- 3 实验四:动态路由协议
- 3.1 实验目的和内容
- 3.1.1实验目的
- 3.1.2 实验内容
- 3.2 实验过程
- 3.2.1 基于RIP动态路由协议的网络互联
- 3.2.2 基于OSPF动态路由协议的ipv4
- 3.2.3 基于OSPF动态路由协议的ipv6
- 3.3 实验分析
- 3.4 实验心得
(1)掌握RIP的基本工作原理和配置
(2)掌握OSPF的基本工作原理和配置
3.1.2 实验内容(1)基于RIP动态路由协议的网络互联
(2)基于OSPF动态路由协议的ipv4
(3)基于OSPF动态路由协议的ipv6
3.2 实验过程 3.2.1 基于RIP动态路由协议的网络互联(1)拓扑图
![[外链图片转存失败,源站可能有防盗链机制,建议将图片保存下来直接上传(img-KsAalDPm-1617069751152)(file:///C:\Users\User\AppData\Local\Temp\ksohtml8628\wps1.jpg)]](https://img-blog.csdnimg.cn/20210330100426641.png)
图14 rip拓扑图
(2)实验代码
路由器AR1
[AR1]system-view
[AR1]interface gigabitethernet 0/0/0
[AR1]ip address 172.16.1.254 24
[AR1]interface gigabitethernet 0/0/1
[AR1]ip address 172.16.2.1 24
[AR1]rip
[AR1]version 2
[AR1]network 172.16.0.0
路由器AR2
[AR2]system-view
[AR2]interface gigabitethernet 0/0/0
[AR2]ip address 172.16.2.254 24
[AR2]interface gigabitethernet 0/0/1 。
[AR2]ip address 172.16.3.1 24
[AR2]rip
[AR2]version 2
[AR2]network 172.16.0.0
路由器AR3
[AR3]system-view
[AR3]interface gigabitethernet 0/0/0
[AR3]ip address 172.16.3.254 24
[AR3]interface gigabitethernet 0/0/1
[AR3]ip address 172.16.4.1 24
[AR3]rip
[AR3]version 2
[AR3]network 172.16.0.0
路由器AR4
[AR4]system-view
[AR4]interface gigabitethernet 0/0/0
[AR4]ip address 172.16.4.254 24
[AR4]interface gigabitethernet 0/0/1
[AR4]ip address 172.16.5.254 24
[AR4]rip
[AR4]version 2
[AR4]network 172.16.0.0
(3)结果
![[外链图片转存失败,源站可能有防盗链机制,建议将图片保存下来直接上传(img-FHHYzr6A-1617069751154)(file:///C:\Users\User\AppData\Local\Temp\ksohtml8628\wps2.jpg)]](https://img-blog.csdnimg.cn/20210330100506165.png?x-oss-process=image/watermark,type_ZmFuZ3poZW5naGVpdGk,shadow_10,text_aHR0cHM6Ly9ibG9nLmNzZG4ubmV0L3FxXzQ0NTI4Mjgz,size_16,color_FFFFFF,t_70)
图15 ping172.16.1.1
![[外链图片转存失败,源站可能有防盗链机制,建议将图片保存下来直接上传(img-qKDjZcl5-1617069751158)(file:///C:\Users\User\AppData\Local\Temp\ksohtml8628\wps3.jpg)]](https://img-blog.csdnimg.cn/20210330100513647.png?x-oss-process=image/watermark,type_ZmFuZ3poZW5naGVpdGk,shadow_10,text_aHR0cHM6Ly9ibG9nLmNzZG4ubmV0L3FxXzQ0NTI4Mjgz,size_16,color_FFFFFF,t_70)
图16 ping172.16.5.1
3.2.2 基于OSPF动态路由协议的ipv4(1)拓扑图
![[外链图片转存失败,源站可能有防盗链机制,建议将图片保存下来直接上传(img-cLYRxcrD-1617069751162)(file:///C:\Users\User\AppData\Local\Temp\ksohtml8628\wps4.jpg)]](https://img-blog.csdnimg.cn/2021033010052133.png?x-oss-process=image/watermark,type_ZmFuZ3poZW5naGVpdGk,shadow_10,text_aHR0cHM6Ly9ibG9nLmNzZG4ubmV0L3FxXzQ0NTI4Mjgz,size_16,color_FFFFFF,t_70)
图17 ospf-ipv4拓扑图
(2)实验代码
路由器RTC
system-view
interface gigabitethernet 0/0/1
ip address 172.16.1.2 24
ospf cost 20
ospf bandwidth-reference 10000
interface gigabitethernet 0/0/0
ip address 172.16.2.1 24
