def your_print_is_ready(ws: WebSocket):
global printer_jsons, printer_jsons_last
clients.add(ws)
logging.info(f'Client {ws} joined')
try:
keep_alive(ws)
while not ws.closed:
gevent.sleep(0.1)
msg = ws.receive()
if msg:
message_json = json.loads(msg)
if 'key' in message_json and secrets.compare_digest(
message_json['key'], x_api_key):
if ws in clients:
clients.remove(ws)
if 'printers' not in message_json:
logging.info(
f'Poller {ws} sent a message but it had no printers'
)
continue
new_printer_jsons = message_json['printers']
if new_printer_jsons != printer_jsons:
logging.info(f'Poller {ws} updated values')
printer_jsons = new_printer_jsons
printer_jsons_last = datetime.utcnow()
for client in clients:
update(client)
logging.info(f'Processed values from poller {ws}')
else:
logging.info(f'Client {ws} key did not match expected key')
finally:
if ws and not ws.closed:
ws.close()
logging.info(f'Client {ws} left')
clients.remove(ws)
def listen(ws: WebSocket):
listener = WebsocketListener(ws)
listeners.append(listener)
logger.info("websocket client from %s has been connected",
listener.remote_addr)
while not ws.closed:
raw_msg = ws.receive()
if not raw_msg:
break
message = Message.create(raw_msg)
logger.debug("Message %s received from %s", message,
listener.remote_addr)
if message.id not in socket_watcher:
listener.send(Message(message.id, {}, 'unknown id'))
continue
try:
socket_watcher.send(message)
except SocketSendError as e:
logger.exception("cannot send message: %s", e)
listener.send(Message(message.id, {}, 'unknown id'))
continue
listeners.remove(listener)
logger.info(
"websocket client from %s has been disconnected. Remaining listeners: %s",
listener.remote_addr, len(listeners))
def handle(self, socket: WebSocket):
self.context.g_set(hard_code.GK_SOCKET, socket)
self.on_connect()
while self._loop:
data_str = None
try:
data_str = socket.receive()
if not data_str:
continue
data = json.loads(data_str) # type: dict
if isinstance(data, dict):
event = 'on_%s' % data.pop('event')
if hasattr(
self,
event) and event not in dir(EventSocketController):
kwargs = data.pop('data', {})
getattr(self, event)(**kwargs)
continue
self.on_message(data)
except json.JSONDecodeError:
self.on_message(data_str)
except WebSocketError as e:
if MSG_SOCKET_DEAD in e.args:
break
self.on_error(e)
except Exception as e:
self.on_error(e)
self.on_disconnect()
def game_socket(ws: WebSocket) -> None:
while not ws.closed:
query = ws.receive()
if query is None:
continue
print(f"Received:`{query}`")
messages: List[Message]
for command in commands:
if command.command_matches(query):
messages = command.apply_command(
matches, query[len(command.STARTS_WITH):])
break
else:
messages = [Command.error_msg("Invalid command sent", query)]
pass
for message in messages:
if message.add_sender_to_spectate_map:
add_client_to_map(message.match_id, ws)
msg_to_send_str = to_json_str(message.message)
if message.reply_to_only_sender:
ws.send(msg_to_send_str)
else:
removed_clients: List[WebSocket] = []
for client in game_clients[message.match_id]:
try:
client.send(msg_to_send_str)
except WebSocketError:
removed_clients.append(client)
for client in removed_clients:
game_clients[message.match_id].remove(client)
def message_socket(ws: WebSocket, connection: Connection) -> None:
if Api.__COOKIE_SESSION_NAME not in session:
ws.close()
return
db_session = connection.session()
for post in db_session.query(Post).all():
ws.send(
Message(datetime=floor(post.datetime.timestamp()),
author=post.author,
text=post.message).serialize())
with MessageSubscribersQueue.subscribe(request, ws):
ws.receive()
def cmd(ws: WebSocket):
ws_id = self.wsCollector.add(ws)
while not ws.closed:
message = ws.receive()
if message is not None:
# noinspection PyBroadException
msg = {'token': '', 'cmd': None}
# noinspection PyBroadException
try:
