def refresh_handler(data): #send the topo which is changed. network_number = 1 node_number = 2 port_number = 4 link_number = 1 flow_path_number = 1 update_msg = ofpew.ofpew_update(network_number = network_number) network_msg = ofpew.ofpew_network_view(node_number = node_number, port_number = port_number, link_number = link_number,flow_path_number = flow_path_number) node_msg_1 = ofpew.ofpew_node(datapath_id = 1) node_msg_2 = ofpew.ofpew_node(datapath_id = 2) port_msg_1 = ofpew.ofpew_port(port_id = 1,node_id = 1) port_msg_2 = ofpew.ofpew_port(port_id = 2,node_id = 2) port_msg_3 = ofpew.ofpew_port(port_id = 3,node_id = 1) port_msg_4 = ofpew.ofpew_port(port_id = 4,node_id = 2) link_msg = ofpew.ofpew_link(link_id = 1,src_node_id = 1, src_port_id = 1,dst_node_id = 2, dst_port_id = 2) flow_path_msg = ofpew.ofpew_flow_path(flow_path_id = 1, src_in_port_id =3,src_node_id =1, src_out_port_id = 1, dst_node_id = 2,dst_in_port_id = 2 ,dst_out_port_id = 4) header = ofpew.ofpew_header(type = 5) #we encapsulate the packet. msg = header/update_msg/network_msg/node_msg_1/node_msg_2/port_msg_1/port_msg_2/port_msg_3/port_msg_4/link_msg/flow_path_msg msg.length = len(msg) print "*****\n send update messages\n*****" msg.show() return msg
def refresh_handler(data): #send the topo which is changed. network_number = 1 node_number = 2 port_number = 4 link_number = 1 flow_path_number = 1 length = len(ofpew.ofpew_header())+len(ofpew.ofpew_update())+len(ofpew.ofpew_network_view())*network_number +len(ofpew.ofpew_node())*node_number+len(ofpew.ofpew_port())*port_number +len(ofpew.ofpew_link())*link_number+len(ofpew.ofpew_flow_path())*flow_path_number
def update_handler(data): #manipulate the messenge header = ofpew.ofpew_header(data[0:8]) data = data[8:] print "update_handler" update_msg = ofpew.ofpew_update(data[0:8]) data = data[8:] for x in xrange(update_msg.network_number): offset = 0 network_view = ofpew.ofpew_network_view(data[0:16]) network[x] = network_view #store the network_view network_view.show() #offset = 16+network_view.node_number*28+network_veiw.link_number*48 +network_view.port_number*36 +network_view.flow_path_number*60 offset = 16 data = data[offset:] #we need to make sure the offset of network object. for i in xrange(network_view.node_number): #store the nodes of this network node_t = ofpew.ofpew_node(data[(i-1)*28:i*28]) #node_t.show() nodes[node_t.datapath_id] = node_t offset = 28*network_view.node_number data = data[offset:] for k in xrange(network_view.port_number): #store the ports of this network port_t = ofpew.ofpew_port(data[(k-1)*36:k*36]) #port_t.show() ports[port_t.port_id] = port_t offset = 36*network_view.port_number data = data[offset:] for j in xrange(network_view.link_number): #store the links of this network link_t = ofpew.ofpew_link(data[(j-1)*48:j*48]) #link_t.show() links[link_t.link_id] = link_t offset = 48*network_view.link_number data = data[offset:] for y in xrange(network_view.flow_path_number): #store the flwo_paths of this network flow_path_t = ofpew.ofpew_flow_path(data[(y-1)*60:y*60]) #flow_path_t.show() flow_paths[flow_path_t.flow_path_id] = flow_path_t offset = 60* network_view.flow_path_number data = data[offset:] return None
def update_handler(data): #manipulate the messenge print "update_handler" header = ofpew.ofpew_header(data[0:8]) data = data[8:] update_msg = ofpew.ofpew_update(data[0:8]) data = data[8:] for x in xrange(update_msg.network_number): network_view = ofpew.ofpew_network_view(data[0:16]) network[x] = network_view #store the network_view network_view.show() data = data[16:] #we need to make sure the offset of network object. for i in xrange(network_view.node_number): #store the nodes of this network node_t = ofpew.ofpew_node(data[0:*28]) #node_t.show() nodes[node_t.datapath_id] = node_t data =data[28:] for k in xrange(network_view.port_number): #store the ports of this network port_t = ofpew.ofpew_port(data[0:36]) #port_t.show() ports[port_t.port_id] = port_t data = data[36:] for j in xrange(network_view.link_number): #store the links of this network link_t = ofpew.ofpew_link(data[0:48]) #link_t.show() links[link_t.link_id] = link_t data = data[48:] for y in xrange(network_view.flow_path_number): #store the flwo_paths of this network flow_path_t = ofpew.ofpew_flow_path(data[0:60]) #flow_path_t.show() flow_paths[flow_path_t.flow_path_id] = flow_path_t data =data[60:] return None
def down_handler(data): print "***OFPEW_DOWN.***" return None def refresh_handler(data): #send the topo which is changed. network_number = 1 node_number = 2 port_number = 4 link_number = 1 flow_path_number = 1 length = len(ofpew.ofpew_header())+len(ofpew.ofpew_update())+len(ofpew.ofpew_network_view())*network_number +len(ofpew.ofpew_node())*node_number+len(ofpew.ofpew_port())*port_number +len(ofpew.ofpew_link())*link_number+len(ofpew.ofpew_flow_path())*flow_path_number update_msg = ofpew.ofpew_update(network_number = network_number) network_msg = ofpew.ofpew_network_view(node_number = node_number, port_number = port_number, link_number = link_number,flow_path_number = flow_path_number) node_msg_1 = ofpew.ofpew_node(datapath_id = 1) node_msg_2 = ofpew.ofpew_node(datapath_id = 2) port_msg_1 = ofpew.ofpew_port(port_id = 1,node_id = 1) port_msg_2 = ofpew.ofpew_port(port_id = 2,node_id = 2) port_msg_3 = ofpew.ofpew_port(port_id = 3,node_id = 1) port_msg_4 = ofpew.ofpew_port(port_id = 4,node_id = 2) link_msg = ofpew.ofpew_link(link_id = 1,src_node_id = 1, src_port_id = 1,dst_node_id = 2, dst_port_id = 2) flow_path_msg = ofpew.ofpew_flow_path(flow_path_id = 1, src_in_port_id =3,src_node_id =1, src_out_port_id = 1, dst_node_id = 2,dst_in_port_id = 2 ,dst_out_port_id = 4) header = ofpew.ofpew_header(type = 5, length =length)