Exemple #1
0
 def __init__(self, peername):
     self.peername = peername
     # discovery module
     self.listener = Listener(setting.CTR_HOST,
                              setting.CTR_MASTER_BCAST_PORT, self)
     # message module
     self.message = Message(setting.CTR_HOST, setting.CTR_SLAVE_PORT,
                            setting.CTR_MASTER_PORT, self)
Exemple #2
0
	def __init__(self, auctioneer_params, logger):
		# propertys
		self.auctioneer_params = auctioneer_params
		self.peername = auctioneer_params['peer']
		self.delay = auctioneer_params['delay'] if auctioneer_params['delay'] > 1.0 else 1.0
		# discovery center
		self.discovery_center = Listener(
			setting.DIS_HOST,#auctioneer_params['broadcast'], 
			setting.DIS_BID_PORT,
			self)
		# message center
		self.message_center = Message(
			setting.MSG_HOST, 
			setting.MSG_AUC_PORT, 
			setting.MSG_BID_PORT, 
			AuctionProtocol(self))
		# transport center
		self.transport = transport.TransportClient(
			setting.TRP_PORT,
			transport.Protocol())
		# log center
		self.logger = logger #self.logger = log.LogClient(peername, self.auctioneer_params['broadcast'])
		# algorithm core
		self.core = AuctioneerCore(self, self.auctioneer_params)
		self.running = 0
Exemple #3
0
 def __init__(self, auctioneer_params, logger):
     # propertys
     self.auctioneer_params = auctioneer_params
     self.peername = auctioneer_params['peer']
     self.delay = auctioneer_params[
         'delay'] if auctioneer_params['delay'] > 1.0 else 1.0
     # discovery center
     self.discovery_center = Listener(
         setting.DIS_HOST,  #auctioneer_params['broadcast'], 
         setting.DIS_BID_PORT,
         self)
     # message center
     self.message_center = Message(setting.MSG_HOST, setting.MSG_AUC_PORT,
                                   setting.MSG_BID_PORT,
                                   AuctionProtocol(self))
     # transport center
     self.transport = transport.TransportClient(setting.TRP_PORT,
                                                transport.Protocol())
     # log center
     self.logger = logger  #self.logger = log.LogClient(peername, self.auctioneer_params['broadcast'])
     # algorithm core
     self.core = AuctioneerCore(self, self.auctioneer_params)
     self.running = 0
Exemple #4
0
	def __init__(self, peername):
		self.peername = peername
		# discovery module
		self.listener = Listener(setting.CTR_HOST, setting.CTR_MASTER_BCAST_PORT, self)
		# message module
		self.message = Message(setting.CTR_HOST, setting.CTR_SLAVE_PORT, setting.CTR_MASTER_PORT, self)
Exemple #5
0
class Slave(ListenerProtocol, MessageProtocol):

	def __init__(self, peername):
		self.peername = peername
		# discovery module
		self.listener = Listener(setting.CTR_HOST, setting.CTR_MASTER_BCAST_PORT, self)
		# message module
		self.message = Message(setting.CTR_HOST, setting.CTR_SLAVE_PORT, setting.CTR_MASTER_PORT, self)

	def log(self, tag, content):
		for peer in self.listener.peers.keys():
			#print 'send', ':'.join([tag, str(content)]), 'to', peer
			self.message.sendto(peer, ':'.join([tag, str(content)]))

	'Open API'
	def run(self):
		self.listener.run()
		self.message.run()

	def close(self):
		self.listener.close()
		self.message.close()

	def introduce(self):
		time.sleep(1.0) #prepare time to find master
		self.log('INT', self.peername)

	def slave_play(self, desc):
		#rate, duration, delay = desc
		pack = struct.pack('!fff', *desc)
		self.log('P', pack)

	def slave_bid(self, desc):
		#[auction_peer, auction_index, self.buffer_size(), bid]
		pack = str(desc)
		self.log('B', pack)

	def slave_auction(self, desc):
		self.log('A', desc)

	def slave_decide(self, desc):
		#[self.auction_index-1, ip, allocs[ip][0], allocs[ip][1], allocs[ip][2]]
		self.log('D', str(desc))

	def slave_transport(self, desc):
		#[ip, index, size, duration]
		self.log('T', str(desc))

	'MessageProtocol'
	def on_msg_from_peer(self, data, peer):
		#print 'received', data, 'from', peer
		try:
			inst, info = data.split(':',1)
		except:
			return
		if inst == 'B1':
			self.bidder_start_from_master(peer, info)
		elif inst == 'B2':
			self.bidder_stop_from_master(peer, info)
		elif inst == 'A1':
			self.auctioneer_start_from_master(peer, info)
		elif inst == 'A2':
			self.auctioneer_stop_from_master(peer, info)