msg = json.loads(message)
except:
msg['cmd'] = message
if (msg.get('type', None) is not None) and (msg.get(
'msg', None) is not None):
BdsLogger.put_log(msg['type'], msg['msg'])
if self.tokenManager.checkToken(msg.get(
'token', '')) or self.wsCollector.check(ws_id):
result = self.wsCollector.update(ws_id)
if result == 1:
ws.send(
json.dumps(self.tokenManager.pass_msg,
ensure_ascii=False))
self.cmd_in_via_ws(msg.get('cmd', None))
else:
ws.send(
json.dumps(self.tokenManager.error_msg,
ensure_ascii=False))
def register_client(self, ws: WebSocket):
gevent.spawn(pinger, ws)
L.info(f"Client {ws} connected")
self.clients.add(ws)
try:
while ws.receive():
pass
finally:
L.info(f"Client {ws} disconnected")
self.clients.remove(ws)
def ws(websocket: WebSocket):
while not websocket.closed:
split_message = websocket.receive().split()
action = split_message[0].upper()
if action == 'RUN':
session_id = split_message[1]
if session_id in _valid_session_ids:
data = _generator.get_bytes(_BYTES_PER_TRIAL)
hit = to_bool(data, _generator.bit_numbering)
websocket.send('HIT %d' % (1 if hit else 0))
_log_file.write(f'{utc_datetime_string()},{request.remote_addr},{session_id},{hit},{base64.b64encode(data).decode("utf-8")},{_generator.id},{_generator.bit_numbering.value}\n')
_log_file.flush()
def ws(websocket: WebSocket):
while not websocket.closed:
split_message = websocket.receive().split()
action = split_message[0].upper()
if action == 'PING':
_generator.get_bytes(_BYTES_PER_TRIAL)
websocket.send('PONG')
elif action == 'RUN':
run_id = split_message[1]
trial_count = int(split_message[2])
if run_id in _valid_run_ids:
threading.Thread(target=run_trials,
args=(websocket, run_id, trial_count,
request.remote_addr)).start()
def game_socket(ws: WebSocket) -> None:
while not ws.closed:
message = ws.receive()
if message is None:
continue
print(f"Received:`{message}`")
msg_to_send: Union[StateDict, CommandResponse]
broadcast_id: Optional[str] = None
broadcast_only_to_sender = False
match_id: str
if message == "create":
msg_to_send = game_create()
elif message == "cards":
msg_to_send = list_cards()
elif message.startswith("join "):
msg_to_send = game_join(message[5:])
if msg_to_send["messageType"] != "error":
match_id = msg_to_send["matchId"]
broadcast_id = match_id
elif message.startswith("state "):
msg_to_send = game_state(message[6:])
elif message.startswith("move "):
split = message.split(" ")
# Command format: move [match_id] [token] [card] [move]
# Example: move 5f9c394ee71e1740c218587b iq2V39W9WNm0EZpDqEcqzoLRhSkdD3lY boar a1a2
msg_to_send = game_move(split[1], split[2], split[3], split[4])
if msg_to_send["messageType"] != "error":
match_id = msg_to_send["matchId"]
broadcast_id = match_id
elif message.startswith("spectate "):
msg_to_send = game_spectate(message[9:])
if msg_to_send["messageType"] != "error":
match_id = msg_to_send["matchId"]
add_client_to_map(match_id, ws)
broadcast_id = match_id
broadcast_only_to_sender = True
else:
msg_to_send = error_msg("Invalid command sent", message)
msg_to_send_str = to_json_str(msg_to_send)
ws.send(msg_to_send_str)
if broadcast_id is not None:
if broadcast_only_to_sender:
game_state_str = to_json_str(game_state(broadcast_id))
ws.send(game_state_str)
else:
broadcast_state(broadcast_id, ObjectId(broadcast_id))
def ws_io(ws: WebSocket):
while not ws.closed:
content = ws.receive()
if content is not None:
note = json.loads(content)
print(f"[WS] reach note <{note['name']}>")
ws_c.add(ws, note['name'])
with open('notes/%s' % note['name'], 'w') as f:
f.write(
json.dumps({
'title': note['title'],
'body': note['body']
}))
f.close()
ws_c.sent_to_all(note['name'], note['title'], note['body'])
def echo(ws: WebSocket):
print("Connection accepted")
count = 0
sid = None
caller_number = None
dad = DetectAndDeter(TEST_NAME)
in_queue, out_queue = dad.queues
