| Download: |  |
| Mirror Download [FCC.gov] | |
| Document ID | 3831162 |
| Application ID | 1vEiqYghBbOtWV0jNCvQWg== |
| Document Description | WiNG 5.9.1 CLI Reference Guide Part 2 |
| Short Term Confidential | No |
| Permanent Confidential | No |
| Supercede | No |
| Document Type | User Manual |
| Display Format | Adobe Acrobat PDF - pdf |
| Filesize | 428.67kB (5358353 bits) |
| Date Submitted | 2018-04-27 00:00:00 |
| Date Available | 2017-11-30 00:00:00 |
| Creation Date | 2018-04-26 17:58:46 |
| Producing Software | Acrobat Distiller 17.0 (Windows) |
| Document Lastmod | 2018-04-26 17:58:48 |
| Document Title | WiNG_5_9_1_WC_CLI.book |
| Document Creator | FrameMaker 2017 |
| Document Author: | Extreme Networks Inc. |
PROFILES
7.1.36.3.2 description
interface-config-vlan-instance
Defines this VLAN interface’s description. Use this command to provide additional information about the
VLAN.
Supported in the following platforms:
•
•
•
Access Points — AP6521, AP6522, AP6532, AP6562, AP7161, AP7502, AP7522, AP7532, AP7562,
AP7602, AP7612, AP7622, AP7632, AP7662, AP81XX, AP8232, AP8432, AP8533
Wireless Controllers — RFS4000, RFS6000
Service Platforms — NX5500, NX7500, NX7510, NX7520, NX7530, NX9500, NX9510, NX9600,
VX9000
Syntax
description
Parameters
• description
description
Configures a description for this VLAN interface (should not exceed 64 characters in
length)
• – Specify a description unique to the VLAN’s specific configuration, to help
differentiate it from other VLANs with similar configurations.
Example
rfs6000-37FABE(config-profile-default-rfs6000-if-vlan8)#description “This VLAN
interface is configured for the Sales Team”
rfs6000-37FABE(config-profile-default-rfs6000-if-vlan8)#show context
interface vlan8
description "This VLAN interface is configured for the Sales Team"
crypto map map1
rfs6000-37FABE(config-profile-default-rfs6000-if-vlan8)#
Related Commands
no
Removes the VLAN interface description
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7.1.36.3.3 dhcp
interface-config-vlan-instance
Enables inclusion of optional fields (client identifier) in DHCP client requests. This option is disabled by
default.
Supported in the following platforms:
•
•
•
Access Points — AP6521, AP6522, AP6532, AP6562, AP7161, AP7502, AP7522, AP7532, AP7562,
AP7602, AP7612, AP7622, AP7632, AP7662, AP81XX, AP8232, AP8432, AP8533
Wireless Controllers — RFS4000, RFS6000
Service Platforms — NX5500, NX7500, NX7510, NX7520, NX7530, NX9500, NX9510, NX9600,
VX9000
Syntax
dhcp client include client-identifier
Parameters
• dhcp client include client-identifier
dhcp client include
client-identifier
Enables inclusion of client identifier in DHCP client requests
Example
rfs6000-37FABE(config-profile-default-rfs6000-if-vlan8)#dhcp client include
client-identifier
rfs6000-37FABE(config-profile-default-rfs6000-if-vlan8)#show context
interface vlan8
dhcp client include client-identifier
rfs6000-37FABE(config-profile-default-rfs6000-if-vlan8)#
Related Commands
no
Disables inclusion of client identifier in DHCP client requests
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7.1.36.3.4 dhcp-relay-incoming
interface-config-vlan-instance
Allows an onboard DHCP server to respond to relayed DHCP packets. This option is disabled by default.
Supported in the following platforms:
•
•
•
Access Points — AP6521, AP6522, AP6532, AP6562, AP7161, AP7502, AP7522, AP7532, AP7562,
AP7602, AP7612, AP7622, AP7632, AP7662, AP81XX, AP8232, AP8432, AP8533
Wireless Controllers — RFS4000, RFS6000
Service Platforms — NX5500, NX7500, NX7510, NX7520, NX7530, NX9500, NX9510, NX9600,
VX9000
Syntax
dhcp-relay-incoming
Parameters
None
Example
rfs6000-37FABE(config-profile-default-rfs6000-if-vlan8)#dhcp-relay-incoming
rfs6000-37FABE(config-profile-default-rfs6000-if-vlan8)#show context
interface vlan8
description "This VLAN interface is configured for the Sales Team"
crypto map map1
dhcp-relay-incoming
rfs6000-37FABE(config-profile-default-rfs6000-if-vlan8)#
Related Commands
no
Disables or reverts interface VLAN settings to their default
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7.1.36.3.5 ip
interface-config-vlan-instance
Configures the VLAN interface’s IP settings
Supported in the following platforms:
•
•
•
Access Points — AP6521, AP6522, AP6532, AP6562, AP7161, AP7502, AP7522, AP7532, AP7562,
AP7602, AP7612, AP7622, AP7632, AP7662, AP81XX, AP8232, AP8432, AP8533
Wireless Controllers — RFS4000, RFS6000
Service Platforms — NX5500, NX7500, NX7510, NX7520, NX7530, NX9500, NX9510, NX9600,
VX9000
Syntax
ip [address|dhcp|helper-address|nat|ospf]
ip helper-address
ip address [||dhcp|zeroconf]
ip address [||zeroconf] {secondary}
ip address dhcp
ip dhcp client request options all
ip nat [inside|outside]
ip ospf [authentication|authentication-key|bandwidth|cost|message-digest-key|
priority]
ip
ip
ip
ip
ospf
ospf
ospf
ospf
authentication [message-digest|null|simple-password]
authentication-key simple-password [0 |2 ]
[bandwidth <1-10000000>|cost <1-65535>|priority <0-255>]
message-digest-key key-id <1-255> md5 [0 |2 ]
Parameters
• ip helper-address
helper-address
Enables DHCP and BOOTP requests forwarding for a set of clients. Configure a helper
address on the VLAN interface connected to the client. The helper address should
specify the address of the BOOTP or DHCP servers to receive the requests. If you
have multiple servers, configure one helper address for each server.
• – Specify the IP address of the DHCP or BOOTP server.
• ip address [||zeroconf] {secondary}
address
Sets the VLAN interface’s IP address
Specifies the interface IP address in the A.B.C.D/M format
• secondary – Optional. Sets the specified IP address as a secondary address
Uses a pre-defined network alias to provide this VLAN interface’s IP address. Specify
the network alias name.
• secondary – Optional. Sets the network-alias provided IP address as the secondary
address
zeroconf {secondary} Uses Zero Configuration Networking (zeroconf) to generate an IP address for this
interface
Contd..
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�PROFILES
Zero configuration can be a means of providing a primary or secondary IP addresses
for the virtual interface. Zero configuration (or zero config) is a wireless connection
utility included with Microsoft Windows XP and later as a service dynamically
selecting a network to connect based on a user's preferences and various default
settings. Zero config can be used instead of a wireless network utility from the
manufacturer of a computer's wireless networking device.
• secondary – Optional. Sets the generated IP address as a secondary address
• ip address dhcp
address
Sets the VLAN interface’s IP address
dhcp
Uses a DHCP client to obtain an IP address for this VLAN interface
• ip dhcp client request options all
dhcp
Uses a DHCP client to configure a request on this VLAN interface
client
Configures a DHCP client
request
Configures DHCP client request
options
Configures DHCP client request options
all
Configures all DHCP client request options
• ip nat [inside|outside]
nat [inside|outside]
Defines NAT settings for the VLAN interface. NAT is disabled by default.
• inside – Enables NAT on the inside interface. The inside network is transmitting data
over the network to the intended destination. On the way out, the source IP address
is changed in the header and replaced by the (public) IP address.
• outside – Enables NAT on the outside interface. Packets passing through the NAT on
the way back to the managed LAN are searched against the records kept by the NAT
engine. There, the destination IP address is changed back to the specific internal
private class IP address in order to reach the LAN over the network.
• ip ospf authentication [message-digest|null|simple-password]
ospf authentication
Configures OSPF authentication scheme. Options are message-digest, null, and
simple-password.
message-digest
Configures md5 based authentication
null
No authentication required
simple-password
Configures simple password based authentication
• ip ospf authentication-key simple-password [0 |2 ]
ospf authenticationkey
Configures an OSPF authentication key
simple-password
[0 |2
]
Configures a simple password OSPF authentication key
• 0 – Configures clear text key
• 2 – Configures encrypted key
• ip ospf [bandwidth <1-10000000>|cost <1-65535>|priority <0-255>]
bandwidth
<1-10000000>
Configures bandwidth for the physical port mapped to this layer 3 interface
• <1-10000000> – Specify the bandwidth from 1 - 10000000.
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cost <1-65535>
Configures OSPF cost
• <1-65535> – Specify OSPF cost value from 1 - 65535.
priority <0-255>
Configures OSPF priority
• <0-255> – Specify OSPF priority value from 0 - 255.
• ip ospf message-digest-key key-id <1-255> md5 [0 |2 ]
ospf message-digest
Configures message digest authentication parameters
key-id <1-255>
Configures message digest authentication key ID from 0 - 255
md5
[0 |2
]
Configures md5 key
• 0 – Configures clear text key
• 2 – Configures encrypted key
Example
rfs6000-37FABE(config-profile-default-rfs6000-if-vlan8)#ip address 10.0.0.1/8
rfs6000-37FABE(config-profile-default-rfs6000-if-vlan8)#ip nat inside
rfs6000-37FABE(config-profile-default-rfs6000-if-vlan8)#ip helper-address
172.16.10.3
rfs6000-37FABE(config-profile-default-rfs6000-if-vlan8)#ip dhcp client request
options all
rfs6000-37FABE(config-profile-default-rfs6000-if-vlan8)#show context
interface vlan8
description "This VLAN interface is configured for the Sales Team"
ip address 10.0.0.1/8
ip dhcp client request options all
ip helper-address 172.16.10.3
ip nat inside
crypto map map1
dhcp-relay-incoming
rfs6000-37FABE(config-profile-default-rfs6000-if-vlan8)#
Related Commands
no
Removes or resets IP settings on this interface
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7.1.36.3.6 ipv6
interface-config-vlan-instance
Configures the VLAN interface’s IPv6 settings
Supported in the following platforms:
•
•
•
Access Points — AP6521, AP6522, AP6532, AP6562, AP7161, AP7502, AP7522, AP7532, AP7562,
AP7602, AP7612, AP7622, AP7632, AP7662, AP81XX, AP8232, AP8432, AP8533
Wireless Controllers — RFS4000, RFS6000
Service Platforms — NX5500, NX7500, NX7510, NX7520, NX7530, NX9500, NX9510, NX9600,
VX9000
Syntax
ipv6 [accept|address|dhcp|enable|enforce-dad|mtu|redirects|request-dhcpv6options|router-advertisements]
ipv6 accept ra {(no-default-router|no-hop-limit|no-mtu)}
ipv6 address [|autoconfig|eui-64|link-local|prefix-from-provider]
ipv6 address
ipv6 address
LENGTH>]
ipv6 address
ipv6 address
[|autoconfig]
eui-64 [|prefix-from-provider
link-local
ipv6 dhcp [client [information|prefix-from-provider ]|relay destination
]
ipv6 [enable|enforce-dad|mtu <1280-1500>|redirects|request-dhcpv6-options]
ipv6 router-advertisements [prefix |prefix-from-provider ] {noautoconfig|off-link|site-prefix|valid-lifetime}
Parameters
• ipv6 accept ra {(no-default-router|no-hop-limit|no-mtu)}
ipv6 accept ra
Enables processing of router advertisements (RAs) on this VLAN interface. This
option is enabled by default.
When enabled, IPv6 hosts can configure themselves automatically when connected
to an IPv6 network using the neighbor discovery protocol via ICMPv6 router
discovery messages. When first connected to a network, a host sends a link-local
router solicitation multicast request for its configuration parameters; routers respond
to the request with a router advertisement packet containing Internet layer
configuration parameters.
no-default-router
Optional. Disables inclusion of routers on this interface in the default router selection
process. This option is disabled by default.
no-hop-limit
Optional. Disables the use of RA advertised hop-count value on this interface. This
option is disabled by default.
no-mtu
Optional. Disables the use of RA advertised MTU value on this interface. This option is
disabled by default.
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• ipv6 address [|autoconfig]
ipv6 address
Configures IPv6 address related settings on this VLAN interface
[|autoconfig] • – Specify the non-link local static IPv6 address and prefix length of the
interface in the X:X::X:X/M format.
• autoconfig – Enables stateless auto-configuration of IPv6 address, based on the
prefixes received from RAs (with auto-config flag set). These prefixes are used to
auto-configure the IPv6 address. This option is enabled by default. Use the no > ipv6
> address > autoconfig command to negate the use of prefixes received in RAs.
• ipv6 address eui-64 [|prefix-from-provider ]
ipv6 address eui-64
Configures the IPv6 prefix and prefix length. This prefix is used to auto-generate the
static IPv6 address (for this interface) in the modified Extended Unique Identifier
(EUI)-64 format.
Implementing the IEEE's 64-bit EUI64 format enables a host to automatically assign
itself a unique 64-bit IPv6 interface identifier, without manual configuration or DHCP.
This is accomplished on a virtual interface by referencing the already unique 48-bit
MAC address, and reformatting it to match the EUI-64 specification.
In the EUI-64 IPv6 address the prefix and host portions are each 64 bits in length.
Specify the IPv6 prefix and prefix length. This configured value is used as the prefix
portion of the auto-generated IPv6 address, and the host portion is derived from the
MAC address of the interface.
Any bits of the configured value exceeding the prefix-length “M” are ignored and
replaced by the host portion derived from the MAC address.
For example:
Prefix portion provided using this command: ipv6 > address > eui-64 >
2004:b055:15:dead::1111/64.
Host portion derived using the interface’s MAC address (00-15-70-37-FB-5E):
215:70ff:fe37:fb5e
Auto-configured IPv6 address using the above prefix and host portions:
2004:b055:15:dead:215:70ff:fe37:fb5e/64
In this example, the host part “::1111” is ignored and replaced with the modified eui-64
formatted host address.
prefix-from-provider
Configures the “prefix-from-provider” named object and the associated IPv6 prefix
and prefix length. This configured value is used as the prefix portion of the autogenerated IPv6 address, and the host portion is derived from the MAC address of
the interface.
• – Specify the IPv6 “prefix-from-provider” object’s name. This is the IPv6
general prefix (32 character maximum) name provided by the Internet service
provider.
Contd..
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• – Specify the IPv6 address subnet and host parts
along with prefix length (site-renumbering).
For example:
Prefix portion provided using this command: ipv6 > address > eui-64 > prefix-fromprovider > ISP1-prefix > 2002::/64
Host portion derived using the interface’s MAC address (00-15-70-37-FB-5E):
215:70ff:fe37:fb5e
Auto-configured IPv6 address using the above prefix and host portions:
2002::215:70ff:fe37:fb5e/64
• ipv6 address prefix-from-provider ]
ipv6 address
Configures the IPv6 address related settings on this VLAN interface
prefix-from-provider
Configures the “prefix-from-provider” named object and the host portion of the IPv6
interface address. The prefix derived from the specified “prefix-from-provide” and
the host portion (second parameter) are combined together (using the prefix-length
of the specified “prefix-from-provide”) to generate the interface’s IPv6 address.
• – Provide the “prefix-from-provider” object’s name. This is the IPv6 general
prefix (32 character maximum) name provided by the service provider.
• – Provide the subnet number, host portion, and prefix
length used to form the actual address along with the prefix derived from the
“prefix-from-provider” object identified by the keyword.
• ipv6 address link-local
ipv6 address
Configures the IPv6 address related settings on this VLAN interface
link-local
Configures IPv6 link-local address on this interface. The configured value overrides
the default link-local address derived from the interface’s MAC address. Use the no >
ipv6 > link-local command to restore the default link-local address derived from MAC
address.
It is mandatory for an IPv6 interface to always have a link-local address.
• ipv6 dhcp [client [information|prefix-from-provider ]|relay destination
]
ipv6 dhcp client
[information|
prefix-from-provider
]
Configures DHCPv6 client-related settings on this VLAN interface
• information – Configures stateless DHCPv6 client on this interface. When enabled.
the device can request configuration information from the DHCPv6 server using
stateless DHCPv6. This option is disabled by default.
• prefix-from-provider – Configures prefix-delegation client on this interface. Enter the
IPv6 general prefix (32 character maximum) name provided by the service provider.
This option is disabled by default.
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relay destination
Enables DHCPv6 packet forwarding on this VLAN interface
• destination – Forwards DHCPv6 packets to a specified DHCPv6 relay
• – Specify the destination DHCPv6 relay’s address.
DHCPv6 relay enhances an extended DHCP relay agent by providing support in IPv6.
DHCP relays exchange messages between a DHCPv6 server and client. A client and
relay agent exist on the same link. When a DHCP request is received from the client,
the relay agent creates a relay forward message and sends it to a specified server
address. If no addresses are specified, the relay agent forwards the message to all
DHCP server relay multicast addresses. The server creates a relay reply and sends it
back to the relay agent. The relay agent then sends back the response to the client.
• ipv6 [enable|enforce-dad|mtu <1280-1500>|redirects|request-dhcp-options]
ipv6
Configures IPv6 settings on this VLAN interface
enable
Enables IPv6 on this interface. This option is disabled by default.
enforce-dad
Enforces Duplicate Address Detection (DAD) on wired ports. This option is enabled
by default.
mtu <1280-1500>
Configures the Maximum Transmission Unit (MTU) for IPv6 packets on this interface
• <1280-1500> – Specify a value from 1280 - 1500. The default is 1500.
redirects
Enables ICMPv6 redirect messages sending on this interface. This option is enabled
by default.
request-dhcp-options
Requests options from DHCPv6 server on this interface. This option is disabled by
default.
• ipv6 router-advertisements [prefix |prefix-from-provider ]
{no-autoconfig|off-link|site-prefix |valid-lifetime}
ipv6 routeradvertisements
Configures IPv6 RA related settings on this VLAN interface
prefix
Configures a static prefix and its related parameters. The configured value is
advertised on RAs.
• – Specify the IPv6 prefix.
prefix-from-provider
Configures a static “prefix-from-provider” named object and its related parameters
on this VLAN interface. The configured value is advertised on RAs.
• – Specify the “prefix-from-provider” named object’s name
no-autoconfig
This parameter is common to the “general-prefix”, “prefix”, and “prefix-fromprovider” keywords.
• no-autoconfig – Optional. Disables the setting of the auto configuration flag in the
prefix. When configured, the configured prefixes are not used for IPv6 address
generation. The autoconfiguration option is enabled by default. Using no-autoconfig
disables it.
off-link
This parameter is common to the “general-prefix”, “prefix”, and “prefix-fromprovider” keywords.
• off-link – Optional. Disables the setting of the on-link flag in the prefix. The on-link
option is enabled by default. Using off-link disables it.
site-prefix
This parameter is common to the “general-prefix”, “prefix”, and “prefix-fromprovider” keywords.
• site-prefix – Configures subnet (site) prefix
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valid-lifetime
[<30-4294967294>|
at|infinite]
(preferred-lifetime)
This parameter is common to the “general-prefix”, “prefix”, and “prefix-fromprovider” keywords.
• valid-lifetime – Configures the valid lifetime for the prefix
• preferred-lifetime – Configures preferred lifetime for the prefix
• <30-4294967294> – Configures the valid/preferred lifetime in seconds
• at – Configures expiry time and date of the valid/preferred lifetime
• infinite – Configures the valid/preferred lifetime as infinite
Example
rfs6000-81742D(config-profile-test-if-vlan4)#ipv6 enable
rfs6000-81742D(config-profile-test-if-vlan4)#ipv6 accept ra no-mtu
rfs6000-81742D(config-profile-test-if-vlan4)#ipv6 address eui-64 prefix-fromprovider ISP1-prefix 2002::/64
rfs6000-81742D(config-profile-test-if-vlan4)#show context
interface vlan4
ipv6 enable
ipv6 address eui-64 prefix-from-provider ISP1-prefix 2002::/64
ipv6 accept ra no-mtu
rfs6000-81742D(config-profile-test-if-vlan4)#
Related Commands
no
Removes or resets IPv6 settings on this VLAN interface
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7.1.36.3.7 no
interface-config-vlan-instance
Negates a command or reverts to defaults. The no command, when used in the Config Interface VLAN
mode, negates VLAN interface settings or reverts them to their default.
Supported in the following platforms:
•
•
•
Access Points — AP6521, AP6522, AP6532, AP6562, AP7161, AP7502, AP7522, AP7532, AP7562,
AP7602, AP7612, AP7622, AP7632, AP7662, AP81XX, AP8232, AP8432, AP8533
Wireless Controllers — RFS4000, RFS6000
Service Platforms — NX5500, NX7500, NX7510, NX7520, NX7530, NX9500, NX9510, NX9600,
VX9000
Syntax
no [crypto|description|dhcp|dhcp-relay-incoming|ip|ipv6|shutdown|use]
no dhcp client include client-identifier
no [crypto map|description|dhcp-relay-incoming|shutdown]
no ip [address|dhcp|helper-address|nat|ospf]
no ip [helper-address |nat]
no ip address { {secondary}| {secondary}|dhcp|zeroconf
{secondary}}
no ip dhcp client request options all
no ip ospf [authentication|authentication-key|bandwidth|cost|message-digest-key|
priority]
no ipv6 [accept|address|dhcp|enable|enforce-dad|mtu|redirects|request-dhcpv6options|router-advertisement]
no
no
no
no
ipv6
ipv6
ipv6
ipv6
[accept ra|enable|enforce-dad|mtu|redirects|request-dhcpv6-options]
address [|autoconfig|eui-64|link-local|prefix-from-provider>]
dhcp [client|relay]
router-advertisement [prefix |prefix-from-provider ]
no use [bonjour-gw-discovery-policy>|ip-access-list in|ipv6-access-list in|ipv6router-advertisement-policy|url-filter]
Parameters
• no
no
Removes or reverts this VLAN interface’s settings based on the parameters passed
Example
The following example shows the VLAN interface settings before the ‘no’ commands are executed:
rfs6000-37FABE(config-profile-default-rfs6000-if-vlan8)#show context
interface vlan8
description "This VLAN interface is configured for the Sales Team"
ip address 10.0.0.1/8
ip dhcp client request options all
ip helper-address 172.16.10.3
ip nat inside
crypto map map1
dhcp-relay-incoming
rfs6000-37FABE(config-profile-default-rfs6000-if-vlan8)#
rfs6000-37FABE(config-profile-default-rfs6000-if-vlan8)#no
rfs6000-37FABE(config-profile-default-rfs6000-if-vlan8)#no
rfs6000-37FABE(config-profile-default-rfs6000-if-vlan8)#no
rfs6000-37FABE(config-profile-default-rfs6000-if-vlan8)#no
options all
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The following example shows the VLAN interface settings after the ‘no’ commands are executed:
rfs6000-37FABE(config-profile-default-rfs6000-if-vlan8)#show context
interface vlan8
ip address 10.0.0.1/8
ip helper-address 172.16.10.3
ip nat inside
rfs6000-37FABE(config-profile-default-rfs6000-if-vlan8)#
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7.1.36.3.8 shutdown
interface-config-vlan-instance
Shuts down the selected interface. Use the no shutdown command to enable an interface.
