/* Python interface to btrace instruction history. Copyright 2016-2024 Free Software Foundation, Inc. This file is part of GDB. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . */ #include "gdbcore.h" #include "cli/cli-cmds.h" #include "gdbthread.h" #include "btrace.h" #include "py-record.h" #include "py-record-btrace.h" #include "record-btrace.h" #include "disasm.h" #include "gdbarch.h" /* Python object for btrace record lists. */ struct btpy_list_object { PyObject_HEAD /* The thread this list belongs to. */ thread_info *thread; /* The first index being part of this list. */ Py_ssize_t first; /* The last index begin part of this list. */ Py_ssize_t last; /* Stride size. */ Py_ssize_t step; /* Either &recpy_func_type, &recpy_insn_type, &recpy_aux_type or &recpy_gap_type. */ PyTypeObject* element_type; }; /* Python type for btrace lists. */ static PyTypeObject btpy_list_type = { PyVarObject_HEAD_INIT (NULL, 0) }; /* Returns either a btrace_insn for the given Python gdb.RecordInstruction object or sets an appropriate Python exception and returns NULL. */ static const btrace_insn * btrace_insn_from_recpy_insn (const PyObject * const pyobject) { const btrace_insn *insn; const recpy_element_object *obj; thread_info *tinfo; btrace_insn_iterator iter; if (Py_TYPE (pyobject) != &recpy_insn_type) { PyErr_Format (gdbpy_gdb_error, _("Must be gdb.RecordInstruction")); return NULL; } obj = (const recpy_element_object *) pyobject; tinfo = obj->thread; if (tinfo == NULL || btrace_is_empty (tinfo)) { PyErr_Format (gdbpy_gdb_error, _("No such instruction.")); return NULL; } if (btrace_find_insn_by_number (&iter, &tinfo->btrace, obj->number) == 0) { PyErr_Format (gdbpy_gdb_error, _("No such instruction.")); return NULL; } insn = btrace_insn_get (&iter); if (insn == NULL) { PyErr_Format (gdbpy_gdb_error, _("Not a valid instruction.")); return NULL; } return insn; } /* Returns either a btrace_function for the given Python gdb.RecordFunctionSegment object or sets an appropriate Python exception and returns NULL. */ static const btrace_function * btrace_func_from_recpy_func (const PyObject * const pyobject) { const btrace_function *func; const recpy_element_object *obj; thread_info *tinfo; btrace_call_iterator iter; if (Py_TYPE (pyobject) != &recpy_func_type) { PyErr_Format (gdbpy_gdb_error, _("Must be gdb.RecordFunctionSegment")); return NULL; } obj = (const recpy_element_object *) pyobject; tinfo = obj->thread; if (tinfo == NULL || btrace_is_empty (tinfo)) { PyErr_Format (gdbpy_gdb_error, _("No such function segment.")); return NULL; } if (btrace_find_call_by_number (&iter, &tinfo->btrace, obj->number) == 0) { PyErr_Format (gdbpy_gdb_error, _("No such function segment.")); return NULL; } func = btrace_call_get (&iter); if (func == NULL) { PyErr_Format (gdbpy_gdb_error, _("Not a valid function segment.")); return NULL; } return func; } /* Looks at the recorded item with the number NUMBER and create a gdb.RecordInstruction, gdb.RecordGap or gdb.RecordAuxiliary object for it accordingly. */ static PyObject * btpy_item_new (thread_info *tinfo, Py_ssize_t number) { btrace_insn_iterator iter; int err_code; if (btrace_find_insn_by_number (&iter, &tinfo->btrace, number) == 0) { PyErr_Format (gdbpy_gdb_error, _("No such instruction.")); return nullptr; } err_code = btrace_insn_get_error (&iter); if (err_code != 0) { const btrace_config *config; const char *err_string; config = btrace_conf (&tinfo->btrace); err_string = btrace_decode_error (config->format, err_code); return recpy_gap_new (err_code, err_string, number); } const struct btrace_insn *insn = btrace_insn_get (&iter); gdb_assert (insn != nullptr); if (insn->iclass == BTRACE_INSN_AUX) return recpy_aux_new (tinfo, RECORD_METHOD_BTRACE, number); return recpy_insn_new (tinfo, RECORD_METHOD_BTRACE, number); } /* Create a new gdb.BtraceList object. */ static PyObject * btpy_list_new (thread_info *thread, Py_ssize_t