def __init__(self):
''' Initialize the server.'''
import __builtin__
__builtin__.LOG = LogConsole()
print('Starting PSG Server ...')
self._cManager = QueuedConnectionManager()
self._cListener = QueuedConnectionListener(self._cManager, 0)
self._cReader = QueuedConnectionReader(self._cManager, 0)
self._cWriter = ConnectionWriter(self._cManager,0)
#TODO - Load user file (DB)
self.registeredUsers =[ServerPlayer('chad','password1'),
ServerPlayer('josh','password2'),
ServerPlayer('james','password3')]
# Map store
self._mapStore = MapStore()
# Open socket
self._tcpSocket = self._cManager.openTCPServerRendezvous(PORT,BACKLOG)
self._cListener.addConnection(self._tcpSocket)
# Setup interfaces
self._console = InterfaceConsole(self)
# Setup system tasks
taskMgr.add(self.__listenTask, 'serverListenTask', -40)
taskMgr.add(self.__readTask, 'serverReadTask', -39)
taskMgr.doMethodLater(PING_DELAY, self.__pingTask, 'serverPingTask', sort=-41)
taskMgr.doMethodLater(1, self.__checkPingRespTask, 'serverCheckPingRespTask', sort=-10)
print('Server initialized')
def __init__(self): ''' Creates a new game.''' self.id = -1 self.name = '' self.numPlayers = 0 self.turnNumber = 0 self.startTime = 0 self.mapFile = '' self.map = None self.mapSize = None self._mapStore = MapStore()
class Game(object): ''' The game class stores the basic information for games.''' def __init__(self): ''' Creates a new game.''' self.id = -1 self.name = '' self.numPlayers = 0 self.turnNumber = 0 self.startTime = 0 self.mapFile = '' self.map = None self.mapSize = None self._mapStore = MapStore() def loadMap(self, filename='', id=''): ''' Load the map TODO - Can this be removed? ''' if id is not '': self.mapFile = self._mapStore.getMap(id=id)['filename'] self.map = self._mapStore.loadMap(self.mapFile) if filename is not '': self.mapFile = filename if self.mapFile is not '' and os.path.exists(MAP_PATH + self.mapFile): self.map = self._mapStore.loadMap(self.mapFile) def runTime(self): if self.startTime > 0: return time.time() - self.startTime else: return self.startTime def __repr__(self): r = "<ClientGame: id=%d, name=%s, numPlayers=%d, "%(self.id, self.name, self.numPlayers) r+= "startTime=%s, turnNumber=%d "%(self.startTime, self.turnNumber) r+= "mapFile=%s>"%self.mapFile return r
class PSGServer(object):
''' The main server that listens for connections and manages active games.
This also runs the console which can interact with the server.'''
# registeredUsers is a list of User objects of registered users
registeredUsers = []
# connectedUsers is a list of User objects of currently connected users
connectedUsers = []
# connections is a list of Connection objects
connections =[]
# Connections that have not responded to their keepalive request.
# A dictionary of the form (Connection, pingtime)
pingNonResponders = {}
# games is a list of active GameStateServer objects
games = []
def __init__(self):
''' Initialize the server.'''
import __builtin__
__builtin__.LOG = LogConsole()
print('Starting PSG Server ...')
self._cManager = QueuedConnectionManager()
self._cListener = QueuedConnectionListener(self._cManager, 0)
self._cReader = QueuedConnectionReader(self._cManager, 0)
self._cWriter = ConnectionWriter(self._cManager,0)
#TODO - Load user file (DB)
self.registeredUsers =[ServerPlayer('chad','password1'),
ServerPlayer('josh','password2'),
ServerPlayer('james','password3')]
# Map store
self._mapStore = MapStore()
# Open socket
self._tcpSocket = self._cManager.openTCPServerRendezvous(PORT,BACKLOG)
self._cListener.addConnection(self._tcpSocket)
# Setup interfaces
self._console = InterfaceConsole(self)
# Setup system tasks
taskMgr.add(self.__listenTask, 'serverListenTask', -40)
taskMgr.add(self.__readTask, 'serverReadTask', -39)
taskMgr.doMethodLater(PING_DELAY, self.__pingTask, 'serverPingTask', sort=-41)
taskMgr.doMethodLater(1, self.__checkPingRespTask, 'serverCheckPingRespTask', sort=-10)
print('Server initialized')
def __listenTask(self, Task):
''' This task listens for connections. When a connection is made it
adds the connection to the clients list and begins listening to
that connection.'''
if self._cListener.newConnectionAvailable():
rendezvous = PointerToConnection()
netAddress = NetAddress()
newConnection = PointerToConnection()
if self._cListener.getNewConnection(rendezvous,netAddress,newConnection):
newConnection = newConnection.p()
if newConnection not in self.connections:
self.connections.append(newConnection)
self._cReader.addConnection(newConnection) # Begin reading connection
self._console.printNotice('Connection from %s'%netAddress.getIpString())
else:
self._console.printNotice('%s: already connected'%(newConnection.getAddress().getIpString()))
return Task.cont
def __readTask(self, Task):
''' This task listens for any messages coming in over any connections.
