MyPower 第04章 VLAN 配置

迈普MyＰｏwer-S系列以太网交换机配置手册————————————————————————————————作者：————————————————————————————————日期:ﻩ目录第1章交换机管理ﻩ错误!未定义书签。

１.1 管理方式.......................................................... 错误!未定义书签。

1.1.1 带外管理............................................................. 错误!未定义书签。

1.１.2 带内管理 ........................................................... 错误!未定义书签。

1.２ＣLI界面ﻩ错误!未定义书签。

1.2.1 配置模式介绍 ..................................................... 错误!未定义书签。

1.2.2 配置语法............................................................. 错误!未定义书签。

1.2.3 支持快捷键ﻩ错误!未定义书签。

１.2.４帮助功能.......................................................... 错误!未定义书签。

１．2.5 对输入的检查 ................................................. 错误!未定义书签。

1.2.6 支持不完全匹配.................................................. 错误!未定义书签。

第2章交换机基本配置ﻩ错误!未定义书签。

2.1 基本配置ﻩ错误!未定义书签。

２.2 远程管理ﻩ错误!未定义书签。

迈普MｙPower－Ｓ千兆汇聚路由交换机配置手册Ｖ.-操作手册－-维护与调试操作————————————————————————————————作者: ————————————————————————————————日期:ﻩ目录第1章维护和调试ﻩ错误!未定义书签。

1．1Pinｇ ............................................................................ 错误!未定义书签。

１.２Pｉｎｇ6ﻩ错误!未定义书签。

1.3 Ｔracｅroute .................................................................... 错误!未定义书签。

1.4 Tracｅｒoｕｔe6............................................................... 错误!未定义书签。

1.5 Shoｗ ................................................................................ 错误!未定义书签。

１.６Dｅbug........................................................................ 错误!未定义书签。

1．7 系统日志ﻩ错误!未定义书签。

1．7．１系统日志介绍 ................................................................ 错误!未定义书签。

1．７.2 系统日志配置ﻩ错误!未定义书签。

1．7.3系统日志配置举例 ........................................................... 错误!未定义书签。

VLAN配置本手册著作权属迈普通信技术有限公司所有，未经著作权人书面许可，任何单位或个人不得以任何方式摘录、复制或翻译。

侵权必究。

策划：研究院资料服务处* * *迈普通信技术有限公司地址：成都市高新区九兴大道16号迈普大厦技术支持热线：400-886-8669传真：（+8628）85148948E-mail：support@网址：邮编：610041版本：2011年 8月v1.0版目录第1章配置 VLAN (1)1.1 VLAN 概述 (1)1.1.1 VLAN简介 (1)1.1.2 VLAN的原理 (2)1.2 配置802.1Q VLAN (3)1.2.1 端口的VLAN 链路类型 (3)1.2.2 缺省VLAN (3)1.2.3 端口对报文的转发判断 (3)1.2.4 VLAN 默认配置 (4)1.2.5 创建和修改VLAN。

(5)1.2.6 删除VLAN (5)1.2.7 删除VLAN的端口成员 (6)1.3 VLAN 配置的例子 (6)第1章配置 VLAN这章描述了怎么配置VLAN。

这章主要包含下面的内容。

●VLAN 概述●配置802.1Q VLAN●VLAN 配置的例子1.1 VLAN 概述1.1.1 VLAN简介以太网是一种基于CSMA/CD（Carrier Sense Multiple Access/Collision Detect，载波侦听多路访问/冲突检测）的共享通讯介质的数据网络通讯技术，当主机数目较多时会导致冲突严重、广播泛滥、性能显著下降甚至使网络不可用等问题。

通过交换机实现LAN互联虽然可以解决冲突（Collision）严重的问题，但仍然不能隔离广播报文。

在这种情况下出现了VLAN（Virtual Local Area Network）技术，这种技术可以把一个LAN 划分成多个逻辑的LAN——VLAN，每个VLAN 是一个广播域，VLAN 内的主机间通信就和在一个LAN 内一样，而VLAN 间则不能直接互通，这样，广播报文被限制在一个VLAN内，如下图示：图 1-1.VLAN 实例VLAN的好处主要有三个：●限制广播域。

版权所有 2007，迈普（四川）通信技术有限公司，保留所有权利1目 录第1章 L3转发配置 ··································································· 1-11.1 三层接口·············································································································· 1-11.1.1 三层接口介绍 ···························································································· 1-1 1.1.2 三层接口配置 ···························································································· 1-1 1.2 IP 配置 ················································································································· 1-2 1.2.1 IPv4、IPv6介绍 ························································································ 1-2 1.2.2 IP 配置 ······································································································· 1-31.2.2.1 IPv4地址配置 ················································································· 1-3 1.2.2.2 IPv6配置 ························································································ 1-4 1.2.3 IP 配置举例 ································································································ 1-81.2.3.1 IPv4典型案例 ················································································· 1-8 1.2.3.2 IPv6典型案例 ···············································································1-10 1.2.4 IPv6排错帮助··························································································1-13 1.3 IP 转发 ···············································································································1-14 1.1.1 IP 转发介绍 ······························································································1-14 1.1.2 IP 路由聚合配置 ······················································································1-14 1.4 URPF ·················································································································1-14 1.4.1 URPF 简介 ······························································································1-14 1.4.2 URPF 配置任务序列 ················································································1-15 1.4.3 URPF 排错帮助 ·······················································································1-16 1.5 ARP ····················································································································1-16 1.5.1 ARP 介绍 ·································································································1-16 1.5.2 ARP 配置 ·································································································1-16 1.5.3 ARP 转发排错帮助 ··················································································1-17第2章 DHCP 配置 ···································································· 2-12.1 DHCP 简介 ·········································································································· 2-1 2.2 DHCP 服务器配置 ······························································································· 2-2 2.3 DHCP 中继配置 ··································································································· 2-4 2.4 DHCP 配置举例 ··································································································· 2-6 2.5 DHCP 排错帮助 ··································································································· 2-9版权所有 2007，迈普（四川）通信技术有限公司，保留所有权利2第3章 SNTP 配置 ····································································· 3-13.1 SNTP 简介 ··········································································································· 3-1 3.2 SNTP 典型配置举例 ···························································································· 3-2第4章 防ARP 、ND 欺骗配置 ··················································· 4-14.1 概述 ····················································································································· 4-14.1.1 ARP 欺骗 ··································································································· 4-1 4.1.2交换机如何防ARP/ND 欺骗 ······································································ 4-1 4.2 防ARP 、ND 欺骗配置序列 ················································································ 4-2 4.3 防ARP 、ND 欺骗举例 ························································································ 4-3版权所有 2007，迈普（四川）通信技术有限公司，保留所有权利1-1第1章 L3转发配置交换机支持三层转发功能。

第1章系统基础本章主要讲述迈普路由器中MYPOWER-R系统的基本知识，包括MYPOWER-R系统模式、配置环境的准备及命令行接口的有关知识等。

本章主要内容：●路由器配置方式●命令运行模式●搭建配置环境●命令行接口●路由器WEB配置1.1路由器配置方式迈普路由器为用户提供了四种典型的配置方式，分别是：●通过console口，采用shell命令进行配置●通过336modem模块LINE口进行配置●通过Telnet远程登录到路由器上配置●通过SNMP网管系统对路由器进行配置其中最后一种配置方式提供中英文的用户界面，主要用于用户监控网络的工作状态及收集系统统计信息。

本用户手册主要描述通过console口配置路由器的方法，通过336modem模块LINE口、Telnet远程登录配置路由器的方法与之类似，通过SNMP网管系统对路由器进行配置的细节详见路由器网管系统说明书。

1.2命令运行模式迈普路由器MYPOWER-R 为系统命令的管理及执行专门提供了一个命令处理子系统，称之为shell，其主要功能包括：●系统命令的注册●系统配置命令的用户编辑●用户输入命令（通过Console口或Telnet连接）的语法分析●系统命令的执行用户通过shell命令配置路由器时，系统为命令的执行提供了多种运行模式，每种命令模式分别支持特定的MYPOWER-R 配置命令，从而达到分级保护系统的目的，确保系统不受未经授权的访问。

Shell子系统当前为配置命令的运行提供以下多种模式，不同的模式对应于不同的系统提示符，用以提示用户当前所处的系统模式。

可能的一些模式如下：●普通用户模式（user EXEC）●特权用户模式（privileged EXEC）●全局配置模式（global configuration）●接口配置模式（interface configuration）●路由配置模式（router configuration）●文件系统模式（file system configuration）●访问列表配置模式（access list configuration）●语音口配置模式（voice-port configuration）●拨号端配置模式（dial-peer configuration）●加密变换配置模式（crypto transform-set configuration）●加密映射配置模式（crypto map configuration）●IKE策略配置模式（isakmp configuration）●公钥系列配置模式（pubkey-chain configuration）●公钥配置模式（pubkey-key configuration）●DHCP配置模式（dhcp configuration）其他配置模式在相关章节中进行介绍，表1-1描述了各种命令模式的进入方法及模式间的切换方法。

VLAN 目录目录第1章 VLAN配置命令...........................................................................................................1-11.1 VLAN配置命令..................................................................................................................1-11.1.1 description...............................................................................................................1-11.1.2 display interface Vlan-interface...............................................................................1-21.1.3 display vlan..............................................................................................................1-31.1.4 interface Vlan-interface...........................................................................................1-51.1.5 name.......................................................................................................................1-61.1.6 shutdown.................................................................................................................1-61.1.7 vlan..........................................................................................................................1-71.2 基于端口的VLAN配置命令...............................................................................................1-91.2.1 display port..............................................................................................................1-91.2.2 port..........................................................................................................................1-91.2.3 port access vlan....................................................................................................1-101.2.4 port hybrid pvid vlan..............................................................................................1-111.2.5 port hybrid vlan......................................................................................................1-121.2.6 port link-type..........................................................................................................1-131.2.7 port trunk permit vlan............................................................................................1-141.2.8 port trunk pvid vlan................................................................................................1-15第1章 VLAN配置命令1.1 VLAN配置命令1.1.1 description【命令】description textundo description【视图】VLAN视图、VLAN接口视图【参数】text：描述VLAN或VLAN接口的字符串，可以包含特殊字符及空格，区分大小写。

目录第1章VLAN配置 (1)1.1 VLAN配置命令 (1)1.1.1 debug gvrp (1)1.1.2 dot1q-tunnel enable (1)1.1.3 dot1q-tunnel tpid (2)1.1.4 gvrp (2)1.1.5 garp timer hold (2)1.1.6 garp timer join (3)1.1.7 garp timer leave (3)1.1.8 garp timer leaveall (3)1.1.9 name (4)1.1.10 private-vlan (4)1.1.11 private-vlan association (5)1.1.12 show dot1q-tunnel (5)1.1.13 show garp (6)1.1.14 show gvrp (6)1.1.15 show vlan (6)1.1.16 show vlan-translation (8)1.1.17 switchport access vlan (8)1.1.18 switchport interface (8)1.1.19 switchport mode (9)1.1.20 switchport trunk allowed vlan (9)1.1.21 switchport trunk native vlan (10)1.1.22 vlan (10)1.1.23 vlan-translation (11)1.1.24 vlan-translation enable (11)1.1.25 vlan-translation miss drop (12)1.1.26 vlan ingress enable (12)1.2 动态vlan配置命令 (12)1.2.1 dynamic-vlan mac-vlan prefer (12)1.2.2 dynamic-vlan subnet-vlan prefer (13)1.2.3 mac-vlan (13)1.2.4 mac-vlan vlan (13)1.2.5 protocol-vlan (14)1.2.6 show dynamic-vlan prefer (14)1.2.7 show mac-vlan (15)1.2.8 show mac-vlan interface (15)1.2.9 show protocol-vlan (15)1.2.10 show subnet-vlan (16)1.2.11 show subnet-vlan interface (16)1.2.12 subnet-vlan (16)1.2.13 switchport mac-vlan enable (17)1.2.14 switchport subnet-vlan enable (17)1.3 Voice VLAN配置命令 (18)1.3.1 show voice-vlan (18)1.3.2 switchport voice-vlan enable (18)1.3.3 voice-vlan (19)1.3.4 voice-vlan vlan (19)第2章MAC地址表配置命令 (20)2.1 MAC地址表配置命令 (20)2.1.1 mac-address-table aging-time (20)2.1.2 mac-address-table static|blackhole (20)2.1.3 show mac-address-table (21)2.2 MAC地址绑定配置命令 (21)2.2.1 clear port-security dynamic (21)2.2.2 show port-security (22)2.2.3 show port-security address (22)2.2.4 show port-security interface (23)2.2.5 switchport port-security (24)2.2.6 switchport port-security convert (24)2.2.7 switchport port-security lock (24)2.2.8 switchport port-security mac-address (25)2.2.9 switchport port-security maximum (25)2.2.10 switchport port-security timeout (25)2.2.11 switchport port-security violation (26)第1章VLAN配置1.1 VLAN配置命令1.1.1 debug gvrp命令：debug gvrpno debug gvrp功能：打开交换机的gvrp的调试开关；本命令的no操作为关闭该调试开关。

目录第1章镜像命令 (1)1.1 monitor session source interface (1)1.2 monitor session source interface access-list (1)1.3 monitor session destination interface (2)1.4 show monitor (2)第2章RSPAN配置命令 (3)2.1 remote-span (3)2.2 monitor session remote vlan (3)2.3 monitor session reflector-port (3)第3章sFlow命令 (5)3.1 sflow destination (5)3.2 sflow agent-address (5)3.3 sflow priority (5)3.4 sflow header-len (6)3.5 sflow data-len (6)3.6 sflow counter-interval (6)3.7 sflow rate (7)3.8 show sflow (7)第1章镜像命令1.1 monitor session source interface命令：monitor session <session> source{interface <interface-list> | cpu [slot <slotnum> ]} {rx| tx| both} no monitor session <session> source{interface <interface-list> | cpu [slot <slotnum> ]}功能：指定镜像源端口；本命令的no操作为删除镜像源端口。

参数：<session>为镜像session值，端口镜像目前支持1-4；<interface-list>为镜像源端口列表，支持“-”、“;”等特殊字符；cpu slot <slotnum> 表示以某个插槽上板卡CPU作为镜像源，可以镜像该CPU 收到或者发出的流量（调试用），CPU镜像目前只支持在session 4配置；rx为镜像源端口接收的流量；tx为镜像从源端口发出的流量；both为镜像源端口入和出的流量。

迈普MyＰｏwer-S系列以太网交换机配置手册————————————————————————————————作者：————————————————————————————————日期:ﻩ目录第1章交换机管理ﻩ错误!未定义书签。

１.1 管理方式.......................................................... 错误!未定义书签。

1.1.1 带外管理............................................................. 错误!未定义书签。

1.１.2 带内管理 ........................................................... 错误!未定义书签。

1.２ＣLI界面ﻩ错误!未定义书签。

1.2.1 配置模式介绍 ..................................................... 错误!未定义书签。

1.2.2 配置语法............................................................. 错误!未定义书签。

