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  • 2019 SDN上机第5次作业

    1.浏览RYU官网学习RYU控制器的安装和RYU开发入门教程,提交你对于教程代码的理解,包括但不限于:

    1)描述官方教程实现了一个什么样的交换机功能?
    官方教程实现了一个将接收到的数据包发送到所有端口的交换机功能
    2)控制器设定交换机支持什么版本的OpenFlow?
    OpenFlow1.0
    3)控制器设定了交换机如何处理数据包?

    @set_ev_cls(ofp_event.EventOFPPacketIn, MAIN_DISPATCHER)
        def packet_in_handler(self, ev):
            msg = ev.msg
            dp = msg.datapath
            ofp = dp.ofproto
            ofp_parser = dp.ofproto_parser
            
            actions = [ofp_parser.OFPActionOutput(ofp.OFPP_FLOOD)]
            out = ofp_parser.OFPPacketOut(
            	datapath=dp, buffer_id=msg.buffer_id,in_port=msg.in_port,
            	actions=actions)
        	dp.send_msg(out) 
    

    新方法'packet_in_handler'已添加到L2Switch类。当Ryu收到OpenFlow packet_in消息时,将调用此方法。诀窍是“ set_ev_cls”装饰器。该装饰器告诉Ryu何时应调用装饰的函数。装饰器的第一个参数指示应调用此函数的事件类型;第二个参数指示开关的状态。

    在packet_in_handler函数的前半部分:

    • ev.msg是表示packet_in数据结构的对象;
    • msg.dp是代表数据路径(开关)的对象;
    • dp.ofproto和dp.ofproto_parser是代表Ryu和交换机协商的OpenFlow协议的对象;

    在packet_in_handler函数的后半部分:

    • OFPActionOutput类与packet_out消息一起使用,以指定要从中发送数据包的交换机端口。该应用程序使用OFPP_FLOOD标志来指示应在所有端口上发送数据包;
    • OFPPacketOut类用于构建packet_out消息;
    • 如果使用OpenFlow消息类对象调用Datapath类的send_msg方法,则Ryu会生成联机数据格式并将其发送到交换机。

    2.根据官方教程和提供的示例代码(SimpleSwitch.py),将具有自学习功能的交换机代码(SelfLearning.py)补充完整
    补充的四处地方及完整代码:

        # TODO define OpenFlow 1.0 version for the switch
        OFP_VERSIONS = [ofproto_v1_0.OFP_VERSION]
        # TODO send modified message out
        datapath.send_msg(mod)
        # TODO define the action for output
        actions = [datapath.ofproto_parser.OFPActionOutput(out_port)]
        # TODO define the OpenFlow Packet Out
        out = datapath.ofproto_parser.OFPPacketOut(datapath=datapath, buffer_id=msg.buffer_id, in_port=msg.in_port,actions=actions, data=data)
        datapath.send_msg(out)
    
    from ryu.base import app_manager
    from ryu.controller import ofp_event
    from ryu.controller.handler import MAIN_DISPATCHER
    from ryu.controller.handler import set_ev_cls
    from ryu.ofproto import ofproto_v1_0
    
    from ryu.lib.mac import haddr_to_bin
    from ryu.lib.packet import packet
    from ryu.lib.packet import ethernet
    from ryu.lib.packet import ether_types
    
    
    class SimpleSwitch(app_manager.RyuApp):
        # TODO define OpenFlow 1.0 version for the switch
        OFP_VERSIONS = [ofproto_v1_0.OFP_VERSION]
    
        def __init__(self, *args, **kwargs):
            super(SimpleSwitch, self).__init__(*args, **kwargs)
            self.mac_to_port = {}
    
        def add_flow(self, datapath, in_port, dst, src, actions):
            ofproto = datapath.ofproto
    
            match = datapath.ofproto_parser.OFPMatch(
                in_port=in_port,
                dl_dst=haddr_to_bin(dst), dl_src=haddr_to_bin(src))
    
            mod = datapath.ofproto_parser.OFPFlowMod(
                datapath=datapath, match=match, cookie=0,
                command=ofproto.OFPFC_ADD, idle_timeout=0, hard_timeout=0,
                priority=ofproto.OFP_DEFAULT_PRIORITY,
                flags=ofproto.OFPFF_SEND_FLOW_REM, actions=actions)
    
            # TODO send modified message out
            datapath.send_msg(mod)
    
        @set_ev_cls(ofp_event.EventOFPPacketIn, MAIN_DISPATCHER)
        def _packet_in_handler(self, ev):
            msg = ev.msg
            datapath = msg.datapath
            ofproto = datapath.ofproto
    
            pkt = packet.Packet(msg.data)
            eth = pkt.get_protocol(ethernet.ethernet)
    
            if eth.ethertype == ether_types.ETH_TYPE_LLDP:
                # ignore lldp packet
                return
            if eth.ethertype == ether_types.ETH_TYPE_IPV6:
                # ignore ipv6 packet
                return
    
            dst = eth.dst
            src = eth.src
            dpid = datapath.id
            self.mac_to_port.setdefault(dpid, {})
    
            self.logger.info("packet in DPID:%s MAC_SRC:%s MAC_DST:%s IN_PORT:%s", dpid, src, dst, msg.in_port)
    
            # learn a mac address to avoid FLOOD next time.
            self.mac_to_port[dpid][src] = msg.in_port
    
            if dst in self.mac_to_port[dpid]:
                out_port = self.mac_to_port[dpid][dst]
            else:
                out_port = ofproto.OFPP_FLOOD
    
            # TODO define the action for output
            actions = [datapath.ofproto_parser.OFPActionOutput(out_port)]
    
            # install a flow to avoid packet_in next time
            if out_port != ofproto.OFPP_FLOOD:
                self.logger.info("add flow s:DPID:%s Match:[ MAC_SRC:%s MAC_DST:%s IN_PORT:%s ], Action:[OUT_PUT:%s] ",
                                 dpid, src, dst, msg.in_port, out_port)
                self.add_flow(datapath, msg.in_port, dst, src, actions)
    
            data = None
            if msg.buffer_id == ofproto.OFP_NO_BUFFER:
                data = msg.data
    
            # TODO define the OpenFlow Packet Out
            out = datapath.ofproto_parser.OFPPacketOut(datapath=datapath, buffer_id=msg.buffer_id, in_port=msg.in_port,actions=actions, data=data)
            datapath.send_msg(out)
    
        print("PACKET_OUT...")
    

    3.在mininet创建一个最简拓扑,并连接RYU控制器

    python脚本

    from mininet.topo import Topo
    
    class MyTopo(Topo):
    
        def __init__(self):
    
            # initilaize topology
            Topo.__init__(self)
    
            # add switch and hosts 
    	s1 = self.addSwitch('s1')
            h1 = self.addHost('h1')
            h2 = self.addHost('h2')
    
            # add links
            self.addLink(h1, s1, 1, 1)
            self.addLink(h2, s1, 1, 2)
            
    topos = {'mytopo': (lambda: MyTopo())}
    

    创建拓扑

    连接ryu控制器

    4.验证自学习交换机的功能,提交分析过程和验证结果
    未连接ryu控制器时,pingall命令主机间不互通,连接ryu控制器后主机间互通,在另一个终端下发流表,可在ryu控制器的终端看到各类信息



    wireshark抓包

    5.写下你的实验体会
    ryu控制器用python编写程序,下发流表

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  • 原文地址:https://www.cnblogs.com/LIN5516558/p/11945063.html
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