first, Py_ssize_t last, Py_ssize_t step, PyTypeObject *element_type) { btpy_list_object * const obj = PyObject_New (btpy_list_object, &btpy_list_type); if (obj == NULL) return NULL; obj->thread = thread; obj->first = first; obj->last = last; obj->step = step; obj->element_type = element_type; return (PyObject *) obj; } /* Implementation of RecordInstruction.sal [gdb.Symtab_and_line] for btrace. Returns the SAL associated with this instruction. */ PyObject * recpy_bt_insn_sal (PyObject *self, void *closure) { const btrace_insn * const insn = btrace_insn_from_recpy_insn (self); PyObject *result = NULL; if (insn == NULL) return NULL; try { result = symtab_and_line_to_sal_object (find_pc_line (insn->pc, 0)); } catch (const gdb_exception &except) { return gdbpy_handle_gdb_exception (nullptr, except); } return result; } /* Implementation of RecordInstruction.pc [int] for btrace. Returns the instruction address. */ PyObject * recpy_bt_insn_pc (PyObject *self, void *closure) { const btrace_insn * const insn = btrace_insn_from_recpy_insn (self); if (insn == NULL) return NULL; return gdb_py_object_from_ulongest (insn->pc).release (); } /* Implementation of RecordInstruction.size [int] for btrace. Returns the instruction size. */ PyObject * recpy_bt_insn_size (PyObject *self, void *closure) { const btrace_insn * const insn = btrace_insn_from_recpy_insn (self); if (insn == NULL) return NULL; return gdb_py_object_from_longest (insn->size).release (); } /* Implementation of RecordInstruction.is_speculative [bool] for btrace. Returns if this instruction was executed speculatively. */ PyObject * recpy_bt_insn_is_speculative (PyObject *self, void *closure) { const btrace_insn * const insn = btrace_insn_from_recpy_insn (self); if (insn == NULL) return NULL; if (insn->flags & BTRACE_INSN_FLAG_SPECULATIVE) Py_RETURN_TRUE; else Py_RETURN_FALSE; } /* Implementation of RecordInstruction.data [buffer] for btrace. Returns raw instruction data. */ PyObject * recpy_bt_insn_data (PyObject *self, void *closure) { const btrace_insn * const insn = btrace_insn_from_recpy_insn (self); gdb::byte_vector buffer; PyObject *object; if (insn == NULL) return NULL; try { buffer.resize (insn->size); read_memory (insn->pc, buffer.data (), insn->size); } catch (const gdb_exception &except) { return gdbpy_handle_gdb_exception (nullptr, except); } object = PyBytes_FromStringAndSize ((const char *) buffer.data (), insn->size); if (object == NULL) return NULL; return PyMemoryView_FromObject (object); } /* Implementation of RecordInstruction.decoded [str] for btrace. Returns the instruction as human readable string. */ PyObject * recpy_bt_insn_decoded (PyObject *self, void *closure) { const btrace_insn * const insn = btrace_insn_from_recpy_insn (self); string_file strfile; if (insn == NULL) return NULL; try { gdb_print_insn (current_inferior ()->arch (), insn->pc, &strfile, NULL); } catch (const gdb_exception &except) { return gdbpy_handle_gdb_exception (nullptr, except); } return PyBytes_FromString (strfile.string ().c_str ()); } /* Implementation of RecordFunctionSegment.level [int] for btrace. Returns the call level. */ PyObject * recpy_bt_func_level (PyObject *self, void *closure) { const btrace_function * const func = btrace_func_from_recpy_func (self); thread_info *tinfo; if (func == NULL) return NULL; tinfo = ((recpy_element_object *) self)->thread; return gdb_py_object_from_longest (tinfo->btrace.level + func->level).release (); } /* Implementation of RecordFunctionSegment.symbol [gdb.Symbol] for btrace. Returns the symbol associated with this function call. */ PyObject * recpy_bt_func_symbol (PyObject *self, void *closure) { const btrace_function * const func = btrace_func_from_recpy_func (self); if (func == NULL) return NULL; if (func->sym == NULL) Py_RETURN_NONE; return symbol_to_symbol_object (func->sym); } /* Implementation of RecordFunctionSegment.instructions [list] for btrace. Returns