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H3C三层交换机和路由器的配置流程

H3C三层交换机和路由器的配置流程
H3C三层交换机和路由器的配置流程

H3C三层交换机和路由器的配置流程

举例讲解H3C配置三层交换机4个步骤详细用法,配置三层交换机通用的四个步骤就是:划分VLAN,并描述;给VLAN划网关;给VLAN指定端口;配置路由协议;学会这几个步骤之后就能解决所有的配置三层交换机的问题。

language-modechinese//切换到中文模式

system-view//进入系统视图

[H3C]displaycurrent-configuration//显示当前配置三层交换机

//以下开始配置三层交换机

配置三层交换机第一步:划分VLAN,并描述

vlan1

descriptionlocal-s3600//本交换机使用

#

vlan2

descriptionlink-to-shanxicentre//陕西省中心

#

vlan3

descriptionlink-to-shangjiecentre//商界分中心内部使用

#

vlan4

descriptionlink-to-shangdongsuo//商东所

#

vlan5

descriptionlink-to-shangnansuo//商南所

配置三层交换机第二步:给VLAN划网关

#

interfaceVlan-interface2

descriptionlinktoshanxicentre

ipaddress10.61.242.110255.255.255.252//省中心指定广域网关、子网掩码

#

interfaceVlan-interface3

descriptionlinktoshangjiecentre

ipaddress10.161.134.65255.255.255.192//商界分中心局域网关、子网掩码

#

interfaceVlan-interface4

descriptionlinktoshangdongsuo

ipaddress10.61.242.113255.255.255.252//商东所广域网关、子网掩码

#

interfaceVlan-interface5

descriptionlinktoshangnansuo

ipaddress10.61.242.117255.255.255.252//商南所广域网关、子网掩码

配置三层交换机第三步:给VLAN指定端口

#

interfaceEthernet1/0/2//将交换机的端口2指定给省中心使用descriptionlinktoshanxicentre

portaccessvlan2

#

interfaceEthernet1/0/15-24//将交换机的端口15-24指定给分中心内部使用descriptionlinktoshangjiecentre

portaccessvlan3

#

interfaceEthernet1/0/3//将交换机的端口3指定给商东所使用descriptionlinktoshangdongsuo

portaccessvlan4

#

interfaceEthernet1/0/4//将交换机的端口4指定给商南所使用descriptionlinktoshangnansuo

portaccessvlan5

配置三层交换机第四步:配置路由协议

//配静态路由(只用对远端设备配一条路由即可,本地自通)

iproute0.0.0.00.0.0.010.61.242.109//指定所有网段到商东所的路由

//配置三层交换机商东所的反向路由

iproute10.161.134.0255.255.255.010.61.242.114

iproute10.161.135.0255.255.255.010.61.242.114

//配置三层交换机商南所的反向路由

iproute10.161.135.0255.255.255.010.61.242.118

iproute10.161.136.0255.255.255.010.61.242.118

//省中心配置三层交换机:

iproute10.61.242.0255.255.255.010.61.242.110//商东所242.114和商南所242.118共属的242.0指向分中心网关

iproute10.161.134.0255.255.255.010.61.242.110//分中心内部网段指向分中心网关

//iproute10.161.134.0255.255.255.010.61.242.110

//iproute10.161.135.0255.255.255.010.61.242.110

//iproute10.161.136.0255.255.255.010.61.242.110

//以下开始配置路由器

sys

local-user admin创建账号admin

password simple chuntent创建密码chuntent

authorization-attribute level 3 账号权限

service-type telnet打开telnet服务

service-type web打开页面登陆服务

telnet server enable 启用服务

ip http enable 启用服务

quit

sys

user-interface vty 0 4

authentication-mode scheme

quit

interface g0/0 进入外网接口配置外网ip和子网掩码

ip address X.X.X.X 255.255.255.X这里地址按照您的公网ip地址和掩码填写

nat outbound

quit

interface vlan 1 进入内网接口配置内网ip和子网掩码

ip address X.X.X.X 255.255.255.X

quit

ip route-static 0.0.0.0 0.0.0.0 X.X.X.X这里填写外网网关地址。

-------路由转换,1.1.1.2表示外网网关

sys

dhcp enable

dhcp server ip-pool 1

network 172.16.0.0 mask 255.255.252.0

gateway-list X.X.X.X这里请按照您自己的规划配置网关地址

dns-list X.X.X.X 这里填写运营商给的dns地址

Quit

下面是做IP地址一对一映射,分别进入外网和内网接口,重复一样的命令:

interface g0/0

nat server protocol tcp global X.X.X.X any inside X.X.X.X any 前面是公网地址,后面是要映射的内网地址

ip address X.X.X.X (映射的外网ip) X.X.X.X(子网掩码)

sub

------ 映射多个外网ip地址要重复这条 sub 命令

quit

interface vlan 1

nat server protocol tcp global X.X.X.X any inside X.X.X.X any 内网接口同样下发一次就可以内网通过公网地址访问内部服务器

quit

创建映射策略

acl number 3000

rule permit ip source X.X.X.X(内网网段)X.X.X.X(反子网掩码)destination X.X.X.X(映射的内网ip)0

------ 映射多个内网ip要重复这条命令。

进入内网接口应用策略3000

nat outbound 3000

IP限速典型配置举例

1.控制上传速度

system-view

[Router] qos carl 1 source-ip-address range X.X.X.X to X.X.X.X

per-address控制网段上传速度

[Router]qos carl 2 destination-ip-address range X.X.X.X to X.X.X.X

per-address 控制网段下载速度

[Router] interface vlan 1 (进入内网接口应用 Carl 1 和 2)

[Router-Ethernet1/2] qos car inbound carl 1 cir 500

[Router-Ethernet1/2] qos car outbound carl 2 cir 500

H3C VDI安装配置指导

目录 1概述···························································································································· 1-1 1.1 产品简介···················································································································1-1 1.2 产品组件···················································································································1-1 1.3 典型组网···················································································································1-2 1.3.1 组织架构··········································································································1-2 1.3.2 典型组网··········································································································1-2 2安装前的准备工作·········································································································· 2-1 2.1 安装前需确认的内容····································································································2-1 2.2 Broker服务器配置要求 ································································································2-1 2.3 AD服务器配置要求·····································································································2-1 2.4 CAS服务器配置要求···································································································2-2 3安装VDI云桌面管理平台 ································································································ 3-1 3.1 安装CAS ··················································································································3-1 3.2 安装AD域控服务器 ····································································································3-1 3.2.1 通过命令行启动安装域控制器和DNS配置。 ···························································3-1 3.2.2 在弹出的对话框中点击下一步。 ············································································3-2 3.2.3 在弹出的对话框中点击下一步。 ············································································3-3 3.2.4 在弹出的对话框中选中”在心林中新建域”,点击下一步。 ············································3-3 3.2.5 在弹出的对话框输入根级域名,点击下一步。 ··························································3-4 3.2.6 选中正确的林功能级别(本服务器安装的是2008 Server R2),点击下一步 . ·····················3-5 3.2.7 自动配置DNS ···································································································3-6 3.2.8 因为没有创建DNS服务器委派,弹出警告提示,单击”是”继续下一步································3-8 3.2.9 指定AD域的数据库.日志文件的存放路径································································3-9 3.2.10 设定administrator的密码,单击”下一步”······························································· 3-10 3.2.11 查看安装域控前的摘要信息,确认无误后单击下一步················································ 3-11 3.2.12 配置域控服务 ································································································ 3-11 3.2.13 安装完成后,重新启动服务器·············································································· 3-12 3.3 安装Broker服务器 ··································································································· 3-13 3.3.1 解压VDI安装包 ······························································································ 3-13 3.3.2 修改数据库配置······························································································· 3-13 3.3.3 CAS服务器数据库配置 ····················································································· 3-14 3.3.4 初始化数据并注册系统服务················································································ 3-15 3.3.5 运行VDI Broker服务························································································ 3-15 i

H3C IRF堆叠典型配置举例

典型配置举例一IRF检测方式)1.1.1 IRF典型配置举例(LACP MAD 1. 组网需求现的接入需求。由于公司人员激增,接入层交换机提供的端口 数目已经不能满足PC 需要在保护现有投资的基础上扩展端口接入数量,并要求网络易管理、易维护。组网图2. 典型配置组网图(LACP MAD1-13 IRF检测方式)图 3. 配置思路 Device A提供的接入端口数目已经不能满足网络需求,需要另外增加一台设备?Device B。(本文以两台设备组成IRF为例,在实际组网中可以根据需要,将多台设备组成IRF,配置思路和配置步骤与本例类似) 鉴于第二代智能弹性架构IRF技术具有管理简便、网络扩展能力强、可靠性高等?优点,所以本例使用IRF技术构建接入层(即在Device A和Device B上配置IRF功能)。 为了防止万一IRF链路故障导致IRF分裂、网络中存在两个配置冲突的IRF,需?要启用MAD 检测功能。因为接入层设备较多,我们采用LACP MAD检测。 4. 配置步骤 为便于区分,下文配置中假设IRF形成前Device A的系统名称为DeviceA,Device B的系统名称为Device B;中间设备Device C的系统名称为DeviceC。 (1)配置设备编号 # Device A保留缺省编号为1,不需要进行配置。 。2上将设备的成员编号修改为Device B在# system-view [DeviceB] irf member 1 renumber 2 Warning: Renumbering the switch number may result in configuration change or loss. Continue? [Y/N]:y [DeviceB]

H3C S5600系列交换机典型配置举例

S5600系列交换机典型配置举例 2.1.1 静态路由典型配置 1. 组网需求 (1)需求分析 某小型公司办公网络需要任意两个节点之间能够互通,网络结构简单、稳定, 用户希望最大限度利用现有设备。用户现在拥有的设备不支持动态路由协议。 根据用户需求及用户网络环境,选择静态路由实现用户网络之间互通。 (2)网络规划 根据用户需求,设计如图2-1所示网络拓扑图。 图2-1 静态路由配置举例组网图 2. 配置步骤 交换机上的配置步骤: # 设置以太网交换机Switch A的静态路由。 system-view [SwitchA] ip route-static 1.1.3.0 255.255.255.0 1.1.2.2 [SwitchA] ip route-static 1.1.4.0 255.255.255.0 1.1.2.2 [SwitchA] ip route-static 1.1.5.0 255.255.255.0 1.1.2.2 # 设置以太网交换机Switch B的静态路由。 system-view [SwitchB] ip route-static 1.1.2.0 255.255.255.0 1.1.3.1 [SwitchB] ip route-static 1.1.5.0 255.255.255.0 1.1.3.1

[SwitchB] ip route-static 1.1.1.0 255.255.255.0 1.1.3.1 # 设置以太网交换机Switch C的静态路由。 system-view [SwitchC] ip route-static 1.1.1.0 255.255.255.0 1.1.2.1 [SwitchC] ip route-static 1.1.4.0 255.255.255.0 1.1.3.2 主机上的配置步骤: # 在主机A上配缺省网关为1.1.5.1,具体配置略。 # 在主机B上配缺省网关为1.1.4.1,具体配置略。 # 在主机C上配缺省网关为1.1.1.1,具体配置略。 至此图中所有主机或以太网交换机之间均能两两互通。 2.1.2 RIP典型配置 1. 组网需求 (1)需求分析 某小型公司办公网络需要任意两个节点之间能够互通,网络规模比较小。需要 设备自动适应网络拓扑变化,降低人工维护工作量。 根据用户需求及用户网络环境,选择RIP路由协议实现用户网络之间互通。(2)网络规划 根据用户需求,设计如图2-2所示网络拓扑图。 设备接口IP地址设备接口IP地址 Switch A Vlan-int1110.11.2.1/24Switch B Vlan-int1110.11.2.2/24 Vlan-int2155.10.1.1/24Vlan-int3196.38.165.1/24 Switch C Vlan-int1110.11.2.3/24 Vlan-int4117.102.0.1/16 图2-2 RIP典型配置组网图 2. 配置步骤

H3C路由器配置实例

通过在外网口配置nat基本就OK了,以下配置假设Ethernet0/0为局域网接口,Ethernet0/1为外网口。 1、配置内网接口(E t h e r n e t0/0):[M S R20-20]i n t e r f a c e E t h e r n e t0/0 [M S R20-20 2、使用动态分配地址的方式为局域网中的P C分配地址[M S R20-20]d h c p s e r v e r i p-p o o l 1 [M S R20-20-d h c p-p o o l-1]n e t w o r k2 4 [M S R20-20 [M S R20-20 3、配置n a t [M S R20-20]n a t a d d r e s s-g r o u p1公网I P公网I P [MSR20-20]acl number 3000 [MSR20-20-acl-adv-3000]rule 0 permit ip 4、配置外网接口(Ethernet0/1) [MSR20-20] interface Ethernet0/1 [MSR20-20- Ethernet0/1]ip add 公网IP [MSR20-20- Ethernet0/1] nat outbound 3000 address-group 1 5.加默缺省路由 [MSR20-20]route-stac 0.0.0外网网关 总结: 在2020路由器下面, 配置外网口, 配置内网口, 配置acl 作nat, 一条默认路由指向电信网关. ok! Console登陆认证功能的配置 关键词:MSR;console; 一、组网需求: 要求用户从console登录时输入已配置的用户名h3c和对应的口令h3c,用户名和口令正确才能登录成功。 二、组网图: 三、配置步骤:

H3C交换机DHCP服务器接口地址池典型配置指导

1.2 DHCP服务器接口地址池典型配置指导 1.2.1 组网图 图1-2 DHCP服务器接口地址池配置举例 1.2.2 应用要求 ●Switch A作为DHCP服务器,其VLAN接口1的IP地址为192.168.0.1/24; ●客户端属于VLAN1,通过DHCP方式动态获取IP地址; ●DHCP服务器通过接口地址池为MAC地址为000D-88F7-0001的客户文件服务器分配固定的IP地址192.168.0.10/24,为其它客户端主机分配192.168.0.0/24网段的IP地址,有效期限为10天。DNS服务器地址为192.168.0.20/24,WINS服务器地址为192.168.0.30/24。 1.2.3 适用产品、版本 表1-2 配置适用的产品与软硬件版本关系 1.2.4 配置过程和解释 # 使能DHCP服务 system-view [SwitchA] dhcp enable # 配置不参与自动分配的IP地址(DNS服务器、WINS服务器、文件服务器) [SwitchA] dhcp server forbidden-ip 192.168.0.10 [SwitchA] dhcp server forbidden-ip 192.168.0.20 [SwitchA] dhcp server forbidden-ip 192.168.0.30 # 配置VLAN接口1的IP地址为192.168.0.1/24 [SwitchA] interface Vlan-interface 1

[SwitchA-Vlan-interface1] ip address 192.168.0.1 24 # 配置VLAN接口1工作在DHCP接口地址池模式 [SwitchA-Vlan-interface1] dhcp select interface # 配置DHCP接口地址池中的静态绑定地址 [SwitchA-Vlan-interface1] dhcp server static-bind ip-address 192.168.0.10 mac-address 000D-88F7-0001 # 配置DHCP接口地址池的地址池范围、DNS服务器地址、WINS服务器地址 [SwitchA-Vlan-interface1] dhcp server expired day 10 [SwitchA-Vlan-interface1] dhcp server dns-list 192.168.0.20 [SwitchA-Vlan-interface1] dhcp server nbns-list 192.168.0.30 [SwitchA-Vlan-interface1] quit 1.2.5 完整配置 # interface Vlan-interface1 ip address 192.168.0.1 255.255.255.0 dhcp select interface dhcp server static-bind ip-address 192.168.1.10 mac-address 000d-88f7-0001 dhcp server dns-list 192.168.0.20 dhcp server nbns-list 192.168.0.30 dhcp server expired day 10 # dhcp server forbidden-ip 192.168.0.10 dhcp server forbidden-ip 192.168.0.20 dhcp server forbidden-ip 192.168.0.30 # 1.2.6 配置注意事项 当DHCP服务器采用接口地址池模式分配地址时,在接口地址池中的地址分配完之后,将会从包含该接口地址池网段的全局地址池中挑选IP地址分配给客户端,从而导致获取到全局地址池地址的客户端与获取到接口地址池地址的客户端处在不同网段,无法正常进行通信。 故在本例中,建议从VLAN接口1申请IP地址的客户端数目不要超过250个。

史上最详细H3C路由器NAT典型配置案例

H3C路由器NAT典型配置案列(史上最详细)神马CCIE,H3CIE,HCIE等网络工程师日常实施运维必备,你懂的。 NAT典型配置举例 内网用户通过NAT地址访问外网(静态地址转换) 1. 组网需求 内部网络用户使用外网地址访问Internet。 2. 组网图 图1-5 静态地址转换典型配置组网图 3. 配置步骤 # 按照组网图配置各接口的IP地址,具体配置过程略。 # 配置内网IP地址到外网地址之间的一对一静态地址转换映射。 system-view [Router] nat static outbound 使配置的静态地址转换在接口GigabitEthernet1/2上生效。 [Router] interface gigabitethernet 1/2 [Router-GigabitEthernet1/2] nat static enable [Router-GigabitEthernet1/2] quit 4. 验证配置 # 以上配置完成后,内网主机可以访问外网服务器。通过查看如下显示信息,可以验证以上配置成功。 [Router] display nat static Static NAT mappings:

There are 1 outbound static NAT mappings. IP-to-IP: Local IP : Global IP : Interfaces enabled with static NAT: There are 1 interfaces enabled with static NAT. Interface: GigabitEthernet1/2 # 通过以下显示命令,可以看到Host访问某外网服务器时生成NAT会话信息。[Router] display nat session verbose Initiator: Source IP/port: Destination IP/port: VPN instance/VLAN ID/VLL ID: -/-/- Protocol: ICMP(1) Responder: Source IP/port: Destination IP/port: VPN instance/VLAN ID/VLL ID: -/-/- Protocol: ICMP(1) State: ICMP_REPLY Application: INVALID Start time: 2012-08-16 09:30:49 TTL: 27s Interface(in) : GigabitEthernet1/1 Interface(out): GigabitEthernet1/2 Initiator->Responder: 5 packets 420 bytes Responder->Initiator: 5 packets 420 bytes Total sessions found: 1 内网用户通过NAT地址访问外网(地址不重叠) 1. 组网需求

史上最详细H3C路由器NAT典型配置案例

神马CCIE, H3CIE,HCIE等网络工程师日常实施运维必备,你懂的。 NAT典型配置举例 内网用户通过NAT地址访问外网(静态地址转换) 1. 组网需求 内部网络用户使用外网地址访问In ternet 。 2. 组网图 图1-5 静态地址转换典型配置组网图 3. 配置步骤 # 按照组网图配置各接口的IP地址,具体配置过程略。 # 配置内网IP地址到外网地址之间的一对一静态地址转换映射。 system-view [Router] nat static outbou nd 使配置的静态地址转换在接口GigabitEthernet1/2 生效。 [Router] in terface gigabitether net 1/2 [Router-GigabitEthernet1/2] nat static en able [Router-GigabitEthernet1/2] quit 4. 验证配置 #以上配置完成后,内网主机可以访问外网服务器。通过查看如下显示信息,可以验证以 上配置成功。 [Router] display nat static Static NAT mapp in gs: There are 1 outbo und static NAT mapp in gs. IP-to-IP: Local IP : Global IP : In terfaces en abled with static NAT:

There are 1 in terfaces en abled with static NAT.

In terface: GigabitEthernet1/2 Total sessi ons found: 1 内网用户通过 NAT 地址访问外网(地址不重叠) 1. 组网需求 ? 某公司内网使用的IP 地址为。 ? 该公司拥有和两个外网 IP 地址。 需要实现,内部网络中网段的用户可以访问 In ternet ,其它网段的用户不能访问 In ternet 使用的外网地址为和。 2. 组网图 #通过以下显示命令,可以看到 [Router] display nat sessi on verbose In itiator: Source IP/port: ID: -/-/ Protocol: ICMP(1) Resp on der: Source IP/port: ID: -/-/ Protocol: ICMP(1) State: ICMP_REPLY Applicatio n: INVALID Start time: 2012-08-16 09:30:49 Interface(in): GigabitEthernet1/1 In terface(out): GigabitEthernet1/2 In itiator->Resp on der: Resp on der- >ln itiator: Host 访问某外网服务器时生成 Desti nati on IP/port: Desti nati on IP/port: TTL: 27s 5 packets 5 packets NAT 会话信息。 VPN in sta nce/VLAN ID/VLL VPN in sta nce/VLAN ID/VLL 420 bytes 420 bytes

H3C路由器设置

H3C路由器设置 1. 端口映射 如某公司内网有做游戏或者其他服务机器,需要外网的机器访问时,需要设置端口映射 内部机器:192.168.2.223 外网IP:61.190.38.198 需要做端口映射:在NAT配置中设置 2. 内网中的PC通过域名访问内部的服务器 内部服务器IP:192.168.3.2(VLAN3) TCP端口:80和3777 内部PC机:192.168.2.0/24和192.168.1.0/24(VLAN2和VLN1) 命令配置: Acl number 3400 Rule 0 permit tcp source 192.168.2.0 0.0.0.255 destination 192.168.3.2 0 destination-port eg 80 Rule 5 permit tcp source 192.168.2.0 0.0.0.255 destination 192.168.3.2 0 destination-port eg 3777