ospf cost 20
ospf bandwidth-reference 10000
ospf router-id 1.1.1.1
area 1
network 172.16.1.0 0.0.0.255
network 172.16.2.0 0.0.0.255
路由器RTA
system-view
interface gigabitethernet 0/0/1
ip address 172.16.2.2 24
ospf cost 20
]ospf bandwidth-reference 10000
interface gigabitethernet 0/0/0
ip address 172.16.3.1 24
ospf cost 20
ospf bandwidth-reference 10000
ospf router-id 2.2.2.2
area 1
network 172.16.2.0 0.0.0.255
area 0
network 172.16.3.0 0.0.0.255
路由器RTB
system-view
interface gigabitethernet 0/0/1
ip address 172.16.3.2 24
ospf cost 20
ospf bandwidth-reference 10000
interface gigabitethernet 0/0/0
ip address 172.16.4.1 24
ospf cost 20
ospf bandwidth-reference 10000
ospf router-id 3.3.3.3
area 0
network 172.16.3.0 0.0.0.255
area 2
network 172.16.4.0 0.0.0.255
路由器RTD
system-view
interface gigabitethernet 0/0/1
ip address 172.16.4.2 24
ospf cost 20
ospf bandwidth-reference 10000
interface gigabitethernet 0/0/0
ip address 172.16.5.2 24
ospf cost 20
ospf bandwidth-reference 10000
ospf router-id 4.4.4.4
area 2
network 172.16.4.0 0.0.0.255
network 172.16.5.0 0.0.0.255
(3)结果
![[外链图片转存失败,源站可能有防盗链机制,建议将图片保存下来直接上传(img-JodCYMDV-1617069751165)(file:///C:\Users\User\AppData\Local\Temp\ksohtml8628\wps5.jpg)]](https://img-blog.csdnimg.cn/20210330100600332.png?x-oss-process=image/watermark,type_ZmFuZ3poZW5naGVpdGk,shadow_10,text_aHR0cHM6Ly9ibG9nLmNzZG4ubmV0L3FxXzQ0NTI4Mjgz,size_16,color_FFFFFF,t_70)
图18 ping 172.16.1.1
![[外链图片转存失败,源站可能有防盗链机制,建议将图片保存下来直接上传(img-l0lJv3gd-1617069751166)(file:///C:\Users\User\AppData\Local\Temp\ksohtml8628\wps6.jpg)]](https://img-blog.csdnimg.cn/20210330100607672.png?x-oss-process=image/watermark,type_ZmFuZ3poZW5naGVpdGk,shadow_10,text_aHR0cHM6Ly9ibG9nLmNzZG4ubmV0L3FxXzQ0NTI4Mjgz,size_16,color_FFFFFF,t_70)
图19 ping 172.16.5.1
3.2.3 基于OSPF动态路由协议的ipv6(1)拓扑图
![[外链图片转存失败,源站可能有防盗链机制,建议将图片保存下来直接上传(img-vlhE2pD0-1617069751168)(file:///C:\Users\User\AppData\Local\Temp\ksohtml8628\wps7.jpg)]](https://img-blog.csdnimg.cn/20210330100616343.png)
图20 ospf-ipv6拓扑图
(2)实验代码
AR1
[Huawei]ipv6
[Huawei]ospfv3 1
[Huawei-ospfv3-1]router-id 1.1.1.1
[Huawei]int g0/0/0
[Huawei-GigabitEthernet0/0/0]ipv6 enable
[Huawei-GigabitEthernet0/0/0]ipv6 add 2001:12::1/64
[Huawei-GigabitEthernet0/0/0]ospfv3 1 area 0.0.0.1
[Huawei-GigabitEthernet0/0/0]quit
[Huawei]int loop0
[Huawei-LoopBack0]ipv6 en
[Huawei-LoopBack0]ipv6 enable
[Huawei-LoopBack0]ipv6 add 2001:1::1/64
[Huawei-LoopBack0]ospfv3 1 area 0.0.0.1
AR2
[Huawei]ipv6
[Huawei]ospfv3 1
[Huawei-ospfv3-1]router-id 2.2.2.2
[Huawei-ospfv3-1]q
[Huawei]interface GigabitEthernet 0/0/0
[Huawei-GigabitEthernet0/0/0]ipv6 enable
