Configuring LACP

To enable and configureLACPLink Aggregation Control Protocol. LACP is used for the collective handling of multiple physical ports that can be seen as a single channel for network traffic purposes.on220 Series,270 Series,320 Seriesand330 Seriesaccess points, specify theLMS IPaddress and configure theGRE Striping IPaddress in the APLACPLink Aggregation Control Protocol. LACP is used for the collective handling of multiple physical ports that can be seen as a single channel for network traffic purposes.Striping profile. TheGRE Striping IPvalue must be an IPv4 address owned by theMobility Masterthat has the specifiedLMS IP. TheGRE Striping IPdoes not belong to any physical or virtual interface on theMobility Master, but theMobility Mastercan transmit or receive packets using this IP.

TheLMSLocal Management Switch. In multi-controller networks, each controller acts as an LMS and terminates user traffic from the APs, processes, and forwards the traffic to the wired network.IP address defined in the APLACPLink Aggregation Control Protocol. LACP is used for the collective handling of multiple physical ports that can be seen as a single channel for network traffic purposes.profile or ap-lacp-striping commandmustbe the sameLMSLocal Management Switch. In multi-controller networks, each controller acts as an LMS and terminates user traffic from the APs, processes, and forwards the traffic to the wired network.IP address defined in the device's AP system profile. TheLMSLocal Management Switch. In multi-controller networks, each controller acts as an LMS and terminates user traffic from the APs, processes, and forwards the traffic to the wired network.IP address in the device's AP system profile is used as a key to look up entries in the ap-lacp profile on thecontrollersto which an AP can connect.

下面的过程介绍如何配置theLACPLink Aggregation Control Protocol. LACP is used for the collective handling of multiple physical ports that can be seen as a single channel for network traffic purposes.parameters in the AP System profile and APLACPLink Aggregation Control Protocol. LACP is used for the collective handling of multiple physical ports that can be seen as a single channel for network traffic purposes.LMSLocal Management Switch. In multi-controller networks, each controller acts as an LMS and terminates user traffic from the APs, processes, and forwards the traffic to the wired network.map information profile.

OnMobility Master:

1.In theMobility Masternode hierarchy, select the device.

2.Navigate toConfiguration > System.

3.SelectProfilesand expand theAPprofiles menu.

4.Select theAP LACP LMS map informationprofile.

5.Select theAP LACP Striping IPcheck box to enable theAP LACP striping IPfeature.

6.Enter aGREGeneric Routing Encapsulation. GRE is an IP encapsulation protocol that is used to transport packets over a network.striping IP address in theIPfield. This IP address must be a in the device'ssubnetSubnet is the logical division of an IP network..

7.In theLMSLocal Management Switch. In multi-controller networks, each controller acts as an LMS and terminates user traffic from the APs, processes, and forwards the traffic to the wired network.field, enter theLMSLocal Management Switch. In multi-controller networks, each controller acts as an LMS and terminates user traffic from the APs, processes, and forwards the traffic to the wired network.IP address specified in the device's AP system profile in theLMSfield. ThisLMSLocal Management Switch. In multi-controller networks, each controller acts as an LMS and terminates user traffic from the APs, processes, and forwards the traffic to the wired network.IP addressmustmatch theLMSLocal Management Switch. In multi-controller networks, each controller acts as an LMS and terminates user traffic from the APs, processes, and forwards the traffic to the wired network.IP address inMobility Master's AP system profile.

8.ClickPending Changesand save your settings.

9.(Optional) Repeat these settings to configureLACPLink Aggregation Control Protocol. LACP is used for the collective handling of multiple physical ports that can be seen as a single channel for network traffic purposes.on a backupMobility Master.

On an L2-connected High Availability (HA) standby or HA+VRRPcontroller:

1.In theManaged Networknode hierarchy, navigate toConfiguration > System.

2.SelectProfilesand expand theAPprofiles menu.

3.Select theAP LACP LMS map informationprofile.

4.Select theAP LACP Striping IPcheck box to enable theAP LACP striping IPfeature.

5.Click+.

6.Enter aGREGeneric Routing Encapsulation. GRE is an IP encapsulation protocol that is used to transport packets over a network.striping IP address in theIPfield. This IP address must be in themanaged device'ssubnetSubnet is the logical division of an IP network..

7.In theLMSfield, enter theLMSLocal Management Switch. In multi-controller networks, each controller acts as an LMS and terminates user traffic from the APs, processes, and forwards the traffic to the wired network.IP address specified in the device's AP system profile. ThisLMSLocal Management Switch. In multi-controller networks, each controller acts as an LMS and terminates user traffic from the APs, processes, and forwards the traffic to the wired network.IP address must exactly match theLMSLocal Management Switch. In multi-controller networks, each controller acts as an LMS and terminates user traffic from the APs, processes, and forwards the traffic to the wired network.IP address in the AP system profile configuration used by the device.

8.ClickOK.

9.ClickPending Changesand save your settings.