Rule 10 permit tcp source 192.168.1.0 0.0.0.255 destination 192.168.3.2 0 destination-port eg 80 Rule 15 permit tcp source 192.168.1.0 0.0.0.255 destination 192.168.3.2 0 destination-port eg 3777 Interface vlan-interface 3 Nat outbound 3400 注:acl的子网掩码和子网掩码是相反的,192.168.1.0/24的子网掩码是255.255.255.0 则acl的子网掩码是0.0.0.255 3. IP和MAC地址绑定 防止ARP欺骗 1) arp扫描:ARP防攻击 2) 固化 4. 互联网访问控制 1) 设置时间

H3C IPv6 静态路由配置

操作手册 IP路由分册 IPv6 静态路由目录 目录 第1章 IPv6静态路由配置......................................................................................................1-1 1.1 IPv6静态路由简介.............................................................................................................1-1 1.1.1 IPv6静态路由属性及功能........................................................................................1-1 1.1.2 IPv6缺省路由..........................................................................................................1-1 1.2 配置IPv6静态路由.............................................................................................................1-2 1.2.1 配置准备..................................................................................................................1-2 1.2.2 配置IPv6静态路由...................................................................................................1-2 1.3 IPv6静态路由显示和维护..................................................................................................1-2 1.4 IPv6静态路由典型配置举例(路由应用).........................................................................1-3 1.5 IPv6静态路由典型配置举例(交换应用).........................................................................1-5

[史上完整]H3C路由器NAT典型配置案例解析

H3C路由器NAT典型配置案列(史上最详细) 神马CCIE,H3CIE,HCIE等网络工程师日常实施运维必备,你懂的。 1.11 NAT典型配置举例 1.11.1 内网用户通过NAT地址访问外网(静态地址转换) 1. 组网需求 内部网络用户10.110.10.8/24使用外网地址202.38.1.100访问Internet。 2. 组网图 图1-5 静态地址转换典型配置组网图 3. 配置步骤 # 按照组网图配置各接口的IP地址,具体配置过程略。 # 配置内网IP地址10.110.10.8到外网地址202.38.1.100之间的一对一静态地址转换映射。 system-view [Router] nat static outbound 10.110.10.8 202.38.1.100 # 使配置的静态地址转换在接口GigabitEthernet1/2上生效。 [Router] interface gigabitethernet 1/2 [Router-GigabitEthernet1/2] nat static enable [Router-GigabitEthernet1/2] quit 4. 验证配置 # 以上配置完成后,内网主机可以访问外网服务器。通过查看如下显示信息,可以验证以上配置成功。 [Router] display nat static Static NAT mappings: There are 1 outbound static NAT mappings. IP-to-IP: Local IP : 10.110.10.8 Global IP : 202.38.1.100 Interfaces enabled with static NAT: There are 1 interfaces enabled with static NAT. Interface: GigabitEthernet1/2 # 通过以下显示命令,可以看到Host访问某外网服务器时生成NAT会话信息。 [Router] display nat session verbose Initiator: Source IP/port: 10.110.10.8/42496 Destination IP/port: 202.38.1.111/2048 VPN instance/VLAN ID/VLL ID: -/-/-

H3C路由器NAT典型配置案例

H3C路由器NAT典型配置案列(史上最详细) 神马CCIE,H3CIE,HCIE等网络工程师日常实施运维必备,您明白的。 1、11 NAT典型配置举例 1、11、1 内网用户通过NAT地址访问外网(静态地址转换) 1、组网需求 内部网络用户10、110、10、8/24使用外网地址202、38、1、100访问Internet、2、组网图 图1-5 静态地址转换典型配置组网图 3、配置步骤 # 依照组网图配置各接口的IP地址,具体配置过程略。 #配置内网IP地址10、110、10、8到外网地址202、38、1、100之间的一对一静态地址转换映射。 system-view [Router] nat static outbound10、110、10、8202、38、1、100 # 使配置的静态地址转换在接口GigabitEthernet1/2上生效、 [Router] interface gigabitethernet1/2 [Router—GigabitEthernet1/2] nat static enable [Router—GigabitEthernet1/2] quit 4、验证配置 #以上配置完成后,内网主机能够访问外网服务器。通过查看如下显示信息,能够验证以上配置成功、 [Router]displaynatstatic Static NATmappings: There are 1 outboundstaticNAT mappings、 IP—to—IP: LocalIP:10、110、10、8 Global IP: 202、38、1、100 Interfaces enabledwith staticNAT: There are 1interfacesenabled with staticNAT、 Interface: GigabitEthernet1/2 # 通过以下显示命令,能够看到Host访问某外网服务器时生成NAT会话信息。 [Router] display natsession verbose

