#ifndef __PY_UA__ #define __PY_UA__ //------------------------------------------------------------------------- // //------------------------------------------------------------------------- insn_t *insn_t_get_clink(PyObject *self) { return (insn_t *)pyobj_get_clink(self); } //------------------------------------------------------------------------- op_t *op_t_get_clink(PyObject *self) { return (op_t *)pyobj_get_clink(self); } // //------------------------------------------------------------------------- // //------------------------------------------------------------------------- /* # def init_output_buffer(size = MAXSTR): """ This function initialize an output buffer with the given size. It should be called before using any out_xxxx() functions. @return: It returns a string. This string should then be passed to MakeLine(). This function could return None if it failed to create a buffer with the given size. """ pass # */ PyObject *py_init_output_buffer(size_t size = MAXSTR) { // Let Python allocate a writable string buffer for us PyObject *py_str = PyString_FromStringAndSize(NULL, size); if ( py_str == NULL ) Py_RETURN_NONE; init_output_buffer(PyString_AsString(py_str), size); return py_str; } //------------------------------------------------------------------------- /* # def term_output_buffer(): """Use this function to terminate an output buffer.""" pass # */ void py_term_output_buffer() { term_output_buffer(); } //------------------------------------------------------------------------- /* # def decode_preceding_insn(ea): """ Decodes the preceding instruction. Please check ua.hpp / decode_preceding_insn() @param ea: current ea @return: tuple(preceeding_ea or BADADDR, farref = Boolean) """ pass # */ PyObject *py_decode_preceding_insn(ea_t ea) { bool farref; ea_t r = decode_preceding_insn(ea, &farref); return Py_BuildValue("(" PY_FMT64 "i)", pyul_t(r), farref ? 1 : 0); } //------------------------------------------------------------------------- /* # def OutValue(op, outflags = 0): """ Output immediate value @param op: operand (of type op_t) @return: flags of the output value -1: value is output with COLOR_ERROR 0: value is output as a number or character or segment """ pass # */ flags_t py_OutValue(PyObject *x, int outflags=0) { op_t *op = op_t_get_clink(x); if ( op == NULL ) return 0; return OutValue(*op, outflags); } //------------------------------------------------------------------------- /* # def get_stkvar(op, v): """ Get pointer to stack variable @param op: reference to instruction operand @param v: immediate value in the operand (usually op.addr) @return: - None on failure - tuple(member_t, actval) where actval: actual value used to fetch stack variable """ pass # */ PyObject *py_get_stkvar(PyObject *py_op, PyObject *py_v) { op_t *op = op_t_get_clink(py_op); uint64 v; if ( op == NULL || !PyW_GetNumber(py_v, &v) ) Py_RETURN_NONE; sval_t actval; member_t *member = get_stkvar(*op, sval_t(v), &actval); if ( member == NULL ) Py_RETURN_NONE; return Py_BuildValue("(O" PY_SFMT64 ")", SWIG_NewPointerObj(SWIG_as_voidptr(member), SWIGTYPE_p_member_t, 0), pyl_t(actval)); } //------------------------------------------------------------------------- /* header: frame.hpp # def add_stkvar3(op, v, flags): """ Automatically add stack variable if doesn't exist Processor modules should use ua_stkvar2() @param op: reference to instruction operand @param v: immediate value in the operand (usually op.addr) @param flags: combination of STKVAR_... constants @return: Boolean """ pass # */ bool py_add_stkvar3(PyObject *py_op, PyObject *py_v, int