Supported in the following platforms:
•
•
•
Access Points — AP6521, AP6522, AP6532, AP6562, AP7161, AP7502, AP7522, AP7532, AP7562,
AP7602, AP7612, AP7622, AP7632, AP7662, AP81XX, AP8232, AP8432, AP8533
Wireless Controllers — RFS4000, RFS6000
Service Platforms — NX5500, NX7500, NX7510, NX7520, NX7530, NX9500, NX9510, NX9600,
VX9000
Syntax
shutdown
Parameters
None
Example
rfs6000-37FABE(config-profile-default-rfs6000-if-vlan8)#shutdown
rfs6000-37FABE(config-profile-default-rfs6000-if-vlan8)#show context
interface vlan8
ip address 10.0.0.1/8
ip helper-address 172.16.10.3
shutdown
rfs6000-37FABE(config-profile-default-rfs6000-if-vlan8)#
Related Commands
no
Disables or reverts interface VLAN settings to their default
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7.1.36.3.9 use
interface-config-vlan-instance
Associates an IP (IPv4 and IPv6) access list, bonjour-gw-discovery policy, and an IPv6-routeradvertisement policy with this VLAN interface
Supported in the following platforms:
•
•
•
Access Points — AP6521, AP6522, AP6532, AP6562, AP7161, AP7502, AP7522, AP7532, AP7562,
AP7602, AP7612, AP7622, AP7632, AP7662, AP81XX, AP8232, AP8432, AP8533
Wireless Controllers — RFS4000, RFS6000
Service Platforms — NX5500, NX7500, NX7510, NX7520, NX7530, NX9500, NX9510, NX9600,
VX9000
Syntax
use [bonjour-gw-discovery-policy |ip-access-list in |ipv6-access-list in |ipv6-router-advertisement-policy
|url-filter ]
Parameters
• use [bonjour-gw-discovery-policy |ip-access-list in |ipv6-access-list in |ipv6-router-advertisement-policy
|url-filter ]
bonjour-gw-discovery- Uses an existing Bonjour GW Discovery policy with this VLAN interface. When
associated, the Bonjour GW Discovery policy is applied for the Bonjour requests
policy
• – Specify the Bonjour GW Discovery policy name (should be
existing and configured).
For more information on Bonjour GW Discovery policy, see bonjour-gw-discoverypolicy.
ip-access-list in
Uses a specified IPv4 access list with this interface
ipv6-access-list in
Uses a specified IPv6 access list with this interface
ipv6-routeradvertisement-policy
Uses an existing IPv6 router advertisement policy with this VLAN interface.
url-filter
Enforces URL filtering on this VLAN interface by associating a URL filter
• in – Applies IPv4 ACL to incoming packets
• – Specify the IPv4 access list name.
• in – Applies IPv6 ACL to incoming packets
• – Specify the IPv6 access list name.
• – Specify the IPv6 router advertisement policy name (should be
existing and configured).
• – Specify the URL filter name (should be existing and
configured).
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Example
rfs6000-37FABE(config-profile-default-rfs6000-if-vlan8)#use ip-access-list in
test
rfs6000-37FABE(config-profile-default-rfs6000-if-vlan8)#show context
interface vlan8
ip address 10.0.0.1/8
use ip-access-list in test
ip helper-address 172.16.10.3
rfs6000-37FABE(config-profile-default-rfs6000-if-vlan8)#
Related Commands
no
Disables or reverts interface VLAN settings to their default
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7.1.36.4 interface-config-port-channel-instance
interface
Profiles can utilize customized port channel configurations as part of their interface settings. Existing port
channel profile configurations can be overridden as they become obsolete for specific device deployments.
The following example uses the config-profile-testNX9000 instance to configure a port-channel interface:
nx9500-6C8809(config-profile-testNX9000)#interface port-channel 1
nx9500-6C8809(config-profile-testNX9000-if-port-channel1)#
Port Channel Mode commands:
description
Port description
duplex
Set duplex to interface
ip
Internet Protocol (IP)
ipv6
Internet Protocol version 6 (IPv6)
no
Negate a command or set its defaults
port-channel
Portchannel commands
qos
Quality of service
remove-override Remove configuration item override from the device (so
profile value takes effect)
shutdown
Shutdown the selected interface
spanning-tree
Spanning tree commands
speed
Configure speed
switchport
Set switching mode characteristics
use
Set setting to use
clrscr
commit
do
end
exit
help
revert
service
show
write
Clears the display screen
Commit all changes made in this session
Run commands from Exec mode
End current mode and change to EXEC mode
End current mode and down to previous mode
Description of the interactive help system
Revert changes
Service Commands
Show running system information
Write running configuration to memory or terminal
nx9500-6C8809(config-profile-testNX9000-if-port-channel1)#
Commands
Description
Reference
description
Configures a brief description for this port-channel interface
page 7-236
duplex
Configures the duplex-mode (that is the data transmission mode) for
this port-channel interface
page 7-237
ip
Configures ARP and DHCP related security parameters on this portchannel interface
page 7-106
ipv6
Configures IPv6 related parameters on this port-channel interface
page 7-239
no
Removes or reverts to default this port-channel interface’s settings
page 7-242
shutdown
Shutsdown this port-channel interface
page 7-244
spanning-tree
Configures spanning-tree related parameters on this port channel
interface
page 7-245
speed
Configures the speed at which this port-channel interface receives and page 7-248
transmits data
switchport
Configures the packet switching parameters for this port-channel
interface
page 7-249
use
Configures access controls on this port-channel interface
page 7-251
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7.1.36.4.1 description
interface-config-port-channel-instance
Configures a brief description for this port channel interface
Supported in the following platforms:
•
•
Wireless Controllers — RFS4000, RFS6000
Service Platforms — NX5500, NX7500, NX7510, NX7520, NX7530, NX9500, NX9510, NX9600,
VX9000
Syntax
description
Parameters
• description
description
Configures a description for this port-channel interface that uniquely identifies it from
other port channel interfaces
• – Provide a description not exceeding 64 characters in length.
Example
nx9500-6C8809(config-profile-testNX9000-if-port-channel1)#description "This port
-channel is for enabling dynamic LACP."
nx9500-6C8809(config-profile-testNX9000-if-port-channel1)#show context
interface port-channel1
nx9500-6C8809(config-profile-testNX9000-if-port-channel1)#
Related Commands
no
Removes this port-channel interface’s description
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7.1.36.4.2 duplex
interface-config-port-channel-instance
Configures the duplex-mode (that is the data transmission mode) for this port channel interface
Supported in the following platforms:
•
•
Wireless Controllers — RFS4000, RFS6000
Service Platforms — NX5500, NX7500, NX7510, NX7520, NX7530, NX9500, NX9510, NX9600,
VX9000
Syntax
duplex [auto|half|full]
Parameters
• duplex [auto|half|full]
duplex [auto|half|full] Configures the mode of data transmission as auto, full, or half
• auto – Select this option to enable the controller, service platform, or access point to
dynamically duplex as port channel performance needs dictate. This is the default
setting.
• full – Select this option to simultaneously transmit data to and from the port channel.
• half – Select this option to send data over the port channel, then immediately receive
data from the same direction in which the data was transmitted.
Example
nx9500-6C8809(config-profile-testNX9000-if-port-channel1)#duplex full
nx9500-6C8809(config-profile-testNX9000-if-port-channel1)#show context
interface port-channel1
description "This port-channel is for enabling dynamic LACP."
duplex full
nx9500-6C8809(config-profile-testNX9000-if-port-channel1)#
Related Commands
no
Reverts the duplex-mode to the default value (auto)
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7.1.36.4.3 ip
interface-config-port-channel-instance
Configures ARP and DHCP related security parameters on this port-channel interface
Supported in the following platforms:
•
•
Wireless Controllers — RFS4000, RFS6000
Service Platforms — NX5500, NX7500, NX7510, NX7520, NX7530, NX9500, NX9510, NX9600,
VX9000
Syntax
ip [arp|dhcp]
ip arp [header-mismatch-validation|trust]
ip dhcp trust
Parameters
• ip arp [header-mismatch-validation|trust]
ip arp [headermismatch-validation|
trust]
Configures ARP related parameters on this port-channel interface
• header-mismatch-validation – Enables a source MAC mismatch check in both the ARP
and ethernet headers. This option is enabled by default.
• trust – Enables ARP trust on this port channel. If enabled, ARP packets received on this
port are considered trusted, and information from these packets is used to identify
rogue devices. This option is disabled by default.
• ip dhcp trust
ip dhcp trust
Enables DHCP trust. If enabled, only DHCP responses are trusted and forwarded on
this port channel, and a DHCP server can be connected only to a DHCP trusted port.
This option is enabled by default.
Example
nx9500-6C8809(config-profile-testNX9000-if-port-channel1)#ip arp trust
nx9500-6C8809(config-profile-testNX9000-if-port-channel1)#show context
interface port-channel1
description "This port-channel is for enabling dynamic LACP."
duplex full
ip arp trust
nx9500-6C8809(config-profile-testNX9000-if-port-channel1)#
Related Commands
no
Removes or reverts to default the ARP and DHCP security parameters configured
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7.1.36.4.4 ipv6
interface-config-port-channel-instance
Configures IPv6 related parameters on this port-channel interface
Supported in the following platforms:
•
•
Wireless Controllers — RFS4000, RFS6000
Service Platforms — NX5500, NX7500, NX7510, NX7520, NX7530, NX9500, NX9510, NX9600,
VX9000
Syntax
ipv6 [dhcpv6|nd]
ipv6 dhcpv6 trust
ipv6 nd [header-mismatch-validation|raguard|trust]
Parameters
• ipv6 dhcpv6 trust
ipv6 dhcpv6 trust
Enables DHCPv6 trust. If enabled, only DHCPv6 responses are trusted and forwarded
on this port channel, and a DHCPv6 server can be connected only to a trusted port.
This option is enabled by default.
• ipv6 nd [header-mismatch-validation|raguard|trust]
ipv6 nd [headermismatch-validation|
raguard|trust]
Configures IPv6 neighbor discovery (ND) parameters
raguard
Enables router advertisements or IPv6 redirects from this port. Router advertisements
are periodically sent to hosts or are sent in response to solicitation requests. The
advertisement includes IPv6 prefixes and other subnet and host information. This
option is enabled by default.
trust
Enables DHCPv6 trust. If enabled, only DHCPv6 responses are trusted and forwarded
on this port channel, and a DHCPv6 server can be connected only to a trusted port.
This option is enabled by default.
• header-mismatch-validation – Enables a mismatch check for the source MAC in both
the ND header and link layer options. This option is disabled by default.
Example
nx9500-6C8809(config-profile-testNX9000-if-port-channel1)#ipv6 nd headermismatch-validation
nx9500-6C8809(config-profile-testNX9000-if-port-channel1)#ipv6 nd trust
nx9500-6C8809(config-profile-testNX9000-if-port-channel1)#show context
interface port-channel1
description "This port-channel is for enabling dynamic LACP."
duplex full
ipv6 nd trust
ipv6 nd header-mismatch-validation
ip arp trust
nx9500-6C8809(config-profile-testNX9000-if-port-channel1)#
Related Commands
no
Removes or reverts to default the IPv6 related parameters on this port-channel
interface
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7.1.36.4.5 port-channel
interface-config-port-channel-instance
Configures client load balancing parameters on this port-channel interface
Supported in the following platforms:
•
•
Wireless Controllers — RFS4000, RFS6000
Service Platforms — NX5500, NX7500, NX7510, NX7520, NX7530, NX9500, NX9510, NX9600,
VX9000
Syntax
port-channel load-balance [src-dst-ip|src-dst-mac]
Parameters
• port-channel load-balance [src-dst-ip|src-dst-mac]
port-channel loadbalance [src-dst-ip|
src-dst-mac]
Specifies whether port channel load balancing is conducted using a source/
destination IP or a source/destination MAC.
• src-dst-ip – Uses a source/destination IP to conduct client load balancing. This is the
default setting.
• src-dst-mac – Uses a source/destination MAC to conduct client load balancing
Example
nx9500-6C8809(config-profile-testNX9000-if-port-channel1)#port-channel loadbalance src-dst-mac
nx9500-6C8809(config-profile-testNX9000-if-port-channel1)#show context
interface port-channel1
description "This port-channel is for enabling dynamic LACP."
duplex full
ipv6 nd trust
ipv6 nd header-mismatch-validation
ip arp trust
port-channel load-balance src-dst-mac
nx9500-6C8809(config-profile-testNX9000-if-port-channel1)#
Related Commands
no
Removes or reverts to default the client load balancing parameters on this portchannel interface
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7.1.36.4.6 qos
interface-config-port-channel-instance
Configures Quality of Service (QoS) related parameters on this port-channel interface
Supported in the following platforms:
•
•
Wireless Controllers — RFS4000, RFS6000
Service Platforms — NX5500, NX7500, NX7510, NX7520, NX7530, NX9500, NX9510, NX9600,
VX9000
Syntax
qos trust [802.1p|dscp]
Parameters
• qos trust [802.1p|dscp]
qos trust
[802.1p|dscp]
Configures the following QoS related parameters:
• 802.1p – Trusts 802.1p class of service (COS) values ingressing on this port channel. This
option is enabled by default.
• dscp – Trusts IP DSCP QOS values ingressing on this port channel. This option is
enabled by default.
Example
nx9500-6C8809(config-profile-testNX9000-if-port-channel1)#qos trust dscp
nx9500-6C8809(config-profile-testNX9000-if-port-channel1)#show context
Related Commands
no
Removes the QoS related parameters configured on this port-channel interface
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7.1.36.4.7 no
interface-config-port-channel-instance
Removes or reverts to default this port-channel interface’s settings
Supported in the following platforms:
•
•
Wireless Controllers — RFS4000, RFS6000
Service Platforms — NX5500, NX7500, NX7510, NX7520, NX7530, NX9500, NX9510, NX9600,
VX9000
Syntax
no beacon [description|duplex|ip|ipv6|port-channel|qos|shutdown|spanning-tree|
speed|switchport|use]
Parameters
• no
no
Removes or reverts to default this port-channels interface’s settings based on the
parameters passed
• – Specify the parameters.
Example
The following example shows the port-channel interface’s interface settings before the ‘no’ commands
are executed:
nx9500-6C8809(config-profile-testNX9000-if-port-channel1)#show context
description "This port-channel is for enabling dynamic LACP."
speed 100
duplex full
switchport mode trunk
switchport trunk native vlan 1
no switchport trunk native tagged
switchport trunk allowed vlan 1
use ip-access-list in BROADCAST-MULTICAST-CONTROL
ipv6 nd trust
ipv6 nd header-mismatch-validation
spanning-tree portfast
spanning-tree bpduguard enable
spanning-tree bpdufilter enable
spanning-tree mst 1 port-priority 1
spanning-tree mst 1 cost 20000
ip arp trust
port-channel load-balance src-dst-mac
nx9500-6C8809(config-profile-testNX9000-if-port-channel1)#
nx9500-6C8809(config-profile-testNX9000-if-port-channel1)#no
nx9500-6C8809(config-profile-testNX9000-if-port-channel1)#no
nx9500-6C8809(config-profile-testNX9000-if-port-channel1)#no
nx9500-6C8809(config-profile-testNX9000-if-port-channel1)#no
balance
Access Point, Wireless Controller and Service Platform CLI Reference Guide
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ip arp trust
ipv6 nd trust
port-channel load-
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The following example shows the port-channel interface’s interface settings after the ‘no’ commands
are executed:
nx9500-6C8809(config-profile-testNX9000-if-port-channel1)#show context
interface port-channel1
description "This port-channel is for enabling dynamic LACP."
speed 100
switchport mode trunk
switchport trunk native vlan 1
no switchport trunk native tagged
switchport trunk allowed vlan 1
use ip-access-list in BROADCAST-MULTICAST-CONTROL
ipv6 nd header-mismatch-validation
spanning-tree portfast
spanning-tree bpduguard enable
spanning-tree bpdufilter enable
spanning-tree mst 1 port-priority 1
spanning-tree mst 1 cost 20000
no qos trust dscp
nx9500-6C8809(config-profile-testNX9000-if-port-channel1)#
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7.1.36.4.8 shutdown
interface-config-port-channel-instance
Shutsdown this port-channel interface
Supported in the following platforms:
•
•
Wireless Controllers — RFS4000, RFS6000
Service Platforms — NX5500, NX7500, NX7510, NX7520, NX7530, NX9500, NX9510, NX9600,
VX9000
Syntax
shutdown
Parameters
None
Example
nx9500-6C8809(config-profile-testNX9000-if-port-channel1)#shutdown
Related Commands
no
Re-enables this port-channel interface
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7.1.36.4.9 spanning-tree
interface-config-port-channel-instance
Configures spanning-tree related parameters on this port-channel interface
Supported in the following platforms:
•
•
Wireless Controllers — RFS4000, RFS6000
Service Platforms — NX5500, NX7500, NX7510, NX7520, NX7530, NX9500, NX9510, NX9600,
VX9000
Syntax
spanning-tree [bpdufilter|bpduguard|force-version|guard|link-type|mst|port-ciscointeroperability|portfast]
spanning-tree [bpdufilter|bpduguard] [default|disable|enable]
spanning-tree [force-version <0-3>|guard root|portfast|port-ciscointeroperability [disable|enable]]
spanning-tree link-type [point-to-point|shared]
spanning-tree mst <0-15> [cost <1-200000000>|port-priority <0-240>]]
Parameters
• spanning-tree [bpdufilter|bpduguard] [default|disable|enable]
spanning-tree
[bpdufilter|
bpduguard]
Configures the following BPDU related parameters for this port channel:
• bpdufilter – Configures the BPDU filtering options. The options are:
• default – When selected, makes the bridge BPDU filter value to take effect. This is
the default setting.
• disable – Disables BPDU filtering
• enable – Enables BPDU filtering. Enabling the BPDU filter feature ensures this port
channel does not transmit or receive any BPDUs.
• bpduguard – Configures the BPDU guard options. The options are
• default – When selected, makes the bridge BPDU guard value to take effect. This is
the default setting.
• disable – Disables guarding this port from receiving BPDUs
• enable – Enables BPDU guarding. Enabling the BPDU guard feature means this port
will shutdown on receiving a BPDU. Thus, no BPDUs are processed.
Execute the portfast command to ensure that fast transitions is enabled on this port
channel before configuring BPDU filtering and guarding.
• spanning-tree [force-version <0-3>|guard root|portfast|port-ciscointeroperability [disable|enable]]
spanning-tree
Configures the following MSTP related parameters for this port channel:
[force-version <0-3>| • force-version <0-3> – Sets the protocol version to either STP(0), Not Supported(1),
guard root|
RSTP(2) or MSTP(3). MSTP is the default setting
portfast|
•
guard root – Enforces root bridge placement. Setting the guard to Root ensures the
port-ciscoport is a designated port. Typically, each guard root port is a designated port, unless
interoperability
two or more ports (within the root bridge) are connected together.
[disable|enable]
Contd...
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If the bridge receives superior (BPDUs) on a guard root-enabled port, the guard root
moves the port to a root-inconsistent STP state. This state is equivalent to a listening
state. No data is forwarded across the port. Thus, the guard root enforces the root
bridge position.
• portfast – Enables fast transitions on this port channel. When enabled, BPDU filtering
and guarding can be enforced on this port. Enable the portfast option and then use the
‘bpdufilter’ and bpduguard’ options to configure BPDU filtering and guarding
parameters. This option is disabled by default.
• port-cisco-interoperability [disable|enable] – Enables or disables interoperability with
Cisco's version of MSTP, which is incompatible with standard MSTP. This option is
disabled by default.
• spanning-tree link-type [point-to-point|shared]
spanning-tree
link-type
[point-to-point|
shared]
Configures the link type applicable on this port channel. The options are:
• point-to-point – Configures a point-to-point link, which indicates the port should be
treated as connected to a point-to-point link. Note, a port connected to the wireless
device is a point-to-point link. This is the default setting.
• shared – Configures a shared link, which indicates this port should be treated as having
a shared connection. Note, A port connected to a hub is on a shared link.
• spanning-tree mst <0-15> [cost <1-200000000>|port-priority <0-240>]
spanning-tree mst
<0-15> [cost <1200000000>|
port-priority <0240>]
Configures the following Multiple Spanning Tree (MST) parameters on this port:
• mst <0-15> – Select the MST instance from 0 - 15.
• cost <1-200000000> – Configures the port cost from 1 - 200000000. The default
path cost depends on the user defined port speed.The cost helps determine the role of
the port channel in the MSTP network. The designated cost is the cost for a packet to
travel from this port to the root in the MSTP configuration. The slower the media, higher the cost.
• port-priority <0-240> – Configures the port priority from 0 - 240. The lower the
priority, greater is the likelihood of the port becoming a designated port.
Example
nx9500-6C8809(config-profile-testNX9000-if-port-channel1)#spanning-tree portfast
nx9500-6C8809(config-profile-testNX9000-if-port-channel1)#spanning-tree
bpdufilter enable
nx9500-6C8809(config-profile-testNX9000-if-port-channel1)#spanning-tree bpduguard
enable
nx9500-6C8809(config-profile-testNX9000-if-port-channel1)#spanning-tree forceversion 3
nx9500-6C8809(config-profile-testNX9000-if-port-channel1)#spanning-tree mst 1
cost 20000
nx9500-6C8809(config-profile-testNX9000-if-port-channel1)#spanning-tree mst 1
port-priority 1
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nx9500-6C8809(config-profile-testNX9000-if-port-channel1)#show context
interface port-channel1
description "This port-channel is for enabling dynamic LACP."
duplex full
ipv6 nd trust
ipv6 nd header-mismatch-validation
spanning-tree portfast
spanning-tree bpduguard enable
spanning-tree bpdufilter enable
spanning-tree mst 1 port-priority 1
spanning-tree mst 1 cost 20000
ip arp trust
port-channel load-balance src-dst-mac
nx9500-6C8809(config-profile-testNX9000-if-port-channel1)#
Related Commands
no
Removes or reverts to default the spanning-tree related parameters configured on this
port channel interface
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7.1.36.4.10 speed
interface-config-port-channel-instance
Configures the speed at which this port-channel interface receives and transmits data
Supported in the following platforms:
•
•
Wireless Controllers — RFS4000, RFS6000
Service Platforms — NX5500, NX7500, NX7510, NX7520, NX7530, NX9500, NX9510, NX9600,
VX9000
Syntax
speed [10|100|1000|auto]]]
Parameters
• speed [10|100|1000|auto]
speed [10|100|1000|
auto]
Configure the data receive-transmit speed for this port channel. The options are:
•
•
•
•
10 – 10 Mbps
100 – 100 mbps
1000 – 1000 Mbps
auto – Enables the system to auto select the speed. This is the default setting.
Select either of these options to establish a 10, 100 or 1000 Mbps data transfer rate
for the selected half duplex or full duplex transmission over the port. The auto option
enables the port-channel to automatically exchange information about data
transmission speed and duplex capabilities. Auto negotiation is helpful in an
environment where different devices are connected and disconnected on a regular
basis.
Example
nx9500-6C8809(config-profile-testNX9000-if-port-channel1)#speed 100
nx9500-6C8809(config-profile-testNX9000-if-port-channel1)#show context
interface port-channel1
description "This port-channel is for enabling dynamic LACP."
speed 100
duplex full
ipv6 nd trust
ipv6 nd header-mismatch-validation
spanning-tree portfast
spanning-tree bpduguard enable
spanning-tree bpdufilter enable
spanning-tree mst 1 port-priority 1
spanning-tree mst 1 cost 20000
ip arp trust
port-channel load-balance src-dst-mac
nx9500-6C8809(config-profile-testNX9000-if-port-channel1)#
Related Commands
no
Removes or reverts to default the speed at which this port-channel interface receives
and transmits data
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7.1.36.4.11 switchport
interface-config-port-channel-instance
Configures the VLAN switching parameters for this port-channel interface
Supported in the following platforms:
•
•
Wireless Controllers — RFS4000, RFS6000
Service Platforms — NX5500, NX7500, NX7510, NX7520, NX7530, NX9500, NX9510, NX9600,
VX9000
Syntax
switchport [access|mode|trunk]
switchport
switchport
switchport
switchport
switchport
access vlan [<1-4094>|]
mode [access|trunk]
trunk [allowed|native]
trunk allowed vlan [|add |none|remove ]
trunk native [tagged|vlan [<1-4094>|]]
Parameters
• switchport access vlan [<1-4094>|]
access vlan
[<1-4094>|
]
Configures the VLAN to which this port-channel interface is mapped when the
switching mode is set to access.
• <1-4094> – Specify the SVI VLAN ID from 1 - 4094.
• – Specify the VLAN alias name (should be existing and
configured).
• switchport mode [access|trunk]
mode [access|trunk]
Configures the VLAN switching mode over the port channel
• access – If selected, the port channel accepts packets only form the native VLANs.
Frames are forwarded out the port untagged with no 802.1Q header. All frames
received on the port are expected as untagged and are mapped to the native VLAN.
This is the default setting.
• trunk – If selected, the port channel allows packets from a list of VLANs you add to
the trunk. A port channel configured as Trunk supports multiple 802.1Q tagged
VLANs and one Native VLAN which can be tagged or untagged.
• switchport trunk allowed vlan [|add |none|remove ]
trunk allowed
If configuring the VLAN switching mode as trunk, use this option to configure the
VLANs allowed on this port channel. Add VLANs that exclusively send packets over
the port channel.
vlan
[|
add |
none|
remove
Use this keyword to add/remove the allowed VLANs
• – Allows a group of VLAN IDs. Specify the VLAN IDs, can be either a
range (55-60) or a comma-separated list (35, 41, etc.)
• none – Allows no VLANs to transmit or receive through the layer 2 interface
Contd..
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• add – Adds VLANs to the current list
• – Specify the VLAN IDs. Can be either a range of VLAN (55-60) or a
list of comma separated IDs (35, 41, etc.)
• remove – Removes VLANs from the current list
• – Specify the VLAN IDs. Can be either a range of VLAN (55-60) or a
list of comma separated IDs (35, 41, etc.)
Allowed VLANs are configured only when the switching mode is set to “trunk”.
• switchport trunk native [tagged|vlan [<1-4094>|]]
trunk
If configuring the VLAN switching mode as trunk, use this option to configure
the native VLAN on this port channel.
native
[tagged|
vlan [<1-4094>|
]]
Configures the native VLAN ID for the trunk-mode port
The native VLAN allows an Ethernet device to associate untagged frames to a
VLAN when no 802.1Q frame is included in the frame. Additionally, the native
VLAN is the VLAN untagged traffic is directed over when using a port in trunk
mode.
• tagged – Tags the native VLAN. When a frame is tagged, the 12 bit frame VLAN
ID is added to the 802.1Q header enabling upstream Ethernet devices to know
which VLAN ID the frame belongs to. The device reads the 12 bit VLAN ID and
forwards the frame to the appropriate VLAN. When a frame is received with no
802.1Q header, the upstream device classifies the frame using the default or
native VLAN assigned to the Trunk port. A native VLAN allows an Ethernet device
to associate untagged frames to a VLAN when no 802.1Q frame is included in the
frame.
• vlan [<1-4094>|] – Sets the native VLAN for classifying
untagged traffic when the interface is in trunking mode.
• <1-4094> – Specify a value from 1 - 4094.
• – Specify the VLAN alias name used to identify the
VLANs. The VLAN alias should be existing and configured.
Example
nx9500-6C8809(config-profile-testNX9000-if-port-channel1)#switchport mode trunk
nx9500-6C8809(config-profile-testNX9000-if-port-channel1)#show context
interface port-channel1
description "This port-channel is for enabling dynamic LACP."
speed 100
duplex full
switchport mode trunk
switchport trunk native vlan 1
no switchport trunk native tagged
switchport trunk allowed vlan 1
ipv6 nd trust
ipv6 nd header-mismatch-validation
spanning-tree portfast
spanning-tree bpduguard enable
spanning-tree bpdufilter enable
spanning-tree mst 1 port-priority 1
spanning-tree mst 1 cost 20000
ip arp trust
port-channel load-balance src-dst-mac
nx9500-6C8809(config-profile-testNX9000-if-port-channel1)#
Related Commands
no
Removes the packet switching parameters configured on this port-channel interface
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7.1.36.4.12 use
interface-config-port-channel-instance
Configures access controls on this port-channel interface
Supported in the following platforms:
•
•
Wireless Controllers — RFS4000, RFS6000
Service Platforms — NX5500, NX7500, NX7510, NX7520, NX7530, NX9500, NX9510, NX9600,
VX9000
Syntax
use [ip-access-list|ipv6-access-list|mac-access-list] in ]]
Parameters
• use [ip-access-list|ipv6-access-list|mac-access-list] in ]
use [ip-access-list|
ipv6-access-list|
mac-access-list]
]
Associates an access list controlling the inbound traffic on this port channel.
• ip-access-list – Specify the IPv4 specific firewall rules to apply to this profile’s port
channel configuration. IPv4 is a connectionless protocol for packet switched
networking. IPv4 operates as a best effort delivery method, as it does not guarantee
delivery, and does not ensure proper sequencing or duplicate delivery (unlike (TCP).
IPv4 hosts can use link local addressing to provide local connectivity.
• ipv6-access-list – Specify the IPv6 specific firewall rules to apply to this profile’s port
channel configuration. IPv6 is the latest revision of the Internet Protocol (IP) designed
to replace IPv4. IPV6 provides enhanced identification and location information for
computers on networks routing traffic across the Internet. IPv6 addresses are
composed of eight groups of four hexadecimal digits separated by colons.
• mac-access-list – Specify the MAC specific firewall rules to apply to this profile’s port
channel configuration.
• – Provide the IPv4, IPv6, or MAC access list
name based on the option selected. The access list specified should be existing and
configured.
Example
nx9500-6C8809(config-profile-testNX9000-if-port-channel1)#use ip-access-list in
BROADCAST-MULTICAST-CONTROL
nx9500-6C8809(config-profile-testNX9000-if-port-channel1)#show context
interface port-channel1
description "This port-channel is for enabling dynamic LACP."
speed 100
duplex full
switchport mode trunk
switchport trunk native vlan 1
no switchport trunk native tagged
switchport trunk allowed vlan 1
use ip-access-list in BROADCAST-MULTICAST-CONTROL
ipv6 nd trust
ipv6 nd header-mismatch-validation
spanning-tree portfast
--More-nx9500-6C8809(config-profile-testNX9000-if-port-channel1)#
Related Commands
no
Removes the access controls configured on this port-channel interface
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7.1.36.5 interface-config-radio-instance
interface
This section documents radio interface configuration parameters applicable only to the access point
profiles.
The access point radio interface can be radio1, radio2, or radio3. The AP7161 models contain either a single
or a dual radio configuration. Newer AP7161N model access points support single, dual, or triple radio
configurations.
To enter the AP/RFS4000 profile > radio interface context, use the following commands:
(config)#profile
rfs6000-37FABE(config)#profile ap71xx 71xxTestProfile
rfs6000-37FABE(config-profile-71xxTestProfile)#
rfs6000-37FABE(config-profile-71xxTestProfile)#interface radio 1
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#?
Radio Mode commands:
adaptivity
Adaptivity
aeroscout
Aeroscout Multicast MAC/Enable
aggregation
Configure 802.11n aggregation related parameters
airtime-fairness
Enable fair access to medium for clients based
on their usage of airtime
antenna-diversity
Transmit antenna diversity for non-11n transmit
rates
antenna-downtilt
Enable ADEPT antenna mode
antenna-elevation
Specifies the antenna elevation gain
antenna-gain
Specifies the antenna gain of this radio
antenna-mode
Configure the antenna mode (number of transmit
and receive antennas) on the radio
assoc-response
Configure transmission parameters for
Association Response frames
association-list
Configure the association list for the radio
beacon
Configure beacon parameters
bridge
Bridge rf-mode related configuration
channel
Configure the channel of operation for this
radio
data-rates
Specify the 802.11 rates to be supported on this
radio
description
Configure a description for this radio
dfs-rehome
Revert to configured home channel once dfs
evacuation period expires
dynamic-chain-selection
Automatic antenna-mode selection (single antenna
for non-11n transmit rates)
ekahau
Ekahau Multicast MAC/Enable
extended-range
Configure extended range
fallback-channel
Configure the channel to be used for falling
back in the event of radar being detected on the
current operating channel
guard-interval
Configure the 802.11n guard interval
ldpc
Configure support for Low Density Parity Check
Code
lock-rf-mode
Retain user configured rf-mode setting for this
radio
max-clients
Maximum number of wireless clients allowed to
associate subject to AP limit
mesh
Configure radio mesh parameters
meshpoint
Enable meshpoints on this radio
mu-mimo
Enable multi user MIMO on this radio (selected
platforms only)
no
Negate a command or set its defaults
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non-unicast
off-channel-scan
placement
power
preamble-short
probe-response
radio-resource-measurement
radio-share-mode
rate-selection
remove-override
rf-mode
rifs
rts-threshold
shutdown
smart-rf
sniffer-redirect
stbc
transmit-beamforming
use
wips
wireless-client
wlan
clrscr
commit
do
end
exit
help
revert
service
show
write
Configure handling of non-unicast frames
Enable off-channel scanning on the radio
Configure the location where this radio is
operating
Configure the transmit power of the radio
Use short preambles on this radio
Configure transmission parameters for Probe
Response frames
Configure support for 802.11k Radio Resource
Measurement
Configure the radio-share mode of operation for
this radio
Default or Opportunistic rate selection
Negate a command or set its defaults
Configure the rf-mode of operation for this
radio
Configure Reduced Interframe Spacing (RIFS)
parameters
Configure the RTS threshold
Shutdown the selected radio interface
Configure radio specific smart-rf settings
Capture packets and redirect to an IP address
running a packet capture/analysis tool
Configure Space-Time Block Coding (STBC)
parameters
Enable Transmit Beamforming
Set setting to use
Wireless intrusion prevention related
configuration
Configure wireless client related parameters
Enable wlans on this radio
Clears the display screen
Commit all changes made in this session
Run commands from Exec mode
End current mode and change to EXEC mode
End current mode and down to previous mode
Description of the interactive help system
Revert changes
Service Commands
Show running system information
Write running configuration to memory or
terminal
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#
The following table summarizes the radio interface configuration commands:
Commands
Description
Reference
adaptivity
Configures an adaptivity timeout value, in minutes, for avoidance of
channels detected with radar or high levels of interference
page 7-256
aeroscout
Enables Aeroscout multicast packet forwarding
page 7-257
aggregation
Configures 802.11n aggregation parameters
page 7-258
airtime-fairness
Enables fair access for clients based on airtime usage
page 7-261
antenna-diversity Transmits antenna diversity for non-11n transmit rates
page 7-262
antenna-downtilt Enables Advanced Element Panel Technology (ADEPT) antenna mode
page 7-263
antennaelevation
Configures the antenna’s elevation gain. This command is applicable
only to the AP7562 model access point
page 7-264
antenna-gain
Specifies the antenna gain for the selected radio
page 7-266
antenna-mode
Configures the radio antenna mode
page 7-267
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Commands
Description
Reference
assoc-response
Enables an access point to ignore or respond to an association/
authorization request based on the configured Received Signal
Strength Index (RSSI) threshold and deny-threshold values
page 7-268
association-list
Associates an existing global association list with this radio interface
page 7-269
beacon
Configures beacon parameters
page 7-270
bridge
Configures client-bridge related parameters, if the selected radio’s RF
mode is set to bridge
page 7-272
channel
Configures a radio’s channel of operation
page 7-278
data-rates
Specifies the 802.11 rates supported on a radio
page 7-280
description
Configures the selected radio’s description
page 7-284
dfs-rehome
Reverts to configured home channel once Dynamic Frequency
Selection (DFS) evacuation period expires
page 7-285
dynamic-chainselection
Enables automatic antenna mode selection
page 7-286
ekahau
Enables Ekahau multicast packet forwarding
page 7-287
extended-range
Configures extended range
page 7-288
fallback-channel
Configures the channel to which the radio switches in case of radar
detection on the current channel
page 7-289
guard-interval
Configures the 802.11n guard interval
page 7-290
ldpc
Enables support for Low Density Parity Check (LDPC) on the radio
interface
page 7-291
lock-rf-mode
Retains user configured RF mode settings for the selected radio
page 7-292
max-clients
Configures the maximum number of wireless clients allowed to
associate with this radio
page 7-293
mesh
Configures radio mesh parameters
page 7-294
meshpoint
Maps an existing meshpoint to this radio interface
page 7-296
mu-mimo
Enables multi-user multiple input multiple output (MU-MIMO) support
on a radio
page 7-297
no
Negates or resets radio interface settings configures on a profile or a
device
page 7-298
non-unicast
Configures the handling of non unicast frames on this radio
page 7-301
off-channel-scan
Enables selected radio’s off channel scanning parameters
page 7-303
placement
Defines selected radio’s deployment location
page 7-305
power
Configures the transmit power on this radio
page 7-306
preamble-short
Enables the use of short preamble on this radio
page 7-307
probe-response
Configures transmission parameters for probe response frames
page 7-308
radio-resourcemeasurement
Enables 802.11k radio resource measurement
page 7-309
radio-sharemode
Configures the mode of operation, for this radio, as radio-share
page 7-310
rate-selection
Sets the rate selection method to standard or opportunistic
page 7-311
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Commands
Description
Reference
rf-mode
Configures the radio’s RF mode
page 7-312
rifs
Configures Reduced Interframe Spacing (RIFS) parameters on this
radio
page 7-314
rts-threshold
Configures the Request to Send (RTS) threshold value on this radio
page 7-315
service
Enables dynamic control function. This dynamic function controls
performance of the radio receiver's low noise amplifiers (LNAs).
page 7-316
shutdown
Terminates or shuts down selected radio interface
page 7-317
smart-rf
Overrides Smart RF channel width setting on the selected radio
interface
page 7-318
sniffer-redirect
Captures and redirects packets to an IP address running a packet
capture/analysis tool
page 7-319
stbc
Configures radio’s Space Time Block Coding (STBC) mode
page 7-321
transmitbeamforming
Enables transmit beamforming on the selected radio interface
page 7-322
use
Enables use of an association ACL policy and a radio QoS policy by
selected radio interface
page 7-323
wips
Enables access point to change its channel of operation in order to
terminate rogue devices
page 7-324
wireless-client
Configures wireless client parameters on selected radio
page 7-325
wlan
Enables a WLAN on selected radio
page 7-326
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7.1.36.5.1 adaptivity
interface-config-radio-instance
Configures an interval, in minutes, for avoiding channels detected with high levels of interference
As per the European Telecommunications Standards Institute’s (ETSI) EN 300 328 V1.8.1/ ETSI EN 301 893
V1.7.1 requirements, access points have to monitor interference levels on operating channels, and stop
functioning on channels with interference levels exceeding ETSI-specified threshold values.
This command configures the interval for which a channel is avoided on detection of interference, and is
applicable only if the channel selection mode is set to ACS, Random, or Fixed.
NOTE: If the channel selection mode is set to Smart, in the Smart-RF policy
mode, use the avoidance-time > [adaptivity|dfs] > <30-3600> command to
specify the interval for which a channel is avoided on detection of high
levels of interference or radar. For more information, see avoidance-time.
When configured, this feature ensures recovery by switching the radio to a new operating channel. Once
adaptivity is triggered, the evacuated channel becomes inaccessible and is available again only after the
adaptivity timeout, specified here, expires. In case of fixed channel, the radio switches back to the original
channel of operation after the adaptivity timeout expires. On the other hand, ACS-enabled radios continue
operating on the new channel even after the adaptivity timeout period expires.
Supported in the following platforms:
•
Access Points — AP6521, AP6522, AP6532, AP6562, AP7161, AP7502, AP7522, AP7532, AP7562,
AP7602, AP7612, AP7622, AP7632, AP7662, AP81XX, AP8232, AP8432, AP8533
Syntax
adaptivity [recovery|timeout <30-3600>]
Parameters
• adaptivity [recovery|timeout <30-3600>]
adaptivity
Configures adaptivity parameters on the radio. These parameters are: recovery and
timeout.
recovery
Enables switching of channels when an access point’s radio is in the adaptivity mode.
In the adaptivity mode, an access point monitors interference on its set channel and
stops functioning when the radio’s defined interference tolerance level is exceeded.
When the defined adaptivity timeout is exceeded, the radio resumes functionality on
different channel. This option is enabled by default.
timeout
<30-3600>
Configures an adaptivity timeout
• <30-3600> – Specify a value from 30 - 3600 minutes. The default is 90 minutes.
Example
nx4500-5CFA2B(config-profile-testAP7532-if-radio1)#adaptivity timeout 200
nx4500-5CFA2B(config-profile-testAP7532-if-radio1)#show context
interface radio1
adaptivity timeout 200
nx4500-5CFA2B(config-profile-testAP7532-if-radio1)#
Related Commands
no
Removes the configured adaptivity timeout value and disables adaptivity recovery
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7.1.36.5.2 aeroscout
interface-config-radio-instance
Enables Aeroscout multicast packet forwarding. This feature is disabled by default.
Supported in the following platforms:
•
Access Points — AP6532, AP7502, AP7522
Syntax
aeroscout [forward ip port <0-65535>|mac ]
Parameters
• aeroscout [forward ip port <0-65535>|mac ]
aeroscout
Enables Aeroscout packet forwarding and configures the packet forwarding
parameters
forward ip port
<0-65535>
Configures the following Aeroscout locationing engine details:
mac
Configures the multicast MAC address to forward the Aeroscout packets
• ip – Configures Aeroscout engine’s IP address
• – Specify the Aeroscout engine’s IP address. When specified, the AP forwards
Aeroscout beacons directly to the Aeroscout locationing engine without proxying
through the controller or RF Domain manager.
• port – Configures the port on which the Aeroscout engine is reachable
• <0-65535> – Specify the port number from 0 - 65535.
• – Specify the MAC address in the AA-BB-CC-DD-EE-FF format. The default
value is 01-0C-CC-00-00-00.
Example
nx9500-6C8809(config-profile-ProfileTestAP7532-if-radio2)#aeroscout forward ip
10.233.84.206 port 22
nx9500-6C8809(config-profile-ProfileTestAP7532-if-radio2)#show context
interface radio2
aeroscout forward ip 10.233.84.206 port 22
nx9500-6C8809(config-profile-ProfileTestAP7532-if-radio2)#
Related Commands
no
Disables Aeroscout packet forwarding
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7.1.36.5.3 aggregation
interface-config-radio-instance
Configures 802.11n frame aggregation parameters. Frame aggregation increases throughput by sending two
or more data frames in a single transmission. There are two types of frame aggregation: MAC Service Data
Unit (MSDU) aggregation and MAC Protocol Data Unit (MPDU) aggregation. Both modes group several
data frames into one large data frame.
Supported in the following platforms:
•
Access Points — AP6532, AP6562, AP7161, AP7502, AP7522, AP7532, AP7562, AP7602, AP7612,
AP7622, AP7632, AP7662, AP81XX, AP8232, AP8432, AP8533
Syntax
aggregation [ampdu|amsdu]
aggregation ampdu [rx-only|tx-only|tx-rx|none|max-aggr-size|min-spacing]
aggregation ampdu [rx-only|tx-only|tx-rx|none]
aggregation ampdu max-aggr-size [rx|tx]
aggregation ampdu max-aggr-size rx [8191|16383|32767|65535]
aggregation ampdu max-aggr-size tx <2000-65535>
aggregation ampdu min-spacing [0|1|2|4|8|16]
aggregation amsdu [rx-only|tx-rx]
Parameters
• aggregation ampdu [rx-only|tx-only|tx-rx|none]
aggregation
Configures 802.11n frame aggregation parameters
ampdu
Configures Aggregate MAC Protocol Data Unit (AMPDU) frame aggregation
parameters
AMPDU aggregation collects Ethernet frames addressed to a single destination. It
wraps each frame in an 802.11n MAC header. This aggregation mode is less efficient,
but more reliable in environments with high error rates. It enables the
acknowledgement and retransmission of each aggregated data frame individually.
tx-only
Supports the transmission of AMPDU aggregated frames only
rx-only
Supports the receipt of AMPDU aggregated frames only
tx-rx
Supports the transmission and receipt of AMPDU aggregated frames (default
setting)
none
Disables support for AMPDU aggregation
• aggregation ampdu max-aggr-size rx [8191|16383|32767|65535]
aggregation
Configures 802.11n frame aggregation parameters
ampdu
Configures AMPDU frame aggregation parameters
AMPDU aggregation collects Ethernet frames addressed to a single destination. It
wraps each frame in an 802.11n MAC header. This aggregation mode is less efficient,
but more reliable in environments with high error rates. It enables the
acknowledgement and retransmission of each aggregated data frame individually.
max-aggr-size
Configures AMPDU packet size limits. Configure the packet size limit on packets
both transmitted and received.
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rx
[8191|16383|32767|
65535]
Configures the maximum limit (in bytes) advertised for received frames
•
•
•
•
8191 – Advertises a maximum of 8191 bytes
16383 – Advertises a maximum of 16383 bytes
32767 – Advertises a maximum of 32767 bytes
65535 – Advertises a maximum of 65535 bytes (default setting)
• aggregation ampdu max-aggr-size tx <2000-65535>
aggregation
Configures 802.11n frame aggregation parameters
ampdu
Configures AMPDU frame aggregation parameters
AMPDU aggregation collects Ethernet frames addressed to a single destination. It
wraps each frame in an 802.11n MAC header. This aggregation mode is less efficient,
but more reliable in environments with high error rates. It enables the
acknowledgement and retransmission of each aggregated data frame individually.
max-aggr-size
Configures AMPDU packet size limits. Configure the packet size limit on packets
both transmitted and received.
tx <2000-65535>
Configures the maximum size (in bytes) for AMPDU aggregated transmitted frames
• <2000-65535> – Sets the limit from 2000 - 65535 bytes. The default is 65535 bytes.
• aggregation ampdu min-spacing [0|1|2|4|8|16|auto]
aggregation
Configures 802.11n frame aggregation parameters
ampdu
Configures AMPDU frame aggregation parameters
AMPDU aggregation collects Ethernet frames addressed to a single destination. It
wraps each frame in an 802.11n MAC header. This aggregation mode is less efficient,
but more reliable in environments with high error rates. It enables the
acknowledgement and retransmission of each aggregated data frame individually.
mn-spacing
[0|1|2|4|8|16]
Configures the minimum gap, in microseconds, between AMPDU frames
•
•
•
•
•
•
•
0 – Configures the minimum gap as 0 microseconds
1 – Configures the minimum gap as 1 microseconds
2 – Configures the minimum gap as 2 microseconds
4 – Configures the minimum gap as 4 microseconds
8 – Configures the minimum gap as 8 microseconds
16 – Configures the minimum gap as 16 microseconds
auto – Auto configures the minimum gap depending on the platform and radio type
(default setting)
• aggregation amsdu [rx-only|tx-rx]
aggregation
Configures 802.11n frame aggregation parameters
amsdu
Configures Aggregated MAC Service Data Unit (AMSDU) frame aggregation
parameters. AMSDU aggregation collects Ethernet frames addressed to a single
destination. But, unlike AMPDU, it wraps all frames in a single 802.11n frame.
rx-only
Supports the receipt of AMSDU aggregated frames only (default setting)
tx-rx
Supports the transmission and receipt of AMSDU aggregated frames
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Example
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#aggregation ampdu txonly
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#show context
interface radio1
aggregation ampdu tx-only
aeroscout forward
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#
Related Commands
no
Disables 802.11n aggregation parameters
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7.1.36.5.4 airtime-fairness
interface-config-radio-instance
Enables fair access to the medium for wireless clients based on their airtime usage (i.e. regardless of
whether the client is a high-throughput (802.11n) or legacy client). This option is enabled by default.
Supported in the following platforms:
•
Access Points — AP6521, AP6522, AP6532, AP6562, AP7161, AP7502, AP7522, AP7532, AP7562,
AP7602, AP7612, AP7622, AP7632, AP7662, AP81XX, AP8232, AP8432, AP8533
Syntax
airtime-fairness {prefer-ht} {weight <1-10>}
Parameters
• airtime-fairness {prefer-ht} {weight <1-10>}
airtime-fairness
Enables fair access to the medium for wireless clients based on their airtime usage
prefer-ht
Optional. Prioritizes high throughput (802.11n) clients over clients with slower
throughput (802.11 a/b/g) and legacy clients
weight <1-10>
Optional. Configures the relative weightage for 11n clients over legacy clients.
• <1-10> – Sets a weightage ratio for 11n clients from 1 - 10
Example
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#airtime-fairness preferht weight 6
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#show context
interface radio1
aggregation ampdu tx-only
aeroscout forward
airtime-fairness prefer-ht weight 6
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#
Related Commands
no
Disables fair access for wireless clients (provides access on a round-robin mode)
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7.1.36.5.5 antenna-diversity
interface-config-radio-instance
Configures transmit antenna diversity for non-11n transmit rates
Antenna diversity uses two or more antennas to increase signal quality and strength. This option is
disabled by default.
Supported in the following platforms:
•
Access Points — AP6521, AP6522, AP6532, AP6562, AP7161, AP7502, AP7522, AP7532, AP7562,
AP7602, AP7612, AP7622, AP7632, AP7662, AP81XX, AP8232, AP8432, AP8533
Syntax
antenna-diversity
Parameters
None
Example
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#antenna-diversity
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#show context
interface radio1
aggregation ampdu tx-only
aeroscout forward
antenna-diversity
airtime-fairness prefer-ht weight 6
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#
Related Commands
no
Uses single antenna for non-11n transmit rates
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7.1.36.5.6 antenna-downtilt
interface-config-radio-instance
Enables the Advanced Element Panel Technology (ADEPT) antenna mode. The ADEPT mode increases the
probability of parallel data paths enabling multiple spatial data streams. This option is disabled by default.
Supported in the following platforms:
•
Access Point — AP7161
NOTE: This feature is not supported on AP6521, AP6522, AP6532, AP6562,
AP7502, AP7522, AP7532, AP7562, AP81XX, AP8232, AP8432, and AP8533.
Syntax
antenna-downtilt
Parameters
None
Example
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#antenna-downtilt
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#show context
interface radio1
antenna-gain 12.0
aggregation ampdu tx-only
aeroscout forward
antenna-diversity
airtime-fairness prefer-ht weight 6
antenna-downtilt
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#
Related Commands
no
Disables the ADEPT antenna mode
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7.1.36.5.7 antenna-elevation
interface-config-radio-instance
Configures an antenna's elevation gain. Antenna gain is the ratio of an antenna's radiation intensity in a
given direction to the intensity produced by a no-loss, isotropic antenna radiating equally in all directions.
An antenna's gain along the horizon and at an elevation of 30 degree may vary. The elevation gain is
defined as the maximum antenna gain at 30 to 150 degrees above the horizon. If elevation gain is
configured, the transmit (TX) power calculations maximize the allowable TX power for an elevation below
30 degree.
Access Points must conform to U.S. Federal Communications Commission's (FCC) limitations. FCC has now
stipulated a 21dBm Effective Isotropic Radiated Power (EIRP) limit for power directed 30 degrees above
the horizon.
For Extreme Networks -supplied antennas, compatible with 5.0 GHz on the AP7562 access point, refer to
the Antenna Guide for "Elevation Gain" information. If using a third-party antenna, it is required that you
obtain the antenna-elevation gain information from the antenna manufacturer.
The elevation gain should be configured if the access point:
•
Is deployed outdoors, and
•
Is used with a dipole antenna (panel antenna and polarized antenna are for point to point only, and
are excluded from this requirement), and
•
Is transmitting in the 5.15 - 5.25 GHz Unlicensed National Information Infrastructure-1 (UNII-1) band.
Professional installers must complete the following steps to ensure compliance with the FCC rule:
Configure the antenna type. For example:
ap7562-80C2AC(config-device-84-24-8D-80-C2-AC-if-radio2)#service antenna-type dipole
2 Configure the antenna peak gain. For example:
ap7562-80C2AC(config-device-84-24-8D-80-C2-AC-if-radio2)#antenna-gain 7.0
3 Configure the antenna placement. For example:
ap7562-80C2AC(config-device-84-24-8D-80-C2-AC-if-radio2)#placement outdoor
4 Configure the antenna elevation gain. For example:
ap7562-80C2AC(config-device-84-24-8D-80-C2-AC-if-radio2)#antenna-elevation 5.0
After the professional installer enters the antenna type, gain, placement, and elevation gain using the CLI
as outlined above, the firmware will use this information and hardcoded maximum limits determined during
testing (See Annex C in FCC Report #FR4D0448AB) to limit the EIRP below 21dBm for outdoor use in
UNII-1 band. The antenna information is provided in the Installation guide and antenna guide.
Supported in the following platforms:
•
Access Points — AP7562
Syntax
antenna-elevation <-30.0-36.0>
NOTE: The antenna elevation gain feature is supported only on the AP7562
model access point.
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Parameters
• antenna-elevation <-30.0-36.0>
antenna-elevation
<-30.0-36.0>
Configures the antenna elevation gain from -30.0 - 36.0 dB. Refer to the antenna
specifications for antenna-elevation gain information.
The default value is 0 dB.
Example
ap7562-80C2AC(config-device-84-24-8D-80-C2-AC-if-radio2)#antenna-elevation 5.0
ap7562-80C2AC(config-device-84-24-8D-80-C2-AC-if-radio2)#show context
interface radio2
antenna-elevation 5.0
ap7562-80C2AC(config-device-84-24-8D-80-C2-AC-if-radio2)#
Related Commands
no
Resets antenna elevation gain to default (0 dB)
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7.1.36.5.8 antenna-gain
interface-config-radio-instance
Configures the antenna gain for the selected radio
Antenna gain is the ability of an antenna to convert power into radio waves and vice versa. The access
point or wireless controller’s Power Management Antenna Configuration File (PMACF) automatically
configures the access point orwireless controller’s radio transmit power based on the antenna type, its
antenna gain (provided here) and the deployed country’s regulatory domain restrictions. Once provided,
the access point or wireless controller calculates the power range. Antenna gain relates the intensity of an
antenna in a given direction to the intensity that would be produced ideally by an antenna that radiates
equally in all directions (isotropically), and has no losses. Although the gain of an antenna is directly related
to its directivity, its gain is a measure that takes into account the efficiency of the antenna as well as its
directional capabilities. It is recommended that only a professional installer set the antenna gain.
Supported in the following platforms:
•
Access Points — AP6521, AP6522, AP6532, AP6562, AP7161, AP7502, AP7522, AP7532, AP7562,
AP7602, AP7612, AP7622, AP7632, AP7662, AP81XX, AP8232, AP8432, AP8533
Syntax
antenna-gain <0.0-15.0>
Parameters
• antenna-gain <0.0-15.0>
antenna-gain
<0.0-15.0>
Sets the antenna gain from 0.0 - 15.0 dBi. The default is 0.00 dBi.
Example
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#antenna-gain 12.0
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#show context
interface radio1
antenna-gain 12.0
aggregation ampdu tx-only
aeroscout forward
antenna-diversity
airtime-fairness prefer-ht weight 6
antenna-downtilt
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#
Related Commands
no
Resets the radio’s antenna gain parameter
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7.1.36.5.9 antenna-mode
interface-config-radio-instance
Configures the antenna mode (the number of transmit and receive antennas) on the access point
This command sets the number of transmit and receive antennas on the access point. The 1x1 mode is used
for transmissions over just the single -A- antenna, 1xALL is used for transmissions over the -A- antenna and
all three antennas for receiving. The 2x2 mode is used for transmissions and receipts over two antennas for
dual antenna models. 3x3x3 is used for transmissions and receipts over three antennas for AP81XX models.
The default setting is dynamic based on the access point model deployed and its transmit power settings.
Supported in the following platforms:
•
Access Points — AP6521, AP6522, AP6532, AP6562, AP7161, AP7502, AP7522, AP7532, AP7562,
AP7602, AP7612, AP7622, AP7632, AP7662, AP81XX, AP8232, AP8432, AP8533
Syntax
antenna-mode [1*1|1*ALL|2*2|3*3|default]
Parameters
• antenna-mode [1*1|1*ALL|2*2|default]
antenna-mode
Configures the antenna mode
1*1
Uses only antenna A to receive and transmit
1*ALL
Uses antenna A to transmit and receives on all antennas
2*2
Uses antennas A and C for both transmit and receive
3*3
Uses antenna A, B, and C for both transmit and receive
default
Uses default antenna settings. This is the default setting.
Usage Guidelines
To support STBC feature on AP7161 profile, the antenna-mode should not be configured to 1*1.
Example
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#antenna-mode 2x2
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#show context
interface radio1
antenna-gain 12.0
aggregation ampdu tx-only
aeroscout forward
antenna-mode 2x2
antenna-diversity
airtime-fairness prefer-ht weight 6
antenna-downtilt
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#
Related Commands
no
Resets the radio antenna mode (the number of transmit and receive antennas) to its
default
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7.1.36.5.10 assoc-response
interface-config-radio-instance
Configures the parameters determining whether the access point ignores or responds to an association/
authorization request
Supported in the following platforms:
•
Access Points — AP6521, AP6522, AP6532, AP6562, AP7161, AP7502, AP7522, AP7532, AP7562,
AP7602, AP7612, AP7622, AP7632, AP7662, AP81XX, AP8232, AP8432, AP8533
Syntax
assoc-response [deny-threshold <1-12>|rssi-threshold <-128--40>]
Parameters
• assoc-response [deny-threshold <1-12>|rssi-threshold <-128--40>]
assoc-response
Configures the following thresholds, based on which the AP ignores or responds to an
association/authorization request: deny-threshold and rssi-threshold.
Both these options are disabled by default.
deny-threshold
<1-12>
Configures the number of times the AP ignores association/authorization requests, if
the RSSI is below the configured RSSI threshold value
• <1-12> – Specify a value from 1 - 12.
Note: The AP always ignores association/authorization requests when deny-threshold is
not specified and rssi-threshold is specified.
rssi-threshold
<-128--40>
Configures the RSSI threshold. If the RSSI is lower than the threshold configured here,
the AP ignores the association/authorization request.
• <128--40> – Specify the RSSI threshold from -128 - -40 dBi.
Example
rfs6000-37FABE(config-profile-71XXTestProfile-if-radio1)#assoc-response rssithreshold -128
rfs6000-37FABE(config-profile-71XXTestProfile-if-radio1)#show context
interface radio1
assoc-response rssi-threshold -128
rfs6000-37FABE(config-profile-71XXTestProfile-if-radio1)#
Related Commands
no
Removes the RSSI threshold, based on which an association/authorization request is
either ignored or responded.
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7.1.36.5.11 association-list
interface-config-radio-instance
Associates an existing global association list with this radio interface
An association ACL is a policy-based access control list (ACL) that either prevents or allows wireless clients
from connecting to a managed access point radio. An ACL is a sequential collection of permit and deny
rules that apply to incoming and outgoing packets. When a packet is received on an interface, the
controller, service platform, or access point compares the fields in the packet against the applied ACLs to
verify the packet has the required permissions to be forwarded. If a packet does not meet any of the
criteria specified in the ACL, it is dropped.
Supported in the following platforms:
•
Access Points — AP6521, AP6522, AP6532, AP6562, AP7161, AP7502, AP7522, AP7532, AP7562,
AP7602, AP7612, AP7622, AP7632, AP7662, AP81XX, AP8232, AP8432, AP8533
Syntax
association-list global
Parameters
• association-list global
Associates an existing global association list with this radio interface
association-list
global
Example
rfs4000-880DA7(config-profile-test-if-radio1)#association-list global test
rfs4000-880DA7(config-profile-test-if-radio1)#show context
interface radio1
association-list global test
rfs4000-880DA7(config-profile-test-if-radio1)#
Related Commands
no
Removes the global association list associated with this radio interface
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7.1.36.5.12 beacon
interface-config-radio-instance
Configures radio beacon parameters
A beacon is a packet broadcasted by adopted radios to keep the network synchronized. Included in a
beacon is information, such as the WLAN service area, the radio address, the broadcast destination
addresses, a time stamp, and indicators about traffic and delivery such as a Delivery Traffic Indication
Message (DTIM). Increase the DTIM/beacon settings (lengthening the time) to let nodes sleep longer and
preserve battery life. Decrease these settings (shortening the time) to support streaming-multicast audio
and video applications that are jitter sensitive.
Supported in the following platforms:
•
Access Points — AP6521, AP6522, AP6532, AP6562, AP7161, AP7502, AP7522, AP7532, AP7562,
AP7602, AP7612, AP7622, AP7632, AP7662, AP81XX, AP8232, AP8432, AP8533
Syntax
beacon [dtim-period|period]
beacon dtim-period [<1-50>|bss]
beacon dtim-period [<1-50>|bss <1-16> <1-50>]
beacon period [50|100|200]
Parametersd
• beacon dtim-period [<1-50>|bss <1-8> <1-50>]
beacon
Configures radio beacon parameters
dtim-period
Configures the radio DTIM interval. A DTIM is a message that informs wireless clients
about the presence of buffered multicast or broadcast data. These are simple data
frames that require no acknowledgement, so nodes sometimes miss them. Increase
the DTIM/ beacon settings (lengthening the time) to let nodes sleep longer and
preserve their battery life. Decrease these settings (shortening the time) to support
streaming multicast audio and video applications that are jitter-sensitive.
<1-50>
Configures a single value to use on the radio. Specify a value between 1 and 50.
bss <1-16> <1-50>
Configures a separate DTIM for a Basic Service Set (BSS) on this radio interface
• <1-16> – Sets the BSS number from 1 - 16
• <1-50> – Sets the BSS DTIM from 1 - 50. The default is 2.
• beacon period [50|100|200]
period [50|100|200]
Configures the beacon period (the interval between consecutive radio beacons)
• 50 – Configures 50 K-uSec interval between beacons
• 100 – Configures 100 K-uSec interval between beacons (default)
• 200 – Configures 200 K-uSec interval between beacons
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Example
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#beacon dtim-period bss 2
20
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#beacon period 50
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#show context
interface radio1
beacon period 50
beacon dtim-period bss 1 2
beacon dtim-period bss 2 20
beacon dtim-period bss 3 2
--More-rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#
Related Commands
no
Removes the configured beacon parameters
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7.1.36.5.13 bridge
interface-config-radio-instance
Configures the client-bridge parameters for radios with rf-mode set to bridge. When configured as a client
bridge, the radio can authenticate and associate to the Wireless LAN (WLAN) hosted on the infrastructure
access point. After successfully associating with the infrastructure WLAN, the client-bridge access point
switches frames between its bridge radio and wired/wireless client(s) connected either to its GE port(s) or
to the other radio, there by providing the clients access to the infrastructure WLAN resources.
NOTE: The radio interface configured to form the client-bridge will not be able to
service wireless clients as its RF mode is set to bridge and not 2.5 GHz or 5.0 GHz.
Supported in the following platforms:
•
Access Points — AP6522, AP6562, AP7522, AP7532, AP7562, AP7602, AP7622
Syntax
bridge [authentication-type [eap|none]|channel-dwell-time <50-2000>|channel-list
[2.4GHz|5GHz] |connect-through-bridges|eap [password |type [peapmschapv2|tls]|username ]|encryption-type [ccmp|none|tkip]|inactivitytimeout <0-864000>|keepalive [frame-type [null-data|wnmp]|interval <0-36000>]|
max-clients <1-64>|on-link-loss shutdown-other-radio <1-1800>|on-link-up refreshvlan-interface|roam-criteria [missed-beacons <1-60>|rssi-threshold <-128-40>]|ssid |wpa-wpa2 psk [0|2|]]
Parameters
• bridge [authentication-type [eap|none]|channel-dwell-time <50-2000>|channellist [2.4GHz|5GHz] |connect-through-bridges|eap [password ]|type
[peap-mschapv2|tls]|username ]|encryption-type [ccmp|none|tkip]|
inactivity-timeout <0-864000>|keepalive [frame-type [null-data|wnmp]|interval <036000>]|max-clients <1-64>|on-link-loss shutdown-other-radio <1-1800>|on-link-up
refresh-vlan-interface|roam-criteria [missed-beacons <1-60>|rssi-threshold <-128-40>]|ssid |wpa-wpa2 psk [0|2|]]
bridge
Configures client-bridge related parameters on the selected radio
Prior to configuring the client-bridge parameters, set the radio’s rf-mode to bridge.
authentication-type
[eap|none]
Configures the authentication method used to authenticate with the infrastructure
WLAN. The authentication mode specified here should be the same as that
configured on the infrastructure WLAN. The options are:
• eap – Uses EAP authentication (802.1X). If using EAP, use the ‘eap’ keyword to
configure EAP related parameters.
• none – Uses no authentication. This is the default setting.
channel-dwell-time
<50-2000>
Configures the channel-dwell time in milliseconds. This is the time the client-bridge
radio dwells on each channel (configured in the channel-list) when scanning for an
infrastructure WLAN.
• <50-2000> – Specify a value from 50 -2000 milliseconds. The default is 150
milliseconds.
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channel-list
Configures the list of channels the radio scans when scanning for an infrastructure
[2.4GHz|5GHz] WLAN access point to associate
• 2.4GHz – Configures a list of channels for scanning across all the channels in
the 2.4GHz radio band
• 5GHz – Configures a list of channels for scanning across all the channels in the
5.0 GHz radio band
The following parameter is common to both of the 2.5 GHz and 5.0 GHz bands:
• – Provide the list of channels separated by commas.
connect-throughbridges
Enables the client-bridge access point radio to connect to an infrastructure WLAN,
which already has other client-bridge radios associated with it. The client-bridge
access points, in this scenario, are said to be daisy chained together.
Configures EAP authentication parameters if the authentication mode is set as EAP
eap [password
[]|
• password [0|2|] – Configures the EAP authentication password to use
type [peap-mschapv2|
with the infrastructure WLAN. The password type depends on the EAP
tls]|username
authentication type configured.
]
PEAP-MSCHAPv2 - PEAP password
TLS – PKCS #12 certificate secret
Use of EAP-TLS authentication is recommended since it is stronger than PEAPMSCHAPv2.
• – Enter the password.
• type [peap-mschapv2|tls] – Configures the EAP authentication type as:
• PEAP-MSCHAPv2 – Configures the EAP authentication type as PEAP-MSCHAPv2.
This is the default setting.
• TLS – Configures the EAP authentication type as TLS
• username – Configures the EAP authentication user name to use with
the infrastructure WLAN.
• – Specify the EAP username.
PEAP-MSCHAPv2 – PEAP username (example client-bridge)
TLS – Username in the CN field of the installed PKCS #12 client certificate (example
client-bridge@example.com)
encryption-type
[ccmp|none|tkip]
Configures the encryption mode. The encryption mode specified here should be the
same as that configured on the infrastructure WLAN. The options are:
• ccmp – Uses WPA/WPA2 CCMP encryption
• none – Uses no encryption method. This is the default setting.
• tkip – Uses WPA/WPA2 TKIP encryption
If using CCMP or TKIP, use the ‘wpa2-wpa2’ keyword to configure the pre-shared key
(PSK).
inactivity-timeout
<0-864000>
Configures the inactivity timeout for each bridge MAC address. This is the time for
which the client-bridge access point waits before deleting a MAC address from
which a frame has not been received for more than the time specified here. For
example, if the inactivity time is set at 120 seconds, and if no frames are received
from a MAC address for 120 seconds, it is deleted. The default value is 600 seconds.
• <0-864000> – Specify a value from 0 - 864000 seconds. The default is 600 seconds.
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keepalive [frame-type
[null-data|wnmp]|
interval <0-36000>]
Configures the keep-alive frame type and interval
max-clients <1-64>
Configures the maximum number of clients that the client-bridge AP can support
• frame-type – Configures the keepalive frame type exchanged between the clientbridge access point and the infrastructure access point/controller. The options are:
• null-data – Transmits 802.11 NULL data frames. This is the default setting.
• wnmp – Transmits Wireless Network Management Protocol (WNMP) multicast
packet
• interval <0-36000> – Configures the interval, in seconds, between two successive
keep-alive frame transmission.
• <0-36000> – Specify a value from 0 - 36000 seconds. The default is 300 seconds.
• <1-14> – Specify a value from 1 - 64. The default is 64.
on-link-loss
shutdown-other-radio
<1-1800>
Configures the radio-link behaviour when the link between the client-bridge and
infrastructure access points is lost.
on-link-up refreshvlan-interface
Configures the radio-link behaviour when the link between the client-bridge and
infrastructure access points comes up.
• shutdown-other-radio – Enables shutting down of the non-client bridge radio (this is
the radio to which wireless-clients associate) when the link between the client-bridge
and infrastructure access points is lost. When enabled, clients associated with the
non-client bridge radio are pushed to search for and associate with other access
points having backhaul connectivity. This option is disabled by default.
• <1-1800> – If enabling this option, use this parameter to configure the time, in seconds, for which the non-client bridge radio is shut down. Specify a value from 1 - 1800
seconds.
• refresh-vlan-interface – Enables the SVI to refresh on re-establishing client bridge link
to infrastructure Access Point. And, if using a DHCP assigned IP address, causes a
DHCP renew. This option is enabled by default.
roam-criteria
[missed-beacons
<1-60>|
rssi-threshold
<-128--40>]
Configures the following roaming criteria parameters
ssid
Configures the infrastructure WLAN SSID the client bridge connects to
• missed-beacons <1-60> – Configures the missed beacon interval from 0 - 60
seconds.This is the time for which the client-bridge Access Point waits for after
missing a beacon from the associated infrastructure Access Point, before roaming to
another infrastructure Access Point. For example, if the missed-beacon time is set to
30 seconds, and if more than 30 seconds have passed since the last received beacon,
from the associated infrastructure Access Point, the client-bridge Access Point
resumes scanning for another infrastructure Access Point. The default value s 20
seconds.
• <1-60> – Specify a value from 1 - 60 seconds. The default is 20 seconds.
• rssi-threshold <-128--40> – Configures the minimum signal strength, received from
target AP, for the bridge connection to be maintained before roaming
• <-128--40> – Specify a value from -128 - -40 dBm. If the RSSI value of signals received from the infrastructure access point falls below the specified value, the clientbridge access point resumes scanning for another infrastructure access point. The
default is -75 dBm.
• – Specify the SSID.
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wpa-wpa2 psk
[0|2|]
Configures the encryption pre-shared key (PSK) to use with the infrastructure WLAN
• 0 – Configures clear text psk
• 2 – Configures encrypted psk
• – Enter the key
Note: Pre-shared keys are valid only when the authentication-type is set to none and the
encryption-type is set to tkip or ccmp.
Note: The PSK should be 8 - 32 characters in length.
Usage Guidelines EAP Authentication
Use the following commands to view client-bridge configuration:
show > wireless > bridge > config
Shows the current client bridge configuration.
2 show > wireless > bridge > candidate-ap
Shows the available infrastructure WLAN candidates that are found during the last scan.
3 show > wireless > bridge > host
Shows the wired/wireless clients that are being bridged.
4 show > wireless > bridge > statistics > rf
Shows the client bridge RF statistics.
5 show > wireless > bridge > statistics > traffic
Shows the client bridge traffic statistics.
6 show > wireless > bridge > certificate > status
Shows the client bridge authentication certificate status.
Example
The following examples show the basic parameters that need to be configured on the Infrastructure and
the client-bridge APs in order to enable the client-bridge AP to associate with the Infrastructure WLAN.
Note, in this example, the authentication mode is set to ‘none’ and the encryption-type is set to ‘ccmp’. The
authentication and encryption modes used will vary as per requirement.
Configuring the Infrastructure WLAN:
InfrastrNOC(config)#wlan cb-psk
InfrastrNOC(config-wlan-cb-psk)#ssid cb-psk
InfrastrNOC(config-wlan-cb-psk)#encryption-type ccmp
InfrastrNOC(config-wlan-cb-psk)#wpa-wpa2 psk extreme@123
InfrastrNOC(config-wlan-cb-psk)#authentication-type none
InfrastrNOC(config)#show running-config wlan cb-psk
wlan cb-psk
ssid cb-psk
bridging-mode local
encryption-type ccmp
authentication-type none
wpa-wpa2 psk 0 extreme@123
InfrastrNOC(config)#
2 Associating the ‘cb-psk’ WLAN to the Infrastructure AP’s radio.
Infra7131-5F5078(config-device-B4-C7-99-5F-50-78-if-radio2)#wlan cb-psk
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Infra7131-5F5078(config-device-B4-C7-99-5F-50-78)#show context
ap71xx B4-C7-99-5F-50-78
use profile default-ap71xx
use rf-domain default
hostname Infra7131-5F5078
country-code us
channel-list 5GHz 149,153,157,161,165
trustpoint radius-ca TP-infra-AP
trustpoint radius-server TP-infra-AP
use radius-server-policy cb-rad-srvr
interface radio2
rf-mode 5GHz-wlan
channel smart
power smart
data-rates default
wlan cb-psk bss 1 primary
no preamble-short
bridge ssid cb-psk
bridge encryption-type ccmp
bridge authentication-type none
bridge wpa-wpa2 psk 0 extreme@123
logging on
logging console debugging
controller host 192.168.9.31
Infra7131-5F5078(config-device-B4-C7-99-5F-50-78)#
3 Confirming the Infrastructure AP’s radio interface status.
Infra7131-5F5078(config)#show wireless radio
--------------------------------------------------------------------------------------------RADIO
RADIO-MAC
RF-MODE
STATE
CHANNEL
POWER #CLIENT
--------------------------------------------------------------------------------------------Infra7131-5F5078:R1 B4-C7-99-5E-51-40 2.4GHz-wlan
Off
N/A ( smt)
0 (smt)
Infra7131-5F5078:R2 B4-C7-99-5E-1A-40
5GHz-wlan
On
165 ( 165)
17 (smt)
--------------------------------------------------------------------------------------------Total number of radios displayed: 2
Infra7131-5F5078(config)#
4 Configuring the client-bridge AP’s radio parameters.
ap7532-85B274(config-device-84-24-8D-85-B2-74-if-radio2)#bridge ssid cb-psk
ap7532-85B274(config-device-84-24-8D-85-B2-74-if-radio2)#bridge encryptiontype
ccmp
ap7532-85B274(config-device-84-24-8D-85-B2-74-if-radio2)#bridge
authentication-t
ype none
ap7532-85B274(config-device-84-24-8D-85-B2-74-if-radio2)#wpa-wpa2 psk
extreme@123
ap7532-85B274(config-device-84-24-8D-85-B2-74-if-radio2)#show context
interface radio2
bridge ssid cb-psk
bridge encryption-type ccmp
bridge authentication-type none
bridge wpa-wpa2 psk 0 extreme@123
ap7532-85B274(config-device-84-24-8D-85-B2-74-if-radio2)#
Note, the SSID, encryption-type, and authentication mode are the same as that
of the Infrastructure WLAN.
5 Confirming the client-bridge AP’s radio interface status.
ap7532-85B274#show wireless radio
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--------------------------------------------------------------------------------------------RADIO
RADIO-MAC
RF-MODE
STATE
CHANNEL
POWER #CLIENT
--------------------------------------------------------------------------------------------ap7532-85B274:R1
84-24-8D-AC-2D-B0 2.4GHz-wlan
Off
N/A ( smt)
0 (smt)
ap7532-85B274:R2
84-24-8D-AC-CC-10
bridge
On
165 ( smt)
20 (smt)
--------------------------------------------------------------------------------------------Total number of radios displayed: 2
===================================================
ap7532-85B274(config-device-84-24-8D-85-B2-74)#
6 Viewing the candidate-ap (connected Infrastructure AP’s) details on the client-bridge AP.
ap7532-85B274(config-device-84-24-8D-85-B2-74)#show wireless bridge candidateap
84-24-8D-AC-CC-10 Client Bridge Candidate APs:
AP-MAC
BAND
CHANNEL SIGNAL(dbm) STATUS
B4-C7-99-5E-1A-40 5 GHz
165
-21
selected
Total number of candidates displayed: 1
Total number of client bridges displayed: 1
=======================================================
ap7532-85B274(config-device-84-24-8D-85-B2-74)#
7 Viewing the bridge host details on the client-bridge AP.
ap7532-85B274(config-device-84-24-8D-85-B2-74)#show wireless bridge hosts
----------------------------------------------------------------------------HOST MAC
BRIDGE MAC
IP
BRIDGING STATUS ACTIVITY
(sec ago)
----------------------------------------------------------------------------84-24-8D-85-B2-74
84-24-8D-AC-CC-10 10.1.0.249
UP
00:00:07
----------------------------------------------------------------------------Total number of hosts displayed: 1
ap7532-85B274(config-device-84-24-8D-85-B2-74)#
Related Commands
no
Removes or resets this client-bridge settings
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7.1.36.5.14 channel
interface-config-radio-instance
Configures a radio’s channel of operation
Only a trained installation professional should define the radio channel. Select Smart for the radio to scan
non-overlapping channels listening for beacons from other access points. After the channels are scanned,
the radio selects the channel with the fewest access points. In case of multiple access points on the same
channel, it selects the channel with the lowest average power level.
NOTE: Channels with a “w” appended to them are unique to the 40 MHz
band. Channels with a “ww” appended to them are 802.11ac specific, and
appear only when using an AP8232, and are unique to the 80 MHz band.
Supported in the following platforms:
•
Access Points — AP6521, AP6522, AP6532, AP6562, AP7161, AP7502, AP7522, AP7532, AP7562,
AP7602, AP7612, AP7622, AP7632, AP7662, AP81XX, AP8232, AP8432, AP8533
Syntax
channel [smart|acs|random|1|2|3|4|-------]
Parameters
• channel [smart|acs|random|1|2|3|4|-------]
channel
Configures a radio’s channel of operation
[smart|acs|random|1|2|3| Configures a radio’s channel of operation. The options are:
4|-------]
• smart – Uses Smart RF to assign a channel (uses uniform spectrum spreading if
Smart RF is not enabled). This is the default setting.
• acs – Uses automatic channel selection (ACS) to assign a channel
• random – Randomly assigns a channel
• 1 – Channel 1 in 20 MHz mode
• 2 – Channel 2 in 20 MHz mode
Example
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#channel 1
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#show context
interface radio1
channel 1
beacon period 50
beacon dtim-period bss 1 5
beacon dtim-period bss 2 2
........................................................................
beacon dtim-period bss 14 5
beacon dtim-period bss 15 5
beacon dtim-period bss 16 5
antenna-gain 12.0
aggregation ampdu tx-only
aeroscout forward
antenna-mode 2x2
antenna-diversity
--More-rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#
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Related Commands
no
Resets a radio’s channel of operation
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7.1.36.5.15 data-rates
interface-config-radio-instance
Configures the 802.11 data rates on this radio
This command sets the rate options depending on the 802.11 protocol and the radio band selected. If 2.4
GHz is selected as the radio band, select separate 802.11b, 802.11g and 802.11n rates and define how they
are used in combination. If 5.0 GHz is selected as the radio band, select separate 802.11a and 802.11n rates
then define how they are used together.
If dedicating the radio to either 2.4 or 5.0 GHz support, use the custom keyword to set a 802.11n
modulation and coding scheme (MCS) in respect to the radio’s channel width and guard interval. A MCS
defines (based on RF channel conditions) an optimal combination of rates, bonded channels, multiple
spatial streams, different guard intervals and modulation types. Clients can associate as long as they
support basic MCS (as well as non-11n basic rates).
Data rates are fixed and not user configurable for radios functioning as sensors.
NOTE: Use the rf-mode command to configure a radio’s mode of operation.
NOTE: The MCS-1s and MCS-2s options are available for each supported
access point. However, the MCS-3s option is only available to the AP8232
model access point, and its ability to provide 3x3x3 MIMO support.
Supported in the following platforms:
•
Access Points — AP6521, AP6522, AP6532, AP6562, AP7161, AP7502, AP7522, AP7532, AP7562,
AP7602, AP7612, AP7622, AP7632, AP7662, AP81XX, AP8232, AP8432, AP8533
Syntax
data-rates [b-only|g-only|a-only|bg|bgn|gn|an|default|custom|mcs]
data-rates [b-only|g-only|a-only|bg|bgn|gn|an|default]
data-rates custom [1|2|5.5|6|9|11|12|18|24|36|48|54|mcs-1s|mcs-2s|mcs-3s|basic-1|
basic-2|basic-5.5|basic-6|basic-9|basic-11|basic-12|basic-18|basic-24|basic-36|
basic-48|basic-54|basic-mcs-1s]
data-rates mcs qam-only
Parameters
• data-rates [b-only|g-only|a-only|bg|bgn|gn|an|default]
data-rates
Configures the 802.11 data rates on this radio
b-only
Supports operation in the 802.11b mode only (applicable for 2.4 and 4.9 GHz bands)
g-only
Uses rates that support operation in the 802.11g mode only (applicable for 2.4 and 4.9
GHz bands)
a-only
Uses rates that support operation in the 802.11a mode only (applicable for 5.0 GHz
band only)
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bg
Uses rates that support 802.11b and 802.11g wireless clients (applicable for 2.4 and 4.9
GHz bands)
bgn
Uses rates that support 802.11b, 802.11g, and 802.11n wireless clients (applicable for 2.4
and 4.9 GHz bands)
gn
Uses rates that support 802.11g and 802.11n wireless clients (applicable for 2.4 and 4.9
GHz bands)
an
Uses rates that support 802.11a and 802.11n wireless clients (applicable for 5.0 GHz
band only)
default
Enables the default data rates according to the radio’s band of operation
• data-rates custom [1|2|5.5|6|9|11|12|18|24|36|48|54||mcs-1s|mcs-2s|mcs-3s|
basic-1|basic-2|basic-5.5|basic-6|basic-9|basic-11|basic-12|basic-18|basic-24|
basic-36|basic-48|basic-54|basic-mcs-1s]
data-rates
Configures the 802.11 data rates on this radio
custom
Configures a list of data rates by specifying each rate individually. Use 'basic-' prefix
before a rate to indicate it’s used as a basic rate (For example, 'data-rates custom
basic-1 basic-2 5.5 11')
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
1 – 1-Mbps
2 – 2-Mbps
5.5 – 5.5-Mbps
6 – 6-Mbps
9 – 9-Mbps
11 – 11-Mbps
12 – 12-Mbps
18 – 18-Mbps
24 – 24-Mbps
36 – 36-Mbps
48 – 48-Mbps
54 – 54-Mbps
mcs-1s – Applicable to 1-spatial stream data rates
mcs-2s – Applicable to 2-spatial stream data rates
mcs-3s – Applicable to 3-spatial stream data rates (supported only on AP8232 for the
MIMO feature)
basic-1 – Basic 1-Mbps
basic-2 – Basic 2-Mbps
basic-5.5 – Basic 5.5-Mbps
basic-6 – Basic 6-Mbps
basic-9 – Basic 9-Mbps
basic-11 – Basic 11-Mbps
basic-12 – Basic 12-Mbps
basic-18 – Basic 18-Mbps
basic-24 – Basic 24-Mbps
basic-36 – Basic 36-Mbps
Contd..
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• basic-48 – Basic 48-Mbps
• basic-54 – Basic 54-Mbps
• basic-mcs-1s – Modulation and Coding Scheme data rates for 1 Spatial Stream
Note: Refer to the Usage Guidelines (Supported data rates) section for 802.11an and
802.11ac MCS detailed dates rates for both with and without short guard intervals (SGI).
• data-rates mcs qam-only
data-rates
Configures the 802.11 data rates on this radio
mcs qam-only
Configures supports for MCS QAM data rates only
Usage Guidelines (Supported data rates)
The following table defines the 802.11n MCS for MCS 1 streams, both with and without SGI:
MCS-1Stream Index
Number of
Streams
20 MHz No SGI 20 MHz With
SGI
40 MHz No SGI 20 MHz With
SGI
6.5
13
19.5
26
39
52
58.5
65
13.5
27
40.5
54
81
108
121.5
135
7.2
14.4
21.7
28.9
43.4
57.8
65
72.2
15
30
45
60
90
120
135
150
The following table defines the 802.11n MCS for MCS 2 streams, both with and without SGI:
MCS-2Stream Index
Number of
Streams
20 MHz No SGI 20 MHz With
SGI
40 MHz No SGI 20 MHz With
SGI
13
26
39
52
78
104
117
130
27
54
81
108
162
216
243
270
14.4
28.9
43.4
57.8
86.7
115.6
130
144.4
30
60
90
120
180
240
270
300
The following table defines the 802.11n MCS for MCS 3 streams, both with and without SGI:
MCS-3Stream Index
Number of
Streams
20 MHz No SGI 20 MHz With
SGI
40 MHz No
SGI
20 MHz With SGI
19.5
39
58.5
78
117
156
175.5
195
40.5
81
121.5
162
243
324
364.5
405
45
90
135
180
270
360
405
450
21.7
43.3
65
86.7
130.7
173.3
195
216.7
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The following table defines the 802.11ac MCS rates (theoretical throughput for single spatial streams) both
with and without SGI:
MCS Index 20 MHz No SGI 20 MHz With
SGI
40 MHz No SGI 40 MHz With
SGI
80 MHz No SGI 80 MHz No SGI
13.5
27
40.5
54
81
108
121.5
135
162
180
29.3
58.5
87.8
117
175.5
234
263.3
292,5
351
390
6.5
13
19.5
26
39
52
58.5
65
78
N/A
7.2
14.4
21.7
28.9
43.3
57.8
65
72.2
86.7
N/A
15
30
45
60
90
120
135
150
180
200
32.5
65
97.5
130
195
260
292.5
325
390
433.3
Example
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#data-rates b-only
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#show context
interface radio1
channel 1
data-rates b-only
beacon period 50
beacon dtim-period bss 1 5
beacon dtim-period bss 2 2
beacon dtim-period bss 3 5
........................................................
beacon dtim-period bss 13 5
beacon dtim-period bss 14 5
beacon dtim-period bss 15 5
beacon dtim-period bss 16 5
antenna-gain 12.0
aggregation ampdu tx-only
aeroscout forward
--More-rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#
Related Commands
no
Resets the 802.11 data rates on a radio
rf-mode
Configures the radio’s RF mode of operation
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7.1.36.5.16 description
interface-config-radio-instance
Configures the selected radio’s description that helps differentiate it from other radios with similar
configurations
Supported in the following platforms:
•
Access Points — AP6521, AP6522, AP6532, AP6562, AP7161, AP7502, AP7522, AP7532, AP7562,
AP7602, AP7612, AP7622, AP7632, AP7662, AP81XX, AP8232, AP8432, AP8533
Syntax
description
Parameters
• description
description
Provide a description for the selected radio (should not exceed 64 characters in
length).
Example
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#description "Primary
radio to use"
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#show context
interface radio1
description "Primary radio to use"
channel 1
data-rates b-only
beacon period 50
beacon dtim-period bss 1 5
beacon dtim-period bss 2 2
beacon dtim-period bss 3 5
beacon dtim-period bss 4 5
beacon dtim-period bss 5 5
beacon dtim-period bss 6 5
beacon dtim-period bss 7 5
beacon dtim-period bss 8 5
beacon dtim-period bss 9 5
beacon dtim-period bss 10 5
beacon dtim-period bss 11 5
beacon dtim-period bss 12 5
beacon dtim-period bss 13 5
beacon dtim-period bss 14 5
beacon dtim-period bss 15 5
beacon dtim-period bss 16 5
antenna-gain 12.0
aggregation ampdu tx-only
--More-rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#
Related Commands
no
Removes a radio’s description
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7.1.36.5.17 dfs-rehome
interface-config-radio-instance
Reverts to configured home channel once the Dynamic Frequency Selection (DFS) evacuation period
expires
NOTE: This option is applicable only if the radio’s RF mode is set to ‘5GHzwlan’.
Supported in the following platforms:
•
Access Points — AP6521, AP6522, AP6532, AP6562, AP7161, AP7502, AP7522, AP7532, AP7562,
AP7602, AP7612, AP7622, AP7632, AP7662, AP81XX, AP8232, AP8432, AP8533
Syntax
dfs-rehome {holdtime <30-3600>}
Parameters
• dfs-rehome {holdtime <30-3600>}
dfs-rehome
{holdtime <303600>}
Enables the radio to revert to the configured home channel once the DFS evacuation
period expires
• holdtime – Optional. Specifies the duration, in minutes, to stay in the new channel
• <30-3600> – Specify the holdtime from 30 - 3600 minutes. The default is 90 minutes.
Example
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#dfs-rehome holdtime 500
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#show context
interface radio1
dfs-rehome holdtime 500
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#
Related Commands
no
Stays on DFS elected channel after evacuation period expires
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7.1.36.5.18 dynamic-chain-selection
interface-config-radio-instance
Enables automatic antenna mode selection. When enabled, the radio can dynamically change the number
of transmit chains used (uses a single chain/antenna for frames at non-11n transmit rates). This option is
enabled by default.
Supported in the following platforms:
•
Access Points — AP6521, AP6522, AP6532, AP6562, AP7161, AP7502, AP7522, AP7532, AP7562,
AP7602, AP7612, AP7622, AP7632, AP7662, AP81XX, AP8232, AP8432, AP8533
Syntax
dynamic-chain-selection
Parameters
None
Example
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#dynamic-chain-selection
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#
Related Commands
no
Uses the configured transmit antenna mode for all clients
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7.1.36.5.19 ekahau
interface-config-radio-instance
Enables Ekahau multicast packet forwarding. When enabled, Ekahau small, battery powered Wi-Fi tags are
attached to tracked assets or assets carried by people. Ekahau processes locations, rules, messages, and
environmental data and turns the information into locationing maps, alerts and reports.
Supported in the following platforms:
•
Access Points — AP6521, AP6522, AP6532, AP6562, AP7161, AP7502, AP7522, AP7532, AP7562,
AP7602, AP7612, AP7622, AP7632, AP7662, AP81XX, AP8232, AP8432, AP8533
Syntax
ekahau [forward ip port <0-65535>|mac ]
Parameters
• ekahau [forward ip port <0-65535>|mac ]
ekahau
Enables Ekahau multicast packet forwarding on this radio
forward ip
port <0-65535>
Enables multicast packet forwarding to the Ekahau engine
• ip – Configures the IP address of the Ekahau engine in the A.B.C.D format
• port <0-65535> – Specifies the TaZman Sniffer Protocol (TZSP) port on Ekahau
engine from 0 - 65535
TZSP is an encapsulation protocol, which is generally used to wrap 802.11 wireless
packets.
mac
Configures the multicast MAC address to forward the Ekahau multicast packets
• – Specify the MAC address in the AA-BB-CC-DD-EE-FF format.
Example
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#ekahau forward ip
172.16.10.1 port 3
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#show context
interface radio1
description "Primary radio to use"
channel 1
data-rates b-only
beacon period 50
beacon dtim-period bss 1 5
beacon dtim-period bss 2 2
beacon dtim-period bss 3 5
beacon dtim-period bss 4 5
beacon dtim-period bss 5 5
beacon dtim-period bss 6 5
beacon dtim-period bss 7 5
.................................................
beacon dtim-period bss 16 5
antenna-gain 12.0
aggregation ampdu tx-only
aeroscout forward
ekahau forward ip 172.16.10.1 port 3
antenna-mode 2x2
--More-rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#
Related Commands
no
Uses default Ekahau multicast MAC address
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7.1.36.5.20 extended-range
interface-config-radio-instance
Enables the extended range capability for AP7161 model access point. When enabled, these access points
can exchange signals with their clients at greater distances without being timed out. This option is disabled
by default.
Supported in the following platforms:
•
Access Point — AP7161
Syntax
extended-range <1-25>
Parameters
• extended-range <1-25>
extended-range <1-25>
Configures extended range on this radio interface from 1 - 25 kilometers. The
default is 2 km on 2.4 GHz band and 7 km on 5.0 GHz band.
Example
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#extended-range 15
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#show context
interface radio1
description "Primary radio to use"
channel 1
data-rates b-only
beacon period 50
beacon dtim-period bss 1 5
beacon dtim-period bss 2 2
beacon dtim-period bss 3 5
beacon dtim-period bss 4 5
beacon dtim-period bss 5 5
beacon dtim-period bss 6 5
beacon dtim-period bss 7 5
beacon dtim-period bss 8 5
beacon dtim-period bss 9 5
beacon dtim-period bss 10 5
beacon dtim-period bss 11 5
beacon dtim-period bss 12 5
beacon dtim-period bss 13 5
beacon dtim-period bss 14 5
beacon dtim-period bss 15 5
beacon dtim-period bss 16 5
antenna-gain 12.0
aggregation ampdu tx-only
aeroscout forward
ekahau forward ip 172.16.10.1 port 3
antenna-mode 2x2
antenna-diversity
airtime-fairness prefer-ht weight 6
extended-range 15
--More-rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#
Related Commands
no
Resets the extended range to default (7 km for 2.4 GHz and 5 km for 5.0 GHz)
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7.1.36.5.21 fallback-channel
interface-config-radio-instance
Configures the channel to which the radio switches in case of radar detection on the current channel
Supported in the following platforms:
•
Access Points — AP6521, AP6522, AP6532, AP6562, AP7161, AP7502, AP7522, AP7532, AP7562,
AP7602, AP7612, AP7622, AP7632, AP7662, AP81XX, AP8232, AP8432, AP8533
Syntax
fallback-channel [100|100w|100ww|104|104w|104ww|108|108w...............]
Parameters
• fallback-channel [100|100w|100ww|104|104w|104ww|108|108w...............]
fallback-channel
[100|100w|...........]
Configures the fallback channel. This is the channel the radio switches to in case a
radar is detected on the radio’s current operating channel.
• [100|100w|100ww|...] – Select the fall back channel from the available options.
Note: Channels with a “w” appended to them are unique to the 40 MHz band. Channels
with a “ww” appended to them are 802.11ac specific, and appear only when using an
AP8232, and are unique to the 80 MHz band.
Example
nx9500-6C8809(config-profile-testAP81XX-if-radio2)#fallback-channel 104
NOTE: Functionality is supported only in the US regulatory domain and only a nondfs channel can be configured as a fallback channel
nx9500-6C8809(config-profile-testAP81XX-if-radio2)#show context
interface radio2
fallback-channel 104
nx9500-6C8809(config-profile-testAP81XX-if-radio2)#
Related Commands
no
Removes the fallback-channel configuration
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7.1.36.5.22 guard-interval
interface-config-radio-instance
Configures the 802.11n guard interval. A guard interval ensures distinct transmissions do not interfere with
one another. It provides immunity to propagation delays, echoes and reflection of radio signals.
The guard interval is the space between transmitted characters. The guard interval eliminates inter symbol
interference (ISI). ISI which occurs when echoes or reflections from one symbol interferes with another.
Adding time between transmissions allows echoes and reflections to settle before the next symbol is
transmitted. A shorter guard interval results in shorter symbol times, which reduces overhead and increases
data rates by up to 10%.
Supported in the following platforms:
•
Access Points — AP6521, AP6522, AP6532, AP6562, AP7161, AP7502, AP7522, AP7532, AP7562,
AP7602, AP7612, AP7622, AP7632, AP7662, AP81XX, AP8232, AP8432, AP8533
Syntax
guard-interval [any|long]
Parameters
• guard-interval [any|long]
guard-interval
Configures the 802.11n guard interval
any
Enables the radio to use any short (400nSec) or long (800nSec) guard interval
long
Enables the use of long guard interval (800nSec). This is the default setting.
Example
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#guard-interval long
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#show context
interface radio1
description "Primary radio to use"
channel 1
data-rates b-only
beacon period 50
beacon dtim-period bss 1 5
beacon dtim-period bss 2 2
beacon dtim-period bss 3 5
beacon dtim-period bss 4 5
beacon dtim-period bss 5 5
beacon dtim-period bss 6 5
beacon dtim-period bss 7 5
beacon dtim-period bss 8 5
beacon dtim-period bss 9 5
beacon dtim-period bss 10 5
beacon dtim-period bss 11 5
beacon dtim-period bss 12 5
beacon dtim-period bss 13 5
beacon dtim-period bss 14 5
beacon dtim-period bss 15 5
beacon dtim-period bss 16 5
antenna-gain 12.0
guard-interval long
--More-rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#
Related Commands
no
Resets the 802.11n guard interval to default (long: 800nSec)
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7.1.36.5.23 ldpc
interface-config-radio-instance
Enables support for Low Density Parity Check (LDPC) codes on the radio interface
LDPC consists of forward error correcting codes that enable error control in data transmission. This option
is disabled by default.
Supported in the following platforms:
•
Access Points — AP6521, AP6522, AP6532, AP6562, AP7161, AP7502, AP7522, AP7532, AP7562,
AP7602, AP7612, AP7622, AP7632, AP7662, AP81XX, AP8232, AP8432, AP8533
Syntax
ldpc
Parameters
None
Example
rfs4000-229D58(config-profile-Test81XX-if-radio1)#ldpc
rfs4000-229D58(config-profile-Test81XX-if-radio1)#show context
interface radio1
ldpc
rfs4000-229D58(config-profile-Test81XX-if-radio1)#
Related Commands
no
Disables LDPC support
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7.1.36.5.24 lock-rf-mode
interface-config-radio-instance
Retains user configured RF mode settings for the selected radio. This option is disabled by default.
Supported in the following platforms:
•
Access Points — AP6521, AP6522, AP6532, AP6562, AP7161, AP7502, AP7522, AP7532, AP7562,
AP7602, AP7612, AP7622, AP7632, AP7662, AP81XX, AP8232, AP8432, AP8533
Syntax
lock-rf-mode
Parameters
None
Example
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#lock-rf-mode
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#show context
interface radio1
description "Primary radio to use"
channel 1
data-rates b-only
beacon period 50
beacon dtim-period bss 1 5
beacon dtim-period bss 2 2
beacon dtim-period bss 3 5
beacon dtim-period bss 4 5
beacon dtim-period bss 5 5
beacon dtim-period bss 6 5
beacon dtim-period bss 7 5
beacon dtim-period bss 8 5
beacon dtim-period bss 9 5
beacon dtim-period bss 10 5
beacon dtim-period bss 11 5
beacon dtim-period bss 12 5
beacon dtim-period bss 13 5
beacon dtim-period bss 14 5
beacon dtim-period bss 15 5
beacon dtim-period bss 16 5
antenna-gain 12.0
guard-interval long
aggregation ampdu tx-only
aeroscout forward
ekahau forward ip 172.16.10.1 port 3
antenna-mode 2x2
antenna-diversity
airtime-fairness prefer-ht weight 6
lock-rf-mode
extended-range 15
--More-rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#
Related Commands
no
Allows Smart RF to change a radio’s RF mode settings
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7.1.36.5.25 max-clients
interface-config-radio-instance
Configures the maximum number of wireless clients allowed to associate with this radio
Supported in the following platforms:
•
Access Points — AP6521, AP6522, AP6532, AP6562, AP7161, AP7502, AP7522, AP7532, AP7562,
AP7602, AP7612, AP7622, AP7632, AP7662, AP81XX, AP8232, AP8432, AP8533
Syntax
max-clients <0-256>
Parameters
• max-clients <0-256>
max-clients <0-256>
Configures the maximum number of clients allowed to associate with a radio,
subject to the access point’s limit. Specify a value from 0 - 256. The default is 256.
Note: The AP6511 and AP6521 model access points can only support 128 clients.
Example
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#max-clients 100
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#show context
interface radio1
description "Primary radio to use"
channel 1
data-rates b-only
beacon period 50
beacon dtim-period bss 1 5
beacon dtim-period bss 2 2
..............................................
beacon dtim-period bss 12 5
beacon dtim-period bss 13 5
beacon dtim-period bss 14 5
beacon dtim-period bss 15 5
beacon dtim-period bss 16 5
antenna-gain 12.0
guard-interval long
aggregation ampdu tx-only
aeroscout forward
ekahau forward ip 172.16.10.1 port 3
antenna-mode 2x2
antenna-diversity
max-clients 100
airtime-fairness prefer-ht weight 6
lock-rf-mode
extended-range 15
antenna-downtilt
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#
Related Commands
no
Resets the maximum number of wireless clients allowed to associate with a radio
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7.1.36.5.26 mesh
interface-config-radio-instance
Use this command to configure radio mesh parameters. A Wireless Mesh Network (WMN) is a network of
radio nodes organized in a mesh topology. It consists of mesh clients, mesh routers, and gateways.
Each radio setting can have a unique mesh mode and link configuration. This provides a customizable set
of connections to other mesh supported radios within the same radio coverage area.
Supported in the following platforms:
•
Access Points — AP6521, AP6522, AP6532, AP6562, AP7161, AP7502, AP7522, AP7532, AP7562,
AP81XX, AP8232, AP8432, AP8533
Syntax
mesh [client|links|portal|preferred-peer|psk]
mesh [client|links <1-6>|portal|preferred-peer <1-6> |psk [0 |2 |
]]
Parameters
• mesh [client|links <1-6>|portal|preferred-peer <1-6> |psk [0 |2
|]]
mesh
Configures radio mesh parameters, such as maximum number of mesh links, preferred
peer device, client operations, etc.
client
Enables operation as a client
Setting the mesh mode to ‘client’ enables the radio to operate as a mesh client that
scans for and connects to mesh portals or nodes that are connected to portals.
links <1-6>
Configures the maximum number of mesh links a radio attempts to create
• <1-6> – Sets the maximum number of mesh links from 1 - 6. The default is 6.
portal
Enables operation as a portal
Setting the mesh mode to ‘portal’ turns the radio into a mesh portal. The radio starts
beaconing immediately and accepts connections from other mesh nodes, typically the
node with a connection to the wired network.
preferred-peer <1-6>
Configures a preferred peer device
• <1-6> – Configures the priority at which the peer node will be added
When connecting to the mesh infrastructure, nodes with lower priority are given
precedence over nodes with higher priority.
• – Sets the MAC address of the preferred peer device (Ethernet MAC of either
a AP, wireless controller, or service platform with onboard radios)
psk [0 |2
| ]
Configures the pre-shared key. Ensure this key is configured on the access point when
staged for mesh, and added to the mesh client and to the portal access point’s
configuration on the controller or service platform.
• 0 – Enter a clear text key
• 2 – Enter an encrypted key
• – Enter the pre-shared key
Pre-shared keys should be 8 - 64 characters in length.
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Example
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#mesh client
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#show context
interface radio1
description "Primary radio to use"
channel 1
data-rates b-only
mesh client
beacon period 50
--More-rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#
Related Commands
no
Disables mesh mode operation of the selected radio
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7.1.36.5.27 meshpoint
interface-config-radio-instance
Maps an existing meshpoint to this radio
Use this command to assign each WLAN its own BSSID. If using a single-radio access point, there are 8
BSSIDs available. If using a dual-radio access point there are 8 BSSIDs for the 802.11b/g/n radio and 8
BSSIDs for the 802.11a/n radio.
Supported in the following platforms:
•
Access Points — AP6521, AP6522, AP6532, AP6562, AP7161, AP7502, AP7522, AP7532, AP7562,
AP81XX, AP8232, AP8432, AP8533
Syntax
meshpoint {bss <1-16>}
Parameters
• meshpoint {bss <1-16>}
meshpoint
Maps a meshpoint to this radio. Specify the meshpoint name.
bss <1-16>
Optional. Specifies the radio’s BSS where this meshpoint is mapped
• <1-16> – Specify the BSS number from 1 - 16.
Example
rfs6000-37FABE(config-profile-ap71xxTest-if-radio1)#meshpoint test bss 7
rfs6000-37FABE(config-profile-ap71xxTest-if-radio1)#show context
interface radio1
meshpoint test bss 7
rfs6000-37FABE(config-profile-ap71xxTest-radio1)#
Related Commands
no
Disables meshpoint on the selected radio
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7.1.36.5.28 mu-mimo
interface-config-radio-instance
Enables multi-user multiple input multiple output (MU-MIMO) support on the selected radio. When
enabled, multiple users are able to simultaneously access the same channel using the spatial degrees of
freedom offered by MIMO.
Supported in the following platforms:
•
Access Points — AP7532, AP7562, AP81XX, AP8232, AP8432, AP8533
Syntax
mu-mimo
Parameters
None
Example
nx9500-6C8809(config-profile-TestAP81xx-if-radio1)#mu-mimo
nx9500-6C8809(config-profile-TestAP81xx-if-radio1)#show context include-factory |
include mu-mimo
mu-mimo
nx9500-6C8809(config-profile-TestAP81xx-if-radio1)#
ap7532-80C2AC(config-device-84-24-8D-80-C2-AC-if-radio1)#mu-mimo
ap7532-80C2AC(config-device-84-24-8D-80-C2-AC-if-radio1)#show context includefactory | include mu-mimo
mu-mimo
ap7532-80C2AC(config-device-84-24-8D-80-C2-AC-if-radio1)#
Related Commands
no
Disables mu-mimo on the selected radio
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7.1.36.5.29 no
interface-config-radio-instance
Negates a command or resets settings to their default. When used in the profile/device > radio interface
configuration mode, the no command disables or resets radio interface settings.
Supported in the following platforms:
•
Access Points — AP6521, AP6522, AP6532, AP6562, AP7161, AP7502, AP7522, AP7532, AP7562,
AP7602, AP7612, AP7622, AP7632, AP7662, AP81XX, AP8232, AP8432, AP8533
Syntax
no
Parameters
• no
no
Removes or reverts this radio interface’s settings based on the parameters passed
Usage Guidelines
The no command negates any command associated with it. Wherever required, use the same parameters
associated with the command getting negated.
Example
rfs6000-37FABE(config-profile-ap71xxTest-if-radio1)#no ?
adaptivity
Adaptivity
aeroscout
Use Default Aeroscout Multicast MAC Address
aggregation
Configure 802.11n aggregation related parameters
airtime-fairness
Disable fair access to medium for clients,
provide access in a round-robin mode
antenna-diversity
Use single antenna for non-11n transmit rates
antenna-downtilt
Reset ADEPT antenna mode
antenna-elevation
Reset the antenna elevation of this radio to
default
antenna-gain
Reset the antenna gain of this radio to default
antenna-mode
Reset the antenna mode (number of transmit and
receive antennas) on the radio to its default
assoc-response
Configure transmission parameters for
Association Response frames
association-list
Configure the association list for the radio
beacon
Configure beacon parameters
bridge
Bridge rf-mode related configuration
channel
Reset the channel of operation of this radio to
default
data-rates
Reset radio data rate configuration to default
description
Reset the description of the radio to its
default
dfs-rehome
Stay on dfs elected channel after evacuation
period expires
dynamic-chain-selection
Use the configured transmit antenna mode for all
clients
ekahau
Use Default Ekahau Multicast MAC Address
extended-range
Reset extended range to default
fallback-channel
Clear the DFS fallback channel for this radio
guard-interval
Configure default value of 802.11n guard
interval (long: 800nSec)
ldpc
Configure support for Low Density Parity Check
Code
lock-rf-mode
Allow smart-rf to change rf-mode setting for
this radio
max-clients
Maximum number of wireless clients allowed to
associate
mesh
Disable mesh mode operation of the radio
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meshpoint
mu-mimo
wireless-client
wlan
Disable a meshpoint from this radio
Disable multi user MIMO on this radio (selected
platforms only)
Configure handling of non-unicast frames
Disable off-channel scanning on the radio
Reset the placement of the radio to its default
Reset the transmit power of this radio to
default
Disable the use of short-preamble on this radio
Configure transmission parameters for Probe
Response frames
Configure support for 802.11k Radio Resource
Measurement
Configure the radio-share mode of operation for
this radio
Monotonic rate selection
Reset the RF mode of operation for this radio to
default (2.4GHz on radio1, 5GHz on radio2,
sensor on radio3)
Configure Reduced Interframe Spacing (RIFS)
parameters
Reset the RTS threshold to its default (65536)
Re-enable the selected interface
Reset smart-rf related configuration to default
Disable capture and redirection of packets
Configure Space-Time Block Coding (STBC)
parameters
Disable Transmit Beamforming
Set setting to use
Wireless intrusion prevention related
configuration
Configure wireless client related parameters
Disable a wlan from this radio
service
Service Commands
non-unicast
off-channel-scan
placement
power
preamble-short
probe-response
radio-resource-measurement
radio-share-mode
rate-selection
rf-mode
rifs
rts-threshold
shutdown
smart-rf
sniffer-redirect
stbc
transmit-beamforming
use
wips
rfs6000-37FABE(config-profile-ap71xxTest-if-radio1)#
The following example shows radio interface settings before the ‘no’ commands are executed:
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#show context
interface radio1
description "Primary radio to use"
channel 1
data-rates b-only
mesh client
beacon period 50
beacon dtim-period bss 1 5
beacon dtim-period bss 2 2
beacon dtim-period bss 3 5
beacon dtim-period bss 4 5
beacon dtim-period bss 5 5
beacon dtim-period bss 6 5
beacon dtim-period bss 7 5
beacon dtim-period bss 8 5
beacon dtim-period bss 9 5
beacon dtim-period bss 10 5
beacon dtim-period bss 11 5
beacon dtim-period bss 12 5
beacon dtim-period bss 13 5
beacon dtim-period bss 14 5
beacon dtim-period bss 15 5
beacon dtim-period bss 16 5
antenna-gain 12.0
guard-interval long
aggregation ampdu tx-only
aeroscout forward
ekahau forward ip 172.16.10.1 port 3
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antenna-mode 2x2
antenna-diversity
max-clients 100
airtime-fairness prefer-ht weight 6
lock-rf-mode
extended-range 15
antenna-downtilt
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#no
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#no
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#no
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#no
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#no
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#no
channel
antenna-gain
description
antenna-mode
beacon dtim-period
beacon period
The following example shows radio interface settings after the ‘no’ commands are executed:
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#show context
interface radio1
data-rates b-only
mesh client
guard-interval long
aggregation ampdu tx-only
aeroscout forward
ekahau forward ip 172.16.10.1 port 3
antenna-diversity
max-clients 100
airtime-fairness prefer-ht weight 6
lock-rf-mode
extended-range 15
antenna-downtilt
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#
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7.1.36.5.30 non-unicast
interface-config-radio-instance
Configures support for forwarding of non-unicast (multicast and broadcast) frames on this radio
Supported in the following platforms:
•
Access Points — AP6521, AP6522, AP6532, AP6562, AP7161, AP7502, AP7522, AP7532, AP7562,
AP7602, AP7612, AP7622, AP7632, AP7662, AP81XX, AP8232, AP8432, AP8533
Syntax
non-unicast [forwarding|queue|tx-rate]
non-unicast forwarding [follow-dtim|power-save-aware]
non-unicast queue [<1-200>|bss]
non-unicast queue [<1-200>|bss <1-16> <1-200>]
non-unicast tx-rate [bss <1-16>|dynamic-all|dynamic-basic|highest-basic|lowestbasic]
non-unicast tx-rate bss <1-16> [dynamic-all|dynamic-basic|highest-basic|lowestbasic]
Parameters
• non-unicast forwarding [follow-dtim|power-save-aware]
non-unicast forwarding Enables non-unicast frame forwarding on this radio. Once enabled, select one of the
available options to specify whether these frames should always follow DTIM, or only
follow DTIM when using power save aware mode.
follow-dtim
Specifies frames always wait for the DTIM interval to time out. The DTIM interval is
configured using the beacon command. This is the default setting.
power-save-aware
Enables immediate forwarding of frames only if all associated wireless clients are in
the power save mode
• non-unicast queue [<1-200>|bss <1-16> <1-200>]
non-unicast queue
Enables non-unicast frame forwarding on this radio. Once enabled, specify the
number of broadcast packets queued per BSS on this radio. This option is enabled
by default.
This command also enables you to override the default on a specific BSS.
<1-200>
Specify a number from 1 - 200. This value applies to all BSSs. The default is 50
frames per BSS.
bss <1-16> <1-200>
Overrides the default on a specified BSS
• <1-16> – Select the BSS number from 1 - 16.
• <1-200> – Specify the number of broadcast packets queued for the selected BSS
from 1 - 200.
• non-unicast tx-rate [bss <1-16>|dynamic-all|dynamic-basic|highest-basic|
lowest-basic]
non-unicast tx-rate
Enables non-unicast frame forwarding on this radio. Once enabled, use one of the
available options to configure the rate at which these frames are transmitted.
bss <1-16>
Overrides the default on a specified BSS
• <1-16> – Select the BSS number from 1 - 16. The transmit rate selected is applied only
to the BSS specified here. The tx-rate options are: dynamic-all, dynamic-basic,
highest-basic, lowest-basic.
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dynamic-all
Dynamically selects a rate from all supported rates based on current traffic
conditions
dynamic-basic
Dynamically selects a rate from all supported basic rates based on current traffic
conditions
highest-basic
Uses the highest configured basic rate. This is the default setting.
lowest-basic
Uses the lowest configured basic rate
Example
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#non-unicast queue bss 2
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#non-unicast tx-rate bss
1 dynamic-all
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#show context
interface radio1
data-rates b-only
mesh client
guard-interval long
aggregation ampdu tx-only
aeroscout forward
ekahau forward ip 172.16.10.1 port 3
non-unicast tx-rate bss 1 dynamic-all
non-unicast tx-rate bss 2 highest-basic
non-unicast tx-rate bss 3 highest-basic
non-unicast tx-rate bss 4 highest-basic
non-unicast tx-rate bss 5 highest-basic
non-unicast tx-rate bss 6 highest-basic
non-unicast tx-rate bss 7 highest-basic
non-unicast tx-rate bss 8 highest-basic
non-unicast tx-rate bss 9 highest-basic
non-unicast tx-rate bss 10 highest-basic
non-unicast tx-rate bss 11 highest-basic
non-unicast tx-rate bss 12 highest-basic
non-unicast tx-rate bss 13 highest-basic
non-unicast tx-rate bss 14 highest-basic
non-unicast tx-rate bss 15 highest-basic
non-unicast tx-rate bss 16 highest-basic
non-unicast queue bss 1 50
non-unicast queue bss 2 3
--More-antenna-diversity
max-clients 100
airtime-fairness prefer-ht weight 6
lock-rf-mode
extended-range 15
antenna-downtilt
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#
Related Commands
no
Resets the handling of non-unicast frames to its default
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7.1.36.5.31 off-channel-scan
interface-config-radio-instance
Enables off channel scanning on this radio. This option is disabled by default.
Channel scanning uses the access point’s resources and is time consuming. Therefore, enable this option
only if the radio has the bandwidth to support channel scan without negatively impacting client support.
Supported in the following platforms:
•
Access Points — AP6521, AP6522, AP6532, AP6562, AP7161, AP7522, AP7532, AP7562, AP7602,
AP7612, AP7622, AP7632, AP7662, AP81XX, AP8232, AP8432, AP8533
Syntax
off-channel-scan {channel-list|max-multicast|scan-interval|sniffer-redirect}
off-channel-scan {channel-list [2.4Ghz|5Ghz]} {}
off-channel-scan {max-multicast <0-100>|scan-interval <2-100>}
off-channel-scan {sniffer-redirect tzsp }
Parameters
• off-channel-scan {channel-list [2.4Ghz|5Ghz]} {}
off-channel-scan
Enables off-channel scanning and configures related parameters. These parameters
are optional, and the system configures default settings if no values are specified.
channel-list
[2.4GHz|5GHz]
Optional. Selects the 2.4GHz or 5GHz access point radio band. Restricting off
channel scans to specific channels frees bandwidth otherwise utilized for scanning
across all channels.
• 2.4GHz – Selects the 2.4 GHz band
• 5GHz – Selects the 5.0 GHz band
Optional. Specifies a list of 20 MHz, 40 MHz, or 80 MHz channels for the selected
band (the channels are separated by commas or hyphens)
• off-channel-scan {max-multicast <0-100>|scan-interval <2-100>}
off-channel-scan
Enables off-channel scanning and configures related parameters. These parameters
are optional, and the system configures default settings if no values are specified.
max-multicast <0-100>
Optional. Configures the maximum multicast/broadcast messages used to perform
OCS
• <0-100> – Specify a value from 0 - 100. The default is 4.
scan-interval <2-100>
Optional. Configures the scan interval in dtims
• <2-100> – Specify a value from 2 - 100. The default is 20 dtims.
• off-channel-scan {sniffer-redirect tzsp }
off-channel-scan
Enables off-channel scanning and configures related parameters. These parameters
are optional, and the system configures default settings if no values are specified.
sniffer-redirect tzsp Optional. Captures and redirects packets to a host running a packet capture/
analysis tool. Use this command to configure the IP address of the host.
• tzsp – Encapsulates captured packets in TZSP before redirecting to the specified
host
• – Specify the destination device IP address.
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Example
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#off-channel-scan
channel-list 2.4GHz 1
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#show context
interface radio1
data-rates b-only
mesh client
off-channel-scan channel-list 2.4GHz 1
guard-interval long
aggregation ampdu tx-only
aeroscout forward
ekahau forward ip 172.16.10.1 port 3
non-unicast tx-rate bss 1 dynamic-all
non-unicast tx-rate bss 2 highest-basic
non-unicast tx-rate bss 3 highest-basic
non-unicast tx-rate bss 4 highest-basic
non-unicast tx-rate bss 5 highest-basic
non-unicast tx-rate bss 6 highest-basic
non-unicast tx-rate bss 7 highest-basic
non-unicast tx-rate bss 8 highest-basic
non-unicast tx-rate bss 9 highest-basic
non-unicast tx-rate bss 10 highest-basic
non-unicast tx-rate bss 11 highest-basic
non-unicast tx-rate bss 12 highest-basic
non-unicast tx-rate bss 13 highest-basic
non-unicast tx-rate bss 14 highest-basic
non-unicast tx-rate bss 15 highest-basic
--More-rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#
Related Commands
no
Disables radio off channel scanning
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7.1.36.5.32 placement
interface-config-radio-instance
Defines the radio’s location (whether the radio is deployed indoors or outdoors). The radio’s placement
should depend on the country of operation selected and its regulatory domain requirements for radio
emissions.
Supported in the following platforms:
•
Access Points — AP6521, AP6522, AP6532, AP6562, AP7161, AP7502, AP7522, AP7532, AP7562,
AP7602, AP7612, AP7622, AP7632, AP7662, AP81XX, AP8232, AP8432, AP8533
Syntax
placement [indoor|outdoor]
Parameters
• placement [indoor|outdoor]
placement
Defines the radio’s location
indoor
Radio is deployed indoors (uses indoor regulatory rules). This is the default setting.
outdoor
Radio is deployed outdoors (uses outdoor regulatory rules)
Example
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#placement outdoor
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#show context
interface radio1
data-rates b-only
placement outdoor
mesh client
off-channel-scan channel-list 2.4GHz 1
guard-interval long
aggregation ampdu tx-only
aeroscout forward
ekahau forward ip 172.16.10.1 port 3
non-unicast tx-rate bss 1 dynamic-all
non-unicast tx-rate bss 2 highest-basic
non-unicast tx-rate bss 3 highest-basic
non-unicast tx-rate bss 4 highest-basic
non-unicast tx-rate bss 5 highest-basic
non-unicast tx-rate bss 6 highest-basic
non-unicast tx-rate bss 7 highest-basic
non-unicast tx-rate bss 8 highest-basic
non-unicast tx-rate bss 9 highest-basic
non-unicast tx-rate bss 10 highest-basic
non-unicast tx-rate bss 11 highest-basic
non-unicast tx-rate bss 12 highest-basic
non-unicast tx-rate bss 13 highest-basic
non-unicast tx-rate bss 14 highest-basic
--More-rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#
Related Commands
no
Resets a radio’s deployment location
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7.1.36.5.33 power
interface-config-radio-instance
Configures the radio’s transmit power setting
The transmit power control (TPC) mechanism automatically reduces the used transmission output power
when other networks are within range. Reduced power results in reduced interference issues and increased
battery capacity.
Supported in the following platforms:
•
Access Points — AP6521, AP6522, AP6532, AP6562, AP7161, AP7502, AP7522, AP7532, AP7562,
AP7602, AP7612, AP7622, AP7632, AP7662, AP81XX, AP8232, AP8432, AP8533
Syntax
power [<1-30>|smart]
Parameters
• power [<1-30>|smart]
power
Configures a radio’s transmit power
<1-30>
Configures the transmit power from 1 - 30 dBm (actual power could be lower
based on regulatory restrictions)
For APs with dual or three radios, each radio should be configured with a unique
transmit power in respect to its intended client support function.
smart
Enables Smart RF to determine the optimum transmit power needed. By default
APs use Smart RF to determine transmit power.
Example
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#power 12
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#show context
interface radio1
power 12
data-rates b-only
placement outdoor
mesh client
off-channel-scan channel-list 2.4GHz 1
guard-interval long
aggregation ampdu tx-only
aeroscout forward
ekahau forward ip 172.16.10.1 port 3
non-unicast tx-rate bss 1 dynamic-all
non-unicast tx-rate bss 2 highest-basic
non-unicast tx-rate bss 3 highest-basic
non-unicast tx-rate bss 4 highest-basic
non-unicast tx-rate bss 5 highest-basic
non-unicast tx-rate bss 6 highest-basic
non-unicast tx-rate bss 7 highest-basic
--More-rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#
Related Commands
no
Resets a radio’s transmit power
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7.1.36.5.34 preamble-short
interface-config-radio-instance
Enables short preamble on this radio. If using an 802.11bg radio, enable short preamble. Short preambles
improve throughput. However, some devices (SpectraLink phones) require long preambles. This option is
disabled by default.
Supported in the following platforms:
•
Access Points — AP6521, AP6522, AP6532, AP6562, AP7161, AP7502, AP7522, AP7532, AP7562,
AP7602, AP7622, AP81XX, AP8232, AP8432, AP8533
Syntax
preamble-short
Parameters
None
Example
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#preamble-short
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#show context
interface radio1
power 12
data-rates b-only
placement outdoor
mesh client
off-channel-scan channel-list 2.4GHz 1
preamble-short
guard-interval long
aggregation ampdu tx-only
aeroscout forward
ekahau forward ip 172.16.10.1 port 3
non-unicast tx-rate bss 1 dynamic-all
non-unicast tx-rate bss 2 highest-basic
non-unicast tx-rate bss 3 highest-basic
non-unicast tx-rate bss 4 highest-basic
non-unicast tx-rate bss 5 highest-basic
non-unicast tx-rate bss 6 highest-basic
non-unicast tx-rate bss 7 highest-basic
non-unicast tx-rate bss 8 highest-basic
non-unicast tx-rate bss 9 highest-basic
non-unicast tx-rate bss 10 highest-basic
non-unicast tx-rate bss 11 highest-basic
non-unicast tx-rate bss 12 highest-basic
--More-rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#
Related Commands
no
Disables the use of short preamble on a radio
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7.1.36.5.35 probe-response
interface-config-radio-instance
Configures transmission parameters for probe response frames
Supported in the following platforms:
•
Access Points — AP6521, AP6522, AP6532, AP6562, AP7161, AP7502, AP7522, AP7532, AP7562,
AP7602, AP7612, AP7622, AP7632, AP7662, AP81XX, AP8232, AP8432, AP8533
Syntax
probe-response [rate|retry|rssi-threshold]
probe-response retry
probe-response rate [follow-probe-request|highest-basic|lowest-basic]
probe-response rssi-threshold <-128--40>
Parameters
• probe-response retry
probe-response retry
Enables retransmission of probe-response frames if no acknowledgement is received
from the client. This option is enabled by default.
• probe-response rate [follow-probe-request|highest-basic|lowest-basic]
probe-response rate
Configures the rates used for transmission of probe response frames. The tx-rate
options available for transmitting probe response frames are: follow-probe-request,
highest-basic, lowest-basic.
follow-probe-request
Transmits probe responses at the same rate as the received request (default setting)
highest-basic
Uses the highest configured basic rate
lowest-basic
Uses the lowest configured basic rate
• probe-response rssi-threshold <-128--40>
probe-response
rssi-threshold
<-128--40>
Ignores probe request from client if the received signal strength is less than the RSSI
threshold specified here
<-128--40> – Specify a value from -128 - -40.
Example
nx9500-6C8809(config-profile-testAP7161-if-radio1)#probe-response rate highestbasic
nx9500-6C8809(config-profile-testAP7161-if-radio1)#probe-response retry
nx9500-6C8809(config-profile-testAP7161-if-radio1)#probe-response rssi-threshold
-60
nx9500-6C8809(config-profile-testAP7161-if-radio1)#show context
interface radio1
probe-response rate highest-basic
probe-response rssi-threshold -60
nx9500-6C8809(config-profile-testAP7161-if-radio1)#
Related Commands
no
Resets transmission parameters for probe response frames
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7.1.36.5.36 radio-resource-measurement
interface-config-radio-instance
Enables 802.11k radio resource measurement. When enabled, the radio station sends channel and neighbor
reports.
The IEEE 802.11 Task Group k defined a set of specifications regarding radio resource measurements. These
specifications specify the radio resources to be measured and the mechanism used to communicate
measurement requests and results.
Supported in the following platforms:
•
Access Points — AP6521, AP6522, AP6532, AP6562, AP7161, AP7502, AP7522, AP7532, AP7562,
AP7602, AP7612, AP7622, AP7632, AP7662, AP81XX, AP8232, AP8432, AP8533
Syntax
radio-resource-measurement [attenuation-threshold <1-199>|max-entries <1-12>]
Parameters
• radio-resource-measurement [attenuation-threshold <1-199>|max-entries <1-12>]
radio-resourcemeasurement
Enables 802.11k radio resource measurement on the radio
attenuation-threshold
<1-199>
Configures the neighbor attenuation threshold, considered when generating channel
and neighbor reports
• <1-199> – Specify the attenuation threshold from 1 -199. The default is 90.
max-entries <1-12>
Configures the maximum number of entries to include in channel and neighbor
reports
• <1-12> – Specify a value from 1 - 12. The default is 6.
Example
rfs4000-229D58(config-device-00-23-68-22-9D-58-if-radio1)#radio-resourcemeasurement attenuation-threshold 20
rfs4000-229D58(config-device-00-23-68-22-9D-58-if-radio1)#radio-resourcemeasurement max-entries 10
rfs4000-229D58(config-device-00-23-68-22-9D-58-if-radio1)#show context
interface radio1
radio-resource-measurement max-entries 10
radio-resource-measurement attenuation-threshold 20
rfs4000-229D58(config-device-00-23-68-22-9D-58-if-radio1)#
Related Commands
no
Disables 802.11k radio resource measurement support
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7.1.36.5.37 radio-share-mode
interface-config-radio-instance
Configures the radio’s mode of operation as radio share. A radio operating in the radio share mode services
clients and also performs sensor functions (defined by the radio’s AirDefense Services Platform (ADSP)
licenses and profiles).
NOTE: The sensor capabilities of the radio are restricted to the channel and
WLANs defined on the radio.
Supported in the following platforms:
•
Access Points — AP6521, AP6522, AP6532, AP6562, AP7161, AP7502, AP7522, AP7532, AP7562,
AP7602, AP7622, AP81XX, AP8232, AP8432, AP8533
Syntax
radio-share-mode [inline|off|promiscuous]
Parameters
• radio-share-mode [inline|off|promiscuous]
radio-share-mode
Enables sharing of packets, switched by this radio, with the WIPS sensor module.
There are two radio-share modes, these are: inline and promiscuous
inline
Enables sharing of all WLAN packets (matching the BSSID of the radio) serviced by
the radio with the WIPS sensor module.
off
Disables radio share (no packets shared with the WIPS sensor module)
promiscuous
Enables the promiscuous radio share mode. In this mode the radio is configured to
receive all packets on the channel irrespective of whether the destination address is
the radio or not, and shares these packets with the WIPS sensor module for analysis
(i.e. without filtering based on BSSI).
Example
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#radio-share-mode
promiscuous
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#show context
interface radio1
power 12
data-rates b-only
placement outdoor
mesh client
off-channel-scan channel-list 2.4GHz 1
preamble-short
guard-interval long
.........................................................
non-unicast queue bss 16 50
antenna-diversity
max-clients 100
radio-share-mode promiscuous
airtime-fairness prefer-ht weight 6
lock-rf-mode
extended-range 15
antenna-downtilt
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#
Related Commands
no
Resets the radio share mode for this radio to its default
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7.1.36.5.38 rate-selection
interface-config-radio-instance
Sets the data-rate selection mode to standard or opportunistic
Supported in the following platforms:
•
Access Points — AP6521, AP6522, AP6532, AP6562, AP7161, AP7502, AP7522, AP7532, AP7562,
AP7602, AP7612, AP7622, AP7632, AP7662, AP81XX, AP8232, AP8432, AP8533
Syntax
rate-selection [opportunistic|standard]
Parameters
• rate-selection [opportunistic|standard]
rate-selection
Sets the rate selection mode to standard or opportunistic
standard
Configures the monotonic rate selection mode. This is the default setting.
opportunistic
Configures the opportunistic radio link adaptation (ORLA) rate selection mode
The ORLA algorithm is designed to select data rates that provide best throughput.
Instead of using local conditions to decide whether a data rate is acceptable or not,
ORLA pro-actively probes other rates to determine if greater throughput is available.
If these other rates do provide improved throughput, ORLA intelligently adjusts its
selection tables to favour higher performance. ORLA provides improvements both
on the client side of a mesh network as well as in the backhaul capabilities.
Note: The ORLA rate selection mode is supported only on the AP7161 and AP8163
model access points.
Example
nx9500-6C8809(config-profile-testAP7161-if-radio1)#rate-selection opportunistic
nx9500-6C8809(config-profile-testAP7161-if-radio1)#show context
interface radio1
rate-selection opportunistic
nx9500-6C8809(config-profile-testAP7161-if-radio1)#
Related Commands
no
Resets the rate selection mode to standard (monotonic)
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7.1.36.5.39 rf-mode
interface-config-radio-instance
Configures the radio’s RF mode of operation
This command sets the mode to either 2.4 GHz WLAN or 5.0 GHz WLAN support depending on the radio’s
intended client support. If you are currently licensed to use 4.9 GHz, configure the 4.9 GHz-WLAN option.
Set the mode to sensor if using the radio for rogue device detection. The radio cannot support rogue
detection when one of the other radios is functioning as a WIPS sensor. To set a radio as a detector, disable
sensor support on the other access point radios.
Supported in the following platforms:
•
Access Points — AP6521, AP6522, AP6532, AP6562, AP7161, AP7502, AP7522, AP7532, AP7562,
AP7602, AP7612, AP7622, AP7632, AP7662, AP81XX, AP8232, AP8432, AP8533
Syntax
rf-mode [2.4GHz-wlan|4.9GHz-wlan|5GHz-wlan|bridge|scan-ahead|sensor]
Parameters
• rf-mode [2.4GHz-wlan|4.9GHz-wlan|5GHz-wlan|bridge|scan-ahead|sensor]
rf-mode
Configures the radio’s RF mode of operation
2.4GHz-wlan
Provides WLAN service in the 2.4 GHz bandwidth
4.9GHz-wlan
Provides WLAN service in the 4.9 GHz bandwidth
5GHz-wlan
Provides WLAN service in the 5.0 GHz bandwidth
bridge
Enables this radio to operate as client bridge that can authenticate and associate to
a defined infrastructure Wireless LAN (WLAN) access point
Note: This option is applicable only on the AP6522, AP6562, AP7522, AP7532, and
AP7562 model access points. Enable this option only if the access point is to provide
client-bridge support. Once enabled, configure the client-bridge parameters. For more
information, see bridge.
scan-ahead
Enables this radio to operate as a scan-ahead radio
A radio functioning in the scan-ahead mode is used for forward scanning only. The
radio does not support WLAN or mesh services.
The scan ahead feature is used in Dynamic Frequency Selection (DFS) aware
countries for infrastructure devices, static, and vehicular mounted modems (VMMs).
It enables a secondary radio to scan ahead for an active channel for backhaul
transmission, in the event of a radar trigger on the primary radio. The device then
switches radios allowing transmission to continue. This is required in environments
where handoff is required and DFS triggers are common.
With a secondary radio dedicated for forward scanning, the primary radio, in case of
radar hit, hands over the channel availability check (CAC) function to the secondary
radio. This avoids a break in data communication, which would have resulted if the
primary radio was to do CAC itself.
The secondary radio periodically does a scan of the configured channel list,
searching for the other available meshpoint roots. When configured on the root
meshpoint, the scan-ahead feature also scans for cleaner channels.
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sensor
Operates as a sensor radio. Configures this radio to function as a scanner, providing
scanning services on both 2.4 GHz and 5.0 GHz bands. The radio does not provide
WLAN services.
Example
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#rf-mode sensor
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#show context
interface radio1
rf-mode sensor
placement outdoor
mesh client
off-channel-scan channel-list 2.4GHz 1
guard-interval long
aggregation ampdu tx-only
aeroscout forward
ekahau forward ip 172.16.10.1 port 3
non-unicast tx-rate bss 1 dynamic-all
--More-rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#
Related Commands
no
Resets the radio’s RF mode of operation
data-rates
Configures the 802.11 data rates on this radio
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7.1.36.5.40 rifs
interface-config-radio-instance
Configures Reduced Interframe Spacing (RIFS) parameters on this radio
This value determines whether interframe spacing is applied to access point transmitted or received
packets, both, or none. Inter-frame spacing is the interval between two consecutive Ethernet frames that
enable a brief recovery between packets and allow target devices to prepare for the reception of the next
packet.
Supported in the following platforms:
•
Access Points — AP6521, AP6522, AP6532, AP6562, AP7161, AP7502, AP7522, AP7532, AP7562,
AP7602, AP7612, AP7622, AP7632, AP7662, AP81XX, AP8232, AP8432, AP8533
Syntax
rifs [none|rx-only|tx-only|tx-rx]
Parameters
• rifs [none|rx-only|tx-only|tx-rx]
rifs
Configures RIFS parameters
none
Disables support for RIFS
Consider setting the value to None for high-priority traffic to reduce packet delay.
rx-only
Supports RIFS possession only
tx-only
Supports RIFS transmission only
tx-rx
Supports both RIFS transmission and possession (default setting)
Example
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#rifs tx-only
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#show context
interface radio1
rf-mode sensor
placement outdoor
mesh client
off-channel-scan channel-list 2.4GHz 1
guard-interval long
aggregation ampdu tx-only
rifs tx-only
aeroscout forward
ekahau forward ip 172.16.10.1 port 3
non-unicast tx-rate bss 1 dynamic-all
non-unicast tx-rate bss 2 highest-basic
non-unicast tx-rate bss 3 highest-basic
non-unicast tx-rate bss 4 highest-basic
--More-rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#
Related Commands
no
Disables radio’s RIFS parameters
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7.1.36.5.41 rts-threshold
interface-config-radio-instance
Configures the Request to Send (RTS) threshold value on this radio
RTS is a transmitting station’s signal that requests a Clear To Send (CTS) response from a receiving client.
This RTS/CTS procedure clears the air where clients are contending for transmission time. Benefits include
fewer data collisions and better communication with nodes that are hard to find (or hidden) because of
other active nodes in the transmission path.
The RTS threshold controls RTS/CTS by initiating an RTS/CTS exchange for data frames larger than the
threshold, and sends (without RTS/CTS) any data frames smaller than the threshold.
Consider the trade-offs when setting an appropriate RTS threshold for the WLAN’s access point radios. A
lower RTS threshold causes more frequent RTS/CTS exchanges. This consumes more bandwidth because
of additional latency (RTS/CTS exchanges) before transmissions can commence. A disadvantage is the
reduction in data-frame throughput. An advantage is quicker system recovery from electromagnetic
interference and data collisions. Environments with more wireless traffic and contention for transmission
make the best use of a lower RTS threshold.
A higher RTS threshold minimizes RTS/CTS exchanges, consuming less bandwidth for data transmissions.
A disadvantage is less help to nodes that encounter interference and collisions. An advantage is faster
data-frame throughput. Environments with less wireless traffic and contention for transmission make the
best use of a higher RTS threshold.
Supported in the following platforms:
•
Access Points — AP6521, AP6522, AP6532, AP6562, AP7161, AP7502, AP7522, AP7532, AP7562,
AP7602, AP7612, AP7622, AP7632, AP7662, AP81XX, AP8232, AP8432, AP8533
Syntax
rts-threshold <0-65536>
Parameters
• rts-threshold <0-65536>
rts-threshold <0-65536>
Specify the RTS threshold value from 0 - 65536 bytes. The default is 65536
bytes.
Example
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#rts-threshold 100
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#show context
interface radio1
rf-mode sensor
placement outdoor
mesh client
rts-threshold 100
off-channel-scan channel-list 2.4GHz 1
guard-interval long
aggregation ampdu tx-only
--More-rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#
Related Commands
no
Resets a radio’s RTS threshold to its default
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7.1.36.5.42 service
interface-config-radio-instance
Enables dynamic control function. This dynamic function controls performance of the radio receiver's low
noise amplifiers (LNAs).
When enabled, the control function, in the presence of very strong received signals, improves the receiver’s
performance on radio 1. Strong signals are caused if the distance between the WiFi client and the AP is
within two (2) meters. When disabled, the control function is a useful debug tool in case the uplink
throughput is less than expected and the AP-to-client separation is greater than two (2) meters. Disabling
the control function does not affect the receive sensitivity of the radio.
Supported in the following platforms:
•
Access Points — AP6522, AP6562
Syntax
service radio-lna [agc|ms]
Parameters
• service radio-lna [agc|ms]
service radio-lna
[agc|ms]
Enables dynamic control function
• agc – Enables dynamic LNA control function. This is the default setting.
• ms – Disables dynamic LNA control function
Example
nx9500-6C8809(config-profile-testAP6522-if-radio1)#service radio-lna ms
nx9500-6C8809(config-profile-testAP6522-if-radio1)#show context
interface radio1
service radio-lna ms
nx9500-6C8809(config-profile-testAP6522-if-radio1)#
Related Commands
no
Reverts radio-lna mode to default (agc)
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7.1.36.5.43 shutdown
interface-config-radio-instance
Terminates or shuts down selected radio interface
Supported in the following platforms:
•
Access Points — AP6521, AP6522, AP6532, AP6562, AP7161, AP7502, AP7522, AP7532, AP7562,
AP7602, AP7612, AP7622, AP7632, AP7662, AP81XX, AP8232, AP8432, AP8533
Syntax
shutdown
Parameters
None
Example
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#shutdown
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#
Related Commands
no
Enables a disabled radio interface
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7.1.36.5.44 smart-rf
interface-config-radio-instance
Overrides Smart RF channel width setting on this radio. When configured, the radio overrides the Smart RF
selected channel setting and operates in the channel configured using this command.
Supported in the following platforms:
•
Access Points — AP6521, AP6522, AP6532, AP6562, AP7161, AP7502, AP7522, AP7532, AP7562,
AP7602, AP7612, AP7622, AP7632, AP7662, AP81XX, AP8232, AP8432, AP8533
Syntax
smart-rf preferred-channel-width [20MHz|40MHz|80MHz]
Parameters
• smart-rf preferred-channel-width [20MHz|40MHz|80MHz]
smart-rf preferredchannel-width [20MHz|
40MHz|80MHz]
Configures the preferred channel width. The options are:
• 20MHz – Sets 20 MHz as the preferred channel of operation
• 40MHz – Sets 40MHz as the preferred channel of operation
• 80MHz – Sets 80MHz as the preferred channel of operation (default setting)
Example
nx9500-6C8809(config-profile-testAP7161-if-radio1)#smart-rf preferred-channelwidth 40MHz
nx9500-6C8809(config-profile-testAP7161-if-radio1)#show context
interface radio1
smart-rf preferred-channel-width 40MHz
rate-selection opportunistic
nx9500-6C8809(config-profile-testAP7161-if-radio1)#
Related Commands
no
Enables use of Smart RF selected channel of operation
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7.1.36.5.45 sniffer-redirect
interface-config-radio-instance
Captures and redirects packets to an IP address running a packet capture/analysis tool
Supported in the following platforms:
•
Access Points — AP6521, AP6522, AP6532, AP6562, AP7161, AP7502, AP7522, AP7532, AP7562,
AP7602, AP7612, AP7622, AP7632, AP7662, AP81XX, AP8232, AP8432, AP8533
Syntax
sniffer-redirect [omnipeek|tzsp] channel [1|10|100|100w --------] {snap <165535> (append descriptor)}
Parameters
• sniffer-redirect [omnipeek|tzsp] channel [1|10|100|100w ---------] {snap
<1-65535> (append descriptor)}
sniffer-redirect
Captures and redirects packets to an IP address running a packet capture/analysis
tool
omnipeek
Encapsulates captured packets in proprietary header (used with OmniPeek and
plug-in)
tzsp
Encapsulates captured packets in TZSP (used with WireShark and other tools)
Specify the IP address of the device running the capture/analysis tool (the host to
which captured off channel scan packets are redirected)
[1|10|100|100w ----------] Specify the channel to capture packets
•
•
•
•
snap <1-65535>
1 – Channel 1 in 20 MHz mode (default setting)
10 – Channel 10 in 20 MHz mode
100 – Channel 100 in 20 MHz mode
100w – Channels 100w in 40 MHz mode (channels 100*,104)
Optional. Allows truncating of large captured frames at a specified length (in
bytes). This option is useful when capturing traffic with large frames. Use this
option when only headers are needed for analysis, since it reduces the bandwidth
needed for sniffing, and (for typical values) eliminates any fragmentation of the
outer packet.
• <1-65535> – Specify the maximum truncated byte length of captured packets.
append descriptor
Optional – Enables appending of the radio's receive descriptor to the captured
packet
Example
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#sniffer-redirect
omnipeek 172.16.10.1 channel 1
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#show context
interface radio1
rf-mode sensor
placement outdoor
mesh client
rts-threshold 100
off-channel-scan channel-list 2.4GHz 1
guard-interval long
aggregation ampdu tx-only
rifs tx-only
sniffer-redirect omnipeek 172.16.10.1 channel 1
aeroscout forward
ekahau forward ip 172.16.10.1 port 3
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non-unicast tx-rate bss 1 dynamic-all
non-unicast tx-rate bss 2 highest-basic
non-unicast tx-rate bss 3 highest-basic
non-unicast tx-rate bss 4 highest-basic
non-unicast tx-rate bss 5 highest-basic
non-unicast tx-rate bss 6 highest-basic
--More-rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#
Related Commands
no
Disables packet capture and redirection
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7.1.36.5.46 stbc
interface-config-radio-instance
Configures the radio’s Space Time Block Coding (STBC) mode. STBC is a pre-transmission encoding
scheme providing an improved SNR ratio (even at a single RF receiver). STBC transmits multiple data
stream copies across multiple antennas. The receiver combines the copies into one to retrieve data from
the signal. These transmitted data versions provide redundancy to increase the odds of receiving data
streams with a good data decode (especially in noisy environments).
NOTE: STBC requires the radio has at least two antennas with the capability
to transmit two streams. If the antenna mode is configured to 1x1 (or falls
back to 1x1 for some reason), STBC support is automatically disabled.
Supported in the following platforms:
•
Access Points — AP6521, AP6522, AP6532, AP6562, AP7161, AP7502, AP7522, AP7532, AP7562,
AP7602, AP7612, AP7622, AP7632, AP7662, AP81XX, AP8232, AP8432, AP8533
Syntax
stbc [auto|none|tx-only]
Parameters
• stbc [auto|none|tx-only]
stbc
Configures the radio’s STBC mode
auto
Autoselects STBC settings based on the platform type and other radio
interface settings. This is the default setting.
none
Disables STBC support
tx-only
Configures the AP radio to format and broadcast the special stream (enables
STBC support for transmit only)
Example
rfs6000-37FABE(config-profile-81xxTestProfile-if-radio1)#stbc tx-only
rfs6000-37FABE(config-profile-81xxTestProfile-if-radio1)#show context
interface radio1
stbc tx-only
rfs6000-37FABE(config-profile-81xxTestProfile-if-radio1)#
Related Commands
no
Disables STBC support
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7.1.36.5.47 transmit-beamforming
interface-config-radio-instance
Enables transmit beamforming on this radio interface. This option is disabled by default.
When enabled, this option steers signals to peers in a specific direction to enhance signal strength and
improve throughput amongst meshed devices (not clients). Each access point radio supports up to 16
beamforming capable mesh peers. When enabled, a beamformer steers its wireless signals to its peers. A
beamformee device assists the beamformer with channel estimation by providing a feedback matrix. The
feedback matrix is a set of values sent by the beamformee to assist the beamformer in computing a
steering matrix. A steering matrix is an additional set of values used to steer wireless signals at the
beamformer so constructive signals arrive at the beamformee for better SNR and throughput. Any
beamforming capable mesh peer connecting to a radio whose capacity is exhausted cannot enable
beamforming itself.
Supported in the following platforms:
•
Access Points — AP6522, AP6532, AP6562,AP8122, AP8132, AP8163, AP8432, AP8533
Syntax
transmit-beamforming
Parameters
None
Example
nx9500-6C8809(config-profile-testAP81XX-if-radio1)#transmit-beamforming
Related Commands
no
Disables transmit beamforming on this radio interface
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7.1.36.5.48 use
interface-config-radio-instance
Applies an association ACL policy and a radio QoS policy on this radio interface
An association ACL is a policy-based Access Control List (ACL) that either prevents or allows wireless
clients from connecting to a controller managed access point radio. An ACL is a sequential collection of
permit and deny conditions that apply to controller packets. When a packet is received on an interface, the
controller compares the fields in the packet against any applied ACLs to verify the packet has the required
permissions to be forwarded, based on the criteria specified in the access lists. If a packet does not meet
any of the criteria specified in the ACL, the packet is dropped.
Supported in the following platforms:
•
Access Points — AP6521, AP6522, AP6532, AP6562, AP7161, AP7502, AP7522, AP7532, AP7562,
AP7602, AP7612, AP7622, AP7632, AP7662, AP81XX, AP8232, AP8432, AP8533
Syntax
use [association-acl-policy|radio-qos-policy]
use [association-acl-policy |radio-qos-policy ]
Parameters
• use [association-acl-policy |radio-qos-policy ]
use
Applies an association ACL policy and a radio QoS policy on this radio interface
association-acl-policy
Uses a specified association ACL policy with this radio interface
• – Specify the association ACL policy name (should
be existing and fully configured).
radio-qos-policy
Uses a specified radio QoS policy with this radio interface
• – Specify the radio QoS policy name (should be
existing and fully configured).
Example
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#use association-aclpolicy test
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#show context
interface radio1
rf-mode sensor
placement outdoor
mesh client
rts-threshold 100
off-channel-scan channel-list 2.4GHz 1
guard-interval long
aggregation ampdu tx-only
rifs tx-only
use association-acl-policy test
sniffer-redirect omnipeek 172.16.10.1 channel 1
aeroscout forward
ekahau forward ip 172.16.10.1 port 3
--More-rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#
Related Commands
no
Dissociates the specified association ACL policy and radio QoS policy
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7.1.36.5.49 wips
interface-config-radio-instance
Enables access point to change its channel of operation in order to terminate rogue devices. The radio
should be configured to provide WLAN service.
This option is enabled by default.
Supported in the following platforms:
•
Access Points — AP6521, AP6522, AP6532, AP6562, AP7161, AP7502, AP7522, AP7532, AP7562,
AP7602, AP7612, AP7622, AP7632, AP7662, AP81XX, AP8232, AP8432, AP8533
NOTE: AP7522 and AP7532 access points use Smart RF to perform offchannel scans. Therefore, ensure that a Smart RF policy is configured and
applied to AP7522 and AP7532 access points RF Domains to enable them
perform rogue detection and termination.
Syntax
wips airtime-termination allow-channel-change
Parameters
• wips airtime-termination allow-channel-change
wips airtime-termination Enables access point to change its channel of operation (to that of the rogue
allow-channel-change
device) in order to terminate the rogue device
Example
nx9500-6C8809(config-profile-testAP81XX-if-radio1)#wips air-termination allowchannel-change
Related Commands
no
Disables access point to change its channel of operation in order to terminate
rogue devices
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7.1.36.5.50 wireless-client
interface-config-radio-instance
Configures wireless client parameters on this radio
Supported in the following platforms:
•
Access Points — AP6521, AP6522, AP6532, AP6562, AP7161, AP7502, AP7522, AP7532, AP7562,
AP7602, AP7612, AP7622, AP7632, AP7662, AP81XX, AP8232, AP8432, AP8533
Syntax
wireless-client tx-power [<0-20>|mode]
wireless-client <0-20>
wireless-client tx-power mode [802.11d {wing-ie}|wing-ie {802.11d}]
Parameters
• wireless-client tx-power <0-20>
wireless-client
Configures wireless client parameters
tx-power <0-20>
Configures the transmit power indicated to wireless clients. If using a dual or three
radio model access point, each radio should be configured with a unique transmit
power in respect to its intended client support function. A setting of 0 defines the
radio as using Smart RF to determine its output power. 20 dBm is the default
value.
• <0-20> – Specify transmit power from 0 - 20 dBm.
• wireless-client tx-power mode [802.11d {wing-ie}|wing-ie {802.11d}]
wireless-client
Configures wireless client parameters
tx-power
[802.11d|wing-ie]
Configures the transmit power indicated to wireless clients
• 802.11d – Advertises in the IEEE 802.11d country information element
• wing-ie – Optional. Advertises in the WiNG information element (173)
• wing-ie – Advertises in the WiNG information element (173). This is the default
setting.
• 802.11d – Optional. Advertises in the IEEE 802.11d country information element
Example
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#wireless-client tx-power
20
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#show context
interface radio1
rf-mode sensor
placement outdoor
mesh client
rts-threshold 100
wireless-client tx-power 20
off-channel-scan channel-list 2.4GHz 1
guard-interval long
aggregation ampdu tx-only
--More-rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#
Related Commands
no
Resets the transmit power indicated to wireless clients
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7.1.36.5.51 wlan
interface-config-radio-instance
Enables a WLAN on this radio
Use this command to configure WLAN/BSS mappings for an existing access point deployment.
Administrators can assign each WLAN its own BSSID. If using a single-radio access point, there are 8
BSSIDs available. If using a dual-radio access point there are 8 BSSIDs for the 802.11b/g/n radio and 8
BSSIDs for the 802.11a/n radio.
Supported in the following platforms:
•
Access Points — AP6521, AP6522, AP6532, AP6562, AP7161, AP7502, AP7522, AP7532, AP7562,
AP7602, AP7612, AP7622, AP7632, AP7662, AP81XX, AP8232, AP8432, AP8533
Syntax
wlan {bss|primary}
wlan {bss <1-16>} {primary}
Parameters
• wlan {bss <1-16>} {primary}
{bss <1-16> |primary}
Specify the WLAN name (it must have been already created and configured)
• bss <1-16> – Optional. Specifies a BSS for the radio to map the WLAN
• <1-18> – Specify the BSS number from 1 - 16.
• primary – Optional. Uses the specified WLAN as the primary WLAN, when
multiple WLANs exist on the BSS
• primary – Optional. Uses the specified WLAN as the primary WLAN, when multiple
WLANs exist on the BSS
Example
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#wlan TestWLAN primary
rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#show context
interface radio1
rf-mode sensor
placement outdoor
mesh client
rts-threshold 100
wireless-client tx-power 20
wlan TestWLAN bss 1 primary
off-channel-scan channel-list 2.4GHz 1
guard-interval long
aggregation ampdu tx-only
rifs tx-only
use association-acl-policy test
sniffer-redirect omnipeek 172.16.10.1 channel 1
aeroscout forward
ekahau forward ip 172.16.10.1 port 3
non-unicast tx-rate bss 1 dynamic-all
non-unicast tx-rate bss 2 highest-basic
--More-rfs6000-37FABE(config-profile-71xxTestProfile-if-radio1)#
Related Commands
no
Disables a WLAN on a radio
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7.1.36.6 interface-config-wwan-instance
interface
A Wireless Wide Area Network (WWAN) card is a specialized network interface card that allows a device to
connect, transmit and receive data over a Cellular Wide Area Network. The RFS4000 and RFS6000 each
have a PCI Express card slot that supports 3G WWAN cards. The WWAN card uses point to point protocol
(PPP) to connect to the Internet Service Provider (ISP) and gain access to the Internet. PPP is the protocol
used for establishing Internet links over dial-up modems, DSL connections, and many other types of pointto-point communications. PPP packages your system’s TCP/IP packets and forwards them to the serial
device where they can be put on the network. PPP is a full-duplex protocol that can be used on various
physical media, including twisted pair or fiber optic lines or satellite transmission. It uses a variation of High
Speed Data Link Control (HDLC) for packet encapsulation.
To switch to the WWAN Interface configuration mode, use the following command:
(config)#profile
(config-profile-)#interface wwan1
(config-profile-)#?
Interface configuration commands:
apn
Enter the access point name provided by the service provider
auth-type
Type of authentication, Eg chap, pap
crypto
Encryption Module
description Port description
ip
Internet Protocol (IP)
no
Negate a command or set its defaults
password
Enter password provided by the service provider
shutdown
Disable wireless wan feature
use
Set setting to use
username
Enter username provided by the service provider
clrscr
commit
do
end
exit
help
revert
service
show
write
Clears the display screen
Commit all changes made in this session
Run commands from Exec mode
End current mode and change to EXEC mode
End current mode and down to previous mode
Description of the interactive help system
Revert changes
Service Commands
Show running system information
Write running configuration to memory or terminal
(config-profile-)#
The following table summarizes WWAN interface configuration commands:
Commands
Description
Reference
apn
Configures the access point’s name provided by the service provider
page 7-328
auth-type
Configures the authentication types used on this interface
page 7-329
crypto
Associates a crypto map with this interface
page 7-330
ip
Associates an IP ACL with this interface
page 7-331
no
Removes or reverts the WWAN interface settings
page 7-332
password
Configures a password for this WWAN interface
page 7-333
use
Associates an IP ACL with this interface
page 7-335
username
Configures the names of users accessing this interface
page 7-336
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7.1.36.6.1 apn
interface-config-wwan-instance
Configures the cellular data provider’s name. This setting is needed in areas with multiple cellular data
providers using the same protocols, such as Europe and Asia.
Supported in the following platforms:
•
•
Access Point — AP7161, AP81XX, AP8232
Wireless Controllers — RFS4000, RFS6000
Syntax
apn
Parameters
• apn
apn
Specify the name of the cellular data service provider.
Example
nx9500-6C8809(config-profile-testRFS6000-if-wwan1)#apn AT&T
nx9500-6C8809(config-profile-testRFS6000-if-wwan1)#show context
interface wwan1
apn AT&T
nx9500-6C8809(config-profile-testRFS6000-if-wwan1)#
Related Commands
no
Removes the configured access point name.
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7.1.36.6.2 auth-type
interface-config-wwan-instance
Configures the authentication type used by the cellular data provider
Supported in the following platforms:
•
•
Access Point — AP7161, AP81XX, AP8232
Wireless Controllers — RFS4000, RFS6000
Syntax
auth-type [chap|mschap|mschap-v2|pap]
Parameters
• auth-type [chap|mschap|mschap-v2|pap]
auth-type
Configures the authentication protocol used on this interface. The options are: PAP,
CHAP, MSCHAP, and MSCHAP-v2
chap
Configures Challenge-Handshake Authentication Protocol (CHAP). This is the default
value.
mschap
Configures Microsoft Challenge-Handshake Authentication Protocol (MSCHAP)
mschapv2
Configures Microsoft Challenge-Handshake Authentication Protocol (MSCHAP) version
pap
Configures Password Authentication Protocol (PAP)
Example
nx9500-6C8809(config-profile-testRFS6000-if-wwan1)#auth-type mschap-v2
nx9500-6C8809(config-profile-testRFS6000-if-wwan1)#show context
interface wwan1
apn AT&T
auth-type mschap-v2
nx9500-6C8809(config-profile-testRFS6000-if-wwan1)#
Related Commands
no
Removes the authentication protocol configured on this interface
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7.1.36.6.3 crypto
interface-config-wwan-instance
Associates a crypto map with this interface
Supported in the following platforms:
•
•
Access Point — AP7161, AP81XX, AP8232
Wireless Controllers — RFS4000, RFS6000
Syntax
crypto map
Parameters
• crypto map
crypto map
Associates a crypto map with this interface
• – Specify the crypto map name (should be existing and
configured).
Example
nx9500-6C8809(config-profile-testRFS6000-if-wwan1)#crypto map test
nx9500-6C8809(config-profile-testRFS6000-if-wwan1)#show context
interface wwan1
apn AT&T
auth-type mschap-v2
crypto map test
nx9500-6C8809(config-profile-testRFS6000-if-wwan1)#
Related Commands
no
Removes the crypto map associated with this interface
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7.1.36.6.4 ip
interface-config-wwan-instance
Configures IP related settings on this interface
Supported in the following platforms:
•
•
Access Point — AP7161, AP81XX, AP8232
Wireless Controllers — RFS4000, RFS6000
Syntax
ip [default-gateway|nat]
ip default-gateway priority <1-8000>
ip nat [inside|outside]
Parameters
• ip default-gateway priority <1-8000>
ip
Configures IP related settings on this interface
default-gateway
priority <1-8000>
Configures the default-gateway’s (learned by the wireless WAN) priority.
• <1-8000> – Specify a value from 1 - 8000. The default is 3000.
• ip nat [inside|outside]
ip
Configures IP related settings on this interface
nat [inside|outside]
Configures the NAT settings. This option is disabled by default.
• inside – Marks this WWAN interface as NAT inside. The inside network is transmitting
data over the network to its intended destination. On the way out, the source IP
address is changed in the header and replaced by the (public) IP address.
• outside – Marks this WWAN interface as NAT outside. Packets passing through the
NAT on the way back to the controller or service platform managed LAN are matched
against the records kept by the NAT engine. There, the destination IP address is
changed back to the specific internal private class IP address in order to reach the LAN
over the network.
Example
nx9500-6C8809(config-profile-testRFS6000-if-wwan1)#ip default-gateway priority 1
nx9500-6C8809(config-profile-testRFS6000-if-wwan1)#ip nat inside
nx9500-6C8809(config-profile-testRFS6000-if-wwan1)#show context
interface wwan1
apn AT&T
auth-type mschap-v2
crypto map test
ip nat inside
ip default-gateway priority 1
nx9500-6C8809(config-profile-testRFS6000-if-wwan1)#
Related Commands
no
Removes IP related settings on this interface
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7.1.36.6.5 no
interface-config-wwan-instance
Removes or reverts the WWAN interface settings
Supported in the following platforms:
•
•
Access Point — AP7161, AP81XX, AP8232
Wireless Controllers — RFS4000, RFS6000
Syntax
no [all|apn|auth-type|crypto|description|ip|password|shutdown|use|username]
no [all|apn|auth-type|description|password|shutdown|username]
no crypto map
no ip [default-gateway priority|nat]
no use ip-access-list in
Parameters
• no
no
Removes or reverts this WWAN interface’s settings based on the parameters passed
Usage Guidelines
The no command negates any command associated with it. Wherever required, use the same parameters
associated with the command getting negated.
Example
The following example displays the WWAN interface settings before the ‘no’ commands are executed:
nx9500-6C8809(config-profile-testRFS6000-if-wwan1)#show context
interface wwan1
apn AT&T
auth-type mschap-v2
crypto map test
ip nat inside
ip default-gateway priority 1
nx9500-6C8809(config-profile-testRFS6000-if-wwan1)#
nx9500-6C8809(config-profile-testRFS6000-if-wwan1)#no apn
nx9500-6C8809(config-profile-testRFS6000-if-wwan1)#no auth-type
The following example displays the WWAN interface settings after the ‘no’ commands are executed:
nx9500-6C8809(config-profile-testRFS6000-if-wwan1)#show context
interface wwan1
crypto map test
ip nat inside
ip default-gateway priority 1
nx9500-6C8809(config-profile-testRFS6000-if-wwan1)#
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7.1.36.6.6 password
interface-config-wwan-instance
Configures a password for this WWAN interface. The configured value is used for authentication support by
the cellular data carrier.
Supported in the following platforms:
•
•
Access Point — AP7161, AP81XX, AP8232
Wireless Controllers — RFS4000, RFS6000
Syntax
password [2 |]
Parameters
• password [2