Ejemplo n.º 1
0
 def _on_event(self, handle, data, error):
     if error:
         logger.error('Error %r happened on descriptor %d',
                      strerror(error), self.descriptor)
         self._pipe.close()
         # notify us that we should stop
         os.kill(os.getpid(), signal.SIGTERM)
Ejemplo n.º 2
0
 def _on_event(self, handle, data, error):
     if error:
         logger.error('Error %r happened on descriptor %d', strerror(error),
                      self.descriptor)
         self._pipe.close()
         # notify us that we should stop
         os.kill(os.getpid(), signal.SIGTERM)
Ejemplo n.º 3
0
 def inner_acceptor(handle, events, error):
     """Function that try to accept new connection."""
     if error:  # pragma: no cover
         logger.error(
             'Error handling new connection for'
             ' service %r: %s', service, strerror(error))
         return
     try:
         fd, addr = utils.accept_connection(listen_fd)
     except OSError as exc:
         if exc.errno not in NOTBLOCK:
             raise
         return
     try:
         # Setup socket.
         utils.set_nonblocking(fd)
         utils.set_sockopt(fd, socket.IPPROTO_TCP, socket.TCP_NODELAY,
                           1)
     except:
         os.close(fd)
         raise
     handle = TCP(loop)
     handle.open(fd)
     connection = self.Connection(producer, loop, handle, addr,
                                  on_close)
     connections.register(connection)
Ejemplo n.º 4
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	def onFileOpen(self, response):
		error = response.error
		if error:
			print 'open fail:', errno.strerror(error), ',fd =', fd
			return

		fd = response.result
		self.fd = fd

		# fs.read(loop, fd, length, offset[, callback])
		fs.read(loop, fd, self.BYTES_READ_ONCE, self.readOffset, self.onFileRead)
Ejemplo n.º 5
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	def onFileRead(self, response):
		error = response.error
		if error:
			print 'open fail:', errno.strerror(error)
			return

		result = response.result
		if len(result) == 0:
			fs.close(self.loop, self.fd)
			return

		# sys.stdout.write(result)
		# fs.write(loop, fd, write_data, offset[, callback])
		fs.write(self.loop, 1, result, -1, self.onStdoutWrite)
Ejemplo n.º 6
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 def __on_connection_start(self, handler: TCP, error: Optional[int]):
     """
     Called when the TCP connection is started
     :param handler: TCP Socket that is connected to the server
     :param error: An Error would be here if it failed to connect to the server
     """
     if error is not None:
         if error == -4095:
             self.__logger.warning("Got End of File from server")
             self.shutdown()
         else:
             self.__logger.error(
                 "Unknown TCP Error: {stringed}, errno: {no}".format(
                     stringed=errno.strerror(error), no=error))
             self.shutdown()
     else:
         self.__logger.info(
             "Connected to server at {ip}".format(ip=self.__ip))
         # Start Asynchronous Read on the TCP Socket
         handler.start_read(self.__on_data)
         # Send the Log In Message
         self.__send(Connect(1, self.__username, self.__password))
         self.__protocol_state = ProtocolState.IN_QUEUE
Ejemplo n.º 7
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    def on_connection(self, handle: TCP, error: Optional[int]):
        """
        Called when a new user connects to the server
        CONCURRENT
        This function is called every time a new user connects,
        and then passes off the TCP socket to a session object which handles it asynchronously
        Internally, the PYUV library is using select to pick between

        :param handle: The TCP Server
        :param error: Where an error would be if there was an error connecting
        """
        if error is not None:
            self.__logger.warning(
                "Got {error}, {errno} when client attempted to connect to server"
                .format(error=error, errno=errno.strerror(error)))
        else:
            new_connection = TCP(handle.loop)
            # Accept a connection
            handle.accept(new_connection)
            # Add it to internal connections and create a session
            session = self.__session_creator(new_connection)
            session.start()
            self.__connections.append(new_connection)
Ejemplo n.º 8
0
 def inner_acceptor(handle, events, error):
     """Function that try to accept new connection."""
     if error:  # pragma: no cover
         logger.error('Error handling new connection for'
                      ' service %r: %s', service, strerror(error))
         return
     try:
         fd, addr = utils.accept_connection(listen_fd)
     except OSError as exc:
         if exc.errno not in NOTBLOCK:
             raise
         return
     try:
         # Setup socket.
         utils.set_nonblocking(fd)
         utils.set_sockopt(fd, socket.IPPROTO_TCP, socket.TCP_NODELAY, 1)
     except:
         os.close(fd)
         raise
     handle = TCP(loop)
     handle.open(fd)
     connection = self.Connection(producer, loop, handle, addr, on_close)
     connections.register(connection)
Ejemplo n.º 9
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    def __on_data(self, client: TCP, data: bytes, error: Optional[int]):
        """
        Called when the TCP socket receives data
        :param client: The TCP Socket that received Data
        :param data: Read Data
        :param error: An Error would be here if it failed to read data
        """
        if error is not None:
            if error == -4095:
                self.__logger.warning("Got End of File from server")
                self.shutdown()
            else:
                self.__logger.error(
                    "Unknown TCP Error: {stringed}, errno: {no}".format(
                        stringed=errno.strerror(error), no=error))
                self.shutdown()
        else:
            # Parse the Message
            if self.__timeout_buffer != b"":
                data = self.__timeout_buffer + data
                self.__timeout_buffer = b""
            try:
                # Clear out the timeout buffer
                if self.__in_timeout:
                    self.__timeout_timer.stop()
                    self.__in_timeout = False
                while data != b"":
                    msg = message_to_type(data).parse_and_decode(data)
                    self.__logger.debug(
                        "Got {message} in state {state}".format(
                            message=msg, state=self.__protocol_state.name))
                    data = data[msg.calc_size() + 1:]
                    # Dispatch to another function based on current DFA state
                    {
                        ProtocolState.UNAUTHENTICATED:
                        self.__msg_on_unauthenticated,
                        ProtocolState.IN_QUEUE: self.__msg_on_in_queue,
                        ProtocolState.PROCESSING_GAME_STATE:
                        self.__msg_on_processing_game_state,
                        ProtocolState.USER_MOVE: self.__msg_on_user_move,
                        ProtocolState.GAME_END: self.__msg_on_game_end
                    }[self.__protocol_state](msg)
            except NotEnoughData:

                def timeout(timer_handle: Timer):
                    self.__logger.critical(
                        "Got invalid incomplete message ({raw}) from server, closing connections"
                        .format(raw=self.__timeout_buffer))
                    self.shutdown()

                # If already in timeout, restart the timer
                if self.__in_timeout:
                    self.__timeout_timer.stop()
                # Append data to the buffer
                self.__timeout_buffer += data
                # Set in timeout
                self.__in_timeout = True
                # Start timer to close connection after timeout duration if needed
                self.__timeout_timer.start(timeout, self.__timeout_duration, 0)
            except InvalidType:
                self.__logger.critical(
                    "Got Invalid Message Type in message ({raw}) from server, closing connections"
                    .format(raw=data))
                self.shutdown()
            except StructError:
                self.__logger.critical(
                    "Got Invalid Message ({raw}) from server, closing connections"
                    .format(raw=data))
                self.shutdown()
Ejemplo n.º 10
0
    def __on_data(self, client: TCP, data: bytes, error: Optional[int]):
        """
        Called when the session receives data
        :param client: The TCP socket that data was received on
        :param data: Raw buffer of received data
        :param error: Where an error would be
        """
        if error is not None:
            # End of file
            if error == -4095:
                self.disconnect()
            else:
                self.__logger.warning(
                    "Got unknown error {strerror} {errno} while reading from client {username}"
                    .format(strerror=errno.strerror(error),
                            errno=error,
                            username=self.username))
                self.disconnect()
        else:
            if self.__timeout_buffer != b"":
                data = self.__timeout_buffer + data
                self.__timeout_buffer = b""
            try:
                # Clear out the timeout stuff since data was received
                if self.__in_timeout:
                    self.__timeout_timer.stop()
                    self.__in_timeout = False
                while data != b"":
                    msg = message_to_type(data).parse_and_decode(data)
                    self.__logger.debug(
                        "Received {message} from user {user} with session in state {state}"
                        .format(message=msg,
                                user=self.username or "(who is not logged in)",
                                state=self.__current_state.name))
                    data = data[msg.calc_size() + 1:]
                    # Call the correct callback based on current protocol state
                    {
                        ProtocolState.UNAUTHENTICATED:
                        self.__msg_on_unauthenticated,
                        ProtocolState.IN_QUEUE: self.__msg_on_in_queue,
                        ProtocolState.PROCESSING_GAME_STATE:
                        self.__msg_on_processing_game_state,
                        ProtocolState.USER_MOVE: self.__msg_on_user_move,
                        ProtocolState.GAME_END: self.__msg_on_game_end
                    }[self.__current_state](msg)
            except NotEnoughData:

                def timeout(timer_handle: Timer):
                    self.__logger.critical(
                        "Got invalid incomplete message ({raw}) from session {user}, disconnecting user"
                        .format(raw=self.__timeout_buffer, user=self.username))
                    self.disconnect()

                # If already in timeout, restart the timer
                if self.__in_timeout:
                    self.__timeout_timer.stop()
                # Append data to the buffer
                self.__timeout_buffer = data
                # Set in timeout
                self.__in_timeout = True
                # Start timer to close connection after timeout duration if needed
                self.__timeout_timer.start(timeout, self.__timeout_duration, 0)
            except InvalidType:
                self.__logger.critical(
                    "Got Invalid Message Type in message ({raw}) from session {user}, disconnecting user"
                    .format(raw=data, user=self.username),
                    exc_info=True)
                self.disconnect()
            except StructError:
                self.__logger.critical(
                    "Got Invalid Message ({raw}) from session {user}, disconnecting user"
                    .format(raw=data, user=self.username))
                self.disconnect()