Network Router User Manual
Table Of Contents
- About This Document
- Introduction
- Common Commands
- In this chapter
- Common commands
- show
- autoinstall
- banner
- commands
- crypto
- environment
- history
- interfaces
- ip
- ldap
- licenses
- logging
- mac
- mac-address-table
- management
- mobility
- ntp
- port-channel
- power
- privilege
- radius
- redundancy dynamic-ap-load-balance
- redundancy group
- redundancy history
- redundancy members
- rtls
- smtp-notification
- snmp
- snmp-server
- spanning-tree
- static-channel-group
- terminal
- timezone
- traffic-shape
- users
- version
- wireless
- (config-wireless) Executable Mode
- wlan-acl
- access-list
- aclstats
- alarm-log
- boot
- clock
- debugging
- dhcp
- file
- ftp
- password-encryption
- running-config
- securitymgr
- sessions
- startup-config
- upgrade-status
- mac-name
- firewall
- role
- virtual-IP
- wwan
- aap-wlan-acl
- aap-wlan-acl-stats
- protocol-list
- service-list
- User Exec Commands
- Privileged Exec Commands
- Global Configuration Commands
- In this chapter
- Global Configuration commands
- aaa
- access-list
- autoinstall
- banner
- boot
- bridge
- country-code
- crypto
- do
- end
- errdisable
- ftp
- hostname
- interface
- ip
- license
- line
- local
- logging
- mac
- mac-address-table
- mac-name
- management
- ntp
- prompt
- radius-server
- ratelimit
- redundancy
- role
- rtls
- service
- smtp-notification
- snmp-server
- spanning-tree
- timezone
- traffic-shape
- username
- vpn
- wireless
- wlan-acl
- network-element-id
- firewall
- virtual-ip
- wwan
- aap-wlan-acl
- arp
- power
- aap-ipfilter-list
- whitelist
- Crypto-isakmp Instance
- Crypto-group Instance
- Crypto-peer Instance
- Crypto-ipsec Instance
- Crypto-map Instance
- Crypto-trustpoint Instance
- Interface Instance
- Spanning tree-mst Instance
- Extended ACL Instance
- Standard ACL Instance
- Extended MAC ACL Instance
- DHCP Server Instance
- DHCP Class Instance
- Radius Server Instance
- Wireless Instance
- In this chapter
- Wireless configuration commands
- aap
- admission-control
- adopt-unconf-radio
- adoption-pref-id
- ap
- ap-containment
- ap-detection
- ap-image
- ap-ip
- ap-standby-attempts-threshold
- ap-timeout
- ap-udp-port
- auto-select-channels
- broadcast-tx-speed
- client
- clrscr
- cluster-master-support
- convert-ap
- country-code
- debug
- dhcp-one-portal-forward
- dhcp-sniff-state
- dot11-shared-key-auth
- end
- exit
- fix-broadcast-dhcp-rsp
- help
- hotspot
- load-balance
- mac-auth-local
- manual-wlan-mapping
- wireless-client
- mobility
- multicast-packet-limit
- multicast-throttle-watermark
- nas-id
- nas-port-id
- no
- proxy-arp
- qos-mapping
- radio
- rate-limit
- secure-wispe-default-secret
- self-heal
- sensor
- service
- show
- smart-rf
- smart-scan-channels
- wlan
- wlan-bw-allocation
- dot11k
- wips
- non-preferred-ap-attempts-threshold
- test
- RTLS Instance
- ESPI Instance
- RFID Instance
- SOLE Instance
- Smart RF Instance
- Role Instance
- AAP IP Filtering
418 Brocade Mobility RFS4000, RFS6000 and RFS7000 CLI Reference Guide
53-1001931-01
Interface config commands
12
port-channel
Interface config commands
Selects the load-balance criteria of an aggregated port
Supported in the following platforms:
• Mobility RFS7000 Controller
• Mobility RFS4000 Controller
NOTE
This command is not supported on the Mobility RFS6000 Controller.
Syntax
port-channel load-balance [src-dst-ip|src-dst-mac]
Parameters
Usage Guidelines
Use this command to configure and set load balance on the aggregated port using
(config-if)
static-channel-group
.
Example
The following example creates a channel group 1, with interface ge1 and ge 2:
RFController(config)#interface ge1
RFController(config-if)#static-channel-group 1
RFController(config)#interface ge2
RFController(config-if)#static-channel-group 1
The following example defines the load balance based on the IP or MAC address:
RFController(config)#interface sa1
RFController(config-if)#port-channel load-balance src--dst-ip
RFController(config-if)#
Configuring a port aggregation
Use static-channel-group and port-channel for configuring port aggregation. Follow the steps
below to configure port aggregation:
1. Create a static channel group for port aggregation and associate an interface with it.
RFController(config)#interface ge 1
RFController(config-if)#static-channel-group 1
2. Execute show static-channel-group and ensure the virtual static aggregation
sa 1 has been created and associated with
ge 1.
load-balance
[src-dst-ip|src-dst-mac]
Sets load-balancing for port channel
• src-dst-ip – Defines the Source and Destination IP address
based on the current load balancing
• src-dst-mac – Sets the Source and Destination MAC
address based on the load balancing