cemu-idapython/swig/expr.i
elias.bachaalany@gmail.com 78c79f85b9 IDA Pro 6.5 support
What's new:
- Proper multi-threaded support 
- Better PyObject reference counting with ref_t and newref_t helper classes
- Improved the pywraps/deployment script
- Added IDAViewWrapper class and example
- Added idc.GetDisasmEx()
- Added idc.AddSegEx()
- Added idc.GetLocalTinfo()
- Added idc.ApplyType()
- Updated type information implementation
- Introduced the idaapi.require() - see http://www.hexblog.com/?p=749
- set REMOVE_CWD_SYS_PATH=1 by default in python.cfg (remove current directory from the import search path).

Various bugfixes:
- fixed various memory leaks
- asklong/askaddr/asksel (and corresponding idc.py functions) were returning results truncated to 32 bits in IDA64
- fix wrong documentation for idc.SizeOf
- GetFloat/GetDouble functions did not take into account endianness of the processor
- idaapi.NO_PROCESS was not defined, and was causing GetProcessPid() to fail
- idc.py: insert escape characters to string parameter when call Eval()
- idc.SaveFile/savefile were always overwriting an existing file instead of writing only the new data
- PluginForm.Close() wasn't passing its arguments to the delegate function, resulting in an error.
2013-12-30 01:34:23 +00:00

