[计算机硬件及网络]网络工程集成实训报告.doc

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1、网络工程集成实训报告1. 实验目的1、 通过设计综合网络实验,熟悉各种路由交换协议的原理。2、 熟悉搭建基本网络环境,规划网络及划分IP地址。3、 掌握交换机Vlan技术的原理,以及划分Vlan、添加端口、端口属性等Vlan间通讯的配置方法。4、 掌握STP生成树协议的原理及链路聚合的配置方法,包括端口速率、端口工作模式及端口聚合等。5、 掌握常用的动态路由协议RIP、OSPF的原理,以及VRRP技术的作用及配置命令。6、 掌握访问控制列表(ACL)、NAT地址转换以及路由引入的应用。7、 掌握GRE VPN技术原理及隧道技术的配置。8、 对网络设计过程中出现的错误进行分析,掌握检错排错的方法

2、。2. 实验内容及要求1、 通过已掌握的路由交换技术,设计网络,画出拓扑图及规划IP地址。2、 构架实际的网络系统,实现网络的功能,并掌握以下路由交换技术:1) 通过网络拓扑图,对设备进行连接并将设备的配置初始化。2) 按照交换机端口划分表,为交换机创建Vlan、添加端口。注意须将交换机间连接的端口的属性设置为trunk,才能进行通讯。3) 按照IP地址规划表,为设备划分IP地址,实现基本网络连接环境4) 为内网设备配置RIP动态路由协议,实现内网设备的互通。考虑到后面要运用到路由引入,实现将OSPF路由引入到RIP协议中,此处使用RIPv2.5) 在交换机SWA-3及SWB-3上配置VRRP

3、双备份组,实现负载均衡及网络侦测。6) 为外网部分的设备配置OSPF路由协议,实现外网间通信7) 在路由器RA及RB上配置路由引入、ACL访问控制列表及NAT地址转换,实现内网192.168.1.0网段可以访问外网,外网不能访问内网。8) 路由器RA和RB之间配置GRE VPN,实现内网之间通过Tunnel0互相访问。3、 分析并总结3. 实验设备实验设备数量备注H3C AR 28-11路由器3H3C S3610 Series交换机(L3)2H3C S3100 Series交换机(L2)2计算机5Windows XP操作系统以太网线14其中1条交叉线RS-232配置线2V.35 DTE、DCE

4、串口线对14. 实验拓扑图及IP地址规划1、 实验拓扑图2、 交换机端口划分设备名称Vlan接口SWA-32Ethernet1/0/13Ethernet1/0/24Ethernet1/0/3SWB-32Ethernet1/0/13Ethernet1/0/25Ethernet1/0/3SWC-22Ethernet1/0/1 、Ethernet1/0/33Ethernet1/0/2、Ethernet1/0/4SWD-22Ethernet1/0/2、Ethernet1/0/33Ethernet1/0/1、Ethernet1/0/43、 IP地址规划设备名称/协议接口IP地址网关RAE0/0192.1

5、68.3.2200.1.1.1E0/1192.168.4.2200.1.1.1S0/0200.1.1.1200.1.1.2Tunnel0192.168.6.1RBE0/0200.1.2.1200.1.1.2E0/1192.168.5.2200.1.2.1Tunnel0192.168.6.2RCE0/1200.1.2.2200.1.1.2S0/0200.1.1.2200.1.2.2SWA-3Vlan-interface 2192.168.1.253Vlan-interface3192.168.2.253Vlan-interface4192.168.3.1192.168.3.2SWB-3Vlan-

6、interface2192.168.1.252Vlan-interface3192.168.2.252Vlan-interface5192.168.4.1192.168.4.2PC1网卡192.168.1.1192.168.1.254PC2网卡192.168.2.1192.168.2.254PC3网卡192.168.1.2192.168.1.254PC4网卡192.168.2.2192.168.2.254PC5网卡192.168.5.3192.168.5.2VRRP1192.168.1.2542192.168.2.2545. 实验过程实验任务一:搭建基本连接环境步骤一:建立物理连接按照实验拓扑