dad.start()
dad.make_greeting(ONE_PARTY_RECORDING_CONSENT)
while not ws.closed:
message = ws.receive()
if message is None:
continue
data = json.loads(message)
if data['event'] == "connected":
pass
elif data['event'] == "start":
sid = data['streamSid']
logging.info(data)
caller_number = data["start"]["customParameters"]["callerNumber"]
# start_recording(data['start']['callSid'])
elif data['event'] == "media":
in_queue.put(base64.b64decode(data['media']['payload']))
if not out_queue.empty():
ws.send(json.dumps({
"event": "media",
"streamSid": sid,
"media": {
"payload": out_queue.get()
}}))
elif data['event'] == 'stop':
pass
elif data['event'] == "closed":
break
else:
raise RuntimeError(f"Unknown event: {data['event']} | data: {data}")
count += 1
dad.close()
log = dad.fill_log_info(caller_number)
logging.info(f"Connection closed | SID: {sid} | messages: {count}")
print(f"Connection closed | SID: {sid} | messages: {count}")
with open(LOG_PATH/f"call{clean_name(log['start'])}.json", 'w') as f:
json.dump(log, f)
def page_socket(socket: WebSocket, page_id):
try:
page = pages[page_id]
except KeyError:
socket.close(message="page {} does not exist".format(page_id))
return
socket.send(json.dumps({"type": "num_peers", "num_peers": len(page.sockets)}))
page.add(socket)
print("num sockets", len(page.sockets))
while not socket.closed:
message = socket.receive()
if message is None:
continue
page.send(socket, message)
page.remove(socket)
def handle(socket: WebSocket):
"""
Wrap the current WS class, dispatching events to it as necessary. We're using gevent, so there's
no need to worry about blocking here.
"""
ws = cls(
socket
) # Instantiate the current class, passing it the WS object
ws.on_open() # Call the "on_open" handler
while not socket.closed: # As long as the socket is open...
message = socket.receive() # Wait for a message
if not socket.closed: # If the socket didn't just close (there's always a None message on closing)
ws.on_message(message) # Call the "on_message" handler
ws.on_close(
) # The socket just closed, call the "on_close" handler
def recognize(self, web_socket: WebSocket):
values = list()
for i in range(AUDIO_RANGE):
src = web_socket.receive()
if src is None:
logger.info("src is None. {}".format(i))
break
audio_data = np.frombuffer(src, dtype="float32")
values.append(audio_data)
# logger.debug("index:{}, data:{}".format(i, audio_data))
v = np.array(values)
v.flatten()
# バイナリに16ビットの整数に変換して保存
# -32768 <= int16 <= 32767
arr = (v * 32767).astype(np.int16)
file_name = self._create_file_name()
with wave.open(file_name, 'wb') as wf:
wf.setnchannels(AUDIO_CHANNEL_SIZE)
wf.setsampwidth(SAMPLE_WIDTH)
wf.setframerate(SAMPLE_RATE)
wf.writeframes(arr.tobytes('C'))
file_names = [file_name]
messages = list()
def _report(result: MatchResult):
messages.append(result.match_file_names)
self._matcher.execute(file_names, _report)
self._delete_file(file_name)
# flatten
messages = list(chain.from_iterable(messages))
# messages = [audfprint/sound/cicada_abra.mp3]
object_name = self._get_object_name(messages)
if object_name is None:
send_message = "Not found"
else:
send_message = object_name
logger.info(send_message)
web_socket.send(send_message)
self._delete_file(file_name)
def play_game(websocket: WebSocket):
print('Websocket connnected')
args = json.loads(websocket.receive())
print('Starting game with {}'.format(args))
player = WebsocketPlayer(args['name'], websocket)
ai = getattr(dominion_ai, args['ai'])(args['ai'])
if args['game'] == 'random':
reqs = set(
map(lambda req: getattr(dominion.cards, req), args['requires']))
reqs.update(ai.requires())
game = make_random_game(player, ai, reqs)
else:
game = make_premade_game(player, ai, args['game'])
game.start()
while not game.is_over():
game.run_next_phase()
game.complete()
print('Finished game.')
