0722 华为静态路由实验.docx
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0722 华为静态路由实验.docx
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0722华为静态路由实验
实验一
实验要求:
1要求根据实验拓扑配置地址
2配置静态路由,实现全网互通和负载分担
3进行配置,让CLIENT1的路由走12.0.0.0/24的链路,CLIENT2走链路21.0.0.0/24.
实验步骤:
1Client1上的配置如图:
Client2的配置如图:
R1上配置地址:
[Huawei]sysR1
[R1]user-interfacecon0
[R1-ui-console0]id00
[R1-ui-console0]quit
//基本配置,设置会话永不超时
[R1]inte0/0/0
[R1-Ethernet0/0/0]ipadd192.168.1.1024
[R1-Ethernet0/0/0]undoshut
[R1-Ethernet0/0/0]inte0/0/1
[R1-Ethernet0/0/1]ipadd12.0.0.124
[R1-Ethernet0/0/1]undoshut
[R1-Ethernet0/0/1]intg0/0/0
[R1-GigabitEthernet0/0/0]ipadd21.0.0.124
[R1-GigabitEthernet0/0/0]undoshut
//根据拓扑配置IP地址
R2上的配置:
[Huawei]sysR2
[R2]user-interfacecon0
[R2-ui-console0]id00
[R2-ui-console0]quit
//基本配置,设置会话永不超时
[R2]inte0/0/1
[R2-Ethernet0/0/1]ipadd192.168.2.2024
[R2-Ethernet0/0/1]undoshut
[R2-Ethernet0/0/1]inte0/0/0
[R2-Ethernet0/0/0]ipadd12.0.0.224
[R2-Ethernet0/0/0]undoshut
[R2-Ethernet0/0/0]intg0/0/0
[R2-GigabitEthernet0/0/0]ipadd21.0.0.224
[R2-GigabitEthernet0/0/0]undoshut
//根据拓扑配置IP地址
下面测试连通性:
[R2-GigabitEthernet0/0/0]ping12.0.0.1
PING12.0.0.1:
56databytes,pressCTRL_Ctobreak
Replyfrom12.0.0.1:
bytes=56Sequence=1ttl=255time=50ms
Replyfrom12.0.0.1:
bytes=56Sequence=2ttl=255time=50ms
Replyfrom12.0.0.1:
bytes=56Sequence=3ttl=255time=70ms
Replyfrom12.0.0.1:
bytes=56Sequence=4ttl=255time=50ms
Replyfrom12.0.0.1:
bytes=56Sequence=5ttl=255time=30ms
---12.0.0.1pingstatistics---
5packet(s)transmitted
5packet(s)received
0.00%packetloss
round-tripmin/avg/max=30/50/70ms
[R2-GigabitEthernet0/0/0]ping21.0.0.1
PING21.0.0.1:
56databytes,pressCTRL_Ctobreak
Replyfrom21.0.0.1:
bytes=56Sequence=1ttl=255time=70ms
Replyfrom21.0.0.1:
bytes=56Sequence=2ttl=255time=30ms
Replyfrom21.0.0.1:
bytes=56Sequence=3ttl=255time=70ms
Replyfrom21.0.0.1:
bytes=56Sequence=4ttl=255time=30ms
Replyfrom21.0.0.1:
bytes=56Sequence=5ttl=255time=30ms
---21.0.0.1pingstatistics---
5packet(s)transmitted
5packet(s)received
0.00%packetloss
round-tripmin/avg/max=30/46/70ms
[R2-GigabitEthernet0/0/0]ping192.168.2.1
PING192.168.2.1:
56databytes,pressCTRL_Ctobreak
Replyfrom192.168.2.1:
bytes=56Sequence=1ttl=128time=30ms
Replyfrom192.168.2.1:
bytes=56Sequence=2ttl=128time=1ms
Replyfrom192.168.2.1:
bytes=56Sequence=3ttl=128time=20ms
Replyfrom192.168.2.1:
bytes=56Sequence=4ttl=128time=20ms
Replyfrom192.168.2.1:
bytes=56Sequence=5ttl=128time=1ms
---192.168.2.1pingstatistics---
5packet(s)transmitted
5packet(s)received
0.00%packetloss
round-tripmin/avg/max=1/14/30ms
[R1-GigabitEthernet0/0/0]ping192.168.1.1
PING192.168.1.1:
56databytes,pressCTRL_Ctobreak
Replyfrom192.168.1.1:
bytes=56Sequence=1ttl=128time=30ms
Replyfrom192.168.1.1:
bytes=56Sequence=2ttl=128time=1ms
Replyfrom192.168.1.1:
bytes=56Sequence=3ttl=128time=10ms
Replyfrom192.168.1.1:
bytes=56Sequence=4ttl=128time=30ms
Replyfrom192.168.1.1:
bytes=56Sequence=5ttl=128time=30ms
---192.168.1.1pingstatistics---
5packet(s)transmitted
5packet(s)received
0.00%packetloss
round-tripmin/avg/max=1/20/30ms
2配置静态路由实现全网互通
R1上的配置:
[R1]iproute-static192.168.2.0255.255.255.012.0.0.2
[R1]iproute-static192.168.2.0255.255.255.021.0.0.2
[R1]disiprouting-table
RouteFlags:
R-relay,D-downloadtofib
------------------------------------------------------------------------------
