notify = DirectNotifyGlobal.directNotify.newCategory("ClusterServer")

MSG_NUM = 2000000

def __init__(self, cameraJig, camera):

global clusterServerPort, clusterSyncFlag

global clusterDaemonClient, clusterDaemonPort

# Store information about the cluster's camera

self.cameraJig = cameraJig

self.camera = camera

self.lens = camera.node().getLens()

self.lastConnection = None

self.fPosReceived = 0

# Create network layer objects

self.qcm = QueuedConnectionManager()

self.qcl = QueuedConnectionListener(self.qcm, 0)

self.qcr = QueuedConnectionReader(self.qcm, 0)

self.cw = ConnectionWriter(self.qcm, 0)

try:

port = clusterServerPort

except NameError:

port = CLUSTER_SERVER_PORT

self.tcpRendezvous = self.qcm.openTCPServerRendezvous(port, 1)

self.qcl.addConnection(self.tcpRendezvous)

self.msgHandler = ClusterMsgHandler(ClusterServer.MSG_NUM, self.notify)

# Start cluster tasks

self.startListenerPollTask()

self.startReaderPollTask()

# If synchronized server, start swap coordinator too

try:

clusterSyncFlag

except NameError:

clusterSyncFlag = 0

if clusterSyncFlag:

self.startSwapCoordinator()

base.graphicsEngine.setAutoFlip(0)

# Set global clock mode to slave mode

globalClock.setMode(ClockObject.MSlave)

# Send verification of startup to client

self.daemon = DirectD()

self.objectMappings = {}

self.objectHasColor = {}

self.controlMappings = {}

self.controlPriorities = {}

self.controlOffsets = {}

self.messageQueue = []

self.sortedControlMappings = []

# These must be passed in as bootstrap arguments and stored in

# the __builtins__ namespace

try:

clusterDaemonClient

except NameError:

clusterDaemonClient = 'localhost'

try:

clusterDaemonPort

except NameError:

clusterDaemonPort = CLUSTER_DAEMON_PORT

self.daemon.serverReady(clusterDaemonClient, clusterDaemonPort)

def startListenerPollTask(self):

# Run this task near the start of frame, sometime after the dataLoop

taskMgr.add(self.listenerPollTask, "serverListenerPollTask", -40)

def listenerPollTask(self, task):

""" Task to listen for a new connection from the client """

# Run this task after the dataLoop

if self.qcl.newConnectionAvailable():

self.notify.info("New connection is available")

rendezvous = PointerToConnection()

netAddress = NetAddress()

newConnection = PointerToConnection()

if self.qcl.getNewConnection(rendezvous, netAddress, newConnection):

# Crazy dereferencing

newConnection=newConnection.p()

self.qcr.addConnection(newConnection)

self.lastConnection = newConnection

self.notify.info("Got a connection!")

else:

self.notify.warning("getNewConnection returned false")

return Task.cont

def addNamedObjectMapping(self,object,name,hasColor = True,

priority = 0):

if (name not in self.objectMappings):

self.objectMappings[name] = object

self.objectHasColor[name] = hasColor

else:

self.notify.debug('attempt to add duplicate named object: '+name)

def removeObjectMapping(self,name):

if (name in self.objectMappings):

self.objectMappings.pop(name)

def redoSortedPriorities(self):

self.sortedControlMappings = []

for key in self.objectMappings:

self.sortedControlMappings.append([self.controlPriorities[key],

key])

self.sortedControlMappings.sort()

def addControlMapping(self,objectName,controlledName, offset = None,

priority = 0):

if (objectName not in self.controlMappings):

self.controlMappings[objectName] = controlledName

if (offset == None):

offset = Vec3(0,0,0)

self.controlOffsets[objectName] = offset

self.controlPriorities[objectName] = priority

self.redoSortedPriorities()

else:

self.notify.debug('attempt to add duplicate controlled object: '+name)

def setControlMappingOffset(self,objectName,offset):

if (objectName in self.controlMappings):

self.controlOffsets[objectName] = offset

def removeControlMapping(self,name):

if (name in self.controlMappings):

self.controlMappings.pop(name)

self.controlPriorities.pop(name)

self.redoSortedPriorities()

def startControlObjectTask(self):

self.notify.debug("moving control objects")

taskMgr.add(self.controlObjectTask,"controlObjectTask",50)

def controlObjectTask(self, task):

#print "running control object task"

for pair in self.sortedControlPriorities:

object = pair[1]

name = self.controlMappings[object]

if (object in self.objectMappings):

self.moveObject(self.objectMappings[object],name,self.controlOffsets[object],

self.objectHasColor[object])

self.sendNamedMovementDone()

return Task.cont

def sendNamedMovementDone(self):

self.notify.debug("named movement done")

datagram = self.msgHandler.makeNamedMovementDone()

self.cw.send(datagram,self.lastConnection)

def moveObject(self, nodePath, object, offset, hasColor):

self.notify.debug('moving object '+object)

#print "moving object",object

xyz = nodePath.getPos(render) + offset

hpr = nodePath.getHpr(render)

scale = nodePath.getScale(render)

if (hasColor):

color = nodePath.getColor()

else:

color = [1,1,1,1]

hidden = nodePath.isHidden()

datagram = self.msgHandler.makeNamedObjectMovementDatagram(xyz,hpr,scale,color,hidden,object)

self.cw.send(datagram, self.lastConnection)

def startReaderPollTask(self):

""" Task to handle datagrams from client """

# Run this task just after the listener poll task

if clusterSyncFlag:

# Sync version

taskMgr.add(self._syncReaderPollTask, "serverReaderPollTask", -39)

else:

# Asynchronous version

taskMgr.add(self._readerPollTask, "serverReaderPollTask", -39)

def _readerPollTask(self, state):

