def RecvSync(self, timeout):
'''The receiving end of Sync().
Return value:
0 on success and -1 on failure.
'''
end_time = time.time() + timeout
reply = TPMessage()
reply.method = TPMessage.METHOD_SYNC
while time.time() < end_time:
try:
(ready, _, _) = select.select([self], [], [],
max(0, end_time - time.time()))
if ready == []:
continue
msg = self.ReadEvent()
recv_time = time.time()
reply.timestamp = int(recv_time * 1000)
if msg.event_type != EventType.HANDSHAKE:
break
if msg.method != TPMessage.METHOD_SYNC:
break
reply.ack = msg.seq
(_, ready, _) = select.select([], [self], [],
max(0, end_time - time.time()))
if ready == []:
continue
self.WriteEvent(reply)
logger.debug('Sent timestamp {0}.'.format(reply.timestamp))
except Exception as e:
logger.exception(e)
return -1
return 0
def test_ReadAndWriteEvent_Handshake_2(self):
evt = TPMessage()
evt.method = 4
evt.timestamp = 40000000
self.template_ReadAndWriteEvent(evt)
def test_SerializeAndDeserialize_2(self):
msg = TPMessage()
msg.timestamp = 10
self.template_SerializeAndDeserialize(msg)
def Sync(self, timeout, sync_rate):
'''Measure the latency and clock-difference to the peer.
This UDPSocket must be 'connected' to a peer.
self.latency will be set to half the average round-trip-time in msec.
self.delta will be set to the estimated clock-difference in msec.
We use Cristian's algorithm to estimate the clock difference.
We assume clock drift is negligible over the course of the game.
Arguments:
timeout -- The time allocated to this method.
sync_rate -- The maximum number of messages to send per second.
Return value: 0 on success and -1 on error.
'''
assert timeout >= 0
assert sync_rate > 0
initial_seq = self.sock.seq
time_between_send = 1.0 / sync_rate
last_send = 0.0
end_time = time.time() + timeout
n = 0
average_rtt = 0
min_rtt = 1000000
while time.time() < end_time:
if time.time() - last_send < time_between_send:
continue
# Expect up to time_between_send * sync_rate + 1 messages
assert self.sock.seq - initial_seq <= timeout * sync_rate
expected_ack = self.sock.seq
msg = TPMessage()
msg.method = TPMessage.METHOD_SYNC
msg.seq = self.sock.seq
try:
(_, ready, _) = select.select([], [self], [],
max(0, end_time - time.time()))
if ready == []:
continue
logger.debug('Sending seq {0}.'.format(msg.seq))
start_trip = time.time()
last_send = start_trip
self.WriteEvent(msg)
seq_end_time = start_trip + time_between_send
# Wait and read until we find the expected response or timeout.
while True:
reply = None
remaining = seq_end_time - time.time()
(ready, _, _) = select.select([self], [], [], remaining)
if ready == []:
break
reply = self.ReadEvent()
end_trip = time.time()
if reply.event_type != EventType.HANDSHAKE:
continue
if reply.method != TPMessage.METHOD_SYNC:
continue
if reply.ack != expected_ack:
logger.info('Reply was out of order')
continue
break
if reply == None:
continue
logger.info('Received sync response.')
rtt = int((end_trip - start_trip) * 1000)
delta = reply.timestamp - int(start_trip * 1000)
if rtt < min_rtt:
min_rtt = rtt
self.delta = int(delta - (min_rtt // 2))
average_rtt = (average_rtt * n + rtt) / (n + 1)
logger.info(\
'timestamp={0}, start={1}, delta={2}, end={3}'.format( \
reply.timestamp, start_trip,
delta, end_trip))
n += 1
except Exception as e:
logger.exception(e)
return -1
self.latency = int(average_rtt // 2)
if n == 0:
logger.info('Failed to get any sync data')
return -1
return 0
def Handshake(self, svr, resend, timeout):
'''Perform a handshake with the server. This must be done prior to
starting the game. This method sets self.conf to the game configuration
provided by the server.
self.conf.start_time is sent separately and set when the start of game
is confirmed.
Argument:
svr -- A UDPEventSocket connected to the server.
resend -- Number of duplicate messages to send.
timeout -- Timeout for the handshake.
Return value:
True if the handshake succeeded and False otherwise.
'''
start_time = time.time()
end_time = start_time + timeout
logger.info('Waiting for server to initiate handshake.')
did_receive_invitation = False
while time.time() < end_time:
try:
(ready, _, _) = select.select([svr], [], [],
end_time - time.time())
if ready == []:
continue
msg = svr.ReadEvent()
except Exception as e:
logger.exception(e)
continue
if msg.event_type != EventType.CONFIGURE:
continue
self.conf = msg
did_receive_invitation = True
break
if not did_receive_invitation:
logger.info('Handshake timed out. Failing.')
return False
logger.info('Sending confirmation.')
reply = TPMessage()
reply.method = TPMessage.METHOD_CONFIRM
try:
status = svr.WriteEvent(reply, 0.5, resend)
except Exception as e:
logger.exception(e)
return False
if status != 0:
logger.error('Failed to send confirmation.')
return False
logger.info('Waiting for start of game.')
did_receive_start = False
end_time = time.time() + 0.5
while time.time() < end_time:
try:
(ready, _, _) = select.select([svr], [], [],
end_time - time.time())
if ready == []:
continue
msg = svr.ReadEvent()
except Exception as e:
logger.exception(e)
continue
if msg.event_type != EventType.HANDSHAKE:
logger.debug('Incorrect message type received.')
continue
if msg.method == TPMessage.METHOD_STARTGAME:
did_receive_start = True
self.conf.start_time = msg.timestamp
break
if not did_receive_start:
logger.info('Handshake timed out.')
return False
logger.info('Handshake succeeded.')
return True