If we get a connection passes it to the datagram handler.'''
if self._cReader.dataAvailable():
datagram=NetDatagram()
if self._cReader.getData(datagram):
data = PyDatagramIterator(datagram)
msgID = data.getUint16()
else:
data = None
msgID = MSG_NONE
else:
datagram = None
data = None
msgID = MSG_NONE
if msgID is not MSG_NONE:
self.__handleDatagram(data, msgID, datagram.getConnection())
return Task.cont
def __pingTask(self, Task):
''' Ping all clients every PING_DELAY seconds to check for those who
have dropped their connection.'''
notice = 'Pinging: '
for c in self.connections:
# Don't ping connections we're still waiting on
if c not in self.pingNonResponders.keys():
notice = '%s%s '%(notice, c.getAddress().getIpString())
self.pingNonResponders[c] = int(time.time())
pkg = NetDatagram()
pkg.addUint16(MSG_PING_REQ)
self._cWriter.send(pkg, c)
LOG.notice(notice)
# Add task back into the taskmanager
taskMgr.doMethodLater(PING_DELAY, self.__pingTask, 'serverPingTask', sort=-41)
def __checkPingRespTask(self, Task):
''' Run through the list of connections that haven't responded to their
ping yet and disconnect them if has been more than PING_TIMEOUT
seconds.'''
notice = 'Cleaning non-responders '
for c in self.pingNonResponders.keys():
notice = '%s%s '%(notice, c.getAddress().getIpString())
now = int(time.time())
pingTime = self.pingNonResponders[c]
if ((now - pingTime) > PING_TIMEOUT):
#print('disconnecting '),
self.__handleDisconnect(None, None, c)
LOG.notice(notice)
# Add task back into the taskmanager
taskMgr.doMethodLater(1, self.__checkPingRespTask, 'serverCheckPingRespTask', sort=-10)
def __handleDatagram(self, data, msgID, client):
''' This handles incoming messages. It can run the appropriate handler
from the server or pass it to the relevant game to deal with.
data (PyDatagramIterator): the list of data sent with this datagram
msgID (Int): the message ID
client (Connection): the connection that this datagram came from'''
self._console.printNotice('%s: Recieved msg: %d'%(client.getAddress().getIpString(),msgID))
# System messages
if (msgID == MSG_PING_REQ):
self._console.printNotice('Notice: MSG_PING_REQ')
self.__handlePingReq(data, msgID, client)
elif (msgID == MSG_PING_RES):
self._console.printNotice('Notice: MSG_PING_RES')
self.__handlePingRes(data, msgID, client)
elif (msgID == MSG_DISCONNECT_REQ):
self._console.printNotice('Notice: MSG_DISCONNECT_REQ')
self.__handleDisconnect(data, msgID, client)
# Pre-game server messages
elif (msgID == MSG_AUTH_REQ):
self._console.printNotice('Notice: MSG_AUTH_REQ')
self.__handleAuth(data, msgID, client)
elif (msgID == MSG_MAPLIST_REQ):
self._console.printNotice('Notice: MSG_MAPLIST_REQ')
#self.__handleMapList(data, msgID, client)
elif (msgID == MSG_GAMELIST_REQ):
self._console.printNotice('Notice: MSG_GAMELIST_REQ')
self.__handleGameList(data, msgID, client)
elif (msgID == MSG_NEWGAME_REQ):
self._console.printNotice('Notice: MSG_NEWGAME_REQ')
self.__handleNewGame(data, msgID, client)
elif (msgID == MSG_JOINGAME_REQ):
self._console.printNotice('Notice: MSG_JOINGAME_REQ')
self.__handleJoinGame(data, msgID, client)
elif (msgID == MSG_DOWNLOADMAP_REQ):
self._console.printNotice('Notice: MSG_DOWNLOADMAP_REQ')
self.__handleDownloadMap(data, msgID, client)
elif (msgID == MSG_DOWNLOADUPD_REQ):
self._console.printNotice('Notice: MSG_DOWNLOADUPD_REQ')
self.__handleDownloadUpdate(data, msgID, client)
# In-game server messages
elif (msgID >= MSG_INGAME):
self.__route(data, msgID, client)
else:
self._console.printNotice('%s: Unkown MSG_ID: %d'%(client.getAddress().getIpString(),msgID))
print(data)
def __handlePingReq(self, data, msgID, client):
''' Respond to a ping request.
