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MultiServer.py
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MultiServer.py
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from __future__ import annotations
import argparse
import asyncio
import collections
import contextlib
import copy
import datetime
import functools
import hashlib
import inspect
import itertools
import logging
import math
import operator
import pickle
import random
import threading
import time
import typing
import weakref
import zlib
import ModuleUpdate
ModuleUpdate.update()
if typing.TYPE_CHECKING:
import ssl
import websockets
import colorama
try:
# ponyorm is a requirement for webhost, not default server, so may not be importable
from pony.orm.dbapiprovider import OperationalError
except ImportError:
OperationalError = ConnectionError
import NetUtils
import Utils
from Utils import version_tuple, restricted_loads, Version, async_start, get_intended_text
from NetUtils import Endpoint, ClientStatus, NetworkItem, decode, encode, NetworkPlayer, Permission, NetworkSlot, \
SlotType, LocationStore
min_client_version = Version(0, 1, 6)
colorama.init()
def remove_from_list(container, value):
try:
container.remove(value)
except ValueError:
pass
return container
def pop_from_container(container, value):
try:
container.pop(value)
except ValueError:
pass
return container
def update_dict(dictionary, entries):
dictionary.update(entries)
return dictionary
# functions callable on storable data on the server by clients
modify_functions = {
# generic:
"replace": lambda old, new: new,
"default": lambda old, new: old,
# numeric:
"add": operator.add, # add together two objects, using python's "+" operator (works on strings and lists as append)
"mul": operator.mul,
"pow": operator.pow,
"mod": operator.mod,
"floor": lambda value, _: math.floor(value),
"ceil": lambda value, _: math.ceil(value),
"max": max,
"min": min,
# bitwise:
"xor": operator.xor,
"or": operator.or_,
"and": operator.and_,
"left_shift": operator.lshift,
"right_shift": operator.rshift,
# lists/dicts:
"remove": remove_from_list,
"pop": pop_from_container,
"update": update_dict,
}
def get_saving_second(seed_name: str, interval: int = 60) -> int:
# save at expected times so other systems using savegame can expect it
# represents the target second of the auto_save_interval at which to save
return int(hashlib.sha256(seed_name.encode()).hexdigest(), 16) % interval
class Client(Endpoint):
version = Version(0, 0, 0)
tags: typing.List[str] = []
remote_items: bool
remote_start_inventory: bool
no_items: bool
no_locations: bool
def __init__(self, socket: websockets.WebSocketServerProtocol, ctx: Context):
super().__init__(socket)
self.auth = False
self.team = None
self.slot = None
self.send_index = 0
self.tags = []
self.messageprocessor = client_message_processor(ctx, self)
self.ctx = weakref.ref(ctx)
@property
def items_handling(self):
if self.no_items:
return 0
return 1 + (self.remote_items << 1) + (self.remote_start_inventory << 2)
@items_handling.setter
def items_handling(self, value: int):
if not (value & 0b001) and (value & 0b110):
raise ValueError("Invalid flag combination")
self.no_items = not (value & 0b001)
self.remote_items = bool(value & 0b010)
self.remote_start_inventory = bool(value & 0b100)
@property
def name(self) -> str:
ctx = self.ctx()
if ctx:
return ctx.player_names[self.team, self.slot]
return "Deallocated"
