override-wlan
Configures RF Domain level overrides
for a WLAN
Supported on the following devices:
- Access Points: AP5010, AP310i/e, AP410i/e, AP505i, AP510i, AP510e, AP560i, AP6522, AP6562, AP7161, AP7502,
AP7522, AP7532, AP7562, AP7602, AP7612, AP7622, AP763, AP7662, AP8163, AP8543,
AP8533.
- Service Platforms:
NX5500, NX7500, NX9500, NX9600
- Virtual Platforms: CX9000, VX9000
Syntax
override-wlan <WLAN-NAME> [shutdown|ssid|template|vlan-pool|wep128|wpa-wpa2-psk]
override-wlan <WLAN-NAME> [shutdown|ssid <SSID>|template <TEMPLATE-NAME>|vlan-pool
<1-4094> {limit <0-8192>}]
override-wlan <WLAN-NAME> wpa-wpa2-psk [0 <WORD>|2 <WORD>]
override-wlan <WLAN-NAME> wep128 [key <1-4> hex [0 <WORD>|2 <WORD>]|transmit-key <1-4>]
Parameters
override-wlan <WLAN-NAME> [shutdown|ssid <SSID>|template <TEMPLATE-NAME>|vlan-pool
<1-4094> {limit <0-8192>}]
| <WLAN-NAME> |
Configures the WLAN name. If applying RF Domain level overrides to an
existing WLAN, specify its name. If creating a new WLAN, specify a name not
exceeding 32 characters and representing the WLAN‘s coverage area. |
| shutdown |
Shuts down WLAN operation on all mapped radios |
|
ssid <SSID>
|
Configures a override SSID associated with this WLAN
- <SSID> – Specify
the SSID (should not exceed 32 characters in length).
Each WLAN provides associated wireless clients with a SSID. This has
limitations, because it requires wireless clients to associate with
different SSIDs to obtain QoS and security policies. However, a WiNG-managed RF Domain can
have WLANs assigned and advertise a single SSID, and yet allow users to
inherit different QoS or security policies.
|
| template <TEMPLATE-NAME> |
Configures a template name for this RF Domain
- <TEMPLATE-NAME>
– Specify the template name (should not exceed 32 characters in
length).
|
| vlan-pool <1-4094> {limit <0-8192>} |
Configures the override VLANs available to this WLAN
- <1-4094> –
Specify the VLAN ID from 1 - 4094.
- limit
<0-8192> – Optional. Sets a limit to the number of users
on this VLAN from 0 - 8192. The default is 0.
Controllers and service platforms, and virtual platforms
allow the mapping of a WLAN to more than one VLAN. Wireless clients
associating with a WLAN are assigned VLANs, from the pool representative
of the WLAN, in a way that ensures proper load balancing across VLANs.
Clients are tracked per VLAN, and assigned to the least used/loaded VLAN.
Client VLAN usage is tracked on a per-WLAN basis. The maximum allowed
client limit is 8192 per VLAN.
|
override-wlan <WLAN-NAME> wpa-wpa2-psk [0 <WORD>|2 <WORD>]
| <WLAN-NAME> |
Configures the WLAN name. If applying RF Domain level overrides to an
existing WLAN, specify its name. If creating a new WLAN, specify a name not
exceeding 32 characters and representing the WLAN‘s coverage area. After
creating the WLAN, configure its override parameters. |
| wpa-wpa2-psk <PASSPHRASE> |
Overrides a WLAN‘s existing WPA-WPA2 pre-shared key or passphrase at the
RF Domain level. WPA2 is a newer 802.11i standard that provides wireless
security that is stronger than Wi-Fi Protected Access (WPA) and
WEP.
- <PASSPHRASE> –
Specify a WPA-WPA2 key or passphrase. It is an alphanumeric string of
8 to 64 ASCII characters or 64 HEX characters as the primary string,
which both the transmitting and receiving authenticators must share in
this new override PSK. The alphanumeric string allows character
spaces. The string is converted to a numeric value. This passphrase
saves the you the necessity of entering the 256-bit key each time keys
are generated.
|
override-wlan <WLAN-NAME> wep128 [key <1-4> hex [0 <WORD>|2 <WORD>]|transmit-key <1-4>]
| <WLAN-NAME> |
Configures the WLAN name. If applying RF Domain level overrides to an
existing WLAN, specify its name. If creating a new WLAN, specify a name not
exceeding 32 characters and representing the WLAN‘s coverage area. After
creating the WLAN, configure its override parameters. |
| wep128 |
Overrides a WLAN‘s existing WEP128 keys at the RF Domain level (not the
profile level). WEP128 uses a 104 bit key, which is concatenated with a
24-bit initialization vector (IV) to form the RC4 traffic key. WEP
may be all a small-business user needs for the simple encryption of wireless
data on the WLAN. However, networks that require more security are at risk
from a WEP flaw. WEP is only recommended if there are client devices
incapable of using higher forms of security. The existing 802.11 standard
alone offers administrators no effective method to update keys. |
| key <1-4> hex [0 <WORD>| 2 <WORD>] |
Configures the WEP128 key. A total of four keys can be configured.
- <1-4> – Select the key index from 1- 4.
- hex – Configures a hexadecimal key
- <WORD> – Specify the WEP128/Keyguard key (should not
exceed 26 hexadecimal characters in length).
|
| transmit-key <1-4> |
Configures transmit WEP/Keyguard key settings
- <1-4> – Transmit the key identified by the key index specified
here. Specify the index from 1 - 4.
|
Examples
nx9500-6C8809(config-rf-domain-default)#override-wlan test vlan-pool 2 limit 20
nx9500-6C8809(config-rf-domain-default)#show context
rf-domain default
contact Bob+14082778691
country-code us
override-smartrf channel-list 2.4GHz 1,2,3
override-wlan test vlan-pool 2 limit 20
layout area Ecospace floor Floor1 map-location www.firstfloor.com units meters
nx9500-6C8809(config-rf-domain-default)#