337 lines
9.2 KiB
OpenEdge ABL

%ignore extfun_t;
%ignore funcset_t;
%ignore extlang_t;
%ignore extlang;
%ignore extlangs_t;
%ignore extlangs;
%ignore register_extlang;
%ignore IDCFuncs;
%ignore set_idc_func;
%ignore set_idc_dtor;
%ignore set_idc_method;
%ignore set_idc_getattr;
%ignore set_idc_setattr;
%ignore set_idc_func_ex;
%ignore run_statements_idc;
%ignore VarLong;
%ignore VarNum;
%ignore extlang_get_attr_exists;
%ignore extlang_create_object_exists;
%ignore create_script_object;
%ignore set_script_attr;
%ignore set_attr_exists;
%ignore get_script_attr;
%ignore extlang_get_attr_exists;
%ignore extlang_compile_file;
%ignore get_extlangs;
%ignore create_idc_object;
%ignore run_script_func;
%ignore VarString;
%ignore VarFloat;
%ignore VarFree;
%ignore calcexpr_long;
%ignore Run;
%ignore ExecuteLine;
%ignore ExecuteFile;
%ignore set_idc_func_body;
%ignore get_idc_func_body;
%ignore idc_stacksize;
%ignore idc_calldepth;
%ignore expr_printf;
%ignore expr_sprintf;
%ignore expr_printfer;
%ignore init_idc;
%ignore term_idc;
%ignore create_default_idc_classes;
%ignore insn_to_idc;
%ignore find_builtin_idc_func;
%ignore idc_mutex;
%ignore idc_lx;
%ignore idc_vars;
%ignore idc_resolve_label;
%ignore idc_resolver_ea;
%ignore setup_lowcnd_regfuncs;
%cstring_output_maxstr_none(char *errbuf, size_t errbufsize);
%ignore CompileEx;
%rename (CompileEx) CompileEx_wrap;
%ignore Compile;
%rename (Compile) Compile_wrap;
%ignore calcexpr;
%rename (calcexpr) calcexpr_wrap;
%ignore calc_idc_expr;
%rename (calc_idc_expr) calc_idc_expr_wrap;
%ignore CompileLine(const char *line, char *errbuf, size_t errbufsize, uval_t (idaapi*_getname)(const char *name)=NULL);
%ignore CompileLineEx;
%ignore CompileLine;
%rename (CompileLine) CompileLine_wrap;
%{
//<code(py_expr)>
struct py_idcfunc_ctx_t
{
PyObject *py_func;
qstring name;
int nargs;
py_idcfunc_ctx_t(PyObject *py_func, const char *name, int nargs): py_func(py_func), name(name), nargs(nargs)
{
PYW_GIL_CHECK_LOCKED_SCOPE();
Py_INCREF(py_func);
}
~py_idcfunc_ctx_t()
{
PYW_GIL_CHECK_LOCKED_SCOPE();
Py_DECREF(py_func);
}
};
//---------------------------------------------------------------------------
static error_t py_call_idc_func(
void *_ctx,
idc_value_t *argv,
idc_value_t *r)
{
// Convert IDC arguments to Python list
py_idcfunc_ctx_t *ctx = (py_idcfunc_ctx_t *)_ctx;
int cvt;
char errbuf[MAXSTR];
PYW_GIL_CHECK_LOCKED_SCOPE();
ref_vec_t pargs;
if ( !pyw_convert_idc_args(argv, ctx->nargs, pargs, true, errbuf, sizeof(errbuf)) )
{
// Error during conversion? Create an IDC exception
return PyW_CreateIdcException(r, errbuf);
}
// Call the Python function
newref_t py_result(PyObject_CallObject(
ctx->py_func,
pargs.empty() ? NULL : pargs[0].o));
error_t err;
if ( PyW_GetError(errbuf, sizeof(errbuf)) )
{
err = PyW_CreateIdcException(r, errbuf);
}
else
{
// Convert the result to IDC
r->clear();
cvt = pyvar_to_idcvar(py_result, r);
if ( cvt < CIP_OK )
err = PyW_CreateIdcException(r, "ERROR: bad return value");
else
err = eOk;
}
return err;
}
//</code(py_expr)>
%}
%inline %{
//<inline(py_expr)>
//---------------------------------------------------------------------------
static size_t py_get_call_idc_func()
{
return (size_t)py_call_idc_func;
}
//---------------------------------------------------------------------------
// Internal function:
// - capture the python callable
// - return a C context as a numeric value
static size_t pyw_register_idc_func(
const char *name,
const char *args,
PyObject *py_fp)
{
return (size_t)new py_idcfunc_ctx_t(py_fp, name, strlen(args));
}
//---------------------------------------------------------------------------
// Internal function:
// - free the C context
static bool pyw_unregister_idc_func(size_t ctxptr)
{
// Unregister the function
py_idcfunc_ctx_t *ctx = (py_idcfunc_ctx_t *)ctxptr;
bool ok = set_idc_func_ex(ctx->name.c_str(), NULL, NULL, 0);
// Delete the context
delete ctx;
return ok;
}
//---------------------------------------------------------------------------
static bool py_set_idc_func_ex(
const char *name,
size_t fp_ptr,
const char *args,
int flags)
{
return set_idc_func_ex(name, (idc_func_t *)fp_ptr, args, flags);
}
//---------------------------------------------------------------------------
// Compile* functions return false when error so the return
// value must be negated for the error string to be returned
bool CompileEx_wrap(
const char *file,
bool del_macros,
char *errbuf, size_t errbufsize)
{
return !CompileEx(file, del_macros, errbuf, errbufsize);
}
bool Compile_wrap(const char *file, char *errbuf, size_t errbufsize)
{
return !Compile(file, errbuf, errbufsize);
}
bool calcexpr_wrap(
ea_t where,
const char *line,
idc_value_t *rv,
char *errbuf, size_t errbufsize)
{
return !calcexpr(where, line, rv, errbuf, errbufsize);
}
bool calc_idc_expr_wrap(
ea_t where,
const char *line,
idc_value_t *rv,
char *errbuf, size_t errbufsize)
{
return !calc_idc_expr(where, line, rv, errbuf, errbufsize);
}
bool CompileLine_wrap(const char *line, char *errbuf, size_t errbufsize)
{
return !CompileLineEx(line, errbuf, errbufsize);
}
//</inline(py_expr)>
%}
%include "expr.hpp"
%pythoncode %{
#<pycode(py_expr)>
try:
import types
import ctypes
# Callback for IDC func callback (On Windows, we use stdcall)
# typedef error_t idaapi idc_func_t(idc_value_t *argv,idc_value_t *r);
_IDCFUNC_CB_T = ctypes.WINFUNCTYPE(ctypes.c_int, ctypes.c_void_p, ctypes.c_void_p)
# A trampoline function that is called from idcfunc_t that will
# call the Python callback with the argv and r properly serialized to python
call_idc_func__ = ctypes.CFUNCTYPE(ctypes.c_long)(_idaapi.py_get_call_idc_func())
except:
def call_idc_func__(*args):
warning("IDC extensions need ctypes library in order to work")
return 0
try:
_IDCFUNC_CB_T = CFUNCTYPE(c_int, c_void_p, c_void_p)
except:
_IDCFUNC_CB_T = None
# --------------------------------------------------------------------------
EXTFUN_BASE = 0x0001
"""requires open database"""
EXTFUN_NORET = 0x0002
"""does not return. the interpreter may clean up its state before calling it."""
EXTFUN_SAFE = 0x0004
"""thread safe function. may be called"""
# --------------------------------------------------------------------------
class _IdcFunction(object):
"""
Internal class that calls pyw_call_idc_func() with a context
"""
def __init__(self, ctxptr):
self.ctxptr = ctxptr
# Take a reference to the ctypes callback
# (note: this will create a circular reference)
self.cb = _IDCFUNC_CB_T(self)
fp_ptr = property(lambda self: ctypes.cast(self.cb, ctypes.c_void_p).value)
def __call__(self, args, res):
return call_idc_func__(self.ctxptr, args, res)
# --------------------------------------------------------------------------
# Dictionary to remember IDC function names along with the context pointer
# retrieved by using the internal pyw_register_idc_func()
__IDC_FUNC_CTXS = {}
# --------------------------------------------------------------------------
def set_idc_func_ex(name, fp=None, args=(), flags=0):
"""
Extends the IDC language by exposing a new IDC function that is backed up by a Python function
This function also unregisters the IDC function if 'fp' was passed as None
@param name: IDC function name to expose
@param fp: Python callable that will receive the arguments and return a tuple.
If this argument is None then the IDC function is unregistered
@param args: Arguments. A tuple of idaapi.VT_XXX constants
@param flags: IDC function flags. A combination of EXTFUN_XXX constants
@return: Boolean.
"""
global __IDC_FUNC_CTXS
# Get the context
f = __IDC_FUNC_CTXS.get(name, None)
# Unregistering?
if fp is None:
# Not registered?
if f is None:
return False
# Break circular reference
del f.cb
# Delete the name from the dictionary
del __IDC_FUNC_CTXS[name]
# Delete the context and unregister the function
return _idaapi.pyw_unregister_idc_func(f.ctxptr)
# Registering a function that is already registered?
if f is not None:
# Unregister it first
set_idc_func_ex(name, None)
# Convert the tupple argument info to a string
args = "".join([chr(x) for x in args])
# Create a context
ctxptr = _idaapi.pyw_register_idc_func(name, args, fp)
if ctxptr == 0:
return False
# Bind the context with the IdcFunc object
f = _IdcFunction(ctxptr)
# Remember the Python context
__IDC_FUNC_CTXS[name] = f
# Register IDC function with a callback
return _idaapi.py_set_idc_func_ex(
name,
f.fp_ptr,
args,
flags)
#</pycode(py_expr)>
%}