from __future__ import annotations import argparse import asyncio import functools import logging import zlib import collections import typing import inspect import weakref import datetime import threading import random import pickle import ModuleUpdate import NetUtils ModuleUpdate.update() import websockets import colorama import prompt_toolkit from prompt_toolkit.patch_stdout import patch_stdout from fuzzywuzzy import process as fuzzy_process from worlds.AutoWorld import AutoWorldRegister proxy_worlds = {name: world(None, 0) for name, world in AutoWorldRegister.world_types.items()} from worlds import network_data_package, lookup_any_item_id_to_name, lookup_any_location_id_to_name import Utils from Utils import get_item_name_from_id, get_location_name_from_id, \ version_tuple, restricted_loads, Version from NetUtils import Endpoint, ClientStatus, NetworkItem, decode, encode, NetworkPlayer colorama.init() class Client(Endpoint): version = Version(0, 0, 0) tags: typing.List[str] = [] def __init__(self, socket: websockets.WebSocketServerProtocol, ctx: Context): super().__init__(socket) self.auth = False self.name = None self.team = None self.slot = None self.send_index = 0 self.tags = [] self.messageprocessor = client_message_processor(ctx, self) self.ctx = weakref.ref(ctx) team_slot = typing.Tuple[int, int] class Context: dumper = staticmethod(encode) loader = staticmethod(decode) simple_options = {"hint_cost": int, "location_check_points": int, "server_password": str, "password": str, "forfeit_mode": str, "remaining_mode": str, "item_cheat": bool, "compatibility": int} def __init__(self, host: str, port: int, server_password: str, password: str, location_check_points: int, hint_cost: int, item_cheat: bool, forfeit_mode: str = "disabled", remaining_mode: str = "disabled", auto_shutdown: typing.SupportsFloat = 0, compatibility: int = 2, log_network: bool = False): super(Context, self).__init__() self.log_network = log_network self.endpoints = [] self.compatibility: int = compatibility self.shutdown_task = None self.data_filename = None self.save_filename = None self.saving = False self.player_names: typing.Dict[team_slot, str] = {} self.player_name_lookup: typing.Dict[str, team_slot] = {} self.connect_names = {} # names of slots clients can connect to self.allow_forfeits = {} self.remote_items = set() self.remote_start_inventory = set() self.locations: typing.Dict[int, typing.Dict[int, typing.Tuple[int, int]]] = {} self.host = host self.port = port self.server_password = server_password self.password = password self.server = None self.countdown_timer = 0 self.received_items = {} self.name_aliases: typing.Dict[team_slot, str] = {} self.location_checks = collections.defaultdict(set) self.hint_cost = hint_cost self.location_check_points = location_check_points self.hints_used = collections.defaultdict(int) self.hints: typing.Dict[team_slot, typing.Set[NetUtils.Hint]] = collections.defaultdict(set) self.forfeit_mode: str = forfeit_mode self.remaining_mode: str = remaining_mode self.item_cheat = item_cheat self.running = True self.client_activity_timers: typing.Dict[ team_slot, datetime.datetime] = {} # datetime of last new item check self.client_connection_timers: typing.Dict[ team_slot, datetime.datetime] = {} # datetime of last connection self.client_game_state: typing.Dict[team_slot, int] = collections.defaultdict(int) self.er_hint_data: typing.Dict[int, typing.Dict[int, str]] = {} self.auto_shutdown = auto_shutdown self.commandprocessor = ServerCommandProcessor(self) self.embedded_blacklist = {"host", "port"} self.client_ids: typing.Dict[typing.Tuple[int, int], datetime.datetime] = {} self.auto_save_interval = 60 # in seconds self.auto_saver_thread = None self.save_dirty = False self.tags = ['AP'] self.games: typing.Dict[int, str] = {} self.minimum_client_versions: typing.Dict[int, Utils.Version] = {} self.seed_name = "" self.random = random.Random() # General networking async def send_msgs(self, endpoint: Endpoint, msgs: typing.Iterable[dict]) -> bool: if not endpoint.socket or not endpoint.socket.open: return False msg = self.dumper(msgs) try: await endpoint.socket.send(msg) except websockets.ConnectionClosed: logging.exception(f"Exception during send_msgs, could not send {msg}") await self.disconnect(endpoint) else: if self.log_network: logging.info(f"Outgoing message: {msg}") return True async def send_encoded_msgs(self, endpoint: Endpoint, msg: str) -> bool: if not endpoint.socket or not endpoint.socket.open: return False try: await endpoint.socket.send(msg) except websockets.ConnectionClosed: logging.exception("Exception during send_encoded_msgs") await self.disconnect(endpoint) else: if self.log_network: logging.info(f"Outgoing message: {msg}") return True async def broadcast_send_encoded_msgs(self, endpoints: typing.Iterable[Endpoint], msg: str) -> bool: sockets = [] for endpoint in endpoints: if endpoint.socket and endpoint.socket.open: sockets.append(endpoint.socket) try: websockets.broadcast(sockets, msg) except RuntimeError: logging.exception("Exception during broadcast_send_encoded_msgs") else: if self.log_network: logging.info(f"Outgoing broadcast: {msg}") return True def broadcast_all(self, msgs): msgs = self.dumper(msgs) endpoints = (endpoint for endpoint in self.endpoints if endpoint.auth) asyncio.create_task(self.broadcast_send_encoded_msgs(endpoints, msgs)) def broadcast_team(self, team: int, msgs): msgs = self.dumper(msgs) endpoints = (endpoint for endpoint in self.endpoints if endpoint.auth and endpoint.team == team) asyncio.create_task(self.broadcast_send_encoded_msgs(endpoints, msgs)) def broadcast(self, endpoints: typing.Iterable[Endpoint], msgs): msgs = self.dumper(msgs) asyncio.create_task(self.broadcast_send_encoded_msgs(endpoints, msgs)) async def disconnect(self, endpoint): if endpoint in self.endpoints: self.endpoints.remove(endpoint) await on_client_disconnected(self, endpoint) # text def notify_all(self, text): logging.info("Notice (all): %s" % text) self.broadcast_all([{"cmd": "Print", "text": text}]) def notify_client(self, client: Client, text: str): if not client.auth: return logging.info("Notice (Player %s in team %d): %s" % (client.name, client.team + 1, text)) asyncio.create_task(self.send_msgs(client, [{"cmd": "Print", "text": text}])) def notify_client_multiple(self, client: Client, texts: typing.List[str]): if not client.auth: return asyncio.create_task(self.send_msgs(client, [{"cmd": "Print", "text": text} for text in texts])) # loading def load(self, multidatapath: str, use_embedded_server_options: bool = False): if multidatapath.lower().endswith(".zip"): import