def on_server_registered(self):
self.timers = TimerManager()
self.timers.register_timer(None, self.timer_connected_players, 1.0)
def thread_ep(server_instance):
# Thread entry point
server_instance.event_thread_alive = True
while server_instance.event_thread_alive:
server_instance.event_loop()
time.sleep(0.1)
self.event_thread = Thread(target=thread_ep, args=(self, ))
self.event_thread.start()
def Login(self):
self.AutoMSG = Packets.MSGID_REQUEST_LOGIN
self.LSock = XSocket({
'host': self.Config['IP'],
'port': self.Config['Port'],
'onConnect': self.LSock_Connect,
'onDisconnect': self.LSock_Disconnect,
'onRead': self.LSock_Read
})
self.LoggedIn = False
self.Status = 0
self.char_list = []
self.LSock.Active = True
self.LSock.join()
self.Timers = TimerManager()
del self.LSock
return self.Status
def on_server_registered(self): self.timers = TimerManager() self.timers.register_timer(None, self.timer_connected_players, 1.0) def thread_ep(server_instance): # Thread entry point server_instance.event_thread_alive = True while server_instance.event_thread_alive: server_instance.event_loop() time.sleep(0.1) self.event_thread = Thread(target = thread_ep, args = (self, )) self.event_thread.start()
def Login(self):
self.AutoMSG = Packets.MSGID_REQUEST_LOGIN
self.LSock = XSocket(
{
"host": self.Config["IP"],
"port": self.Config["Port"],
"onConnect": self.LSock_Connect,
"onDisconnect": self.LSock_Disconnect,
"onRead": self.LSock_Read,
}
)
self.LoggedIn = False
self.Status = 0
self.char_list = []
self.LSock.Active = True
self.LSock.join()
self.Timers = TimerManager()
del self.LSock
return self.Status
class Helbreath:
def __init__(self, Cfg):
self.Config = Cfg
self.AutoMSG = 0
def Login(self):
self.AutoMSG = Packets.MSGID_REQUEST_LOGIN
self.LSock = XSocket(
{
"host": self.Config["IP"],
"port": self.Config["Port"],
"onConnect": self.LSock_Connect,
"onDisconnect": self.LSock_Disconnect,
"onRead": self.LSock_Read,
}
)
self.LoggedIn = False
self.Status = 0
self.char_list = []
self.LSock.Active = True
self.LSock.join()
self.Timers = TimerManager()
del self.LSock
return self.Status
def EnterGame(self):
if not self.LoggedIn:
return False
self.LSock = XSocket(
{
"host": self.Config["IP"],
"port": self.Config["Port"],
"onConnect": self.LSock_Connect,
"onDisconnect": self.LSock_Disconnect,
"onRead": self.LSock_Read,
}
)
self.AutoMSG = Packets.MSGID_REQUEST_ENTERGAME
self.Status = False
self.LSock.Active = True
self.LSock.join()
del self.LSock
if self.Status == False:
return False
else:
self.LSock = XSocket(
{
"host": self.Status[0],
"port": self.Status[1],
"onConnect": self.LSock_Connect,
"onDisconnect": self.LSock_Disconnect,
"onRead": self.LSock_Read,
}
)
self.AutoMSG = Packets.MSGID_REQUEST_INITPLAYER
self.Status = False
self.LSock.Active = True
return True
def run(self):
ok = Acc.Login()
if ok == Packets.DEF_MSGTYPE_CONFIRM:
print "Logged in."
if Acc.EnterGame() == False:
print "Unable to log into game server."
else:
print "Logged into game server."
else:
print "Could not login."
