H3C S5500-SI 二层动态链路聚合典型配置
h3c链路聚合配置及实例
1 以太网链路聚合配置任务简介表1-5 以太网链路聚合配置任务简介配置任务说明详细配置配置聚合组配置静态聚合组二者必选其一1.3.1 配置动态聚合组 1.3.2聚合接口相关配置配置聚合接口的描述信息可选 1.4.1 配置三层聚合接口MTU 可选 1.4.2 配置处理或转发三层聚合接口流量的业务处理板可选 1.4.3 开启聚合接口链路状态变化Trap功能可选 1.4.4 限制聚合组内选中端口的数量可选 1.4.5 关闭聚合接口可选 1.4.6 恢复聚合接口的缺省配置可选 1.4.7配置聚合负载分担配置聚合负载分担类型可选 1.5.1配置聚合负载分担为本地转发优先可选 1.5.2 配置聚合流量重定向功能可选 1.6 2 1.3 配置聚合组请根据需要聚合的以太网接口类型来配置相应类型的聚合组:当需要聚合的是二层以太网接口时,请配置二层聚合组;当需要聚合的是三层以太网接口时,请配置三层聚合组。
聚合链路的两端应配置相同的聚合模式。
●配置或使能了下列功能的端口将不能加入二层聚合组:RRPP(请参见“可靠性配置指导/RRPP”)、MAC地址认证(请参见“安全配置指导/MAC地址认证”)、端口安全模式(请参见“安全配置指导/端口安全”)、报文过滤功能(请参见“安全配置指导/防火墙”)、以太网帧过滤功能(请参见“安全配置指导/防火墙”)、IP Source Guard功能(请参见“安全配置指导/IP Source Guard”)、802.1X功能(请参见“安全配置指导/802.1X”)以及Portal免认证规则源接口(请参见“安全配置指导/Portal”)。
●配置或使能了下列功能的接口将不能加入三层聚合组:IP地址(请参见“三层技术-IP业务配置指导/IP地址”)、DHCP客户端(请参见“三层技术-IP业务配置指导/DHCP”)、BOOTP客户端(请参见“三层技术-IP业务配置指导/DHCP”)、VRRP功能(请参见“可靠性配置指导/VRRP”)和Portal功能(请参见“安全配置指导/Portal”)。
H3C 链路聚合配置
操作手册接入分册链路聚合目录目录第1章链路聚合配置..............................................................................................................1-11.1 链路聚合简介.....................................................................................................................1-11.1.1 链路聚合的作用.......................................................................................................1-11.1.2 链路聚合的基本概念................................................................................................1-11.1.3 链路聚合的模式.......................................................................................................1-31.1.4 聚合组的负载分担类型............................................................................................1-51.2 配置静态聚合组..................................................................................................................1-61.3 配置动态聚合组..................................................................................................................1-71.4 聚合接口基本配置............................................................................................................1-101.4.1 配置聚合接口描述信息..........................................................................................1-101.4.2 配置三层聚合接口/三层聚合子接口的最大传输单元MTU......................................1-101.4.3 开启聚合接口链路状态变化Trap功能....................................................................1-111.4.4 关闭聚合接口.........................................................................................................1-111.5 链路聚合显示与维护........................................................................................................1-121.6 链路聚合典型配置举例.....................................................................................................1-121.6.1 组网需求................................................................................................................1-121.6.2 组网图....................................................................................................................1-131.6.3 配置步骤................................................................................................................1-13本文中标有“请以实际情况为准”的特性描述,表示各型号对于此特性的支持情况可能不同,本节将对此进行说明。
H3C S5500-SI 01-AAA配置
1 AAA配置 ............................................................................................................................................ 1-1 1.1 AAA简介............................................................................................................................................ 1-1 1.2 RADIUS协议简介 .............................................................................................................................. 1-2 1.2.1 客户端/服务器模式.................................................................................................................. 1-2 1.2.2 安全和认证机制 ...................................................................................................................... 1-2 1.2.3 RADIUS的基本消息交互流程 ..........................................................