data (PyDatagramIterator): the list of data sent with this datagram
msgID (Int): the message ID
client (Connection): the connection that this datagram came from'''
# Send response
pkg = NetDatagram()
pkg.addUint16(MSG_PING_RES)
self._cWriter.send(pkg, client)
self._console.printNotice('%s: Ping request'%(client.getAddress().getIpString()))
def __handlePingRes(self, data, msgID, client):
''' Handle an incoming ping response.
data (PyDatagramIterator): the list of data sent with this datagram
msgID (Int): the message ID
client (Connection): the connection that this datagram came from'''
self._console.printNotice('%s: Ping response'%(client.getAddress().getIpString()))
# Client responded so remove from non-responder list
try:
del(self.pingNonResponders[client])
except KeyError:
self._console.printNotice("%s responded to ping but was not in pingNonResponders"%client.getAddress())
def __handleDisconnect(self, data, msgID, client):
''' Disconnect and send confirmation to the client.
data (PyDatagramIterator): the list of data sent with this datagram
msgID (Int): the message ID
client (Connection): the connection that tendNehis datagram came from'''
# Create a response
pkg = NetDatagram()
pkg.addUint16(MSG_DISCONNECT_RES)
self._cWriter.send(pkg, client)
# If user has joined a game, remove the player from that game
for g in self.games:
if g.isPlayerInGame(client):
g.removePlayer(client)
# If user is logged in disconnect
username = ''
for u in self.connectedUsers:
if (u.connectedClient == client):
username = u.username
u.disconnect()
self.connectedUsers.remove(u)
# Delete client from list
if client in self.connections:
self.connections.remove(client)
# Don't worry about pings any more
if client in self.pingNonResponders:
del(self.pingNonResponders[client])
self._console.printNotice('%s: Disconnected user %s'%(client.getAddress().getIpString(),username))
def __handleAuth(self, data, msgID, client):
''' Try to authorize the connecting user, send the result.
data (PyDatagramIterator): the list of data sent with this datagram
msgID (Int): the message ID
client (Connection): the connection that this datagram came from'''
# Unpack message data
username = data.getString()
password = data.getString()
auth = 0
# Look for the username in the list of registered users
for u in self.registeredUsers:
if u.username == username:
if u.connected:
auth = 1
self._console.printNotice('%s: User %s already connected'%(client.getAddress().getIpString(),username))
break
elif u.password != password:
auth = 2
self._console.printNotice('%s: User %s gave invalid password'%(client.getAddress().getIpString(),username))
break
else:
auth = 3
u.connect(client)
self.connectedUsers.append(u)
self._console.printNotice('%s: User %s connected with pass %s' %(client.getAddress().getIpString(),username,password))
# Send response
pkg = NetDatagram()
pkg.addUint16(MSG_AUTH_RES)
pkg.addUint32(auth)
self._cWriter.send(pkg, client)
def __handleMapList(self, data, msgID, client):
''' Assemble a list of available maps and send it to the requesting client.
data (PyDatagramIterator): the list of data sent with this datagram
msgID (Int): the message ID
client (Connection): the connection that this datagram came from'''
# Assemble a list with entries in the form (filename,mapname,md5sum)
mapFileList = Map.getMapFiles()
responseList = []
for f in mapFileList:
fh = open(Map.MAP_PATH + f,' rb')
mapObj = cPickle.load(fh)
responseList.append((mapObj.name, f, Map.getMapMD5(f)))
# Send response
pkg = NetDatagram()
pkg.addUint16(MSG_MAPLIST_RES)
pkg.addString('SOT') # Start Of Transmission
for i, (n,f,c) in enumerate(responseList):
pkg.addString(n)
pkg.addString(f)
pkg.addString(c)
if i < len(responseList)-1:
pkg.addString('T') # Still tranmitting
pkg.addString('EOT') # End Of Transmission
self._cWriter.send(pkg, client)
self._console.printNotice('%s: Request for map list.' %(client.getAddress().getIpString()))
def __handleGameList(self, data, msgID, client):
''' Assemble a list of active games and send it to the requesting client.
