def __init__(self, peer_id, log=None):
super(PeerState, self).__init__()
self.id = peer_id # site ID
self.peers = [] # known peers
self.strokes = [] # currently drawn strokes
self.prqs = [] # past requests
self.processed_ops = []
self.session = -1
# attached ui
self.window = None
self.lock = Lock()
# site log file
self.log = log
if self.id >= 0:
self.engine = OperationEngine(self.id,log)
else:
# This is so that I can draw locally if I never join a session
self.engine = OperationEngine(0,log)
self.queue = Queue(log)
# Join/leave handling
self.ip = ''
self.port = 0
self.cs = None
self.uid = Utils.generateID()
self.ips = []
self.ports = []
def createEngine(self):
self.engine = OperationEngine(self.id,self.log)
self.queue = Queue(self.log)
self.strokes = []
if self.window: #Dont call UI (for the tester)
self.newStrokesSignal.emit()
class PeerState(QtCore.QObject):
"""Stores all data concerning a peer's state
Contains:
- list of other peers
- dOPT structures
- drawn objects (strokes)
Is shared between UI and Network threads
"""
newStrokesSignal = QtCore.pyqtSignal()
# NOTE: lock around access to the structure?
def __init__(self, peer_id, log=None):
super(PeerState, self).__init__()
self.id = peer_id # site ID
self.peers = [] # known peers
self.strokes = [] # currently drawn strokes
self.prqs = [] # past requests
self.processed_ops = []
self.session = -1
# attached ui
self.window = None
self.lock = Lock()
# site log file
self.log = log
if self.id >= 0:
self.engine = OperationEngine(self.id,log)
else:
# This is so that I can draw locally if I never join a session
self.engine = OperationEngine(0,log)
self.queue = Queue(log)
# Join/leave handling
self.ip = ''
self.port = 0
self.cs = None
self.uid = Utils.generateID()
self.ips = []
self.ports = []
def thaw(self, sid):
self.log.lock( 'thaw (lock)')
self.lock.acquire()
self.log.lock( 'thaw (locked)')
self.engine.thawSite(sid)
self.lock.release()
self.log.lock( 'thaw (unlock)')
def freeze(self, sid):
self.log.lock( 'freeze (lock)')
self.lock.acquire()
self.log.lock( 'freeze (locked)')
self.engine.freezeSite(sid)
self.log.lock( 'freeze (unlock)')
self.lock.release()
def performOperation(self,op):
if not op:
self.log.red('ERROR: trying to perform a none op')
return
if op.type == 'insert':
m = len(self.strokes)
for i in range(m, op.position+1):
self.strokes.insert(i,None)
if self.strokes[op.position]:
self.strokes.insert(op.position,Stroke(**op.value))
else: # none: replace
self.strokes[op.position]=Stroke(**op.value)
if op.position not in range(0,len(self.strokes)):
self.log.orange("can't move/delete stroke that doesn't exist, asked:",op.position,'max',len(self.strokes)-1)
return
if op.type == 'delete':
del self.strokes[op.position]
if op.type == 'update':
self.strokes[op.position] = Stroke(**op.value)
if self.window: #Dont call UI (for the tester)
pass
# Send signal to UI
def createOp(self,otype,stroke=None,pos=-1,order=-1):
self.log.lock( 'create op (lock)')
self.lock.acquire()
self.log.lock( 'create op (locked)')
key = self.session
val = stroke.marshall()
if otype == 'insert':
position = len(self.strokes)
elif otype == 'delete':
position = pos
elif otype == 'update':
position = pos
op = self.engine.createOp(True,key,val,otype,position, ips = self.ips, ports = self.ports)
if order >= 0:
op.order = order
self.engine.pushLocalOp(op)
self.processed_ops.append(op)
self.performOperation(op)
self.lock.release()
self.log.lock( 'create op (unlock)\n')
if self.window: #Dont call UI (for the tester)
self.newStrokesSignal.emit()
return op
def receiveOp(self, op):
self.log.lock( 'receive op (lock)')
self.lock.acquire()
self.log.lock( 'receive op (locked)')
# check duplicates
seen = self.engine.hasProcessedOp(op)
if seen:
self.log.engine('refused,already seen:',op)
self.lock.release()
self.log.lock('receive op (unlock)\n')
return True
self.queue.enqueue(op)
added = 0
cv = self.engine.copyContextVector()
while True:
cv = self.engine.copyContextVector()
processable = self.queue.getProcessable(cv)
if not processable:
break
new_op = self.engine.pushRemoteOp(processable)
self.performOperation(new_op)
self.processed_ops.append(new_op)
added += 1
self.lock.release()
self.log.lock( 'receive op (unlock)\n')
#Dont call UI (for the tester)
if self.window:
self.newStrokesSignal.emit()
return True
def getStrokes(self):
self.log.lock( 'get strokes (lock)')
self.lock.acquire()
self.log.lock( 'get strokes (locked)')
cp = copy.deepcopy(self.strokes)
self.lock.release()
self.log.lock( 'get strokes (unlock)\n')
self.printFinalState()
return cp
def printFinalState(self):
self.printProcessedOps()
self.printHistoryBuffer()
self.printStrokes()
self.printQueue()
def printProcessedOps(self):
self.log.blue( '\n-------------------- PROCESSED -------------------------------------------')
self.log.Print( len(self.processed_ops), 'operations')
for i,op in enumerate(self.processed_ops):
self.log.Print(op)
self.log.blue( '----------------------------------------------------------------------\n')
def printHistoryBuffer(self):
self.log.blue( '\n-------------------- HISTORY BUFFER -------------------------------------------')
self.log.Print( len(self.engine.hb.ops), 'operations')
ops = self.engine.hb.getMorrisSortedOperations()
for op in ops:
self.log.Print(op)
self.log.blue( '----------------------------------------------------------------------\n')
def printQueue(self):
self.log.blue( '\n-------------------- QUEUE -------------------------------------------')
self.log.Print( len(self.queue.ops), 'operations | ds:',self.engine.copyContextVector())
ops = self.queue.getMorrisSortedOperations()
for op in ops:
self.log.Print(op)
self.log.blue( '----------------------------------------------------------------------\n')
def printStrokes(self):
self.log.blue( '\n-------------------- STROKES ---------------------------------------------')
self.log.Print( len(self.strokes), 'strokes')
for i,s in enumerate(self.strokes):
self.log.Print( i,'-',s)
self.log.blue( '--------------------------------------------------------------------------')
def addPeer(self,ip,port):
""" Add a new peer """
self.lock.acquire()
srv_name = 'http://%s:%s' % (ip, port)
srv = xmlrpclib.Server(srv_name)
self.peers.append(srv)
self.log.Print(' added peer:',srv_name,'\n')
self.lock.release()
def createEngine(self):
self.engine = OperationEngine(self.id,self.log)
self.queue = Queue(self.log)
self.strokes = []
if self.window: #Dont call UI (for the tester)
self.newStrokesSignal.emit()
