A WLAN is a data-communications system that flexibly extends the functionality of a wired LAN. A WLAN links two or more computers or devices using spread-spectrum or OFDM (Orthogonal Frequency Division Multiplexing) modulation based technology. WLANs do not require lining up devices for line-of-sight transmission, and are thus, desirable for wireless networking. Roaming users can be handed off from one access point to another, like a cellular phone system. WLANs can therefore be configured around the needs of specific user groups, even when they are not in physical proximity.
WLANs can provide an abundance of services, including data communications (allowing mobile devices to access applications), e-mail, file, and print services or even specialty applications (such as guest access control and asset tracking).
Each WLAN configuration contains encryption, authentication and QoS policies and conditions for user connections. Connected access point radios transmit periodic beacons for each BSS. A beacon advertises the SSID, security requirements, supported data rates of the wireless network to enable clients to locate and connect to the WLAN.
WLANs are mapped to radios on each access point. A WLAN can be advertised from a single access point radio or can span multiple access points and radios. WLAN configurations can be defined to provide service to specific areas of a site. For example, a guest access WLAN may only be mapped to a 2.4 GHz radio in a lobby or conference room providing limited coverage, while a data WLAN is mapped to all 2.4 GHz and 5.0 GHz radios at the branch site to provide complete coverage.
wlan {<WLAN-NAME>|containing <WLAN-NAME>}
wlan {<WLAN-NAME>|containing <WLAN-NAME>}
| wlan <WLAN-NAME> | Configures a new WLAN
Note: The WLAN name
could be a logical representation of its coverage area (for example,
engineering, marketing etc.). The name cannot exceed 32
characters.
|
| containing <WLAN-NAME> | Optional. Configures an existing WLAN‘s settings
|
nx9500-6C8809(config)#wlan wlan1
nx9500-6C8809(config-wlan-wlan1)#?
Wireless LAN Mode commands:
802.11v Configure 802.11v parameters
accounting Configure how accounting records are
created for this wlan
acl Actions taken based on ACL
configuration [ packet drop being one
of them]
answer-broadcast-probes Include this wlan when responding to
probe requests that do not specify an
SSID
assoc-response Association response threshold
association-list Configure the association list for
the wlan
authentication-type The authentication type of this WLAN
bridging-mode Configure how packets to/from this
wlan are bridged
broadcast-dhcp Configure broadcast DHCP packet
handling
broadcast-ssid Advertise the SSID of the WLAN in
beacons
captive-portal-enforcement Enable captive-portal enforcement on
the wlan
client-access Enable client-access (normal data
operations) on this wlan
client-client-communication Allow switching of frames from one
wireless client to another on this
wlan
client-load-balancing Configure load balancing of clients
on this wlan
controller-assisted-mobility Enable controller assisted mobility
to determine wireless clients' VLAN
assignment
data-rates Specify the 802.11 rates to be
supported on this wlan
description Configure a description of the usage
of this wlan
downstream-group-addressed-forwarding Enable downstream group addressed
forwarding of packets
dpi Deep-Packet-Inspection (Application
Assurance)
dynamic-vlan-assignment Dynamic VLAN assignment configuration
eap-types Configure client access based on
eap-type used for authentication
encryption-type Configure the encryption to use on
this wlan
enforce-dhcp Drop packets from Wireless Clients
with static IP address
fast-bss-transition Configure support for 802.11r Fast
BSS Transition
http-analyze Enable HTTP URL analysis on the wlan
ip Internet Protocol (IP)
ipv6 Internet Protocol version 6 (IPv6)
kerberos Configure kerberos authentication
parameters
mac-authentication Configure mac-authentication related
parameters
multi-band-operation Configure support for Agile Multiband
no Negate a command or set its defaults
nsight Nsight Server
opendns OpenDNS related config for this wlan
protected-mgmt-frames Protected Management Frames (IEEE
802.11w) related configuration
proxy-arp-mode Configure handling of ARP requests
with proxy-arp is enabled
proxy-nd-mode Configure handling of IPv6 ND
requests with proxy-nd is enabled
qos-map Support the 802.11u QoS map element
and frame
radio-resource-measurement Configure support for 802.11k Radio
Resource Measurement
radius Configure RADIUS related parameters
registration Enable dynamic registration of device
(or) user
relay-agent Configure dhcp relay agent info
shutdown Shutdown this wlan
ssid Configure the Service Set Identifier
for this WLAN
t5-client-isolation Isolate traffic among clients
t5-security Configure encryption and
authentication
time-based-access Configure client access based on time
use Set setting to use
vlan Configure the vlan where traffic from
this wlan is mapped
vlan-pool-member Add a member vlan to the pool of
vlans for the wlan (Note:
configuration of a vlan-pool
overrides the 'vlan' configuration)
wep128 Configure WEP128 parameters
wep64 Configure WEP64 parameters
wing-extensions Enable support for WiNG-Specific
extensions to 802.11
wireless-client Configure wireless-client specific
parameters
wpa-wpa2 Modify tkip-ccmp (wpa/wpa2) related
parameters
clrscr Clears the display screen
commit Commit all changes made in this
session
do Run commands from Exec mode
end End current mode and change to EXEC
mode
exit End current mode and down to previous
mode
help Description of the interactive help
system
revert Revert changes
service Service Commands
show Show running system information
write Write running configuration to memory
or terminal
nx9500-6C8809(config-wlan-wlan1)#
The following example shows how to use the ‘containing‘ keyword to enter the configuration mode of an existing WLAN:
nx9500-6C8809(config)#wlan containing wlan1 nx9500-6C8809(config-wlan-{'containing': 'wlan1'})#
| no | Removes an existing WLAN from the system |