the list of instructions that belong to this function call. */ PyObject * recpy_bt_func_instructions (PyObject *self, void *closure) { const btrace_function * const func = btrace_func_from_recpy_func (self); unsigned int len; if (func == NULL) return NULL; len = func->insn.size (); /* Gaps count as one instruction. */ if (len == 0) len = 1; return btpy_list_new (((recpy_element_object *) self)->thread, func->insn_offset, func->insn_offset + len, 1, &recpy_insn_type); } /* Implementation of RecordFunctionSegment.up [RecordFunctionSegment] for btrace. Returns the caller / returnee of this function. */ PyObject * recpy_bt_func_up (PyObject *self, void *closure) { const btrace_function * const func = btrace_func_from_recpy_func (self); if (func == NULL) return NULL; if (func->up == 0) Py_RETURN_NONE; return recpy_func_new (((recpy_element_object *) self)->thread, RECORD_METHOD_BTRACE, func->up); } /* Implementation of RecordFunctionSegment.prev [RecordFunctionSegment] for btrace. Returns a previous segment of this function. */ PyObject * recpy_bt_func_prev (PyObject *self, void *closure) { const btrace_function * const func = btrace_func_from_recpy_func (self); if (func == NULL) return NULL; if (func->prev == 0) Py_RETURN_NONE; return recpy_func_new (((recpy_element_object *) self)->thread, RECORD_METHOD_BTRACE, func->prev); } /* Implementation of RecordFunctionSegment.next [RecordFunctionSegment] for btrace. Returns a following segment of this function. */ PyObject * recpy_bt_func_next (PyObject *self, void *closure) { const btrace_function * const func = btrace_func_from_recpy_func (self); if (func == NULL) return NULL; if (func->next == 0) Py_RETURN_NONE; return recpy_func_new (((recpy_element_object *) self)->thread, RECORD_METHOD_BTRACE, func->next); } /* Implementation of Auxiliary.data [str] for btrace. */ PyObject * recpy_bt_aux_data (PyObject *self, void *closure) { const btrace_insn *insn; const recpy_element_object *obj; thread_info *tinfo; btrace_insn_iterator iter; if (Py_TYPE (self) != &recpy_aux_type) { PyErr_Format (gdbpy_gdb_error, _("Must be a gdb.Auxiliary.")); return nullptr; } obj = (const recpy_element_object *) self; tinfo = obj->thread; if (tinfo == nullptr || btrace_is_empty (tinfo)) { PyErr_Format (gdbpy_gdb_error, _("No such auxiliary object.")); return nullptr; } if (btrace_find_insn_by_number (&iter, &tinfo->btrace, obj->number) == 0) { PyErr_Format (gdbpy_gdb_error, _("No such auxiliary object.")); return nullptr; } insn = btrace_insn_get (&iter); if (insn == nullptr || insn->iclass != BTRACE_INSN_AUX) { PyErr_Format (gdbpy_gdb_error, _("Not a valid auxiliary object.")); return nullptr; } return PyUnicode_FromString (iter.btinfo->aux_data.at (insn->aux_data_index).c_str ()); } /* Implementation of BtraceList.__len__ (self) -> int. */ static Py_ssize_t btpy_list_length (PyObject *self) { const btpy_list_object * const obj = (btpy_list_object *) self; const Py_ssize_t distance = obj->last - obj->first; const Py_ssize_t result = distance / obj->step; if ((distance % obj->step) == 0) return result; return result + 1; } /* Implementation of BtraceList.__getitem__ (self, key) -> BtraceInstruction, BtraceList.__getitem__ (self, key) -> BtraceFunctionCall, BtraceList.__getitem__ (self, key) -> BtraceAuxiliary. */ static PyObject * btpy_list_item (PyObject *self, Py_ssize_t index) { const btpy_list_object * const obj = (btpy_list_object *) self; Py_ssize_t number; if (index < 0 || index >= btpy_list_length (self)) return PyErr_Format (PyExc_IndexError, _("Index out of range: %zd."), index); number = obj->first + (obj->step * index); if (obj->element_type == &recpy_func_type) return recpy_func_new (obj->thread, RECORD_METHOD_BTRACE, number); else if (obj->element_type == &recpy_insn_type || obj->element_type == &recpy_aux_type) return btpy_item_new (obj->thread, number); else return PyErr_Format (gdbpy_gdb_error, _("Not a valid BtraceList object.")); } /* Implementation of BtraceList.