[Huawei-GigabitEthernet0/0/0]ipv6 add 2001:12::2/64
[Huawei-GigabitEthernet0/0/0]ospfv3 1 area 0.0.0.1
[Huawei-GigabitEthernet0/0/0]quit
[Huawei]interface GigabitEthernet 0/0/1
[Huawei-GigabitEthernet0/0/1]ipv6 ena
[Huawei-GigabitEthernet0/0/1]ipv6 enable
[Huawei-GigabitEthernet0/0/1]ipv6 add 2001:23::2/64
[Huawei-GigabitEthernet0/0/1]ospfv3 1 area 0.0.0.0
[Huawei-GigabitEthernet0/0/1]q[Huawei]int loop0
[Huawei-LoopBack0]ipv6 enable
[Huawei-LoopBack0]ipv6 add 2001:2::2/64
[Huawei-LoopBack0]ospfv3 1 area 0.0.0.0
AR3
[Huawei]ipv6
[Huawei]ospfv3 1
[Huawei-ospfv3-1]router-id 3.3.3.3
[Huawei-ospfv3-1]int g0/0/0
[Huawei-GigabitEthernet0/0/0]ipv6 enable
[Huawei-GigabitEthernet0/0/0]ipv6 add 2001:23::1/64
[Huawei-GigabitEthernet0/0/0]ospfv3 1 area 0.0.0.0
[Huawei-GigabitEthernet0/0/0]quit
[Huawei]int loop0
[Huawei-LoopBack0]ipv6 enable
[Huawei-LoopBack0]ipv6 add 2001:3::3/64
[Huawei-LoopBack0]ospfv3 1 area 0.0.0.0
(3)结果
![[外链图片转存失败,源站可能有防盗链机制,建议将图片保存下来直接上传(img-iGoNTT4o-1617069751170)(file:///C:\Users\User\AppData\Local\Temp\ksohtml8628\wps8.jpg)]](https://img-blog.csdnimg.cn/20210330100650322.png?x-oss-process=image/watermark,type_ZmFuZ3poZW5naGVpdGk,shadow_10,text_aHR0cHM6Ly9ibG9nLmNzZG4ubmV0L3FxXzQ0NTI4Mjgz,size_16,color_FFFFFF,t_70)
图21 检查AR1
![[外链图片转存失败,源站可能有防盗链机制,建议将图片保存下来直接上传(img-8IfYQT6m-1617069751172)(file:///C:\Users\User\AppData\Local\Temp\ksohtml8628\wps9.jpg)]](https://img-blog.csdnimg.cn/20210330100657298.png?x-oss-process=image/watermark,type_ZmFuZ3poZW5naGVpdGk,shadow_10,text_aHR0cHM6Ly9ibG9nLmNzZG4ubmV0L3FxXzQ0NTI4Mjgz,size_16,color_FFFFFF,t_70)
图22 AR1 ping AR2
![[外链图片转存失败,源站可能有防盗链机制,建议将图片保存下来直接上传(img-xzJ2igWF-1617069751174)(file:///C:\Users\User\AppData\Local\Temp\ksohtml8628\wps10.jpg)]](https://img-blog.csdnimg.cn/20210330100703268.png?x-oss-process=image/watermark,type_ZmFuZ3poZW5naGVpdGk,shadow_10,text_aHR0cHM6Ly9ibG9nLmNzZG4ubmV0L3FxXzQ0NTI4Mjgz,size_16,color_FFFFFF,t_70)
图23 AR1 ping AR3
3.3 实验分析(1)RIP工作原理
路由器运行RIP后,会首先发送路由更新请求,收到请求的路由器会发送自己的RIP路由进行响应。网络稳定后,路由器会周期性发送路由更新信息。
RIP使用跳数作为度量值来衡量到达目的。网络的距离缺省情况下,直连网络的路由跳数为0。当路由器发送路由更新时,会把度量值加1。RIP规定超过15跳为网络不可达。
(2)OSPF工作原理
OSPF是一种典型的链路状态路由协议,采用OSPF路由协议的路由器彼此交换并保存整个网络的链路信息,从而掌握全网的拓扑结构。并独立计算路由。生成链路库。
当网络中这些路由器的链路状态数据库LSDB完全相同时,每一台路由器都会以自身为根结点,使用最短路径优先(Shortest Path First,SPF)算法计算一个无环路的拓扑图,这个拓扑图就是SPF算法树。每台路由器都会从自己的SPF算法树中构建出自己的路由表,用于动态选路。
3.4 实验心得(1)通过这次实验理解了rip和ospf的区别,RIP仅和相邻路由器交换信息,而且交换的是整个路由表的信息;而ospf是与线路上所分区域上所有路由器交换信息,交换的信息只涉及到链路状态。
(2)Ipv6的Ripng和ospfv3对端口设置ip(互联)的路很新奇,这次实验做的十分顺利,并且对原理掌握的也比较透彻。通过这次实验也更深层次上懂得了在小型网络内部的通信,但对这两种方式的具体细节问题还应值得思考,并对ipv6 的设置有了初步的了解。
