1、安装floodlight
2、生成拓扑并连接控制器floodlight,利用控制器floodlight查看图形拓扑
(1)代码:
from mininet.topo import Topo
class MyTopo( Topo ):
"Simple topology example."
def __init__( self ):
# Initialize topology
Topo.__init__( self )
s1 = self.addSwitch(\'s1\')
s2 = self.addSwitch(\'s2\')
s3 = self.addSwitch(\'s3\')
s4 = self.addSwitch(\'s4\')
h1 = self.addHost(\'h1\')
h2 = self.addHost(\'h2\')
h3 = self.addHost(\'h3\')
self.addLink(h1,s2,1,1)
self.addLink(h2,s3,1,1)
self.addLink(s2,s1,2,1)
self.addLink(s3,s1,2,2)
self.addLink(s1,s4,3,1)
self.addLink(s4,h3,2,1)
topos = { \'mytopo\': ( lambda: MyTopo() ) }
(2)命令行
(3)floodlight生成的拓扑结构
3、利用字符界面下发流表,使得‘h1’和‘h2’ ping 不通
流表:
结果截图:
4、利用字符界面下发流表,通过测试‘h1’和‘h3’的联通性,来验证openflow的hardtime机制
流表:
结果截图:
