IPv6路由协议的配置-IPv6动态路由-RIPng配置示例-思科

实验一：IPV6 的静态路由实验实验目的：IPV6是为了解决IPV4地址即将用尽而开发出的一个新的IP地址，虽然他是IPV4 升级版本，但有很多方面都和IPV4 不同，分为单播、任意播和多播，其中多播地址的所有结点地址代替了IPV4 中的广播，而且他们都有自己的地址格式，因此我们要最简单的静态路由做起。

Page 1 of 39实验拓扑：R1 R2S1实验内容：路由器的基本配置：R1 上：interface Loopback0no ip addressipv6 address 2000:0:0:1::1/64!interface Serial1no ip addressipv6 address 2001:0:0:2::1/64clockrate 64000！ipv6 unicast-routing（一定要打这条命令，因为默认情况下IPV6 路由选择功能是关闭的）！ipv6 route 2002:0:0:3::/64 2001:0:0:2::2 和IPV4 一样只不过变成了IPV6 格式R2 上：interface Loopback0no ip addressipv6 address 2002:0:0:3::2/64!interface Serial1no ip addressPage 2 of 39ipv6 address 2001:0:0:2::2/64!ipv6 unicast-routing!ipv6 route ::/0 2001:0:0:2::1 （这里用：：/0 表示默认静态路由）R1 上的路由表：用sh ipv6 route 打开rack01#sh ipv routeIPv6 Routing Table - 9 entriesCodes: C - Connected, L - Local, S - Static, R - RIP, B - BGPU - Per-user Static routeI1 - ISIS L1, I2 - ISIS L2, IA - ISIS interarea, IS - ISIS summaryO - OSPF intra, OI - OSPF inter, OE1 - OSPF ext 1, OE2 - OSPF ext 2ON1 - OSPF NSSA ext 1, ON2 - OSPF NSSA ext 2C 2000:0:0:1::/64 [0/0]via ::, Loopback0L 2000:0:0:1::1/128 [0/0]via ::, Loopback0C 2001:0:0:2::/64 [0/0]via ::, Serial1L 2001:0:0:2::1/128 [0/0]via ::, Serial1S 2002:0:0:3::/64 [1/0]via 2001:0:0:2::2L FE80::/10 [0/0]via ::, Null0L FF00::/8 [0/0]via ::, Null0我们可以看到有一条S 的路由，是我们写的，他的管理距离是1，下一条是R2的S1 口。