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,
"release_mode": str,
"remaining_mode": str,
"collect_mode": str,
"item_cheat": bool,
"compatibility": int}
# team -> slot id -> list of clients authenticated to slot.
clients: typing.Dict[int, typing.Dict[int, typing.List[Client]]]
locations: LocationStore # typing.Dict[int, typing.Dict[int, typing.Tuple[int, int, int]]]
location_checks: typing.Dict[typing.Tuple[int, int], typing.Set[int]]
hints_used: typing.Dict[typing.Tuple[int, int], int]
groups: typing.Dict[int, typing.Set[int]]
save_version = 2
stored_data: typing.Dict[str, object]
read_data: typing.Dict[str, object]
stored_data_notification_clients: typing.Dict[str, typing.Set[Client]]
slot_info: typing.Dict[int, NetworkSlot]
generator_version = Version(0, 0, 0)
checksums: typing.Dict[str, str]
item_names: typing.Dict[str, typing.Dict[int, str]] = (
collections.defaultdict(lambda: Utils.KeyedDefaultDict(lambda code: f'Unknown item (ID:{code})')))
item_name_groups: typing.Dict[str, typing.Dict[str, typing.Set[str]]]
location_names: typing.Dict[str, typing.Dict[int, str]] = (
collections.defaultdict(lambda: Utils.KeyedDefaultDict(lambda code: f'Unknown location (ID:{code})')))
location_name_groups: typing.Dict[str, typing.Dict[str, typing.Set[str]]]
all_item_and_group_names: typing.Dict[str, typing.Set[str]]
all_location_and_group_names: typing.Dict[str, typing.Set[str]]
non_hintable_names: typing.Dict[str, typing.AbstractSet[str]]
spheres: typing.List[typing.Dict[int, typing.Set[int]]]
""" each sphere is { player: { location_id, ... } } """
logger: logging.Logger
def __init__(self, host: str, port: int, server_password: str, password: str, location_check_points: int,
hint_cost: int, item_cheat: bool, release_mode: str = "disabled", collect_mode="disabled",
remaining_mode: str = "disabled", auto_shutdown: typing.SupportsFloat = 0, compatibility: int = 2,
log_network: bool = False, logger: logging.Logger = logging.getLogger()):
self.logger = logger
super(Context, self).__init__()
self.slot_info = {}
self.log_network = log_network
self.endpoints = []
self.clients = {}
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_releases = {}
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.start_inventory = {}
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.release_mode: str = release_mode
self.remaining_mode: str = remaining_mode
self.collect_mode: str = collect_mode
self.item_cheat = item_cheat
self.exit_event = asyncio.Event()
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: typing.Optional[threading.Thread] = None
self.save_dirty = False
self.tags = ['AP']
self.games: typing.Dict[int, str] = {}
self.minimum_client_versions: typing.Dict[int, Version] = {}
self.seed_name = ""
self.groups = {}
self.group_collected: typing.Dict[int, typing.Set[int]] = {}
self.random = random.Random()
self.stored_data = {}
self.stored_data_notification_clients = collections.defaultdict(weakref.WeakSet)
self.read_data = {}
self.spheres = []
# init empty to satisfy linter, I suppose
self.gamespackage = {}
self.checksums = {}
self.item_name_groups = {}
self.location_name_groups = {}
self.all_item_and_group_names = {}
self.all_location_and_group_names = {}
self.non_hintable_names = collections.defaultdict(frozenset)
self._load_game_data()
# Data package retrieval
def _load_game_data(self):
import worlds
self.gamespackage = worlds.network_data_package["games"]
self.item_name_groups = {world_name: world.item_name_groups for world_name, world in
worlds.AutoWorldRegister.world_types.items()}
self.location_name_groups = {world_name: world.location_name_groups for world_name, world in
worlds.AutoWorldRegister.world_types.items()}
for world_name, world in worlds.AutoWorldRegister.world_types.items():
self.non_hintable_names[world_name] = world.hint_blacklist
for game_package in self.gamespackage.values():
# remove groups from data sent to clients
del game_package["item_name_groups"]
del game_package["location_name_groups"]
def _init_game_data(self):
for game_name, game_package in self.gamespackage.items():
if "checksum" in game_package:
self.checksums[game_name] = game_package["checksum"]
for item_name, item_id in game_package["item_name_to_id"].items():
self.item_names[game_name][item_id] = item_name
for location_name, location_id in game_package["location_name_to_id"].items():
self.location_names[game_name][location_id] = location_name
self.all_item_and_group_names[game_name] = \
set(game_package["item_name_to_id"]) | set(self.item_name_groups[game_name])
self.all_location_and_group_names[game_name] = \
set(game_package["location_name_to_id"]) | set(self.location_name_groups.get(game_name, []))
archipelago_item_names = self.item_names["Archipelago"]
archipelago_location_names = self.location_names["Archipelago"]
for game in [game_name for game_name in self.gamespackage if game_name != "Archipelago"]:
# Add Archipelago items and locations to each data package.
self.item_names[game].update(archipelago_item_names)
self.location_names[game].update(archipelago_location_names)
def item_names_for_game(self, game: str) -> typing.Optional[typing.Dict[str, int]]:
return self.gamespackage[game]["item_name_to_id"] if game in self.gamespackage else None
def location_names_for_game(self, game: str) -> typing.Optional[typing.Dict[str, int]]:
return self.gamespackage[game]["location_name_to_id"] if game in self.gamespackage else None
# 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:
self.logger.exception(f"Exception during send_msgs, could not send {msg}")
await self.disconnect(endpoint)
return False
else:
if self.log_network:
self.logger.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:
self.logger.exception("Exception during send_encoded_msgs")
await self.disconnect(endpoint)
return False
else:
if self.log_network:
self.logger.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:
self.logger.exception("Exception during broadcast_send_encoded_msgs")
return False
else:
if self.log_network:
self.logger.info(f"Outgoing broadcast: {msg}")
return True
def broadcast_all(self, msgs: typing.List[dict]):
msgs = self.dumper(msgs)
endpoints = (endpoint for endpoint in self.endpoints if endpoint.auth)
async_start(self.broadcast_send_encoded_msgs(endpoints, msgs))
def broadcast_text_all(self, text: str, additional_arguments: dict = {}):
self.logger.info("Notice (all): %s" % text)
self.broadcast_all([{**{"cmd": "PrintJSON", "data": [{ "text": text }]}, **additional_arguments}])
def broadcast_team(self, team: int, msgs: typing.List[dict]):
msgs = self.dumper(msgs)
endpoints = (endpoint for endpoint in itertools.chain.from_iterable(self.clients[team].values()))
async_start(self.broadcast_send_encoded_msgs(endpoints, msgs))
def broadcast(self, endpoints: typing.Iterable[Client], msgs: typing.List[dict]):
msgs = self.dumper(msgs)
async_start(self.broadcast_send_encoded_msgs(endpoints, msgs))
async def disconnect(self, endpoint: Client):
if endpoint in self.endpoints:
self.endpoints.remove(endpoint)
if endpoint.slot and endpoint in self.clients[endpoint.team][endpoint.slot]:
self.clients[endpoint.team][endpoint.slot].remove(endpoint)
await on_client_disconnected(self, endpoint)
def notify_client(self, client: Client, text: str, additional_arguments: dict = {}):
if not client.auth:
return
self.logger.info("Notice (Player %s in team %d): %s" % (client.name, client.team + 1, text))
async_start(self.send_msgs(client, [{"cmd": "PrintJSON", "data": [{ "text": text }], **additional_arguments}]))
def notify_client_multiple(self, client: Client, texts: typing.List[str], additional_arguments: dict = {}):
if not client.auth:
return
async_start(self.send_msgs(client,
[{"cmd": "PrintJSON", "data": [{ "text": text }], **additional_arguments}
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 > 3:
raise Utils.VersionException("Incompatible multidata.")
return restricted_loads(zlib.decompress(data[1:]))
def _load(self, decoded_obj: dict, game_data_packages: typing.Dict[str, typing.Any],
use_embedded_server_options: bool):
self.read_data = {}
mdata_ver = decoded_obj["minimum_versions"]["server"]
if mdata_ver > version_tuple:
raise RuntimeError(f"Supplied Multidata (.archipelago) requires a server of at least version {mdata_ver},"
f"however this server is of version {version_tuple}")
self.generator_version = Version(*decoded_obj["version"])
clients_ver = decoded_obj["minimum_versions"].get("clients", {})
self.minimum_client_versions = {}
for player, version in clients_ver.items():
self.minimum_client_versions[player] = max(Version(*version), min_client_version)
self.slot_info = decoded_obj["slot_info"]
self.games = {slot: slot_info.game for slot, slot_info in self.slot_info.items()}
self.groups = {slot: slot_info.group_members for slot, slot_info in self.slot_info.items()
if slot_info.type == SlotType.group}
self.clients = {0: {}}
slot_info: NetworkSlot
slot_id: int
team_0 = self.clients[0]
for slot_id, slot_info in self.slot_info.items():
team_0[slot_id] = []
self.player_names[0, slot_id] = slot_info.name
self.player_name_lookup[slot_info.name] = 0, slot_id
