You are here: Home > CLI Commands > Just_CLI_Topics > show ap debug lacp

show ap debug lacp

show ap debug lacp {ap-name <ap-name>|bssid <bssid>|ip-addr <ip-addr>|ip6-addre<ipv6-addr>}

Description

Displays the number of GREGeneric Routing Encapsulation. GRE is an IP encapsulation protocol that is used to transport packets over a network. packets sent and received on the two EthernetEthernet is a network protocol for data transmission over LAN. ports.

Syntax

Parameter

Description

ap-name <ap-name>

Show LACPLink 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. information for an AP with a specific name.

bssid <bssid>

Show LACPLink 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. information for a specific Basic Service Set Identifier (BSSIDBasic Service Set Identifier. The BSSID identifies a particular BSS within an area. In infrastructure BSS networks, the BSSID is the MAC address of the AP. In independent BSS or ad hoc networks, the BSSID is generated randomly.). The Basic Service Set Identifier (BSSIDBasic Service Set Identifier. The BSSID identifies a particular BSS within an area. In infrastructure BSS networks, the BSSID is the MAC address of the AP. In independent BSS or ad hoc networks, the BSSID is generated randomly.) is usually the AP’s MACMedia Access Control. A MAC address is a unique identifier assigned to network interfaces for communications on a network. address.

ip-addr <ip-addr>

Show LACPLink 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. information for an AP with a specific IPv4 address.

ip6-addr <ipv6-addr>

Show LACPLink 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. information for an AP with a specific IPv6 address.

Usage Guidelines

Use this command to know if LACPLink 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. is active on an AP from the number of GREGeneric Routing Encapsulation. GRE is an IP encapsulation protocol that is used to transport packets over a network. packets sent and received on the two EthernetEthernet is a network protocol for data transmission over LAN. ports. If a GREGeneric Routing Encapsulation. GRE is an IP encapsulation protocol that is used to transport packets over a network. striping IP address is configured in the ap-lacp-striping-ap profile, the output of this command displays the GREGeneric Routing Encapsulation. GRE is an IP encapsulation protocol that is used to transport packets over a network. striping IP address.

Example 1

The following example displays that the wireless GREGeneric Routing Encapsulation. GRE is an IP encapsulation protocol that is used to transport packets over a network. packets are being sent and received on different wired ports of the AP for the 5GHz and 2.4GHz bandsBand refers to a specified range of frequencies of electromagnetic radiation., and is only applicable to 220 Series and 270 Series. It also shows that the interfaces eth0 and eth1 are part of the link aggregation group (LAGLink Aggregation Group . A LAG combines a number of physical ports together to make a single high-bandwidth data path. LAGs can connect two switches to provide a higher-bandwidth connection to a public network. ):

 

AP LACP GRE Striping IP: 10.65.30.50

AP LACP Status

--------------

Link Status LACP Rate Num Ports Actor Key Partner Key Partner MAC

----------- --------- --------- --------- ----------- -----------

Up slow 2 17 2 00:0b:86:61:7a:58

Slave Interface Status

----------------------

Slave I/f Name Permanent MAC Addr Link Status Member of LAG Link Fail Count

-------------- ------------------ ----------- ------------- ---------------

eth0 6c:f3:7f:c6:72:82 Up Yes 0

eth1 6c:f3:7f:c6:72:83 Up Yes 1

GRE Radio Traffic Received on Enet Ports

----------------------------------------

Radio Num Enet 0 Rx Count Enet 1 Rx Count

--------- --------------- ---------------

0 5048 0

1 0 23

Traffic Sent on Enet Ports

--------------------------

Radio Num Enet 0 Tx Count Enet 1 Tx Count

--------- --------------- ---------------

0 65 3466

1 64 0

non-wifi 2 50

The following example is only applicable to 320 Series:

#show ap debug lacp ap-name ap325 verbose

AP LACP GRE Striping IP: 10.3.44.34

AP LACP Status

--------------

Link Status LACP Rate Num Ports Actor Key Partner Key Partner MAC

----------- --------- --------- --------- ----------- -----------

Up slow 2 17 4 00:1a:1e:0f:b4:80

Slave Interface Status

----------------------

Slave I/f Name Permanent MAC Addr Link Status Member of LAG Link Fail Count

-------------- ------------------ ----------- ------------- ---------------

eth0 ac:a3:1e:cd:35:ce Up Yes 1

eth1 ac:a3:1e:cd:35:cf Up Yes 1

GRE Traffic Received on Enet Ports

----------------------------------

Radio Num Enet 0 Rx Count Enet 1 Rx Count

--------- --------------- ---------------

0 23785 22083

1 0 0

non-wifi 15684 3

Traffic Sent on Enet Ports

--------------------------

Radio Num Enet 0 Tx Count Enet 1 Tx Count

--------- --------------- ---------------

0 8166 307

1 0 0

non-wifi 32326 7

Link Aggregation destination list

---------------------------------

[ 0] 00:1A:1E:01:4F:28 Tx: 6008

[ 1] 24:77:03:F4:82:B4 Tx: 28

[ 2] 78:31:C1:BC:D6:12 Tx: 26

[ 3] F0:1F:AF:69:51:9E Tx: 229

Total: 4

Odd numbered entries use striping GRE tunnel.

Total tunnel mode AMSDU Tx: 99

Link Aggregation station packet re-ordering statistics

------------------------------------------------------

3C:A9:F4:24:B2:54: exp-seq 21; eap 0 zero 0; rx 20 tx 20 drop 0 max_hold 0 skip 0 old-seq 0(last-seq# 0); window: resets 0 pkts 0; Timer: start 0 stop 0 run 0 more 0

78:31:C1:BC:D6:12: exp-seq 223; eap 0 zero 0; rx 222 tx 222 drop 0 max_hold 0 skip 0 old-seq 0(last-seq# 0); window: resets 0 pkts 0; Timer: start 0 stop 0 run 0 more 0

Command HistoryCommand History

Command

Description

ArubaOS 8.0.0.0

Command introduced.

Command Information

Platforms

Licensing

Command Mode

All platforms

Base operating system.

Enable or Config mode on Mobility Master.

/*]]>*/