01-H3C_IRF典型配置举例
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H3C IRF典型配置举例
资料版本:6W100-20201031
产品版本:Release 7595
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本文档介绍了配置两台成员设备的IRF、配置四台成员设备的IRF和IRF扩容升级的配置举例。
IRF(Intelligent Resilient Framework,智能弹性架构)是H3C自主研发的软件虚拟化技术,它的核心思想是将多台设备通过物理IRF端口连接在一起,进行必要的配置后,虚拟化成一台“虚拟设备”,通过该“虚拟设备”来实现多台设备的协同工作、统一管理和不间断维护。
为了便于描述,本文把这个虚拟化形成的设备称为IRF。
本文档中的配置均是在实验室环境下进行的配置和验证,配置前设备的所有参数均采用出厂时的缺省配置。如果您已经对设备进行了配置,为了保证配置效果,请确认现有配置和以下举例中的配置不冲突。
请确保成员设备间的IRF物理连线正确连接,与配置组网图保持一致。
本文假设您已了解IRF特性。
在配置IRF前,S10500X必须满足以下条件,否则不能形成IRF:
· IRF中所有成员设备的主控板型号必须相同。
· IRF中所有成员设备的软件版本必须相同,如果有软件版本不同的设备要加入IRF,请确保IRF的启动文件同步加载功能处于使能状态;
· 如果两个IRF的桥MAC地址相同,请修改其中一个IRF的桥MAC地址,否则,它们不能合并为一个IRF;
· 在多台设备形成IRF之前,请确保各设备上最大等价路由条数的配置保持一致。关于最大等价路由的介绍,请参见“三层技术-IP路由配置指导”中的“IP路由基础配置”;
· 在多台设备形成IRF之前,请确保各设备的工作模式相同。关于工作模式的配置,请参见“基础配置指导”中的“设备管理配置”。
本设备上与IRF-Port1绑定的IRF物理端口只能和邻居成员设备IRF-Port2口上绑定的IRF物理端口相连,本设备上与IRF-Port2口绑定的IRF物理端口只能和邻居成员设备IRF-Port1口上绑定的IRF物理端口相连,如表1所示。否则,不能形成IRF。
表1 IRF物理端口连接限制
邻居成员设备上的 IRF物理端口 本设备上的 IRF物理端口 |
IRF-Port1绑定的IRF物理端口 |
IRF-Port2绑定的IRF物理端口 |
IRF-Port1绑定的IRF物理端口 |
不能连接 |
可以连接 |
IRF-Port2绑定的IRF物理端口 |
可以连接 |
不能连接 |
IRF物理端口可以选择10GE/40GE/100GE以太网光口。
· 在使用EC系列接口板上的端口作为IRF物理端口与IRF端口绑定时,需要注意端口的分组使用方式:
¡ 同一组中的所有端口用途必须相同,即当组内某一端口与IRF端口绑定后,该组中其它端口也必须与IRF端口绑定,不能再作为普通业务端口使用,反之亦然。
¡ 在将组内某个端口与IRF端口进行绑定或取消绑定之前,必须先对该端口所在组内的所有端口执行shutdown操作,在完成绑定或取消绑定操作后,再对同组内所有端口执行undo shutdown操作。
· EC系列接口板上的端口的分组方式为:
¡ 如果使用using tengige命令将一个40GE接口拆分成四个10GE接口,这四个10GE接口将分作一组。
¡ 在其它提供10GE端口的EC系列接口板上,从第一个10GE端口的编号开始,按端口编号由小到大的顺序,每4个连续的端口分为一组。
· 如果直接使用40GE端口作为IRF物理端口,则不需要考虑端口的分组。
· 当选用具有40GE QSFP+端口的单板进行IRF连接时,由于40GE QSFP+端口具备拆分成4个10GE端口的功能,当执行拆分或合并操作时需要重启该单板,因此请提前规划好40GE QSFP+端口的使用方式,避免IRF形成后重启单板可能对IRF拓扑产生的影响。
· 在独立运行模式下将IRF端口和IRF物理端口绑定,并不会影响IRF物理端口的当前业务。当设备切换到IRF模式后,IRF物理端口的配置将恢复到缺省状态(即原有的业务配置会被删除),IRF物理端口下只能配置以下命令:
¡ 接口配置命令,包括shutdown、description、flow-interval、priority-flow-control 和priority-flow-control no-drop dot1p命令。有关这些命令的详细介绍,请参见“接口管理命令参考”中的“以太网接口”。
¡ LLDP功能命令,包括lldp admin-status、lldp check-change-interval、lldp enable、lldp encapsulation snap、lldp notification remote-change enable和lldp tlv-enable。有关这些命令的详细介绍,请参见“二层技术-以太网交换配置指导”中的“LLDP”。
· MAC配置命令,包括mac-address static source-check enable命令。为了保证跨成员设备的三层报文的正常转发,请在每个IRF物理端口下配置undo mac-address static source-check enable命令。有关命令的详细介绍,请参见“二层技术——以太网交换”中的“MAC地址表”。
本系列交换机最多支持使用四台设备建立IRF。
LACP MAD和BFD MAD、ARP MAD、NDMAD冲突处理的原则不同,请不要同时配置。BFD MAD和ARP MAD、ND MAD冲突处理的原则不同,并且BFD MAD和生成树协议互斥,ARP MAD、ND MAD需要开启生成树协议,因此BFD MAD和ARP MAD、ND MAD无法同时配置。
请确保IRF中各成员设备上安装的特性License一致,否则,可能会导致这些License对应的特性不能正常运行。
· 如图1所示,Device A为公司的核心设备,但由于公司网络规模日益增大,汇聚层SW设备扩展至N台,Device A单台设备的转发能力已无法达到公司网络的需求。为了拓展核心设备的转发能力,又尽量不改变现有网络。现公司希望增加Device B,与Device A组成IRF,来满足当前网络的需求。
· IRF的上行设备(Router A和Router B)为公司网络的出口路由器;IRF的下行交换机(SW 1、SW 2等)为各个服务器集群的汇聚层设备。
图1 IRF典型配置组网图
设备 |
接口 |
IP地址 |
设备 |
接口 |
IP地址 |
Router A |
Vlan-int30 |
172.24.2.2/24 |
Router B |
Vlan-int30 |
172.24.2.3/24 |
|
Vlan-int40 |
172.24.40.2/24 |
|
Vlan-int41 |
172.24.41.3/24 |
|
Vlan-int50 |
172.24.1.2/24 |
|
Vlan-int50 |
172.24.4.3/24 |
IRF |
Vlan-int10 |
172.24.10.254/24 |
|
|
|
|
Vlan-int20 |
172.24.20.254/24 |
|
|
|
|
Vlan-int40 |
172.24.40.254/24 |
|
|
|
|
Vlan-int41 |
172.24.41.254/24 |
|
|
|
· 为避免成员设备的单点故障影响到正常的业务转发,可在IRF中配置跨框聚合端口进行业务转发。
· 为尽量降低IRF分裂对业务造成的影响,可在IRF中配置LACP MAD检测。LACP MAD检测只需在一个聚合组中配置即可,其他聚合组中无需配置。LACP MAD检测使用的中间设备必须为H3C的交换机设备且使用的软件版本必须能够识别、处理携带了ActiveID值的LACPDU协议报文,在本例中使用SW 1作为LACP MAD检测的中间设备。
(1) 设置Device A的成员编号为1
<DeviceA> system-view
[DeviceA] irf member 1
(2) 创建IRF端口2,并将它与物理端口Ten-GigabitEthernet 3/0/1和Ten-GigabitEthernet 3/0/2绑定
[DeviceA] irf-port 2
[DeviceA-irf-port2] port group interface ten-gigabitethernet 3/0/1
[DeviceA-irf-port2] port group interface ten-gigabitethernet 3/0/2
[DeviceA-irf-port2] quit
(3) 将当前配置保存到下次启动配置文件
切换运行模式后,设备会自动重启,使新的运行模式生效。为防止配置丢失,请在切换模式前,保存当前配置。
[DeviceA] save
(4) 将Device A的运行模式切换到IRF模式,之后设备会自动重启
[DeviceA] chassis convert mode irf
The device will switch to IRF mode and reboot. Continue? [Y/N]:y
You are recommended to save the current running configuration and specify the co
nfiguration file for the next startup. Continue? [Y/N]:y
Do you want to convert the content of the next startup configuration file cfa0:/
irf.cfg to make it available in stack mode? [Y/N]:y
Now rebooting, please wait...
(1) 设置Device B的成员编号为2
<DeviceB> system-view
[DeviceB] irf member 2
(2) 创建设备的IRF端口1,并将它与物理端口Ten-GigabitEthernet 3/0/1和Ten-GigabitEthernet 3/0/2绑定
[DeviceB] irf-port 1
[DeviceB-irf-port1] port group interface ten-gigabitethernet 3/0/1
[DeviceB-irf-port1] port group interface ten-gigabitethernet 3/0/2
[DeviceB-irf-port1] quit
(3) 保存配置
[DeviceB] save
(4) 参照图1和端口连接表连接Device A和Device B之间的IRF端口
(5) 将设备的运行模式切换到IRF模式
[DeviceB] chassis convert mode irf
The device will switch to IRF mode and reboot. Continue? [Y/N]:y
You are recommended to save the current running configuration and specify the co
nfiguration file for the next startup. Continue? [Y/N]:y
Do you want to convert the content of the next startup configuration file cfa0:
/irf.cfg to make it available in stack mode? [Y/N]:y
Now rebooting, please wait...