__getitem__ (self, slice) -> BtraceList. */ static PyObject * btpy_list_slice (PyObject *self, PyObject *value) { const btpy_list_object * const obj = (btpy_list_object *) self; const Py_ssize_t length = btpy_list_length (self); Py_ssize_t start, stop, step, slicelength; if (PyLong_Check (value)) { Py_ssize_t index = PyLong_AsSsize_t (value); /* Emulate Python behavior for negative indices. */ if (index < 0) index += length; return btpy_list_item (self, index); } if (!PySlice_Check (value)) return PyErr_Format (PyExc_TypeError, _("Index must be int or slice.")); if (0 != PySlice_GetIndicesEx (value, length, &start, &stop, &step, &slicelength)) return NULL; return btpy_list_new (obj->thread, obj->first + obj->step * start, obj->first + obj->step * stop, obj->step * step, obj->element_type); } /* Helper function that returns the position of an element in a BtraceList or -1 if the element is not in the list. */ static LONGEST btpy_list_position (PyObject *self, PyObject *value) { const btpy_list_object * const list_obj = (btpy_list_object *) self; const recpy_element_object * const obj = (const recpy_element_object *) value; Py_ssize_t index = obj->number; if (list_obj->element_type != Py_TYPE (value)) return -1; if (list_obj->thread != obj->thread) return -1; if (index < list_obj->first || index > list_obj->last) return -1; index -= list_obj->first; if (index % list_obj->step != 0) return -1; return index / list_obj->step; } /* Implementation of "in" operator for BtraceLists. */ static int btpy_list_contains (PyObject *self, PyObject *value) { if (btpy_list_position (self, value) < 0) return 0; return 1; } /* Implementation of BtraceLists.index (self, value) -> int. */ static PyObject * btpy_list_index (PyObject *self, PyObject *value) { const LONGEST index = btpy_list_position (self, value); if (index < 0) return PyErr_Format (PyExc_ValueError, _("Not in list.")); return gdb_py_object_from_longest (index).release (); } /* Implementation of BtraceList.count (self, value) -> int. */ static PyObject * btpy_list_count (PyObject *self, PyObject *value) { /* We know that if an element is in the list, it is so exactly one time, enabling us to reuse the "is element of" check. */ return gdb_py_object_from_longest (btpy_list_contains (self, value)).release (); } /* Python rich compare function to allow for equality and inequality checks in Python. */ static PyObject * btpy_list_richcompare (PyObject *self, PyObject *other, int op) { const btpy_list_object * const obj1 = (btpy_list_object *) self; const btpy_list_object * const obj2 = (btpy_list_object *) other; if (Py_TYPE (self) != Py_TYPE (other)) { Py_INCREF (Py_NotImplemented); return Py_NotImplemented; } switch (op) { case Py_EQ: if (obj1->thread == obj2->thread && obj1->element_type == obj2->element_type && obj1->first == obj2->first && obj1->last == obj2->last && obj1->step == obj2->step) Py_RETURN_TRUE; else Py_RETURN_FALSE; case Py_NE: if (obj1->thread != obj2->thread || obj1->element_type != obj2->element_type || obj1->first != obj2->first || obj1->last != obj2->last || obj1->step != obj2->step) Py_RETURN_TRUE; else Py_RETURN_FALSE; default: break; } Py_INCREF (Py_NotImplemented); return Py_NotImplemented; } /* Implementation of BtraceRecord.method [str]. */ PyObject * recpy_bt_method (PyObject *self, void *closure) { return PyUnicode_FromString ("btrace"); } /* Implementation of BtraceRecord.format [str]. */ PyObject * recpy_bt_format (PyObject *self, void *closure) { const recpy_record_object * const record = (recpy_record_object *) self; const struct thread_info * const tinfo = record->thread; const struct btrace_config * config; if (tinfo == NULL) Py_RETURN_NONE; config = btrace_conf (&tinfo->btrace); if (config == NULL) Py_RETURN_NONE; return PyUnicode_FromString (btrace_format_short_string (config->format)); } /* Implementation of