def LSock_Connect(self, sender):
# global Config
# print "Connected to login server at %s:%d" % (Config['IP'], Config['Port'])
if self.AutoMSG == Packets.MSGID_REQUEST_LOGIN:
self.LSock.Write(
Packets.MSGID_REQUEST_LOGIN,
0,
struct.pack(
"<10s10s30s", self.Config["Account"], self.Config["Password"], self.Config["WorldServerName"]
),
)
elif self.AutoMSG == Packets.MSGID_REQUEST_ENTERGAME:
chr = None
for c in self.char_list:
if c.CharName == self.Config["CharName"]:
chr = c
break
self.Player = chr
self.LSock.Write(
Packets.MSGID_REQUEST_ENTERGAME,
Packets.DEF_ENTERGAMEMSGTYPE_NEW,
struct.pack(
"<10s10s10s10si30s120s",
self.Config["CharName"],
chr.MapLoc,
self.Config["Account"],
self.Config["Password"],
chr.Level,
self.Config["WorldServerName"],
"",
),
)
elif self.AutoMSG == Packets.MSGID_REQUEST_INITPLAYER:
self.LSock.Write(
Packets.MSGID_REQUEST_INITPLAYER,
0,
struct.pack(
"<10s10s10s?20s", self.Player.CharName, self.Config["Account"], self.Config["Password"], False, ""
),
)
def LSock_Disconnect(self, sender):
pass
def LSock_Read(self, sender, data):
self.Status = "error"
while len(data) > 0:
format = "<Bh"
header_size = struct.calcsize(format)
if len(data) < header_size:
raise Exception
s = struct.unpack(format, data[:header_size])
Header = namedtuple("Header", "cKey dwSize")._make(s)
size = len(data)
data = data[header_size:]
buffer = data[: Header.dwSize - 3]
data = data[Header.dwSize - 3 :]
if Header.cKey > 0:
Decode = lambda buffer, dwSize, cKey: "".join(
map(
lambda n: (lambda asdf: chr(asdf & 255))((ord(buffer[n]) ^ (cKey ^ (dwSize - n))) - (n ^ cKey)),
range(len(buffer)),
)
)
buffer = Decode(buffer, Header.dwSize - 3, Header.cKey)
self.Status = 0
MsgID = struct.unpack("<L", buffer[:4])[0]
buffer = buffer[4:]
if MsgID == Packets.MSGID_RESPONSE_LOG:
self.OnAccountLogin(buffer)
sender.disconnect()
elif MsgID == Packets.MSGID_RESPONSE_ENTERGAME:
self.OnResponseEnterGame(buffer)
sender.disconnect()
# elif MsgID in [Packets.MSGID_REQUEST_INITDATA, Packets.MSGID_RESPONSE_INITPLAYER]:
elif MsgID == Packets.MSGID_RESPONSE_INITPLAYER:
self.InitPlayerResponseHandler(buffer)
elif MsgID == Packets.MSGID_RESPONSE_INITDATA:
# self.RequestInitDataHandler(buffer)
self.InitDataResponseHandler(buffer)
elif MsgID == Packets.MSGID_RESPONSE_NOTICEMENT:
self.ResponseNoticementHandler(buffer)
else:
# if MsgID in Packets:
# print "MsgID: %s" % (Packets.reverse_lookup_without_mask(MsgID))
# else:
print "MsgID: 0x%08X %db" % (MsgID, len(data))
def RequestNoticement(self):
try:
f = open("CONTENTS\\contents1000.txt", "r")
try:
fs = len(f.read())
finally:
f.close()
except:
fs = 0
self.LSock.Write(Packets.MSGID_REQUEST_NOTICEMENT, 0, struct.pack("<L", fs))
def ResponseNoticementHandler(self, buffer):
MsgType = struct.unpack("<h", buffer[:2])[0]
buffer = buffer[2:]
if MsgType == Packets.DEF_MSGTYPE_CONFIRM:
pass
elif MsgType == Packets.DEF_MSGTYPE_REJECT:
print buffer
f = open("CONTENTS\\contents1000.txt", "w")
try:
f.write(buffer)
finally:
f.close()
def InitDataResponseHandler(self, buffer):
print "Data response: %d " % len(buffer)
self.RequestNoticement()
self.Timers.register_timer(self.__checkconnection, "check_conn", 8.0, True)
def __checkconnection(self):
t = int(time.time())
self.LSock.Write(Packets.MSGID_COMMAND_CHECKCONNECTION, 0, struct.pack("<L", t))
def InitPlayerResponseHandler(self, buffer):
MsgType = struct.unpack("<h", buffer[:2])[0]
if MsgType == Packets.DEF_MSGTYPE_CONFIRM:
self.LSock.Write(
Packets.MSGID_REQUEST_INITDATA,
0,
struct.pack(
"<10s10s10s?20s", self.Player.CharName, self.Config["Account"], self.Config["Password"], False, ""
),
)
elif MsgType == Packets.DEF_MSGTYPE_REJECT:
print "Reject in init data handler"
self.LSock.disconect()
def OnResponseEnterGame(self, buffer):
global packet_format
MsgType = struct.unpack("<h", buffer[:2])[0]
buffer = buffer[2:]
if MsgType == Packets.DEF_ENTERGAMERESTYPE_REJECT:
self.Status = False
return
elif MsgType == Packets.DEF_ENTERGAMERESTYPE_CONFIRM:
self.Status = True
fmt = "<16sh"
fmt_s = struct.calcsize(fmt)
self.Status = map(packet_format, struct.unpack(fmt, buffer[:fmt_s]))
return
else:
print Packets.reverse_lookup_without_mask(MsgType)
self.Status = False
def OnAccountLogin(self, buffer):
MsgType = struct.unpack("<h", buffer[:2])[0]
buffer = buffer[2:]
self.Status = MsgType
if MsgType == Packets.DEF_MSGTYPE_CONFIRM:
print "Account %s login ok... Retrieving character list." % self.Config["Account"]
account_fmt = "<2H13xb" # 12x -> dates -> can skip
account_size = struct.calcsize(account_fmt)
account = struct.unpack(account_fmt, buffer[:account_size])
buffer = buffer[account_size:]
account = namedtuple("Account", "LowerVersion UpperVersion CharCount")._make(account)
char_format = "<10sx12xhi6h4x10x10s"
char_size = struct.calcsize(char_format)
character = namedtuple("Character", "CharName Level Exp Str Vit Dex Int Mag Chr MapLoc")
char_list = []
for c in range(account.CharCount):
tmp = buffer[:char_size]
buffer = buffer[char_size:]
tmp = map(packet_format, struct.unpack(char_format, tmp))
char_list += [character._make(tmp)]
self.char_list = char_list
self.LoggedIn = True
return True
elif MsgType == Packets.DEF_LOGRESMSGTYPE_REJECT:
print "Account %s blocked!" % self.Config["Account"]
return False
elif MsgType == Packets.DEF_LOGRESMSGTYPE_PASSWORDMISMATCH:
print "Account %s password mismatch!" % self.Config["Password"]
return False
elif MsgType == Packets.DEF_LOGRESMSGTYPE_NOTEXISTINGACCOUNT:
print "Account %s does not exists!" % self.Config["Account"]
return False
elif MsgType == Packets.DEF_LOGRESMSGTYPE_NOTEXISTINGWORLDSERVER:
print "Account %s: World server is not activated" % (self.Config["Account"])
return False
else:
print Packets.reverse_lookup_without_mask(MsgType)
return False
class Helbreath():
def __init__(self, Cfg):
self.Config = Cfg
self.AutoMSG = 0
def Login(self):
self.AutoMSG = Packets.MSGID_REQUEST_LOGIN
self.LSock = XSocket({
'host': self.Config['IP'],
'port': self.Config['Port'],
'onConnect': self.LSock_Connect,
'onDisconnect': self.LSock_Disconnect,
'onRead': self.LSock_Read
})
self.LoggedIn = False
self.Status = 0
self.char_list = []
self.LSock.Active = True
self.LSock.join()
self.Timers = TimerManager()
del self.LSock
return self.Status
def EnterGame(self):
if not self.LoggedIn:
return False
self.LSock = XSocket({
'host': self.Config['IP'],
'port': self.Config['Port'],
'onConnect': self.LSock_Connect,
'onDisconnect': self.LSock_Disconnect,
'onRead': self.LSock_Read
})
self.AutoMSG = Packets.MSGID_REQUEST_ENTERGAME
self.Status = False
self.LSock.Active = True
self.LSock.join()
del self.LSock
if self.Status == False:
return False
else:
self.LSock = XSocket({
'host': self.Status[0],
'port': self.Status[1],
'onConnect': self.LSock_Connect,
'onDisconnect': self.LSock_Disconnect,
'onRead': self.LSock_Read
})
self.AutoMSG = Packets.MSGID_REQUEST_INITPLAYER
self.Status = False
self.LSock.Active = True
return True
def run(self):
ok = Acc.Login()
if ok == Packets.DEF_MSGTYPE_CONFIRM:
print "Logged in."
if Acc.EnterGame() == False:
print "Unable to log into game server."
else:
print "Logged into game server."
else:
print "Could not login."
def LSock_Connect(self, sender):
#global Config
#print "Connected to login server at %s:%d" % (Config['IP'], Config['Port'])
if self.AutoMSG == Packets.MSGID_REQUEST_LOGIN:
self.LSock.Write(
Packets.MSGID_REQUEST_LOGIN, 0,
struct.pack('<10s10s30s', self.Config['Account'],
self.Config['Password'],
self.Config['WorldServerName']))
elif self.AutoMSG == Packets.MSGID_REQUEST_ENTERGAME:
chr = None
for c in self.char_list:
if c.CharName == self.Config['CharName']:
chr = c
break
self.Player = chr
self.LSock.Write(
Packets.MSGID_REQUEST_ENTERGAME,
Packets.DEF_ENTERGAMEMSGTYPE_NEW,
struct.pack('<10s10s10s10si30s120s', self.Config['CharName'],
chr.MapLoc, self.Config['Account'],
self.Config['Password'], chr.Level,
self.Config['WorldServerName'], ""))
elif self.AutoMSG == Packets.MSGID_REQUEST_INITPLAYER:
self.LSock.Write(
Packets.MSGID_REQUEST_INITPLAYER, 0,
struct.pack('<10s10s10s?20s', self.Player.CharName,
self.Config['Account'], self.Config['Password'],
False, ""))
def LSock_Disconnect(self, sender):
pass
def LSock_Read(self, sender, data):
self.Status = "error"
while len(data) > 0:
format = '<Bh'
header_size = struct.calcsize(format)
if len(data) < header_size:
raise Exception
s = struct.unpack(format, data[:header_size])
Header = namedtuple('Header', 'cKey dwSize')._make(s)
size = len(data)
data = data[header_size:]
buffer = data[:Header.dwSize - 3]
data = data[Header.dwSize - 3:]
if Header.cKey > 0:
Decode = lambda buffer, dwSize, cKey: "".join(
map(
lambda n: (lambda asdf: chr(asdf & 255))
((ord(buffer[n]) ^ (cKey ^ (dwSize - n))) -
