def send(Type, flow_1, port=None): flow = str(flow_1) ofp_flow_wildcards = of.ofp_flow_wildcards(flow[8:12]) ofp_match = of.ofp_match(flow[12:48]) ofp_flow_mod = of.ofp_flow_mod(flow[48:72]) if len(flow) >= 88: action_header = of.ofp_action_header(flow[72:80]) action_output = of.ofp_action_output(flow[80:88]) #we need to send the stats request packets periodically msg = { 0: of.ofp_header(type=16, length=12) / of.ofp_stats_request(type=0), #Type of OFPST_DESC (0) 1: of.ofp_header(type=16, length=56) / of.ofp_stats_request(type=1) / ofp_flow_wildcards / ofp_match / of.ofp_flow_stats_request(out_port=ofp_flow_mod.out_port), #flow stats 2: of.ofp_header(type=16, length=56) / of.ofp_stats_request(type=2) / ofp_flow_wildcards / ofp_match / of.ofp_aggregate_stats_request(), # aggregate stats request 3: of.ofp_header(type=16, length=12) / of.ofp_stats_request(type=3), #Type of OFPST_TABLE (0) 4: of.ofp_header(type=16, length=20) / of.ofp_stats_request(type=4) / of.ofp_port_stats_request(port_no=port), # port stats request 5: of.ofp_header(type=16, length=20) / of.ofp_stats_request(type=5) / of.ofp_queue_stats_request(), #queue request 6: of.ofp_header(type=16, length=12) / of.ofp_stats_request(type=0xffff) #vendor request } return msg[Type]
def send(Type, flow_1, port =None): flow =str(flow_1) ofp_flow_wildcards=of.ofp_flow_wildcards(flow[8:12]) ofp_match =of.ofp_match(flow[12:48]) ofp_flow_mod =of.ofp_flow_mod(flow[48:72]) if len(flow)>=88: action_header = of.ofp_action_header(flow[72:80]) action_output = of.ofp_action_output(flow[80:88]) #we need to send the stats request packets periodically msg = { 0: of.ofp_header(type = 16, length = 12)/of.ofp_stats_request(type = 0), #Type of OFPST_DESC (0) 1: of.ofp_header(type = 16, length = 56)/of.ofp_stats_request(type =1)/ofp_flow_wildcards/ofp_match/of.ofp_flow_stats_request(out_port = ofp_flow_mod.out_port), #flow stats 2: of.ofp_header(type = 16, length =56)/of.ofp_stats_request(type = 2)/ofp_flow_wildcards/ofp_match/of.ofp_aggregate_stats_request(), # aggregate stats request 3: of.ofp_header(type = 16, length = 12)/of.ofp_stats_request(type = 3), #Type of OFPST_TABLE (0) 4: of.ofp_header(type = 16, length =20)/of.ofp_stats_request(type = 4)/of.ofp_port_stats_request(port_no = port), # port stats request 5: of.ofp_header(type = 16, length =20)/of.ofp_stats_request(type =5)/of.ofp_queue_stats_request(), #queue request 6: of.ofp_header(type = 16, length = 12)/of.ofp_stats_request(type = 0xffff) #vendor request } return msg[Type]
def controller_handler(self, address, fd, events): if events & io_loop.READ: data = self.sock_con.recv(1024) if data == '': print "controller disconnected" io_loop.remove_handler(self.fd_con) print "closing connection to switch" self.sock_sw.close() io_loop.remove_handler(self.fd_sw) else: rmsg = of.ofp_header(data[0:8]) # Here, we can manipulate OpenFlow packets from CONTROLLER. if rmsg.type == 0xff: #cflow_mod header = ofc.ofp_header(data[0:8]) cflow_mod = ofc.ofp_cflow_mod(data[8:16]) cflow_connect_wildcards = ofc.ofp_connect_wildcards(data[16:18]) cflow_connect = ofc.ofp_connect(data[18:92]) ofp_action_output= ofc.ofp_action_output(data[92:]) msg = header/cflow_mod/cflow_connect_wildcards/cflow_connect/ofp_action_output msg.show() data = convert.ofc2of(msg, self.buffer, self.dpid) self.flow_cache.append([time.time(),data]) elif rmsg.type == 14: print "send flow_mod" #header = of.ofp_header(data[0:8]) #wildcards=of.ofp_flow_wildcards(data[8:12]) #match=of.ofp_match(data[12:48]) #flow_mod =of.ofp_flow_mod(data[48:72]) #action_header = of.ofp_action_header(data[72:80]) #action_output =of.ofp_action_output(data[80:88]) #data1 =header/wildcards/match/flow_mod/action_header/action_output #self.flow_cache.append([time.time(),data1]) #full message for flow status request: ofp_stats_rqeuest()/ofp_flow_wildcards()/ofp_match()/ofp_flow_stats_request() elif rmsg.type == 16 and 0: #do nothing and send it . header = ofc.ofp_header(data[0:8]) ofp_stats_request = ofc.ofp_stats_request(data[8:12]) if ofp_stats_request.type == 1: ofp_flow_wildcards = ofc.ofp_flow_wildcards(data[12:16]) data_match = ofc.ofp_match(data[16:52]) ofp_flow_stats_request = ofc.ofp_flow_stats_request(data[52:56]) for f in self.flow_cache: flow = str(f[1]) ofp_flow_wildcards = ofc.ofp_flow_wildcards(flow[8:12]) ofp_flow_match = ofc.ofp_match(flow[12:48]) ofp_flow_stats_request.out_put = of.ofp_action_output(flow[80:88]).port data = ofc.ofp_header(type = 16, length = 56)/ofp_stats_request/ofp_flow_wildcards/ofp_flow_match/ofp_flow_stats_request #we try to delete the flow by this code. #data = of.ofp_header(type=14,length=88)/ofp_flow_wildcards/ofp_flow_match/of.ofp_flow_mod(command=3,flags=1) #print 'delete matching flow' io_loop.update_handler(self.fd_sw, io_loop.WRITE) self.queue_sw.put(str(data))#put it into the queue of packet which need to send to Switch. elif ofp_stats_request.type == 0: print "send the ofp_stats_request(type = 0)" elif ofp_stats_request.type ==2: print "aggregate request" ofp_flow_wildcards = ofc.ofp_flow_wildcards(data[12:16]) data_match = ofc.ofp_match(data[16:52]) ofp_aggregate_stats_request = ofc.ofp_aggregate_stats_request(data[52:56]) flow = str(self.flow_cache) wildcards = ofc.ofp_flow_wildcards(flow[8:12]) match = ofc.ofp_match(flow[12:48]) data = header/ofp_stats_request/wildcards/match/ofp_aggregate_stats_request elif ofp_stats_request.type ==3: print "table request" elif ofp_stats_request.type ==4: print "port request" elif ofp_stats_request.type ==5: print "queue request" elif ofp_stats_request.type ==0xffff: print "vendor request" #There are no need to change other packets,just send them! io_loop.update_handler(self.fd_sw, io_loop.WRITE) self.queue_sw.put(str(data)) if events & io_loop.WRITE: try: next_msg = self.queue_con.get_nowait() except Queue.Empty: io_loop.update_handler(self.fd_con, io_loop.READ) else: self.sock_con.send(next_msg) #####################delete the flow cache by hard_timeout################### for f in self.flow_cache: if fresh(f): self.flow_cache.remove(f)
import Queue import select import socket import libopenflow as of from functools import partial from tornado.ioloop import IOLoop import threading fd_map = {} event_map = {} thread_map = {} message_queue_map = {} pkt_out = of.ofp_header()/of.ofp_pktout_header()/of.ofp_action_output() class switch(threading.Thread): def __init__(self, sock, event): print "init for connection", sock.fileno() self.sock = sock # for sending pkts self.fd = sock.fileno() self.event = event # for waiting pkt_in self._quit = False super(switch, self).__init__() def send(self, pkt): select.select([], [self.sock], []) self.sock.send(pkt) def run(self): while not self._quit: #print "waiting", sock.getsockname() #sock.send("123")
def client_handler(address, fd, events): sock = fd_map[fd] #print sock, sock.getpeername(), sock.getsockname() if events & io_loop.READ: data = sock.recv(1024) if data == '': """ According to stackoverflow(http://stackoverflow.com/questions/667640/how-to-tell-if-a-connection-is-dead-in-python) When a socket is closed, the server will receive a EOF. In python, however, server will receive a empty string(''). So, when a switch disconnected, the server will find out at once. But, if you do not react on this incident, there will be always a ``ioloop.read`` event. And the loop will run forever, thus, the CPU useage will be pretty high. """ print "connection dropped" io_loop.remove_handler(fd) if len(data)<8: print "not a openflow message" else: #print len(data) #if the data length is 8, then only of header #else, there are payload after the header if len(data)>8: rmsg = of.ofp_header(data[0:8]) body = data[8:] else: rmsg = of.ofp_header(data) #rmsg.show() if rmsg.type == 0: print "OFPT_HELLO" msg = of.ofp_header(type = 5) io_loop.update_handler(fd, io_loop.WRITE) message_queue_map[sock].put(data) message_queue_map[sock].put(str(msg)) elif rmsg.type == 1: print "OFPT_ERROR" elif rmsg.type == 5: print "OFPT_FEATURES_REQUEST" elif rmsg.type == 6: print "OFPT_FEATURES_REPLY" #print "rmsg.load:",len(body)/48 msg = of.ofp_features_reply(body[0:24])#length of reply msg #msg.show() port_info_raw = body[24:] port_info = {} print "port number:",len(port_info_raw)/48, "total length:", len(port_info_raw) for