1.搭建下图所示SDN拓扑,协议使用Open Flow 1.0,控制器使用部署于本地的POX(默认监听6633端口)
2.阅读Hub模块代码,使用 tcpdump 验证Hub模块;
3.阅读L2_learning模块代码,画出程序流程图,使用 tcpdump 验证Switch模块
流程表
进阶:
1.重新搭建(一)的拓扑,此时交换机内无流表规则,拓扑内主机互不相通;编写Python程序自定义一个POX模块SendFlowInSingle3,并且将拓扑连接至SendFlowInSingle3(默认端口6633),实现向s1发送流表规则使得所有主机两两互通。
import pox.openflow.libopenflow_01 as of
from pox.lib.util import dpid_to_str, str_to_dpid
from pox.lib.util import str_to_bool
import time
from pox.openflow.of_json import *
def _handle_ConnectionUp(event):
# 发往10.0.0.1的数据流将会从交换机的端口1转发进来/交换机的端口1/2转发出去
msg = of.ofp_flow_mod()
msg.priority = 1
msg.match.in_port = 1
msg.actions.append(of.ofp_action_output(port = 1))
msg.actions.append(of.ofp_action_output(port = 2))
msg.actions.append(of.ofp_action_output(port = 3))
event.connection.send(msg)
# 发往10.0.0.2的数据流将会从交换机的端口2转发进来/交换机的端口1/3转发出去
msg = of.ofp_flow_mod()
msg.priority = 1
msg.match.in_port = 2
msg.actions.append(of.ofp_action_output(port = 1))
msg.actions.append(of.ofp_action_output(port = 2))
msg.actions.append(of.ofp_action_output(port = 3))
event.connection.send(msg)
# 发往10.0.0.3的数据流将会从交换机的端口3转发进来/交换机的端口1/2转发出去
msg = of.ofp_flow_mod()
msg.priority = 1
msg.match.in_port = 3
msg.actions.append(of.ofp_action_output(port = 3))
msg.actions.append(of.ofp_action_output(port = 2))
msg.actions.append(of.ofp_action_output(port = 1))
event.connection.send(msg)
def launch():
core.openflow.addListenerByName("ConnectionUp", _handle_ConnectionUp)
2.基于进阶1的代码,完成ODL实验的硬超时功能。
import pox.openflow.libopenflow_01 as of
from pox.lib.util import dpid_to_str, str_to_dpid
from pox.lib.util import str_to_bool
import time
from pox.openflow.of_json import *
def _handle_ConnectionUp(event):
# 发往10.0.0.1的数据流将会从交换机的端口1转发进来/交换机的端口2/3转发出去
msg = of.ofp_flow_mod()
msg.priority = 1
msg.match.in_port = 1
msg.hard_timeout = 10
msg.actions.append(of.ofp_action_output(port = 1))
msg.actions.append(of.ofp_action_output(port = 2))
msg.actions.append(of.ofp_action_output(port = 3))
event.connection.send(msg)
# 发往10.0.0.2的数据流将会从交换机的端口2转发进来/交换机的端口1/3转发出去
msg = of.ofp_flow_mod()
msg.priority = 1
msg.match.in_port = 2
msg.actions.append(of.ofp_action_output(port = 1))
msg.actions.append(of.ofp_action_output(port = 2))
msg.actions.append(of.ofp_action_output(port = 3))
event.connection.send(msg)
# 发往10.0.0.3的数据流将会从交换机的端口3转发进来/交换机的端口1/2转发出去
msg = of.ofp_flow_mod()
msg.priority = 1
msg.match.in_port = 3
msg.actions.append(of.ofp_action_output(port = 3))
msg.actions.append(of.ofp_action_output(port = 2))
msg.actions.append(of.ofp_action_output(port = 1))
event.connection.send(msg)
def launch():
core.openflow.addListenerByName("ConnectionUp", _handle_ConnectionUp)
标签:actions,ofp,实验,msg,output,port,append
From: https://www.cnblogs.com/pyf0419/p/16819097.html