	'Override'
	def bidder_start_from_master(self, master_ip, info):
		pass

	def bidder_stop_from_master(self, master_ip, info):
		pass

	def auctioneer_start_from_master(self, master_ip, info):
		pass

	def auctioneer_stop_from_master(self, master_ip, info):
		pass
Exemple #6
0
class Auctioneer(ListenerProtocol):
    def __init__(self, auctioneer_params, logger):
        # propertys
        self.auctioneer_params = auctioneer_params
        self.peername = auctioneer_params['peer']
        self.delay = auctioneer_params[
            'delay'] if auctioneer_params['delay'] > 1.0 else 1.0
        # discovery center
        self.discovery_center = Listener(
            setting.DIS_HOST,  #auctioneer_params['broadcast'], 
            setting.DIS_BID_PORT,
            self)
        # message center
        self.message_center = Message(setting.MSG_HOST, setting.MSG_AUC_PORT,
                                      setting.MSG_BID_PORT,
                                      AuctionProtocol(self))
        # transport center
        self.transport = transport.TransportClient(setting.TRP_PORT,
                                                   transport.Protocol())
        # log center
        self.logger = logger  #self.logger = log.LogClient(peername, self.auctioneer_params['broadcast'])
        # algorithm core
        self.core = AuctioneerCore(self, self.auctioneer_params)
        self.running = 0

    """ Auctioneer Life Cycle"""

    def run(self):
        print ''
        print '### Auctioneer', self.peername, '( delay = ', self.auctioneer_params[
            'delay'], ') running...'
        print ''
        # INIT
        self.running = 1
        self.transport_queue = Queue()
        self.bids = {}  # bids {ip:bid}
        self.tasks = {}  # tasks {ip:task number}
        self.auction_index = 0
        # launch
        self.discovery_center.run()
        self.message_center.run()
        threading.Thread(target=self.auction_loop).start()  # join ignore

    def close(self):
        self.discovery_center.close()
        self.message_center.close()
        self.running = 0
        print ''
        print '### Auctioneer', self.peername, 'stopped.'
        print ''

    def auction_loop(self):
        # timeout mechanism
        while self.running:
            try:
                ip, task = self.transport_queue.get(timeout=0.3)
            except:
                #Time out
                self.auction()
                time.sleep(0.1)
                #repeated broadcast
                ''' deprecated
				for i in range(3):
					self.auction()
					time.sleep(0.033)
				'''
                self.decide_auction()
            else:
                if not ip in self.tasks or self.tasks[ip] <= 0:
                    continue
                index, url = task.split(',', 1)
                size, duration, success = self.transport.transport(
                    ip, index, url)
                size = float(size) / 1024 / 128  #bytes to mb
                #delay
                if self.delay > 1.0:
                    #print 'delay', duration  * (self.delay - 1.0)
                    time.sleep(duration * (self.delay - 1.0))
                    duration = duration * self.delay
                capacity = size / duration if duration > 0 else self.auctioneer_params[
                    'capacity']
                self.core.estimate_capacity(capacity)
                self.tasks[ip] = self.tasks[ip] - 1
                if success:
                    #logging
                    #self.logger.log('T', [ip, index, size, duration])#self.logger.transport_complete(ip, index, size, duration)
                    self.logger.slave_transport([ip, index, size, duration])
                    print '[A  completed] No.%s, size=%0.2f(mb), capacity=%0.2f~%0.2f(mbps), url=%s, at %s' % (
                        index, size, capacity, self.core.capacity, url,
                        time.strftime("%H:%M:%S"))
                else:
                    print '[A     failed] No.%s' % index

    """ Auction Factory.
	auction : make an auction.
	receive_bid : receive a bid.
	"""

    def auction(self):
        # logging
        '''
		self.logger.log('A', [
			self.peername, 
			self.auction_index,
			self.auctioneer_params['segment'], 
			self.core.capacity, 
			self.auctioneer_params['timecost'], 
			self.auctioneer_params['cellular'], 
			self.auctioneer_params['wifi']
			])'''
        logcontent = 'index=%d, segments=%d, capacity=%0.2f, ' % (
            self.auction_index, self.auctioneer_params['segment'],
            self.core.capacity)
        self.logger.slave_auction(logcontent)
        # broadcast
        self.bids.clear()
        auction_info = self.core.auction_message(self.auction_index)
        for peer in self.discovery_center.peers.keys():
            self.message_center.sendto(peer,
                                       ':'.join(['AUCTION', auction_info]))