RoutingTables:
Public
Destinations:
9Routes:
10
Destination/MaskProtoPreCostFlagsNextHopInterface
12.0.0.0/24Direct00D12.0.0.1Ethernet0/0/1
12.0.0.1/32Direct00D127.0.0.1Ethernet0/0/1
21.0.0.0/24Direct00D21.0.0.1GigabitEthernet0/0/0
21.0.0.1/32Direct00D127.0.0.1GigabitEthernet0/0/0
127.0.0.0/8Direct00D127.0.0.1InLoopBack0
127.0.0.1/32Direct00D127.0.0.1InLoopBack0
192.168.1.0/24Direct00D192.168.1.10Ethernet0/0/0
192.168.1.10/32Direct00D127.0.0.1Ethernet0/0/0
192.168.2.0/24Static600RD12.0.0.2Ethernet0/0/1
Static600RD21.0.0.2GigabitEthernet0/0/0
红色字体,表明到达192.168.2.0/24有两条路有,流量在两条路由之间进行负载分担。
R2的配置:
[R2]iproute-static192.168.1.0255.255.255.012.0.0.1
[R2]iproute-static192.168.1.0255.255.255.021.0.0.1
[R2]disiprouting-table
RouteFlags:
R-relay,D-downloadtofib
------------------------------------------------------------------------------
RoutingTables:
Public
Destinations:
9Routes:
10
Destination/MaskProtoPreCostFlagsNextHopInterface
12.0.0.0/24Direct00D12.0.0.2Ethernet0/0/0
12.0.0.2/32Direct00D127.0.0.1Ethernet0/0/0
21.0.0.0/24Direct00D21.0.0.2GigabitEthernet0/0/0
21.0.0.2/32Direct00D127.0.0.1GigabitEthernet0/0/0
127.0.0.0/8Direct00D127.0.0.1InLoopBack0
127.0.0.1/32Direct00D127.0.0.1InLoopBack0
192.168.1.0/24Static600RD12.0.0.1Ethernet0/0/0
Static600RD21.0.0.1GigabitEthernet0/0/0
192.168.2.0/24Direct00D192.168.2.20Ethernet0/0/1
192.168.2.20/32Direct00D127.0.0.1Ethernet0/0/1
//红色字体,表明到达192.168.1.0/24有两条路有,流量在两条路由之间进行负载分担。
在R2上测试:
pingCLIENT1并tracert,如图:
测试成功,表明全网互通。
3进行配置,让CLIENT1的路由走12.0.0.0/24的链路,CLIENT2走链路21.0.0.0/24.
先在R1和R2上测试tracert,查看路由的路径
CLIENT1上测试:
如图
在CLIENT2上测试,如图:
表明CLIENT1和CLIENT2都选择12.0.0.0/24的路径
现在进行配置,实现让CLIENT1的路由走12.0.0.0/24的链路,CLIENT2走链路21.0.0.0/24.
R1上的配置:
[R1]iproute-static192.168.2.0255.255.255.021.0.0.2preference80
//将到目的网段走21.0.0.2的流量优先级调高为80
[R1]disiprouting-table
RouteFlags:
R-relay,D-downloadtofib
------------------------------------------------------------------------------
RoutingTables:
Public
Destinations:
9Routes:
9
Destination/MaskProtoPreCostFlagsNextHopInterface
12.0.0.0/24Direct00D12.0.0.1Ethernet0/0/1
12.0.0.1/32Direct00D127.0.0.1Ethernet0/0/1
21.0.0.0/24Direct00D21.0.0.1GigabitEthernet0/0/0
21.0.0.1/32Direct00D127.0.0.1GigabitEthernet0/0/0
127.0.0.0/8Direct00D127.0.0.1InLoopBack0
127.0.0.1/32Direct00D127.0.0.1InLoopBack0
192.168.1.0/24Direct00D192.168.1.10Ethernet0/0/0
192.168.1.10/32Direct00D127.0.0.1Ethernet0/0/0
192.168.2.0/24Static600RD12.0.0.2Ethernet0/0/1
表明R1选择12.0.0.0/24的路径转发流量
R2上的配置:
[R2]iproute-static192.168.1.0255.255.255.021.0.0.1preference50
//将到目的网段走21.0.0.1的流量优先级调低为50
[R2]disiprouting-table
RouteFlags:
R-relay,D-downloadtofib
------------------------------------------------------------------------------
RoutingTables:
Public
Destinations:
9Routes:
9
Destination/MaskProtoPreCostFlagsNextHopInterface
12.0.0.0/24Direct00D12.0.0.2Ethernet0/0/0
12.0.0.2/32Direct00D127.0.0.1Ethernet0/0/0
21.0.0.0/24Direct00D21.0.0.2GigabitEthernet0/0/0
21.0.0.2/32Direct00D127.0.0.1GigabitEthernet0/0/0
127.0.0.0/8Direct00D127.0.0.1InLoopBack0
127.0.0.1/32Direct00D127.0.0.1InLoopBack0
192.168.1.0/24Static500RD21.0.0.1GigabitEthernet0/0/0
//表明R2选择21.0.0.1/24进行流量的转发
192.168.2.0/24Direct00D192.168.2.20Ethernet0/0/1
192.168.2.20/32Direct00D127.0.0.1Ethernet0/0/1
CLIENT1上测试:
如图
在CLIENT2上测试,如图:
测试成功!