7、图进行连接,其中主意RA与RB之间通过串口电缆背靠背相连,RB与RC之间通过交叉线相连;并将所有设备配置为初始状态,命令如下:reset saved-configurationreboot连接过程中,要注意设备间相连的是哪个接口。以防实验过程中因接线上错误,导致部分功能无法正常实现。步骤二:划分Vlan,添加端口按照交换机端口划分表,为交换机划分Vlan并引入端口。过程注意vlan、port命令的使用。注意交换机与交换机之间连接时,要将其端口属性设置为trunk,才能够互相通讯。配置如下:配置SWC-2:systemSystem View: return to User View with C

8、trl+Z.H3Csysname SWC-2SWC -2vlan 2SWC -2-vlan2port e1/0/1SWC -2-vlan2port e1/0/3SWC -2-vlan2vlan 3SWC -2-vlan3port e1/0/2SWC -2-vlan3port e1/0/4SWC -2-vlan3int e1/0/2SWC -2-Ethernet1/0/2port link-type trunkSWC -2-Ethernet1/0/2port trunk permit vlan 2 3 Please wait. Done.SWC-2-Ethernet1/0/2int e1/0/1

9、SWC-2-Ethernet1/0/1port link-type trunkSWC-2-Ethernet1/0/1port trunk permit vlan 2 3 Please wait. Done.配置SWD-2:systemSystem View: return to User View with Ctrl+Z.H3Csysname SWD-2SWD-2vlan 2SWD-2-vlan2port e1/0/2SWD-2-vlan2port e1/0/3SWD-2-vlan2vlan 3SWD-2-vlan3port e1/0/1SWD-2-vlan3port e1/0/4SWD-2-

10、vlan3int e1/0/2SWD-2-Ethernet1/0/2port link-type trunkSWD-2-Ethernet1/0/2port trunk permit vlan 2 3 Please wait. Done.SWD-2-Ethernet1/0/2int e1/0/1SWD-2-Ethernet1/0/1port link-type trunkSWD-2-Ethernet1/0/1port trunk permit vlan 2 3 Please wait. Done.配置SWA-3:sysSystem View: return to User View with C

11、trl+Z.H3Csysname SWA-3SWA-3vlan 2SWA-3-vlan2port e1/0/1SWA-3vlan 3SWA-3-vlan3port e1/0/2SWA-3vlan 4SWA-3-vlan4port e1/0/3SWA-3int e1/0/1SWA-3-Ethernet1/0/1port link-type trunkSWA-3-Ethernet1/0/1port trunk permit vlan 2 3SWA-3int e1/0/2SWA-3-Ethernet1/0/2port link-type trunkSWA-3-Ethernet1/0/2port tr

12、unk permit vlan 2 3配置SWB-3:sysSystem View: return to User View with Ctrl+Z.H3Csysname SWB-3SWB-3vlan 2SWB-3-vlan2port e1/0/1SWB-3vlan 3SWB-3-vlan3port e1/0/2SWB-3vlan 5SWB-3-vlan5port e1/0/3SWB-3int e1/0/1SWB-3-Ethernet1/0/1port link-type trunkSWB-3-Ethernet1/0/1port trunk permit vlan 2 3Please wait

13、. Done.SWB-3int e1/0/2SWB-3-Ethernet1/0/2port link-type trunkSWB-3-Ethernet1/0/2port trunk permit vlan 2 3Please wait. Done.步骤三:配置IP地址按照IP地址规划表,为设备配置ip地址。主要命令有interface 及ip address。配置的过程中,要注意子网掩码位数及ip地址本身的正确性,这是实验成功的关键之一。配置如下:配置RA:systemH3Csysname RARAint e0/0RA-Ethernet0/0ip address 192.168.3.2 30R

14、A-Ethernet0/0int e0/1RA-Ethernet0/1ip address 192.168.4.2 30RA-Ethernet0/1int s0/0RA-Serial0/0ip address 200.1.1.1 30配置RB:systemH3Csysname RBRBint e0/0RB-Ethernet0/0ip add 192.168.5.2 30RB-Ethernet0/0int e0/1RB-Ethernet0/1ip add 200.1.2.1 30配置RC:sysH3Csysname RC RCint e0/1RC-Ethernet0/1ip add 200.1.