(n ^ cKey)), range(len(buffer))))
buffer = Decode(buffer, Header.dwSize - 3, Header.cKey)
self.Status = 0
MsgID = struct.unpack('<L', buffer[:4])[0]
buffer = buffer[4:]
if MsgID == Packets.MSGID_RESPONSE_LOG:
self.OnAccountLogin(buffer)
sender.disconnect()
elif MsgID == Packets.MSGID_RESPONSE_ENTERGAME:
self.OnResponseEnterGame(buffer)
sender.disconnect()
#elif MsgID in [Packets.MSGID_REQUEST_INITDATA, Packets.MSGID_RESPONSE_INITPLAYER]:
elif MsgID == Packets.MSGID_RESPONSE_INITPLAYER:
self.InitPlayerResponseHandler(buffer)
elif MsgID == Packets.MSGID_RESPONSE_INITDATA:
#self.RequestInitDataHandler(buffer)
self.InitDataResponseHandler(buffer)
elif MsgID == Packets.MSGID_RESPONSE_NOTICEMENT:
self.ResponseNoticementHandler(buffer)
else:
#if MsgID in Packets:
# print "MsgID: %s" % (Packets.reverse_lookup_without_mask(MsgID))
#else:
print "MsgID: 0x%08X %db" % (MsgID, len(data))
def RequestNoticement(self):
try:
f = open("CONTENTS\\contents1000.txt", "r")
try:
fs = len(f.read())
finally:
f.close()
except:
fs = 0
self.LSock.Write(Packets.MSGID_REQUEST_NOTICEMENT, 0,
struct.pack('<L', fs))
def ResponseNoticementHandler(self, buffer):
MsgType = struct.unpack('<h', buffer[:2])[0]
buffer = buffer[2:]
if MsgType == Packets.DEF_MSGTYPE_CONFIRM:
pass
elif MsgType == Packets.DEF_MSGTYPE_REJECT:
print buffer
f = open("CONTENTS\\contents1000.txt", "w")
try:
f.write(buffer)
finally:
f.close()
def InitDataResponseHandler(self, buffer):
print "Data response: %d " % len(buffer)
self.RequestNoticement()
self.Timers.register_timer(self.__checkconnection, 'check_conn', 8.0,
True)
def __checkconnection(self):
t = int(time.time())
self.LSock.Write(Packets.MSGID_COMMAND_CHECKCONNECTION, 0,
struct.pack('<L', t))
def InitPlayerResponseHandler(self, buffer):
MsgType = struct.unpack('<h', buffer[:2])[0]
if MsgType == Packets.DEF_MSGTYPE_CONFIRM:
self.LSock.Write(
Packets.MSGID_REQUEST_INITDATA, 0,
struct.pack('<10s10s10s?20s', self.Player.CharName,
self.Config['Account'], self.Config['Password'],
False, ""))
elif MsgType == Packets.DEF_MSGTYPE_REJECT:
print "Reject in init data handler"
self.LSock.disconect()
def OnResponseEnterGame(self, buffer):
global packet_format
MsgType = struct.unpack('<h', buffer[:2])[0]
buffer = buffer[2:]
if MsgType == Packets.DEF_ENTERGAMERESTYPE_REJECT:
self.Status = False
return
elif MsgType == Packets.DEF_ENTERGAMERESTYPE_CONFIRM:
self.Status = True
fmt = "<16sh"
fmt_s = struct.calcsize(fmt)
self.Status = map(packet_format,
struct.unpack(fmt, buffer[:fmt_s]))
return
else:
print Packets.reverse_lookup_without_mask(MsgType)
self.Status = False
def OnAccountLogin(self, buffer):
MsgType = struct.unpack('<h', buffer[:2])[0]
buffer = buffer[2:]
self.Status = MsgType
if MsgType == Packets.DEF_MSGTYPE_CONFIRM:
print "Account %s login ok... Retrieving character list." % self.Config[
'Account']
account_fmt = "<2H13xb" #12x -> dates -> can skip
account_size = struct.calcsize(account_fmt)
account = struct.unpack(account_fmt, buffer[:account_size])
buffer = buffer[account_size:]
account = namedtuple(
'Account',
'LowerVersion UpperVersion CharCount')._make(account)
char_format = "<10sx12xhi6h4x10x10s"
char_size = struct.calcsize(char_format)
character = namedtuple(
'Character',
'CharName Level Exp Str Vit Dex Int Mag Chr MapLoc')
char_list = []
for c in range(account.CharCount):
tmp = buffer[:char_size]
buffer = buffer[char_size:]
tmp = map(packet_format, struct.unpack(char_format, tmp))
char_list += [character._make(tmp)]
self.char_list = char_list
self.LoggedIn = True
return True
elif MsgType == Packets.DEF_LOGRESMSGTYPE_REJECT:
print "Account %s blocked!" % self.Config['Account']
return False
elif MsgType == Packets.DEF_LOGRESMSGTYPE_PASSWORDMISMATCH:
print "Account %s password mismatch!" % self.Config['Password']
return False
elif MsgType == Packets.DEF_LOGRESMSGTYPE_NOTEXISTINGACCOUNT:
print "Account %s does not exists!" % self.Config['Account']
return False
elif MsgType == Packets.DEF_LOGRESMSGTYPE_NOTEXISTINGWORLDSERVER:
print "Account %s: World server is not activated" % (
self.Config['Account'])
return False
else:
print Packets.reverse_lookup_without_mask(MsgType)
return False
class Server(object):
'''
New game server
2011 Drajwer
'''
def __init__(self):
self.server_name = ''
self.maps = []
self.clients = []
self.logsockets = []
self.serversocket = None
self.noticement = ''