i in range(len(port_info_raw)/48): #print "port", i, ",len:", len(port_info_raw[0+i*48:48+i*48]) """The port structure has a length of 48 bytes. so when receiving port info, first split the list into port structure length and then analysis """ port_info[i] = of.ofp_phy_port(port_info_raw[0+i*48:48+i*48]) #print port_info[i].port_name #port_info[i].show() #print port_info[i].OFPPC_PORT_DOWN elif rmsg.type == 2: print "OFPT_ECHO_REQUEST" msg = of.ofp_header(type=3, xid=rmsg.xid) #test for status request [which is good] global exe_id global ofp_match_obj if exe_id>1: #len = 8+4+44 stat_req = of.ofp_header(type=16,length=56)\ /of.ofp_stats_request(type=1)\ /of.ofp_flow_wildcards()\ /ofp_match_obj\ /of.ofp_flow_stats_request() #stat_req.show() message_queue_map[sock].put(str(msg)) if exe_id>1: message_queue_map[sock].put(str(stat_req)) io_loop.update_handler(fd, io_loop.WRITE) #end of test #io_loop.update_handler(fd, io_loop.WRITE) #message_queue_map[sock].put(str(msg)) elif rmsg.type == 3: print "OFPT_ECHO_REPLY" elif rmsg.type == 4: print "OFPT_VENDOR" elif rmsg.type == 6: print "OFPT_FEATURES_REPLY" elif rmsg.type == 7: print "OFPT_GET_CONFIG_REQUEST" elif rmsg.type == 8: print "OFPT_GET_CONFIG_REPLY" elif rmsg.type == 9: print "OFPT_SET_CONFIG" elif rmsg.type == 10: #print "OFPT_PACKET_IN" #rmsg.show() pkt_in_msg = of.ofp_packet_in(body) #pkt_in_msg.show() raw = pkt_in_msg.load pkt_parsed = of.Ether(raw) #pkt_parsed.payload.show() #print "to see if the payload of ether is IP" #if isinstance(pkt_parsed.payload, of.IP): #pkt_parsed.show() if isinstance(pkt_parsed.payload, of.ARP): #pkt_parsed.show() #pkt_out = of.ofp_header()/of.ofp_pktout_header()/of.ofp_action_output() pkt_out.payload.payload.port = 0xfffb pkt_out.payload.buffer_id = pkt_in_msg.buffer_id pkt_out.payload.in_port = pkt_in_msg.in_port pkt_out.length = 24 #pkt_out.show() io_loop.update_handler(fd, io_loop.WRITE) message_queue_map[sock].put(str(pkt_out)) if isinstance(pkt_parsed.payload, of.IP): if isinstance(pkt_parsed.payload.payload, of.ICMP): #print "from", pkt_parsed.src, "to", pkt_parsed.dst """ When receive a OPF_PACKET_IN message, you can caculate a path, and then use OFP_FLOW_MOD message to install path. Also, you can find out the exact port to send the message, then you can use the following code to send a OFP_PACKET_OUT message and send the packet to destination. """ #pkt_parsed.show() #pkt_out = of.ofp_header()/of.ofp_pktout_header()/of.ofp_action_output() pkt_out.payload.payload.port = 0xfffb pkt_out.payload.buffer_id = pkt_in_msg.buffer_id pkt_out.payload.in_port = pkt_in_msg.in_port pkt_out.length = 24 """ io_loop.update_handler(fd, io_loop.WRITE) message_queue_map[sock].put(str(pkt_out)) """ #print pkt_parsed.payload.proto #pkt_parsed.show() #print "ICMP protocol" #pkt_out.show() #usually don't have to fill in ``wilecards`` area global cookie global exe_id exe_id += 1 cookie += 1 flow_mod_msg = of.ofp_header(type=14, length=80, xid=exe_id)/\ of.ofp_flow_wildcards()\ /of.ofp_match(in_port=pkt_in_msg.in_port, dl_src=pkt_parsed.src, dl_dst=pkt_parsed.dst, dl_type=pkt_parsed.type, nw_tos=pkt_parsed.payload.tos, nw_proto=pkt_parsed.payload.proto, nw_src=pkt_parsed.payload.src, nw_dst=pkt_parsed.payload.dst, tp_src = pkt_parsed.payload.payload.type, tp_dst = pkt_parsed.payload.payload.code)\ /of.ofp_flow_mod(cookie=cookie, command=0, idle_timeout=60, buffer_id=pkt_in_msg.buffer_id,#icmp type 8: request, 0: reply flags=1)\ /of.ofp_action_output(type=0, port=0xfffb, len=8) #flow_mod_msg.show() global ofp_match_obj ofp_match_obj = of.ofp_match(in_port=pkt_in_msg.in_port, dl_src=pkt_parsed.src, dl_dst=pkt_parsed.dst, dl_type=pkt_parsed.type, nw_tos=pkt_parsed.payload.tos, nw_proto=pkt_parsed.payload.proto, nw_src=pkt_parsed.payload.src, nw_dst=pkt_parsed.payload.dst, tp_src = pkt_parsed.payload.payload.type, tp_dst = pkt_parsed.payload.payload.code) exe_id += 1 """ print "--------------------------------------------------------------------------------------" print "len of flow_mod_msg :", len(str(flow_mod_msg)) print "len of of_header() :", len(str(of.ofp_header())) print "len of