zipfile with zipfile.ZipFile(multidatapath) as zf: for file in zf.namelist(): if file.endswith(".archipelago"): data = zf.read(file) break else: raise Exception("No .archipelago found in archive.") else: with open(multidatapath, 'rb') as f: data = f.read() self._load(self._decompress(data), use_embedded_server_options) self.data_filename = multidatapath @staticmethod def _decompress(data: bytes) -> dict: format_version = data[0] if format_version != 1: raise Exception("Incompatible multidata.") return restricted_loads(zlib.decompress(data[1:])) def _load(self, decoded_obj: dict, use_embedded_server_options: bool): mdata_ver = decoded_obj["minimum_versions"]["server"] if mdata_ver > Utils.version_tuple: raise RuntimeError(f"Supplied Multidata (.archipelago) requires a server of at least version {mdata_ver}," f"however this server is of version {Utils.version_tuple}") clients_ver = decoded_obj["minimum_versions"].get("clients", {}) self.minimum_client_versions = {} for player, version in clients_ver.items(): self.minimum_client_versions[player] = Utils.Version(*version) for team, names in enumerate(decoded_obj['names']): for player, name in enumerate(names, 1): self.player_names[team, player] = name self.player_name_lookup[name] = team, player self.seed_name = decoded_obj["seed_name"] self.random.seed(self.seed_name) self.connect_names = decoded_obj['connect_names'] self.remote_items = decoded_obj['remote_items'] self.remote_start_inventory = decoded_obj.get('remote_start_inventory', decoded_obj['remote_items']) self.locations = decoded_obj['locations'] self.slot_data = decoded_obj['slot_data'] self.er_hint_data = {int(player): {int(address): name for address, name in loc_data.items()} for player, loc_data in decoded_obj["er_hint_data"].items()} self.games = decoded_obj["games"] # award remote-items start inventory: for team in range(len(decoded_obj['names'])): for slot, item_codes in decoded_obj["precollected_items"].items(): if slot in self.remote_start_inventory: self.received_items[team, slot] = [NetworkItem(item_code, -2, 0) for item_code in item_codes] for slot, hints in decoded_obj["precollected_hints"].items(): self.hints[team, slot].update(hints) if use_embedded_server_options: server_options = decoded_obj.get("server_options", {}) self._set_options(server_options) # saving def save(self, now=False) -> bool: if self.saving: if now: self.save_dirty = False return self._save() self.save_dirty = True return True return False def _save(self, exit_save: bool = False) -> bool: try: encoded_save = pickle.dumps(self.get_save()) with open(self.save_filename, "wb") as f: f.write(zlib.compress(encoded_save)) except Exception as e: logging.exception(e) return False else: return True def init_save(self, enabled: bool = True): self.saving = enabled if self.saving: if not self.save_filename: import os name, ext = os.path.splitext(self.data_filename) self.save_filename = name + '.apsave' if ext.lower() in ('.archipelago','.zip') \ else self.data_filename + '_' + 'apsave' try: with open(self.save_filename, 'rb') as f: save_data = restricted_loads(zlib.decompress(f.read())) self.set_save(save_data) except FileNotFoundError: logging.error('No save data found, starting a new game') except Exception as e: logging.exception(e) self._start_async_saving() def _start_async_saving(self): if not self.auto_saver_thread: def save_regularly(): import time while self.running: time.sleep(self.auto_save_interval) if self.save_dirty: logging.debug("Saving via thread.") self.save_dirty = False self._save() self.auto_saver_thread = threading.Thread(target=save_regularly, daemon=True) self.auto_saver_thread.start() import atexit atexit.register(self._save, True) # make sure we save on exit too def get_save(self) -> dict: self.recheck_hints() d = { "connect_names": self.connect_names, "received_items": self.received_items, "hints_used": dict(self.hints_used), "hints": dict(self.hints), "location_checks": dict(self.location_checks), "name_aliases": self.name_aliases, "client_game_state": dict(self.client_game_state), "client_activity_timers": tuple( (key, value.timestamp()) for key, value in self.client_activity_timers.items()), "client_connection_timers": tuple( (key, value.timestamp()) for key, value in self.client_connection_timers.items()), "random_state": self.random.getstate() } return d def set_save(self, savedata: dict): if self.connect_names != savedata["connect_names"]: raise Exception("This savegame does not appear to match the loaded multiworld.") self.received_items = savedata["received_items"] self.hints_used.update(savedata["hints_used"]) self.hints.update(savedata["hints"]) self.name_aliases.update(savedata["name_aliases"]) self.client_game_state.update(savedata["client_game_state"]) self.client_connection_timers.update( {tuple(key): datetime.datetime.fromtimestamp(value, datetime.timezone.utc) for key, value in savedata["client_connection_timers"]}) self.client_activity_timers.update( {tuple(key): datetime.datetime.fromtimestamp(value, datetime.timezone.utc) for key, value in savedata["client_activity_timers"]}) self.location_checks.update(savedata["location_checks"]) if "random_state" in savedata: self.random.setstate(savedata["random_state"]) logging.info(f'Loaded save file with {sum([len(p) for p in self.received_items.values()])} received items ' f'for {len(self.received_items)} players') # rest def get_hint_cost(self, slot): if self.hint_cost: return max(0, int(self.hint_cost * 0.01 * len(self.locations[slot]))) return 0 def recheck_hints(self): for team, slot in self.hints: self.hints[team, slot] = { hint.re_check(self, team) for hint in self.hints[team, slot] } def get_players_package(self): return [NetworkPlayer(t, p, self.get_aliased_name(t, p), n) for (t, p), n in self.player_names.items()] def _set_options(self, server_options: dict): for key, value in server_options.items(): data_type = self.simple_options.get(key, None) if data_type is not None: if value not in {False, True, None}: # some can be boolean OR text, such as password try: value = data_type(value) except Exception as e: try: raise Exception(f"Could not set server option {key}, skipping.") from e except Exception as e: logging.exception(e) logging.debug(f"Setting server option {key} to {value} from supplied multidata") setattr(self, key, value) elif key == "disable_item_cheat": self.item_cheat = not bool(value) else: logging.debug(f"Unrecognized server option {key}") def get_aliased_name(self, team: int, slot: int): if (team, slot) in self.name_aliases: return f"{self.name_aliases[team, slot]} ({self.player_names[team, slot]})" else: return self.player_names[team, slot] def notify_hints(ctx: Context, team: int, hints: typing.List[NetUtils.Hint]): concerns = collections.defaultdict(list) for hint in hints: net_msg = hint.as_network_message() concerns[hint.receiving_player].append(net_msg) if not hint.local: concerns[hint.finding_player].append(net_msg) for text in (format_hint(ctx, team, hint) for hint in hints): logging.info("Notice (Team #%d): %s" % (team + 1, text)) for client in ctx.endpoints: if client.auth and client.team == team: client_hints = concerns[client.slot] if client_hints: asyncio.create_task(ctx.send_msgs(client, client_hints)) def update_aliases(ctx: Context, team: int, client: typing.Optional[Client] = None): cmd = ctx.dumper([{"cmd": "RoomUpdate", "players": ctx.get_players_package()}]) if client is None: for client in ctx.endpoints: if client.team == team and client.auth: asyncio.create_task(ctx.send_encoded_msgs(client, cmd)) else: asyncio.create_task(ctx.send_encoded_msgs(client, cmd)) async def server(websocket, path, ctx: Context): client = Client(websocket, ctx) ctx.endpoints.append(client) try: if ctx.log_network: logging.info("Incoming connection") await on_client_connected(ctx, client) if ctx.log_network: logging.info("Sent Room Info") async for data in websocket: if ctx.log_network: logging.info(f"Incoming message: {data}") for msg in decode(data): await process_client_cmd(ctx, client, msg) except Exception as e: if not isinstance(e, websockets.WebSocketException): logging.exception(e) finally: if ctx.log_network: logging.info("Disconnected") await ctx.disconnect(client) async def on_client_connected(ctx: Context, client: Client): await ctx.send_msgs(client, [{ 'cmd': 'RoomInfo', 'password': ctx.password is not None, 'players': [ NetworkPlayer(client.team, client.slot, ctx.name_aliases.get((client.team, client.slot), client.name), client.name) for client in ctx.endpoints if client.auth], # tags are for additional features in the communication. # Name them by feature or fork, as you feel is appropriate. 'tags': ctx.tags, 'version': Utils.version_tuple, 'forfeit_mode': ctx.forfeit_mode, 'remaining_mode': ctx.remaining_mode, 'hint_cost': ctx.hint_cost, 'location_check_points': ctx.location_check_points, 'datapackage_version': network_data_package["version"], 'datapackage_versions': {game: game_data["version"] for game, game_data in network_data_package["games"].items()}, 'seed_name': ctx.seed_name }]) async def on_client_disconnected(ctx: Context, client: Client): if client.auth: await on_client_left(ctx, client) async def on_client_joined(ctx: Context, client: Client): update_client_status(ctx, client, ClientStatus.CLIENT_CONNECTED) version_str = '.'.join(str(x) for x in client.version) ctx.notify_all( f"{ctx.get_aliased_name(client.team, client.slot)} (Team #{client.team + 1}) " f"playing {ctx.games[client.slot]} has joined. " f"Client({version_str}), {client.tags}).") # TODO: remove with 0.2 if client.version < Version(0, 1, 7): ctx.notify_client(client, "Warning: Your client's datapackage handling may be unsupported soon. (Version < 0.1.7)") ctx.client_connection_timers[client.team, client.slot] = datetime.datetime.now(datetime.timezone.utc) async def on_client_left(ctx: Context, client: Client): update_client_status(ctx, client, ClientStatus.CLIENT_UNKNOWN) ctx.notify_all( "%s (Team #%d) has left the game" % (ctx.get_aliased_name(client.team, client.slot), client.team + 1)) ctx.client_connection_timers[client.team, client.slot] = datetime.datetime.now(datetime.timezone.utc) async def countdown(ctx: Context, timer): ctx.notify_all(f'[Server]: Starting countdown of {timer}s') if ctx.countdown_timer: ctx.countdown_timer = timer # timer is already running, set it to a different time else: ctx.countdown_timer = timer while ctx.countdown_timer > 0: ctx.notify_all(f'[Server]: {ctx.countdown_timer}') ctx.countdown_timer -= 1 await asyncio.sleep(1) ctx.notify_all(f'[Server]: GO') ctx.countdown_timer = 0 def get_players_string(ctx: Context): auth_clients = {(c.team, c.slot) for c in ctx.endpoints if c.auth} player_names = sorted(ctx.player_names.keys()) current_team = -1 text = '' for team, slot in player_names: player_name = ctx.player_names[team, slot] if team != current_team: text += f':: Team #{team + 1}: ' current_team = team if (team, slot) in auth_clients: text += f'{player_name} ' else: text += f'({player_name}) ' return f'{len(auth_clients)} players of {len(ctx.player_names)} connected ' + text[:-1] def get_received_items(ctx: Context, team: int, player: int) -> typing.List[NetworkItem]: return ctx.received_items.setdefault((team, player), []) def send_new_items(ctx: Context): for client in ctx.endpoints: if client.auth: # can't send to disconnected client items = get_received_items(ctx, client.team, client.slot) if len(items) > client.send_index: asyncio.create_task(ctx.send_msgs(client, [{ "cmd": "ReceivedItems", "index": client.send_index, "items": items[client.send_index:]}])) client.send_index = len(items) def forfeit_player(ctx: Context, team: int, slot: int): # register any locations that are in the multidata all_locations = set(ctx.locations[slot]) ctx.notify_all("%s (Team #%d) has forfeited" % (ctx.player_names[(team, slot)], team + 1)) register_location_checks(ctx, team, slot, all_locations) def get_remaining(ctx: Context, team: int, slot: int) -> typing.List[int]: items = [] for location_id in ctx.locations[slot]: if location_id not in ctx.location_checks[team, slot]: items.append(ctx.locations[slot][location_id][0]) # item ID return sorted(items) def register_location_checks(ctx: Context, team: int, slot: int, locations: typing.Iterable[int]): new_locations = set(locations) - ctx.location_checks[team, slot] if new_locations: ctx.client_activity_timers[team, slot] = datetime.datetime.now(datetime.timezone.utc) for location in new_locations: if location in ctx.locations[slot]: item_id, target_player = ctx.locations[slot][location] new_item = NetworkItem(item_id, location, slot) if target_player != slot or slot in ctx.remote_items: get_received_items(ctx, team, target_player).append(new_item) logging.info('(Team #%d) %s sent %s to %s (%s)' % ( team + 1, ctx.player_names[(team, slot)], get_item_name_from_id(item_id), ctx.player_names[(team, target_player)], get_location_name_from_id(location))) info_text = json_format_send_event(new_item, target_player) ctx.broadcast_team(team, [info_text]) ctx.location_checks[team, slot] |= new_locations send_new_items(ctx) for client in ctx.endpoints: if client.team == team and client.slot == slot: asyncio.create_task(ctx.send_msgs(client, [{"cmd": "RoomUpdate", "hint_points": get_client_points(ctx, client)}])) ctx.save() def notify_team(ctx: Context, team: int, text: str): logging.info("Notice (Team #%d): %s" % (team + 1, text)) ctx.broadcast_team(team, [['Print', {"text": text}]]) def collect_hints(ctx: Context, team: int, slot: int, item: str) -> typing.List[NetUtils.Hint]: hints = [] seeked_item_id = proxy_worlds[ctx.games[slot]].item_name_to_id[item] for finding_player, check_data in ctx.locations.items(): for location_id, result in check_data.items(): item_id, receiving_player = result if receiving_player == slot and item_id == seeked_item_id: found = location_id in ctx.location_checks[team, finding_player] entrance = ctx.er_hint_data.get(finding_player, {}).get(location_id, "") hints.append(NetUtils.Hint(receiving_player, finding_player, location_id, item_id, found, entrance)) return hints def collect_hints_location(ctx: Context, team: int, slot: int, location: str) -> typing.List[NetUtils.Hint]: seeked_location: int = proxy_worlds[ctx.games[slot]].location_name_to_id[location] item_id, receiving_player = ctx.locations[slot].get(seeked_location, (None, None)) if item_id: found = seeked_location in ctx.location_checks[team, slot] entrance = ctx.er_hint_data.get(slot, {}).get(seeked_location, "") return [NetUtils.Hint(receiving_player, slot, seeked_location, item_id, found, entrance)] return [] def format_hint(ctx: Context, team: int, hint: NetUtils.Hint) -> str: text = f"[Hint]: {ctx.player_names[team, hint.receiving_player]}'s " \ f"{lookup_any_item_id_to_name[hint.item]} is " \ f"at {get_location_name_from_id(hint.location)} " \ f"in {ctx.player_names[team, hint.finding_player]}'s World" if hint.entrance: text += f" at {hint.entrance}" return text + (". (found)" if hint.found else ".") def json_format_send_event(net_item: NetworkItem, receiving_player: int): parts = [] NetUtils.add_json_text(parts, net_item.player, type=NetUtils.JSONTypes.player_id) if net_item.player == receiving_player: NetUtils.add_json_text(parts, " found their ") NetUtils.add_json_text(parts, net_item.item, type=NetUtils.JSONTypes.item_id) else: NetUtils.add_json_text(parts, " sent ") NetUtils.add_json_text(parts, net_item.item, type=NetUtils.JSONTypes.item_id) NetUtils.add_json_text(parts, " to ") NetUtils.add_json_text(parts, receiving_player, type=NetUtils.JSONTypes.player_id) NetUtils.add_json_text(parts, " (") NetUtils.add_json_text(parts, net_item.location, type=NetUtils.JSONTypes.location_id) NetUtils.add_json_text(parts, ")") return {"cmd": "PrintJSON", "data": parts, "type": "ItemSend", "receiving": receiving_player, "item": net_item} def get_intended_text(input_text: str, possible_answers) -> typing.Tuple[str, bool, str]: picks = fuzzy_process.extract(input_text, possible_answers, limit=2) if len(picks) > 1: dif = picks[0][1] - picks[1][1] if picks[0][1] == 100: return picks[0][0], True, "Perfect Match" elif picks[0][1] < 75: return picks[0][0], False, f"Didn't find something that closely matches, " \ f"did you mean {picks[0][0]}? ({picks[0][1]}% sure)" elif dif > 5: return picks[0][0], True, "Close Match" else: return picks[0][0], False, f"Too many close matches, did you mean {picks[0][0]}? ({picks[0][1]}% sure)" else: if picks[0][1] > 90: return picks[0][0], True, "Only Option Match" else: return picks[0][0], False, f"Did you mean {picks[0][0]}? ({picks[0][1]}% sure)" class CommandMeta(type): def __new__(cls, name, bases, attrs): commands = attrs["commands"] = {} for base in bases: commands.update(base.commands) commands.update({command_name[5:]: method for command_name, method in attrs.items() if command_name.startswith("_cmd_")}) return super(CommandMeta, cls).__new__(cls, name, bases, attrs) def mark_raw(function): function.raw_text = True return function class CommandProcessor(metaclass=CommandMeta): commands: typing.Dict[str, typing.Callable] client = None marker = "/" def output(self, text: str): print(text) def __call__(self, raw: str) -> typing.Optional[bool]: if not raw: return try: command = raw.split() basecommand = command[0] if basecommand[0] == self.marker: method = self.commands.get(basecommand[1:].lower(), None) if not method: self._error_unknown_command(basecommand[1:]) else: if getattr(method, "raw_text", False): # method is requesting unprocessed text data arg = raw.split(maxsplit=1) if len(arg) > 1: return method(self, arg[1]) # argument text was found, so pass it along else: return method(self) # argument may be optional, try running without args else: return method(self, *command[1:]) # pass each word as argument else: self.default(raw) except Exception as e: self._error_parsing_command(e) def get_help_text(self) -> str: s = "" for command, method in self.commands.items(): spec = inspect.signature(method).parameters argtext = "" for argname, parameter in spec.items(): if argname == "self": continue if isinstance(parameter.default, str): if not parameter.default: argname = f"[{argname}]" else: argname += "=" + parameter.default argtext += argname argtext += " " s += f"{self.marker}{command} {argtext}\n {method.__doc__}\n" return s def _cmd_help(self): """Returns the help listing""" self.output(self.get_help_text()) def _cmd_license(self): """Returns the licensing information""" license = getattr(CommandProcessor, "license", None) if not license: with open(Utils.local_path("LICENSE")) as f: CommandProcessor.license = f.read() self.output(CommandProcessor.license) def default(self, raw: str): self.output("Echo: " + raw) def _error_unknown_command(self, raw: str): self.output(f"Could not find command {raw}. Known commands: {', '.join(self.commands)}") def _error_parsing_command(self, exception: Exception): import traceback self.output(traceback.format_exc()) class CommonCommandProcessor(CommandProcessor): ctx: Context def _cmd_countdown(self, seconds: str = "10") -> bool: """Start a countdown in seconds""" try: timer = int(seconds, 10) except ValueError: timer = 10 asyncio.create_task(countdown(self.ctx, timer)) return True def _cmd_options(self): """List all current options. Warning: lists password.""" self.output("Current options:") for option in self.ctx.simple_options: if option == "server_password" and self.marker == "!": # Do not display the server password to the client. self.output(f"Option server_password is set to {('*' * random.randint(4, 16))}") else: self.output(f"Option {option} is set to {getattr(self.ctx, option)}") class ClientMessageProcessor(CommonCommandProcessor): marker = "!" def __init__(self, ctx: Context, client: Client): self.ctx = ctx self.client = client def __call__(self, raw: str) -> typing.Optional[bool]: if not raw.startswith("!admin"): self.ctx.notify_all(self.ctx.get_aliased_name(self.client.team, self.client.slot) + ': ' + raw) return super(ClientMessageProcessor, self).__call__(raw) def output(self, text): self.ctx.notify_client(self.client, text) def default(self, raw: str): pass # default is client sending just text def is_authenticated(self): return self.ctx.commandprocessor.client == self.client @mark_raw def _cmd_admin(self, command: str = ""): """Allow remote administration of the multiworld server""" output = f"!admin {command}" if output.lower().startswith( "!admin login"): # disallow others from seeing the supplied password, whether or not it is correct. output = f"!admin login {('*' * random.randint(4, 16))}" elif output.lower().startswith( "!admin /option server_password"): # disallow others from knowing what the new remote administration password is. output = f"!admin /option server_password {('*' * random.randint(4, 16))}" self.ctx.notify_all(self.ctx.get_aliased_name(self.client.team, self.client.slot) + ': ' + output) # Otherwise notify the others what is happening. if not self.ctx.server_password: self.output("Sorry, Remote administration is disabled") return False if not command: if self.is_authenticated(): self.output( "Usage: !admin [Server command].\nUse !admin /help for help.\nUse !admin logout to log out of the current session.") else: self.output("Usage: !admin login [password]") return True if command.startswith("login "): if command == f"login {self.ctx.server_password}": self.output("Login successful. You can now issue server side commands.") self.ctx.commandprocessor.client = self.client return True else: self.output("Password incorrect.") return False if not self.is_authenticated(): self.output("You must first login using !admin login [password]") return False if command == "logout": self.output("Logout successful. You can no longer issue server side commands.") self.ctx.commandprocessor.client = None return True return self.ctx.commandprocessor(command) def _cmd_players(self) -> bool: """Get information about connected and missing players""" if len(self.ctx.player_names) < 10: self.ctx.notify_all(get_players_string(self.ctx)) else: self.output(get_players_string(self.ctx)) return True def _cmd_forfeit(self) -> bool: """Surrender and send your remaining items out to their recipients""" if self.ctx.allow_forfeits.get((self.client.team, self.client.slot), False): forfeit_player(self.ctx, self.client.team, self.client.slot) return True if "enabled" in self.ctx.forfeit_mode: forfeit_player(self.ctx, self.client.team, self.client.slot) return True elif "disabled" in self.ctx.forfeit_mode: self.output( "Sorry, client forfeiting has been disabled on this server. You can ask the server admin for a /forfeit") return False else: # is auto or goal if self.ctx.client_game_state[self.client.team, self.client.slot] == ClientStatus.CLIENT_GOAL: forfeit_player(self.ctx, self.client.team, self.client.slot) return True else: self.output( "Sorry, client forfeiting requires you to have beaten the game on this server." " You can ask the server admin for a /forfeit") return False def _cmd_remaining(self) -> bool: """List remaining items in your game, but not their location or recipient""" if self.ctx.remaining_mode == "enabled": remaining_item_ids = get_remaining(self.ctx, self.client.team, self.client.slot) if remaining_item_ids: self.output("Remaining items: " + ", ".join(lookup_any_item_id_to_name.get(item_id, "unknown item") for item_id in remaining_item_ids)) else: self.output("No remaining items found.") return True elif self.ctx.remaining_mode == "disabled": self.output( "Sorry, !remaining has been disabled on this server.") return False else: # is goal if self.ctx.client_game_state[self.client.team, self.client.slot] == ClientStatus.CLIENT_GOAL: remaining_item_ids = get_remaining(self.ctx, self.client.team, self.client.slot) if remaining_item_ids: self.output("Remaining items: " + ", ".join(lookup_any_item_id_to_name.get(item_id, "unknown item") for item_id in remaining_item_ids)) else: self.output("No remaining items found.") return True else: self.output( "Sorry, !remaining requires you to have beaten the game on this server") return False def _cmd_missing(self) -> bool: """List all missing location checks from the server's perspective""" locations = get_missing_checks(self.ctx, self.client) if locations: texts = [f'Missing: {get_location_name_from_id(location)}' for location in locations] texts.append(f"Found {len(locations)} missing location checks") self.ctx.notify_client_multiple(self.client, texts) else: self.output("No missing location checks found.") return True @mark_raw def _cmd_alias(self, alias_name: str = ""): """Set your alias to the passed name.""" if alias_name: alias_name = alias_name[:16].strip() self.ctx.name_aliases[self.client.team, self.client.slot] = alias_name self.output(f"Hello, {alias_name}") update_aliases(self.ctx, self.client.team) self.ctx.save() return True elif (self.client.team, self.client.slot) in self.ctx.name_aliases: del (self.ctx.name_aliases[self.client.team, self.client.slot]) self.output("Removed Alias") update_aliases(self.ctx, self.client.team) self.ctx.save() return True return False @mark_raw def _cmd_getitem(self, item_name: str) -> bool: """Cheat in an item, if it is enabled on this server""" if self.ctx.item_cheat: world = proxy_worlds[self.ctx.games[self.client.slot]] item_name, usable, response = get_intended_text(item_name, world.item_names) if usable: new_item = NetworkItem(world.create_item(item_name).code, -1, self.client.slot) get_received_items(self.ctx, self.client.team, self.client.slot).append(new_item) self.ctx.notify_all( 'Cheat console: sending "' + item_name + '" to ' + self.ctx.get_aliased_name(self.client.team, self.client.slot)) send_new_items(self.ctx) return True else: self.output(response) return False else: self.output("Cheating is disabled.") return False @mark_raw def _cmd_hint(self, item_or_location: str = "") -> bool: """Use !hint {item_name/location_name}, for example !hint Lamp or !hint Link's House to get a spoiler peek for that location or item. If hint costs are on, this will only give you one new result, you can rerun the command to get more in that case.""" points_available = get_client_points(self.ctx, self.client) if not item_or_location: hints = {hint.re_check(self.ctx, self.client.team) for hint in self.ctx.hints[self.client.team, self.client.slot]} self.ctx.hints[self.client.team, self.client.slot] = hints notify_hints(self.ctx, self.client.team, list(hints)) self.output(f"A hint costs {self.ctx.get_hint_cost(self.client.slot)} points. " f"You have {points_available} points.") return True else: world = proxy_worlds[self.ctx.games[self.client.slot]] item_name, usable, response = get_intended_text(item_or_location, world.all_names) if usable: if item_name in world.hint_blacklist: self.output(f"Sorry, \"{item_name}\" is marked as non-hintable.") hints = [] elif item_name in world.item_name_groups: hints = [] for item in world.item_name_groups[item_name]: hints.extend(collect_hints(self.ctx, self.client.team, self.client.slot, item)) elif item_name in world.item_names: # item name hints = collect_hints(self.ctx, self.client.team, self.client.slot, item_name) else: # location name hints = collect_hints_location(self.ctx, self.client.team, self.client.slot, item_name) cost = self.ctx.get_hint_cost(self.client.slot) if hints: new_hints = set(hints) - self.ctx.hints[self.client.team, self.client.slot] old_hints = set(hints) - new_hints if old_hints: notify_hints(self.ctx, self.client.team, list(old_hints)) if not new_hints: self.output("Hint was previously used, no points deducted.") if new_hints: found_hints = [hint for hint in new_hints if hint.found] not_found_hints = [hint for hint in new_hints if not hint.found] if not not_found_hints: # everything's been found, no need to pay can_pay = 1000 elif cost: can_pay = int((points_available // cost) > 0) # limit to 1 new hint per call else: can_pay = 1000 self.ctx.random.shuffle(not_found_hints) hints = found_hints while can_pay > 0: if not not_found_hints: break hint = not_found_hints.pop() hints.append(hint) can_pay -= 1 self.ctx.hints_used[self.client.team, self.client.slot] += 1 if not hint.found: self.ctx.hints[self.client.team, hint.finding_player].add(hint) self.ctx.hints[self.client.team, hint.receiving_player].add(hint) if not_found_hints: if hints: self.output( "There may be more hintables, you can rerun the command to find more.") else: self.output(f"You can't afford the hint. " f"You have {points_available} points and need at least " f"{self.ctx.get_hint_cost(self.client.slot)}") notify_hints(self.ctx, self.client.team, hints) self.ctx.save() return True else: self.output("Nothing found. Item/Location may not exist.") return False else: self.output(response) return False def get_checked_checks(ctx: Context, client: Client) -> typing.List[int]: return [location_id for location_id in ctx.locations[client.slot] if location_id in ctx.location_checks[client.team, client.slot]] def get_missing_checks(ctx: Context, client: Client) -> typing.List[int]: return [location_id for location_id in ctx.locations[client.slot] if location_id not in ctx.location_checks[client.team, client.slot]] def get_client_points(ctx: Context, client: Client) -> int: return (ctx.location_check_points * len(ctx.location_checks[client.team, client.slot]) - ctx.get_hint_cost(client.slot) * ctx.hints_used[client.team, client.slot]) async def process_client_cmd(ctx: Context, client: Client, args: dict): try: cmd: str = args["cmd"] except: logging.exception(f"Could not get command from {args}") await ctx.send_msgs(client, [{'cmd': 'InvalidPacket', "type": "cmd", "text": f"Could not get command from {args} at `cmd`"}]) raise if type(cmd) is not str: await ctx.send_msgs(client, [{'cmd': 'InvalidPacket', "type": "cmd", "text": f"Command should be str, got {type(cmd)}"}]) return if cmd == 'Connect': if not args or 'password' not in args or type(args['password']) not in [str, type(None)] or \ 'game' not in args: await ctx.send_msgs(client, [{'cmd': 'InvalidPacket', "type": "arguments", 'text': 'Connect'}]) return errors = set() if ctx.password and args['password'] != ctx.password: errors.add('InvalidPassword') if args['name'] not in ctx.connect_names: logging.info((args["name"], ctx.connect_names)) errors.add('InvalidSlot') else: team, slot = ctx.connect_names[args['name']] game = ctx.games[slot] if "IgnoreGame" not in args["tags"] and args['game'] != game: errors.add('InvalidGame') # this can only ever be 0 or 1 elements clients = [c for c in ctx.endpoints if c.auth and c.slot == slot and c.team == team] if clients: # likely same player with a "ghosted" slot. We bust the ghost. if "uuid" in args and ctx.client_ids[team, slot] == args["uuid"]: await ctx.send_msgs(clients[0], [{"cmd": "Print", "text": "You are getting kicked " "by yourself reconnecting."}]) await clients[0].socket.close() # we have to await the DC of the ghost, so not to create data pasta client.name = ctx.player_names[(team, slot)] client.team = team client.slot = slot else: errors.add('SlotAlreadyTaken') else: client.name = ctx.player_names[(team, slot)] client.team = team client.slot = slot minver = ctx.minimum_client_versions[slot] if minver > args['version']: errors.add('IncompatibleVersion') # only exact version match allowed if ctx.compatibility == 0 and args['version'] != version_tuple: errors.add('IncompatibleVersion') if errors: logging.info(f"A client connection was refused due to: {errors}, the sent connect information was {args}.") await ctx.send_msgs(client, [{"cmd": "ConnectionRefused", "errors": list(errors)}]) else: ctx.client_ids[client.team, client.slot] = args["uuid"] client.auth = True client.version = args['version'] client.tags = args['tags'] reply = [{ "cmd": "Connected", "team": client.team, "slot": client.slot, "players": ctx.get_players_package(), "missing_locations": get_missing_checks(ctx, client), "checked_locations": get_checked_checks(ctx, client), # get is needed for old multidata that was sparsely populated "slot_data": ctx.slot_data.get(client.slot, {}) }] items = get_received_items(ctx, client.team, client.slot) if items: reply.append({"cmd": 'ReceivedItems', "index": 0, "items": items}) client.send_index = len(items) await ctx.send_msgs(client, reply) await on_client_joined(ctx, client) elif cmd == "GetDataPackage": exclusions = set(args.get("exclusions", [])) if exclusions: games = {name: game_data for name, game_data in network_data_package["games"].items() if name not in exclusions} package = network_data_package.copy() package["games"] = games await ctx.send_msgs(client, [{"cmd": "DataPackage", "data": package}]) else: await ctx.send_msgs(client, [{"cmd": "DataPackage", "data": network_data_package}]) elif client.auth: if cmd == 'Sync': items = get_received_items(ctx, client.team, client.slot) if items: client.send_index = len(items) await ctx.send_msgs(client, [{"cmd": "ReceivedItems", "index": 0, "items": items}]) elif cmd == 'LocationChecks': register_location_checks(ctx, client.team, client.slot, args["locations"]) elif cmd == 'LocationScouts': locs = [] for location in args["locations"]: if type(location) is not int or location not in lookup_any_location_id_to_name: await ctx.send_msgs(client, [{'cmd': 'InvalidPacket', "type": "arguments", "text": 'LocationScouts'}]) return target_item, target_player = ctx.locations[client.slot][location] locs.append(NetworkItem(target_item, location, target_player)) await ctx.send_msgs(client, [{'cmd': 'LocationInfo', 'locations': locs}]) elif cmd == 'StatusUpdate': update_client_status(ctx, client, args["status"]) elif cmd == 'Say': if "text" not in args or type(args["text"]) is not str or not args["text"].isprintable(): await ctx.send_msgs(client, [{'cmd': 'InvalidPacket', "type": "arguments", "text": 'Say'}]) return client.messageprocessor(args["text"]) elif cmd == "Bounce": games = set(args.get("games", [])) tags = set(args.get("tags", [])) slots = set(args.get("slots", [])) args["cmd"] = "Bounced" msg = ctx.dumper([args]) for bounceclient in ctx.endpoints: if client.team == bounceclient.team and (ctx.games[bounceclient.slot] in games or set(bounceclient.tags) & tags or bounceclient.slot in slots): await ctx.send_encoded_msgs(bounceclient, msg) def update_client_status(ctx: Context, client: Client, new_status: ClientStatus): current = ctx.client_game_state[client.team, client.slot] if current != ClientStatus.CLIENT_GOAL: # can't undo goal completion if new_status == ClientStatus.CLIENT_GOAL: finished_msg = f'{ctx.get_aliased_name(client.team, client.slot)} (Team #{client.team + 1}) has completed their goal.' ctx.notify_all(finished_msg) if "auto" in ctx.forfeit_mode: forfeit_player(ctx, client.team, client.slot) elif proxy_worlds[ctx.games[client.slot]].forced_auto_forfeit: forfeit_player(ctx, client.team, client.slot) ctx.client_game_state[client.team, client.slot] = new_status class ServerCommandProcessor(CommonCommandProcessor): def __init__(self, ctx: Context): self.ctx = ctx super(ServerCommandProcessor, self).__init__() def output(self, text: str): if self.client: self.ctx.notify_client(self.client, text) super(ServerCommandProcessor, self).output(text) def default(self, raw: str): self.ctx.notify_all('[Server]: ' + raw) @mark_raw def _cmd_kick(self, player_name: str) -> bool: """Kick specified player from the server""" for client in self.ctx.endpoints: if client.auth and client.name.lower() == player_name.lower() and client.socket and not client.socket.closed: asyncio.create_task(client.socket.close()) self.output(f"Kicked {self.ctx.get_aliased_name(client.team, client.slot)}") if self.ctx.commandprocessor.client == client: self.ctx.commandprocessor.client = None return True self.output(f"Could not find player {player_name} to kick") return False def _cmd_save(self) -> bool: """Save current state to multidata""" if self.ctx.saving: self.ctx.save(True) self.output("Game saved") return True else: self.output("Saving is disabled.") return False def _cmd_players(self) -> bool: """Get information about connected players""" self.output(get_players_string(self.ctx)) return True def _cmd_exit(self) -> bool: """Shutdown the server""" asyncio.create_task(self.ctx.server.ws_server._close()) if self.ctx.shutdown_task: self.ctx.shutdown_task.cancel() self.ctx.running = False return True @mark_raw def _cmd_alias(self, player_name_then_alias_name): """Set a player's alias, by listing their base name and then their intended alias.""" player_name, alias_name = player_name_then_alias_name.split(" ", 1) player_name, usable, response = get_intended_text(player_name, self.ctx.player_names.values()) if usable: for (team, slot), name in self.ctx.player_names.items(): if name == player_name: if alias_name: alias_name = alias_name.strip()[:15] self.ctx.name_aliases[team, slot] = alias_name self.output(f"Named {player_name} as {alias_name}") update_aliases(self.ctx, team) self.ctx.save() return True else: del (self.ctx.name_aliases[team, slot]) self.output(f"Removed Alias for {player_name}") update_aliases(self.ctx, team) self.ctx.save() return True else: self.output(response) return False @mark_raw def _cmd_forfeit(self, player_name: str) -> bool: """Send out the remaining items from a player's game to their intended recipients""" seeked_player = player_name.lower() for (team, slot), name in self.ctx.player_names.items(): if name.lower() == seeked_player: forfeit_player(self.ctx, team, slot) return True self.output(f"Could not find player {player_name} to forfeit") return False @mark_raw def _cmd_allow_forfeit(self, player_name: str) -> bool: """Allow the specified player to use the !forfeit command""" seeked_player = player_name.lower() for (team, slot), name in self.ctx.player_names.items(): if name.lower() == seeked_player: self.ctx.allow_forfeits[(team, slot)] = True self.output(f"Player {player_name} is now allowed to use the !forfeit command at any time.") return True self.output(f"Could not find player {player_name} to allow the !forfeit command for.") return False @mark_raw def _cmd_forbid_forfeit(self, player_name: str) -> bool: """"Disallow the specified player from using the !forfeit command""" seeked_player = player_name.lower() for (team, slot), name in self.ctx.player_names.items(): if name.lower() == seeked_player: self.ctx.allow_forfeits[(team, slot)] = False self.output( f"Player {player_name} has to follow the server restrictions on use of the !forfeit command.") return True self.output(f"Could not find player {player_name} to forbid the !forfeit command for.") return False def _cmd_send(self, player_name: str, *item_name: str) -> bool: """Sends an item to the specified player""" seeked_player, usable, response = get_intended_text(player_name, self.ctx.player_names.values()) if usable: team, slot = self.ctx.player_name_lookup[seeked_player] item = " ".join(item_name) world = proxy_worlds[self.ctx.games[slot]] item, usable, response = get_intended_text(item, world.item_names) if usable: new_item = NetworkItem(world.item_name_to_id[item], -1, 0) get_received_items(self.ctx, team, slot).append(new_item) self.ctx.notify_all('Cheat console: sending "' + item + '" to ' + self.ctx.get_aliased_name(team, slot)) send_new_items(self.ctx) return True else: self.output(response) return False else: self.output(response) return False def _cmd_hint(self, player_name: str, *item_or_location: str) -> bool: """Send out a hint for a player's item or location to their team""" seeked_player, usable, response = get_intended_text(player_name, self.ctx.player_names.values()) if usable: team, slot = self.ctx.player_name_lookup[seeked_player] item = " ".join(item_or_location) world = proxy_worlds[self.ctx.games[slot]] item, usable, response = get_intended_text(item, world.all_names) if usable: if item in world.item_name_groups: hints = [] for item in world.item_name_groups[item]: hints.extend(collect_hints(self.ctx, team, slot, item)) elif item in world.item_names: # item name hints = collect_hints(self.ctx, team, slot, item) else: # location name hints = collect_hints_location(self.ctx, team, slot, item) if hints: notify_hints(self.ctx, team, hints) else: self.output("No hints found.") return True else: self.output(response) return False else: self.output(response) return False def _cmd_option(self, option_name: str, option: str): """Set options for the server. Warning: expires on restart""" attrtype = self.ctx.simple_options.get(option_name, None) if attrtype: if attrtype == bool: def attrtype(input_text: str): return input_text.lower() not in {"off", "0", "false", "none", "null", "no"} elif attrtype == str and option_name.endswith("password"): def attrtype(input_text: str): if input_text.lower() in {"null", "none", '""', "''"}: return None return input_text setattr(self.ctx, option_name, attrtype(option)) self.output(f"Set option {option_name} to {getattr(self.ctx, option_name)}") return True else: known = (f"{option}:{otype}" for option, otype in self.ctx.simple_options.items()) self.output(f"Unrecognized Option {option_name}, known: " f"{', '.join(known)}") return False async def console(ctx: Context): session = prompt_toolkit.PromptSession() while ctx.running: with patch_stdout(): input_text = await session.prompt_async() try: ctx.commandprocessor(input_text) except: import traceback traceback.print_exc() def parse_args() -> argparse.Namespace: parser = argparse.ArgumentParser() defaults = Utils.get_options()["server_options"] parser.add_argument('multidata', nargs="?", default=defaults["multidata"]) parser.add_argument('--host', default=defaults["host"]) parser.add_argument('--port', default=defaults["port"], type=int) parser.add_argument('--server_password', default=defaults["server_password"]) parser.add_argument('--password', default=defaults["password"]) parser.add_argument('--savefile', default=defaults["savefile"]) parser.add_argument('--disable_save', default=defaults["disable_save"], action='store_true') parser.add_argument('--loglevel', default=defaults["loglevel"], choices=['debug', 'info', 'warning', 'error', 'critical']) parser.add_argument('--location_check_points', default=defaults["location_check_points"], type=int) parser.add_argument('--hint_cost', default=defaults["hint_cost"], type=int) parser.add_argument('--disable_item_cheat', default=defaults["disable_item_cheat"], action='store_true') parser.add_argument('--forfeit_mode', default=defaults["forfeit_mode"], nargs='?', choices=['auto', 'enabled', 'disabled', "goal", "auto-enabled"], help='''\ Select !forfeit Accessibility. (default: %(default)s) auto: Automatic "forfeit" on goal completion enabled: !forfeit is always available disabled: !forfeit is never available goal: !forfeit can be used after goal completion auto-enabled: !forfeit is available and automatically triggered on goal completion ''') parser.add_argument('--remaining_mode', default=defaults["remaining_mode"], nargs='?', choices=['enabled', 'disabled', "goal"], help='''\ Select !remaining Accessibility. (default: %(default)s) enabled: !remaining is always available disabled: !remaining is never available goal: !remaining can be used after goal completion ''') parser.add_argument('--auto_shutdown', default=defaults["auto_shutdown"], type=int, help="automatically shut down the server after this many minutes without new location checks. " "0 to keep running. Not yet implemented.") parser.add_argument('--use_embedded_options', action="store_true", help='retrieve forfeit, remaining and hint options from the multidata file,' ' instead of host.yaml') parser.add_argument('--compatibility', default=defaults["compatibility"], type=int, help=""" #2 -> recommended for casual/cooperative play, attempt to be compatible with everything across all versions #1 -> recommended for friendly racing, tries to block third party clients #0 -> recommended for tournaments to force a level playing field, only allow an exact version match """) parser.add_argument('--log_network', default=defaults["log_network"], action="store_true") args = parser.parse_args() return args async def auto_shutdown(ctx, to_cancel=None): await asyncio.sleep(ctx.auto_shutdown) while ctx.running: if not ctx.client_activity_timers.values(): asyncio.create_task(ctx.server.ws_server._close()) ctx.running = False if to_cancel: for task in to_cancel: task.cancel() logging.info("Shutting down due to inactivity.") else: newest_activity = max(ctx.client_activity_timers.values()) delta = datetime.datetime.now(datetime.timezone.utc) - newest_activity seconds = ctx.auto_shutdown - delta.total_seconds() if seconds < 0: asyncio.create_task(ctx.server.ws_server._close()) ctx.running = False if to_cancel: for task in to_cancel: task.cancel() logging.info("Shutting down due to inactivity.") else: await asyncio.sleep(seconds) async def main(args: argparse.Namespace): logging.basicConfig(force=True, format='[%(asctime)s] %(message)s', level=getattr(logging, args.loglevel.upper(), logging.INFO)) ctx = Context(args.host, args.port, args.server_password, args.password, args.location_check_points, args.hint_cost, not args.disable_item_cheat, args.forfeit_mode, args.remaining_mode, args.auto_shutdown, args.compatibility, args.log_network) data_filename = args.multidata try: if not data_filename: import tkinter import tkinter.filedialog root = tkinter.Tk() root.withdraw() data_filename = tkinter.filedialog.askopenfilename(filetypes=(("Multiworld data", "*.archipelago *.zip"),)) ctx.load(data_filename, args.use_embedded_options) except Exception as e: logging.exception('Failed to read multiworld data (%s)' % e) raise ctx.init_save(not args.disable_save) ctx.server = websockets.serve(functools.partial(server, ctx=ctx), ctx.host, ctx.port, ping_timeout=None, ping_interval=None) ip = args.host if args.host else Utils.get_public_ipv4() logging.info('Hosting game at %s:%d (%s)' % (ip, ctx.port, 'No password' if not ctx.password else 'Password: %s' % ctx.password)) await ctx.server console_task = asyncio.create_task(console(ctx)) if ctx.auto_shutdown: ctx.shutdown_task = asyncio.create_task(auto_shutdown(ctx, [console_task])) await console_task if ctx.shutdown_task: await ctx.shutdown_task client_message_processor = ClientMessageProcessor if __name__ == '__main__': try: asyncio.run(main(parse_args())) except asyncio.exceptions.CancelledError: pass