flags) { op_t *op = op_t_get_clink(py_op); uint64 v; return ( op == NULL || !PyW_GetNumber(py_v, &v) || !add_stkvar3(*op, sval_t(v), flags)) ? false : true; } //------------------------------------------------------------------------- /* header: frame.hpp // Calculate offset of stack variable in the frame structure // pfn - pointer to function (can't be NULL!) // x - reference to instruction operand // v - value of variable offset in the instruction // returns: offset of stack variable in the frame structure (0..n) ea_t calc_frame_offset(func_t *pfn, const op_t *x, sval_t v); */ //------------------------------------------------------------------------- /* header: typeinf.hpp # def apply_type_to_stkarg(op, v, type, name): """ Apply type information to a stack variable @param op: reference to instruction operand @param v: immediate value in the operand (usually op.addr) @param type: type string. Retrieve from idc.ParseType("type string", flags)[1] @param name: stack variable name @return: Boolean """ pass # */ bool py_apply_type_to_stkarg( PyObject *py_op, PyObject *py_uv, PyObject *py_type, const char *name) { uint64 v; op_t *op = op_t_get_clink(py_op); if ( op == NULL || !PyW_GetNumber(py_uv, &v) || !PyString_Check(py_type)) return false; else return apply_type_to_stkarg(*op, uval_t(v), (type_t *) PyString_AsString(py_type), name); } //------------------------------------------------------------------------- /* # def OutImmChar(op, outflags = 0): """ Output operand value as a commented character constant @param op: operand (of type op_t) @return: None """ pass # */ static void py_OutImmChar(PyObject *x) { op_t *op = op_t_get_clink(x); if ( op != NULL ) OutImmChar(*op); } //------------------------------------------------------------------------- /* # def ua_stkvar2(op, outflags = 0): """ Create or modify a stack variable in the function frame. Please check ua.hpp / ua_stkvar2() @param op: operand (of type op_t) @return: None """ pass # */ static bool py_ua_stkvar2(PyObject *x, adiff_t v, int flags) { op_t *op = op_t_get_clink(x); return op == NULL ? false : ua_stkvar2(*op, v, flags); } //------------------------------------------------------------------------- /* # def ua_add_off_drefs(op, type): """ Add xrefs for offset operand of the current instruction Please check ua.hpp / ua_add_off_drefs() @param op: operand (of type op_t) @return: None """ pass # */ ea_t py_ua_add_off_drefs(PyObject *py_op, dref_t type) { op_t *op = op_t_get_clink(py_op); return op == NULL ? BADADDR : ua_add_off_drefs(*op, type); } //------------------------------------------------------------------------- /* # def ua_add_off_drefs2(op, type, outf): """ Add xrefs for offset operand of the current instruction Please check ua.hpp / ua_add_off_drefs2() @return: ea_t """ pass # */ ea_t py_ua_add_off_drefs2(PyObject *py_op, dref_t type, int outf) { op_t *op = op_t_get_clink(py_op); return op == NULL ? BADADDR : ua_add_off_drefs2(*op, type, outf); } //------------------------------------------------------------------------- /* # def out_name_expr(op, ea, off): """ Output a name expression @param op: operand (of type op_t) @param ea: address of expression @param off: the value of name expression. this parameter is used only to check that the name expression will have the wanted value. You may pass BADADDR for this parameter. @return: true if the name expression has been produced """ pass # */ bool py_out_name_expr( PyObject *py_op, ea_t ea, PyObject *py_off) { op_t *op = op_t_get_clink(py_op); uint64 v(0); adiff_t off; if ( PyW_GetNumber(py_off, &v) ) off = adiff_t(v); else