在前面配置完成并重新启动后,IRF已经组建完成,此时可以进行各个业务模块的配置。IRF形成之后,可以从任何一台成员设备登录进行配置,设备名称缺省为Master的名称(此例中为Device A)。
# 创建连接接入层交换机SW 1的动态聚合组,编号为1,并使能LACP MAD检测功能。
<DeviceA> system-view
[DeviceA] interface bridge-aggregation 1
[DeviceA-Bridge-Aggregation1] link-aggregation mode dynamic
[DeviceA-Bridge-Aggregation1] mad enable
You need to assign a domain ID (range: 0-4294967295)
[Current domain is: 0]:
The assigned domain ID is: 0
[DeviceA-Bridge-Aggregation1] quit
# 配置连接SW 1的端口加入聚合组1。
[DeviceA] interface ten-gigabitethernet 1/3/0/3
[DeviceA-Ten-GigabitEthernet1/3/0/3] port link-aggregation group 1
[DeviceA-Ten-GigabitEthernet1/3/0/3] quit
[DeviceA] interface ten-gigabitethernet 2/3/0/3
[DeviceA-Ten-GigabitEthernet2/3/0/3] port link-aggregation group 1
[DeviceA-Ten-GigabitEthernet2/3/0/3] quit
# 创建连接接入层交换机SW 2的聚合组,编号为2。
[DeviceA] interface bridge-aggregation 2
[DeviceA-Bridge-Aggregation2] quit
# 配置连接SW 2的端口加入聚合组2。
[DeviceA] interface ten-gigabitethernet 1/3/0/4
[DeviceA-Ten-GigabitEthernet1/3/0/4] port link-aggregation group 2
[DeviceA-Ten-GigabitEthernet1/3/0/4] quit
[DeviceA] interface ten-gigabitethernet 2/3/0/4
[DeviceA-Ten-GigabitEthernet2/3/0/4] port link-aggregation group 2
[DeviceA-Ten-GigabitEthernet2/3/0/4] quit
# 配置与SW 1之间通过Vlan-interface 10连接。
[DeviceA] vlan 10
[DeviceA-vlan10] quit
[DeviceA] interface vlan-interface 10
[DeviceA-Vlan-interface10] ip address 172.24.10.254 24
[DeviceA-Vlan-interface10] quit
[DeviceA] interface bridge-aggregation 1
[DeviceA-Bridge-Aggregation1] port link-type trunk
[DeviceA-Bridge-Aggregation1] undo port trunk permit vlan 1
[DeviceA-Bridge-Aggregation1] port trunk permit vlan 10
[DeviceA-Bridge-Aggregation1] quit
# 配置与SW 2之间通过Vlan-interface 20连接。
[DeviceA] vlan 20
[DeviceA-vlan20] quit
[DeviceA] interface vlan-interface 20
[DeviceA-Vlan-interface20] ip address 172.24.20.254 24
[DeviceA-Vlan-interface20] quit
[DeviceA] interface bridge-aggregation 2
[DeviceA-Bridge-Aggregation2] port link-type trunk
[DeviceA-Bridge-Aggregation2] undo port trunk permit vlan 1
[DeviceA-Bridge-Aggregation2] port trunk permit vlan 20
[DeviceA-Bridge-Aggregation2] quit
# 创建连接IRF的动态聚合组,编号为1,该聚合组同时用于IRF的LACP MAD检测。
<SW1> system-view
[SW1] interface bridge-aggregation 1
[SW1-Bridge-Aggregation1] link-aggregation mode dynamic
[SW1-Bridge-Aggregation1] quit
# 配置连接IRF的端口加入聚合组1。
[SW1] interface ten-gigabitethernet 4/0/1
[SW1-Ten-GigabitEthernet4/0/1] port link-aggregation group 1
[SW1-Ten-GigabitEthernet4/0/1] quit
[SW1] interface ten-gigabitethernet 4/0/2
[SW1-Ten-GigabitEthernet4/0/2] port link-aggregation group 1
[SW1-Ten-GigabitEthernet4/0/2] quit
# 接入设备SW1上创建所有VLAN。
[SW1] vlan all
# 配置与IRF连接的端口。
[SW1] interface bridge-aggregation 1
[SW1-Bridge-Aggregation1] port link-type trunk
[SW1-Bridge-Aggregation1] undo port trunk permit vlan 1
[SW1-Bridge-Aggregation1] port trunk permit vlan 10
[SW1-Bridge-Aggregation1] quit
# 配置连接服务器的端口GigabitEthernet3/0/1。
[SW1] interface gigabitethernet 3/0/1
[SW1-GigabitEthernet3/0/1] port link-type trunk
[SW1-GigabitEthernet3/0/1] port trunk permit vlan all
[SW1-GigabitEthernet3/0/1] undo port trunk permit vlan 1
[SW1-GigabitEthernet3/0/1] quit
# 创建连接IRF的聚合组,编号为1。
<SW2> system-view
[SW2] interface bridge-aggregation 1
[SW2-Bridge-Aggregation1] quit
# 配置连接IRF的端口加入聚合组1。
[SW2] interface ten-gigabitethernet 4/0/1
[SW2-Ten-GigabitEthernet4/0/1] port link-aggregation group 1
[SW2-Ten-GigabitEthernet4/0/1] quit
[SW2] interface ten-gigabitethernet 4/0/2
[SW2-Ten-GigabitEthernet4/0/2] port link-aggregation group 1
[SW2-Ten-GigabitEthernet4/0/2] quit
# 接入设备SW 2上创建所有VLAN。
[SW2] vlan all
# 配置与IRF连接的端口。
[SW2] interface bridge-aggregation 1
[SW2-Bridge-Aggregation1] port link-type trunk
[SW2-Bridge-Aggregation1] undo port trunk permit vlan 1
[SW2-Bridge-Aggregation1] port trunk permit vlan 20
[SW2-Bridge-Aggregation1] quit
# 配置连接服务器的端口。
[SW2] interface gigabitethernet 3/0/1
[SW2-GigabitEthernet3/0/1] port link-type trunk
[SW2-GigabitEthernet3/0/1] port trunk permit vlan all
[SW2-GigabitEthernet3/0/1] undo port trunk permit vlan 1
[SW2-GigabitEthernet3/0/1] quit
# 创建连接出口路由器Router A的聚合组,编号为1023。
[DeviceA] interface bridge-aggregation 1023
[DeviceA-Bridge-Aggregation1023] quit
# 配置连接Router A的端口加入聚合组1023。
[DeviceA] interface ten-gigabitethernet 1/3/0/7
[DeviceA-Ten-GigabitEthernet1/3/0/7] port link-aggregation group 1023
[DeviceA-Ten-GigabitEthernet1/3/0/7] quit
[DeviceA] interface ten-gigabitethernet 2/3/0/7
[DeviceA-Ten-GigabitEthernet2/3/0/7] port link-aggregation group 1023
[DeviceA-Ten-GigabitEthernet2/3/0/7] quit
# 配置与Router A之间通过Vlan-interface40连接。
[DeviceA] vlan 40
[DeviceA-vlan40] quit
[DeviceA] interface vlan-interface 40
[DeviceA-Vlan-interface40] ip address 172.24.40.254 24
[DeviceA-Vlan-interface40] quit
[DeviceA] interface bridge-aggregation 1023
[DeviceA-Bridge-Aggregation1023] port access vlan 40
[DeviceA-Bridge-Aggregation1023] quit
# 创建连接出口路由器Router B的聚合组,编号为1024。
[DeviceA] interface bridge-aggregation 1024
[DeviceA-Bridge-Aggregation1024] quit
# 配置连接Router B的端口加入聚合组1024。
[DeviceA] interface ten-gigabitethernet 1/3/0/8
[DeviceA-Ten-GigabitEthernet1/3/0/8] port link-aggregation group 1024
[DeviceA-Ten-GigabitEthernet1/3/0/8] quit
[DeviceA] interface ten-gigabitethernet 2/3/0/8
[DeviceA-Ten-GigabitEthernet2/3/0/8] port link-aggregation group 1024
[DeviceA-Ten-GigabitEthernet2/3/0/8] quit
# 配置与Router B之间通过Vlan-interface41连接。
[DeviceA] vlan 41
[DeviceA-vlan41] quit
[DeviceA] interface vlan-interface 41
[DeviceA-Vlan-interface41] ip address 172.24.41.254 24
[DeviceA-Vlan-interface41] quit
[DeviceA] interface bridge-aggregation 1024
[DeviceA-Bridge-Aggregation1024] port access vlan 41
[DeviceA-Bridge-Aggregation1024] quit
# 配置IRF与出口路由器之间运行OSPF路由协议。
[DeviceA] ospf
[DeviceA-ospf-1] import-route direct
[DeviceA-ospf-1] area 0
[DeviceA-ospf-1-area-0.0.0.0] network 172.24.40.0 0.0.0.255
[DeviceA-ospf-1-area-0.0.0.0] network 172.24.41.0 0.0.0.255
[DeviceA-ospf-1-area-0.0.0.0] quit
[DeviceA-ospf-1] quit
出口路由器配置本用例只描述与IRF连接的部分,外网使用何种路由协议不予描述。
# 创建连接IRF的聚合组,编号为1。
<RouterA> system-view
[RouterA] interface bridge-aggregation 1
[RouterA-Bridge-Aggregation1] quit
# 配置连接IRF的端口加入聚合组1。
[RouterA] interface ten-gigabitethernet 4/0/1
[RouterA-Ten-GigabitEthernet4/0/1] port link-mode bridge
[RouterA-Ten-GigabitEthernet4/0/1] port link-aggregation group 1
[RouterA-Ten-GigabitEthernet4/0/1] quit
[RouterA] interface ten-gigabitethernet 2/0/1
[RouterA-Ten-GigabitEthernet2/0/1] port link-mode bridge
[RouterA-Ten-GigabitEthernet2/0/1] port link-aggregation group 1
[RouterA-Ten-GigabitEthernet2/0/1] quit
# 配置与IRF之间通过Vlan-interface 40连接。
[RouterA] vlan 40
[RouterA-vlan40] quit
[RouterA] interface vlan-interface 40
[RouterA-Vlan-interface40] ip address 172.24.40.2 24
[RouterA-Vlan-interface40] quit
[RouterA] interface bridge-aggregation 1
[RouterA-Bridge-Aggregation1] port access vlan 40
[RouterA-Bridge-Aggregation1] quit
# 配置与RouterB之间通过Vlan-interface 30连接。
[RouterA] vlan 30
[RouterA-vlan30] quit
[RouterA] interface vlan-interface 30
[RouterA-Vlan-interface30] ip address 172.24.2.2 24
[RouterA-Vlan-interface30] quit
[RouterA] interface bridge-aggregation 2
[RouterA-Bridge-Aggregation2] port link-type access
[RouterA-Bridge-Aggregation2] port access vlan 30
[RouterA-Bridge-Aggregation2] quit
[RouterA] interface bridge-aggregation 2
[RouterA-Bridge-Aggregation2] quit
[RouterA] interface ten-gigabitethernet 4/0/2
[RouterA-Ten-GigabitEthernet4/0/2] port link-mode bridge
[RouterA-Ten-GigabitEthernet4/0/2] port link-aggregation group 2
[RouterA-Ten-GigabitEthernet4/0/2] quit
[RouterA] interface ten-gigabitethernet 2/0/2
[RouterA-Ten-GigabitEthernet2/0/2] port link-mode bridge
[RouterA-Ten-GigabitEthernet2/0/2] port link-aggregation group 2
[RouterA-Ten-GigabitEthernet2/0/2] quit
# 配置Router A通过Vlan-interface 50连接外网。
[RouterA] vlan 50
[RouterA-vlan50] quit
[RouterA] interface vlan-interface 50
[RouterA-Vlan-interface50] ip address 172.24.1.2 24
[RouterA-Vlan-interface50] quit
[RouterA] interface ten-gigabitethernet 4/0/3
[RouterA-Ten-GigabitEthernet4/0/3] port link-mode bridge
[RouterA-Ten-GigabitEthernet4/0/3] port access vlan 50
[RouterA-Ten-GigabitEthernet4/0/3] quit
# 配置Router A与IRF之间运行OSPF路由协议。
[RouterA] ospf
[RouterA-ospf-1] import-route direct
[RouterA-ospf-1] area 0
[RouterA-ospf-1-area-0.0.0.0] network 172.24.40.0 0.0.0.255
[RouterA-ospf-1-area-0.0.0.0] network 172.24.2.0 0.0.0.255
[RouterA-ospf-1-area-0.0.0.0] quit
[RouterA-ospf-1] quit
# 配置与IRF之间通过Vlan-interface 41连接。
<RouterB> system-view
[RouterB] vlan 41
[RouterB-vlan41] quit
[RouterB] interface vlan-interface 41
[RouterB-Vlan-interface41] ip address 172.24.41.3 24
[RouterB-Vlan-interface41] quit
[RouterB] interface bridge-aggregation 1
[RouterB-Bridge-Aggregation1] port access vlan 41
[RouterB-Bridge-Aggregation1] quit
[RouterB] interface bridge-aggregation 1
[RouterB-Bridge-Aggregation1] quit
[RouterB] interface ten-gigabitethernet 4/0/1
[RouterB-Ten-GigabitEthernet4/0/1] port link-mode bridge
[RouterB-Ten-GigabitEthernet4/0/1] port link-aggregation group 1
[RouterB-Ten-GigabitEthernet4/0/1] quit
[RouterB] interface ten-gigabitethernet 2/0/1
[RouterB-Ten-GigabitEthernet2/0/1] port link-mode bridge
[RouterB-Ten-GigabitEthernet2/0/1] port link-aggregation group 1
[RouterB-Ten-GigabitEthernet2/0/1] quit
# 配置与Router A之间通过Vlan-interface 30连接。
[RouterB] vlan 30
[RouterB-vlan30] quit
[RouterB] interface vlan-interface 30
[RouterB-Vlan-interface30] ip address 172.24.2.3 24
[RouterB-Vlan-interface30] quit
[RouterB] interface bridge-aggregation 2
[RouterB-Bridge-Aggregation2] port link-type access
[RouterB-Bridge-Aggregation2] port access vlan 30
[RouterB-Bridge-Aggregation2] quit
[RouterB] interface ten-gigabitethernet 4/0/2
[RouterB-Ten-GigabitEthernet4/0/2] port link-aggregation group 2
[RouterB-Ten-GigabitEthernet4/0/2] quit
[RouterB] interface ten-gigabitethernet 2/0/2
[RouterB-Ten-GigabitEthernet2/0/2] port link-aggregation group 2
[RouterB-Ten-GigabitEthernet2/0/2] quit
# 配置Router B通过Vlan-interface 50连接外网。
[RouterB] vlan 50
[RouterB-vlan50] quit
[RouterB] interface vlan-interface 50
[RouterB-Vlan-interface50] ip address 172.24.4.3 24
[RouterB-Vlan-interface50] quit
[RouterB] interface ten-gigabitethernet 4/0/3
[RouterB-Ten-GigabitEthernet4/0/3] port link-mode bridge
[RouterB-Ten-GigabitEthernet4/0/3] port access vlan 50
[RouterB-Ten-GigabitEthernet4/0/3] quit
# 配置Router B与IRF之间运行OSPF路由协议。
[RouterB] ospf
[RouterB-ospf-1] import-route direct
[RouterB-ospf-1] area 0
[RouterB-ospf-1-area-0.0.0.0] network 172.24.41.0 0.0.0.255
[RouterB-ospf-1-area-0.0.0.0] network 172.24.2.0 0.0.0.255
[RouterB-ospf-1-area-0.0.0.0] quit
[RouterB-ospf-1] quit
(1) 验证IRF建立成功
[DeviceA] display irf
MemberID Slot Role Priority CPU-Mac Description
*+1 0 Master 1 0210-fc01-0000 ---
2 0 Standby 1 0210-fc02-0000 ---
--------------------------------------------------
* indicates the device is the master.
+ indicates the device through which the user logs in.
The Bridge MAC of the IRF is: 3822-d60f-2800
Auto upgrade : yes
Mac persistent : always
Domain ID : 0
Auto merge : yes
IRF mode : normal
从命令行的显示看,当前两台设备IRF成功建立。
(2) 验证跨框聚合有链路备份的作用
从serverGroup 1任意挑选一台PC ping外网IP,关闭IRF的上行端口Ten-GigabitEthernet 1/3/0/8,出现短暂中断后仍然可以ping通外网。
C:\Users>ping 202.108.22.5 –t
正在 Ping 202.108.22.5 具有 32 字节的数据:
来自 202.108.22.5 的回复: 字节=32 时间=1ms TTL=122
来自 202.108.22.5 的回复: 字节=32 时间=13ms TTL=122
来自 202.108.22.5 的回复: 字节=32 时间<1ms TTL=122
请求超时。
来自 202.108.22.5 的回复: 字节=32 时间<1ms TTL=122
来自 202.108.22.5 的回复: 字节=32 时间<1ms TTL=122
来自 202.108.22.5 的回复: 字节=32 时间<1ms TTL=122
重新开启端口Ten-GigabitEthernet 1/3/0/8,持续ping,将另外一个上行端口Ten-GigabitEthernet 2/3/0/8关闭,出现短暂中断后仍然可以ping通外网。
C:\Users>ping 202.108.22.5 –t
正在 Ping 202.108.22.5 具有 32 字节的数据:
来自 202.108.22.5 的回复: 字节=32 时间=1ms TTL=122
来自 202.108.22.5 的回复: 字节=32 时间=13ms TTL=122
来自 202.108.22.5 的回复: 字节=32 时间<1ms TTL=122
请求超时。
来自 202.108.22.5 的回复: 字节=32 时间<1ms TTL=122
来自 202.108.22.5 的回复: 字节=32 时间<1ms TTL=122
来自 202.108.22.5 的回复: 字节=32 时间<1ms TTL=122
(3) 验证IRF物理链路的冗余备份
断开IRF物理链路中的任意一条,IRF仍能正常工作、没有分裂。
· IRF:
#
irf mac-address persistent always
irf auto-update enable
irf auto-merge enable
undo irf link-delay
irf member 1 priority 1
irf member 2 priority 1
#
ospf 1
import-route direct
area 0.0.0.0
network 172.24.40.0 0.0.0.255
network 172.24.41.0 0.0.0.255
#
vlan 10
#
vlan 20
#
vlan 40
#
vlan 41
#
irf-port 1/2
port group interface Ten-GigabitEthernet1/3/0/1 mode enhanced
port group interface Ten-GigabitEthernet1/3/0/2 mode enhanced
#
irf-port 2/1
port group interface Ten-GigabitEthernet2/3/0/1 mode enhanced
port group interface Ten-GigabitEthernet2/3/0/2 mode enhanced
#
interface bridge-aggregation 1
port link-type trunk
undo port trunk permit vlan 1
port trunk permit vlan 10
link-aggregation mode dynamic
mad enable
#
interface bridge-aggregation 2
port link-type trunk
undo port trunk permit vlan 1
port trunk permit vlan 20
#
interface bridge-aggregation 1023
port access vlan 40
#
interface bridge-aggregation 1024
port access vlan 41
#
interface vlan-interface 10
ip address 172.24.10.254 255.255.255.0
#
interface vlan-interface 20
ip address 172.24.20.254 255.255.255.0
#
interface vlan-interface 40
ip address 172.24.40.254 255.255.255.0
#
interface Ten-GigabitEthernet 1/3/0/3
port link-mode bridge
port link-type trunk
undo port trunk permit vlan 1
port trunk permit vlan 10
port link-aggregation group 1
#
interface Ten-GigabitEthernet 1/3/0/4
port link-mode bridge
port link-type trunk
undo port trunk permit vlan 1
port trunk permit vlan 20
port link-aggregation group 2
#
interface Ten-GigabitEthernet 1/3/0/7
port link-mode bridge
port access vlan 40
port link-aggregation group 1023
#
interface Ten-GigabitEthernet 1/3/0/8
port link-mode bridge
port access vlan 41
port link-aggregation group 1024
#
interface Ten-GigabitEthernet 2/3/0/3
port link-mode bridge
port link-type trunk
undo port trunk permit vlan 1
port trunk permit vlan 10
port link-aggregation group 1
#
interface Ten-GigabitEthernet 2/3/0/4
port link-mode bridge
port link-type trunk
undo port trunk permit vlan 1
port trunk permit vlan 20
port link-aggregation group 2
#
interface Ten-GigabitEthernet 2/3/0/7
port link-mode bridge
port access vlan 40
port link-aggregation group 1023
#
interface Ten-GigabitEthernet 2/3/0/8
port link-mode bridge
port access vlan 41
port link-aggregation group 1024
#
· SW1:
#
vlan 10
#
interface bridge-aggregation 1
port link-type trunk
undo port trunk permit vlan 1
port trunk permit vlan 10
link-aggregation mode dynamic
#
interface gigabitethernet 3/0/1
port link-mode bridge
port link-type trunk
undo port trunk permit vlan 1
port trunk permit vlan 2 to 4094
#
interface Ten-GigabitEthernet 4/0/1
port link-mode bridge
port link-type trunk
undo port trunk permit vlan 1
port trunk permit vlan 10
port link-aggregation group 1
#
interface Ten-GigabitEthernet 4/0/2
port link-mode bridge
port link-type trunk
undo port trunk permit vlan 1
port trunk permit vlan 10
port link-aggregation group 1
#
· SW2:
#
vlan 20
#
interface bridge-aggregation 1
port link-type trunk
undo port trunk permit vlan 1
port trunk permit vlan 20
#
interface gigabitethernet 3/0/1
port link-mode bridge
port link-type trunk
undo port trunk permit vlan 1
port trunk permit vlan 2 to 4094
#
interface Ten-GigabitEthernet 4/0/1
port link-mode bridge
port link-type trunk
undo port trunk permit vlan 1
port trunk permit vlan 20
port link-aggregation group 1
#
interface Ten-GigabitEthernet 4/0/2
port link-mode bridge
port link-type trunk
undo port trunk permit vlan 1
port trunk permit vlan 20
port link-aggregation group 1
#
· RouterA:
#
ospf 1
import-route direct
area 0.0.0.0
network 172.24.2.0 0.0.0.255
network 172.24.40.0 0.0.0.255
#
vlan 30
#
vlan 40
#
vlan 50
#
interface bridge-aggregation 1
port access vlan 40
#
interface bridge-aggregation 2
port access vlan 30
#
interface vlan-interface 30
ip address 172.24.2.2 255.255.255.0
#
interface vlan-interface 40
ip address 172.24.40.2 255.255.255.0
#
interface vlan-interface 50
ip address 172.24.1.2 255.255.255.0
#
interface Ten-GigabitEthernet 2/0/1
port link-mode bridge
port access vlan 40
port link-aggregation group 1
#
interface Ten-GigabitEthernet 2/0/2
port link-mode bridge
port access vlan 30
port link-aggregation group 2
#
interface Ten-GigabitEthernet 4/0/1
port link-mode bridge
port access vlan 40
port link-aggregation group 1
#
interface Ten-GigabitEthernet 4/0/2
port link-mode bridge
port access vlan 30
port link-aggregation group 2
#
interface Ten-GigabitEthernet 4/0/3
port link-mode bridge
port access vlan 50
#
· RouterB:
#
ospf 1
import-route direct
area 0.0.0.0
network 172.24.2.0 0.0.0.255
network 172.24.41.0 0.0.0.255
#
vlan 30
#
vlan 41
#
vlan 50
#
interface bridge-aggregation 1
port access vlan 41
#
interface bridge-aggregation 2
port access vlan 30
#
interface vlan-interface 30
ip address 172.24.2.3 255.255.255.0
#
interface vlan-interface 41
ip address 172.24.41.3 255.255.255.0
#
interface vlan-interface 50
ip address 172.24.4.3 255.255.255.0
#
interface Ten-GigabitEthernet 2/0/1
port link-mode bridge
port access vlan 41
port link-aggregation group 1
#
interface Ten-GigabitEthernet 2/0/2
port link-mode bridge
port access vlan 30
port link-aggregation group 2
#
interface Ten-GigabitEthernet 4/0/1
port link-mode bridge
port access vlan 41
port link-aggregation group 1
#
interface Ten-GigabitEthernet 4/0/2
port link-mode bridge
port access vlan 30
port link-aggregation group 2
#
interface Ten-GigabitEthernet 4/0/3
port link-mode bridge
port access vlan 50
#
· 如图2所示,由于网络规模迅速扩大,汇聚层SW设备扩展至N台,当前中心设备Device A的转发能力已经不能满足需求。现在需要另增三台设备,组成一个四框IRF才能满足当前网络的转发需求。
· 升级到四框IRF设备后,必须保证即使IRF中有N台设备发生故障(1≤N≤3),RouterA与汇聚层交换机(如:SW1,SW2等)之间通信也不能中断。
图2 四台成员设备的IRF典型配置组网图(采用LACP MAD)
表2 IP地址配置信息
设备 |
接口 |
IP地址 |
RouterA |
Vlan-interface41 |
172.24.41.2/24 |
Vlan-interface50 |
172.24.1.2/24 |
|
IRF |
Vlan-interface41 |
172.24.41.254/24 |
Vlan-interface10 |
172.24.10.254/24 |
|
Vlan-interface20 |
172.24.20.254/24 |
|
… |
… |
|
Vlan-interfaceN |
172.24.N.254/24 |
表3 IRF设备互联信息
设备 |
IRF端口 |
对端IRF端口 |
IRF成员端口 |
Device A |
irf-port 1/1 |
irf-port 4/2 |
XGE1/2/0/4 |
Device A |
irf-port 1/2 |
irf-port 2/1 |
XGE1/2/0/1 |
Device B |
irf-port 2/1 |
irf-port 1/2 |
XGE2/4/0/2 |
Device B |
irf-port 2/2 |
irf-port 3/1 |
XGE2/3/0/30 |
Device C |
irf-port 3/1 |
irf-port 2/2 |
XGE3/3/0/15 |
Device C |
irf-port 3/2 |
irf-port 4/1 |
XGE3/2/0/1 |
Device D |
irf-port 4/1 |
irf-port 3/2 |
XGE4/6/0/4 |
Device D |
irf-port 4/2 |
irf-port 1/1 |
XGE4/6/0/2 |
表4 IRF设备的上下行互联信息
IRF的对端设备 |
接口 |
所属vlan |
所属聚合组 |
下行连SW2 |
XGE1/3/0/1 |
Vlan 13(BFD MAD) |
|
下行连SW2 |
XGE2/3/0/1 |
Vlan 13(BFD MAD) |
|
下行连SW2 |
XGE3/3/0/1 |
Vlan 13(BFD MAD) |
|
下行连SW2 |
XGE4/3/0/1 |
Vlan 13(BFD MAD) |
|
下行连SW1 |
XGE1/3/0/3 |
Vlan 10 |
Bridge-aggregation 1(LACP MAD) |
下行连SW1 |
XGE2/3/0/3 |
Vlan 10 |
Bridge-aggregation 1(LACP MAD) |
下行连SW1 |
XGE3/3/0/3 |
Vlan 10 |
Bridge-aggregation 1(LACP MAD) |
下行连SW1 |
XGE4/3/0/3 |
Vlan 10 |
Bridge-aggregation 1(LACP MAD) |
下行连SW2 |
XGE1/3/0/4 |
Vlan 20 |
Bridge-aggregation 2 |
下行连SW2 |
XGE2/3/0/4 |
Vlan 20 |
Bridge-aggregation 2 |
下行连SW2 |
XGE3/3/0/4 |
Vlan 20 |
Bridge-aggregation 2 |
下行连SW2 |
XGE4/3/0/4 |
Vlan 20 |
Bridge-aggregation 2 |
上行连Router A |
XGE1/3/0/8 |
Vlan 41 |
Bridge-aggregation 1024 |
上行连Router A |
XGE2/3/0/8 |
Vlan 41 |
Bridge-aggregation 1024 |
上行连Router A |
XGE3/3/0/8 |
Vlan 41 |
Bridge-aggregation 1024 |
上行连Router A |
XGE4/3/0/8 |
Vlan 41 |
Bridge-aggregation 1024 |
表5 SW1设备的上下行互联信息
SW1的对端设备 |
接口 |
所属vlan |
所属聚合组 |
下行连服务组 |
GE3/0/1 |
Vlan 10 |
|
上行连IRF |
XGE2/0/21 |
Vlan 10 |
Bridge-aggregation 1(LACP MAD) |
上行连IRF |
XGE2/0/22 |
Vlan 10 |
Bridge-aggregation 1(LACP MAD) |
上行连IRF |
XGE2/0/23 |
Vlan 10 |
Bridge-aggregation 1(LACP MAD) |
上行连IRF |
XGE2/0/24 |
Vlan 10 |
Bridge-aggregation 1(LACP MAD) |
表6 SW2设备的上下行互联信息
SW2的对端设备 |
接口 |
所属vlan |
所属聚合组 |
下行连服务组 |
GE3/0/1 |
Vlan 20 |
|
上行连IRF |
XGE2/0/21 |
Vlan 20 |
Bridge-aggregation 1 |
上行连IRF |
XGE2/0/22 |
Vlan 20 |
Bridge-aggregation 1 |
上行连IRF |
XGE2/0/23 |
Vlan 20 |
Bridge-aggregation 1 |
上行连IRF |
XGE2/0/24 |
Vlan 20 |
Bridge-aggregation 1 |
表7 Router A设备的上下行互联信息
Router A的对端设备 |
接口 |
所属vlan |
所属聚合组 |
下行连IRF |
XGE2/0/1 |
Vlan 41 |
Bridge-aggregation 1 |
下行连IRF |
XGE2/0/2 |
Vlan 41 |
Bridge-aggregation 1 |
下行连IRF |
XGE2/0/3 |
Vlan 41 |
Bridge-aggregation 1 |
下行连IRF |
XGE2/0/4 |
Vlan 41 |
Bridge-aggregation 1 |
上行连外网 |
XGE2/0/2 |
Vlan 50 |
|
· 为避免成员设备的单点故障影响到正常的业务转发,可在IRF中配置跨框聚合端口进行业务转发。
· LACP MAD检测只需在一个聚合组中配置即可,其他聚合组中无需配置。LACP MAD检测使用的二层交换机必须为H3C的交换机设备且使用的软件版本必须能够识别、处理携带了ActiveID值的LACPDU协议报文,在本例中使用SW 1作为LACP MAD检测的中间设备。
(1) 设置Device A的成员编号为1
<DeviceA> system-view
[DeviceA] irf member 1
(2) 配置IRF端口1与物理端口Ten-GigabitEthernet 2/0/4绑定
[DeviceA] irf-port 1
[DeviceA-irf-port1] port group interface ten-gigabitethernet 2/0/4
[DeviceA-irf-port1] quit
(3) 配置IRF端口2与物理端口Ten-GigabitEthernet 2/0/1绑定
[DeviceA] irf-port 2
[DeviceA-irf-port2] port group interface ten-gigabitethernet 2/0/1
[DeviceA-irf-port2] quit
(4) 将当前配置保存到下次启动配置文件
[DeviceA] save
The current configuration will be written to the device. Are you sure? [Y/N]:y
Please input the file name(*.cfg)[cfa0:/irf.cfg]
(To leave the existing filename unchanged, press the enter key):
cfa0:/irf.cfg exists, overwrite? [Y/N]:y
Validating file. Please wait.....................................
Saved the current configuration to mainboard device successfully.
(5) 将Device A的运行模式切换到IRF模式之后,设备会自动重启
[DeviceA] chassis convert mode irf
The device will switch to IRF mode and reboot. Continue? [Y/N]:y
You are recommended to save the current running configuration and specify the c
onfiguration file for the next startup. Continue? [Y/N]:y
Do you want to convert the content of the next startup configuration file flash
:/startup.cfg to make it available in stack mode? [Y/N]:y
(1) 设置Device B的成员编号为2
<DeviceB> system-view
[DeviceB] irf member 2
(2) 配置IRF端口1与物理端口Ten-GigabitEthernet 4/0/2绑定
[DeviceB] irf-port 1
[DeviceB-irf-port1] port group interface ten-gigabitethernet 4/0/2
[DeviceB-irf-port1] quit
(3) 配置IRF端口2与物理端口Ten-GigabitEthernet 3/0/30绑定
[DeviceB] irf-port 2
[DeviceB-irf-port2] port group interface ten-gigabitethernet3/0/30
[DeviceB-irf-port2] quit
(4) 保存配置
[DeviceB] save
The current configuration will be written to the device. Are you sure? [Y/N]:y
Please input the file name(*.cfg)[cfa0:/irf.cfg]
(To leave the existing filename unchanged, press the enter key):
cfa0:/irf.cfg exists, overwrite? [Y/N]:y
Validating file. Please wait.....................................
Saved the current configuration to mainboard device successfully.
(5) 参照图2和端口连接表连接Device A和Device B之间的IRF端口
(6) 将设备的运行模式切换到IRF模式
[DeviceB] chassis convert mode irf
The device will switch to IRF mode and reboot. Continue? [Y/N]:y
You are recommended to save the current running configuration and specify the c
onfiguration file for the next startup. Continue? [Y/N]:y
Do you want to convert the content of the next startup configuration file flash
:/startup.cfg to make it available in stack mode? [Y/N]:y
Now rebooting, please wait...
(1) 设置Device C的成员编号为3
<DeviceC> system-view
[DeviceC] irf member 3
(2) 配置IRF端口1与物理端口Ten-GigabitEthernet 3/0/15绑定
[DeviceC] irf-port 1
[DeviceC-irf-port1] port group interface ten-gigabitethernet 3/0/15
[DeviceC-irf-port1] quit
(3) 配置IRF端口2与物理端口Ten-GigabitEthernet 2/0/1绑定
[DeviceC] irf-port 2
[DeviceC-irf-port2] port group interface ten-gigabitethernet2/0/1
[DeviceC-irf-port2] quit
(4) 保存配置
[DeviceC] save
The current configuration will be written to the device. Are you sure? [Y/N]:y
Please input the file name(*.cfg)[cfa0:/irf.cfg]
(To leave the existing filename unchanged, press the enter key):
cfa0:/irf.cfg exists, overwrite? [Y/N]:y
Validating file. Please wait.....................................
Saved the current configuration to mainboard device successfully.
(5) 参照图2和端口连接表连接Device B和Device C之间的IRF端口
(6) 将设备的运行模式切换到IRF模式
[DeviceC] chassis convert mode irf
The device will switch to IRF mode and reboot. Continue? [Y/N]:y
You are recommended to save the current running configuration and specify the c
onfiguration file for the next startup. Continue? [Y/N]:y
Do you want to convert the content of the next startup configuration file flash
:/startup.cfg to make it available in stack mode? [Y/N]:y
Now rebooting, please wait...
(1) 设置Device D的成员编号为4
<DeviceD> system-view
[DeviceD] irf member 4
(2) 配置IRF端口1与物理端口Ten-GigabitEthernet 6/0/4绑定
[DeviceD] irf-port 1
[DeviceD-irf-port1] port group interface ten-gigabitethernet 6/0/4
[DeviceD-irf-port1] quit
(3) 配置IRF端口2与物理端口Ten-GigabitEthernet 6/0/2绑定
[DeviceD] irf-port 2
[DeviceD-irf-port2] port group interface ten-gigabitethernet6/0/2
[DeviceD-irf-port2] quit
(4) 保存配置
[DeviceD] save
The current configuration will be written to the device. Are you sure? [Y/N]:y
Please input the file name(*.cfg)[cfa0:/irf.cfg]
(To leave the existing filename unchanged, press the enter key):
cfa0:/irf.cfg exists, overwrite? [Y/N]:y
Validating file. Please wait.....................................
Saved the current configuration to mainboard device successfully.
(5) 参照图2和端口连接表连接Device C和Device D以及Device A和Device D之间的IRF端口
(6) 将设备的运行模式切换到IRF模式
[DeviceD] chassis convert mode irf
The device will switch to IRF mode and reboot. Continue? [Y/N]:y
You are recommended to save the current running configuration and specify the c
onfiguration file for the next startup. Continue? [Y/N]:y
Do you want to convert the content of the next startup configuration file flash
:/startup.cfg to make it available in stack mode? [Y/N]:y
Now rebooting, please wait...
在前面配置完成并重新启动后,IRF已经组建完成,此时可以进行各个业务模块的配置。IRF形成之后,可以从任何一台成员设备登录进行配置,设备名称缺省为Master的名称(此例中为Device A)。
# 创建连接接入层交换机SW 1的动态聚合组,编号为1,并使能LACP MAD检测功能。
<DeviceA> system-view
[DeviceA] interface bridge-aggregation 1
[DeviceA-Bridge-Aggregation1] link-aggregation mode dynamic
[DeviceA-Bridge-Aggregation1] mad enable
You need to assign a domain ID (range: 0-4294967295)
[Current domain is: 0]:
The assigned domain ID is: 0
[DeviceA-Bridge-Aggregation1] quit
# 使用接口批量配置功能配置连接SW 1的端口加入聚合组1。
[DeviceA] interface range ten-gigabitethernet 1/3/0/3 ten-gigabitethernet 2/3/0/3 ten-gigabitethernet 3/3/0/3 ten-gigabitethernet 4/3/0/3
[DeviceA-if-range] port link-aggregation group 1
[DeviceA-if-range] quit
# 创建连接接入层交换机SW 2的聚合组,编号为2。
[DeviceA] interface bridge-aggregation 2
[DeviceA-Bridge-Aggregation2] quit
# 使用接口批量配置功能配置连接SW 2的端口加入聚合组2。
[DeviceA] interface range ten-gigabitethernet 1/3/0/4 ten-gigabitethernet 2/3/0/4 ten-gigabitethernet 3/3/0/4 ten-gigabitethernet 4/3/0/4
[DeviceA-if-range] port link-aggregation group 2
[DeviceA-if-range] quit
# 配置与SW 1之间通过Vlan-interface 10连接。
[DeviceA] vlan 10
[DeviceA-vlan10] quit
[DeviceA] interface vlan-interface 10
[DeviceA-Vlan-interface10] ip address 172.24.10.254 24
[DeviceA-Vlan-interface10] quit
[DeviceA] interface bridge-aggregation 1
[DeviceA-Bridge-Aggregation1] port link-type trunk
[DeviceA-Bridge-Aggregation1] undo port trunk permit vlan 1
[DeviceA-Bridge-Aggregation1] port trunk permit vlan 10
[DeviceA-Bridge-Aggregation1] quit
# 配置与SW 2之间通过Vlan-interface 20连接。
[DeviceA] vlan 20
[DeviceA-vlan20] quit
[DeviceA] interface vlan-interface 20
[DeviceA-Vlan-interface20] ip address 172.24.20.254 24
[DeviceA-Vlan-interface20] quit
[DeviceA] interface bridge-aggregation 2
[DeviceA-Bridge-Aggregation2] port link-type trunk
[DeviceA-Bridge-Aggregation2] undo port trunk permit vlan 1
[DeviceA-Bridge-Aggregation2] port trunk permit vlan 20
[DeviceA-Bridge-Aggregation2] quit
# 创建连接IRF的动态聚合组,编号为1,该聚合组同时用于IRF的LACP MAD检测。
<SW1> system-view
[SW1] interface bridge-aggregation 1
[SW1-Bridge-Aggregation1] link-aggregation mode dynamic
[SW1-Bridge-Aggregation1] quit
# 使用接口批量配置功能配置连接IRF的端口加入聚合组1。
[SW1] interface range ten-gigabitethernet 2/0/21 to ten-gigabitethernet 2/0/24
[SW1-if-range] port link-aggregation group 1
[SW1-if-range] quit
# 接入设备SW1上创建所有VLAN。
[SW1] vlan all
# 配置与IRF连接的端口。
[SW1] interface bridge-aggregation 1
[SW1-Bridge-Aggregation1] port link-type trunk
[SW1-Bridge-Aggregation1] undo port trunk permit vlan 1
[SW1-Bridge-Aggregation1] port trunk permit vlan 10
[SW1-Bridge-Aggregation1] quit
# 配置连接服务器的端口GigabitEthernet3/0/1。
[SW1] interface gigabitethernet 3/0/1
[SW1-GigabitEthernet3/0/1] port link-type trunk
[SW1-GigabitEthernet3/0/1] port trunk permit vlan all
[SW1-GigabitEthernet3/0/1] undo port trunk permit vlan 1
[SW1-GigabitEthernet3/0/1] quit
# 创建连接IRF的聚合组,编号为1。
<SW2> system-view
[SW2] interface bridge-aggregation 1
[SW2-Bridge-Aggregation1] quit
# 使用接口批量配置功能配置连接IRF的端口加入聚合组1。
[SW2] interface range ten-gigabitethernet 2/0/21 to ten-gigabitethernet 2/0/24
[SW2-if-range] port link-aggregation group 1
[SW2-if-range] quit
# 接入设备SW 2上创建所有VLAN。
[SW2] vlan all
# 配置与IRF连接的端口。
[SW2] interface bridge-aggregation 1
[SW2-Bridge-Aggregation1] port link-type trunk
[SW2-Bridge-Aggregation1] undo port trunk permit vlan 1
[SW2-Bridge-Aggregation1] port trunk permit vlan 20
[SW2-Bridge-Aggregation1] quit
# 配置连接服务器的端口。
[SW2] interface gigabitethernet 3/0/1
[SW2-GigabitEthernet3/0/1] port link-type trunk
[SW2-GigabitEthernet3/0/1] port trunk permit vlan all
[SW2-GigabitEthernet3/0/1] undo port trunk permit vlan 1
[SW2-GigabitEthernet3/0/1] quit
# 创建连接出口路由器Router A的聚合组,编号为1024。
[DeviceA] interface bridge-aggregation 1024
[DeviceA-Bridge-Aggregation1024] quit
# 使用接口批量配置功能配置连接Router A的端口加入聚合组1024。
[DeviceA] interface range ten-gigabitethernet 1/3/0/8 ten-gigabitethernet 2/3/0/8 ten-gigabitethernet 3/3/0/8 ten-gigabitethernet 4/3/0/8
[DeviceA-if-range] port link-aggregation group 1024
[DeviceA-if-range] quit
# 配置与Router A之间通过Vlan-interface41连接。
[DeviceA] vlan 41
[DeviceA-vlan41] quit
[DeviceA] interface vlan-interface 41
[DeviceA-Vlan-interface41] ip address 172.24.41.254 24
[DeviceA-Vlan-interface41] quit
[DeviceA] interface bridge-aggregation 1024
[DeviceA-Bridge-Aggregation1024] port access vlan 41
[DeviceA-Bridge-Aggregation1024] quit
# 配置IRF与出口路由器之间运行OSPF路由协议。
[DeviceA] interface loopback 0
[DeviceA-LoopBack0] ip address 172.24.254.1 255.255.255.255
[DeviceA-LoopBack0] quit
[DeviceA] ospf 1 router-id 172.24.254.1
[DeviceA-ospf-1] import-route direct
[DeviceA-ospf-1] area 0
[DeviceA-ospf-1-area-0.0.0.0] network 172.24.41.0 0.0.0.255
[DeviceA-ospf-1-area-0.0.0.0] quit
[DeviceA-ospf-1] quit
出口路由器配置本用例只描述与IRF连接的部分,外网使用何种路由协议不予描述。
# 创建连接IRF的聚合组,编号为1。
<RouterA> system-view
[RouterA] interface bridge-aggregation 1
[RouterA-Bridge-Aggregation1] quit
# 配置连接IRF的端口加入聚合组1。
[RouterA] interface range ten-gigabitethernet 2/0/1 to interface ten-gigabitethernet 2/0/4
[RouterA-if-range] port link-aggregation group 1
[RouterA-if-range] quit
# 配置与IRF之间通过Vlan-interface 41连接。
[RouterA] vlan 41
[RouterA-vlan41] quit
[RouterA] interface vlan-interface 41
[RouterA-Vlan-interface41] ip address 172.24.41.2 24
[RouterA-Vlan-interface41] quit
[RouterA] interface bridge-aggregation 1
[RouterA-Bridge-Aggregation1] port access vlan 41
[RouterA-Bridge-Aggregation1] quit
# 配置Router A通过Vlan-interface 50连接外网。
[RouterA] vlan 50
[RouterA-vlan50] quit
[RouterA] interface vlan-interface 50
[RouterA-Vlan-interface50] ip address 172.24.1.2 24
[RouterA-Vlan-interface50] quit
[RouterA] interface ten-gigabitethernet 4/0/3
[RouterA-Ten-GigabitEthernet4/0/3] port link-mode bridge
[RouterA-Ten-GigabitEthernet4/0/3] port access vlan 50
[RouterA-Ten-GigabitEthernet4/0/3] quit
# 配置Router A与IRF之间运行OSPF路由协议。
[RouterA] interface loopback 0
[RouterA-LoopBack0] ip addresss 172.24.254.2 255.255.255.255
[RouterA-LoopBack0] quit
[RouterA] ospf 1 router-id 172.24.254.2
[RouterA-ospf-1] import-route direct
[RouterA-ospf-1] area 0
[RouterA-ospf-1-area-0.0.0.0] network 172.24.41.0 0.0.0.255
[RouterA-ospf-1-area-0.0.0.0] quit
[RouterA-ospf-1] quit
(1) 验证IRF是否建立成功
# 使用display irf topology命令查看八个IRF口都是UP状态,说明四台设备建立IRF成功。
<DeviceA> display irf topology
Topology Info
-------------------------------------------------------------------------
IRF-Port1 IRF-Port2
Switch Link neighbor Link neighbor Belong To
1 UP 4 UP 2 0210-fc01-0000
4 UP 3 UP 1 0210-fc01-0000
3 UP 2 UP 4 0210-fc01-0000
2 UP 1 UP 3 0210-fc01-0000
(2) 验证跨框聚合链路备份功能
# 从serverGroup 1任意挑选一台PC ping外网IP,同时关闭IRF的上行端口Ten-GigabitEthernet 1/3/0/8。
[DeviceA] interface ten-gigabitethernet 1/3/0/8
[DeviceA-Ten-GigabitEthernet1/3/0/8] shutdown
仍然可以ping通外网。
# 重新开启IRF的上行端口Ten-GigabitEthernet 1/3/0/8端口,持续ping外网IP。
[DeviceA-Ten-GigabitEthernet1/3/0/8] undo shutdown
[DeviceA-Ten-GigabitEthernet1/3/0/8] quit
# 关闭IRF的另一个上行端口Ten-GigabitEthernet 2/3/0/8。
[DeviceA] interface ten-gigabitethernet 2/3/0/8
[DeviceA-Ten-GigabitEthernet2/3/0/8] shutdown
仍然可以ping通外网。
· IRF:
#
irf mac-address persistent always
irf auto-update enable
undo irf auto-merge enable
undo irf link-delay
irf member 1 priority 1
irf member 2 priority 1
irf member 3 priority 1
irf member 4 priority 1
#
ospf 1 router-id 172.24.254.1
import-route direct
area 0.0.0.0
network 172.24.41.0 0.0.0.255
#
vlan 10
#
vlan 20
#
vlan 13
#
vlan 41
#
irf-port 1/1
port group interface Ten-GigabitEthernet1/2/0/4 mode enhanced
#
irf-port 1/2
port group interface Ten-GigabitEthernet1/2/0/1 mode enhanced
#
irf-port 2/1
port group interface Ten-GigabitEthernet2/4/0/2 mode enhanced
#
irf-port 2/2
port group interface Ten-GigabitEthernet2/3/0/30 mode enhanced
#
irf-port 3/1
port group interface Ten-GigabitEthernet3/3/0/15 mode enhanced
#
irf-port 3/2
port group interface Ten-GigabitEthernet3/2/0/1 mode enhanced
#
irf-port 4/1
port group interface Ten-GigabitEthernet4/6/0/4 mode enhanced
#
irf-port 4/2
port group interface Ten-GigabitEthernet4/6/0/2 mode enhanced
#
interface bridge-aggregation 1
port link-type trunk
undo port trunk permit vlan 1
port trunk permit vlan 10
mad enable
link-aggregation mode dynamic
#
interface bridge-aggregation 2
port link-type trunk
undo port trunk permit vlan 1
port trunk permit vlan 20
#
interface bridge-aggregation 1024
port access vlan 41
#
interface loopback 0
ip address 172.24.254.1 255.255.255.255
#
interface vlan-interface 10
ip address 172.24.10.254 24
#
interface vlan-interface 20
ip address 172.24.20.254 24
#
interface vlan-interface 41
ip address 172.24.41.254 24
#
interface Ten-GigabitEthernet 1/3/0/3
port link-mode bridge
port link-type trunk
undo port trunk permit vlan 1
port trunk permit vlan 10
port link-aggregation group 1
#
interface Ten-GigabitEthernet 1/3/0/4
port link-mode bridge
port link-type trunk
undo port trunk permit vlan 1
port trunk permit vlan 20
port link-aggregation group 2
#
interface Ten-GigabitEthernet 1/3/0/8
port link-mode bridge
port access vlan 41
port link-aggregation group 1024
#
interface Ten-GigabitEthernet 2/3/0/3
port link-mode bridge
port link-type trunk
undo port trunk permit vlan 1
port trunk permit vlan 10
port link-aggregation group 1
#
interface Ten-GigabitEthernet 2/3/0/4
port link-mode bridge
port link-type trunk
undo port trunk permit vlan 1
port trunk permit vlan 20
port link-aggregation group 2
#
interface Ten-GigabitEthernet 2/3/0/8
port link-mode bridge
port access vlan 41
port link-aggregation group 1024
#
interface Ten-GigabitEthernet 3/3/0/3