    def receive_bid(self, ip, bid):
        index, bid_details = bid.split(',', 1)
        if int(index) == self.auction_index:
            self.bids[ip] = bid_details

    def decide_auction(self):
        if not self.bids:  #receive no bids
            return
        # finish one auction
        self.auction_index += 1  # TODO thread safe ,dict size change when iteration
        self.tasks.clear()
        # dict {ip : (segments, rate, payment)}
        allocs = self.core.select_bid(self.bids)
        # notify the winner
        for ip in allocs:
            self.tasks[ip] = allocs[ip][0]
            alloc_result = ','.join([str(allocs[ip][0]), str(allocs[ip][1])])
            self.message_center.sendto(ip, ':'.join(['WIN', alloc_result]))
            # logging
            #self.logger.log('D', [self.peername, self.auction_index-1, ip, allocs[ip][0], allocs[ip][1], allocs[ip][2]])
            self.logger.slave_decide([
                self.auction_index - 1, ip, allocs[ip][0], allocs[ip][1],
                allocs[ip][2]
            ])
        # logging
        #self.logger.log('C', self.peername)#self.logger.decide_complete(self.peername)

    def receive_task(self, ip, task):
        self.transport_queue.put((ip, task))
Exemple #7
0
class Slave(ListenerProtocol, MessageProtocol):
    def __init__(self, peername):
        self.peername = peername
        # discovery module
        self.listener = Listener(setting.CTR_HOST,
                                 setting.CTR_MASTER_BCAST_PORT, self)
        # message module
        self.message = Message(setting.CTR_HOST, setting.CTR_SLAVE_PORT,
                               setting.CTR_MASTER_PORT, self)

    def log(self, tag, content):
        for peer in self.listener.peers.keys():
            #print 'send', ':'.join([tag, str(content)]), 'to', peer
            self.message.sendto(peer, ':'.join([tag, str(content)]))

    'Open API'

    def run(self):
        self.listener.run()
        self.message.run()

    def close(self):
        self.listener.close()
        self.message.close()

    def introduce(self):
        time.sleep(1.0)  #prepare time to find master
        self.log('INT', self.peername)

    def slave_play(self, desc):
        #rate, duration, delay = desc
        pack = struct.pack('!fff', *desc)
        self.log('P', pack)

    def slave_bid(self, desc):
        #[auction_peer, auction_index, self.buffer_size(), bid]
        pack = str(desc)
        self.log('B', pack)

    def slave_auction(self, desc):
        self.log('A', desc)

    def slave_decide(self, desc):
        #[self.auction_index-1, ip, allocs[ip][0], allocs[ip][1], allocs[ip][2]]
        self.log('D', str(desc))

    def slave_transport(self, desc):
        #[ip, index, size, duration]
        self.log('T', str(desc))

    'MessageProtocol'

    def on_msg_from_peer(self, data, peer):
        #print 'received', data, 'from', peer
        try:
            inst, info = data.split(':', 1)
        except:
            return
        if inst == 'B1':
            self.bidder_start_from_master(peer, info)
        elif inst == 'B2':
            self.bidder_stop_from_master(peer, info)
        elif inst == 'A1':
            self.auctioneer_start_from_master(peer, info)
        elif inst == 'A2':
            self.auctioneer_stop_from_master(peer, info)

    'Override'

    def bidder_start_from_master(self, master_ip, info):
        pass

    def bidder_stop_from_master(self, master_ip, info):
        pass

    def auctioneer_start_from_master(self, master_ip, info):
        pass

    def auctioneer_stop_from_master(self, master_ip, info):
        pass
Exemple #8
0
class Auctioneer(ListenerProtocol):

	def __init__(self, auctioneer_params, logger):
		# propertys
		self.auctioneer_params = auctioneer_params
		self.peername = auctioneer_params['peer']
		self.delay = auctioneer_params['delay'] if auctioneer_params['delay'] > 1.0 else 1.0
		# discovery center
		self.discovery_center = Listener(
			setting.DIS_HOST,#auctioneer_params['broadcast'], 
			setting.DIS_BID_PORT,
			self)
		# message center
		self.message_center = Message(
			setting.MSG_HOST, 
			setting.MSG_AUC_PORT, 
			setting.MSG_BID_PORT, 
			AuctionProtocol(self))
		# transport center
		self.transport = transport.TransportClient(
			setting.TRP_PORT,
			transport.Protocol())
		# log center
		self.logger = logger #self.logger = log.LogClient(peername, self.auctioneer_params['broadcast'])
		# algorithm core
		self.core = AuctioneerCore(self, self.auctioneer_params)
		self.running = 0

