import enum, gc, glob, importlib, io, inspect, os, sys, typing, uuid from src import Config, EventManager, Exports, IRCBot, Logging, Timers, utils class ModuleException(Exception): pass class ModuleWarning(Exception): pass class ModuleNotFoundException(ModuleException): pass class ModuleNameCollisionException(ModuleException): pass class ModuleLoadException(ModuleException): pass class ModuleUnloadException(ModuleException): pass class ModuleNotLoadedWarning(ModuleWarning): pass class ModuleDependencyNotFulfilled(ModuleException): def __init__(self, module, dependency): ModuleException.__init__(self, "Dependency for %s not fulfilled: %s" % (module, dependency)) self.module = module self.dependency = dependency class ModuleCircularDependency(ModuleException): pass class ModuleType(enum.Enum): FILE = 0 DIRECTORY = 1 class BaseModule(object): def __init__(self, bot: "IRCBot.Bot", events: EventManager.EventHook, exports: Exports.Exports, timers: Timers.Timers, log: Logging.Log): self.bot = bot self.events = events self.exports = exports self.timers = timers self.log = log self.on_load() def on_load(self): pass def unload(self): pass def command_line(self, args: str): pass class ModuleDefinition(object): def __init__(self, name: str, filename: str, type: ModuleType, hashflags: typing.List[typing.Tuple[str, typing.Optional[str]]]): self.name = name self.filename = filename self.type = type self.hashflags = hashflags def get_dependencies(self): dependencies = [] for key, value in self.hashflags: if key == "depends-on": dependencies.append(value) return sorted(dependencies) class LoadedModule(object): def __init__(self, name: str, module: BaseModule, context: str, import_name: str): self.name = name self.module = module self.context = context self.import_name = import_name class ModuleManager(object): def __init__(self, events: EventManager.EventHook, exports: Exports.Exports, timers: Timers.Timers, config: Config.Config, log: Logging.Log, directory: str): self.events = events self.exports = exports self.config = config self.timers = timers self.log = log self.directory = directory self.modules = {} # type: typing.Dict[str, LoadedModule] def list_modules(self) -> typing.List[ModuleDefinition]: modules = [] for file_module in glob.glob(os.path.join(self.directory, "*.py")): modules.append(self.define_module(ModuleType.FILE, file_module)) for directory_module in glob.glob(os.path.join( self.directory, "*", "__init__.py")): modules.append(self.define_module(ModuleType.DIRECTORY, directory_module)) return sorted(modules, key=lambda module: module.name) def define_module(self, type: ModuleType, filename: str ) -> ModuleDefinition: if type == ModuleType.DIRECTORY: name = os.path.dirname(filename) else: name = filename name = self._module_name(name) return ModuleDefinition(name, filename, type, utils.parse.hashflags(filename)) def find_module(self, name: str) -> ModuleDefinition: type = ModuleType.FILE path = self._module_path(name) if os.path.isdir(path): type = ModuleType.DIRECTORY path = os.path.join(path, "__init__.py") else: path = "%s.py" % path return self.define_module(type, path) def _module_name(self, path: str) -> str: return os.path.basename(path).rsplit(".py", 1)[0].lower() def _module_path(self, name: str) -> str: return os.path.join(self.directory, name) def _import_name(self, name: str) -> str: return "bitbot_%s" % name def from_context(self, context: str) -> typing.Optional[LoadedModule]: for module in self.modules.values(): if module.context == context: return module return None def from_name(self, name: str) -> typing.Optional[LoadedModule]: name_lower = name.lower() for module in self.modules.values(): if module.name.lower() == name_lower: return module return None def _get_magic(self, obj: typing.Any, magic: str, default: typing.Any ) -> typing.Any: return getattr(obj, magic) if hasattr(obj, magic) else default def _load_module(self, bot: "IRCBot.Bot", definition: ModuleDefinition, check_dependency: bool=True) -> LoadedModule: if check_dependency: dependencies = definition.get_dependencies() for dependency in dependencies: if not dependency in self.modules: raise ModuleDependencyNotFulfilled(definition.name, dependency) for hashflag, value in definition.hashflags: if hashflag == "ignore": # nope, ignore this module. raise ModuleNotLoadedWarning("module ignored") elif hashflag == "require-config" and value: if not self.config.get(value.lower(), None): # nope, required config option not present. raise ModuleNotLoadedWarning("required config not present") import_name = self._import_name(definition.name) import_spec = importlib.util.spec_from_file_location(import_name, definition.filename) module = importlib.util.module_from_spec(import_spec) sys.modules[import_name] = module loader = typing.cast(importlib.abc.Loader, import_spec.loader) loader.exec_module(module) module_object_pointer = getattr(module, "Module", None) if not module_object_pointer: raise ModuleLoadException("module '%s' doesn't have a " "'Module' class." % definition.name) if not inspect.isclass(module_object_pointer): raise ModuleLoadException("module '%s' has a 'Module' attribute " "but it is not a class." % definition.name) context = str(uuid.uuid4()) context_events = self.events.new_context(context) context_exports = self.exports.new_context(context) context_timers = self.timers.new_context(context) module_object = module_object_pointer(bot, context_events, context_exports, context_timers, self.log) if not hasattr(module_object, "_name"): module_object._name = definition.name.title() for attribute_name in dir(module_object): attribute = getattr(module_object, attribute_name) for hook in self._get_magic(attribute, utils.consts.BITBOT_HOOKS_MAGIC, []): context_events.on(hook["event"]).hook(attribute, **hook["kwargs"]) for export in self._get_magic(module_object, utils.consts.BITBOT_EXPORTS_MAGIC, []): context_exports.add(export["setting"], export["value"]) if definition.name in self.modules: raise ModuleNameCollisionException("Module name '%s' " "attempted to be used twice" % definition.name) return LoadedModule(definition.name, module_object, context, import_name) def load_module(self, bot: "IRCBot.Bot", definition: ModuleDefinition ) -> LoadedModule: try: loaded_module = self._load_module(bot, definition, check_dependency=False) except ModuleWarning as warning: self.log.warn("Module '%s' not loaded", [definition.name]) raise except Exception as e: self.log.error("Failed to load module \"%s\": %s", [definition.name, str(e)]) raise self.modules[loaded_module.name] = loaded_module self.log.debug("Module '%s' loaded", [loaded_module.name]) return loaded_module def _dependency_sort(self, definitions: typing.List[ModuleDefinition]): definitions_ordered = [] definition_names = {d.name: d for d in definitions} definition_dependencies = { d.name: d.get_dependencies() for d in definitions} for name, deps in definition_dependencies.items(): for dep in deps: if not dep in definition_dependencies: # unknown dependency! raise ModuleDependencyNotFulfilled(name, dep) while definition_dependencies: changed = False to_remove = [] for name, dependencies in definition_dependencies.items(): if not dependencies: changed = True # pop things with no unfufilled dependencies to_remove.append(name) for name in to_remove: definitions_ordered.append(name) del definition_dependencies[name] for deps in definition_dependencies.values(): if name in deps: changed = True # fulfill dependencies for things we just popped deps.remove(name) if not changed: for name, deps in definition_dependencies.items(): for dep_name in deps: if name in definition_dependencies[dep_name]: self.log.warn( "Direct circular dependency detected: %s<->%s", [name, dep_name]) changed = True # snap a circular dependence deps.remove(dep_name) definition_dependencies[dep_name].remove(name) if not changed: raise ModuleCircularDependency() return [definition_names[name] for name in definitions_ordered] def load_modules(self, bot: "IRCBot.Bot", whitelist: typing.List[str]=[], blacklist: typing.List[str]=[], safe: bool=False ) -> typing.Tuple[typing.List[str], typing.List[str]]: fail = [] success = [] module_definitions = self._dependency_sort(self.list_modules()) for definition in module_definitions: if definition.name in whitelist or ( not whitelist and not definition.name in blacklist): try: self.load_module(bot, definition) except ModuleWarning: fail.append(definition.name) continue except Exception as e: if safe: fail.append(definition.name) continue else: raise success.append(definition.name) return success, fail def unload_module(self, name: str): if not name in self.modules: raise ModuleNotFoundException() loaded_module = self.modules[name] if hasattr(loaded_module.module, "unload"): try: loaded_module.module.unload() except: pass del self.modules[loaded_module.name] context = loaded_module.context self.events.purge_context(context) self.exports.purge_context(context) self.timers.purge_context(context) module = loaded_module.module del loaded_module.module del sys.modules[loaded_module.import_name] namespace = "%s." % loaded_module.import_name for import_name in list(sys.modules.keys()): if import_name.startswith(namespace): del sys.modules[import_name] references = sys.getrefcount(module) referrers = gc.get_referrers(module) del module references -= 1 # 'del module' removes one reference references -= 1 # one of the refs is from getrefcount self.log.debug("Module '%s' unloaded (%d reference%s)", [loaded_module.name, references, "" if references == 1 else "s"]) if references > 0: self.log.debug("References left for '%s': %s", [loaded_module.name, ", ".join([str(referrer) for referrer in referrers])])