# DExTer : Debugging Experience Tester # ~~~~~~ ~ ~~ ~ ~~ # # Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. # See https://llvm.org/LICENSE.txt for license information. # SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception """Base class for all debugger interface implementations.""" import abc from itertools import chain import os import sys import time import traceback from dex.dextIR import DebuggerIR, ValueIR from dex.utils.Exceptions import DebuggerException from dex.utils.Exceptions import NotYetLoadedDebuggerException from dex.utils.ReturnCode import ReturnCode class DebuggerBase(object, metaclass=abc.ABCMeta): def __init__(self, context, step_collection): self.context = context self.steps = step_collection self._interface = None self.has_loaded = False self._loading_error = NotYetLoadedDebuggerException() self.watches = set() try: self._interface = self._load_interface() self.has_loaded = True self._loading_error = None except DebuggerException: self._loading_error = sys.exc_info() self.step_index = 0 def __enter__(self): try: self._custom_init() self.clear_breakpoints() self.add_breakpoints() except DebuggerException: self._loading_error = sys.exc_info() return self def __exit__(self, *args): self._custom_exit() def _custom_init(self): pass def _custom_exit(self): pass @property def debugger_info(self): return DebuggerIR(name=self.name, version=self.version) @property def is_available(self): return self.has_loaded and self.loading_error is None @property def loading_error(self): return (str(self._loading_error[1]) if self._loading_error is not None else None) @property def loading_error_trace(self): if not self._loading_error: return None tb = traceback.format_exception(*self._loading_error) if self._loading_error[1].orig_exception is not None: orig_exception = traceback.format_exception( *self._loading_error[1].orig_exception) if ''.join(orig_exception) not in ''.join(tb): tb.extend(['\n']) tb.extend(orig_exception) tb = ''.join(tb).splitlines(True) return tb def add_breakpoints(self): for s in self.context.options.source_files: with open(s, 'r') as fp: num_lines = len(fp.readlines()) for line in range(1, num_lines + 1): self.add_breakpoint(s, line) def _update_step_watches(self, step_info): loc = step_info.current_location watch_cmds = ['DexUnreachable', 'DexExpectStepOrder'] towatch = chain.from_iterable(self.steps.commands[x] for x in watch_cmds if x in self.steps.commands) try: # Iterate over all watches of the types named in watch_cmds for watch in towatch: if (os.path.exists(loc.path) and os.path.samefile(watch.path, loc.path) and watch.lineno == loc.lineno): result = watch.eval(self) step_info.watches.update(result) break except KeyError: pass def _sanitize_function_name(self, name): # pylint: disable=no-self-use """If the function name returned by the debugger needs any post- processing to make it fit (for example, if it includes a byte offset), do that here. """ return name def start(self): self.steps.clear_steps() self.launch() for command_obj in chain.from_iterable(self.steps.commands.values()): self.watches.update(command_obj.get_watches()) max_steps = self.context.options.max_steps for _ in range(max_steps): while self.is_running: pass if self.is_finished: break self.step_index += 1 step_info = self.get_step_info() if step_info.current_frame: self._update_step_watches(step_info) self.steps.new_step(self.context, step_info) if self.in_source_file(step_info): self.step() else: self.go() time.sleep(self.context.options.pause_between_steps) else: raise DebuggerException( 'maximum number of steps reached ({})'.format(max_steps)) def in_source_file(self, step_info): if not step_info.current_frame: return False if not step_info.current_location.path: return False if not os.path.exists(step_info.current_location.path): return False return any(os.path.samefile(step_info.current_location.path, f) \ for f in self.context.options.source_files) @abc.abstractmethod def _load_interface(self): pass @classmethod def get_option_name(cls): """Short name that will be used on the command line to specify this debugger. """ raise NotImplementedError() @classmethod def get_name(cls): """Full name of this debugger.""" raise NotImplementedError() @property def name(self): return self.__class__.get_name() @property def option_name(self): return self.__class__.get_option_name() @abc.abstractproperty def version(self): pass @abc.abstractmethod def clear_breakpoints(self): pass @abc.abstractmethod def add_breakpoint(self, file_, line): pass @abc.abstractmethod def launch(self): pass @abc.abstractmethod def step(self): pass @abc.abstractmethod def go(self) -> ReturnCode: pass @abc.abstractmethod def get_step_info(self): pass @abc.abstractproperty def is_running(self): pass @abc.abstractproperty def is_finished(self): pass @abc.abstractproperty def frames_below_main(self): pass @abc.abstractmethod def evaluate_expression(self, expression, frame_idx=0) -> ValueIR: pass