self.event_thread_alive = False
self.event_thread = False
# Guards...
self.clients_guard = Semaphore()
def stop_and_cleanup(self):
# Called when someone interrupts main thread
self.event_thread_alive = False
self.event_thread.join()
def read_config(self):
# JSON configuration reader
import json, os
from HBMap import HBMap
config = json.load(open('settings.cfg'))
self.server_name = str(config['CONFIG']['game-server-name'])
self.address = str(config['CONFIG']['game-server-address'])
self.port = int(config['CONFIG']['game-server-port'])
self.log_server_address = str(config['CONFIG']['log-server-address'])
self.gate_server_port = int(config['CONFIG']['gate-server-port'])
self.maps = {}
for map_name, options in config['MAPS'].items():
map_name = str(map_name)
print 'Initializing map %s...' % (map_name, )
file_name = os.path.join(os.path.dirname(__file__), 'MAPDATA',
options['amd'])
if not os.path.exists(file_name):
print 'Failure. Map %s does not exists.' % (map_name, )
continue
try:
amd = HBMap(file_name)
except Exception as e:
print 'Failure. %s.' % (e, )
continue
print 'OK! SIZE(%d, %d)' % (amd.MAPSIZEX, amd.MAPSIZEY)
self.maps[map_name] = config['MAPS'][map_name]
self.maps[map_name]['amd'] = amd
return True
def initialize(self):
if not self.read_config():
return False
for i in range(5):
socket = GateSocket(address=self.log_server_address,
port=self.gate_server_port)
self.setup_callbacks_gate(socket)
self.logsockets += [socket]
self.logsockets[0].connect()
self.serversocket = ServerSocket((self.address, self.port),
socketcls=ClientSocket)
self.serversocket.on_listen = self.on_gameserver_listen
self.serversocket.open_socket()
return True
def loop(self):
# TODO: wrap around all clients_guard dependent code
rinput = filter(lambda sock: sock.connected, self.logsockets)
self.clients_guard.acquire()
rinput += self.clients
self.clients_guard.release()
rinput += [self.serversocket]
winput = filter(lambda sock: sock.connecting or sock.write_buffer,
self.logsockets)
winput += filter(lambda sock: sock.write_buffer, self.clients)
(rlist, wlist, elist) = select.select(rinput, winput, [], 0.5)
for socket in rlist:
if socket in self.logsockets:
n = socket.recv()
if not n:
socket.on_disconnect(socket)
socket.close()
continue
while socket.pop_packet():
# Why would we even disconnect gate socket?
# Just do nothing
pass
if socket in self.clients:
n = socket.recv()
if not n:
self.delete_client(socket, cleanup_only=True)
continue
while True:
try:
if not socket.pop_packet():
break
except:
traceback.print_exc()
print
self.delete_client(socket, cleanup_only=True)
if socket == self.serversocket:
c = self.serversocket.accept(socketcls=ClientSocket)
c.setblocking(False)
self.clients_guard.acquire()
try:
c.id = max(map(lambda client: client.id, self.clients)) + 1
except ValueError as e:
c.id = 0
self.clients.append(c)
self.clients_guard.release()
self.setup_callbacks_client(c)
c.on_connect(c)
for socket in wlist:
if socket.connecting:
socket.connecting = False
socket.connected = True
socket.on_connect(socket)
n = socket.flush()
def event_loop(self):
# Event thread main entry function
self.timers.process_all()
def timer_connected_players(self):
self.clients_guard.acquire()
print '(O) Players connected:', len(self.clients)
self.clients_guard.release()
def on_server_registered(self):
self.timers = TimerManager()
self.timers.register_timer(None, self.timer_connected_players, 1.0)
def thread_ep(server_instance):
# Thread entry point
server_instance.event_thread_alive = True
while server_instance.event_thread_alive:
server_instance.event_loop()
time.sleep(0.1)
self.event_thread = Thread(target=thread_ep, args=(self, ))
self.event_thread.start()
'''
Socket events
'''
def on_logsocket_connected(self, logsocket):
'''
Request game server registration
'''
#How many connected sockets we have?