""" Non blocking task to read all available datagrams """

while 1:

(datagram, dgi, type) = self.msgHandler.nonBlockingRead(self.qcr)

# Queue is empty, done for now

if type is CLUSTER_NONE:

break

else:

# Got a datagram, handle it

self.handleDatagram(dgi, type)

return Task.cont

def _syncReaderPollTask(self, task):

if self.lastConnection is None:

pass

elif self.qcr.isConnectionOk(self.lastConnection):

# Process datagrams till you get a postion update

type = CLUSTER_NONE

while type != CLUSTER_CAM_MOVEMENT:

# Block until you get a new datagram

(datagram, dgi, type) = self.msgHandler.blockingRead(self.qcr)

# Process datagram

self.handleDatagram(dgi, type)

return Task.cont

def startSwapCoordinator(self):

taskMgr.add(self.swapCoordinatorTask, "serverSwapCoordinator", 51)

def swapCoordinatorTask(self, task):

if self.fPosReceived:

self.fPosReceived = 0

# Alert client that this server is ready to swap

self.sendSwapReady()

# Wait for swap command (processing any intermediate datagrams)

while 1:

(datagram, dgi, type) = self.msgHandler.blockingRead(self.qcr)

self.handleDatagram(dgi, type)

if type == CLUSTER_SWAP_NOW:

break

return Task.cont

def sendSwapReady(self):

self.notify.debug(

'send swap ready packet %d' % self.msgHandler.packetNumber)

datagram = self.msgHandler.makeSwapReadyDatagram()

self.cw.send(datagram, self.lastConnection)

def handleDatagram(self, dgi, type):

""" Process a datagram depending upon type flag """

if (type == CLUSTER_NONE):

pass

elif (type == CLUSTER_EXIT):

print('GOT EXIT')

import sys

sys.exit()

elif (type == CLUSTER_CAM_OFFSET):

self.handleCamOffset(dgi)

elif (type == CLUSTER_CAM_FRUSTUM):

self.handleCamFrustum(dgi)

elif (type == CLUSTER_CAM_MOVEMENT):

self.handleCamMovement(dgi)

elif (type == CLUSTER_SELECTED_MOVEMENT):

self.handleSelectedMovement(dgi)

elif (type == CLUSTER_COMMAND_STRING):

self.handleCommandString(dgi)

elif (type == CLUSTER_SWAP_READY):

pass

elif (type == CLUSTER_SWAP_NOW):

self.notify.debug('swapping')

base.graphicsEngine.flipFrame()

elif (type == CLUSTER_TIME_DATA):

self.notify.debug('time data')

self.handleTimeData(dgi)

elif (type == CLUSTER_NAMED_OBJECT_MOVEMENT):

self.messageQueue.append(self.msgHandler.parseNamedMovementDatagram(dgi))

#self.handleNamedMovement(dgi)

elif (type == CLUSTER_NAMED_MOVEMENT_DONE):

#print "got done",self.messageQueue

#if (len(self.messageQueue) > 0):

# print self.messageQueue[0]

# print dir(self.messageQueue)

self.handleMessageQueue()

else:

self.notify.warning("Received unknown packet type:" % type)

return type

# Server specific tasks

def handleCamOffset(self, dgi):

""" Set offset of camera from cameraJig """

(x, y, z, h, p, r) = self.msgHandler.parseCamOffsetDatagram(dgi)

self.camera.setPos(x,y,z)

self.lens.setViewHpr(h, p, r)

def handleCamFrustum(self, dgi):

""" Adjust camera frustum based on parameters sent by client """

(fl, fs, fo) = self.msgHandler.parseCamFrustumDatagram(dgi)

self.lens.setFocalLength(fl)

self.lens.setFilmSize(fs[0], fs[1])

self.lens.setFilmOffset(fo[0], fo[1])

def handleNamedMovement(self, data):

""" Update cameraJig position to reflect latest position """

(name,x, y, z, h, p, r,sx,sy,sz, red, g, b, a, hidden) = data

if (name in self.objectMappings):

self.objectMappings[name].setPosHpr(render, x, y, z, h, p, r)

self.objectMappings[name].setScale(render,sx,sy,sz)

self.objectMappings[name].setColor(red,g,b,a)

if (hidden):

self.objectMappings[name].hide()

else:

self.objectMappings[name].show()

else:

self.notify.debug("recieved unknown named object command: "+name)

def handleMessageQueue(self):

#print self.messageQueue

for data in self.messageQueue:

#print "in queue",dgi

self.handleNamedMovement(data)

self.messageQueue = []

def handleCamMovement(self, dgi):

""" Update cameraJig position to reflect latest position """

(x, y, z, h, p, r) = self.msgHandler.parseCamMovementDatagram(dgi)

self.cameraJig.setPosHpr(render, x, y, z, h, p, r)

self.fPosReceived = 1

def handleSelectedMovement(self, dgi):

""" Update cameraJig position to reflect latest position """

(x, y, z, h, p, r, sx, sy, sz) = self.msgHandler.parseSelectedMovementDatagram(

dgi)

if last:

last.setPosHprScale(x, y, z, h, p, r, sx, sy, sz)

def handleTimeData(self, dgi):

""" Update cameraJig position to reflect latest position """

(frameCount, frameTime, dt) = self.msgHandler.parseTimeDataDatagram(dgi)

# Use frame time from client for both real and frame time

globalClock.setFrameCount(frameCount)

globalClock.setFrameTime(frameTime)

globalClock.setDt(dt)

def handleCommandString(self, dgi):

""" Handle arbitrary command string from client """

command = self.msgHandler.parseCommandStringDatagram(dgi)

try:

exec(command, __builtins__)

except: