import enum, queue, os, queue, select, socket, threading, time, traceback import typing, uuid from src import EventManager, Exports, IRCServer, Logging, ModuleManager from src import Socket, utils VERSION = "v1.9.2" SOURCE = "https://git.io/bitbot" class TriggerResult(enum.Enum): Return = 1 Exception = 2 class TriggerEventType(enum.Enum): Action = 1 Kill = 2 class TriggerEvent(object): def __init__(self, type: TriggerEventType, callback: typing.Callable[[], None]=None): self.type = type self.callback = callback class Bot(object): def __init__(self, directory, args, cache, config, database, events, exports, log, modules, timers): self.directory = directory self.args = args self.cache = cache self.config = config self.database = database self._events = events self._exports = exports self.log = log self.modules = modules self._timers = timers self.start_time = time.time() self.running = True self.servers = {} self._event_queue = queue.Queue() # type: typing.Queue[TriggerEvent] self._read_poll = select.poll() self._write_poll = select.poll() self._rtrigger_server, self._rtrigger_client = socket.socketpair() self._read_poll.register(self._rtrigger_server.fileno(), select.POLLIN) self._rtrigger_lock = threading.Lock() self._rtriggered = False self._write_condition = threading.Condition() self._read_thread = None self._write_thread = None self._events.on("timer.reconnect").hook(self._timed_reconnect) def _trigger_both(self): self.trigger_read() self.trigger_write() def trigger_read(self): with self._rtrigger_lock: if not self._rtriggered: self._rtriggered = True self._rtrigger_client.send(b"TRIGGER") def trigger_write(self): with self._write_condition: self._write_condition.notify() def trigger(self, func: typing.Optional[typing.Callable[[], typing.Any]]=None, trigger_threads=True) -> typing.Any: func = func or (lambda: None) if utils.is_main_thread(): returned = func() if trigger_threads: self._trigger_both() return returned func_queue = queue.Queue(1) # type: queue.Queue[str] def _action(): try: returned = func() type = TriggerResult.Return except Exception as e: returned = e type = TriggerResult.Exception func_queue.put([type, returned]) event_item = TriggerEvent(TriggerEventType.Action, _action) self._event_queue.put(event_item) type, returned = func_queue.get(block=True) if trigger_threads: self._trigger_both() if type == TriggerResult.Exception: raise returned elif type == TriggerResult.Return: return returned def load_modules(self, safe: bool=False ) -> typing.Tuple[typing.List[str], typing.List[str]]: db_blacklist = set(self.get_setting("module-blacklist", [])) db_whitelist = set(self.get_setting("module-whitelist", [])) conf_blacklist = self.config.get("module-blacklist", "").split(",") conf_whitelist = self.config.get("module-whitelist", "").split(",") conf_blacklist = set(filter(None, conf_blacklist)) conf_whitelist = set(filter(None, conf_whitelist)) blacklist = db_blacklist|conf_blacklist whitelist = db_whitelist|conf_whitelist return self.modules.load_modules(self, whitelist=whitelist, blacklist=blacklist, safe=safe) def add_server(self, server_id: int, connect: bool = True, connection_param_args: typing.Dict[str, str]={} ) -> IRCServer.Server: connection_params = utils.irc.IRCConnectionParameters( *self.database.servers.get(server_id)) connection_params.args = connection_param_args new_server = IRCServer.Server(self, self._events, connection_params.id, connection_params.alias, connection_params) self._events.on("new.server").call(server=new_server) if not connect: return new_server self.connect(new_server) return new_server def get_server_by_id(self, id: int) -> typing.Optional[IRCServer.Server]: for server in self.servers.values(): if server.id == id: return server return None def get_server_by_alias(self, alias: str) -> typing.Optional[IRCServer.Server]: alias_lower = alias.lower() for server in self.servers.values(): if server.alias.lower() == alias_lower: return server return None def connect(self, server: IRCServer.Server) -> bool: try: server.connect() except Exception as e: self.log.warn("Failed to connect to %s: %s", [str(server), str(e)]) return False self.servers[server.fileno()] = server self._read_poll.register(server.fileno(), select.POLLIN) return True def next_send(self) -> typing.Optional[float]: next = None for server in self.servers.values(): timeout = server.socket.send_throttle_timeout() if (server.socket.waiting_throttled_send() and (next == None or timeout < next)): next = timeout return next def next_ping(self) -> typing.Optional[float]: timeouts = [] for server in self.servers.values(): timeout = server.until_next_ping() if not timeout == None: timeouts.append(timeout) if not timeouts: return None return min(timeouts) def next_read_timeout(self) -> typing.Optional[float]: timeouts = [] for server in self.servers.values(): timeouts.append(server.until_read_timeout()) if not timeouts: return None return min(timeouts) def get_poll_timeout(self) -> float: timeouts = [] timeouts.append(self._timers.next()) timeouts.append(self.next_send()) timeouts.append(self.next_ping()) timeouts.append(self.next_read_timeout()) timeouts.append(self.cache.next_expiration()) min_secs = min([timeout for timeout in timeouts if not timeout == None]) return min_secs*1000 # return milliseconds def disconnect(self, server: IRCServer.Server): del self.servers[server.fileno()] self._trigger_both() def _timed_reconnect(self, event: EventManager.Event): if not self.reconnect(event["server_id"], event.get("connection_params", None)): event["timer"].redo() def reconnect(self, server_id: int, connection_params: typing.Optional[ utils.irc.IRCConnectionParameters]=None) -> bool: args = {} # type: typing.Dict[str, str] if not connection_params == None: args = typing.cast(utils.irc.IRCConnectionParameters, connection_params).args server = self.add_server(server_id, False, args) if self.connect(server): self.servers[server.fileno()] = server return True return False def set_setting(self, setting: str, value: typing.Any): self.database.bot_settings.set(setting, value) def get_setting(self, setting: str, default: typing.Any=None) -> typing.Any: return self.database.bot_settings.get(setting, default) def find_settings(self, pattern: str, default: typing.Any=[] ) -> typing.List[typing.Any]: return self.database.bot_settings.find(pattern, default) def find_settings_prefix(self, prefix: str, default: typing.Any=[] ) -> typing.List[typing.Any]: return self.database.bot_settings.find_prefix( prefix, default) def del_setting(self, setting: str): self.database.bot_settings.delete(setting) def _daemon_thread(self, target: typing.Callable[[], None]): thread = threading.Thread(target=target) thread.daemon = True thread.start() return thread def run(self): self._read_thread = self._daemon_thread( lambda: self._loop_catch(self._read_loop)) self._write_thread = self._daemon_thread( lambda: self._loop_catch(self._write_loop)) self._event_loop() def _kill(self): self.running = False self._trigger_both() def _event_loop(self): while self.running or not self._event_queue.empty(): if not self.servers: self._kill() kill = False item = self._event_queue.get(block=True, timeout=None) if item.type == TriggerEventType.Action: try: item.callback() except: self._kill() raise elif item.type == TriggerEventType.Kill: self._kill() def _post_send_factory(self, server, lines): return lambda: server._post_send(lines) def _post_read_factory(self, server, lines): return lambda: server._post_read(lines) def _loop_catch(self, loop: typing.Callable[[], None]): try: loop() except: self._event_queue.put(TriggerEvent(TriggerEventType.Kill)) raise def _write_loop(self): while self.running: with self._write_condition: writeable = False for fd, server in self.servers.items(): if server.socket.waiting_immediate_send(): self._write_poll.register(fd, select.POLLOUT) writeable = True if not writeable: self._write_condition.wait() continue events = self._write_poll.poll() for fd, event in events: if event & select.POLLOUT: self._write_poll.unregister(fd) if fd in self.servers: server = self.servers[fd] try: lines = server._send() except: self.log.error("Failed to write to %s", [str(server)]) raise event_item = TriggerEvent(TriggerEventType.Action, self._post_send_factory(server, lines)) self._event_queue.put(event_item) def _read_loop(self): while self.running: events = self._read_poll.poll(self.get_poll_timeout()) self.trigger(self._check, False) for fd, event in events: if fd == self._rtrigger_server.fileno(): # throw away data from trigger socket with self._rtrigger_lock: self._rtrigger_server.recv(1024) self._rtriggered = False else: if not fd in self.servers: self._read_poll.unregister(fd) continue server = self.servers[fd] if event & select.POLLIN: lines = server.read() if lines == None: server.disconnect() continue self.trigger(self._post_read_factory(server, lines), False) elif event & select.POLLHUP: self.log.warn("Recieved POLLHUP for %s", [str(server)]) server.disconnect() def _check(self): self._timers.call() self.cache.expire() throttle_filled = False for server in list(self.servers.values()): if server.read_timed_out(): self.log.warn("Pinged out from %s", [str(server)]) server.disconnect() elif server.ping_due() and not server.ping_sent: server.send_ping() server.ping_sent = True if not server.socket.connected: self._events.on("server.disconnect").call(server=server) self.disconnect(server) if not self.get_server_by_id(server.id): reconnect_delay = self.config.get("reconnect-delay", 10) self._timers.add("reconnect", reconnect_delay, server_id=server.id) self.log.warn( "Disconnected from %s, reconnecting in %d seconds", [str(server), reconnect_delay]) elif (server.socket.waiting_throttled_send() and server.socket.throttle_done()): server.socket._fill_throttle() throttle_filled = True if throttle_filled: self.trigger_write()