H3C路由器配置命令

telnet 防火墙IP地址 用户名 密码 --进入普通用户权限-- --在此命令下可输入一般命令-- --可用?看有哪些命令和命令的作用-- system-view --进入超级管理员权限界面-- --此提示符下可输绝大部分命令-- --(极少数需要在com终端输入)-- quit --退出当前状态,返回上一级-- 一般命令(不一定要把命令写全) display current 展示当前配置 acl number 3050 进入访问控制列表3050号 rule 66 permit ip ........ 在当前访问控制表增加或修改规则66号 rule的具体用法可用rule ?一步步显示出来,亦可参考我原写的命令 我原配置需要涉及的部分 1.ip和mac绑定,绑定方法具体看一下参数文件你就可明白 2.策略号3050 在该条策略中如有permit就是允许你指定的ip或ip段上网 3.策略号3051和305作用是限流 在该策略号具体用法可参考其中的rule规则 最后是save 否则一重启这些改动就会无效 sH3C路由器 ##################################################################### 1、system-view 进入系统视图模式 2、sysname R1 为设备命名为R1 3、display ip routing-table 显示当前路由表 4、 language-mode Chinese|English 中英文切换 5、interface Ethernet 0/0 进入以太网端口视图

6、 ip address 192.168.1.1 255.255.255.0 配置IP地址和子网掩码 7、 undo shutdown 打开以太网端口 8、 shutdown 关闭以太网端口 9、 quit 退出当前视图模式 10、 ip route-static 192.168.2.0 255.255.255.0 192.168.12.2 description To.R2 配置静态路由 11、 ip route-static 0.0.0.0 0.0.0.0 192.168.12.2 description To.R2 配置默认的路由 H3C S3100 Switch H3C S3600 Switch H3C MSR 20-20 Router ##################################################################### 1、调整超级终端的显示字号; 2、捕获超级终端操作命令行,以备日后查对; 3、 language-mode Chinese|English 中英文切换; 4、复制命令到超级终端命令行,粘贴到主机; 5、交换机清除配置 :reset save ;reboot ; 6、路由器、交换机配置时不能掉电,连通测试前一定要 检查网络的连通性,不要犯最低级的错误。 7、192.168.1.1/24 等同 192.168.1.1 255.255.255.0;在配置交换机和路由器时, 192.168.1.1 255.255.255.0 可以写成: 192.168.1.1 24 8、设备命名规则:地名-设备名-系列号例:PingGu-R-S3600

H3C-三层技术-IP路由配置指导-静态路由配置

目录 1 静态路由配置.....................................................................................................................................1-1 1.1 简介...................................................................................................................................................1-1 1.1.1 静态路由.................................................................................................................................1-1 1.1.2 缺省路由.................................................................................................................................1-1 1.1.3 静态路由应用..........................................................................................................................1-1 1.2 配置静态路由.....................................................................................................................................1-2 1.2.1 配置准备.................................................................................................................................1-2 1.2.2 配置静态路由..........................................................................................................................1-2 1.3 配置静态路由与BFD联动..................................................................................................................1-3 1.3.1 双向检测.................................................................................................................................1-3 1.3.2 单跳检测.................................................................................................................................1-3 1.4 配置静态路由快速重路由功能...........................................................................................................1-4 1.5 静态路由显示和维护..........................................................................................................................1-5 1.6 静态路由典型配置举例......................................................................................................................1-6 1.6.1 静态路由基本功能配置举例....................................................................................................1-6 1.6.2 静态路由快速重路由配置举例.................................................................................................1-8 1.6.3 配置静态路由与BFD联动........................................................................................................1-9

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