self.read_data[f"hints_{0}_{slot_id}"] = lambda local_team=0, local_player=slot_id: \
list(self.get_rechecked_hints(local_team, local_player))
self.read_data[f"client_status_{0}_{slot_id}"] = lambda local_team=0, local_player=slot_id: \
self.client_game_state[local_team, local_player]
self.seed_name = decoded_obj["seed_name"]
self.random.seed(self.seed_name)
self.connect_names = decoded_obj['connect_names']
self.locations = LocationStore(decoded_obj.pop("locations")) # pre-emptively free memory
self.slot_data = decoded_obj['slot_data']
for slot, data in self.slot_data.items():
self.read_data[f"slot_data_{slot}"] = lambda data=data: 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()}
# load start inventory:
for slot, item_codes in decoded_obj["precollected_items"].items():
self.start_inventory[slot] = [NetworkItem(item_code, -2, 0) for item_code in item_codes]
for slot, hints in decoded_obj["precollected_hints"].items():
self.hints[0, slot].update(hints)
# declare slots that aren't players as done
for slot, slot_info in self.slot_info.items():
if slot_info.type.always_goal:
for team in self.clients:
self.client_game_state[team, slot] = ClientStatus.CLIENT_GOAL
if use_embedded_server_options:
server_options = decoded_obj.get("server_options", {})
self._set_options(server_options)
# embedded data package
for game_name, data in decoded_obj.get("datapackage", {}).items():
if game_name in game_data_packages:
data = game_data_packages[game_name]
self.logger.info(f"Loading embedded data package for game {game_name}")
self.gamespackage[game_name] = data
self.item_name_groups[game_name] = data["item_name_groups"]
if "location_name_groups" in data:
self.location_name_groups[game_name] = data["location_name_groups"]
del data["location_name_groups"]
del data["item_name_groups"] # remove from data package, but keep in self.item_name_groups
self._init_game_data()
for game_name, data in self.item_name_groups.items():
self.read_data[f"item_name_groups_{game_name}"] = lambda lgame=game_name: self.item_name_groups[lgame]
for game_name, data in self.location_name_groups.items():
self.read_data[f"location_name_groups_{game_name}"] = lambda lgame=game_name: self.location_name_groups[lgame]
# sorted access spheres
self.spheres = decoded_obj.get("spheres", [])
# 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:
self.logger.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:
self.logger.error('No save data found, starting a new game')
except Exception as e:
self.logger.exception(e)
self._start_async_saving()
def _start_async_saving(self, atexit_save: bool = True):
if not self.auto_saver_thread:
def save_regularly():
# time.time() is platform dependent, so using the expensive datetime method instead
def get_datetime_second():
now = datetime.datetime.now()
return now.second + now.microsecond * 0.000001
second = get_saving_second(self.seed_name, self.auto_save_interval)
while not self.exit_event.is_set():
try:
next_wakeup = (second - get_datetime_second()) % self.auto_save_interval
time.sleep(max(1.0, next_wakeup))
if self.save_dirty:
self.logger.debug("Saving via thread.")
self._save()
except OperationalError as e:
self.logger.exception(e)
self.logger.info(f"Saving failed. Retry in {self.auto_save_interval} seconds.")
else:
self.save_dirty = False
self.auto_saver_thread = threading.Thread(target=save_regularly, daemon=True)
self.auto_saver_thread.start()
if atexit_save:
import atexit
atexit.register(self._save, True) # make sure we save on exit too
def get_save(self) -> dict:
self.recheck_hints()
d = {
"version": self.save_version,
"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(),
"group_collected": dict(self.group_collected),
"stored_data": self.stored_data,
"game_options": {"hint_cost": self.hint_cost, "location_check_points": self.location_check_points,
"server_password": self.server_password, "password": self.password,
"release_mode": self.release_mode,
"remaining_mode": self.remaining_mode, "collect_mode": self.collect_mode,
"item_cheat": self.item_cheat, "compatibility": self.compatibility}
}
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.")
if savedata["version"] > self.save_version:
raise Exception("This savegame is newer than the server.")