port link-mode bridge
port link-type trunk
undo port trunk permit vlan 1
port trunk permit vlan 10
port link-aggregation group 1
#
interface Ten-GigabitEthernet 3/3/0/4
port link-mode bridge
port link-type trunk
undo port trunk permit vlan 1
port trunk permit vlan 20
port link-aggregation group 2
#
interface Ten-GigabitEthernet 3/3/0/8
port link-mode bridge
port access vlan 41
port link-aggregation group 1024
#
interface Ten-GigabitEthernet 4/3/0/3
port link-mode bridge
port link-type trunk
undo port trunk permit vlan 1
port trunk permit vlan 10
port link-aggregation group 1
#
interface Ten-GigabitEthernet 4/3/0/4
port link-mode bridge
port link-type trunk
undo port trunk permit vlan 1
port trunk permit vlan 20
port link-aggregation group 2
#
interface Ten-GigabitEthernet 4/3/0/8
port link-mode bridge
port access vlan 41
port link-aggregation group 1024
#
· SW1:
#
vlan 10
#
interface gigabitethernet 3/0/1
port link-mode bridge
port link-type trunk
undo port trunk permit vlan 1
port trunk permit vlan 2 to 4094
#
interface bridge-aggregation 1
port link-type trunk
undo port trunk permit vlan 1
port trunk permit vlan 10
link-aggregation mode dynamic
#
interface Ten-GigabitEthernet 2/0/21
port link-mode bridge
port link-type trunk
undo port trunk permit vlan 1
port trunk permit vlan 10
port link-aggregation group 1
#
interface Ten-GigabitEthernet 2/0/22
port link-mode bridge
port link-type trunk
undo port trunk permit vlan 1
port trunk permit vlan 10
port link-aggregation group 1
#
interface Ten-GigabitEthernet 2/0/23
port link-mode bridge
port link-type trunk
undo port trunk permit vlan 1
port trunk permit vlan 10
port link-aggregation group 1
#
interface Ten-GigabitEthernet 2/0/24
port link-mode bridge
port link-type trunk
undo port trunk permit vlan 1
port trunk permit vlan 10
port link-aggregation group 1
#
· SW2:
#
vlan 20
#
interface gigabitethernet 3/0/1
port link-mode bridge
port link-type trunk
undo port trunk permit vlan 1
port trunk permit vlan 2 to 4094
#
interface bridge-aggregation 1
port link-type trunk
undo port trunk permit vlan 1
port trunk permit vlan 20
#
interface Ten-GigabitEthernet 2/0/21
port link-mode bridge
port link-type trunk
undo port trunk permit vlan 1
port trunk permit vlan 20
port link-aggregation group 1
#
interface Ten-GigabitEthernet 2/0/22
port link-mode bridge
port link-type trunk
undo port trunk permit vlan 1
port trunk permit vlan 20
port link-aggregation group 1
#
interface Ten-GigabitEthernet 2/0/23
port link-mode bridge
port link-type trunk
undo port trunk permit vlan 1
port trunk permit vlan 20
port link-aggregation group 1
#
interface Ten-GigabitEthernet 2/0/24
port link-mode bridge
port link-type trunk
undo port trunk permit vlan 1
port trunk permit vlan 20
port link-aggregation group 1
#
· RouterA:
#
ospf 1 router-id 172.24.254.2
import-route direct
area 0.0.0.0
network 172.24.41.0 0.0.0.255
#
vlan 41
#
vlan 50
#
interface bridge-aggregation 1
port access vlan 41
#
interface loopback 0
ip address 172.24.254.2 255.255.255.255
#
interface vlan-interface 41
ip address 172.24.41.2 24
#
interface vlan-interface 50
ip address 172.24.1.2 24
#
interface Ten-GigabitEthernet 2/0/1
port link-mode bridge
port access vlan 41
port link-aggregation group 1
#
interface Ten-GigabitEthernet 2/0/2
port link-mode bridge
port access vlan 41
port link-aggregation group 1
#
interface Ten-GigabitEthernet 2/0/3
port link-mode bridge
port access vlan 41
port link-aggregation group 1
#
interface Ten-GigabitEthernet 2/0/4
port link-mode bridge
port access vlan 41
port link-aggregation group 1
#
interface Ten-GigabitEthernet 2/0/12
port link-mode bridge
port access vlan 50
#
由于网络规模迅速扩大,汇聚层SW设备扩展至N台,当前中心设备Device A和Device B组成IRF的转发能力已经不能满足需求。现在需要在保留原有设备的基础上完成扩容,满足当前网络的转发需求。采用的升级方案为:扩大汇聚层设备的IRF规模,升级成四框IRF来满足当前网络的转发需求,如图5所示。
图3 升级之前组网图(两个IRF成员设备)
图4 升级过程组网图(新增两个成员设备Device C和Device D)
IP地址配置信息及设备间的互联端口信息请参见5 四台成员设备的IRF配置举例。
· 为避免成员设备的单点故障影响到正常的业务转发,在IRF中配置跨框聚合端口进行业务转发。
· 为尽量降低IRF分裂对业务造成的影响,可在IRF中配置BFD MAD检测。检测速度较快,组网形式灵活,对于中间设备没有要求,但是会占用额外的三层接口。
BFD MAD与STP功能互斥,因此需要在用于BFD MAD检测的接口上关闭STP功能。
· 如果新加入的DeviceC和DeviceD都是独立运行模式,搭建四框IRF的配置步骤请参考6.4.1 搭建IRF(配置DeviceC和DeviceD加入IRF);
· 如果新加入的DeviceC和DeviceD已经组成了另一个IRF(假设名称为IRF-C),搭建四框IRF的配置步骤请参考6.4.2 搭建IRF(配置原IRF和IRF-C合并成IRF)。
由于DeviceA和DeviceB已经组成了IRF,所以只需将DeviceC和DeviceD加入IRF即可。
(1) 配置IRF端口1/1与物理端口Ten-GigabitEthernet 1/2/0/4绑定
<DeviceA> system-view
[DeviceA] interface ten-gigabitethernet 1/2/0/4
[DeviceA-Ten-GigabitEthernet1/2/0/4] shutdown
[DeviceA-Ten-GigabitEthernet1/2/0/4] quit
[DeviceA] irf-port 1/1
[DeviceA-irf-port1/1] port group interface ten-gigabitethernet 1/2/0/4
[DeviceA-irf-port1/1] quit
[DeviceA] interface ten-gigabitethernet 1/2/0/4
[DeviceA-Ten-GigabitEthernet1/2/0/4] undo shutdown
[DeviceA-Ten-GigabitEthernet1/2/0/4] quit
(2) 配置IRF端口2/2与物理端口Ten-GigabitEthernet 2/3/0/30绑定
[DeviceA] interface ten-gigabitEthernet 2/3/0/30
[DeviceA-Ten-GigabitEthernet2/3/0/30] undo shutdown
[DeviceA-Ten-GigabitEthernet2/3/0/30] quit
[DeviceA] irf-port 2/2
[DeviceA-irf-port2/2] port group interface ten-gigabitethernet2/3/0/30
[DeviceA-irf-port2/2] quit
[DeviceA] interface ten-gigabitEthernet 2/3/0/30
[DeviceA-Ten-GigabitEthernet2/3/0/30] undo shutdown
[DeviceA-Ten-GigabitEthernet2/3/0/30] quit
(3) 将当前配置保存
[DeviceA] save
The current configuration will be written to the device. Are you sure? [Y/N]:y
Please input the file name(*.cfg)[cfa0:/irf.cfg]
(To leave the existing filename unchanged, press the enter key):
cfa0:/irf.cfg exists, overwrite? [Y/N]:y
Validating file. Please wait.....................................
Saved the current configuration to mainboard device successfully.
[DeviceA] irf-port-configuration active
(1) 设置Device C的成员编号为3
<DeviceC> system-view
[DeviceC] irf member 3
(2) 配置IRF端口1与物理端口Ten-GigabitEthernet 3/0/15绑定
[DeviceC] irf-port 1
[DeviceC-irf-port1] port group interface ten-gigabitethernet 3/0/15
[DeviceC-irf-port1] quit
(3) 配置IRF端口2与物理端口Ten-GigabitEthernet 2/0/1绑定
[DeviceC] irf-port 2
[DeviceC-irf-port2] port group interface ten-gigabitethernet2/0/1
[DeviceC-irf-port2] quit
(4) 保存配置
[DeviceC] save
The current configuration will be written to the device. Are you sure? [Y/N]:y
Please input the file name(*.cfg)[cfa0:/irf.cfg]
(To leave the existing filename unchanged, press the enter key):
cfa0:/irf.cfg exists, overwrite? [Y/N]:y
Validating file. Please wait.....................................
Saved the current configuration to mainboard device successfully.
参照图5和端口连接表连接Device B和Device C之间的IRF端口。
(5) 将设备的运行模式切换到IRF模式
[DeviceC] chassis convert mode irf
The device will switch to IRF mode and reboot. Continue? [Y/N]:y
You are recommended to save the current running configuration and specify the c
onfiguration file for the next startup. Continue? [Y/N]:y
Do you want to convert the content of the next startup configuration file flash
:/startup.cfg to make it available in stack mode? [Y/N]:y
Now rebooting, please wait...
(1) 设置Device D的成员编号为4
<DeviceD> system-view
[DeviceD] irf member 4
(2) 创建IRF端口1与物理端口Ten-GigabitEthernet 6/0/4绑定
[DeviceD] irf-port 1
[DeviceD-irf-port1] port group interface ten-gigabitethernet 6/0/4
[DeviceD-irf-port1] quit
(3) 配置IRF端口2与物理端口Ten-GigabitEthernet 6/0/2绑定
[DeviceD] irf-port 2
[DeviceD-irf-port2] port group interface ten-gigabitethernet6/0/2
[DeviceD-irf-port2] quit
(4) 保存配置
[DeviceD] save
The current configuration will be written to the device. Are you sure? [Y/N]:y
Please input the file name(*.cfg)[cfa0:/irf.cfg]
(To leave the existing filename unchanged, press the enter key):
cfa0:/irf.cfg exists, overwrite? [Y/N]:y
Validating file. Please wait.....................................
Saved the current configuration to mainboard device successfully.
参照图5和端口连接表连接Device C和Device D以及Device A和Device D之间的IRF端口。
(5) 将设备的运行模式切换到IRF模式
[DeviceD] chassis convert mode irf
The device will switch to IRF mode and reboot. Continue? [Y/N]:y
You are recommended to save the current running configuration and specify the c
onfiguration file for the next startup. Continue? [Y/N]:y
Do you want to convert the content of the next startup configuration file flash
:/startup.cfg to make it available in stack mode? [Y/N]:y
Now rebooting, please wait...
(1) 配置IRF端口1/1与物理端口Ten-GigabitEthernet1/2/0/4绑定
<DeviceA> system-view
[DeviceA] interface ten-gigabitethernet 1/2/0/4
[DeviceA-Ten-GigabitEthernet1/2/0/4] shutdown
[DeviceA-Ten-GigabitEthernet1/2/0/4] quit
[DeviceA] irf-port 1/1
[DeviceA-irf-port1/1] port group interface ten-gigabitethernet 1/2/0/4
[DeviceA-irf-port1/1] quit
[DeviceA] interface ten-gigabitethernet 1/2/0/4
[DeviceA-Ten-GigabitEthernet1/2/0/4] undo shutdown
[DeviceA-Ten-GigabitEthernet1/2/0/4] quit
(2) 配置IRF端口2/2与物理端口Ten-GigabitEthernet2/3/0/30绑定
[DeviceA] interface ten-gigabitethernet 2/3/0/30
[DeviceA-Ten-GigabitEthernet2/3/0/30] shutdown
[DeviceA-Ten-GigabitEthernet2/3/0/30] quit
[DeviceA] irf-port 2/2
[DeviceA-irf-port2/2] port group interface ten-gigabitethernet2/3/0/30
[DeviceA-irf-port2/2] quit
[DeviceA] interface ten-gigabitethernet 2/3/0/30
[DeviceA-Ten-GigabitEthernet2/3/0/30] undo shutdown
[DeviceA-Ten-GigabitEthernet2/3/0/30] quit
(3) 将当前配置保存
[DeviceA] save
The current configuration will be written to the device. Are you sure? [Y/N]:y
Please input the file name(*.cfg)[cfa0:/irf.cfg]
(To leave the existing filename unchanged, press the enter key):
cfa0:/irf.cfg exists, overwrite? [Y/N]:y
Validating file. Please wait.....................................