off = BADADDR; return op == NULL ? false : out_name_expr(*op, ea, off); } //------------------------------------------------------------------------- static PyObject *insn_t_get_op_link(PyObject *py_insn_lnk, int i) { if ( i < 0 || i >= UA_MAXOP || !PyCObject_Check(py_insn_lnk) ) Py_RETURN_NONE; // Extract C link insn_t *insn = (insn_t *)PyCObject_AsVoidPtr(py_insn_lnk); // Return a link to the operand return PyCObject_FromVoidPtr(&insn->Operands[i], NULL); } //------------------------------------------------------------------------- static PyObject *insn_t_create() { return PyCObject_FromVoidPtr(new insn_t(), NULL); } //------------------------------------------------------------------------- static PyObject *op_t_create() { return PyCObject_FromVoidPtr(new op_t(), NULL); } //------------------------------------------------------------------------- static bool op_t_assign(PyObject *self, PyObject *other) { op_t *lhs = op_t_get_clink(self); op_t *rhs = op_t_get_clink(other); if (lhs == NULL || rhs == NULL) return false; *lhs = *rhs; return true; } //------------------------------------------------------------------------- static bool insn_t_assign(PyObject *self, PyObject *other) { insn_t *lhs = insn_t_get_clink(self); insn_t *rhs = insn_t_get_clink(other); if (lhs == NULL || rhs == NULL) return false; *lhs = *rhs; return true; } //------------------------------------------------------------------------- static bool op_t_destroy(PyObject *py_obj) { if ( !PyCObject_Check(py_obj) ) return false; op_t *op = (op_t *)PyCObject_AsVoidPtr(py_obj); delete op; return true; } //------------------------------------------------------------------------- static bool insn_t_destroy(PyObject *py_obj) { if ( !PyCObject_Check(py_obj) ) return false; delete (insn_t *)PyCObject_AsVoidPtr(py_obj); return true; } //------------------------------------------------------------------------- // Returns a C link to the global 'cmd' variable static PyObject *py_get_global_cmd_link() { return PyCObject_FromVoidPtr(&::cmd, NULL); } //------------------------------------------------------------------------- static PyObject *insn_t_is_canon_insn(int itype) { if ( ph.is_canon_insn(itype) ) Py_RETURN_TRUE; else Py_RETURN_FALSE; } //------------------------------------------------------------------------- static PyObject *insn_t_get_canon_feature(int itype) { return Py_BuildValue("I", ph.is_canon_insn(itype) ? ph.instruc[itype-ph.instruc_start].feature : 0); } //------------------------------------------------------------------------- static PyObject *insn_t_get_canon_mnem(int itype) { if ( ph.is_canon_insn(itype) ) return Py_BuildValue("s", ph.instruc[itype-ph.instruc_start].name); else Py_RETURN_NONE; } //------------------------------------------------------------------------- static PyObject *insn_t_get_cs(PyObject *self) { insn_t *link = insn_t_get_clink(self); if ( link == NULL ) Py_RETURN_NONE; return Py_BuildValue(PY_FMT64, (pyul_t)link->cs); } static void insn_t_set_cs(PyObject *self, PyObject *value) { insn_t *link = insn_t_get_clink(self); if ( link == NULL ) return; uint64 v(0); PyW_GetNumber(value, &v); link->cs = ea_t(v); } static PyObject *insn_t_get_ip(PyObject *self) { insn_t *link = insn_t_get_clink(self); if ( link == NULL ) Py_RETURN_NONE; return Py_BuildValue(PY_FMT64, (pyul_t)link->ip); } static void insn_t_set_ip(PyObject *self, PyObject *value) { insn_t *link = insn_t_get_clink(self); if ( link == NULL ) return; uint64 v(0); PyW_GetNumber(value, &v); link->ip = ea_t(v); } static PyObject *insn_t_get_ea(PyObject *self) { insn_t *link = insn_t_get_clink(self); if ( link == NULL ) Py_RETURN_NONE; return Py_BuildValue(PY_FMT64, (pyul_t)link->ea); } static void insn_t_set_ea(PyObject *self, PyObject *value) { insn_t *link = insn_t_get_clink(self); if ( link == NULL ) return; uint64 v(0); PyW_GetNumber(value, &v); link->ea = ea_t(v); } static PyObject *insn_t_get_itype(PyObject *self) { insn_t *link = insn_t_get_clink(self); if ( link == NULL ) Py_RETURN_NONE; return Py_BuildValue("H", link->itype); } static void insn_t_set_itype(PyObject *self, PyObject *value) { insn_t *link = insn_t_get_clink(self); if ( link == NULL ) return; link->itype = (uint16)PyInt_AsLong(value); } static PyObject *insn_t_get_size(PyObject *self) { insn_t *link = insn_t_get_clink(self); if ( link == NULL ) Py_RETURN_NONE; return Py_BuildValue("H", link->size); } static void insn_t_set_size(PyObject *self, PyObject *value) { insn_t *link = insn_t_get_clink(self); if ( link == NULL ) return; link->size = (uint16)PyInt_AsLong(value); } static PyObject *insn_t_get_auxpref(PyObject *self) { insn_t *link = insn_t_get_clink(self); if ( link == NULL ) Py_RETURN_NONE; return Py_BuildValue("H", link->auxpref); } static void insn_t_set_auxpref(PyObject *self, PyObject *value) { insn_t *link = insn_t_get_clink(self); if ( link == NULL ) return; link->auxpref = (uint16)PyInt_AsLong(value); } static PyObject *insn_t_get_segpref(PyObject *self) { insn_t *link = insn_t_get_clink(self); if ( link == NULL ) Py_RETURN_NONE; return Py_BuildValue("b", link->segpref); } static void insn_t_set_segpref(PyObject *self, PyObject *value) { insn_t *link = insn_t_get_clink(self); if ( link == NULL ) return; link->segpref = (char)PyInt_AsLong(value); } static PyObject *insn_t_get_insnpref(PyObject *self) { insn_t *link = insn_t_get_clink(self); if ( link == NULL ) Py_RETURN_NONE; return Py_BuildValue("b", link->insnpref); } static void insn_t_set_insnpref(PyObject *self, PyObject *value) { insn_t *link = insn_t_get_clink(self); if ( link == NULL ) return; link->insnpref = (char)PyInt_AsLong(value); } static PyObject *insn_t_get_flags(PyObject *self) { insn_t *link = insn_t_get_clink(self); if ( link == NULL ) Py_RETURN_NONE; return Py_BuildValue("b", link->flags); } static void insn_t_set_flags(PyObject *self, PyObject *value) { insn_t *link = insn_t_get_clink(self); if ( link == NULL ) return; link->flags = (char)PyInt_AsLong(value); } //------------------------------------------------------------------------- static PyObject *op_t_get_n(PyObject *self) { op_t *link = op_t_get_clink(self); if ( link == NULL ) Py_RETURN_NONE; return Py_BuildValue("b", link->n); } static void op_t_set_n(PyObject *self, PyObject *value) { op_t *link = op_t_get_clink(self); if ( link == NULL ) return; link->n = (char)PyInt_AsLong(value); } static PyObject *op_t_get_type(PyObject *self) { op_t *link = op_t_get_clink(self); if ( link == NULL ) Py_RETURN_NONE; return Py_BuildValue("B", link->type); } static void op_t_set_type(PyObject *self, PyObject *value) { op_t *link = op_t_get_clink(self); if ( link == NULL ) return; link->type = (optype_t)PyInt_AsLong(value); } static PyObject *op_t_get_offb(PyObject *self) { op_t *link = op_t_get_clink(self); if ( link == NULL ) Py_RETURN_NONE; return Py_BuildValue("b", link->offb); } static void op_t_set_offb(PyObject *self, PyObject *value) { op_t *link = op_t_get_clink(self); if ( link == NULL ) return; link->offb = (char)PyInt_AsLong(value); } static PyObject *op_t_get_offo(PyObject *self) { op_t *link = op_t_get_clink(self); if ( link == NULL ) Py_RETURN_NONE; return Py_BuildValue("b", link->offo); } static void