H3C-S5500-SI交换机VLAN配置操作
目录第1章VLAN配置 ...................................................................................................................1-11.1 VLAN简介.......................................................................................................................... 1-11.1.1 VLAN概述................................................................................................................ 1-11.1.2 VLAN的分类............................................................................................................ 1-21.2配置VLAN基本属性............................................................................................................ 1-21.3配置VLAN接口基本属性..................................................................................................... 1-21.4配置基于端口的VLAN ........................................................................................................ 1-31.4.1基于端口的VLAN简介.............................................................................................. 1-31.4.2配置基于Access端口的VLAN.................................................................................. 1-51.4.3配置基于Trunk端口的VLAN .................................................................................... 1-61.4.4配置基于Hybrid端口的VLAN ................................................................................... 1-71.5 VLAN配置的显示................................................................................................................ 1-81.6 VLAN典型配置举例............................................................................................................ 1-81.6.1组网需求.................................................................................................................. 1-81.6.2组网图...................................................................................................................... 1-81.6.3配置步骤.................................................................................................................. 1-8 第2章Voice VLAN配置 .........................................................................................................2-12.1 Voice VLAN简介................................................................................................................ 2-12.1.1 Voice VLAN的自动模式和手动模式......................................................................... 2-12.1.2 Voice VLAN的安全模式和普通模式......................................................................... 2-32.2配置Voice VLAN ................................................................................................................ 2-32.2.1配置准备.................................................................................................................. 2-32.2.2配置自动模式下的Voice VLAN................................................................................ 2-42.2.3配置手动模式下的Voice VLAN................................................................................ 2-42.3 Voice VLAN显示................................................................................................................ 2-62.4 Voice VLAN典型配置举例.................................................................................................. 2-62.4.1自动模式下Voice VLAN的配置举例......................................................................... 2-62.4.2手动模式下Voice VLAN的配置举例......................................................................... 2-7 第3章GVRP配置 ..................................................................................................................3-13.1 GVRP简介.......................................................................................................................... 3-13.1.1 GARP简介............................................................................................................... 3-13.1.2 GVRP简介............................................................................................................... 3-33.1.3协议规范.................................................................................................................. 3-43.2配置GVRP.......................................................................................................................... 3-43.2.1配置GVRP功能........................................................................................................ 3-43.2.2配置GARP定时器.................................................................................................... 3-5 3.3 GARP/GVRP显示和维护................................................................................................... 3-6 3.4 GVRP典型配置举例........................................................................................................... 3-63.4.1 GVRP典型配置举例一............................................................................................. 3-63.4.2 GVRP典型配置举例二............................................................................................. 3-83.4.3 GVRP典型配置举例三............................................................................................. 3-9第1章VLAN配置1.1 VLAN简介1.1.1 VLAN概述VLAN(Virtual Local Area Network,虚拟局域网)技术的出现,主要为了解决交换机在进行局域网互连时无法限制广播的问题。
H3C S5500-SI 二层动态链路聚合典型配置
H3C S5500-SI 二层动态链路聚合典型配置一、组网需求:Device A与Device B通过各自的以太网端口GigabitEthernet1/0/1~GigabitEthernet1/0/3相互连接。
通过配置动态链路聚合,实现出负荷在各成员端口间的分担,并采用源MAC地址与目的MAC地址相结合的聚合负载分担模式。
二、组网图:三、配置步骤:1. 配置Device A#配置聚合负载分担模式为源MAC地址与目的MAC地址相结合的方式。
<DeviceA> system-view[DeviceA] link-aggregation load-sharing mode source-mac destination-mac# 创建二层聚合端口1,并配置成动态聚合模式。
[DeviceA] interface bridge-aggregation 1[DeviceA-Bridge-Aggregation1] link-aggregation mode dynamic[DeviceA-Bridge-Aggregation1] quit#分别将端口GigabitEthernet1/0/1至GigabitEthernet1/0/3加入到聚合组1中。
[DeviceA] interface GigabitEthernet 1/0/1[DeviceA-GigabitEthernet1/0/1] port link-aggregation group 1[DeviceA-GigabitEthernet1/0/1] quit[DeviceA] interface GigabitEthernet 1/0/2[DeviceA-GigabitEthernet1/0/2] port link-aggregation group 1[DeviceA-GigabitEthernet1/0/2] quit[DeviceA] interface GigabitEthernet 1/0/3[DeviceA-GigabitEthernet1/0/3] port link-aggregation group 12. 配置Device BDevice B的配置与Device A相似,配置过程略。
H3C 5500 -EI SI IRF 配置
1.5.1 配置IRF域编号1. IRF域简介域是一个逻辑概念,设备通过IRF链路连接在一起就组成一个IRF,这些成员设备的集合就是一个IRF域。
为了适应各种组网应用,同一个网络里可以部署多个IRF,IRF之间使用域编号(DomainID)来以示区别。
如图1-7所示,Switch A和Switch B组成IRF1,Switch C和Switch D组成IRF2。
如果IRF1和IRF2之间有LACP MAD检测链路,则IRF1和IRF2会通过检测链路互相发送MAD检测报文,从而彼此影响IRF系统的状态和运行。
这种情况下,可以给两个IRF配置不同的域编号,以保证两个IRF互不干扰。
配置IRF域编号后,成员设备发出的扩展LACP报文中将携带IRF域信息,用以区分不同IRF的LACP检测报文,避免与其它IRF产生混淆。
图1-7 多IRF域示意图2. 配置IRF域编号表1-2 配置IRF域编号●IRF域编号的配臵必须在开启LACP MAD检测功能之前进行。
●建议用户为同一IRF中的成员设备配臵统一的IRF域编号,否则会影响LACP MAD检测功能的正常运行。
●在完成上述配臵后,在任意视图下执行display irf命令可以显示IRF域编号的配臵情况,通过查看显示信息验证配臵的效果。
1.5.2 配置成员编号IRF通过成员编号唯一的识别各成员设备,设备上的许多信息、配置与成员编号相关,比如接口(包括物理接口和逻辑接口)的编号以及接口下的配置、成员优先级的配置等。
●修改成员编号后,如果没有重启本设备,则原编号继续生效,各物理资源仍然使用原编号来标识;配置文件中,只有IRF端口的编号以及IRF端口下的配置、成员优先级的配置会跟着改变,其它配置均不会跟着改变。
●修改成员编号后,如果保存当前配置,重启本设备,则新的成员编号生效,需要用新编号来标识物理资源;配置文件中,只有IRF端口的编号以及IRF端口下的配置、成员优先级会继续生效,其它与成员编号相关的配置(比如普通物理接口的配置等)不再生效,需要重新配置。
H3C交换机_典型配置举例-6W100-以太网链路聚合典型配置举例
1 链路聚合典型配置举例······················································································································· 1-1 1.1 简介 ···················································································································································1-1 1.2 二层链路聚合配置举例 ······················································································································1-1 1.2.1 适用产品和版本 ······················································································································1-1 1.2.2 组网需求 ·································································································································1-1 1.2.3 配置思路 ·································································································································1-1 1.2.4 配置注意事项 ··························································································································1-2 1.2.5 配置步骤 ·································································································································1-2 1.2.6 验证配置 ································································································································1-3 1.2.7 配置文件 ·································································································································1-4 1.3 二层聚合负载分担配置举例···············································································································1-5 1.3.1 适用产品和版本 ······················································································································1-5 1.3.2 组网需求 ·································································································································1-5 1.3.3 配置思路 ·································································································································1-6 1.3.4 配置注意事项 ··························································································································1-6 1.3.5 配置步骤 ·································································································································1-6 1.3.6 验证配置 ·································································································································1-7 1.3.7 