15、2.2 30 RC-Ethernet0/1int s0/0 RC-Serial0/0ip add 200.1.1.2 30配置SWA-3:SWA-3int vlan 2SWA-3-Vlan-interface2ip add 192.168.1.253 24SWA-3-Vlan-interface2 int vlan 3SWA-3-Vlan-interface3ip add 192.168.2.253 24SWA-3-Vlan-interface3 int vlan 4SWA-3-Vlan-interface4ip add 192.168.3.1 30配置SWB-3:SWB-3int vlan

16、2SWB-3-Vlan-interface2ip add 192.168.1.252 24SWB-3-Vlan-interface2int vlan 3SWB-3-Vlan-interface3ip add 192.168.2.252 24SWB-3-Vlan-interface3int vlan 5SWB-3-Vlan-interface5ip add 192.168.4.1 30对计算机进行配置:根据IP地址表所示在pc上配置IP地址和网关。配置完成后,在pc的“命令提示符”窗口下,键入命令ipconfig来验证pc的IP地址是否配置正确。PCA的结果应该如下所示:PCB的结果应该如下所示

17、:PCC的结果应该如下所示:PCD的结果应该如下所示:PCE的结果应该如下所示:步骤四:查看交换机及路由器的配置1)查看VLAN,以交换机SWA-3为例,结果显示如下:VLAN ID: 1 VLAN Type: static Route Interface: not configured Description: VLAN 0001 Name: VLAN 0001 Tagged Ports: none Untagged Ports: Ethernet1/0/1 Ethernet1/0/2 Ethernet1/0/4 Ethernet1/0/5 Ethernet1/0/6 Ethernet1/0

18、/7 Ethernet1/0/8 Ethernet1/0/9 Ethernet1/0/10 Ethernet1/0/11 Ethernet1/0/12 Ethernet1/0/13 Ethernet1/0/14 Ethernet1/0/15 Ethernet1/0/16 Ethernet1/0/17 Ethernet1/0/18 Ethernet1/0/19 Ethernet1/0/20 Ethernet1/0/21 Ethernet1/0/22 Ethernet1/0/23 Ethernet1/0/24 GigabitEthernet1/1/1 GigabitEthernet1/1/2 Gi

19、gabitEthernet1/1/3 GigabitEthernet1/1/4 VLAN ID: 2 VLAN Type: static Route Interface: configured IP Address: 192.168.1.253 Subnet Mask: 255.255.255.0Description: VLAN 0002 Name: VLAN 0002 Tagged Ports: Ethernet1/0/1 Ethernet1/0/2 Untagged Ports: none VLAN ID: 3 VLAN Type: static Route Interface: con

20、figured IP Address: 192.168.2.253 Subnet Mask: 255.255.255.0 Description: VLAN 0003 Name: VLAN 0003 Tagged Ports: Ethernet1/0/1 Ethernet1/0/2Untagged Ports: none VLAN ID: 4 VLAN Type: static Route Interface: configured IP Address: 192.168.3.1 Subnet Mask: 255.255.255.252 Description: VLAN 0004 Name:

21、 VLAN 0004 Tagged Ports: Ethernet1/0/1 Ethernet1/0/2 Untagged Ports: Ethernet1/0/3VLAN ID: 3 VLAN Type: static Route Interface: configured IP Address: 192.168.2.253 Subnet Mask: 255.255.255.0 Description: VLAN 0003 Name: VLAN 0003 Tagged Ports: Ethernet1/0/1 Ethernet1/0/2Untagged Ports: none VLAN ID

22、: 4 VLAN Type: static Route Interface: configured IP Address: 192.168.3.1 Subnet Mask: 255.255.255.252 Description: VLAN 0004 Name: VLAN 0004 Tagged Ports: Ethernet1/0/1 Ethernet1/0/2 Untagged Ports: Ethernet1/0/32)查看IP地址的配置,以SWA-3为例,结果显示如下:#interface Vlan-interface2 ip address 192.168.1.253 255.255

23、.255.0 rip version 2 multicast vrrp vrid 1 virtual-ip 192.168.1.254 vrrp vrid 1 priority 120 vrrp vrid 1 track interface Vlan-interface4 reduced 30#interface Vlan-interface3 ip address 192.168.2.253 255.255.255.0 rip version 2 multicast vrrp vrid 2 virtual-ip 192.168.2.254#interface Vlan-interface4

24、ip address 192.168.3.1 255.255.255.252 rip version 2 multicastip address 192.168.2.253 255.255.255.0 rip version 2 multicast vrrp vrid 2 virtual-ip 192.168.2.254#interface Vlan-interface4 ip address 192.168.3.1 255.255.255.252 rip version 2 multicast实验任务二:配置STP及链路聚合 此处,我们通过交换机SWC-2与SWD-2的端口Ethernet1

25、/0/5、Ethernet1/0/6做链路聚合,实现相同Vlan的计算机互相访问;在交换机SWA-3及SWB-3上启动STP,防止网络的环路。步骤一:配置端口的属性配置SWC-2:SWC-2int e1/0/5SWC-2-Ethernet1/0/5port link-type trunkSWC-2-Ethernet1/0/5port trunk permit vlan allPlease wait. Done.SWC-2-Ethernet1/0/5int e1/0/6SWC-2-Ethernet1/0/6port link-type trunkSWC-2-Ethernet1/0/6port t

26、runk permit vlan all Please wait. Done.配置SWD-2:SWD-2int e1/0/5SWD-2-Ethernet1/0/5port link-type trunkSWD-2-Ethernet1/0/5port trunk permit vlan allPlease wait. Done.SWD-2-Ethernet1/0/5int e1/0/6SWD-2-Ethernet1/0/6port link-type trunkSWD-2-Ethernet1/0/6port trunk permit vlan all Please wait. Done.步骤二:

27、配置端口的工作模式、端口速率以及聚合配置SWC-2:SWC-2link-aggregation group 1 mode manualSWC-2int e1/0/5SWC-2-Ethernet1/0/5duplex fullSWC-2-Ethernet1/0/5speed 100SWC-2-Ethernet1/0/5port link-aggregation group 1SWC-2-Ethernet1/0/5int e1/0/6SWC-2-Ethernet1/0/6duplex fullSWC-2-Ethernet1/0/6speed 100SWC-2-Ethernet1/0/6port l

28、ink-aggregation group 1配置SWD-2:SWD-2link-aggregation group 1 mode manualSWD-2int e1/0/5SWD-2-Ethernet1/0/5duplex fullSWD-2-Ethernet1/0/5speed 100SWD-2-Ethernet1/0/5port link-aggregation group 1SWD-2-Ethernet1/0/5int e1/0/6SWD-2-Ethernet1/0/6duplex fullSWD-2-Ethernet1/0/6speed 100SWD-2-Ethernet1/0/6p

29、ort link-aggregation group 1步骤三:启动STP配置SWA-3: SWA-3stp enable配置SWB-3:SWB-3stp enable步骤四:查看链路聚合配置SWD-2-Ethernet1/0/6dis link-aggregation verbose Loadsharing Type: Shar - Loadsharing, NonS - Non-LoadsharingFlags: A - LACP_Activity, B - LACP_timeout, C - Aggregation, D - Synchronization, E - Collecting

30、, F - Distributing, G - Defaulted, H - ExpiredAggregation ID: 1, AggregationType: Manual, Loadsharing Type: SharAggregation Description:System ID: 0x8000, 000f-e257-39eaPort Status: S - Selected, U - UnselectedLocal:Port Status Priority Key Flag-Ethernet1/0/5 S 32768 1 Ethernet1/0/6 S 32768 1 Remote