op_t_set_offo(PyObject *self, PyObject *value) { op_t *link = op_t_get_clink(self); if ( link == NULL ) return; link->offo = (char)PyInt_AsLong(value); } static PyObject *op_t_get_flags(PyObject *self) { op_t *link = op_t_get_clink(self); if ( link == NULL ) Py_RETURN_NONE; return Py_BuildValue("B", link->flags); } static void op_t_set_flags(PyObject *self, PyObject *value) { op_t *link = op_t_get_clink(self); if ( link == NULL ) return; link->flags = (uchar)PyInt_AsLong(value); } static PyObject *op_t_get_dtyp(PyObject *self) { op_t *link = op_t_get_clink(self); if ( link == NULL ) Py_RETURN_NONE; return Py_BuildValue("b", link->dtyp); } static void op_t_set_dtyp(PyObject *self, PyObject *value) { op_t *link = op_t_get_clink(self); if ( link == NULL ) return; link->dtyp = (char)PyInt_AsLong(value); } static PyObject *op_t_get_reg_phrase(PyObject *self) { op_t *link = op_t_get_clink(self); if ( link == NULL ) Py_RETURN_NONE; return Py_BuildValue("H", link->reg); } static void op_t_set_reg_phrase(PyObject *self, PyObject *value) { op_t *link = op_t_get_clink(self); if ( link == NULL ) return; link->reg = (uint16)PyInt_AsLong(value); } static PyObject *op_t_get_value(PyObject *self) { op_t *link = op_t_get_clink(self); if ( link == NULL ) Py_RETURN_NONE; return Py_BuildValue("I", link->value); } static void op_t_set_value(PyObject *self, PyObject *value) { op_t *link = op_t_get_clink(self); if ( link == NULL ) return; link->value = PyInt_AsLong(value); } static PyObject *op_t_get_addr(PyObject *self) { op_t *link = op_t_get_clink(self); if ( link == NULL ) Py_RETURN_NONE; return Py_BuildValue(PY_FMT64, (pyul_t)link->addr); } static void op_t_set_addr(PyObject *self, PyObject *value) { op_t *link = op_t_get_clink(self); if ( link == NULL ) return; uint64 v(0); PyW_GetNumber(value, &v); link->addr = ea_t(v); } static PyObject *op_t_get_specval(PyObject *self) { op_t *link = op_t_get_clink(self); if ( link == NULL ) Py_RETURN_NONE; return Py_BuildValue(PY_FMT64, (pyul_t)link->specval); } static void op_t_set_specval(PyObject *self, PyObject *value) { op_t *link = op_t_get_clink(self); if ( link == NULL ) return; uint64 v(0); PyW_GetNumber(value, &v); link->specval = ea_t(v); } static PyObject *op_t_get_specflag1(PyObject *self) { op_t *link = op_t_get_clink(self); if ( link == NULL ) Py_RETURN_NONE; return Py_BuildValue("b", link->specflag1); } static void op_t_set_specflag1(PyObject *self, PyObject *value) { op_t *link = op_t_get_clink(self); if ( link == NULL ) return; link->specflag1 = (char)PyInt_AsLong(value); } static PyObject *op_t_get_specflag2(PyObject *self) { op_t *link = op_t_get_clink(self); if ( link == NULL ) Py_RETURN_NONE; return Py_BuildValue("b", link->specflag2); } static void op_t_set_specflag2(PyObject *self, PyObject *value) { op_t *link = op_t_get_clink(self); if ( link == NULL ) return; link->specflag2 = (char)PyInt_AsLong(value); } static PyObject *op_t_get_specflag3(PyObject *self) { op_t *link = op_t_get_clink(self); if ( link == NULL ) Py_RETURN_NONE; return Py_BuildValue("b", link->specflag3); } static void op_t_set_specflag3(PyObject *self, PyObject *value) { op_t *link = op_t_get_clink(self); if ( link == NULL ) return; link->specflag3 = (char)PyInt_AsLong(value); } static PyObject *op_t_get_specflag4(PyObject *self) { op_t *link = op_t_get_clink(self); if ( link == NULL ) Py_RETURN_NONE; return Py_BuildValue("b", link->specflag4); } static void op_t_set_specflag4(PyObject *self, PyObject *value) { op_t *link = op_t_get_clink(self); if ( link == NULL ) return; link->specflag4 = (char)PyInt_AsLong(value); } // #endif