配置文件 ·································································································································1-8 1.4 三层链路聚合配置举例 ······················································································································1-9 1.4.1 适用产品和版本 ······················································································································1-9 1.4.2 组网需求 ·······························································································································1-10 1.4.3 配置思路 ·······························································································································1-10 1.4.4 配置注意事项 ························································································································1-10 1.4.5 配置步骤 ·······························································································································1-10 1.4.6 验证配置 ·······························································································································1-11 1.4.7 配置文件 ·······························································································································1-12
H3C S5500-SI 05-LLDP命令
System capabilities supported : Bridge,Router
System capabilities enabled : Bridge,Router
MED information Device class: Connectivity device
HardwareRev FirmwareRev SoftwareRev SerialNum
VLAN name of VLAN 1: VLAN 0001
Auto-negotiation supported : Yes
Auto-negotiation enabled : Yes
OperMau
: speed(1000)/duplex(Full)
Power port class
: PSE
PSE power supported
: 192.168.1.11
Management address interface type : IfIndex
Management address interface ID : 54
Management address OID
:0
Port VLAN ID(PVID): 1
Port and protocol VLAN ID(PPVID) : 1 Port and protocol VLAN supported : Yes Port and protocol VLAN enabled : No
i
1 LLDP 配置命令
1.1 LLDP 配置命令
1.1.1 display lldp local-information
【命令】 display lldp local-information [ global | interface interface-type interface-number ]
H3C交换机配置链路聚合
H3C交换机配置链路聚合H3C交换机配置链路聚合如何?要如何弄H3C交换机配置链路聚合.下面是店铺收集整理的H3C交换机配置链路聚合,希望对大家有帮助~~H3C交换机配置链路聚合创建聚合组1(根据具体情况选择下面两种方式之一)。
l采用静态聚合模式:创建二层聚合接口1system-view[SwitchA] interface bridge-aggregation 1[SwitchA-Bridge-Aggregation1] quitl采用动态聚合模式:创建二层聚合接口,并配置动态聚合模式system-view[SwitchA] interface bridge-aggregation 1[SwitchA-Bridge-Aggregation1] link-aggregation mode dynamic# 将以太网端口GigabitEthernet1/0/1至GigabitEthernet1/0/3加入聚合组1。
[SwitchA] interface GigabitEthernet 1/0/1[SwitchA-GigabitEthernet1/0/1] port link-aggregation group 1[SwitchA-GigabitEthernet1/0/1] interface GigabitEthernet 1/0/2[SwitchA-GigabitEthernet1/0/2] port link-aggregation group 1[SwitchA-GigabitEthernet1/0/2] interface GigabitEthernet 1/0/3[SwitchA-GigabitEthernet1/0/3] port link-aggregation group 1[SwitchA-GigabitEthernet1/0/3] quit# 配置二层聚合接口1所属VLAN,并将该配置批量下发到各成员端口上。
H3C配置链路聚合
本端配置 一致
Selected端口数限制
未达到上限
达到上限 Unselected
10
动态聚合流程
创建动态聚合组 端口LACP自动使能
Down
成员端口状态 Up
转发
Unselected
选举参考端口 本端设备和对端设备 LACP协议交互
Selected端口
与参考端口对比 双方配置 不一致
16
动态链路聚合配置示例
[SWB] interface bridge-aggregation 1 [SWB-Bridge-Aggregation1] link-aggregation mode dynamic [SWB] interface gigabitethernet 2/0/1 [SWB-GigabitEthernet2/0/1] port link-aggregation group 1 [SWB] interface gigabitethernet 2/0/2 [SWB-GigabitEthernet2/0/2] port link-aggregation group 1 [SWB] interface gigabitethernet 2/0/3 [SWB-GigabitEthernet2/0/3] port link-aggregation group 1
1 1 2
2 1 1 1 1 2 6
1 1 2 6 27 Nhomakorabea目录
链路聚合简介 链路聚合模式 链路聚合配置
链路聚合模式
静态聚合模式
端口不与对端设备交互信息。 选择参考端口根据本端设备信息。 用户命令创建和删除静态聚合组。
动态聚合模式
端口的LACP协议自动使能,与对端设备交互
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H3C S5500-SI 二层动态链路聚合典型配置
一、组网需求:
Device A与Device B通过各自的以太网端口GigabitEthernet1/0/1~GigabitEthernet1/0/3相互连接。
通过配置动态链路聚合,实现出负荷在各成员端口间的分担,并采用源MAC地址与目的MAC地址相结合的聚合负载分担模式。
二、组网图:
三、配置步骤:
1. 配置Device A
#配置聚合负载分担模式为源MAC地址与目的MAC地址相结合的方式。
<DeviceA> system-view
[DeviceA] link-aggregation load-sharing mode source-mac destination-mac
# 创建二层聚合端口1,并配置成动态聚合模式。
[DeviceA] interface bridge-aggregation 1
[DeviceA-Bridge-Aggregation1] link-aggregation mode dynamic
[DeviceA-Bridge-Aggregation1] quit
#分别将端口GigabitEthernet1/0/1至GigabitEthernet1/0/3加入到聚合组1中。
[DeviceA] interface GigabitEthernet 1/0/1
[DeviceA-GigabitEthernet1/0/1] port link-aggregation group 1
[DeviceA-GigabitEthernet1/0/1] quit
[DeviceA] interface GigabitEthernet 1/0/2
[DeviceA-GigabitEthernet1/0/2] port link-aggregation group 1
[DeviceA-GigabitEthernet1/0/2] quit
[DeviceA] interface GigabitEthernet 1/0/3
[DeviceA-GigabitEthernet1/0/3] port link-aggregation group 1
2. 配置Device B
Device B的配置与Device A相似,配置过程略。
四、配置关键点:
1、本配置只适用于R1208及其以后的软件版本。
2、此配置案例中的dynamic模式相当于S3600等交换机的Static模式。