Ejemplo n.º 1
0
 def tick(self):
     cur_time = time.time()
     if not (self.sock.protocol_mode == mcsock.protocol_modes['play']): return
     if (cur_time-self.last_tick) >= self.tick_delay:
        self.minecraft_client_tick()
        self.last_tick = cur_time
     if (cur_time - self.last_full_update) >= 1.0:
        self.full_update()
        self.last_full_update = cur_time
     end_time = time.time()
     if end_time-cur_time <= self.tick_delay:
        eventlet.greenthread.sleep(self.tick_delay-end_time-cur_time) # this should make updates very slightly mildly smoother, but only a little bit
     else:
        yatelog.warn('minecraft','tick took longer than the standard tick delay - this usually indicates you need a better CPU or better coding skills')
Ejemplo n.º 2
0
 def __call__(self, *args, **kwargs):
     if not kwargs.has_key('protomode'):
         protomode = self.sock.protocol_mode
     else:
         protomode = kwargs['protomode']
     if not self.idents.has_key(protomode):
         yatelog.warn(
             'MCSock',
             'No ident for packet %s in current protocol mode %s' %
             (self.name, protocol_modes[protomode]))
         return
     data = b""
     for arg in args:
         data += arg
     self.sock.sendraw(self.idents[protomode], data)
Ejemplo n.º 3
0
 def readpack(self):
     """ Reads a single packet from the socket
        Used internally, must NOT be called from anywhere but read_thread lest bad things happen
        After reading the packet, if a handler is registered then we throw it to that handler in a greenlet
    """
     if self.protocol_mode < 3:
         max_bits = 21
     else:
         max_bits = 32
     packlen = self.recv_buff.unpack_varint(max_bits=max_bits)
     self.recv_buff.add(self.cipher.decrypt(self.tcp_sock.recv(packlen)))
     packbody = self.recv_buff.read(packlen)
     pack_buff = buffer.Buffer()
     pack_buff.add(packbody)
     if self.compression_enabled:
         uncompressed_len = pack_buff.unpack_varint()
         if uncompressed_len > 0:
             data = zlib.decompress(pack_buff.read())
             pack_buff = buffer.Buffer()
             pack_buff.add(data)
     try:
         ident = pack_buff.unpack_varint()
         k = (self.protocol_version, protocol_modes[self.protocol_mode],
              'downstream', ident)
         if packets.packet_names.has_key(k):
             if self.handlers.has_key(packets.packet_names[k]):
                 try:
                     if self.blocking_handlers:
                         self.handlers[packets.packet_names[k]](pack_buff)
                     else:
                         self.pool.spawn_n(
                             self.handler_wrapper, packets.packet_names[k],
                             self.handlers[packets.packet_names[k]],
                             pack_buff)
                 except:
                     yatelog.minor_exception(
                         'MCSock', 'Error scheduling packet handler')
             else:
                 yatelog.warn(
                     'MCSock', 'Received unhandled packet: %s' %
                     packets.packet_names[k])
         else:
             yatelog.error('MCSock', 'Unknown packet received: %s' % str(k))
     except:
         yatelog.minor_exception('MCSock',
                                 'Failed decoding received packet')
Ejemplo n.º 4
0
 def get_voxel(self,spatial_pos):
     yatelog.debug('minecraft','Querying block at %s' % str(spatial_pos))
     insane_x = spatial_pos[0]
     insane_y = spatial_pos[2]
     insane_z = spatial_pos[1]
     block = self.world.get_block(insane_x,insane_y,insane_z)
     if block is None:
        yate_type = YATE_VOXEL_UNKNOWN
        yatelog.warn('minecraft','Requested unknown block at %s' % (str(spatial_pos)))
        vox = base.YateBaseVoxel(spatial_pos=tuple(spatial_pos),basic_type=YATE_VOXEL_UNKNOWN)
        return vox 
     yatelog.debug('minecraft','Block is %s' % str(block))
     blockid = block[0]
     blockdata = burger_data.blockid_blocks[blockid]
     yatelog.debug('minecraft','Block at %s: %s' % (str(spatial_pos),blockdata))
     if blockdata['hardness'] == 0: yate_type=YATE_VOXEL_EMPTY
     if blockdata['hardness'] >  0: yate_type=YATE_VOXEL_TOTAL_OBSTACLE
     vox = base.YateBaseVoxel(spatial_pos=tuple(spatial_pos),basic_type=yate_type,specific_type=blockid)
     return vox
Ejemplo n.º 5
0
 def timeout_thread(self):
     """ kill peers that have timed out
    """
     while self.active:
         eventlet.greenthread.sleep(YATE_KEEPALIVE_TIMEOUT)
         cur_time = time.time()
         peer_list = self.known_peers.copy()  # thread safety bitches
         for peer in peer_list:
             if not self.last_pack.has_key(peer):
                 yatelog.warn(
                     'YATESock',
                     'Peer %s:%s never actually sent us a single packet after connecting'
                     % peer)
                 self.known_peers.discard(peer)
             else:
                 if cur_time - self.last_pack[peer] > YATE_KEEPALIVE_TIMEOUT:
                     yatelog.info('YATESock',
                                  'Peer %s:%s has timed out, bye' % peer)
                     self.known_peers.discard(peer)
Ejemplo n.º 6
0
 def msg_reader_thread(self, msg_type):
     """ This is used internally to handle all messages of the specified type when they come in from the parser thread
    """
     msg_type_s = msgtype_str[msg_type]
     while self.active:
         eventlet.greenthread.sleep(0)
         if not self.handlers.has_key(
                 msg_type
         ):  # don't bother wasting CPU time on it, just pull from the queue and then do nothing else
             yatelog.warn('YATESock', 'No handler for %s' % msg_type_s)
             try:
                 self.in_queues[msg_type].get()
             except:
                 pass
             continue
         eventlet.greenthread.sleep(0)
         msg_tuple = None
         while msg_tuple == None:
             eventlet.greenthread.sleep(0)
             try:
                 msg_tuple = self.in_queues[msg_type].get()
             except:
                 yatelog.minor_exception('YATESock',
                                         'Error reading packet from queue')
         if msg_tuple != None:
             msg_params = msg_tuple[0]
             msg_id = msg_tuple[1]
             from_addr = msg_tuple[2]
             yatelog.debug(
                 'YATESock', 'Got message %s from %s:%s: %s' %
                 (msg_type_s, from_addr[0], from_addr[1], msg_params))
             if (from_addr in self.known_peers):
                 try:
                     self.handlers[msg_type](msg_params, from_addr, msg_id)
                 except:
                     yatelog.minor_exception('YATESock',
                                             'Error handling message')
             else:
                 if msg_type == MSGTYPE_CONNECT:
                     self.handle_connect(msg_params, from_addr, msg_id)
                 else:
                     self.send_unknown_peer(to_addr=from_addr)