def listen(socket: WebSocket):
try:
user_id = current_user.id_
device_id = uuid.uuid4().hex
while not socket.closed:
message = socket.receive()
json_msg = json_dict(message)
if json_msg.get("transport_type"):
# TODO: handle unknown transport types
device_conn = DeviceConnection(socket,
json_msg["transport_type"],
tuple(json_msg["notify_apps"]))
message_handler.new_client(user_id, device_id, device_conn)
except WebSocketError as err:
if err.args[0] == MSG_SOCKET_DEAD:
current_app.logger.debug(
f"client's WebSocket lost connection with server, {user_id} {device_id}"
)
else:
raise err
message_handler.remove_client(user_id, device_id)
def play_chess(ws: WebSocket):
while not ws.closed:
try:
# receive message.
message: str = ws.receive()
if message is None:
continue
# message format: `action data`
message: list = message.split(' ')
# 连接大厅
if message[0] == 'connect':
# 已经在大厅里
if ws in hall.users:
ws.send(json.dumps({'alert': 'already online'}))
continue
# 进入大厅
hall.users.update({ws: User(ws, message[1])})
hall.broadcast_rooms()
# 进入房间
elif message[0] == 'enter':
user = hall.users[ws]
room = hall.rooms[message[1]]
if user.room is not None:
hall.rooms[user.room].users.remove(user)
user.status = 'in room'
user.room = room.uuid
# 房间满了
if len(room.users) == 2:
ws.send(json.dumps({'alert': 'full'}))
continue
# 房间里有一个人
elif len(room.users) == 1:
room.users.append(user)
room.broadcast()
hall.broadcast_rooms()
# 房间里没人
else:
room.users.append(user)
room.broadcast()
hall.broadcast_rooms()
# 准备
elif message[0] == 'ready':
user = hall.users[ws]
room = hall.rooms[user.room]
user.status = 'ready'
# 房间还有其他人
if len(room.users) == 2:
another_index = 1 - room.users.index(user)
room.users[another_index].ws.send(
json.dumps({
'info':
room.users[another_index].name + ' ready'
}))
room.broadcast()
# 对方也准备了,开始游戏
if room.users[another_index].status == 'ready':
room.status = 'gaming'
room.first_player = random.randint(0, 1)
room.cur_player = room.first_player
hall.broadcast_rooms()
room.users[room.first_player].ws.send(
json.dumps({'alert': '你先手'}))
room.users[1 - room.first_player].ws.send(
json.dumps({'alert': '你后手'}))
# 下棋
elif message[0] == 'put':
user = hall.users[ws]
room = hall.rooms[user.room]
if user == room.users[room.cur_player]:
room.count += 1
color = room.cur_chess_color()
room.board[int(message[2])][int(message[1])] = color
room.cur_player = 1 - room.cur_player
for user in room.users:
user.ws.send(json.dumps({'board':
room.board.tolist()}))
if room.win(int(message[1]), int(message[2])):
room.game_init()
winner = user.name
for user in room.users:
user.ws.send(
json.dumps({'result': winner + ' win'}))
user.ws.send(json.dumps({'room':
room.serialize()}))
room.users[0].status = 'in room'
room.users[1].status = 'in room'
hall.broadcast_rooms()
continue
elif room.count == 100:
room.game_init()
for user in room.users:
user.ws.send(json.dumps({'result': 'draw'}))
user.ws.send(json.dumps({'room':
room.serialize()}))
room.users[0].status = 'in room'
room.users[1].status = 'in room'
room.status = 'idle'
hall.broadcast_rooms()
continue
elif message[0] == 'leave':
user = hall.users[ws]
room = hall.rooms[user.room]
room.users.remove(user)
user.status = 'online'
user.room = None
room.game_init()
hall.broadcast_rooms()
room.broadcast()
except Exception as e:
print(str(e))
user = hall.users[ws]
if user.room is not None:
room = hall.rooms[user.room]
room.users.remove(user)
room.game_init()
for user in room.users:
user.ws.send(json.dumps({'room': room.serialize()}))
del hall.users[ws]
hall.broadcast_rooms()