组网说明:
本案例采用H3C HCL模拟器来模拟IPV6 二层链路聚合典型组网配置。SW1为接入设备,SW2为网关所在的核心设备。为了提高链路带宽及确保设备的冗余性,因此在SW1和SW2之间使用两条物理链路,并通过二层链路聚合技术实现捆绑。
1、按照网络拓扑图正确划分VLAN
2、SW1和SW2之间采用二层链路聚合
SW1:
<H3C>sys
System View: return to User View with Ctrl+Z.
[H3C]sysname SW1
[SW1]vlan 10
[SW1-vlan10]quit
[SW1]int Bridge-Aggregation 1
[SW1-Bridge-Aggregation1]quit
[SW1]int range gi 1/0/1 to gi 1/0/2
[SW1-if-range]port link-aggregation group 1
[SW1-if-range]quit
[SW1]int 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
[SW1]int gi 1/0/3
[SW1-GigabitEthernet1/0/3]port link-type access
[SW1-GigabitEthernet1/0/3]port access vlan 10
[SW1-GigabitEthernet1/0/3]quit
SW2:
<H3C>sys
System View: return to User View with Ctrl+Z.
[H3C]sysname SW2
[SW2]vlan 10
[SW2-vlan10]quit
[SW2]int vlan 10
[SW2-Vlan-interface10]ipv6 address 1::1 64
[SW2-Vlan-interface10]quit
[SW2]int Bridge-Aggregation 1
[SW2-Bridge-Aggregation1]quit
[SW2]int range gi 1/0/1 to gi 1/0/2
[SW2-if-range]port link-aggregation group 1
[SW2-if-range]quit
[SW2]int 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 10
[SW2-Bridge-Aggregation1]quit
测试:
物理机填写IP地址,且可以PING通网关即可:
查看SW1和SW2的链路聚合信息:
分别查看SW1和SW2的链路聚合后的速率为2G:
至此,IPV6之二层链路聚合典型组网配置案例已完成!
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