华三链路聚合负载均衡方式 h3c链路聚合负载均衡配置

三台交换机堆叠

1.二台交换机的堆叠实验拓扑

irf区域设置为10，IRFSW1为member 1，优先级设置为10；IRFSW2为member 2，优先级保持默认 1，最大的优先级为32.

 

 

 

 

 

实验配置及命令

IRFSW1：

irf 区域设置，并设置member 1的优先级。（默认编号也是1，最大是32）

[IRFSW1]irf domain 10

[IRFSW1]irf member 1 priority 10

先关闭端口，然后创建irf-port 1/1（member号/逻辑口编号），然后将物理口加入，再开启刚关闭的端口。

[IRFSW1]interface range FastEthernet  1/0/53  to FastEthernet1/0/54
[IRFSW1-if-range]shutdown
 
[IRFSW1]irf-port 1/1
[IRFSW1-irf-port1/1]port group interface FastEthernet  1/0/53
[IRFSW1-irf-port1/1]port group interface FastEthernet  1/0/54
 
[IRFSW1]interface range FastEthernet  1/0/53  to FastEthernet1/0/54
[IRFSW1-if-range]undo shutdown

配置结果

 

 

 

 

IRFSW2：

更改成员编号后需要保存配置后，重启使其生效。次时端口号变为2/0/50,2/0/51…

[IRFSW2]irf domain 10
[IRFSW2]irf member 1 renumber 2
 
<IRFSW2>save
The current configuration will be written to the device. Are you sure? [Y/N]:y
Please input the file name(*.cfg)[flash:/startup.cfg]
(To leave the existing filename unchanged, press the enter key):
Validating file. Please wait...
Saved the current configuration to mainboard device successfully.
<IRFSW2>reboot

这步和IRFSW1差不多，但是有一点很重要，特别是对多层堆叠：
irf-port 后面跟的1/1,2/2不是随便弄的，前者（数字）是交换机的成员编号，后者是成员编号对应的逻辑口号，每台只有1,2两个，你可以是n/1，n/2，但是如果你是n/1的话，那你下一个就只能是n+1/2，如果是n/2就和n/1配对，不可以两个都是1或者都是2。

[IRFSW2]interface range FastEthernet  2/0/53  to FastEthernet 2/0/54
[IRFSW2-if-range]shutdown
 
[IRFSW2]irf-port 2/2
[IRFSW2-irf-port2/2]port group interface FastEthernet 2/0/53
[IRFSW2-irf-port2/2]port group interface FastEthernet 2/0/54
 
[IRFSW2]interface range FastEthernet  2/0/53  to FastEthernet 2/0/54
[IRFSW2-if-range]undo shut
[IRFSW2-if-range]undo shutdown

配置结果

 

 

 

 

启动配置：

[IRFSW2]irf-port-configuration active
<IRFSW2>reboot
<IRFSW1>reboot

 

 

 

成功以后每台设备的名称会自动变成主设备的名称。

 

二.配置了堆叠后的设备链路验的配置

 

 

 

 

SW1]dis irf
MemberID    Role    Priority  CPU-Mac         Description
  *1        Master  1         2e92-6b04-0104  ---
  +2        Standby 1         2e92-832c-0204  ---

 

IRF-SW的配置链路聚合

 

//在IRF-SW上配置，将SW1的g0/1与SW2的g0/1做聚合
[IRF-SW]interface Bridge-Aggregation 1  //创建聚合口

[TRF-SW1]port link-type trunk   //接口类型配置为Trunk
[TRF-SW1]port trunk permit vlan 10  //Trunk接口允许VLAN10通过

[IRF-SW-Bridge-Aggregation1]int g1/0/1 //进入物理接口(第一台核心交换机的物理接口)
[IRF-SW-GigabitEthernet1/0/1]port link-aggregation group 1 //将物理接口加入聚合口 
[IRF-SW-GigabitEthernet1/0/1]int g2/0/1 //进入物理接口（第二台核心的物理接口因为是做了堆叠修改为了是2/0/1开头的） 
[IRF-SW-GigabitEthernet2/0/1]port link-aggregation group 1 //将物理接口加入聚合口
[IRF-SW-GigabitEthernet2/0/1]display link-aggregation summary //检查两个端口是否都被加入到聚合口，简写dis link-a su //同样方法将SW1的g0/2与SW2的g0/2做聚合

//在IRF-SW上配置，将SW1的g0/1与SW2的g0/1做聚合
[IRF-SW]interface Bridge-Aggregation 2  //创建聚合口

[TRF-SW1]port link-type trunk   //接口类型配置为Trunk
[TRF-SW1]port trunk permit vlan 10  //Trunk接口允许VLAN10通过

[IRF-SW-Bridge-Aggregation1]int g1/0/2 //进入物理接口(第一台核心交换机的物理接口)
[IRF-SW-GigabitEthernet1/0/2]port link-aggregation group 1 //将物理接口加入聚合口

[IRF-SW-GigabitEthernet1/0/2]int g2/0/2 //进入物理接口（第二台核心的物理接口因为是做了堆叠修改为了是2/0/1开头的）

[IRF-SW-GigabitEthernet2/0/2]port link-aggregation group 1 //将物理接口加入聚合口

[IRF-SW-GigabitEthernet2/0/2]display link-aggregation summary //检查两个端口是否都被加入到聚合口，简写dis link-a su  

接入层的交换机配置

• SW3把连接与核心交换机的接口加入VLAN10（配置trunk模式）

在SW3上将g0/1与g0/2做聚合 
[SW3]int Bridge-Aggregation 1

[SW3]int Bridge-Aggregation 1  //创建聚合口
[SW3-Bridge-Aggregation1]port link-type trunk   //接口类型配置为Trunk
[SW3-Bridge-Aggregation1]port trunk permit vlan 10  //Trunk接口允许VLAN10通过

[SW3-Bridge-Aggregation1]int g1/0/1 
[SW3-GigabitEthernet1/0/1]port link-aggregation group 1
[SW3-Bridge-Aggregation1]int g1/0/2
[SW3-GigabitEthernet1/0/2]port link-aggregation group 1 
[SW3-GigabitEthernet1/0/2]qu //同样方法在SW4上将g0/1与g0/2做聚合

 

• SW3把连接PC的接口加入VLAN10

 

[SW3]vlan 10
[SW3-vlan10]port g1/0/3
[SW3-vlan10]qu

//同样方法将SW4接PC端的接口划分到VLAN10

 

• 将SW4与核心交换机聚合端口配置为Trunk类型

 

[SW3]int Bridge-Aggregation 2 //创建聚合口
[SW3-Bridge-Aggregation1]port link-type trunk   //接口类型配置为Trunk
[SW3-Bridge-Aggregation1]port trunk permit vlan 10  //Trunk接口允许VLAN10通过
[SW3]dis link-aggregation summary  /检查聚合口

//同样方法将SW4聚合端口配置为Trunk类型

//在IRF-SW上将两个聚合口均配置为Trunk类型，并配置放行VLAN10

[IRF-SW]vlan 10  //划分VLAN10
[IRF-SW]int Bridge-Aggregation 2  //进入1聚合接口
[IRF-SW-Bridge-Aggregation1]port link-type trunk   //聚合接口1配置为Trunk类型
[IRF-SW-Bridge-Aggregation1]port trunk permit vlan 10  //放行VLAN10
[IRF-SW-Bridge-Aggregation1]qu
[IRF-SW]dis link-aggregation summary  //检查聚合接口

• SW4把连接PC的接口加入VLAN10

[SW3]vlan 10
[SW3-vlan10]port g1/0/3
[SW3-vlan10]qu