BtraceRecord.replay_position [BtraceInstruction]. */ PyObject * recpy_bt_replay_position (PyObject *self, void *closure) { const recpy_record_object * const record = (recpy_record_object *) self; thread_info * tinfo = record->thread; if (tinfo == NULL) Py_RETURN_NONE; if (tinfo->btrace.replay == NULL) Py_RETURN_NONE; return btpy_item_new (tinfo, btrace_insn_number (tinfo->btrace.replay)); } /* Implementation of BtraceRecord.begin [BtraceInstruction]. */ PyObject * recpy_bt_begin (PyObject *self, void *closure) { const recpy_record_object * const record = (recpy_record_object *) self; thread_info *const tinfo = record->thread; struct btrace_insn_iterator iterator; if (tinfo == NULL) Py_RETURN_NONE; btrace_fetch (tinfo, record_btrace_get_cpu ()); if (btrace_is_empty (tinfo)) Py_RETURN_NONE; btrace_insn_begin (&iterator, &tinfo->btrace); return btpy_item_new (tinfo, btrace_insn_number (&iterator)); } /* Implementation of BtraceRecord.end [BtraceInstruction]. */ PyObject * recpy_bt_end (PyObject *self, void *closure) { const recpy_record_object * const record = (recpy_record_object *) self; thread_info *const tinfo = record->thread; struct btrace_insn_iterator iterator; if (tinfo == NULL) Py_RETURN_NONE; btrace_fetch (tinfo, record_btrace_get_cpu ()); if (btrace_is_empty (tinfo)) Py_RETURN_NONE; btrace_insn_end (&iterator, &tinfo->btrace); return btpy_item_new (tinfo, btrace_insn_number (&iterator)); } /* Implementation of BtraceRecord.instruction_history [list]. */ PyObject * recpy_bt_instruction_history (PyObject *self, void *closure) { const recpy_record_object * const record = (recpy_record_object *) self; thread_info *const tinfo = record->thread; struct btrace_insn_iterator iterator; unsigned long first = 0; unsigned long last = 0; if (tinfo == NULL) Py_RETURN_NONE; btrace_fetch (tinfo, record_btrace_get_cpu ()); if (btrace_is_empty (tinfo)) Py_RETURN_NONE; btrace_insn_begin (&iterator, &tinfo->btrace); first = btrace_insn_number (&iterator); btrace_insn_end (&iterator, &tinfo->btrace); last = btrace_insn_number (&iterator); return btpy_list_new (tinfo, first, last, 1, &recpy_insn_type); } /* Implementation of BtraceRecord.function_call_history [list]. */ PyObject * recpy_bt_function_call_history (PyObject *self, void *closure) { const recpy_record_object * const record = (recpy_record_object *) self; thread_info *const tinfo = record->thread; struct btrace_call_iterator iterator; unsigned long first = 0; unsigned long last = 0; if (tinfo == NULL) Py_RETURN_NONE; btrace_fetch (tinfo, record_btrace_get_cpu ()); if (btrace_is_empty (tinfo)) Py_RETURN_NONE; btrace_call_begin (&iterator, &tinfo->btrace); first = btrace_call_number (&iterator); btrace_call_end (&iterator, &tinfo->btrace); last = btrace_call_number (&iterator); return btpy_list_new (tinfo, first, last, 1, &recpy_func_type); } /* Helper function that calls PTW_FILTER with PAYLOAD and IP as arguments. Returns the string that will be printed, if there is a filter to call. */ static std::optional recpy_call_filter (const uint64_t payload, std::optional ip, const void *ptw_filter) { std::optional result; gdb_assert (ptw_filter != nullptr); if ((PyObject *) ptw_filter == Py_None) return result; gdbpy_enter enter_py; gdbpy_ref<> py_payload = gdb_py_object_from_ulongest (payload); gdbpy_ref<> py_ip; if (!ip.has_value ()) py_ip = gdbpy_ref<>::new_reference (Py_None); else py_ip = gdb_py_object_from_ulongest (*ip); gdbpy_ref<> py_result (PyObject_CallFunctionObjArgs ((PyObject *) ptw_filter, py_payload.get (), py_ip.get (), nullptr)); if (py_result == nullptr) { gdbpy_print_stack (); gdbpy_error (_("Couldn't call the ptwrite filter.")); } /* Py_None is valid and results in no output. */ if (py_result == Py_None) { result = ""; return result; } gdb::unique_xmalloc_ptr user_string = gdbpy_obj_to_string (py_result.get ()); if (user_string == nullptr) { gdbpy_print_stack (); gdbpy_error (_("The ptwrite filter