Example for Configuring BGP Load Balancing
Network Requirement
Configure load balancing on Switch A.
Configure EBGP connections between Switch B and Switch A and between Switch B and Switch D.
Configure EBGP connections between Switch C and Switch A and between Switch C and Switch D.
Figure 1. BGP Load Balancing
Procedure
Switch A
Step1 Configure the VLANs and VLAN interfaces.
admin@SwitchA# set vlans vlan-id 30 l3-interface vlan30 admin@SwitchA# set vlans vlan-id 40 l3-interface vlan40 admin@SwitchA# set interface gigabit-ethernet te-1/1/1 family ethernet-switching native-vlan-id 30 admin@SwitchA# set interface gigabit-ethernet te-1/1/2 family ethernet-switching native-vlan-id 40 admin@SwitchA# set l3-interface vlan-interface vlan30 address 192.168.30.1 prefix-length 24 admin@SwitchA# set l3-interface vlan-interface vlan40 address 192.168.40.1 prefix-length 24
Step2 Configure an EBGP connection.
admin@SwitchA# set protocols bgp router-id 1.1.1.1 admin@SwitchA# set protocols bgp local-as 100 admin@SwitchA# set protocols bgp neighbor 192.168.30.2 remote-as 200 admin@SwitchA# set protocols bgp neighbor 192.168.40.2 remote-as 300 admin@SwitchA# set protocols bgp ebgp-requires-policy false
Step3 Enable IP routing.
admin@SwitchA# set ip routing enable true
Step4 Commit the configurations.
admin@SwitchA# commit
Switch B
Step1 Configure the VLANs and VLAN interfaces.
admin@SwitchB# set vlans vlan-id 20 l3-interface vlan20 admin@SwitchB# set vlans vlan-id 30 l3-interface vlan30 admin@SwitchB# set interface gigabit-ethernet te-1/1/1 family ethernet-switching native-vlan-id 30 admin@SwitchB# set interface gigabit-ethernet te-1/1/2 family ethernet-switching native-vlan-id 20 admin@SwitchB# set l3-interface vlan-interface vlan20 address 192.168.20.2 prefix-length 24 admin@SwitchB# set l3-interface vlan-interface vlan30 address 192.168.30.2 prefix-length 24
Step2 Configure EBGP connections.
admin@SwitchB# set protocols bgp router-id 2.2.2.2 admin@SwitchB# set protocols bgp local-as 200 admin@SwitchB# set protocols bgp neighbor 192.168.30.1 remote-as 100 admin@SwitchB# set protocols bgp neighbor 192.168.20.1 remote-as 400 admin@SwitchB# set protocols bgp ebgp-requires-policy false
Step3 Enable IP routing.
admin@SwitchB# set ip routing enable true
Step4 Commit the configurations.
admin@SwitchB# commit
Switch C
Step1 Configure the VLANs and VLAN interfaces.
admin@SwitchC# set vlans vlan-id 40 l3-interface vlan40 admin@SwitchC# set vlans vlan-id 50 l3-interface vlan50 admin@SwitchC# set interface gigabit-ethernet te-1/1/2 family ethernet-switching native-vlan-id 40 admin@SwitchC# set interface gigabit-ethernet te-1/1/3 family ethernet-switching native-vlan-id 50 admin@SwitchC# set l3-interface vlan-interface vlan40 address 192.168.40.2 prefix-length 24 admin@SwitchC# set l3-interface vlan-interface vlan50 address 192.168.50.2 prefix-length 24
Step2 Configure the EBGP connection.
admin@SwitchC# set protocols bgp router-id 3.3.3.3 admin@SwitchC# set protocols bgp local-as 300 admin@SwitchC# set protocols bgp neighbor 192.168.40.1 remote-as 100 admin@SwitchC# set protocols bgp neighbor 192.168.50.1 remote-as 400 admin@SwitchC# set protocols bgp ebgp-requires-policy false
Step3 Enable IP routing.
admin@SwitchC# set ip routing enable true
Step4 Commit the configurations.
admin@SwitchC# commit
Switch D
Step1 Configure the VLANs and VLAN interfaces.
admin@SwitchD# set vlans vlan-id 10 l3-interface vlan10 admin@SwitchD# set vlans vlan-id 20 l3-interface vlan20 admin@SwitchD# set vlans vlan-id 50 l3-interface vlan50 admin@SwitchD# set interface gigabit-ethernet te-1/1/1 family ethernet-switching native-vlan-id 10 admin@SwitchD# set interface gigabit-ethernet te-1/1/2 family ethernet-switching native-vlan-id 20 admin@SwitchD# set interface gigabit-ethernet te-1/1/3 family ethernet-switching native-vlan-id 50 admin@SwitchD# set l3-interface vlan-interface vlan10 address 192.168.10.1 prefix-length 24 admin@SwitchD# set l3-interface vlan-interface vlan20 address 192.168.20.1 prefix-length 24 admin@SwitchD# set l3-interface vlan-interface vlan50 address 192.168.50.1 prefix-length 24
Step2 Configure the EBGP connection.
admin@SwitchD# set protocols bgp router-id 4.4.4.4 admin@SwitchD# set protocols bgp local-as 400 admin@SwitchD# set protocols bgp neighbor 192.168.20.2 remote-as 200 admin@SwitchD# set protocols bgp neighbor 192.168.50.2 remote-as 300 admin@SwitchD# set protocols bgp ebgp-requires-policy false
Step3 Enable IP routing.
admin@SwitchC# set ip routing enable true
Step4 Commit the configurations.
admin@SwitchD# commit
Viewing BGP Peer Status on Switch B
admin@SwitchB# run show bgp neighbor BGP neighbor on vlan30: 192.168.30.1, remote AS 100, local AS 200, external link BGP version 4, remote router ID 1.1.1.1, local router ID 2.2.2.2 BGP state = Idle Last read 00:15:06, Last write never Hold time is 180, keepalive interval is 60 seconds Graceful restart information: Local GR Mode: Helper* Remote GR Mode: NotApplicable R bit: False Timers: Configured Restart Time(sec): 120 Received Restart Time(sec): 0 Message statistics: Inq depth is 0 Outq depth is 0 Sent Rcvd Opens: 0 0 Notifications: 0 0 Updates: 0 0 Keepalives: 0 0 Route Refresh: 0 0 Capability: 0 0 Total: 0 0 Minimum time between advertisement runs is 0 seconds For address family: IPv4 Unicast Not part of any update group Community attribute sent to this neighbor(all) 0 accepted prefixes Connections established 0; dropped 0 Last reset 00:15:06, Waiting for Peer IPv6 LLA BGP Connect Retry Timer in Seconds: 120 Read thread: off Write thread: off FD used: -1 BGP neighbor is 192.168.20.2, remote AS 400, local AS 200, internal link Administratively shut down BGP version 4, remote router ID 3.3.3.3, local router ID 2.2.2.2 BGP state = Idle Last read 00:15:06, Last write never Hold time is 180, keepalive interval is 60 seconds Graceful restart information: Local GR Mode: Helper* Remote GR Mode: NotApplicable R bit: False Timers: Configured Restart Time(sec): 120 Received Restart Time(sec): 0 Message statistics: Inq depth is 0 Outq depth is 0 Sent Rcvd Opens: 0 0 Notifications: 0 0 Updates: 0 0 Keepalives: 0 0 Route Refresh: 0 0 Capability: 0 0 Total: 0 0 Minimum time between advertisement runs is 600 seconds For address family: IPv4 Unicast Not part of any update group Advertise bestpath per AS via addpath Override ASNs in outbound updates if aspath equals remote-as Community attribute sent to this neighbor(all) 0 accepted prefixes Connections established 0; dropped 0 Last reset 00:15:06, No AFI/SAFI activated for peer External BGP neighbor may be up to 255 hops away. BGP Connect Retry Timer in Seconds: 111 Peer Authentication Enabled Read thread: off Write thread: off FD used: -1 BGP neighbor is 192.168.40.2, remote AS 200, local AS 200, internal link BGP version 4, remote router ID 4.4.4.4, local router ID 2.2.2.2 BGP state = Active Last read 00:15:06, Last write never Hold time is 180, keepalive interval is 60 seconds Graceful restart information: Local GR Mode: Helper* Remote GR Mode: NotApplicable R bit: False Timers: Configured Restart Time(sec): 120 Received Restart Time(sec): 0 Message statistics: Inq depth is 0 Outq depth is 0 Sent Rcvd Opens: 0 0 Notifications: 0 0 Updates: 0 0 Keepalives: 0 0 Route Refresh: 0 0 Capability: 0 0 Total: 0 0 Minimum time between advertisement runs is 0 seconds For address family: IPv4 Unicast Not part of any update group Advertise bestpath per AS via addpath Override ASNs in outbound updates if aspath equals remote-as Community attribute sent to this neighbor(all) 0 accepted prefixes Connections established 0; dropped 0 Last reset 00:15:06, No AFI/SAFI activated for peer External BGP neighbor may be up to 255 hops away. BGP Connect Retry Timer in Seconds: 111 Peer Authentication Enabled Read thread: off Write thread: off FD used: -1
Configuring Switch D to Advertise Route 192.168.10.0/24
admin@SwitchD# set protocols bgp ipv4-unicast network 192.168.10.0/24 admin@SwitchD# commit
Configure Switch A to Enable BGP Load Balancing
Because Switch A has two routes to reach AS 400, configuring load balancing over the two BGP routes on Switch A can improve link usage.
admin@SwitchA# set protocols bgp ipv4-unicast multipath ebgp maximum-paths 2 admin@SwitchA# commit
Then you can view the BGP routing table to 192.168.10.0/24 on Switch A, you can find that:
The route 192.168.10.0/24 has two next hops, 192.168.30.2 and 192.168.40.2, both of which are marked with a greater-than sign (>), indicating that they are the optimal routes.
By using the run show bgp route 192.168.10.0/24 command, you can find two routes to 192.168.10.0/24. One has next hop 192.168.30.2 and output interface VLAN interface vlan30, and the other has next hop 192.168.40.2 and output interface VLAN interface vlan40.
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