导出配置:
R1的配置:
#
sysnameR1
#
aaa
authentication-schemedefault
authorization-schemedefault
accounting-schemedefault
domaindefault
domaindefault_admin
local-useradminpasswordcipherOOCM4m($F4ajUn1vMEIBNUw#
local-useradminservice-typehttp
#
firewallzoneLocal
priority16
#
interfaceEthernet0/0/0
ipaddress192.168.1.10255.255.255.0
#
interfaceEthernet0/0/1
ipaddress12.0.0.1255.255.255.0
#
interfaceSerial0/0/0
link-protocolppp
#
interfaceSerial0/0/1
link-protocolppp
#
interfaceSerial0/0/2
link-protocolppp
#
interfaceSerial0/0/3
link-protocolppp
#
interfaceGigabitEthernet0/0/0
ipaddress21.0.0.1255.255.255.0
#
interfaceGigabitEthernet0/0/1
#
interfaceGigabitEthernet0/0/2
#
interfaceGigabitEthernet0/0/3
#
wlan
#
interfaceNULL0
#
iproute-static192.168.2.0255.255.255.012.0.0.2
iproute-static192.168.2.0255.255.255.021.0.0.2preference80
#
user-interfacecon0
idle-timeout00
user-interfacevty04
user-interfacevty1620
#
Return
R2的配置:
#
sysnameR2
#
aaa
authentication-schemedefault
authorization-schemedefault
accounting-schemedefault
domaindefault
domaindefault_admin
local-useradminpasswordcipherOOCM4m($F4ajUn1vMEIBNUw#
local-useradminservice-typehttp
#
firewallzoneLocal
priority16
#
interfaceEthernet0/0/0
ipaddress12.0.0.2255.255.255.0
#
interfaceEthernet0/0/1
ipaddress192.168.2.20255.255.255.0
#
interfaceSerial0/0/0
link-protocolppp
#
interfaceSerial0/0/1
link-protocolppp
#
interfaceSerial0/0/2
link-protocolppp
#
interfaceSerial0/0/3
link-protocolppp
#
interfaceGigabitEthernet0/0/0
ipaddress21.0.0.2255.255.255.0
#
interfaceGigabitEthernet0/0/1
#
interfaceGigabitEthernet0/0/2
#
interfaceGigabitEthernet0/0/3
#
wlan
#
interfaceNULL0
#
iproute-static192.168.1.0255.255.255.012.0.0.1
iproute-static192.168.1.0255.255.255.021.0.0.1preference50
#
user-interfacecon0
idle-timeout00
user-interfacevty04
user-interfacevty1620
#
Return
实验二:
实验需求
1通过静态路由使全网互通(带有负载)
2PC1通过上面链路,PC2通过下面链路
实验配置:
1通过静态路由使全网互通(带有负载)
R1上的配置:
[Huawei]sysR1
[R1]user-interfacecon0
[R1-ui-console0]id00
[R1-ui-console0]quit
[R1]inte0/0/0
[R1-Ethernet0/0/0]ipadd192.168.1.1024
[R1-Ethernet0/0/0]undoshut
[R1-Ethernet0/0/0]inte0/0/1
[R1-Ethernet0/0/1]ipadd12.0.0.124
[R1-Ethernet0/0/1]undoshut
[R1-Dsl-group0/0/0]intg0/0/0
[R1-GigabitEthernet0/0/0]ipadd13.0.0.124
[R1-GigabitEthernet0/0/0]undoshut
[R1-GigabitEthernet0/0/0]displayipintb
InterfaceIPAddress/MaskPhysicalProtocol
Ethernet0/0/0192.
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