31、:Actor Partner Priority Key SystemID Flag-Ethernet1/0/5 0 0 0 0x0000,0000-0000-0000 Ethernet1/0/6 0 0 0 0x0000,0000-0000-0000 SWD-2dis link-aggregation summary Aggregation Group Type:D - Dynamic, S - Static , M - Manual Loadsharing Type: Shar - Loadsharing, NonS - Non-Loadsharing Actor ID: 0x8000, 0

32、00f-e257-3965 AL AL Partner ID Select Unselect Share Master ID Type Ports Ports Type Port - 1 M none 2 0 Shar Ethernet1/0/5 实验任务三:配置RIP 实验中,为了后面能够顺利地进行将OSPF路由引入到RIP路由当中,此处我们使用RIPv2路由协议,实现内网的通讯。配置步骤如下:步骤一:启用RIP路由协议配置RA:RAripRA-ripnetwork 192.168.3.0RA-ripnetwork 192.168.4.0配置RB:RB-Ethernet0/0ripRB-ri

33、pnetwork 192.168.5.0配置SWA-3:SWA-3ripSWA-3-ripnetwork 192.168.1.0SWA-3-ripnetwork 192.168.2.0SWA-3-ripnetwork 192.168.3.0配置SWB-3:SWB-3ripSWB-3-ripnetwork 192.168.1.0 SWB-3-ripnetwork 192.168.2.0SWB-3-ripnetwork 192.168.4.0步骤二:配置RIP路由协议的版本配置RA:RAint e0/0RA-Ethernet0/0rip RA-Ethernet0/0int e0/1RA-Ether

34、net0/1rip version 2配置RB:RA-Ethernet0/0int e0/1RB-Ethernet0/0rip version 2配置SWA-3:SWA-3-ripint vlan 2SWA-3-Vlan-interface2rip version 2SWA-3-Vlan-interface2int vlan 3SWA-3-Vlan-interface3rip version 2SWA-3- Vlan-interface3int vlan 4SWA-3-Vlan-interface4rip version 2配置SWB-3:SWB-3-ripint vlan 2SWB-3-Vl

35、an-interface2rip version 2SWB-3-Vlan-interface2int vlan 3SWB-3-Vlan-interface3rip version 2SWB-3- Vlan-interface5int vlan 5SWB-3-Vlan-interface5rip version 2步骤三:查看路由表 以RA为例,查看RA的路由表的信息如下:RAdis ip routing-table Routing Table: public netDestination/Mask Protocol Pre Cost Nexthop Interface127.0.0.0/8 D

36、IRECT 0 0 127.0.0.1 InLoopBack0127.0.0.1/32 DIRECT 0 0 127.0.0.1 InLoopBack0192.168.1.0/24 RIP 100 1 192.168.3.1 Ethernet0/0192.168.2.0/24 RIP 100 1 192.168.3.1 Ethernet0/0192.168.3.0/30 DIRECT 0 0 192.168.3.2 Ethernet0/0192.168.3.2/32 DIRECT 0 0 127.0.0.1 InLoopBack0192.168.4.0/30 DIRECT 0 0 192.16

37、8.4.2 Ethernet0/1192.168.4.2/32 DIRECT 0 0 127.0.0.1 InLoopBack0步骤四:测试PC机与路由器RA的连通性。C:Documents and Settingsstudentping 192.168.3.2Pinging 192.168.3.2 with 32 bytes of data:Reply from 192.168.3.2: bytes=32 time1ms TTL=254Reply from 192.168.3.2: bytes=32 time1ms TTL=254Reply from 192.168.3.2: bytes=3

38、2 time1ms TTL=254Reply from 192.168.3.2: bytes=32 time1ms TTL=254Ping statistics for 192.168.3.2: Packets: Sent = 4, Received = 4, Lost = 0 (0% loss),Approximate round trip times in milli-seconds: Minimum = 0ms, Maximum = 0ms, Average = 0ms1)测试PC机到路由器RA的连通性,以PCA ping RA为例,结果显示如下:2、RA ping PC机RAping 192.168.2.1 PING 192.168.2.

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