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"])
self.random.setstate(savedata["random_state"])
if "game_options" in savedata:
self.hint_cost = savedata["game_options"]["hint_cost"]
self.location_check_points = savedata["game_options"]["location_check_points"]
self.server_password = savedata["game_options"]["server_password"]
self.password = savedata["game_options"]["password"]
self.release_mode = savedata["game_options"]["release_mode"]
self.remaining_mode = savedata["game_options"]["remaining_mode"]
self.collect_mode = savedata["game_options"]["collect_mode"]
self.item_cheat = savedata["game_options"]["item_cheat"]
self.compatibility = savedata["game_options"]["compatibility"]
if "group_collected" in savedata:
self.group_collected = savedata["group_collected"]
if "stored_data" in savedata:
self.stored_data = savedata["stored_data"]
# count items and slots from lists for items_handling = remote
self.logger.info(
f'Loaded save file with {sum([len(v) for k, v in self.received_items.items() if k[2]])} received items '
f'for {sum(k[2] for k in self.received_items)} players')
# rest
def get_hint_cost(self, slot):
if self.hint_cost:
return max(1, int(self.hint_cost * 0.01 * len(self.locations[slot])))
return 0
def recheck_hints(self, team: typing.Optional[int] = None, slot: typing.Optional[int] = None):
for hint_team, hint_slot in self.hints:
if (team is None or team == hint_team) and (slot is None or slot == hint_slot):
self.hints[hint_team, hint_slot] = {
hint.re_check(self, hint_team) for hint in
self.hints[hint_team, hint_slot]
}
def get_rechecked_hints(self, team: int, slot: int):
self.recheck_hints(team, slot)
return self.hints[team, slot]
def get_sphere(self, player: int, location_id: int) -> int:
"""Get sphere of a location, -1 if spheres are not available."""
if self.spheres:
for i, sphere in enumerate(self.spheres):
if location_id in sphere.get(player, set()):
return i
raise KeyError(f"No Sphere found for location ID {location_id} belonging to player {player}. "
f"Location or player may not exist.")
return -1
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 slot_set(self, slot) -> typing.Set[int]:
"""Returns the slot IDs that concern that slot,
as in expands groups out and returns back the input for solo."""
return self.groups.get(slot, {slot})
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:
self.logger.exception(e)
self.logger.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:
self.logger.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(self, team: int, hints: typing.List[NetUtils.Hint], only_new: bool = False,
recipients: typing.Sequence[int] = None):
"""Send and remember hints."""
if only_new:
hints = [hint for hint in hints if hint not in self.hints[team, hint.finding_player]]
if not hints:
return
new_hint_events: typing.Set[int] = set()
concerns = collections.defaultdict(list)
for hint in sorted(hints, key=operator.attrgetter('found'), reverse=True):
data = (hint, hint.as_network_message())
for player in self.slot_set(hint.receiving_player):
concerns[player].append(data)
if not hint.local and data not in concerns[hint.finding_player]:
concerns[hint.finding_player].append(data)
# remember hints in all cases
if not hint.found:
# since hints are bidirectional, finding player and receiving player,
# we can check once if hint already exists
if hint not in self.hints[team, hint.finding_player]:
self.hints[team, hint.finding_player].add(hint)
new_hint_events.add(hint.finding_player)
for player in self.slot_set(hint.receiving_player):
self.hints[team, player].add(hint)
new_hint_events.add(player)
self.logger.info("Notice (Team #%d): %s" % (team + 1, format_hint(self, team, hint)))
for slot in new_hint_events:
self.on_new_hint(team, slot)
for slot, hint_data in concerns.items():
if recipients is None or slot in recipients:
clients = self.clients[team].get(slot)
if not clients:
continue
client_hints = [datum[1] for datum in sorted(hint_data, key=lambda x: x[0].finding_player != slot)]
for client in clients:
async_start(self.send_msgs(client, client_hints))
# "events"
def on_goal_achieved(self, client: Client):
finished_msg = f'{self.get_aliased_name(client.team, client.slot)} (Team #{client.team + 1})' \
f' has completed their goal.'