Saved the current configuration to mainboard device successfully.
[DeviceA] irf-port-configuration active
(1) 设置IRF-C的成员编号
<DeviceC> system-view
[DeviceC] irf member 1 renumber 3
Renumbering the member ID may result in configuration change or loss. Continue?[
Y/N]y
[DeviceC] irf member 2 renumber 4
Renumbering the member ID may result in configuration change or loss. Continue?[
Y/N]y
(2) 保存当前配置并重启,使新的成员编号生效
[DeviceC] quit
<DeviceC> reboot
Start to check configuration with next startup configuration file, please wait..
.......DONE!
Current configuration may be lost after the reboot, save current configuration?
[Y/N]:y
Please input the file name(*.cfg)[cfa0:/irf.cfg]
(To leave the existing filename unchanged, press the enter key):
This command will reboot the device. Continue? [Y/N]:y
(3) 配置IRF端口3/1与物理端口Ten-GigabitEthernet 3/3/0/15绑定
<DeviceC> system-view
[DeviceC] interface ten-gigabitethernet 3/3/0/15
[DeviceC-Ten-GigabitEthernet3/3/0/15] shutdown
[DeviceC-Ten-GigabitEthernet3/3/0/15] quit
[DeviceC] irf-port 3/1
[DeviceC-irf-port3/1] port group interface ten-gigabitethernet 3/3/0/15
[DeviceC-irf-port3/1] quit
[DeviceC] interface ten-gigabitethernet 3/3/0/15
[DeviceC-Ten-GigabitEthernet3/3/0/15] undo shutdown
[DeviceC-Ten-GigabitEthernet3/3/0/15] quit
(4) 配置IRF端口4/2与物理端口Ten-GigabitEthernet 4/6/0/2绑定
[DeviceC] interface ten-gigabitethernet 4/6/0/2
[DeviceC-Ten-GigabitEthernet4/6/0/2] shutdown
[DeviceC-Ten-GigabitEthernet4/6/0/2] quit
[DeviceC] irf-port 4/2
[DeviceC-irf-port4/2] port group interface ten-gigabitethernet4/6/0/2
[DeviceC-irf-port4/2] quit
[DeviceC] interface ten-gigabitethernet 4/6/0/2
[DeviceC-Ten-GigabitEthernet4/6/0/2] undo shutdown
[DeviceC-Ten-GigabitEthernet4/6/0/2] quit
(5) 将当前配置保存
[DeviceC] save
The current configuration will be written to the device. Are you sure? [Y/N]:y
Please input the file name(*.cfg)[cfa0:/irf.cfg]
(To leave the existing filename unchanged, press the enter key):
cfa0:/irf.cfg exists, overwrite? [Y/N]:y
Validating file. Please wait.....................................
Saved the current configuration to mainboard device successfully.
[DeviceC] irf-port-configuration active
参照图5和端口连接表连接Device B和Device C以及Device A和Device D之间的IRF端口。
在前面配置完成并重新启动后,IRF已经形成,此时可以进行各个业务模块的配置。IRF形成之后,可以从任何一台成员设备登录进行配置,设备名称缺省为Master的名称(此例中为DeviceA)。
使能BFD MAD检测时,要求MAD VLAN上不能配置其他业务。
# 在IRF上创建Vlan-interface 13用于BFD MAD 检测。
<DeviceA> system-view
[DeviceA] vlan 13
[DeviceA-vlan13] quit
[DeviceA] interface vlan-interface 13
[DeviceA-Vlan-interface13] mad bfd enable
[DeviceA-Vlan-interface13] mad ip address 172.1.1.1 24 member 1
[DeviceA-Vlan-interface13] mad ip address 172.1.1.2 24 member 2
[DeviceA-Vlan-interface13] mad ip address 172.1.1.3 24 member 3
[DeviceA-Vlan-interface13] mad ip address 172.1.1.4 24 member 4
[DeviceA-Vlan-interface13] undo shutdown
[DeviceA-Vlan-interface13] quit
# 配置IRF连接L2 Switch的二层以太网接口加入VLAN 13,并取消接口上的STP功能。
[DeviceA] interface range ten-gigabitEthernet 1/3/0/1 ten-gigabitEthernet 2/3/0/1 ten-gigabitEthernet 3/3/0/1 ten-gigabitEthernet 4/3/0/1
[DeviceA-if-range] undo stp enable
[DeviceA-if-range] port access vlan 13
[DeviceA-if-range] quit
在本例中,为方便理解,我们取消了升级之前IRF设备上的所有业务配置。但是在实际使用中,部分在升级之前已经部署的业务可以无需再重新配置了(例如端口IP地址等)。
# 创建连接接入层交换机SW 1的聚合组,编号为1。
[DeviceA] interface bridge-aggregation 1
[DeviceA-Bridge-Aggregation1] quit
# 使用接口批量配置功能配置连接SW 1的端口加入聚合组1。
[DeviceA] interface range ten-gigabitEthernet 1/3/0/3 ten-gigabitEthernet 2/3/0/3 ten-gigabitEthernet 3/3/0/3 ten-gigabitEthernet 4/3/0/3
[DeviceA-if-range] port link-aggregation group 1
[DeviceA-if-range] quit
# 创建连接接入层交换机SW 2的聚合组,编号为2。
[DeviceA] interface bridge-aggregation 2
[DeviceA-Bridge-Aggregation2] quit
# 使用接口批量配置功能配置连接SW 2的端口加入聚合组2。
[DeviceA] interface range ten-gigabitEthernet 1/3/0/4 ten-gigabitEthernet 2/3/0/4 ten-gigabitEthernet 3/3/0/4 ten-gigabitEthernet 4/3/0/4
[DeviceA-if-range] port link-aggregation group 2
[DeviceA-if-range] quit
# 配置与SW 1之间通过Vlan-interface 10连接。
[DeviceA] vlan 10
[DeviceA-vlan10] quit
[DeviceA] interface vlan-interface 10
[DeviceA-Vlan-interface10] ip address 172.24.10.254 24
[DeviceA-Vlan-interface10] quit
[DeviceA] interface bridge-aggregation 1
[DeviceA-Bridge-Aggregation1] port link-type trunk
[DeviceA-Bridge-Aggregation1] undo port trunk permit vlan 1
[DeviceA-Bridge-Aggregation1] port trunk permit vlan 10
[DeviceA-Bridge-Aggregation1] quit
# 配置与SW 2之间通过Vlan-interface 20连接。
[DeviceA] vlan 20
[DeviceA-vlan20] quit
[DeviceA] interface vlan-interface 20
[DeviceA-Vlan-interface20] ip address 172.24.20.254 24
[DeviceA-Vlan-interface20] quit
[DeviceA] interface bridge-aggregation 2
[DeviceA-Bridge-Aggregation2] port link-type trunk
[DeviceA-Bridge-Aggregation2] undo port trunk permit vlan 1
[DeviceA-Bridge-Aggregation2] port trunk permit vlan 20
[DeviceA-Bridge-Aggregation2] quit
# 创建连接IRF的聚合组,编号为1。
<SW1> system-view
[SW1] interface bridge-aggregation 1
[SW1-Bridge-Aggregation1] quit
# 使用接口批量配置功能配置连接IRF的端口加入聚合组1。
[SW1] interface range ten-gigabitethernet 2/0/21 to ten-gigabitethernet 2/0/24
[SW1-if-range] port link-aggregation group 1
[SW1-if-range] quit
# 接入设备SW1上创建所有VLAN。
[SW1] vlan all
# 配置与IRF连接的端口。
[SW1] interface bridge-aggregation 1
[SW1-Bridge-Aggregation1] port link-type trunk
[SW1-Bridge-Aggregation1] undo port trunk permit vlan 1
[SW1-Bridge-Aggregation1] port trunk permit vlan 10
[SW1-Bridge-Aggregation1] quit
# 配置连接服务器的端口GigabitEthernet3/0/1。
[SW1] interface gigabitethernet 3/0/1
[SW1-GigabitEthernet3/0/1] port link-type trunk
[SW1-GigabitEthernet3/0/1] port trunk permit vlan all
[SW1-GigabitEthernet3/0/1] undo port trunk permit vlan 1
[SW1-GigabitEthernet3/0/1] quit
# 创建连接IRF的聚合组,编号为1。
<SW2> system-view
[SW2] interface bridge-aggregation 1
[SW2-Bridge-Aggregation1] quit
# 使用接口批量配置功能配置连接IRF的端口加入聚合组1。
[SW2] interface range ten-gigabitethernet 2/0/21 to ten-gigabitethernet 2/0/24
[SW2-if-range] port link-aggregation group 1
[SW2-if-range] quit
# 接入设备SW 2上创建所有VLAN。
[SW2] vlan all
# 配置与IRF连接的端口。
[SW2] interface bridge-aggregation 1
[SW2-Bridge-Aggregation1] port link-type trunk
[SW2-Bridge-Aggregation1] undo port trunk permit vlan 1
[SW2-Bridge-Aggregation1] port trunk permit vlan 20
[SW2-Bridge-Aggregation1] quit
# 配置连接服务器的端口。
[SW2] interface gigabitethernet 3/0/1
[SW2-GigabitEthernet3/0/1] port link-type trunk
[SW2-GigabitEthernet3/0/1] port trunk permit vlan all
[SW2-GigabitEthernet3/0/1] undo port trunk permit vlan 1
[SW2-GigabitEthernet3/0/1] quit
# 创建连接出口路由器Router A的聚合组,编号为1024。
[DeviceA] interface bridge-aggregation 1024
[DeviceA-Bridge-Aggregation1024] quit
# 使用接口批量配置功能配置连接Router A的端口加入聚合组1024。
[DeviceA] interface range ten-gigabitethernet 1/3/0/8 ten-gigabitethernet 2/3/0/8 ten-gigabitethernet 3/3/0/8 ten-gigabitethernet 4/3/0/8
[DeviceA-if-range] port link-aggregation group 1024
[DeviceA-if-range] quit
# 配置与Router A之间通过Vlan-interface41连接。
[DeviceA] vlan 41
[DeviceA-vlan41] quit
[DeviceA] interface vlan-interface 41
[DeviceA-Vlan-interface41] ip address 172.24.41.254 24
[DeviceA-Vlan-interface41] quit
[DeviceA] interface bridge-aggregation 1024
[DeviceA-Bridge-Aggregation1024] port access vlan 41
[DeviceA-Bridge-Aggregation1024] quit
# 配置IRF与出口路由器之间运行OSPF路由协议。
[DeviceA] interface loopback 0
[DeviceA-LoopBack0] ip address 172.24.254.1 255.255.255.255
[DeviceA-LoopBack0] quit
[DeviceA] ospf 1 router-id 172.24.254.1
[DeviceA-ospf-1] import-route direct
[DeviceA-ospf-1] area 0
[DeviceA-ospf-1-area-0.0.0.0] network 172.24.41.0 0.0.0.255
[DeviceA-ospf-1-area-0.0.0.0] quit
[DeviceA-ospf-1] quit
出口路由器配置本用例只描述与IRF连接的部分,外网使用何种路由协议不予描述。
# 创建连接IRF的聚合组,编号为1。
<RouterA> system-view
[RouterA] interface bridge-aggregation 1
[RouterA-Bridge-Aggregation1] quit
# 配置连接IRF的端口加入聚合组1。
[RouterA] interface range ten-gigabitethernet 2/0/1 to interface ten-gigabitethernet 2/0/4
[RouterA-if-range] port link-aggregation group 1
[RouterA-if-range] quit
# 配置与IRF之间通过Vlan-interface 41连接。
[RouterA] vlan 41
[RouterA-vlan41] quit
[RouterA] interface vlan-interface 41
[RouterA-Vlan-interface41] ip address 172.24.41.2 24
[RouterA-Vlan-interface41] quit
[RouterA] interface bridge-aggregation 1
[RouterA-Bridge-Aggregation1] port access vlan 41
[RouterA-Bridge-Aggregation1] quit
# 配置Router A通过Vlan-interface 50连接外网。
[RouterA] vlan 50
[RouterA-vlan50] quit
[RouterA] interface vlan-interface 50
[RouterA-Vlan-interface50] ip address 172.24.1.2 24
[RouterA-Vlan-interface50] quit
[RouterA] interface ten-gigabitethernet 4/0/3
[RouterA-Ten-GigabitEthernet4/0/3] port link-mode bridge
[RouterA-Ten-GigabitEthernet4/0/3] port access vlan 50