data (PyDatagramIterator): the list of data sent with this datagram
msgID (Int): the message ID
client (Connection): the connection that this datagram came from'''
# Send response
pkg = NetDatagram()
pkg.addUint16(MSG_GAMELIST_RES)
if (len(self.games) == 0):
pkg.addString('EOT') # Nothing to transmit
else:
pkg.addString('SOT') # Start Of Transmission
for i,g in enumerate(self.games):
pkg.addInt32(g.id)
pkg.addString(g.name)
pkg.addUint32(g.numPlayers)
pkg.addString(g.map.name)
pkg.addString(g.mapFile)
pkg.addUint32(g.startTime)
pkg.addUint32(g.turnNumber)
if i < len(self.games)-1:
pkg.addString('T') # Still tranmitting
pkg.addString('EOT') # End Of Transmission
self._cWriter.send(pkg, client)
self._console.printNotice('%s: Request for game list.' %(client.getAddress().getIpString()))
def __handleNewGame(self, data, msgID, client):
''' Create a new game and respond with success or failure.
data (PyDatagramIterator): the list of data sent with this datagram
msgID (Int): the message ID
client (Connection): the connection that tendNehis datagram came from'''
# Unpack message data
gameName = data.getString()
mapID = data.getString()
numPlayers = data.getUint32()
# If we do not have the map for the requested game tell client
print("id=%s"%mapID)
if(not self._mapStore.isAvailable(id=mapID)):
response = 0
else:
# Create the game
newGame = GameStateServer(gameName, numPlayers, mapID)
if newGame is not None:
self.games.append(newGame)
response = newGame.id
else:
response = -1
# Send response
pkg = NetDatagram()
pkg.addUint16(MSG_NEWGAME_RES)
pkg.addInt32(response)
self._cWriter.send(pkg, client)
self._console.printNotice('%s: Request for new game: %s, %s, %d.' %(client.getAddress().getIpString(),gameName,mapID,numPlayers))
def __handleJoinGame(self, data, msgID, client):
''' Add client to the requested game.
data (PyDatagramIterator): the list of data sent with this datagram
msgID (Int): the message ID
client (Connection): the connection that tendNehis datagram came from'''
# Unpack message data
id = data.getUint32()
resp = 0
# Find the game
game = None
mapMD5 = "00000000000000000000000000000000"
print self.games
for g in self.games:
if g.id == id:
game = g
mapMD5 = g.mapID
if game == None:
LOG.debug('No such game')
resp = 0
elif len(game.connections) >= game.numPlayers:
LOG.debug('Game full')
resp = 1
else:
game.addPlayer(client)
LOG.debug('Ok, joining game')
resp = 2
# Send response
pkg = NetDatagram()
pkg.addUint16(MSG_JOINGAME_RES)
pkg.addUint32(resp)
pkg.addString(mapMD5)
self._cWriter.send(pkg, client)
self._console.printNotice('%s: Request to join game id %d, gave %d.'%(client.getAddress().getIpString(),id,resp))
def __handleDownloadMap(data, msgID, client):
''' Prepare and send requested map to client
data (PyDatagramIterator): the list of data sent with this datagram
msgID (Int): the message ID
client (Connection): the connection that tendNehis datagram came from'''
# Unpack message data
id = data.getUint32()
resp = 0
filename = self._mapStore.getMap(id=id)['filename']
mapString = self._mapStore.loadMapAsString(filename)
if (mapString == None):
LOG.debug('No such map')
resp = 0
mapString = ''
else:
LOG.debug('Sending map')
resp = 1
# Send response
pkg = NetDatagram()
pkg.addUint16(MSG_JOINGAME_RES)
pkg.addUint32(resp)
pkg.addString(mapString)
self._cWriter.send(pkg, client)
def __handleDownloadUpdate(data, msgID, client):
pass
def __route(self, data, msgID, client):
LOG.notice('Routing msg to GameStateServer')
def shutdown(self):
print('Shutting down server ...')
# Send disconnect to all clients
pkg = NetDatagram()
pkg.addUint16(MSG_DISCONNECT_REQ)
for c in self.connections:
self._cWriter.send(pkg, c)
self._cManager.closeConnection(self._tcpSocket)
print('Server done')
sys.exit()
def disconnect(self, client):
''' Disconnect client'''
self.__handleDisconnect(None, None, client)