connected = len(filter(lambda _: _.connected, self.logsockets))
if connected > 1:
print 'Trying to register game server socket'
logsocket.do_register_gameserversocket(gsid=self.gsid)
else:
print 'Trying to register game server %s...' % self.server_name
logsocket.do_register_gameserver(server_name=self.server_name,
address=self.address,
port=self.port,
maps=self.maps.keys())
def on_logsocket_connection_lost(self, logsocket):
'''
Fired when gate server socket lost connection
'''
print 'Lost connection to gate server on socket-%d' % self.logsockets.index(
logsocket)
if not filter(lambda _: _.connected, self.logsockets):
print 'Lost connection to gate server!'
def on_gameserver_listen(self):
print 'Game server socket is working!'
def on_client_connect(self, client):
print 'Client connected!'
def on_client_disconnect(self, client):
print 'Client disconnected!'
'''
Communication
'''
def getlogsocket(self):
# TODO : Filter only connected logsockets?
return random.choice(self.logsockets)
'''
Functions
'''
def setup_callbacks_gate(self, logsocket):
'''
Setup callbacks on gate socket
'''
logsocket.on_response_registergameserver = self.on_response_registergameserver
logsocket.on_connect = self.on_logsocket_connected
logsocket.on_disconnect = self.on_logsocket_connection_lost
logsocket.on_response_playerdata = self.on_response_playerdata
# Configs
logsocket.on_receive_config_noticement = self.on_receive_config_noticement
def setup_callbacks_client(self, client):
'''
Setup callbacks on client socket
'''
client.on_connect = self.on_client_connect
client.on_disconnect = self.on_client_disconnect
client.on_request_noticement = self.client_on_request_noticement
client.on_request_initplayer = self.client_on_request_initplayer
client.on_request_initdata = self.client_on_request_initdata
client.on_request_fullobjectdata = self.client_on_request_fullobjectdata
def delete_client(self, client, cleanup_only=False):
# TODO: options etc
if cleanup_only:
client.on_disconnect(client)
client.close()
self.clients_guard.acquire()
self.clients.remove(client)
self.clients_guard.release()
return
client.close()
if client in self.clients:
self.clients.remove(client)
'''
Gate server handlers
'''
def on_receive_config_noticement(self, noticement):
self.noticement = noticement.rstrip()
def on_response_registergameserver(self, success, gsid=None):
if not success:
print 'Game server %s registration rejected!' % self.server_name
return
self.gsid = gsid
print 'Game server %s registration success! (GSID:%r)' % (
self.server_name, gsid)
for i, socket in enumerate(self.logsockets):
if not socket.connected:
print 'Connecting gate server socket-%d!' % (i, )
socket.connect()
self.on_server_registered()
def on_response_playerdata(self, char_name, player_data):
try:
client, = filter(lambda _: _.char_name, self.clients)
except ValueError as e:
print '(O) Got unknown player data %r' % char_name
return
if not player_data:
print '(HACK?) Not existing character(%s) data request! Rejected!' % (
char_name, )
self.delete_client(client)
return
if player_data.map_name not in self.maps:
print 'Player stuck on not existing map "%s" !' % (
player_data.map_name, )
self.delete_client(client)
return
maploc = self.maps[player_data.map_name]
if (player_data.x, player_data.y) not in maploc:
player_data.x, player_data.y = random.choice(
maploc['initial-points'])
print '%s new initial point is', player_data.x, player_data.y
client.player_data = player_data
client.map = maploc
client.do_response_initplayer(success=True)
# TODO : when you call it with success = False client will get
# 'World server full try other server'. Player limit could be
# implemented.
self.getlogsocket().do_entergame_confirm(
account_name=client.account_name,
account_password=client.account_password,
server_name=self.server_name,
address=client.address,
level=player_data.level)
print '(TestLog) Enter Game Confirm Level: %d' % player_data.level
'''
Client socket handlers
'''
def client_on_request_initplayer(self, char_name, account_name,
account_password, is_observer_mode,
client):
print 'Request init player'
print char_name, account_name, account_password, is_observer_mode
client.char_name = char_name
client.account_name = account_name
client.account_password = account_password
self.getlogsocket().do_request_playerdata(
char_name=char_name,
account_name=account_name,
account_password=account_password,
address=client.address)
def client_on_request_initdata(self, char_name, account_name,
account_password, client):
if client.char_name != char_name:
print '(!) Error!', self.char_name, '!=', char_name
self.delete_client(client)
return
client.do_playercharactercontents()
client.do_response_initdata()
def client_on_request_noticement(self, client, file_size):
# Ignore client size of noticement data stored on disk and always
# send new noticement.
client.send_noticement(self.noticement)
def client_on_request_fullobjectdata(self, client, object_id):
print 'request fullobjectdata req:%d client:%d' % (object_id,
client.id)
try:
obj, = filter(lambda _: _.id == object_id, self.clients)
except ValueError as e:
print '(!) Client requests full data from unknown object.'
self.delete_client(client)
return
self.do_event_motion('stop', obj)
class Server(object):
'''
New game server
2011 Drajwer
'''
def __init__(self):
self.server_name = ''
self.maps = []
self.clients = []
self.logsockets = []
self.serversocket = None
self.noticement = ''
self.event_thread_alive = False
self.event_thread = False
# Guards...
self.clients_guard = Semaphore()
def stop_and_cleanup(self):
# Called when someone interrupts main thread
self.event_thread_alive = False
self.event_thread.join()
def read_config(self):
# JSON configuration reader
import json, os
from HBMap import HBMap
config = json.load(open('settings.cfg'))
self.server_name = str(config['CONFIG']['game-server-name'])
self.address = str(config['CONFIG']['game-server-address'])
self.port = int(config['CONFIG']['game-server-port'])
self.log_server_address = str(config['CONFIG']['log-server-address'])
self.gate_server_port = int(config['CONFIG']['gate-server-port'])
self.maps = {}
for map_name, options in config['MAPS'].items():
map_name = str(map_name)
print 'Initializing map %s...' % (map_name, )
file_name = os.path.join(os.path.dirname(__file__), 'MAPDATA', options['amd'])
if not os.path.exists(file_name):
print 'Failure. Map %s does not exists.' % (map_name, )
continue
try:
amd = HBMap(file_name)
except Exception as e:
print 'Failure. %s.' % (e, )
continue
print 'OK! SIZE(%d, %d)' % (amd.MAPSIZEX, amd.MAPSIZEY)
self.maps[map_name] = config['MAPS'][map_name]
self.maps[map_name]['amd'] = amd
return True
def initialize(self):
if not self.read_config():
return False
for i in range(5):
socket = GateSocket(
address = self.log_server_address,
port = self.gate_server_port
)
self.setup_callbacks_gate(socket)
self.logsockets += [socket]
self.logsockets[0].connect()
self.serversocket = ServerSocket(
(self.address, self.port),
socketcls = ClientSocket
)
self.serversocket.on_listen = self.on_gameserver_listen
self.serversocket.open_socket()
return True
def loop(self):
# TODO: wrap around all clients_guard dependent code
rinput = filter(lambda sock: sock.connected, self.logsockets)
self.clients_guard.acquire()
rinput += self.clients
self.clients_guard.release()
rinput += [self.serversocket]
winput = filter(lambda sock: sock.connecting or sock.write_buffer, self.logsockets)
winput += filter(lambda sock: sock.write_buffer, self.clients)
(rlist, wlist, elist) = select.select(rinput, winput, [], 0.5)
for socket in rlist:
if socket in self.logsockets:
n = socket.recv()
if not n:
socket.on_disconnect(socket)
socket.close()
continue
while socket.pop_packet():
# Why would we even disconnect gate socket?
# Just do nothing
pass
if socket in self.clients:
n = socket.recv()
if not n:
self.delete_client(socket, cleanup_only = True)
continue
while True:
try:
if not socket.pop_packet():
break
except:
traceback.print_exc()
print
self.delete_client(socket, cleanup_only = True)
if socket == self.serversocket:
c = self.serversocket.accept(socketcls = ClientSocket)
c.setblocking(False)
self.clients_guard.acquire()
try:
c.id = max(map(lambda client: client.id, self.clients)) + 1
except ValueError as e:
c.id = 0
self.clients.append(c)
self.clients_guard.release()
self.setup_callbacks_client(c)
c.on_connect(c)
for socket in wlist:
if socket.connecting:
socket.connecting = False
socket.connected = True
socket.on_connect(socket)
n = socket.flush()
def event_loop(self):
# Event thread main entry function
self.timers.process_all()
def timer_connected_players(self):
self.clients_guard.acquire()
print '(O) Players connected:', len(self.clients)
self.clients_guard.release()
def on_server_registered(self):
self.timers = TimerManager()
self.timers.register_timer(None, self.timer_connected_players, 1.0)
def thread_ep(server_instance):
# Thread entry point
server_instance.event_thread_alive = True
while server_instance.event_thread_alive:
server_instance.event_loop()
time.sleep(0.1)
self.event_thread = Thread(target = thread_ep, args = (self, ))
self.event_thread.start()
'''
Socket events
'''
def on_logsocket_connected(self, logsocket):
'''
Request game server registration
'''
#How many connected sockets we have?
connected = len(filter(lambda _: _.connected, self.logsockets))
if connected > 1:
print 'Trying to register game server socket'
logsocket.do_register_gameserversocket(
gsid = self.gsid
)
else:
print 'Trying to register game server %s...' % self.server_name
logsocket.do_register_gameserver(
server_name = self.server_name,
address = self.address,
port = self.port,
maps = self.maps.keys()
)
def on_logsocket_connection_lost(self, logsocket):
'''
Fired when gate server socket lost connection
'''
print 'Lost connection to gate server on socket-%d' % self.logsockets.index(logsocket)
if not filter(lambda _: _.connected, self.logsockets):
print 'Lost connection to gate server!'
def on_gameserver_listen(self):
print 'Game server socket is working!'
def on_client_connect(self, client):
print 'Client connected!'
def on_client_disconnect(self, client):
print 'Client disconnected!'