	""" Auctioneer Life Cycle"""
	def run(self):
		print ''
		print '### Auctioneer', self.peername, '( delay = ', self.auctioneer_params['delay'],') running...'
		print ''
		# INIT
		self.running = 1
		self.transport_queue = Queue()
		self.bids = {}# bids {ip:bid}
		self.tasks = {}# tasks {ip:task number}
		self.auction_index = 0
		# launch
		self.discovery_center.run()
		self.message_center.run()
		threading.Thread(target=self.auction_loop).start() # join ignore

	def close(self):
		self.discovery_center.close()
		self.message_center.close()
		self.running = 0
		print ''
		print '### Auctioneer', self.peername, 'stopped.'
		print ''


	def auction_loop(self):
		# timeout mechanism
		while self.running:
			try:
				ip,task = self.transport_queue.get(timeout=0.3)
			except:
				#Time out
				self.auction()
				time.sleep(0.1)
				#repeated broadcast
				''' deprecated
				for i in range(3):
					self.auction()
					time.sleep(0.033)
				'''
				self.decide_auction()
			else:
				if not ip in self.tasks or self.tasks[ip] <= 0:
					continue
				index, url = task.split(',',1)
				size, duration, success = self.transport.transport(ip, index, url)
				size = float(size) / 1024 / 128 #bytes to mb
				#delay
				if self.delay > 1.0:
					#print 'delay', duration  * (self.delay - 1.0)
					time.sleep(duration * (self.delay - 1.0))
					duration = duration * self.delay
				capacity = size / duration if duration > 0 else self.auctioneer_params['capacity']
				self.core.estimate_capacity(capacity)
				self.tasks[ip] = self.tasks[ip] - 1
				if success:
					#logging 
					#self.logger.log('T', [ip, index, size, duration])#self.logger.transport_complete(ip, index, size, duration)
					self.logger.slave_transport([ip, index, size, duration])
					print '[A  completed] No.%s, size=%0.2f(mb), capacity=%0.2f~%0.2f(mbps), url=%s, at %s' % (index, size, capacity, self.core.capacity, url, time.strftime("%H:%M:%S"))
				else:
					print '[A     failed] No.%s' % index
			


	""" Auction Factory.
	auction : make an auction.
	receive_bid : receive a bid.
	"""
	def auction(self):
		# logging
		'''
		self.logger.log('A', [
			self.peername, 
			self.auction_index,
			self.auctioneer_params['segment'], 
			self.core.capacity, 
			self.auctioneer_params['timecost'], 
			self.auctioneer_params['cellular'], 
			self.auctioneer_params['wifi']
			])'''
		logcontent = 'index=%d, segments=%d, capacity=%0.2f, ' % (self.auction_index,self.auctioneer_params['segment'],self.core.capacity)
		self.logger.slave_auction(logcontent)
		# broadcast
		self.bids.clear()
		auction_info = self.core.auction_message(self.auction_index)
		for peer in self.discovery_center.peers.keys():
				self.message_center.sendto(peer, ':'.join(['AUCTION', auction_info]))

	def receive_bid(self, ip, bid):
		index, bid_details = bid.split(',',1)
		if int(index) == self.auction_index:
			self.bids[ip] = bid_details

	def decide_auction(self):
		if not self.bids:#receive no bids
			return
		# finish one auction
		self.auction_index += 1 # TODO thread safe ,dict size change when iteration
		self.tasks.clear()
		# dict {ip : (segments, rate, payment)}
		allocs = self.core.select_bid(self.bids)
		# notify the winner
		for ip in allocs:
			self.tasks[ip] = allocs[ip][0]
			alloc_result =  ','.join([str(allocs[ip][0]), str(allocs[ip][1])])
			self.message_center.sendto(ip, ':'.join(['WIN', alloc_result]))
			# logging
			#self.logger.log('D', [self.peername, self.auction_index-1, ip, allocs[ip][0], allocs[ip][1], allocs[ip][2]])
			self.logger.slave_decide([self.auction_index-1, ip, allocs[ip][0], allocs[ip][1], allocs[ip][2]])
		# logging
		#self.logger.log('C', self.peername)#self.logger.decide_complete(self.peername)

	def receive_task(self, ip, task):
		self.transport_queue.put((ip,task))