear(PyObject *self, bool qclear)
{
qstrvec_t *sv = qstrvec_t_get_clink(self);
if ( sv == NULL )
return false;
if ( qclear )
sv->qclear();
else
sv->clear();
return true;
}
static bool qstrvec_t_insert(
PyObject *self,
size_t idx,
const char *s)
{
qstrvec_t *sv = qstrvec_t_get_clink(self);
if ( sv == NULL || idx >= sv->size() )
return false;
sv->insert(sv->begin() + idx, s);
return true;
}
static bool qstrvec_t_remove(PyObject *self, size_t idx)
{
qstrvec_t *sv = qstrvec_t_get_clink(self);
if ( sv == NULL || idx >= sv->size() )
return false;
sv->erase(sv->begin()+idx);
return true;
}
//---------------------------------------------------------------------------
//
#endif