On an L3-connected High Availability (HA) standbycontroller, or an L2- or L3-connectedcontrollerin dual-HA mode:

When using high availability between two L3-connectedcontrollersor two dual-mode HAcontrollers, you must definetwodifferent striping IPs (one in eachcontrollersubnetSubnet is the logical division of an IP network.) to ensure that both the controllers will have striping IPs mapped to their correspondingLMSLocal Management Switch. In multi-controller networks, each controller acts as an LMS and terminates user traffic from the APs, processes, and forwards the traffic to the wired network.IP address.

When twocontrollersare both deployed in dual HA mode, each dual-modecontrolleracts as standby for the APs served by the other dual-modecontroller. Eachcontrollermust therefore have two striping IPs, one for in eachcontrollersubnetSubnet is the logical division of an IP network.. Two striping IP addresses are required for these topologies, even if the dual-HAcontrollersare located within the samesubnetSubnet is the logical division of an IP network..

1.In theManaged Networknode hierarchy, navigate toConfiguration > System.

2.SelectProfilesand expand theAPprofiles menu.

3.Select theAP LACP LMS map informationprofile.

4.Select theAP LACP Striping IPcheck box to enable theAP LACP striping IPfeature.

5.Click +.

6.Enter aGREGeneric Routing Encapsulation. GRE is an IP encapsulation protocol that is used to transport packets over a network.striping IP address in theIPfield. This IP address must be in thecontroller'ssubnetSubnet is the logical division of an IP network..

7.In theLMSfield, enter theLMSLocal Management Switch. In multi-controller networks, each controller acts as an LMS and terminates user traffic from the APs, processes, and forwards the traffic to the wired network.IP address specified in the device's AP system profile. ThisLMSLocal Management Switch. In multi-controller networks, each controller acts as an LMS and terminates user traffic from the APs, processes, and forwards the traffic to the wired network.IP address must exactly match theLMSLocal Management Switch. In multi-controller networks, each controller acts as an LMS and terminates user traffic from the APs, processes, and forwards the traffic to the wired network.IP address in the AP system profile configuration used by the device.

8.ClickOK.

9.Click +.

10.Enter aGREGeneric Routing Encapsulation. GRE is an IP encapsulation protocol that is used to transport packets over a network.striping IP address in theIPfield. This IP address must be in thesubnetSubnet is the logical division of an IP network.of the other L3-connected or dual-mode HAcontroller.

11.In theLMSfield, enter theLMSLocal Management Switch. In multi-controller networks, each controller acts as an LMS and terminates user traffic from the APs, processes, and forwards the traffic to the wired network.IP address specified in the device's AP system profile. ThisLMSLocal Management Switch. In multi-controller networks, each controller acts as an LMS and terminates user traffic from the APs, processes, and forwards the traffic to the wired network.IP address must exactly match theLMSLocal Management Switch. In multi-controller networks, each controller acts as an LMS and terminates user traffic from the APs, processes, and forwards the traffic to the wired network.IP address in the AP system profile configuration used by the device.

12.ClickOK.

13.ClickPending Changesand save your settings.

The followingCLICommand-Line Interface. A console interface with a command line shell that allows users to execute text input as commands and convert these commands to appropriate functions.commands configure APLACPLink Aggregation Control Protocol. LACP is used for the collective handling of multiple physical ports that can be seen as a single channel for network traffic purposes.and striping IP on a HA standby or backupLMSLocal Management Switch. In multi-controller networks, each controller acts as an LMS and terminates user traffic from the APs, processes, and forwards the traffic to the wired network.:

OnMobility Master

(host)[node] (config) #ap system-profile LACP

(host)[node] (AP system-profile "LACP") #lms-ip 192.0.2.1

(host)[node] (AP system-profile "LACP") #bkup-lms-ip 192.0.77.1

(host)[node] (AP system-profile "LACP") #exit

(host)[node] (config) #ap-lacp-striping-ip

(host)[node] (AP LACP LMS map information) #striping-ip 192.0.2.2 lms 192.0.2.1

(host)[node] (AP LACP LMS map information) #aplacp-enable

On an L2-connected High Avability (HA)controllerthat does NOT use dual-mode HA:

(bkup-host)[node] (config) #ap-lacp-striping-ip

(bkup-host)[node] (config) (AP LACP LMS map information) #striping-ip

192.0.2.16 lms 192.0.2.1

(bkup-host) [node] (config)(AP LACP LMS map information) #aplacp-enable

On L3-connected High Availability (HA) standbycontrollers, or HAcontrollersin dual HA mode, where each dual-modecontrolleracts as standby for the APs served by the other dual-modecontroller:

(bkup-host)[node] (config) #ap-lacp-striping-ip

(bkup-host)[node] (config) (AP LACP LMS map information) #striping-ip

10.1.1.14 lms 192.0.2.1

(bkup-host)[node] (config) (AP LACP LMS map information) #striping-ip

192.0.2.2 lms 192.0.2.1

(bkup-host) [node] (config)(AP LACP LMS map information) #aplacp-enable

If you are using High Availability between L3-connected or dual-modecontrollers, you must configuretwodifferent striping IPs (one for eachsubnetSubnet is the logical division of an IP network.) to ensure that bothcontrollerswill have striping IPs mapped to the correspondingLMSLocal Management Switch. In multi-controller networks, each controller acts as an LMS and terminates user traffic from the APs, processes, and forwards the traffic to the wired network.IP address.