[RouterA-Ten-GigabitEthernet4/0/3] quit
# 配置Router A与IRF之间运行OSPF路由协议。
[RouterA] interface loopback 0
[RouterA-LoopBack0] ip addresss 172.24.254.2 255.255.255.255
[RouterA-LoopBack0] quit
[RouterA] ospf 1 router-id 172.24.254.2
[RouterA-ospf-1] import-route direct
[RouterA-ospf-1] area 0
[RouterA-ospf-1-area-0.0.0.0] network 172.24.41.0 0.0.0.255
[RouterA-ospf-1-area-0.0.0.0] quit
[RouterA-ospf-1] quit
(1) 验证IRF是否建立成功
# 使用display irf topology命令查看八个IRF口都是UP状态,说明四台设备建立IRF成功。
<DeviceA> display irf topology
Topology Info
-------------------------------------------------------------------------
IRF-Port1 IRF-Port2
Switch Link neighbor Link neighbor Belong To
1 UP 4 UP 2 0210-fc01-0000
4 UP 3 UP 1 0210-fc01-0000
3 UP 2 UP 4 0210-fc01-0000
2 UP 1 UP 3 0210-fc01-0000
(2) 验证跨框聚合链路备份功能
# 从serverGroup 1任意挑选一台PC ping外网IP,同时将IRF连接出口路由器的Ten-GigabitEthernet 1/3/0/8端口shutdown。
[DeviceA] interface ten-gigabitethernet 1/3/0/8
[DeviceA-Ten-GigabitEthernet1/3/0/8] shutdown
仍然可以ping通外网。
# 重新使Ten-GigabitEthernet 1/3/0/8端口状态UP,持续ping外网IP。
[DeviceA-Ten-GigabitEthernet1/3/0/8] undo shutdown
[DeviceA-Ten-GigabitEthernet1/3/0/8] quit
# 关闭IRF的另外一个上行端口Ten-GigabitEthernet 2/3/0/8。
[DeviceA] interface ten-gigabitethernet 2/3/0/8
[DeviceA-Ten-GigabitEthernet2/3/0/8] shutdown
仍然可以ping通外网。
· IRF:
#
irf mac-address persistent always
irf auto-update enable
undo irf auto-merge enable
undo irf link-delay
irf member 1 priority 1
irf member 2 priority 1
irf member 3 priority 1
irf member 4 priority 1
#
ospf 1 router-id 172.24.254.1
import-route direct
area 0.0.0.0
network 172.24.41.0 0.0.0.255
#
vlan 10
#
vlan 20
#
vlan 13
#
vlan 41
#
irf-port 1/1
port group interface Ten-GigabitEthernet1/2/0/4 mode enhanced
#
irf-port 1/2
port group interface Ten-GigabitEthernet1/2/0/1 mode enhanced
#
irf-port 2/1
port group interface Ten-GigabitEthernet2/4/0/2 mode enhanced
#
irf-port 2/2
port group interface Ten-GigabitEthernet2/3/0/30 mode enhanced
#
irf-port 3/1
port group interface Ten-GigabitEthernet3/3/0/15 mode enhanced
#
irf-port 3/2
port group interface Ten-GigabitEthernet3/2/0/1 mode enhanced
#
irf-port 4/1
port group interface Ten-GigabitEthernet4/6/0/4 mode enhanced
#
irf-port 4/2
port group interface Ten-GigabitEthernet4/6/0/2 mode enhanced
#
interface bridge-aggregation 1
port link-type trunk
undo port trunk permit vlan 1
port trunk permit vlan 10
mad enable
link-aggregation mode dynamic
#
interface bridge-aggregation 2
port link-type trunk
undo port trunk permit vlan 1
port trunk permit vlan 20
#
interface bridge-aggregation 1024
port access vlan 41
#
interface loopback 0
ip address 172.24.254.1 255.255.255.255
#
interface vlan-interface 10
ip address 172.24.10.254 24
#
interface vlan-interface13
mad bfd enable
mad ip address 1.1.1.4 255.255.255.0 member 1
mad ip address 1.1.1.1 255.255.255.0 member 2
mad ip address 1.1.1.2 255.255.255.0 member 3
mad ip address 1.1.1.3 255.255.255.0 member 4
#
interface vlan-interface 20
ip address 172.24.20.254 24
#
interface vlan-interface 41
ip address 172.24.41.254 24
#
interface Ten-GigabitEthernet 1/3/0/1
port link-mode bridge
port access vlan 13
undo stp enable
#
interface Ten-GigabitEthernet 1/3/0/3
port link-mode bridge
port link-type trunk
undo port trunk permit vlan 1
port trunk permit vlan 10
port link-aggregation group 1
#
interface Ten-GigabitEthernet 1/3/0/4
port link-mode bridge
port link-type trunk
undo port trunk permit vlan 1
port trunk permit vlan 20
port link-aggregation group 2
#
interface Ten-GigabitEthernet 1/3/0/8
port link-mode bridge
port access vlan 41
port link-aggregation group 1024
#
interface Ten-GigabitEthernet 2/3/0/1
port link-mode bridge
port access vlan 13
undo stp enable
#
interface Ten-GigabitEthernet 2/3/0/3
port link-mode bridge
port link-type trunk
undo port trunk permit vlan 1
port trunk permit vlan 10
port link-aggregation group 1
#
interface Ten-GigabitEthernet 2/3/0/4
port link-mode bridge
port link-type trunk
undo port trunk permit vlan 1
port trunk permit vlan 20
port link-aggregation group 2
#
interface Ten-GigabitEthernet 2/3/0/8
port link-mode bridge
port access vlan 41
port link-aggregation group 1024
#
interface Ten-GigabitEthernet 3/3/0/1
port link-mode bridge
port access vlan 13
undo stp enable
#
interface Ten-GigabitEthernet 3/3/0/3
port link-mode bridge
port link-type trunk
undo port trunk permit vlan 1
port trunk permit vlan 10
port link-aggregation group 1
#
interface Ten-GigabitEthernet 3/3/0/4
port link-mode bridge
port link-type trunk
undo port trunk permit vlan 1
port trunk permit vlan 20
port link-aggregation group 2
#
interface Ten-GigabitEthernet 3/3/0/8
port link-mode bridge
port access vlan 41
port link-aggregation group 1024
#
interface Ten-GigabitEthernet 4/3/0/1
port link-mode bridge
port access vlan 13
undo stp enable
#
interface Ten-GigabitEthernet 4/3/0/3
port link-mode bridge
port link-type trunk
undo port trunk permit vlan 1
port trunk permit vlan 10
port link-aggregation group 1
#
interface Ten-GigabitEthernet 4/3/0/4
port link-mode bridge
port link-type trunk
undo port trunk permit vlan 1
port trunk permit vlan 20
port link-aggregation group 2
#
interface Ten-GigabitEthernet 4/3/0/8
port link-mode bridge
port access vlan 41
port link-aggregation group 1024
#
· SW1:
#
vlan 10
#
interface bridge-aggregation 1
port link-type trunk
undo port trunk permit vlan 1
port trunk permit vlan 10
link-aggregation mode dynamic
#
interface gigabitethernet 3/0/1
port link-mode bridge
port link-type trunk
undo port trunk permit vlan 1
port trunk permit vlan 2 to 4094
#
interface Ten-GigabitEthernet 2/0/21
port link-mode bridge
port link-type trunk
undo port trunk permit vlan 1
port trunk permit vlan 10
port link-aggregation group 1
#
interface Ten-GigabitEthernet 2/0/22
port link-mode bridge
port link-type trunk
undo port trunk permit vlan 1
port trunk permit vlan 10
port link-aggregation group 1
#
interface Ten-GigabitEthernet 2/0/23
port link-mode bridge
port link-type trunk
undo port trunk permit vlan 1
port trunk permit vlan 10
port link-aggregation group 1
#
interface Ten-GigabitEthernet 2/0/24
port link-mode bridge
port link-type trunk
undo port trunk permit vlan 1
port trunk permit vlan 10
port link-aggregation group 1
#
· SW2:
#
vlan 20
#
interface bridge-aggregation 1
port link-type trunk
undo port trunk permit vlan 1
port trunk permit vlan 20
#
interface gigabitethernet 3/0/1
port link-mode bridge
port link-type trunk
undo port trunk permit vlan 1
port trunk permit vlan 2 to 4094
#
interface Ten-GigabitEthernet 2/0/21
port link-mode bridge
port link-type trunk
undo port trunk permit vlan 1
port trunk permit vlan 20
port link-aggregation group 1
#
interface Ten-GigabitEthernet 2/0/22
port link-mode bridge
port link-type trunk
undo port trunk permit vlan 1
port trunk permit vlan 20
port link-aggregation group 1
#
interface Ten-GigabitEthernet 2/0/23
port link-mode bridge
port link-type trunk
undo port trunk permit vlan 1
port trunk permit vlan 20
port link-aggregation group 1
#
interface Ten-GigabitEthernet 2/0/24
port link-mode bridge
port link-type trunk
undo port trunk permit vlan 1
port trunk permit vlan 20
port link-aggregation group 1
#
interface Ten-GigabitEthernet 2/0/41
port link-mode bridge
port access vlan 13
#
interface Ten-GigabitEthernet 2/0/42
port link-mode bridge
port access vlan 13
#
interface Ten-GigabitEthernet 2/0/43
port link-mode bridge
port access vlan 13
#
interface Ten-GigabitEthernet 2/0/44
port link-mode bridge
port access vlan 13
#
· RouterA:
#
ospf 1 router-id 172.24.254.2
import-route direct
area 0.0.0.0
network 172.24.41.0 0.0.0.255
#
vlan 41
#
vlan 50
#
interface bridge-aggregation 1
port access vlan 41
#
interface loopback 0
ip address 172.24.254.2 255.255.255.255
#
interface vlan-interface 41
ip address 172.24.41.2 24
#
interface vlan-interface 50
ip address 172.24.1.2 24
#
interface Ten-GigabitEthernet 2/0/1
port link-mode bridge
port access vlan 41
port link-aggregation group 1
#
interface Ten-GigabitEthernet 2/0/2
port link-mode bridge
port access vlan 41
port link-aggregation group 1
#
interface Ten-GigabitEthernet 2/0/3
port link-mode bridge
port access vlan 41
port link-aggregation group 1
#
interface Ten-GigabitEthernet 2/0/4
port link-mode bridge
port access vlan 41
port link-aggregation group 1
#
interface Ten-GigabitEthernet 2/0/12
port link-mode bridge
port access vlan 50
#
· H3C S10500X系列交换机 虚拟化技术配置指导-R759X
· H3C S10500X系列交换机 虚拟化技术命令参考-R759X
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