didn't return a string.")); } else result = user_string.get (); return result; } /* Helper function returning the current ptwrite filter. */ static PyObject * get_ptwrite_filter () { gdbpy_ref<> module (PyImport_ImportModule ("gdb.ptwrite")); if (PyErr_Occurred ()) { gdbpy_print_stack (); gdbpy_error (_("Couldn't import gdb.ptwrite.")); } /* We need to keep the reference count. */ gdbpy_ref<> ptw_filter (gdbpy_call_method (module.get (), "get_filter")); if (PyErr_Occurred ()) { gdbpy_print_stack (); gdbpy_error (_("Couldn't get the ptwrite filter.")); } return ptw_filter.get(); } /* Used for registering any python ptwrite filter to the current thread. A pointer to this function is stored in the python extension interface. */ void gdbpy_load_ptwrite_filter (const struct extension_language_defn *extlang, struct btrace_thread_info *btinfo) { gdb_assert (btinfo != nullptr); gdbpy_enter enter_py; btinfo->ptw_context = get_ptwrite_filter (); #if defined (HAVE_STRUCT_PT_EVENT_VARIANT_PTWRITE) if (!btinfo->target->conf.pt.ptwrite && btinfo->ptw_context != Py_None) warning (_("The target doesn't support decoding ptwrite events.")); #else if (btinfo->ptw_context != Py_None) warning (_("Libipt doesn't support decoding ptwrite events.")); #endif /* defined (HAVE_STRUCT_PT_EVENT_VARIANT_PTWRITE) */ btinfo->ptw_callback_fun = &recpy_call_filter; } /* Implementation of BtraceRecord.goto (self, BtraceInstruction) -> None. */ PyObject * recpy_bt_goto (PyObject *self, PyObject *args) { const recpy_record_object * const record = (recpy_record_object *) self; thread_info *const tinfo = record->thread; const recpy_element_object *obj; PyObject *parse_obj; if (tinfo == NULL || btrace_is_empty (tinfo)) return PyErr_Format (gdbpy_gdb_error, _("Empty branch trace.")); if (!PyArg_ParseTuple (args, "O", &parse_obj)) return NULL; if (Py_TYPE (parse_obj) != &recpy_insn_type) return PyErr_Format (PyExc_TypeError, _("Argument must be instruction.")); obj = (const recpy_element_object *) parse_obj; try { struct btrace_insn_iterator iter; btrace_insn_end (&iter, &tinfo->btrace); if (btrace_insn_number (&iter) == obj->number) target_goto_record_end (); else target_goto_record (obj->number); } catch (const gdb_exception &except) { return gdbpy_handle_gdb_exception (nullptr, except); } Py_RETURN_NONE; } /* Implementation of BtraceRecord.clear (self) -> None. */ PyObject * recpy_bt_clear (PyObject *self, PyObject *args) { const recpy_record_object * const record = (recpy_record_object *) self; thread_info *const tinfo = record->thread; btrace_clear (tinfo); Py_RETURN_NONE; } /* BtraceList methods. */ static PyMethodDef btpy_list_methods[] = { { "count", btpy_list_count, METH_O, "count number of occurrences"}, { "index", btpy_list_index, METH_O, "index of entry"}, {NULL} }; /* BtraceList sequence methods. */ static PySequenceMethods btpy_list_sequence_methods = { NULL }; /* BtraceList mapping methods. Necessary for slicing. */ static PyMappingMethods btpy_list_mapping_methods = { NULL }; /* Sets up the btrace record API. */ static int CPYCHECKER_NEGATIVE_RESULT_SETS_EXCEPTION gdbpy_initialize_btrace (void) { btpy_list_type.tp_new = PyType_GenericNew; btpy_list_type.tp_flags = Py_TPFLAGS_DEFAULT; btpy_list_type.tp_basicsize = sizeof (btpy_list_object); btpy_list_type.tp_name = "gdb.BtraceObjectList"; btpy_list_type.tp_doc = "GDB btrace list object"; btpy_list_type.tp_methods = btpy_list_methods; btpy_list_type.tp_as_sequence = &btpy_list_sequence_methods; btpy_list_type.tp_as_mapping = &btpy_list_mapping_methods; btpy_list_type.tp_richcompare = btpy_list_richcompare; btpy_list_sequence_methods.sq_item = btpy_list_item; btpy_list_sequence_methods.sq_length = btpy_list_length; btpy_list_sequence_methods.sq_contains = btpy_list_contains; btpy_list_mapping_methods.mp_subscript = btpy_list_slice; return gdbpy_type_ready (&btpy_list_type); } GDBPY_INITIALIZE_FILE (gdbpy_initialize_btrace);