ofp_flow_wildcards():", len(str(of.ofp_flow_wildcards())) print "len of ofp_match() :", len(str(of.ofp_match())) print "len of ofp_flow_mod() :", len(str(of.ofp_flow_mod(command=0,idle_timeout=60,buffer_id=pkt_in_msg.buffer_id))) print "len of ofp_action_output() :", len(str(of.ofp_action_output(type=0,port=0xfffb,len=8))) print "--------------------------------------------------------------------------------------" """ io_loop.update_handler(fd, io_loop.WRITE) #message_queue_map[sock].put(str(pkt_out)) message_queue_map[sock].put(str(flow_mod_msg)) message_queue_map[sock].put(str(of.ofp_header(type=18,xid=exe_id))) #send a barrier request msg. elif rmsg.type == 11: print "OFPT_FLOW_REMOVED" elif rmsg.type == 12: print "OFPT_PORT_STATUS" elif rmsg.type == 13: print "OFPT_PACKET_OUT" elif rmsg.type == 14: print "OFPT_FLOW_MOD" elif rmsg.type == 15: print "OFPT_PORT_MOD" elif rmsg.type == 16: print "OFPT_STATS_REQUEST" elif rmsg.type == 17: print "OFPT_STATS_REPLY" # 1. parsing ofp_stats_reply reply_header = of.ofp_stats_reply(body[:4]) # 2.parsing ofp_flow_stats msg reply_body_data1 = of.ofp_flow_stats(body[4:8]) # match field in ofp_flow_stats reply_body_wildcards = of.ofp_flow_wildcards(body[8:12]) reply_body_match = of.ofp_match(body[12:48]) # second part in ofp_flow_stats reply_body_data2 = of.ofp_flow_stats_data(body[48:92]) # 3.parsing actions # should first judge action type i = 0 reply_body_action = [] #print len(body[92:]) while i<len(body[92:]): if body[95+i:96+i]==0x08: print "0x08" i+=8 if body[95+i:96+i] == 0x08: reply_body_action.append(of.ofp_action_output(body[92+i:100+i])) #i+=8 # 4.show msg msg = reply_header/reply_body_data1/reply_body_wildcards/reply_body_match/reply_body_data2 msg.show() print reply_body_action # no message body elif rmsg.type == 18: print "OFPT_BARRIER_REQUEST" #no message body, the xid is the previous barrier request xid elif rmsg.type == 19: print "OFPT_BARRIER_REPLY: ", rmsg.xid, "Successful" elif rmsg.type == 20: print "OFPT_QUEUE_GET_CONFIG_REQUEST" elif rmsg.type == 21: print "OFPT_QUEUE_GET_CONFIG_REPLY" if events & io_loop.WRITE: try: next_msg = message_queue_map[sock].get_nowait() except Queue.Empty: #print "%s queue empty" % str(address) io_loop.update_handler(fd, io_loop.READ) else: #print 'sending "%s" to %s' % (of.ofp_header(next_msg).type, address) sock.send(next_msg)
def controller_handler(self, address, fd, events): if events & io_loop.READ: data = self.sock_con.recv(1024) if data == '': print "controller disconnected" io_loop.remove_handler(self.fd_con) print "closing connection to switch" self.sock_sw.close() io_loop.remove_handler(self.fd_sw) else: rmsg = of.ofp_header(data[0:8]) # Here, we can manipulate OpenFlow packets from CONTROLLER. if rmsg.type == 0xff: #cflow_mod header = ofc.ofp_header(data[0:8]) cflow_mod = ofc.ofp_cflow_mod(data[8:16]) cflow_connect_wildcards = ofc.ofp_connect_wildcards( data[16:18]) cflow_connect = ofc.ofp_connect(data[18:92]) ofp_action_output = ofc.ofp_action_output(data[92:]) msg = header / cflow_mod / cflow_connect_wildcards / cflow_connect / ofp_action_output msg.show() data = convert.ofc2of(msg, self.buffer, self.dpid) self.flow_cache.append([time.time(), data]) elif rmsg.type == 14: print "send flow_mod" #header = of.ofp_header(data[0:8]) #wildcards=of.ofp_flow_wildcards(data[8:12]) #match=of.ofp_match(data[12:48]) #flow_mod =of.ofp_flow_mod(data[48:72]) #action_header = of.ofp_action_header(data[72:80]) #action_output =of.ofp_action_output(data[80:88]) #data1 =header/wildcards/match/flow_mod/action_header/action_output #self.flow_cache.append([time.time(),data1]) #full message for flow status request: ofp_stats_rqeuest()/ofp_flow_wildcards()/ofp_match()/ofp_flow_stats_request() elif rmsg.type == 16 and 0: #do nothing and send it . header = ofc.ofp_header(data[0:8]) ofp_stats_request = ofc.ofp_stats_request(data[8:12]) if ofp_stats_request.type == 1: ofp_flow_wildcards = ofc.ofp_flow_wildcards( data[12:16]) data_match = ofc.ofp_match(data[16:52]) ofp_flow_stats_request = ofc.ofp_flow_stats_request( data[52:56]) for f in self.flow_cache: flow = str(f[1]) ofp_flow_wildcards = ofc.ofp_flow_wildcards( flow[8:12]) ofp_flow_match = ofc.ofp_match(flow[12:48]) ofp_flow_stats_request.out_put = of.ofp_action_output( flow[80:88]).port data = ofc.ofp_header( type=16, length=56 ) / ofp_stats_request / ofp_flow_wildcards / ofp_flow_match / ofp_flow_stats_request #we try to delete the flow by this code. #data = of.ofp_header(type=14,length=88)/ofp_flow_wildcards/ofp_flow_match/of.ofp_flow_mod(command=3,flags=1) #print 'delete matching flow' io_loop.update_handler(self.fd_sw, io_loop.WRITE) self.queue_sw.put( str(data) ) #put it into the queue of packet which need to send to Switch. elif ofp_stats_request.type == 0: print "send the ofp_stats_request(type = 0)" elif ofp_stats_request.type == 2: print "aggregate request" ofp_flow_wildcards = ofc.ofp_flow_wildcards( data[12:16]) data_match = ofc.ofp_match(data[16:52]) ofp_aggregate_stats_request = ofc.ofp_aggregate_stats_request( data[52:56]) flow = str(self.flow_cache) wildcards = ofc.ofp_flow_wildcards(flow[8:12]) match = ofc.ofp_match(flow[12:48]) data = header / ofp_stats_request / wildcards / match / ofp_aggregate_stats_request elif ofp_stats_request.type == 3: print "table request" elif ofp_stats_request.type == 4: print "port request" elif ofp_stats_request.type == 5: print "queue request" elif ofp_stats_request.type == 0xffff: print "vendor request" #There are no need to change other packets,just send them! io_loop.update_handler(self.fd_sw, io_loop.WRITE) self.queue_sw.put(str(data)) if events & io_loop.WRITE: try: next_msg = self.queue_con.get_nowait() except Queue.Empty: io_loop.update_handler(self.fd_con, io_loop.READ) else: self.sock_con.send(next_msg) #####################delete the flow cache by hard_timeout################### for f in self.flow_cache: if fresh(f): self.flow_cache.remove(f)
def stats_reply_handler(data, *arg): #print ">>>OFPT_STATS_REPLY:%d",len(data) rmsg = of.ofp_header(data[0:8]) body = data[8:] # 1. parsing ofp_stats_reply reply_header = of.ofp_stats_reply(body[:4]) #reply_header.show() # 2.parsing ofp_flow_stats msg if reply_header.type == 0: reply_desc = of.ofp_desc_stats(body[4:]) reply.show() elif reply_header.type == 1 and len(data) > 92: reply_body_data1 = of.ofp_flow_stats(body[4:8]) reply_body_data1.show() # match field in ofp_flow_stats reply_body_wildcards = of.ofp_flow_wildcards(body[8:12]) reply_body_match = of.ofp_match(body[12:48]) # second part in ofp_flow_stats reply_body_data2 = of.ofp_flow_stats_data(body[48:92]) # 3.parsing actions reply_body_action = [] if len(body[92:]) > 8: #it is very important! num = len(body[92:]) / 8 for x in xrange(num): reply_body_action.append( of.ofp_action_output(body[92 + x * 8:100 + x * 8])) msg = reply_header / reply_body_data1 / reply_body_wildcards / reply_body_match / reply_body_data2 msg.show() elif reply_header.type == 2: reply_aggregate = of.ofp_aggregate_stats_reply(body[4:]) reply_aggregate.show() elif reply_header.type == 3: #table_stats length = rmsg.length - 12 num = length / 64 for i in xrange(num): table_body = body[4 + i * 64:i * 64 + 68] reply_table_stats = of.ofp_table_stats(table_body[:36]) table_wildcards = of.ofp_flow_wildcards(table_body[36:40]) reply_table_stats_data = of.ofp_table_stats_data(table_body[40:64]) msg_tmp = reply_header / reply_table_stats / table_wildcards / reply_table_stats_data msg = rmsg / msg_tmp msg.show() elif reply_header.type == 4: #port stats reply length = rmsg.length - 12 num = length / 104 for i in xrange(num): offset = 4 + i * 104 reply_port_stats = of.ofp_port_stats_reply(body[offset:(offset + 104)]) msg_tmp = reply_header / reply_port_stats msg = rmsg / msg_tmp msg.show() elif reply_header.type == 5: #queue reply length = rmsg.length - 12 num = length / 32 if num: #if the queue is empty ,you need to check it ! for i in xrange(num): offset = 4 + i * 32 queue_reply = of.ofp_queue_stats(body[offset:offset + 32]) msg_tmp = reply_header / queue_reply msg = rmsg / msg_tmp msg.show() elif reply_header.type == 0xffff: #vendor reply msg = rmsg / reply_header / of.ofp_vendor(body[4:]) return None
def stats_reply_handler(data,*arg): #print ">>>OFPT_STATS_REPLY:%d",len(data) rmsg = of.ofp_header(data[0:8]) body = data[8:] # 1. parsing ofp_stats_reply reply_header = of.ofp_stats_reply(body[:4]) #reply_header.show() # 2.parsing ofp_flow_stats msg if reply_header.type == 0: reply_desc = of.ofp_desc_stats(body[4:]) reply.show() elif reply_header.type == 1 and len(data)>92: reply_body_data1 = of.ofp_flow_stats(body[4:8]) reply_body_data1.show() # match field in ofp_flow_stats reply_body_wildcards = of.ofp_flow_wildcards(body[8:12]) reply_body_match = of.ofp_match(body[12:48]) # second part in ofp_flow_stats reply_body_data2 = of.ofp_flow_stats_data(body[48:92]) # 3.parsing actions reply_body_action = [] if len(body[92:])>8: #it is very important! num = len(body[92:])/8 for x in xrange(num): reply_body_action.append(of.ofp_action_output(body[92+x*8:100+x*8])) msg = reply_header/reply_body_data1/reply_body_wildcards/reply_body_match/reply_body_data2 msg.show() elif reply_header.type == 2: reply_aggregate = of.ofp_aggregate_stats_reply(body[4:]) reply_aggregate.show() elif reply_header.type == 3: #table_stats length = rmsg.length - 12 num = length/64 for i in xrange(num): table_body = body[4+i*64:i*64+68] reply_table_stats = of.ofp_table_stats(table_body[:36]) table_wildcards = of.ofp_flow_wildcards(table_body[36:40]) reply_table_stats_data = of.ofp_table_stats_data(table_body[40:64]) msg_tmp = reply_header/reply_table_stats/table_wildcards/reply_table_stats_data msg = rmsg/msg_tmp msg.show() elif reply_header.type == 4: #port stats reply length = rmsg.length - 12 num = length/104 for i in xrange(num): offset = 4+i*104 reply_port_stats = of.ofp_port_stats_reply(body[offset:(offset+104)]) msg_tmp = reply_header/reply_port_stats msg = rmsg/msg_tmp msg.show() elif reply_header.type == 5: #queue reply length = rmsg.length - 12 num = length/32 if num: #if the queue is empty ,you need to check it ! for i in xrange(num): offset = 4+i*32 queue_reply = of.ofp_queue_stats(body[offset:offset+32]) msg_tmp = reply_header/queue_reply msg = rmsg/msg_tmp msg.show() elif reply_header.type == 0xffff: #vendor reply msg = rmsg/reply_header/of.ofp_vendor(body[4:]) return None
def ofc2of(msg, buffer, dpid): print "ofc->ofconverting" if isinstance(msg, ofc.ofp_header): if isinstance(msg.payload, ofc.ofp_cflow_mod): #self.buffer[(pkt_in_msg.in_port, id)] = [pkt_in_msg.buffer_id, rmsg/pkt_in_msg/pkt_parsed] #basic structure: ofp_header()/ofp_cflow_mod()/ofp_connect_wildcards()/ofp_connect()/other_ofp_actions() #select info from connect (port info) and actions (just copy) #WDM: num_wave -> vlan id #OTN: supp_sw_otn_gran->different map function ; bitmap->calculate vlan id #ODU0 = 0, ODU1 = 1 ... # [port + id] --> [buffer_id + pkt_in_msg] if (msg.payload.payload.payload.in_port, msg.xid, dpid) not in buffer: #Do not change the match and wildcards. print "not in the buffer" flow_mod = of.ofp_flow_wildcards(OFPFW_NW_TOS=1, OFPFW_DL_VLAN_PCP=1, OFPFW_NW_DST_MASK=0, OFPFW_NW_SRC_MASK=0, OFPFW_TP_DST=1, OFPFW_TP_SRC=1, OFPFW_NW_PROTO=1, OFPFW_DL_TYPE=1, OFPFW_DL_VLAN=1, OFPFW_IN_PORT=1, OFPFW_DL_DST=1, OFPFW_DL_SRC=1)\ /of.ofp_match(in_port=msg.payload.payload.payload.in_port)\ /of.ofp_flow_mod(cookie=0, command=0, idle_timeout=0, hard_timeout=0, out_port=msg.payload.payload.payload.payload.port, buffer_id=0xffff, flags=1) port = msg.payload.payload.payload.payload.port if msg.payload.payload.payload.nport_out: odu = sup2odu[msg.payload.payload.payload.supp_sw_otn_gran_out] vid = ofc2of_dict_odu[odu](msg.payload.payload.payload.nport_out) print "vid", vid flow_mod_msg = of.ofp_header(type=14,length=104,xid=msg.xid)/flow_mod/of.ofp_action_header(type=0)/of.ofp_action_output(type=0, port=port, len=8)/of.ofp_action_header(type =1)/of.ofp_action_vlan_vid(vlan_vid = vid) return flow_mod_msg elif msg.payload.payload.payload.wport_out: vid = ofc2of_dict_wave(msg.payload.payload.payload.num_wave_out) print "vid", vid flow_mod_msg = of.ofp_header(type=14,length=104,xid=msg.xid)/flow_mod/of.ofp_action_header(type=0)/of.ofp_action_output(type=0, port=port, len=8)/of.ofp_action_header(type =1)/of.ofp_action_vlan_vid(vlan_vid = vid) return flow_mod_msg else: flow_mod_msg = of.ofp_header(type=14,length=88,xid=msg.xid)/flow_mod/of.ofp_action_header(type=0)/of.ofp_action_output(type=0, port=port, len=8) return flow_mod_msg ###############################################use the packet_in to send the flow############################################## else: buffer_id, pkt = buffer[(msg.payload.payload.payload.in_port, msg.xid, dpid)] del buffer[(msg.payload.payload.payload.in_port, msg.xid, dpid)] pkt_parsed = pkt.payload.payload #####################################################pkt_parsed is a Ethernet packet############################################ if isinstance(pkt_parsed.payload, of.IP) or isinstance(pkt_parsed.payload.payload, of.IP): ########################################################TCP OR UDP OR SCTP(L4)################################################## if isinstance(pkt_parsed.payload.payload, of.TCP) or isinstance(pkt_parsed.payload.payload, of.UDP) or isinstance(pkt_parsed.payload.payload, of.SCTP) : print "it is TCP or UDP or SCTP packet" if pkt_parsed.type ==0x8100: print "pkt_parsed.payload.vlan",pkt_parsed.payload.vlan flow_mod =of.ofp_flow_wildcards(OFPFW_NW_TOS=1, OFPFW_DL_VLAN_PCP=1, OFPFW_NW_DST_MASK=0, OFPFW_NW_SRC_MASK=0, OFPFW_TP_DST=1, OFPFW_TP_SRC=1, OFPFW_NW_PROTO=1, OFPFW_DL_TYPE=1, OFPFW_DL_VLAN=1, OFPFW_IN_PORT=1, OFPFW_DL_DST=1, OFPFW_DL_SRC=1)\ /of.ofp_match(in_port=msg.payload.payload.payload.in_port, dl_src=pkt_parsed.src, dl_dst=pkt_parsed.dst, dl_type=pkt_parsed.type, dl_vlan=pkt_parsed.payload.vlan, nw_tos=pkt_parsed.payload.tos, nw_proto=pkt_parsed.payload.proto, nw_src=pkt_parsed.payload.src, nw_dst=pkt_parsed.payload.dst, tp_src = pkt_parsed.payload.payload.sport, tp_dst = pkt_parsed.payload.payload.dport)\ /of.ofp_flow_mod(cookie=0, command=0, idle_timeout=10, hard_timeout=30, out_port=msg.payload.payload.payload.payload.port, buffer_id=buffer_id, flags=1) port = msg.payload.payload.payload.payload.port if msg.payload.payload.payload.nport_out: odu = sup2odu[msg.payload.payload.payload.supp_sw_otn_gran_out] vid = ofc2of_dict_odu[odu](msg.payload.payload.payload.nport_out) print "vid", vid flow_mod_msg = of.ofp_header(type=14,length=104,xid=pkt.xid)/flow_mod/of.ofp_action_header(type=0)/of.ofp_action_output(type=0, port=port, len=8)/of.ofp_action_header(type =1)/of.ofp_action_vlan_vid(vlan_vid = vid) return flow_mod_msg elif msg.payload.payload.payload.wport_out: vid = ofc2of_dict_wave(msg.payload.payload.payload.num_wave_out) print "vid", vid flow_mod_msg = of.ofp_header(type=14,length=104,xid=pkt.xid)/flow_mod/of.ofp_action_header(type=0)/of.ofp_action_output(type=0, port=port, len=8)/of.ofp_action_header(type =1)/of.ofp_action_vlan_vid(vlan_vid = vid) return flow_mod_msg else: flow_mod_msg = of.ofp_header(type=14,length=88,xid=pkt.xid)/flow_mod/of.ofp_action_header(type=0)/of.ofp_action_output(type=0, port=port, len=8) return flow_mod_msg else: flow_mod = of.ofp_flow_wildcards(OFPFW_NW_TOS=1, OFPFW_DL_VLAN_PCP=1, OFPFW_NW_DST_MASK=0, OFPFW_NW_SRC_MASK=0, OFPFW_TP_DST=1, OFPFW_TP_SRC=1, OFPFW_NW_PROTO=1, OFPFW_DL_TYPE=1, OFPFW_DL_VLAN=1, OFPFW_IN_PORT=1, OFPFW_DL_DST=1, OFPFW_DL_SRC=1)\ /of.ofp_match(in_port=msg.payload.payload.payload.in_port, dl_src=pkt_parsed.src, dl_dst=pkt_parsed.dst, dl_type=pkt_parsed.type, nw_tos=pkt_parsed.payload.tos, nw_proto=pkt_parsed.payload.proto, nw_src=pkt_parsed.payload.src, nw_dst=pkt_parsed.payload.dst, tp_src = pkt_parsed.payload.payload.sport, tp_dst = pkt_parsed.payload.payload.dport)\ /of.ofp_flow_mod(cookie=0, command=0, idle_timeout=10, hard_timeout=30, out_port=msg.payload.payload.payload.payload.port, buffer_id=buffer_id, flags=1) port = msg.payload.payload.payload.payload.port if msg.payload.payload.payload.nport_out: odu = sup2odu[msg.payload.payload.payload.supp_sw_otn_gran_out] vid = ofc2of_dict_odu[odu](msg.payload.payload.payload.nport_out) print "vid", vid flow_mod_msg = of.ofp_header(type=14,length=104,xid=pkt.xid)/flow_mod/of.ofp_action_header(type=0)/of.ofp_action_output(type=0, port=port, len=8)/of.ofp_action_header(type =1)/of.ofp_action_vlan_vid(vlan_vid = vid) return flow_mod_msg elif msg.payload.payload.payload.wport_out: vid = ofc2of_dict_wave(msg.payload.payload.payload.num_wave_out) print "vid", vid flow_mod_msg = of.ofp_header(type=14,length=104,xid=pkt.xid)/flow_mod/of.ofp_action_header(type=0)/of.ofp_action_output(type=0, port=port, len=8)/of.ofp_action_header(type =1)/of.ofp_action_vlan_vid(vlan_vid = vid) return flow_mod_msg else: flow_mod_msg = of.ofp_header(type=14,length=88,xid=pkt.xid)/flow_mod/of.ofp_action_header(type=0)/of.ofp_action_output(type=0, port=port, len=8) return flow_mod_msg #######################################################IP(L3)########################################################################## else: if pkt_parsed.type ==0x8100: print "it is just a IP packet " print "pkt_parsed.payload.vlan",pkt_parsed.payload.vlan flow_mod = of.ofp_flow_wildcards(OFPFW_NW_TOS=1, OFPFW_DL_VLAN_PCP=1, OFPFW_NW_DST_MASK=0, OFPFW_NW_SRC_MASK=0, OFPFW_TP_DST=1, OFPFW_TP_SRC=1, OFPFW_NW_PROTO=1, OFPFW_DL_TYPE=1, OFPFW_DL_VLAN=1, OFPFW_IN_PORT=1, OFPFW_DL_DST=1, OFPFW_DL_SRC=1)\ /of.ofp_match(in_port=msg.payload.payload.payload.in_port, dl_src=pkt_parsed.src, dl_dst=pkt_parsed.dst, dl_type=pkt_parsed.type, dl_vlan=pkt_parsed.payload.vlan, nw_tos=pkt_parsed.payload.tos, nw_proto=pkt_parsed.payload.proto, nw_src=pkt_parsed.payload.src, nw_dst=pkt_parsed.payload.dst, tp_src = 0, tp_dst = 0)\ /of.ofp_flow_mod(cookie=0, command=0, idle_timeout=10, hard_timeout=30, out_port=msg.payload.payload.payload.payload.port, buffer_id=buffer_id, flags=1) port = msg.payload.payload.payload.payload.port if msg.payload.payload.payload.nport_out: odu = sup2odu[msg.payload.payload.payload.supp_sw_otn_gran_out] vid = ofc2of_dict_odu[odu](msg.payload.payload.payload.nport_out) print "vid", vid flow_mod_msg = of.ofp_header(type=14,length=104,xid=pkt.xid)/flow_mod/of.ofp_action_header(type=0)/of.ofp_action_output(type=0, port=port, len=8)/of.ofp_action_header(type =1)/of.ofp_action_vlan_vid(vlan_vid = vid) return flow_mod_msg elif msg.payload.payload.payload.wport_out: vid = ofc2of_dict_wave(msg.payload.payload.payload.num_wave_out) print "vid", vid flow_mod_msg = of.ofp_header(type=14,length=104,xid=pkt.xid)/flow_mod/of.ofp_action_header(type=0)/of.ofp_action_output(type=0, port=port, len=8)/of.ofp_action_header(type =1)/of.ofp_action_vlan_vid(vlan_vid = vid) return flow_mod_msg else: flow_mod_msg = of.ofp_header(type=14,length=88,xid=pkt.xid)/flow_mod/of.ofp_action_header(type=0)/of.ofp_action_output(type=0, port=port, len=8) return flow_mod_msg else: flow_mod = of.ofp_flow_wildcards(OFPFW_NW_TOS=1, OFPFW_DL_VLAN_PCP=1, OFPFW_NW_DST_MASK=0, OFPFW_NW_SRC_MASK=0, OFPFW_TP_DST=1, OFPFW_TP_SRC=1, OFPFW_NW_PROTO=1, OFPFW_DL_TYPE=1, OFPFW_DL_VLAN=1, OFPFW_IN_PORT=0, OFPFW_DL_DST=1, OFPFW_DL_SRC=1)\ /of.ofp_match(in_port=msg.payload.payload.payload.in_port, dl_src=pkt_parsed.src, dl_dst=pkt_parsed.dst, dl_type=pkt_parsed.type, nw_tos=pkt_parsed.payload.tos, nw_proto=pkt_parsed.payload.proto, nw_src=pkt_parsed.payload.src, nw_dst=pkt_parsed.payload.dst, tp_src = 0, tp_dst = 0)\ /of.ofp_flow_mod(cookie=0, command=0, idle_timeout=10, hard_timeout=30, out_port=msg.payload.payload.payload.payload.port, buffer_id=buffer_id, flags=1) port = msg.payload.payload.payload.payload.port if msg.payload.payload.payload.nport_out: odu = sup2odu[msg.payload.payload.payload.supp_sw_otn_gran_out] vid = ofc2of_dict_odu[odu](msg.payload.payload.payload.nport_out) print "vid", vid flow_mod_msg = of.ofp_header(type=14,length=104,xid=pkt.xid)/flow_mod/of.ofp_action_header(type=0)/of.ofp_action_output(type=0, port=port, len=8)/of.ofp_action_header(type =1)/of.ofp_action_vlan_vid(vlan_vid = vid) return flow_mod_msg elif msg.payload.payload.payload.wport_out: vid = ofc2of_dict_wave(msg.payload.payload.payload.num_wave_out) print "vid", vid flow_mod_msg = of.ofp_header(type=14,length=104,xid=pkt.xid)/flow_mod/of.ofp_action_header(type=0)/of.ofp_action_output(type=0, port=port, len=8)/of.ofp_action_header(type =1)/of.ofp_action_vlan_vid(vlan_vid = vid) return flow_mod_msg else: flow_mod_msg = of.ofp_header(type=14,length=88,xid=pkt.xid)/flow_mod/of.ofp_action_header(type=0)/of.ofp_action_output(type=0, port=port, len=8) return flow_mod_msg