'''
Communication
'''
def getlogsocket(self):
# TODO : Filter only connected logsockets?
return random.choice(self.logsockets)
'''
Functions
'''
def setup_callbacks_gate(self, logsocket):
'''
Setup callbacks on gate socket
'''
logsocket.on_response_registergameserver = self.on_response_registergameserver
logsocket.on_connect = self.on_logsocket_connected
logsocket.on_disconnect = self.on_logsocket_connection_lost
logsocket.on_response_playerdata = self.on_response_playerdata
# Configs
logsocket.on_receive_config_noticement = self.on_receive_config_noticement
def setup_callbacks_client(self, client):
'''
Setup callbacks on client socket
'''
client.on_connect = self.on_client_connect
client.on_disconnect = self.on_client_disconnect
client.on_request_noticement = self.client_on_request_noticement
client.on_request_initplayer = self.client_on_request_initplayer
client.on_request_initdata = self.client_on_request_initdata
client.on_request_fullobjectdata = self.client_on_request_fullobjectdata
def delete_client(self, client, cleanup_only = False):
# TODO: options etc
if cleanup_only:
client.on_disconnect(client)
client.close()
self.clients_guard.acquire()
self.clients.remove(client)
self.clients_guard.release()
return
client.close()
if client in self.clients:
self.clients.remove(client)
'''
Gate server handlers
'''
def on_receive_config_noticement(self, noticement):
self.noticement = noticement.rstrip()
def on_response_registergameserver(self, success, gsid = None):
if not success:
print 'Game server %s registration rejected!' % self.server_name
return
self.gsid = gsid
print 'Game server %s registration success! (GSID:%r)' % (self.server_name, gsid)
for i, socket in enumerate(self.logsockets):
if not socket.connected:
print 'Connecting gate server socket-%d!' % (i, )
socket.connect()
self.on_server_registered()
def on_response_playerdata(self, char_name, player_data):
try:
client, = filter(lambda _: _.char_name, self.clients)
except ValueError as e:
print '(O) Got unknown player data %r' % char_name
return
if not player_data:
print '(HACK?) Not existing character(%s) data request! Rejected!' % (char_name, )
self.delete_client(client)
return
if player_data.map_name not in self.maps:
print 'Player stuck on not existing map "%s" !' % (player_data.map_name, )
self.delete_client(client)
return
maploc = self.maps[player_data.map_name]
if (player_data.x, player_data.y) not in maploc:
player_data.x, player_data.y = random.choice(maploc['initial-points'])
print '%s new initial point is', player_data.x, player_data.y
client.player_data = player_data
client.map = maploc
client.do_response_initplayer(success = True)
# TODO : when you call it with success = False client will get
# 'World server full try other server'. Player limit could be
# implemented.
self.getlogsocket().do_entergame_confirm(
account_name = client.account_name,
account_password = client.account_password,
server_name = self.server_name,
address = client.address,
level = player_data.level
)
print '(TestLog) Enter Game Confirm Level: %d' % player_data.level
'''
Client socket handlers
'''
def client_on_request_initplayer(self, char_name, account_name, account_password, is_observer_mode, client):
print 'Request init player'
print char_name, account_name, account_password, is_observer_mode
client.char_name = char_name
client.account_name = account_name
client.account_password = account_password
self.getlogsocket().do_request_playerdata(
char_name = char_name,
account_name = account_name,
account_password = account_password,
address = client.address
)
def client_on_request_initdata(self, char_name, account_name, account_password, client):
if client.char_name != char_name:
print '(!) Error!', self.char_name, '!=', char_name
self.delete_client(client)
return
client.do_playercharactercontents()
client.do_response_initdata()
def client_on_request_noticement(self, client, file_size):
# Ignore client size of noticement data stored on disk and always
# send new noticement.
client.send_noticement(self.noticement)
def client_on_request_fullobjectdata(self, client, object_id):
print 'request fullobjectdata req:%d client:%d' % (object_id, client.id)
try:
obj, = filter(lambda _: _.id == object_id, self.clients)
except ValueError as e:
print '(!) Client requests full data from unknown object.'
self.delete_client(client)
return
self.do_event_motion('stop', obj)