1.2.3 支持快捷键ﻩ错误!未定义书签。

１.2.４帮助功能.......................................................... 错误!未定义书签。

１．2.5 对输入的检查 ................................................. 错误!未定义书签。

1.2.6 支持不完全匹配.................................................. 错误!未定义书签。

第2章交换机基本配置ﻩ错误!未定义书签。

2.1 基本配置ﻩ错误!未定义书签。

２.2 远程管理ﻩ错误!未定义书签。

版权所有 2007，迈普（四川）通信技术有限公司，保留所有权利目录第1章 端口配置 .................................................................................. 1-11.1 端口介绍........................................................................................................................ 1-1 1.2 端口配置........................................................................................................................ 1-11.2.1 业务端口配置 ..................................................................................................... 1-1 1.2.2 VLAN 接口配置 ................................................................................................. 1-2 1.3 端口配置举例 ................................................................................................................ 1-3 1.4 端口排错帮助 ................................................................................................................ 1-4 1.5 端口镜像........................................................................................................................ 1-41.5.1 端口镜像介绍 ..................................................................................................... 1-41.5.2 端口镜像配置任务序列 ..................................................................................... 1-5 1.5.3 端口镜像举例 ..................................................................................................... 1-5 1.5.4 端口镜像排错帮助 ............................................................................................. 1-6第2章 Port Channel 配置 (7)2.1 Port Channel 介绍 ............................................................................................................. 7 2.2 Port Channel 配置 ............................................................................................................. 8 2.3 Port Channel 举例 ............................................................................................................. 9 2.4 Port Channel 排错帮助 (11)版权所有 2007，迈普（四川）通信技术有限公司，保留所有权利第1章 端口配置1.1 端口介绍DCRS-5900系列交换机端口包括电口和Combo 端口，Combo 端口可以选择配置为千兆电口，也可以选择配置为千兆SFP 光口，两者只能选择其中之一。

目录第1章IPv4组播协议 (1)1.1 IPv4组播协议概述 (1)1.1.1 组播简介 (1)1.1.2 组播地址 (1)1.1.3 IP组播报文转发 (3)1.1.4 IP组播应用 (3)1.2 PIM-DM (3)1.2.1 PIM-DM介绍 (3)1.2.2 PIM-DM配置任务序列 (4)1.2.3 PIM-DM典型案例 (6)1.2.4 PIM-DM排错帮助 (7)1.3 PIM-SM (8)1.3.1 PIM-SM介绍 (8)1.3.2 PIM-SM配置任务序列 (9)1.3.3 PIM-SM典型案例 (12)1.3.4 PIM-SM排错帮助 (15)1.4 MSDP配置 (15)1.4.1 MSDP介绍 (15)1.4.2 MSDP配置任务简介 (16)1.4.3 配置MSDP基本功能 (17)1.4.4 配置MSDP对等体 (18)1.4.5 配置报文收发 (18)1.4.6 配置SA-cache参数 (19)1.4.7 MSDP举例 (20)1.4.8 MSDP排错帮助 (26)1.5 ANYCAST RP配置 (26)1.5.1 ANYCAST RP介绍 (26)1.5.2 ANYCAST RP配置任务 (27)1.5.3 ANYCAST RP典型案例 (29)1.5.4 ANYCAST RP排错帮助 (30)1.6 PIM-SSM (31)版权所有©2009，迈普通信技术股份有限公司，保留所有权利11.6.1 PIM-SSM 介绍 (31)1.6.2 PIM-SSM 配置任务序列 (31)1.6.3 PIM-SSM 典型案例 (31)1.6.4 PIM-SSM 排错帮助 (34)1.7 DVMRP (34)1.7.1 DVMRP介绍 (34)1.7.2 配置任务序列 (35)1.7.3 DVMRP典型案例 (37)1.7.4 DVMRP排错帮助 (38)1.8 DCSCM (38)1.8.1 DCSCM介绍 (38)1.8.2 DCSCM配置任务序列 (39)1.8.3 DCSCM典型案例 (41)1.8.4 DCSCM排错帮助 (42)1.9 IGMP (42)1.9.1 IGMP介绍 (42)1.9.2 配置任务序列 (44)1.9.3 IGMP典型案例 (46)1.9.4 IGMP排错帮助 (47)1.10 IGMP Snooping配置 (47)1.10.1 IGMP Snooping介绍 (47)1.10.2 IGMP Snooping配置任务 (47)1.10.3 IGMP Snooping典型案例 (49)1.10.4 IGMP Snooping排错帮助 (52)1.11 IGMP Proxy配置 (53)1.11.1 IGMP Proxy介绍 (53)1.11.2 IGMP Proxy配置任务 (53)1.11.3 IGMP Proxy举例 (54)1.11.4 IGMP Proxy排错帮助 (57)第2章IPv6组播协议 (58)2.1 PIM-DM6 (58)2.1.1 PIM-DM6介绍 (58)2.1.2 PIM-DM6配置任务序列 (59)2.1.3 PIM-DM6典型案例 (61)版权所有©2009，迈普通信技术股份有限公司，保留所有权利12.1.4 PIM-DM6排错帮助 (62)2.2 PIM-SM6 (62)2.2.1 PIM-SM6介绍 (62)2.2.2 PIM-SM6配置任务序列 (64)2.2.3 PIM-SM6典型案例 (67)2.2.4 PIM-SM6排错帮助 (70)2.3 ANYCAST RP v6配置 (70)2.3.1 ANYCAST RP v6介绍 (70)2.3.2 ANYCAST RP v6配置任务 (71)2.3.3 ANYCAST RP v6典型案例 (73)2.3.4 ANYCAST RP v6排错帮助 (74)2.4 PIM-SSM6 (75)2.4.1 PIM-SSM6 介绍 (75)2.4.2 PIM-SSM6 配置任务序列 (75)2.4.3 PIM-SSM6 典型案例 (75)2.4.4 PIM-SSM6 排错帮助 (78)2.5 IPv6 DCSCM (78)2.5.1 IPv6 DCSCM介绍 (78)2.5.2 IPv6 DCSCM配置任务序列 (79)2.5.3 IPv6 DCSCM典型案例 (81)2.5.4 IPv6 DCSCM排错帮助 (82)2.6 MLD Snooping (82)2.6.1 MLD Snooping介绍 (82)2.6.2 MLD Snooping配置任务 (82)2.6.3 MLD Snooping典型案例 (84)2.6.4 MLD Snooping排错帮助 (87)第3章组播VLAN配置 (88)3.1 组播VLAN介绍 (88)3.2 组播VLAN配置任务 (88)3.3 组播VLAN举例 (89)版权所有©2009，迈普通信技术股份有限公司，保留所有权利1第1章IPv4组播协议1.1 IPv4组播协议概述本章对IPv4组播协议的配置进行介绍，本章所有的IP都是指IPv4。

目录第1章MSTP配置 (1)1.1 MSTP介绍 (1)1.1.1 MSTP域 (1)1.1.2 端口角色 (3)1.1.3 MSTP流量分担的实现 (3)1.2 MSTP配置 (3)1.3 MSTP举例 (7)1.4 MSTP排错帮助 (12)第1章MSTP配置1.1 MSTP介绍MSTP是基于STP和RSTP的一种新的生成树协议。

它运行在一个Bridged-LAN里的所有网桥上，负责为这个Bridged-LAN（包括运行MSTP、RSTP和STP的网桥）计算出一个简单连通的树形活动拓扑(CIST)，为每个MST域（MSTP域）计算出若干个各自独立的多重生成树实例（MSTI）。

它应用RSTP的快速收敛特性，允许多个具有相同拓扑的VLAN映射到一个生成树实例上，而这个生成树拓扑同其它生成树实例相互独立。

这种机制一方面用多重生成树实例为映射到它的VLAN的数据流量提供了独立的发送路径，实现不同实例间VLAN数据流量的负载分担；另一方面，若干个VLAN共享同一个拓扑实例（MSTI），同每个VLAN对应一个生成树（PVST）的实现方法相比，大大减少了每个网桥需要维持的生成树实例的数量，节约了CPU资源，降低了非业务带宽占用。

1.1.1 MSTP域由于多个VLAN可以映射到一个单一的生成树实例，IEEE 802.1s 委员会提出了MST域的概念，用来解决如何判断某个VLAN映射到哪个生成树实例的问题。

一个MSTP域由一个或若干个具有相同MCID（MST Configuration Identification）的网桥和将网桥互连起来的局域网（域中的某个网桥是该局域网的指定桥，并且该局域网连接的网桥不是运行STP 的网桥）组成。

域中每个网桥维持相同的MSTIs。

每个域中的网桥具有下述三个属性：一个包含数字和字母的配置名字（Configuration Name）一个配置修正级别（Revision Level）网桥中VLAN向生成树实例映射的配置摘要（Configuration Digest）以上三部分属性组成域的MCID，只有这三部分属性完全相同，即MCID相同的网桥才被MSTP 认为属于同一个MST域。

华为交换机VLAN的基础配置之袁州冬雪创作一、实验目标：1、掌握VLAN的配置2、掌握Access 接口和Trunk接口的配置3、掌握将接口与VLAN关联的配置二、实验环境：华为摹拟器（eNPS1.0.216）三、网终拓扑说明：(S3700 V200R001C00)PC1与PC3属于默许的vlan1，pc1与LSW1的e0/0/1口、pc3与LSW2的e0/0/1口毗连Pc2与LSW1的e0/0/2口、pc4与LSW2的e0/0/2口毗连在LSW1、LSW2创建vlan2将LSW1的E0/0/2及LSW2的E0/0/2添加到vlan2交换机之间的接口E0/0/3配置为trunk链路实现vlan1中PC1与PC3、vlan2中PC2与PC4的通信，vlan1与vlan2间不克不及通信.四、详细配置步调：1、VLAN口与Access接口的配置LSW1:<Huawei>syEnter system view, return user view with Ctrl+Z. [Huawei]sysname LSW1[LSW1]vlan 2 //添加一个vlan2[LSW1-vlan2]q[LSW1]int e0/0/2 //进入2接口[LSW1-Ethernet0/0/2]port link-type access //端口的链路类型为Access（毗连计算机的端口），华为的设置默许接口是hybrid的形式[LSW1-Ethernet0/0/2]port default vlan 2 //将这个接口加入到vlan2中[LSW1-Ethernet0/0/2]q[LSW1]q<LSW1>save //保管配置LSW2:<Huawei>syEnter system view, return user view with Ctrl+Z. [Huawei]sysname LSW2[LSW2-ui-console0]q[LSW2]vlan 2 //添加一个vlan2 [LSW2-vlan2]int e0/0/2[LSW2-Ethernet0/0/2]port link-type access //端口的链路类型为Access[LSW2-Ethernet0/0/2]port default vlan 2 //将这个接口加入到vlan2中[LSW2-Ethernet0/0/2]q[LSW2]q<LSW2>save //保管配置2、Trunk接口的配置从上面的拓扑图和配置饬令来看，交换机之间的e0/0/3接口默许是属于vlan1的，因此只能是PC1与PC3这两台主机是可以拼通的，要想实现PC2与PC4之间的互通，则需要将交换机之间相连的接口配置为trunk，饬令如下：[LSW1]int e0/0/3 //进接口[LSW1-Ethernet0/0/3]port link-type trunk//接口链路类型为trunk[LSW1-Ethernet0/0/3]port trunk allow-pass vlan all //允许所有的vlan通过，华为的设备默许是不允许任何vlan通过的，除了缺省的vlan1[LSW1-Ethernet0/0/3]qLSW1]q<LSW1>save //保管配置[LSW2]int e0/0/3 //进接口[LSW2-Ethernet0/0/3]port link-type trunk //接口链路类型为trunk[LSW2-Ethernet0/0/3]port trunk allow-pass vlan all//允许所有的vlan通过[LSW2-Ethernet0/0/3]qLSW2]q<LSW2>save //保管配置其他：<Switch>undo terminal monitor //关闭终端显示信息.默许情况下，在修改一个配置后交换饬令行总是提示一些告警信息，很烦人.<Switch>language-mode chinese //修改提示语言为中文。