IPV6 实验.RIPng(下一代路由信息协议)实验配置实验拓扑:配置R1:ipv6 unicast-routing //启用ipv6单播路由协议interface Ethernet0/0ipv6 address 2001:1:1:1::1/64ipv6 rip cisco enable //在接口启用RIPngno keepaliveinterface Serial1/0ipv6 address 2001:A:A:A::1/64ipv6 rip cisco enable //在接口启用RIPnginterface Serial1/1ipv6 address 2001:B:B:B::1/64ipv6 rip cisco enable //在接口启用RIPngipv6 router rip cisco //定义标识为cisco的的RIPng进程配置R2:ipv6 unicast-routinginterface Ethernet0/0ipv6 address 2001:2:2:2::2/64ipv6 rip cisco enableno keepaliveinterface Serial1/0ipv6 address 2001:A:A:A::2/64ipv6 rip cisco enableipv6 router rip cisco配置R3ipv6 unicast-routing //启用ipv6单播路由协议interface Ethernet0/0ipv6 address 2001:3:3:1::3/64ipv6 address 2001:3:3:2::3/64ipv6 address 2001:3:3:3::3/64ipv6 address 2001:3:3:4::3/64ipv6 address 2001:3:3:5::3/64ipv6 address 2001:3:3:6::3/64ipv6 rip cisco enableno keepalive!interface Serial1/0ipv6 address 2001:B:B:B::3/64ipv6 rip cisco enableipv6 router rip cisco:在R2验证配置:r2#show ipv6 ripRIP process "cisco", port 521, multicast-group FF02::9, pid 168 Administrative distance is 120. Maximum paths is 16Updates every 30 seconds, expire after 180Holddown lasts 0 seconds, garbage collect after 120Split horizon is on; poison reverse is offDefault routes are not generatedPeriodic updates 92, trigger updates 16Interfaces:Ethernet0/0Serial1/0Redistribution:Noner2#show ipv6 routeIPv6 Routing Table - 14 entriesCodes: C - Connected, L - Local, S - Static, R - RIP, B - BGPU - Per-user Static routeI1 - ISIS L1, I2 - ISIS L2, IA - ISIS interarea, IS - ISIS summaryO - OSPF intra, OI - OSPF inter, OE1 - OSPF ext 1, OE2 - OSPF ext 2ON1 - OSPF NSSA ext 1, ON2 - OSPF NSSA ext 2R 2001:1:1:1::/64 [120/2]via FE80::CE00:3FF:FE68:0, Serial1/0C 2001:2:2:2::/64 [0/0]via ::, Ethernet0/0L 2001:2:2:2::2/128 [0/0]via ::, Ethernet0/0R 2001:3:3:1::/64 [120/3]via FE80::CE00:3FF:FE68:0, Serial1/0R 2001:3:3:2::/64 [120/3]via FE80::CE00:3FF:FE68:0, Serial1/0R 2001:3:3:3::/64 [120/3]via FE80::CE00:3FF:FE68:0, Serial1/0R 2001:3:3:4::/64 [120/3]via FE80::CE00:3FF:FE68:0, Serial1/0R 2001:3:3:5::/64 [120/3]via FE80::CE00:3FF:FE68:0, Serial1/0R 2001:3:3:6::/64 [120/3]via FE80::CE00:3FF:FE68:0, Serial1/0C 2001:A:A:A::/64 [0/0]via ::, Serial1/0L 2001:A:A:A::2/128 [0/0]via ::, Serial1/0R 2001:B:B:B::/64 [120/2]via FE80::CE00:3FF:FE68:0, Serial1/0L FE80::/10 [0/0]via ::, Null0L FF00::/8 [0/0]via ::, Null0r2#show ipv6 route ripIPv6 Routing Table - 14 entriesCodes: C - Connected, L - Local, S - Static, R - RIP, B - BGPU - Per-user Static routeI1 - ISIS L1, I2 - ISIS L2, IA - ISIS interarea, IS - ISIS summaryO - OSPF intra, OI - OSPF inter, OE1 - OSPF ext 1, OE2 - OSPF ext 2ON1 - OSPF NSSA ext 1, ON2 - OSPF NSSA ext 2R 2001:1:1:1::/64 [120/2]via FE80::CE00:3FF:FE68:0, Serial1/0R 2001:3:3:1::/64 [120/3]via FE80::CE00:3FF:FE68:0, Serial1/0R 2001:3:3:2::/64 [120/3]via FE80::CE00:3FF:FE68:0, Serial1/0R 2001:3:3:3::/64 [120/3]via FE80::CE00:3FF:FE68:0, Serial1/0R 2001:3:3:4::/64 [120/3]via FE80::CE00:3FF:FE68:0, Serial1/0R 2001:3:3:5::/64 [120/3]via FE80::CE00:3FF:FE68:0, Serial1/0R 2001:3:3:6::/64 [120/3]via FE80::CE00:3FF:FE68:0, Serial1/0R 2001:B:B:B::/64 [120/2]via FE80::CE00:3FF:FE68:0, Serial1/0r2#show ipv6 rip databaseRIP process "cisco", local RIB2001:1:1:1::/64, metric 2, installedSerial1/0/FE80::CE00:3FF:FE68:0, expires in 157 secs2001:3:3:1::/64, metric 3, installedSerial1/0/FE80::CE00:3FF:FE68:0, expires in 157 secs2001:3:3:2::/64, metric 3, installedSerial1/0/FE80::CE00:3FF:FE68:0, expires in 157 secs2001:3:3:3::/64, metric 3, installedSerial1/0/FE80::CE00:3FF:FE68:0, expires in 157 secs2001:3:3:4::/64, metric 3, installedSerial1/0/FE80::CE00:3FF:FE68:0, expires in 157 secs2001:3:3:5::/64, metric 3, installedSerial1/0/FE80::CE00:3FF:FE68:0, expires in 157 secs2001:3:3:6::/64, metric 3, installedSerial1/0/FE80::CE00:3FF:FE68:0, expires in 157 secs2001:A:A:A::/64, metric 2Serial1/0/FE80::CE00:3FF:FE68:0, expires in 157 secs2001:B:B:B::/64, metric 2, installedSerial1/0/FE80::CE00:3FF:FE68:0, expires in 157 secsr2#show ipv6 rip next-hopsRIP process "cisco", Next HopsFE80::CE00:3FF:FE68:0/Serial1/0 [9 paths]r2#在R3上实现聚合路由:r3(config)#int s1/0r3(config-if)#ipv6 rip cisco summary-address 2001:3:3::/48在R2上查看路由表:(聚合后的路由)r2#show ipv6 route ripIPv6 Routing Table - 9 entriesCodes: C - Connected, L - Local, S - Static, R - RIP, B - BGPU - Per-user Static routeI1 - ISIS L1, I2 - ISIS L2, IA - ISIS interarea, IS - ISIS summaryO - OSPF intra, OI - OSPF inter, OE1 - OSPF ext 1, OE2 - OSPF ext 2ON1 - OSPF NSSA ext 1, ON2 - OSPF NSSA ext 2R 2001:1:1:1::/64 [120/2]via FE80::CE00:3FF:FE68:0, Serial1/0R 2001:3:3::/48 [120/3]via FE80::CE00:3FF:FE68:0, Serial1/0R 2001:B:B:B::/64 [120/2]via FE80::CE00:3FF:FE68:0, Serial1/0在RIPng中分发默认路由:r3(config)#int s1/0r3(config-if)#ipv6 rip cisco default-information originate metric 5在R1或R2上查看默认路由:r2#show ipv6 route ripIPv6 Routing Table - 10 entriesCodes: C - Connected, L - Local, S - Static, R - RIP, B - BGPU - Per-user Static routeI1 - ISIS L1, I2 - ISIS L2, IA - ISIS interarea, IS - ISIS summaryO - OSPF intra, OI - OSPF inter, OE1 - OSPF ext 1, OE2 - OSPF ext 2ON1 - OSPF NSSA ext 1, ON2 - OSPF NSSA ext 2R ::/0 [120/7] //ipv6里默认路由表示via FE80::CE00:3FF:FE68:0, Serial1/0R 2001:1:1:1::/64 [120/2]via FE80::CE00:3FF:FE68:0, Serial1/0R 2001:3:3::/48 [120/3]via FE80::CE00:3FF:FE68:0, Serial1/0R 2001:B:B:B::/64 [120/2]via FE80::CE00:3FF:FE68:0, Serial1/0r2#。