self.broadcast_text_all(finished_msg, {"type": "Goal", "team": client.team, "slot": client.slot})
if "auto" in self.collect_mode:
collect_player(self, client.team, client.slot)
if "auto" in self.release_mode:
release_player(self, client.team, client.slot)
self.save() # save goal completion flag
def on_new_hint(self, team: int, slot: int):
self.on_changed_hints(team, slot)
self.broadcast(self.clients[team][slot], [{
"cmd": "RoomUpdate",
"hint_points": get_slot_points(self, team, slot)
}])
def on_changed_hints(self, team: int, slot: int):
key: str = f"_read_hints_{team}_{slot}"
targets: typing.Set[Client] = set(self.stored_data_notification_clients[key])
if targets:
self.broadcast(targets, [{"cmd": "SetReply", "key": key, "value": self.hints[team, slot]}])
def on_client_status_change(self, team: int, slot: int):
key: str = f"_read_client_status_{team}_{slot}"
targets: typing.Set[Client] = set(self.stored_data_notification_clients[key])
if targets:
self.broadcast(targets, [{"cmd": "SetReply", "key": key, "value": self.client_game_state[team, slot]}])
def update_aliases(ctx: Context, team: int):
cmd = ctx.dumper([{"cmd": "RoomUpdate",
"players": ctx.get_players_package()}])
for clients in ctx.clients[team].values():
for client in clients:
async_start(ctx.send_encoded_msgs(client, cmd))
async def server(websocket, path: str = "/", ctx: Context = None):
client = Client(websocket, ctx)
ctx.endpoints.append(client)
try:
if ctx.log_network:
ctx.logger.info("Incoming connection")
await on_client_connected(ctx, client)
if ctx.log_network:
ctx.logger.info("Sent Room Info")
async for data in websocket:
if ctx.log_network:
ctx.logger.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):
ctx.logger.exception(e)
finally:
if ctx.log_network:
ctx.logger.info("Disconnected")
await ctx.disconnect(client)
async def on_client_connected(ctx: Context, client: Client):
players = []
for team, clients in ctx.clients.items():
for slot, connected_clients in clients.items():
if connected_clients:
name = ctx.player_names[team, slot]
players.append(NetworkPlayer(team, slot, ctx.name_aliases.get((team, slot), name), name))
games = {ctx.games[x] for x in range(1, len(ctx.games) + 1)}
games.add("Archipelago")
await ctx.send_msgs(client, [{
'cmd': 'RoomInfo',
'password': bool(ctx.password),
'games': games,
# tags are for additional features in the communication.
# Name them by feature or fork, as you feel is appropriate.
'tags': ctx.tags,
'version': version_tuple,
'generator_version': ctx.generator_version,
'permissions': get_permissions(ctx),
'hint_cost': ctx.hint_cost,
'location_check_points': ctx.location_check_points,
'datapackage_checksums': {game: game_data["checksum"] for game, game_data
in ctx.gamespackage.items() if game in games and "checksum" in game_data},
'seed_name': ctx.seed_name,
'time': time.time(),
}])
def get_permissions(ctx) -> typing.Dict[str, Permission]:
return {
"release": Permission.from_text(ctx.release_mode),
"remaining": Permission.from_text(ctx.remaining_mode),
"collect": Permission.from_text(ctx.collect_mode)
}
async def on_client_disconnected(ctx: Context, client: Client):
if client.auth:
await on_client_left(ctx, client)
_non_game_messages = {"HintGame": "hinting", "Tracker": "tracking", "TextOnly": "viewing"}
""" { tag: ui_message } """
async def on_client_joined(ctx: Context, client: Client):
if ctx.client_game_state[client.team, client.slot] == ClientStatus.CLIENT_UNKNOWN:
update_client_status(ctx, client, ClientStatus.CLIENT_CONNECTED)
version_str = '.'.join(str(x) for x in client.version)
for tag, verb in _non_game_messages.items():
if tag in client.tags:
final_verb = verb
break
else:
final_verb = "playing"
ctx.broadcast_text_all(
f"{ctx.get_aliased_name(client.team, client.slot)} (Team #{client.team + 1}) "
f"{final_verb} {ctx.games[client.slot]} has joined. "
f"Client({version_str}), {client.tags}.",
{"type": "Join", "team": client.team, "slot": client.slot, "tags": client.tags})
ctx.notify_client(client, "Now that you are connected, "
"you can use !help to list commands to run via the server. "
"If your client supports it, "
"you may have additional local commands you can list with /help.",
{"type": "Tutorial"})
ctx.client_connection_timers[client.team, client.slot] = datetime.datetime.now(datetime.timezone.utc)
async def on_client_left(ctx: Context, client: Client):
if len(ctx.clients[client.team][client.slot]) < 1:
update_client_status(ctx, client, ClientStatus.CLIENT_UNKNOWN)
ctx.client_connection_timers[client.team, client.slot] = datetime.datetime.now(datetime.timezone.utc)