IPv6中RIP路由协议配置实验24 IPv6 RIPng⼀、实验拓扑图，如图1.1所⽰：图1.1 RIPng实验拓扑图⼆、实验说明：1．本实验是在IPv6基础配置实验基础上做的；2．实验拓扑图如上图所⽰；3．通过再路由器上配置RIPng使路由器可以互通。

三、预配置：（同IPv6基础配置实验具体配置）四、配置及调试过程：1.在路由器上启⽤IPv6 RIPng进程：R1(config)#ipv6 router rip ccnp//启⽤RIPng进程，并配置进程标识符R2(config)#ipv6 router rip ccnp2.在接⼝上启⽤RIPng：R1(config-rtr)#int lo 0R1(config-if)#ipv6 rip ccnp enable //在接⼝上启⽤已配置的ccnp rip进程R1(config-if)#int f0/0R1(config-if)#ipv rip ccnp enableR2(config-rtr)#int lo 0R2(config-if)#ipv6 rip ccnp enableR2(config-if)#int f0/0R2(config-if)#ipv rip ccnp enable3.查看路由表：//查看R1的IPv6路由表R1(config)#do sh ipv6 routeIPv6 Routing Table - 7 entriesCodes: C - Connected, L - Local, S - Static, R - RIP, B - BGPU - Per-user Static routeI1 - ISIS L1, I2 - ISIS L2, IA - ISIS interareaO - OSPF intra, OI - OSPF inter, OE1 - OSPF ext 1, OE2 - OSPF ext 2C 1::/64 [0/0]via ::, Loopback0L 1::1/128 [0/0]via ::, Loopback0R 2::/64 [120/2]via FE80::CE01:6FF:FEE4:0, FastEthernet0/0C 2001::/64 [0/0]via ::, FastEthernet0/0L 2001::1/128 [0/0]via ::, FastEthernet0/0L FE80::/10 [0/0]via ::, Null0L FF00::/8 [0/0]via ::, Null0//查看R2的IPv6路由表R2(config-if)#do sh ipv6 routeIPv6 Routing Table - 7 entriesCodes: C - Connected, L - Local, S - Static, R - RIP, B - BGPU - Per-user Static routeI1 - ISIS L1, I2 - ISIS L2, IA - ISIS interareaO - OSPF intra, OI - OSPF inter, OE1 - OSPF ext 1, OE2 - OSPF ext 2 R 1::/64 [120/2] via FE80::CE00:6FF:FEE4:0, FastEthernet0/0C 2::/64 [0/0]via ::, Loopback0L 2::2/128 [0/0]via ::, Loopback0C 2001::/64 [0/0]via ::, FastEthernet0/0L 2001::2/128 [0/0]via ::, FastEthernet0/0L FE80::/10 [0/0]via ::, Null0L FF00::/8 [0/0]via ::, Null04.查看IPv6 RIP数据库：R1(config)#do sh ipv6 rip dataRIP process "ccnp", local RIB2::/64, metric 2, installedFastEthernet0/0/FE80::CE01:6FF:FEE4:0, expires in 177 secs 2001::/64, metric 2FastEthernet0/0/FE80::CE01:6FF:FEE4:0, expires in 177 secsR2(config-if)#do sh ipv6 rip daRIP process "ccnp", local RIB1::/64, metric 2, installedFastEthernet0/0/FE80::CE00:6FF:FEE4:0, expires in 166 secs2001::/64, metric 2FastEthernet0/0/FE80::CE00:6FF:FEE4:0, expires in 166 secs5.查看IPv6 RIPng下⼀跳地址：R2(config-if)#do sh ipv6 rip next-hopRIP process "ccnp", Next HopsFE80::CE00:6FF:FEE4:0/FastEthernet0/0 [2 paths] //是接⼝的Link-local地址6.查看IPv6下所启⽤的协议：R2(config-if)#do sh ipv6 proIPv6 Routing Protocol is "connected"IPv6 Routing Protocol is "static"IPv6 Routing Protocol is "rip ccnp"Interfaces:FastEthernet0/0Loopback0Redistribution:None本实验与ipv4下的rip原理基本相同，在配置IPV6 RIPng的时候，需要给RIP进程命名，然后再在接⼝上启⽤命名的RIP进程，类似于IPv4中的宣告⽹络或者说激活接⼝。

为了解决IP地址紧缺及实现更高的网络安全性等，IPV6推出也有一段时间了。

除了某些特殊行业，IPV6在局域网中的应用还是不够普及。

最近，笔者为本地某公司部署了IPV6网络，下面笔者在cisco模拟器中重现该过程，希望对大家有所帮助。

一、基本说明1、网络拓扑实现两个网段的IPV6主机间的通信，网段1的的路由器为R1，网段2的路由器为R2，它们通过S 1/0连接。

为这两个路由器的S 1/0分别配置一个IPV4的IP地址，分别为10.1.1.1和10.1.1.2。

然后分别在路由器上通过Loop模拟出两个网段，这两个网段都是IPV6的网段。

通过Tunnel将IPV6的数据包封装到IPV4的数据包中，实现点到点的数据传输。

网络拓扑图见图1。

(图1)2、IPV6地址IPV6不同于IPV4，其地址长度是128位，被分割成8个16位的字段中间用冒号(:)分开。

类似于3ffe:1914:0000:0000:0000:2500:04db:3a3b是一个标准的IPV6的IP地址，我们可以根据一定的规则将其简化为3ffe:1914::2500:4db:3a3b。

二、配置过程1、基本配置以路由器1为例首先进行基本的配置，路由器2的配置类似见图2。

对路由器进行基本这是一个很好的习惯。

配置命令如下：Router#configure terminalEnter configuration commands, one per line. End with CNTL/Z.Router(config)#hostname R1R1(config)#no ip domain-lookupR1(config)#enable secret cisco R1(config)#line vty 4R1(config-line)#password cisco R1(config-line)#loginR1(config-line)#R1(config-line)#exec-time 0 0 R1(config-line)#line conso 0R1(config-line)#password cisco R1(config-line)#exec-time 0 0 R1(config-line)#logging synR1(config-line)#loginR1(config-line)#exit2、S1/0的配置分别配置R1和R2的S1/0的IP地址，R1的IP地址为10.1.1.1，R2的IP地址为10.1.1.2，使得它们之间能够通信。

实验九配置IPv6路由实验拓扑实验要求1、配置每台路由器的ipv4和ipv6地址2、R1和R3上建立一条6to4tunnel3、R1和R3之间配置RIPng实现两个ipv6网络互相通信实验步骤1、在R1和R3上开启Ipv6路由能R1(config)#ipv6unicast-routingR3(config)#ipv6unicast-routing2、在三台路由器上配置Ipv4地址，并配置默认路由R1(config)#interface ethernet0/0R1(config-if)#ip address192.168.12.1255.255.255.0R1(config-if)#no shutdownR1(config)#ip route0.0.0.00.0.0.0192.168.12.2R2(config)#interface ethernet0/0R2(config-if)#ip address192.168.12.2255.255.255.0R2(config-if)#no shut R2(config-if)#exit R2(config)#interface ethernet0/1R2(config-if)#ip address192.168.23.2255.255.255.0R2(config-if)#no shutR3(config)#interface ethernet0/1R3(config-if)#ip address192.168.23.3255.255.255.0R3(config-if)#no shutdownR3(config)#ip route0.0.0.00.0.0.0192.168.23.23、配置R1和R3的Ipv6地址R1(config)#interface loopback0R1(config-if)#ipv6address fec0:2001::1/120R3(config)#interface loopback0R3(config-if)#ipv6address fec0:2002::1/1204.配置R1和R3的6to4Tunnel配置之前先测试R1是否能ping通192.168.23.3，如果能通才能做下面的操作R1(config)#interface tunnel0R1(config-if)#ipv6enableR1(config-if)#tunnel mode ipv6ipR1(config-if)#tunnel source192.168.12.1R1(config-if)#tunnel destination192.168.23.3R3(config)#interface tunnel0R3(config-if)#ipv6enableR3(config-if)#tunnel mode ipv6ipR3(config-if)#tunnel source192.168.23.3R3(config-if)#tunnel destination192.168.12.1R1#show ipv6interface briefEthernet0/0[up/up]unassignedEthernet0/1[administratively d own/down]unassignedLoopback0[up/up]FE80::203:E3FF:FE22:E5C0FEC0:2001::1Tunnel0[up/up]FE80::C0A8:C015.配置RIPngR1(config)#ipv6routerrip AAAR1(config-rtr)#exitR1(config)#interfacetunnel0R1(config-if)#ipv6ripAAA enableR1(config-if)#exitR1(config)#interfaceloopback0R1(config-if)#ipv6rip AAA enableR3(config)#ipv6routerrip BBBR3(config-rtr)#exitR3(config)#interfacetunnel0R3(config-if)#ipv6ripBBB enableR3(config-if)#exitR3(config)#interfaceloopback0R3(config-if)#ipv6rip BBB enable6.检查和测试R1#show ipv6routeIPv6Routing T able-5entriesCodes:C-Connected,L-Local,S-Static,R-RIP,B-BGP U-Per-user Static routeI1-ISIS L1,I2-ISIS L2,IA-ISIS interarea,IS-ISIS summaryO-OSPF intra,OI-OSPF inter,OE1-OSPF ext1,OE2-OSPF ext2ON1-OSPF NSSA ext1,ON2-OSPF NSSA ext2L FE80::/10[0/0]via::,Null0C FEC0:2001::/120[0/0]via::,Loopback0L FEC0:2001::1/128[0/0]via::,Loopback0R FEC0:2002::/120[120/2]via FE80::C0A8:1703,Tunnel0L FF00::/8[0/0]via::,Null0R1#ping fec0:2002::1source loopback0T ype escape sequence to abort.Sending5,100-byte ICMP Echos to FEC0:2002::1,timeout is2seconds: !!!!!。

南京信息工程大学实验（实习）报告实验（实习）名称IPv6局域网路由配置实验（实习）日期得分指导教师专业年级班次姓名学号1.实验目的了解IPv6的路由配置方法，分别实现IPv6的静态路由和动态路由。

2.实验内容(1)实验资源、工具和准备工作。

Catalyst2811路由器4台。

Windows 2000客户机2~3台，制作好的UTP网络连接线（双端均有RJ-45头）若干条。

子网划分与地址分配可参考下图。

图5.1 IPv6静态路由配置图5.2 IPv6 RIP动态路由配置图5.3 IPv6 OSPF动态路由配置(2)按照7.3节的配置步骤，设置图中各台路由器名称、IP地址；基于IPv6的静态路由和RIP、OSPF动态路由。

重新启动路由器，调试网络，直至多台路由器互连成功。

3.实验步骤(1)按照上图给出的拓扑结构进行绘制，进行网络互连的配置。

①静态路由②动态路由RIPng③动态路由OSPF(2) 写出各路由器的配置命令和配置过程。

①IPv6静态路由 R1：Router>ena Router#conf tRouter(config)#host R1 R1(config)#int f0/0R1(config-if)#ipv6 add fec0:aaaa::1/64 R1(config-if)#no shut R1(config-if)#ex R1(config)#int f0/1R1(config-if)#ipv6 add fec0:bbbb::1/64 R1(config-if)#no shut R1(config-if)#ex R1(config)#int f1/0R1(config-if)#ipv6 add fec0:cccc::1/64 R1(config-if)#no shut R1(config-if)#exR1(config)#ipv6 route fec0:dddd::/64 fec0:cccc::2R2：Router>ena Router#conf tRouter(config)#host R2 R2(config)#int f0/0R2(config-if)#ipv6 add fec0:dddd::1/64 R2(config-if)#no shut R2(config-if)#ex R2(config)#int f0/1 R2(config-if)#ipv6 add fec0:cccc::2/64 R2(config-if)#no shut R2(config-if)#exR2(config)#ipv6 route fec0:aaaa::/64 fec0:cccc::1R2(config)#ipv6 route fec0:bbbb::/64 fec0:cccc::1测试-PC2到PC0和PC1的联通性测试②Router0：Router>enaRouter#conf tRouter(config)#ipv6 unicast-routing Router(config)#ipv6 router rip cisco Router(config-rtr)#exRouter(config)#int f0/0Router(config-if)#ipv6 add fec0:1111:2/64Router(config-if)#ipv6 rip cisco ena Router(config-if)#on shutRouter(config-if)#exRouter(config)#int f0/1Router(config-if)#ipv6 add fec0:12:1/64 Router(config-if)#ipv6 rip cisco ena Router(config-if)#ipv6 rip cisco default-information originateRouter(config-if)#on shutRouter(config-if)#exRouter 1:Router>enaRouter#conf tRouter(config)#ipv6 unicast-routing Router(config)#ipv6 router rip cisco Router(config-rtr)#exRouter(config)#int f0/0Router(config-if)#ipv6 add fec0:12:2/64 Router(config-if)#ipv6 rip cisco ena Router(config-if)#on shutRouter(config-if)#exRouter(config)#int f0/1Router(config-if)#ipv6 add fec0:23:1/64 Router(config-if)#ipv6 rip cisco ena Router(config-if)#on shutRouter(config-if)#exRouter 2：Router>enaRouter#conf tRouter(config)#ipv6 unicast-routing Router(config)#ipv6 router rip cisco Router(config-rtr)#exRouter(config)#int f0/0Router(config-if)#ipv6 add fec0:23:2/64 Router(config-if)#ipv6 rip cisco ena Router(config-if)#on shutRouter(config-if)#exRouter(config)#int f0/1Router(config-if)#ipv6 add fec0:34:1/64 Router(config-if)#ipv6 rip cisco ena Router(config-if)#on shutRouter3：Router>enaRouter#conf tRouter(config)#ipv6 unicast-routing Router(config)#ipv6 router rip cisco Router(config-rtr)#exRouter(config)#int f0/0Router(config-if)#ipv6 add fec0:34:2/64 Router(config-if)#ipv6 rip cisco ena Router(config-if)#on shutRouter(config-if)#exRouter(config)#int f0/1Router(config-if)#ipv6 add fec0:4444:1/64Router(config-if)#ipv6 rip cisco ena Router(config-if)#on shut测试-PC0到PC1的连通性③R1：Router>enaRouter#conf tRouter(config)#host R1R1(config)#ipv6 unR1(config)#ipv6 unicast-routing R1(config)#ipv6 router ospf 100 R1(config-rtr)#router-id 1.1.1.1 R1(config-rtr)#exR1(config)#int f0/0 R1(config-if)#ipv6 add fec0:1111::2/64 R1(config-if)#ipv6 ospf 100 area 1R1(config-if)#no shutR1(config-if)#exR1(config)#int f0/1R1(config-if)#ipv6 add fec0:12::1/64 R1(config-if)#ipv6 ospf 100 area 1R1(config-if)#no shutR1(config-if)#exR2:Router>enaRouter#conf tRouter(config)#host R2R2(config)#ipv6 unR2(config)#ipv6 unicast-routing R2(config)#ipv6 router ospf 100 R2(config-rtr)#router-id 2.2.2.2 R2(config-rtr)#exR2(config)#int f0/0 R2(config-if)#ipv6 add fec0:12::2/64 R2(config-if)#ipv6 ospf 100 area 1 R2(config-if)#no shutR2(config-if)#exR2(config)#int f0/1R2(config-if)#ipv6 add fec0:23::1/64 R2(config-if)#ipv6 ospf 100 area 0 R2(config-if)#no shutR2(config-if)#exR3:Router>enaRouter#conf tRouter(config)#host R3R3(config)#ipv6 unR3(config)#ipv6 unicast-routing R3(config)#ipv6 router ospf 100 R3(config-rtr)#router-id 3.3.3.3 R3(config-rtr)#exR3(config)#int f0/0 R3(config-if)#ipv6 add fec0:23::2/64 R3(config-if)#ipv6 ospf 100 area 0 R3(config-if)#no shutR3(config-if)#exR3(config)#int f0/1R3(config-if)#ipv6 add fec0:34::1/64 R3(config-if)#ipv6 ospf 100 area 2 R3(config-if)#no shutR3(config-if)#exR4:Router>enaRouter#conf tRouter(config)#host 4R4(config)#ipv6 unR4(config)#ipv6 unicast-routing R4(config)#ipv6 router ospf 100 R4(config-rtr)#router-id 4.4.4.4 R4(config-rtr)#exR4(config)#int f0/0 R4(config-if)#ipv6 add fec0:34::2/64 R4(config-if)#ipv6 ospf 100 area 2R4(config-if)#no shutR4(config-if)#exR4(config)#int f0/1R4(config-if)#ipv6 add fec0:4444::1/64 R4(config-if)#ipv6 ospf 100 area 2R4(config-if)#no shutR4(config-if)#ex测试-PC1到PC0的连通性4.实验总结通过这次实验，我很好的掌握了IPv6的静态路由、Rip和OSPF的应用。