version_str = '.'.join(str(x) for x in client.version)
for tag, verb in _non_game_messages.items():
if tag in client.tags:
final_verb = f"stopped {verb}"
break
else:
final_verb = "left"
ctx.broadcast_text_all(
f"{ctx.get_aliased_name(client.team, client.slot)} (Team #{client.team + 1}) has {final_verb} the game. "
f"Client({version_str}), {client.tags}.",
{"type": "Part", "team": client.team, "slot": client.slot})
async def countdown(ctx: Context, timer: int):
ctx.broadcast_text_all(f"[Server]: Starting countdown of {timer}s", {"type": "Countdown", "countdown": timer})
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.broadcast_text_all(f"[Server]: {ctx.countdown_timer}",
{"type": "Countdown", "countdown": ctx.countdown_timer})
ctx.countdown_timer -= 1
await asyncio.sleep(1)
ctx.broadcast_text_all(f"[Server]: GO", {"type": "Countdown", "countdown": 0})
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 = ''
total = 0
for team, slot in player_names:
if ctx.slot_info[slot].type == SlotType.player:
total += 1
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 {total} connected ' + text[:-1]
def get_status_string(ctx: Context, team: int, tag: str):
text = f"Player Status on team {team}:"
for slot in ctx.locations:
connected = len(ctx.clients[team][slot])
tagged = len([client for client in ctx.clients[team][slot] if tag in client.tags])
completion_text = f"({len(ctx.location_checks[team, slot])}/{len(ctx.locations[slot])})"
tag_text = f" {tagged} of which are tagged {tag}" if connected and tag else ""
goal_text = " and has finished." if ctx.client_game_state[team, slot] == ClientStatus.CLIENT_GOAL else "."
text += f"\n{ctx.get_aliased_name(team, slot)} has {connected} connection{'' if connected == 1 else 's'}" \
f"{tag_text}{goal_text} {completion_text}"
return text
def get_received_items(ctx: Context, team: int, player: int, remote_items: bool) -> typing.List[NetworkItem]:
return ctx.received_items.setdefault((team, player, remote_items), [])
def get_start_inventory(ctx: Context, player: int, remote_start_inventory: bool) -> typing.List[NetworkItem]:
return ctx.start_inventory.setdefault(player, []) if remote_start_inventory else []
def send_new_items(ctx: Context):
for team, clients in ctx.clients.items():
for slot, clients in clients.items():
for client in clients:
if client.no_items:
continue
start_inventory = get_start_inventory(ctx, slot, client.remote_start_inventory)
items = get_received_items(ctx, team, slot, client.remote_items)
if len(start_inventory) + len(items) > client.send_index:
first_new_item = max(0, client.send_index - len(start_inventory))
async_start(ctx.send_msgs(client, [{
"cmd": "ReceivedItems",
"index": client.send_index,
"items": start_inventory[client.send_index:] + items[first_new_item:]}]))
client.send_index = len(start_inventory) + len(items)
def update_checked_locations(ctx: Context, team: int, slot: int):
ctx.broadcast(ctx.clients[team][slot],
[{"cmd": "RoomUpdate", "checked_locations": get_checked_checks(ctx, team, slot)}])
def release_player(ctx: Context, team: int, slot: int):
"""register any locations that are in the multidata"""
all_locations = set(ctx.locations[slot])
ctx.broadcast_text_all("%s (Team #%d) has released all remaining items from their world."
% (ctx.player_names[(team, slot)], team + 1),
{"type": "Release", "team": team, "slot": slot})
register_location_checks(ctx, team, slot, all_locations)
update_checked_locations(ctx, team, slot)
def collect_player(ctx: Context, team: int, slot: int, is_group: bool = False):
"""register any locations that are in the multidata, pointing towards this player"""
all_locations = ctx.locations.get_for_player(slot)
ctx.broadcast_text_all("%s (Team #%d) has collected their items from other worlds."
% (ctx.player_names[(team, slot)], team + 1),
{"type": "Collect", "team": team, "slot": slot})
for source_player, location_ids in all_locations.items():
register_location_checks(ctx, team, source_player, location_ids, count_activity=False)
update_checked_locations(ctx, team, source_player)
if not is_group:
for group, group_players in ctx.groups.items():
if slot in group_players:
group_collected_players = ctx.group_collected.setdefault(group, set())
group_collected_players.add(slot)
if set(group_players) == group_collected_players:
collect_player(ctx, team, group, True)
def get_remaining(ctx: Context, team: int, slot: int) -> typing.List[int]:
return ctx.locations.get_remaining(ctx.location_checks, team, slot)
def send_items_to(ctx: Context, team: int, target_slot: int, *items: NetworkItem):
for target in ctx.slot_set(target_slot):
for item in items: