AAA Server Group Configuration Mode Commands

The AAA Server Group Configuration Mode is used to create and manage the Diameter/RADIUS server groups within the context or system. AAA server group facilitates management of group (list) of servers at per subscriber/APN/realm level for AAA functionality.

IMPORTANT:

The commands or keywords/variables that are available are dependent on platform type, product version, and installed license(s).

diameter accounting

This command configures Diameter accounting parameters.

Platform:

ASR 5000

Product:

All


Privilege:

Security Administrator, Administrator


Syntax
diameter accounting { dictionary { aaa-custom1 | aaa-custom10 | aaa-custom2 | aaa-custom3 | aaa-custom4 | aaa-custom5 | aaa-custom6 | aaa-custom7 | aaa-custom8 | aaa-custom9 |  nasreq | rf-plus } | endpoint endpoint_name | hd-mode
fall-back-to-local | hd-storage-policy hd_policy | max-retries max_retries | max-transmissions max_transmissions | request-timeout request_timeout_duration | server host_name priority priority }default diameter accounting { dictionary | hd-mode | max-retries | max-transmissions | request-timeout }no diameter accounting { endpoint | hd-mode | hd-storage-policy | max-retries | max-transmissions | server host_name }
no diameter accounting { endpoint | hd-mode | hd-storage-policy | max-retries | max-transmissions | server host_name }

endpoint: Removes the configured accounting endpoint, and the default accounting server configured in the default AAA group will be used.

hd-mode: Sends records to the Diameter server, if all Diameter servers are down or unreachable, then copies records to the local hard disk drive (HDD) and periodically retries the Diameter server.

hd-storage-policy: Disables use of the specified HD storage policy.

max-retries: Disables the configured retry attempts for Diameter accounting in the current AAA group.

max-transmissions: Disables the configured maximum transmission attempts for Diameter accounting in the current AAA group.

server host_name: Removes the configured Diameter host host_name from this AAA server group for Diameter accounting.

default diameter accounting { dictionary | hd-mode | max-retries | max-transmissions | request-timeout }

dictionary: Sets the context’s dictionary as the system default.

hd-mode: Sends records to the Diameter server, if all Diameter servers are down or unreachable, then copies records to the local HDD and periodically retries the Diameter server.

max-retries: Sets the retry attempts for Diameter accounting in the current AAA group to default 0 (disable).

max-transmissions: Sets the configured maximum transmission attempts for Diameter accounting in the current AAA group to default 0 (disable).

request-timeout: Sets the timeout duration, in seconds, for Diameter accounting requests in the current AAA group to default 20.

dictionary { aaa-custom1 | aaa-custom10 | aaa-custom2 | aaa-custom3 | aaa-custom4 | aaa-custom5 | aaa-custom6 | aaa-custom7 | aaa-custom8 | aaa-custom9 | nasreq | rf-plus }

Specifies the Diameter accounting dictionary.

aaa-custom1 ... aaa-custom10: Configures the custom dictionaries. Even though the CLI syntax supports several custom dictionaries, not necessarily all of them have been defined. If a custom dictionary that has not been implemented is selected, the default dictionary will be used.

nasreq: nasreq dictionary—the dictionary as defined by RFC 3588.

rf-plus: RF Plus dictionary.

endpoint endpoint_name

Enables Diameter to be used for accounting, and specifies which Diameter endpoint to use.

endpoint_name must be a string of 1 through 63 characters.

hd-mode fall-back-to-local

Specifies that records be copied to the local HDD if the Diameter server is down or unreachable. CDF/CGF will pull the records through SFTP.

hd-storage-policy hd_policy

Associates the specified HD Storage policy with the AAA group.

hd_policy must be the name of a configured HD Storage policy, and must be an alphanumeric string of 1 through 63 characters.

HD Storage policies are configured through the Global Configuration Mode.

This and the hd-mode command are used to enable the storage of Rf Diameter Messages to HDD in case all Diameter Servers are down or unreachable.

max-retries max_retries

Specifies how many times a Diameter request should be retried with the same server, if the server fails to respond to a request.

max_retries specifies the maximum number of retry attempts, and must be an integer from 1 through 1000.

Default: 0

max-transmissions max_transmissions

Specifies the maximum number of transmission attempts for a Diameter request. Use this in conjunction with the max-retries max_retries option to control how many servers will be attempted to communicate with.

max_transmissions must be an integer from 1 through 1000.

Default: 0

request-timeout request_timeout_duration

Specifies the number of seconds the system will wait for a response from a Diameter server before re-transmitting the request.

request_timeout_duration specifies the number of seconds, and must be an integer from 1 through 3600.

Default: 20

server host_name priority priority

Specifies the current context Diameter accounting server’s host name and priority.

host_name specifies the Diameter host name, and must be an alphanumeric string of 1 through 63 characters.

priority specifies the relative priority of this Diameter host. The priority is used in server selection. The priority must be an integer from 1 through 1000.


Usage:

Use this command to manage the Diameter accounting options according to the Diameter server used for the context.


Example:
The following command configures the Diameter accounting dictionary, aaa-custom10:
diameter accounting
dictionary aaa-custom10
The following command configures the Diameter endpoint, EAP1:
diameter accounting
endpoint EAP1
The following commands configure Diameter accounting options:
diameter accounting
max-retries 4
diameter accounting
max-transmissions 2
diameter accounting
request-timeout 10
diameter accounting
server svc priority 1
diameter authentication

This command configures Diameter authentication parameters.

Platform:

ASR 5000

Product:

All


Privilege:

Security Administrator, Administrator


Syntax
diameter authentication { dictionary { aaa-custom1 | aaa-custom10 | aaa-custom11 | aaa-custom12 | aaa-custom13 | aaa-custom14 | aaa-custom15 | aaa-custom16 | aaa-custom17 | aaa-custom18 | aaa-custom19 | aaa-custom2 | aaa-custom20 | aaa-custom3 | aaa-custom4 | aaa-custom5 | aaa-custom6 | aaa-custom7 | aaa-custom8 | aaa-custom9 | nasreq } | endpoint endpoint_name | max-retries max_retries | max-transmissions max_transmissions | redirect-host-avp { just-primary | primary-then-secondary } | request-timeout request_timeout_duration | server host_name priority priority }default diameter authentication { dictionary | max-retries | max-transmissions | redirect-host-avp | request-timeout }no diameter authentication { endpoint | max-retries | max-transmissions | server host_name }
no diameter authentication { endpoint | max-retries | max-transmissions | server host_name }

dictionary: Sets the context’s dictionary as the system default.

endpoint: Removes the configured authentication endpoint, and the default server configured in default AAA group will be used.

max-retries: Disables the configured retry attempts for Diameter authentication in the current AAA group.

max-transmissions: Disables the configured maximum transmission attempts for Diameter authentication in the current AAA group.

server host_name: Removes the configured Diameter host host_name from this AAA server group for Diameter authentication.

default diameter authentication { dictionary | max-retries | max-transmissions | redirect-host-avp | request-timeout }

max-retries: Sets the retry attempts for Diameter authentication requests in the current AAA group to default 0 (disable).

max-transmissions: Sets the configured maximum transmission attempts for Diameter authentication in the current AAA group to default 0 (disable).

redirect-host-avp: Sets the redirect choice to default (just-primary).

request-timeout: Sets the timeout duration, in seconds, for Diameter authentication requests in the current AAA group to default 20.

dictionary { aaa-custom1 | aaa-custom10 | aaa-custom11 | aaa-custom12 | aaa-custom13 | aaa-custom14 | aaa-custom15 | aaa-custom16 | aaa-custom17 | aaa-custom18 | aaa-custom19 | aaa-custom2 | aaa-custom20 | aaa-custom3 | aaa-custom4 | aaa-custom5 | aaa-custom6 | aaa-custom7 | aaa-custom8 | aaa-custom9 | nasreq }

Specifies the Diameter authentication dictionary.

aaa-custom1 ... aaa-custom8, aaa-custom10 ... aaa-custom20: Configures the custom dictionaries. Even though the CLI syntax supports several custom dictionaries, not necessarily all of them have been defined. If a custom dictionary that has not been implemented is selected, the default dictionary will be used.

IMPORTANT:

aaa-custom11 dictionary is only available in StarOS 8.1 and later releases. aaa-custom12 to aaa-custom20 dictionaries are only available in StarOS 9.0 and later releases.

aaa-custom9: Configures the STa standard dictionary.

nasreq: nasreq dictionary—the dictionary as defined by RFC 3588.

endpoint endpoint_name

Enables Diameter to be used for authentication, and specifies which Diameter endpoint to use.

endpoint_name must be an alphanumeric string of 1 through 63 characters.

max-retries max_retries

Specifies how many times a Diameter authentication request should be retried with the same server, if the server fails to respond to a request.

max_retries specifies the maximum number of retry attempts, and must be an integer from 1 through 1000.

Default: 0

max-transmissions max_transmissions

Specifies the maximum number of transmission attempts for a Diameter authentication request. Use this in conjunction with the “max-retries max_retries” option to control how many servers will be attempted to communicate with.

max_transmissions specifies the maximum number of transmission attempts, and must be an integer from 1 through 1000.

Default: 0

redirect-host-avp { just-primary | primary-then-secondary }

Specifies whether to use just one returned AVP, or use the first returned AVP as selecting the primary host and the second returned AVP as selecting the secondary host.

just-primary: Redirect only to primary host.

primary-then-secondary: Redirect to primary host, if fails then redirect to the secondary host.

Default: just-primary

request-timeout request_timeout_duration

Specifies how long the system will wait for a response from a Diameter server before re-transmitting the request.

request_timeout_duration specifies the number of seconds the system will wait for a response from a Diameter server before re-transmitting the request, and must be an integer from 1 through 3600.

Default: 20 seconds

server host_name priority priority

Specifies the current context Diameter authentication server’s host name and priority.

host_name specifies the Diameter authentication server’s host name, and must be an alphanumeric string of 1 through 63 characters.

priority specifies the relative priority of this Diameter host. The priority is used in server selection. The priority must be an integer from 1 through 1000.


Usage:

Use this command to manage the Diameter authentication options according to the Diameter server used for the context.


Example:
The following command configures the Diameter authentication dictionary, aaa-custom1:
diameter authentication
dictionary aaa-custom1
The following command configures the Diameter endpoint, EAP1:
diameter authentication
endpoint EAP1
The following commands configure Diameter authentication options:
diameter authentication
max-retries 4
diameter authentication
max-transmissions 2
diameter authentication
redirect-host-avp primary-then-secondary
diameter authentication
server svc priority 1
diameter authentication
request-timeout 10
diameter authentication failure-handling

This command configures the failure handling for Diameter authentication requests and Diameter Extensible Authentication Protocol (EAP) requests.

Platform:

ASR 5000

Product:

All


Privilege:

Security Administrator, Administrator


Syntax
diameter authentication
failure-handling { authorization-request | eap-request | eap-termination-request } { request-timeout
action { continue | retry-and-terminate | terminate } | result-code start_result_code { [ to end_result_code ] action { continue | retry-and-terminate | terminate } } }no diameter authentication
failure-handling { authorization-request | eap-request | eap-termination-request } result-code start_result_code [ to end_result_code ]default diameter authentication
failure-handling { authorization-request | eap-request | eap-termination-request } request-timeout
action
no

Disables Diameter authentication failure handling.

default

Configures the default Diameter authentication failure handling setting.

authorization-request

Specifies that failure handling must be performed on Diameter authorization request (AAR/AAA) messages.

eap-request

Specifies configuring failure handling for EAP requests.

eap-termination-request

Specifies configuring failure handling for EAP termination requests.

request-timeout action { continue | retry-and-terminate | terminate }
Specifies the action to be taken for failures:
  • continue: Continues session
  • retry-and-terminate: First retries, if it fails then terminates the session
  • terminate: Terminates session
result-code start_result_code [ to end_result_code ] action { continue | retry-and-terminate | terminate }

start_result_code: Specifies the result code number, must be an integer from 1 through 65535.

to end_result_code: Specifies the upper limit of a range of result codes. to end_result_code must be greater than start_result_code.

action { continue | retry-and-terminate | terminate }: Specifies the action to be taken for failures:
  • continue: Continues
  • retry-and-terminate: First retries, if it fails then terminates
  • terminate: Terminates

Usage:

Use this command to configure error handling for Diameter EAP, EAP-termination, and authorization requests. Specific actions (continue, retry-and-terminate, or terminate) can be associated with each possible result-code. Ranges of result codes can be defined with the same action, or actions can be specific on a per-result code basis.


Example:
The following commands configure result codes 5001, 5002, 5004, and 5005 to use “action continue” and result code 5003 to use “action terminate”:
diameter authentication
failure-handling eap-request result-code 5001 to 5005 action continue
diameter authentication
failure-handling eap-request result-code 5003 action terminate
diameter dictionary

This command is deprecated and is replaced by the diameter accounting dictionary and diameter authentication dictionary commands. See the diameter accounting and diameter authentication commands respectively.

end

Exits the current configuration mode and returns to the Exec mode.

Product:

All


Privilege:

Security Administrator, Administrator


Syntax
end

Usage:

Use this command to return to the Exec mode.

exit

Exits the current mode and returns to the parent configuration mode.

Product:

All


Privilege:

Security Administrator, Administrator


Syntax
exit

Usage:

Use this command to return to the parent configuration mode.

radius

This command configures basic RADIUS options.

Platform:

ASR 5000

Product:

All


Privilege:

Security Administrator, Administrator


Syntax
radius { deadtime minutes | detect-dead-server { consecutive-failures consecutive_failures_count | response-timeout response_timeout_duration } | dictionary dictionary | max-outstanding max_messages | max-retries max_retries | max-transmissions max_transmissions | probe-message local-service-address ipv4/ipv6_address | strip-domain { authentication-only | accounting-only } | timeout idle_seconds }default radius { deadtime | detect-dead-server | dictionary | max-outstanding | max-retries | max-transmissions | timeout }no radius { detect-dead-server | max-transmissions | radius probe-message
local-service-address | strip-domain }
no

Removes the specified configuration.

default

Configures default setting for the specified keyword.

dictionary dictionary

Specifies which dictionary to use. The following table describes the possible values for dictionary:

Dictionary Description

customXX

These are dictionaries that can be customized to fit your needs. Customization information can be attained by contacting your local service representative.

XX is the integer value of the custom dictionary.

standard

This dictionary consists only of the attributes specified in RFC 2865, RFC 2866, and RFC 2869.

3gpp

This dictionary consists not only of all of the attributes in the standard dictionary, but also all of the attributes specified in 3GPP 32.015.

3gpp2

This dictionary consists not only of all of the attributes in the standard dictionary, but also all of the attributes specified in IS-835-A.

3gpp2-835

This dictionary consists not only of all of the attributes in the standard dictionary, but also all of the attributes specified in IS-835.

starent-vsa1

This dictionary consists not only of the 3GPP2 dictionary, but also includes Starent Networks vendor-specific attributes (VSAs) as well. The VSAs in this dictionary support a one-byte wide VSA Type field in order to support certain RADIUS applications. The one-byte limit allows support for only 256 VSAs (0 - 255). This is the default dictionary.

IMPORTANT:

In 12.0 and later releases, no new attributes can be added to the starent-vsa1 dictionary. If there are any new attributes to be added, these can only be added to the starent dictionary. For more information, please contact your Cisco account representative.

starent-vsa1-835

This dictionary consists not only of the 3gpp2-835 dictionary, but also includes Starent Networks vendor-specific attributes (VSAs) as well. The VSAs in this dictionary support a one-byte wide VSA Type field in order to support certain RADIUS applications. The one-byte limit allows support for only 256 VSAs (0 - 255). This is the default dictionary.

starent

This dictionary consists of all of the attributes in the starent-vsa1 dictionary and incorporates additional Starent Networks VSAs by using a two-byte VSA Type field. This dictionary is the master-set of all of the attributes in all of the dictionaries supported by the system.

starent-835

This dictionary consists of all of the attributes in the starent-vsa1-835 dictionary and incorporates additional Starent Networks VSAs by using a two-byte VSA Type field. This dictionary is the master-set of all of the attributes in all of the -835 dictionaries supported by the system.



deadtime minutes

Specifies the number of minutes to wait before changing the state of a RADIUS server from “Down” to “Active”. minutes must be an integer from 0 through 65535.

Default: 10

IMPORTANT:

This parameter should be set to allow enough time to remedy the issue that originally caused the server’s state to be changed to “Down”. After the deadtime timer expires, the system returns the server’s state to “Active” regardless of whether or not the issue has been fixed.

IMPORTANT:

For a complete explanation of RADIUS server states, refer to the RADIUS Server State Behavior appendix in the AAA and GTPP Interface Administration and Reference.

detect-dead-server { consecutive-failures consecutive_failures_count | keepalive | response-timeout response_timeout_duration }

consecutive-failures consecutive_failures_count: Specifies the number of consecutive failures, for any AAA Manager, before a server’s state is changed from “Active” to “Down”. consecutive_failures_count must be an integer from 1 through 1000. Default: 4.

keepalive: Enables the AAA server alive-dead detect mechanism based on sending keepalive authentication messages to all authentication servers. Default is disabled.

response-timeout response_timeout_duration: Specifies the number of seconds, for any AAA Manager, to wait for a response to any message before a server’s state is changed from “Active” to “Down”. response_timeout_duration must be an integer from 1 through 65535.

IMPORTANT:

If both consecutive-failures and response-timeout are configured, then both parameters must be met before a server’s state is changed to “Down”.

IMPORTANT:

The “Active” or “Down” state of a RADIUS server as defined by the system, is based on accessibility and connectivity. For example, if the server is functional but the system has placed it into a “Down” state, it could be the result of a connectivity problem. When a RADIUS server’s state is changed to “Down”, a trap is sent to the management station and the deadtime timer is started.

max-outstanding max_messages

Specifies the maximum number of outstanding messages a single AAA Manager instance will queue.

max_messages must be an integer from 1 through 4000.

Default: 256

max-retries max_retries

Specifies the maximum number of times communication with a AAA server will be attempted before it is marked as “Not Responding”, and the detect dead server’s consecutive failures count is incremented.

max_retries must be an integer from 0 through 65535.

Default: 5

max-transmissions max_transmissions

Sets the maximum number of re-transmissions for RADIUS authentication requests. This limit is used in conjunction with max-retries parameter for each server.

When failing to communicate with a RADIUS sever, the subscriber is failed once all of the configured RADIUS servers have been exhausted, or once the configured number of maximum transmissions is reached.

For example, if three servers are configured and if the configured max-retries is 3 and max-transmissions is 12, then the primary server is tried four times (once plus three retries), the secondary server is tried four times, and then a third server is tried four times. If there is a fourth server, it is not tried because the maximum number of transmissions (12) has been reached.

max_transmissions must be an integer from 1 through 65535.

Default: Disabled

probe-message local-service-address ipv4/ipv6_address

radius probe-message: Configures AVPs to be sent in RADIUS authentication probe messages.

local-service-address: Configures the service ip-address to be sent as an AVP in RADIUS authentication probe messages.

ipv4/ipv6_address: Specifies the IP address of the server.

ip_address must be specified in IPv4 dotted-decimal or IPv6 colon-separated-hexadecimal notation. A maximum of 128 RADIUS servers can be configured per context. This limit includes accounting and authentication servers.

strip-domain { authentication-only | accounting-only }

Specifies that the domain must be stripped from the user name prior to authentication or accounting.

By default, strip-domain configuration will be applied to both authentication and accounting messages, if configured.

When the argument authentication-only or accounting-only is present, strip-domain is applied only to the specified RADIUS message types.

timeout idle_seconds

Specifies the number of seconds to wait for a response from the RADIUS server before re-sending the messages.

idle_seconds must be an integer from 1 through 65535.

Default: 3


Usage:

Use this command to configure the basic RADIUS parameters according to the RADIUS server used for the context.


Example:
The following command configures the RADIUS timeout parameter to 300 seconds.
radius timeout 300 
radius accounting

This command configures the current context’s RADIUS accounting parameters.

Platform:

ASR 5000

Product:

All


Privilege:

Security Administrator, Administrator


Syntax
radius accounting { archive [ stop-only ] | deadtime minutes | detect-dead-server { consecutive-failures consecutive_failures_count | keepalive | response-timeout response_timeout_duration } | fire-and-forget | interim
interval interim_interval | max-outstanding max_messages | max-pdu-size octets | max-retries max_retries | max-transmissions max_transmissions | timeout idle_seconds }default radius accounting { deadtime | detect-dead-server | fire-and-forget | max-outstanding | max-pdu-size | max-retries | max-transmissions | timeout }no radius accounting { archive | detect-dead-server | fire-and-forget | interim
interval | max-transmissions }
no

Removes the specified configuration.

default

Configures the default setting for the specified keyword.

archive [ stop-only ]

Enables archiving of RADIUS accounting messages in the system after the accounting message has exhausted retries to all available RADIUS accounting servers. All RADIUS accounting messages generated by a session are serially delivered to the RADIUS accounting server. That is, previous RADIUS accounting messages from the same call must be delivered and acknowledged by the RADIUS accounting server before the next RADIUS accounting message is sent to the RADIUS accounting server.

stop-only specifies archiving of only STOP accounting messages.

Default: enabled

deadtime minutes

Specifies the number of minutes to wait before changing the state of a RADIUS server from “Down” to “Active”.

minutes must be an integer from 0 through 65535.

Default: 10 minutes

IMPORTANT:

This parameter should be set to allow enough time to remedy the issue that originally caused the server’s state to be changed to “Down”. After the deadtime timer expires, the system returns the server’s state to “Active” regardless of whether or not the issue has been fixed.

IMPORTANT:

For a complete explanation of RADIUS server states, refer to the RADIUS Server State Behavior appendix in the AAA and GTPP Interface Administration and Reference.

detect-dead-server { consecutive-failures consecutive_failures_count | keepalive | response-timeout response_timeout_duration }

consecutive-failures consecutive_failures_count: Specifies the number of consecutive failures, for any AAA Manager, before a server’s state is changed from “Active” to “Down”. consecutive_failures_count must be an integer from 1 through 1000. Default: 4

keepalive: Enables the AAA server alive-dead detect mechanism based on sending keepalive authentication messages to all authentication servers. Default: disabled

response-timeout response_timeout_duration: Specifies the number of seconds, for any AAA Manager, to wait for a response to any message before a server’s state is changed from “Active” to “Down”. response_timeout_duration must be an integer from 1 through 65535.

IMPORTANT:

If both consecutive-failures and response-timeout are configured, then both parameters must be met before a server’s state is changed to “Down”.

IMPORTANT:

The “Active” or “Down” state of a RADIUS server as defined by the system, is based on accessibility and connectivity. For example, if the server is functional but the system has placed it into a “Down” state, it could be the result of a connectivity problem. When a RADIUS server’s state is changed to “Down”, a trap is sent to the management station and the deadtime timer is started.

IMPORTANT:

For a complete explanation of RADIUS server states, refer to the RADIUS Server State Behavior appendix in the AAA and GTPP Interface Administration and Reference.

fire-and-forget

Enables RADIUS Fire-and-Forget accounting for the AAA group.

Default: Disabled

The request sent to the RADIUS accounting server configured under the AAA group with this keyword configured will not expect a response from the server. If the request must be sent to more than one such type of server, the acct-algorithm first-n configuration in the AAA group can be used.

Keepalive feature for server state detection is supported in conjunction since there is no waiting for responses. Archiving in such a AAA group is not supported. If the server is down, the request is sent to the next server in the group. If all the servers in the group are down, the request is deleted.

This CLI is independent of the APN or subscriber profile configuration aaa secondary-group aaa_group_name.

interim interval interim_interval

Specifies the time interval, in seconds, for sending accounting INTERIM-UPDATE records.

interim_interval must be an integer from 50 through 40000000.

Default: Disabled

IMPORTANT:

If RADIUS is used as the accounting protocol for the GGSN product, other commands are used to trigger periodic accounting updates. However, these commands would cause RADIUS STOP/START packets to be sent as opposed to INTERIM-UPDATE packets. Also, note that accounting interim interval settings received from a RADIUS server take precedence over those configured on the system.

max-outstanding max_messages

Specifies the maximum number of outstanding messages a single AAA Manager instance will queue.

max_messages must be an integer from 1 through 4000.

Default: 256

max-pdu-size octets

Specifies the maximum sized packet data unit which can be accepted/generated, in bytes (octets).

octets must be an integer from 512 through 2048.

Default: 2048

max-retries max_retries

Specifies the maximum number of times communication with a AAA server will be attempted before it is marked as “Not Responding” and the detect dead server consecutive failures count is incremented.

max_retries must be an integer from 0 through 65535.

Default: 5

Once the maximum number of retries is reached this is considered a single failure for the consecutive failures count for detecting dead servers.

max-transmissions max_transmissions

Sets the maximum number of transmissions for a RADIUS accounting message before the message is declared as failed.

max_transmissions must be an integer from 1 through 65535.

Default: Disabled

timeout timeout_duration

Specifies the duration to wait for a response from a RADIUS server before retransmitting a request.

timeout_duration must be an integer from 1 through 65535.

Default: 3


Usage:

Use this command to configure RADIUS accounting options according to the RADIUS server used for the context.


Example:
The following command configures the accounting timeout parameter to 16 seconds.
radius accounting
timeout 16 
radius accounting apn-to-be-included

This command specifies the APN name inclusion for RADIUS accounting.

Platform:

ASR 5000

Product:

GGSN


Privilege:

Security Administrator, Administrator


Syntax
radius accounting apn-to-be-included { gi | gn }default radius accounting
apn-to-be-included
default

Configures the default setting.

gi

Specifies the use of Gi APN name in RADIUS accounting request. Gi APN represents the APN received in the Create PDP context request message from SGSN.

gn

Specifies the use of Gn APN name in RADIUS accounting request. Gn APN represents the APN selected by the GGSN.


Usage:

Use this command to specify the APN name to be included for RADIUS accounting.


Example:
The following command configures the gn APN name to be included for RADIUS accounting:
radius accounting apn-to-be-included gn
radius accounting algorithm

This command specifies the fail-over/load-balancing algorithm to select the RADIUS accounting server(s) to which accounting data must be sent.

Platform:

ASR 5000

Product:

All


Privilege:

Security Administrator, Administrator


Syntax
radius accounting
algorithm { first-n n | first-server | round-robin }default radius accounting algorithm
default

Configures the default setting.

Default: first-server

first-n n

Default: 1 (Disabled)

Specifies that the AGW must send accounting data to n (more than one) AAA servers based on their priority. The full set of accounting data is sent to each of the n AAA servers. Response from any one of the servers would suffice to proceed with the call. On receiving an ACK from any one of the servers, all retries are stopped.

n is the number of AAA servers to which accounting data will be sent, and must be an integer from 2 through 128.

first-server

Specifies that the context must send accounting data to the RADIUS server with the highest configured priority. In the event that this server becomes unreachable, accounting data is sent to the server with the next-highest configured priority. This is the default algorithm.

round-robin

Specifies that the context must load balance sending accounting data among all of the defined RADIUS servers. Accounting data is sent in a circular queue fashion on a per Session Manager task basis, where data is sent to the next available server and restarts at the beginning of the list of configured servers. The order of the list is based upon the configured relative priority of the servers.


Usage:

Use this command to specify the algorithm to select the RADIUS accounting server(s) to which accounting data must be sent.


Example:
The following command configures to use the round-robin algorithm for RADIUS accounting server selection:
radius accounting algorithm
round-robin
radius accounting billing-version

This command configures billing-system version of RADIUS accounting servers.

Platform:

ASR 5000

Product:

All


Privilege:

Security Administrator, Administrator


Syntax
radius accounting
billing-version versiondefault radius accounting
billing-version
default

Configures the default setting.

Default: 0

version

Specifies the billing-system version, and must be an integer from 0 through 4294967295.


Usage:

Use this command to configure the billing-system version of RADIUS accounting servers.


Example:
The following command configures the billing-system version of RADIUS accounting servers as 10:
radius accounting billing-version
10 
radius accounting gtp trigger-policy

This command configures the RADIUS accounting trigger policy for GTP messages.

Platform:

ASR 5000

Product:

GGSN


Privilege:

Security Administrator, Administrator


Syntax
radius accounting
gtp trigger-policy [ standard | ggsn-preservation-mode ]default radius accounting
gtp trigger-policy
default

Resets the RADIUS accounting trigger policy to standard behavior for GTP session.

standard

This keyword sets the RADIUS accounting trigger policy to standard behavior which is configured for GTP session for GGSN service.

ggsn-preservation-mode

This keyword sends RADIUS Accounting Start when the GTP message with private extension of preservation mode is received from SGSN.

IMPORTANT:

This is a customer-specific keyword and needs customer-specific license to use this feature. For more information on GGSN preservation mode, refer to the GGSN Service Configuration Mode Commands chapter.


Usage:

Use this command to set the trigger policy for the AAA accounting for a GTP session.


Example:
The following command sets the RADIUS accounting trigger policy for GTP session to standard:
default radius accounting
gtp trigger-policy
radius accounting ha policy

This command configures the RADIUS accounting policy for Home Agent (HA) sessions.

Platform:

ASR 5000

Product:

HA


Privilege:

Security Administrator, Administrator


Syntax
radius accounting ha
policy { custom1-aaa-res-mgmt | session-start-stop }default radius accounting
ha policy
default

Configures the default setting.

session-start-stop

Specifies sending Accounting Start when the Session is connected, and sending Accounting Stop when the session is disconnected. This is the default behavior.

custom1-aaa-res-mgmt
Accounting Start/Stop messages are generated to assist special resource management done by AAA servers. It is similar to the session-start-stop accounting policy, except for the following differences:
  • Accounting Start is also generated during MIP session handoffs.
  • No Accounting stop is generated when an existing session is overwritten and the new session continues to use the IP address assigned for the old session.
  • Accounting Start is generated when a new call overwrites an existing session.

Usage:

Use this command to configure the AAA accounting behavior for an HA session.


Example:
The following command configures the HA accounting policy to custom1-aaa-res-mgmt:
radius accounting
ha policy custom1-aaa-res-mgmt
radius accounting interim

This command configures the volume of uplink and downlink volume octet counts that trigger RADIUS interim accounting, and configures the time period between the sending of interim accounting records.

Platform:

ASR 5000

Product:

GGSN, PDSN, HA, HSGW


Privilege:

Security Administrator, Administrator


Syntax
radius accounting
interim { interval interim_interval | volume { downlink bytes uplink bytes | total bytes | uplink bytes downlink bytes } }no radius accounting
interim volume
no

Disables RADIUS interim accounting.

interval interim_interval

Specifies the time interval, in seconds, between sending interim accounting records. interim_interval must be an integer from 50 through 40000000.

volume { downlink bytes uplink bytes | total bytes | uplink bytes downlink bytes }

downlink bytes uplink bytes: Specifies the downlink to uplink volume limit, in bytes, for RADIUS Interim accounting. bytes must be an integer from 100000 through 4000000000.

total bytes: Specifies the total volume limit, in bytes, for RADIUS interim accounting. bytes must be an integer from 100000 through 4000000000.

uplink bytes downlink bytes: Specifies the uplink to downlink volume limit, in bytes, for RADIUS interim accounting. bytes must be an integer from 100000 through 4000000000.


Usage:

Use this command to trigger RADIUS interim accounting based on the volume of uplink and downlink bytes and/or to configure the time interval between the sending of interim accounting records.


Example:
The following command triggers RADIUS interim accounting when the total volume of uplink and downlink bytes reaches 110000:
radius accounting interim
volume total 110000
The following command sets the interval between sending interim accounting records to 3 minutes (180 seconds):
radius accounting interim
interval 180 
radius accounting ip remote-address

This command configures IP remote address-based RADIUS accounting parameters.

Platform:

ASR 5000

Product:

PDSN, HA


Privilege:

Security Administrator, Administrator


Syntax
[ no ] radius
accounting ip remote-address { collection | list list_id }
no

Removes the specified configuration.

collection

Enables collecting and reporting Remote-Address-Based accounting in RADIUS Accounting. This should be enabled in the AAA Context. It is disabled by default.

list list_id

Enters the Remote Address List Configuration mode. This mode configures a list of remote addresses that can be referenced by the subscriber's profile.

list_id must be an integer from 1 through 65535.


Usage:

This command is used as part of the Remote Address-based Accounting feature to both configure remote IP address lists and enable the collection of accounting data for the addresses in those lists on a per-subscriber basis.

Individual subscriber can be associated to remote IP address lists through the configuration/specification of an attribute in their local or RADIUS profile. (Refer to the radius accounting command in the Subscriber Configuration mode.) When configured/specified, accounting data is collected pertaining to the subscriber’s communication with any of the remote addresses specified in the list.

Once this functionality is configured on the system and in the subscriber profiles, it must be enabled by executing this command with the collection keyword.


Example:
The following command enables collecting and reporting Remote-Address-Based accounting in RADIUS Accounting:
radius accounting
ip remote-address collection
radius accounting keepalive

This command configures the keepalive authentication parameters for the RADIUS accounting server.

Platform:

ASR 5000

Product:

All


Privilege:

Security Administrator, Administrator


Syntax
radius accounting
keepalive { calling-station-id id | consecutive-response consecutive_responses | framed-ip-address ip_address | interval seconds | retries number | timeout seconds | username user_name }default radius accounting
keepalive { calling-station-id | consecutive-response | interval | retries | timeout | username } no radius accounting
keepalive framed-ip-address
no

Removes the specified configuration.

default

Configures the default setting for the specified keyword.

calling-station-id id

Configures the Calling-Station-Id to be used for the keepalive authentication.

id must be an alphanumeric string of size 1 to 15 characters.

Default: 000000000000000

consecutive-response consecutive_responses

Configures the number of consecutive authentication response after which the server is marked as reachable.

consecutive_responses must be an integer from 1 through 10.

Default: 1

framed-ip-address ip_address

Configures the framed-ip-address to be used for the keepalive accounting.

ip_address must be specified using IPv4 dotted-decimal notation.

interval seconds

Configures the time interval between the two keepalive access requests.

Default: 30 seconds

retries number

Configures the number of times the keepalive access request to be sent before marking the server as unreachable.

number must be an integer from 3 through 10.

Default: 3

timeout timeout_duration

Configures the time interval between each keepalive access request retries.

timeout_duration must be an integer from 1 through 30.

Default: 3 seconds

username user_name

Configures the user name to be used for authentication.

user_name must be an alphanumeric string of 1 through 127 characters.

Default: Test-Username


Usage:

Use this command to configure the keepalive authentication parameters for the RADIUS accounting server.


Example:
The following command sets the user name for RADIUS keepalive access requests to Test-Username2:
radius accounting
keepalive username Test-Username2
The following command sets the number of RADIUS accounting keepalive retries to 4.
radius accounting
keepalive retries 4 
radius accounting pdif trigger-policy

This command configures the policy for generating START/STOP pairs in overflow condition.

Platform:

ASR 5000

Product:

PDIF


Privilege:

Administrator, Security Administrator


Syntax
radius accounting pdif
trigger-policy { standard | counter-rollover }default radius accounting
pdif trigger-policy
default

The default option configures the “standard” policy.

standard

Applies a policy as defined by the standards.

counter-rollover

If the counter-rollover option is enabled, the system generates a STOP/START pair before input/output data octet counts (or input/output data packet counts) become larger than (2^32 - 1) in value. This setting is used to guarantee that a 32-bit octet count in any STOP message has not wrapped to larger than 2^32 thus ensuring the accuracy of the count. The system may, at its discretion, send the STOP/START pair at any time, so long as it does so before the 32-bit counter has wrapped.


Usage:

Used to define the policy for dealing with overflow packet counts.


Example:
Use the following example to set the default policy to standard.
default radius accounting
pdif trigger-policy
radius accounting rp

This command configures the RADIUS accounting R-P originated call options.

Platform:

ASR 5000

Product:

PDSN


Privilege:

Security Administrator, Administrator


Syntax
radius accounting
rp { handoff-stop { immediate |  wait-active-stop } | tod minute hour | trigger-event { active-handoff | active-start-param-change | active-stop } | trigger-policy { airlink-usage [ counter-rollover ] | custom [ active-handoff | active-start-param-change | active-stop ] | standard } | trigger-stop-start }no radius accounting
rp { tod minute hour | trigger-event { active-handoff | active-start-param-change | active-stop } | trigger-stop-start }default radius accounting
rp { handoff-stop | trigger-policy }
no

Removes the specified configuration.

default

Sets the default configuration for the specified keyword.

handoff-stop { immediate | wait-active-stop }
Specifies the behavior of generating accounting STOP when handoff occurs.
  • immediate: Indicates that accounting STOP should be generated immediately on handoff, i.e. not to wait active-stop from the old PCF.
  • wait-active-stop: Indicates that accounting STOP is generated only when active-stop received from the old PCF when handoff occurs.

Default: wait-active-stop

tod minute hour

Specifies the time of day a RADIUS event is to be generated for accounting. Up to four different times of the day may be specified through individual commands.

minute must be an integer from 0 through 59.

hour must be an integer from 0 through 23.

trigger-event { active-handoff | active-start-param-change | active-stop }

active-start-param-change: Enabled

active-stop: Disabled

Configures the events for which a RADIUS event is generated for accounting as one of the following:
  • active-handoff: Disables a single R-P event (and therefore a RADIUS accounting event) when an Active PCF-to-PFC Handoff occurs. Instead, two R-P events occur (one for the Connection Setup, and the second for the Active-Start)
  • active-start-param-change: Disables an R-P event (and therefore a RADIUS accounting event) when an Active-Start is received from the PCF and there has been a parameter change.
  • active-stop: Disables an R-P event (and therefore a RADIUS accounting event) when an Active-Stop is received from the PCF.

Default: active-handoff: Disabled

IMPORTANT:

This keyword has been obsoleted by the trigger-policy keyword. Note that if this command is used, if the context configuration is displayed, radius accounting rp configuration is represented in terms of the trigger-policy.

trigger-policy { airlink-usage [ counter-rollover ] | custom [ active-handoff | active-start-param-change | active-stop ] | standard }

Default: airlink-usage: Disabled

custom:

active-handoff = Disabled

active-start-param-change = Disabled

active-stop = Disabled

standard: Enabled

Configures the overall accounting policy for R-P sessions as one of the following:
  • airlink-usage [ counter-rollover ]: Specifies the use of Airlink-Usage RADIUS accounting policy for R-P, which generates a start on Active-Starts, and a stop on Active-Stops.
  • If the counter-rollover option is enabled, the system generates a STOP/START pair before input/output data octet counts (or input/output data packet counts) become larger than (2^32 - 1) in value. This setting is used to guarantee that a 32-bit octet count in any STOP message has not wrapped to larger than 2^32 thus ensuring the accuracy of the count. The system, may, at its discretion, send the STOP/START pair at any time, so long as it does so before the 32-bit counter has wrapped. Note that a STOP/START pair is never generated unless the subscriber RP session is in the Active state, since octet/packet counts are not accumulated when in the Dormant state.
  • custom: Specifies the use of custom RADIUS accounting policy for R-P. The custom policy can consist of the following:
  • active-handoff: Enables a single R-P event (and therefore a RADIUS accounting event) when an Active PCF-to-PFC Handoff occurs. Normally two R-P events will occur (one for the Connection Setup, and the second for the Active-Start)
  • active-start-param-change: Enables an R-P event (and therefore a RADIUS accounting event) when an Active-Start is received from the PCF and there has been a parameter change.

    IMPORTANT:

    Note that a custom trigger policy with only active-start-param-change enabled is identical to the standard trigger-policy.

  • active-stop: Enables an R-P event (and therefore a RADIUS accounting event) when an Active-Stop is received from the PCF.

    IMPORTANT:

    If the radius accounting rp trigger-policy custom command is executed without any of the optional keywords, all custom options are disabled.

  • standard: Specifies the use of Standard RADIUS accounting policy for R-P in accordance with IS-835B.
trigger-stop-start

Specifies that a stop/start RADIUS accounting pair should be sent to the RADIUS server when an applicable R-P event occurs.


Usage:

Use this command to configure the events for which a RADIUS event is sent to the server when the accounting procedures vary between servers.


Example:
The following command enables an R-P event (and therefore a RADIUS accounting event) when an Active-Stop is received from the PCF:
radius accounting
rp trigger-event active-stop
The following command generates the STOP only when active-stop received from the old PCF when handoff occurs:
default radius accounting
rp handoff-stop
radius accounting server

For accounting, this command configures the RADIUS accounting server(s) in the current context.

Platform:

ASR 5000

Product:

All


Privilege:

Security Administrator, Administrator


Syntax
radius [ mediation-device ] accounting
server ip_address [ encrypted ] key value [ acct-on { disable | enable } ] [ acct-off { disable | enable } ] [ admin-status { disable | enable } ] [ max max_messages ] [ max-rate max_value ] [ oldports ] [ port port_number ] [ priority priority ] [ type { mediation-device | standard } ] [ -noconfirm ]no radius [ mediation-device ] accounting
server ip_address [ oldports | port port_number ]
no

Removes the server or server port(s) specified from the list of configured servers.

mediation-device

Enables mediation-device specific AAA transactions use to communicate with this RADIUS server.

IMPORTANT:

If this option is not used, by default the system enables standard AAA transactions.

ip_address [ port port_number ]

Specifies the IP address of the accounting server. ip_address must be specified using IPv4 dotted-decimal notation. A maximum of 1600 RADIUS servers per context/system and 128 servers per server group can be configured. This limit includes accounting and authentication servers.

port port_number specifies the port number to use for communications. port_number must be an integer from 0 through 65535. Default is 1813.

IMPORTANT:

The same RADIUS server IP address and port can be configured in multiple RADIUS server groups within a context.

[ encrypted ] key value

Specifies the shared secret key used to authenticate the client to the servers. The encrypted keyword indicates the key specified is encrypted.

In 12.1 and earlier releases, the key value must be an alphanumeric string of 1 through 127 characters without encryption, and 1 through 256 characters with encryption.

The encrypted keyword is intended only for use by the chassis while saving configuration scripts. The system displays the encrypted keyword in the configuration file as a flag that the variable following the key keyword is the encrypted version of the plaint text key. Only the encrypted key is saved as part of the configuration file.

acct-on { disable | enable }

Enables and disables sending of the Accounting-On message when a new RADIUS server is added to the configuration.

When this is enabled, the Accounting-On message is sent when a new RADIUS server is added in the configuration. However, if for some reason the Accounting-On message cannot be sent at the time of server configuration (for example; if the interface is down), then the message is sent as soon as possible. Once the Accounting-On message is sent, if it is not responded to after the configured RADIUS accounting timeout, the message is retried the configured number of RADIUS accounting retries. Once all retries have been exhausted, the system no longer attempts to send the Accounting-On message for this server.

Default: disable

acct-off { disable | enable }

Disables and enables the sending of the Accounting-Off message when a RADIUS server is removed from the configuration.

The Accounting-Off message is sent when a RADIUS server is removed from the configuration, or when there is an orderly shutdown. However, if for some reason the Accounting-On message cannot be sent at this time, it is never sent. The Accounting-Off message is sent only once, regardless of how many accounting retries are enabled.

Default: enable

max max_messages

Specifies the maximum number of outstanding messages that may be allowed to the server.

max_messages must be an integer from 1 through 256.

Default: 0

max-rate max_value

Specifies the rate at which the accounting messages should be sent to the RADIUS server by a single AAA manager task.

max_value must be an integer from 0 through 1000.

Default: 0 (disabled)

oldports

Sets the UDP communication port to the out of date standardized default for RADIUS communications to 1646.

priority priority

Specifies the relative priority of this accounting server. The priority is used in server selection for determining which server to send accounting data to.

priority must be an integer from 1 through 1000, where 1 is the highest priority. When configuring two or more servers with the same priority you will be asked to confirm that you want to do this. If you use the -noconfirm option, you are not asked for confirmation and multiple servers could be assigned the same priority.

Default: 1000

type { mediation-device | standard }

mediation-device: Obsolete keyword.

Specifies the type of AAA transactions to use to communicate with this RADIUS server.

standard: Use standard AAA transactions.

Default: standard

admin-status { disable | enable }

Configures the admin-status for the RADIUS accounting server.

enable: Enables the RADIUS accounting server.

disable: Disables the RADIUS accounting server.

-noconfirm

Specifies that the command must execute without any prompts and confirmation from the user.


Usage:

Use this command to configure the RADIUS accounting servers with which the system must communicate for accounting.

You can configure up to 1600 RADIUS servers per context/system and 128 servers per server group. The servers can be configured as Accounting, Authentication, Charging servers, or any combination thereof.


Example:
The following command sets the accounting server with mediation device transaction for AAA server 10.2.3.4:
radius mediation-device
accounting server 10.2.3.4 key sharedKey port 1024 max 127
radius algorithm

This command configures the RADIUS authentication server selection algorithm for the current context.

Platform:

ASR 5000

Product:

All


Privilege:

Security Administrator, Administrator


Syntax
radius algorithm { first-server | round-robin }default radius algorithm
default

Configures the default setting.

Default: first-server

first-server

Accounting data is sent to the first available server based upon the relative priority of each configured server.

round-robin

Accounting data is sent in a circular queue fashion on a per Session Manager task basis where data is sent to the next available server and restarts at the beginning of the list of configured servers. The order of the list is based upon the configure relative priority of the servers.


Usage:

Use this command to configure the context’s RADIUS server selection algorithm to ensure proper load distribution amongst the available servers.


Example:
The following command configures to use the round-robin algorithm for RADIUS server selection:
radius algorithm round-robin
radius allow

This command configures the system behavior for allowing subscriber sessions when RADIUS accounting and/or authentication is unavailable.

Platform:

ASR 5000

Product:

All products used in CDMA deployments


Privilege:

Security Administrator, Administrator


Syntax
[ no ] radius
allow { authentication-down | accounting-down }
no

Specifies that the specified option is to be disabled.

authentication-down

Allows sessions while authentication is not available (down).

Default: Disabled

accounting-down

Allows sessions while accounting is unavailable (down).

Default: Enabled


Usage:

Allow sessions during system troubles when the risk of IP address and/or subscriber spoofing is minimal. The denial of sessions may cause dissatisfaction with subscribers at the cost/expense of verification and/or accounting data.

IMPORTANT:

Please note that this command is applicable ONLY to CDMA products. To configure this functionality in UMTS/LTE products (GGSN/P-GW), use the command mediation-device delay-GTP-response in APN Configuration mode.


Example:
The following command configures the RADIUS server to allow the sessions while accounting is unavailable.
radius allow accounting-down
radius attribute

This command configures the system’s RADIUS identification parameters.

Platform:

ASR 5000

Product:

All


Privilege:

Security Administrator, Administrator


Syntax
radius attribute { accounting accounting_attribute  | authentication authentication_attribute  | nas-identifier nas_id | nas-ip-address
address primary_address [ backup secondary_address ] [ nexthop-forwarding-address nexthop_address ] [ mpls-label input in_label_value | output out_label_value1 [ out_label_value2 ] [ vlan vlan_id ] ] }no radius attribute { accounting accounting_attribute | authentication
authentication_attribute | nas-identifier | nas-ip-address }default radius attribute { accounting | authentication | nas-identifier } 
no

Removes or disables the specified configuration.

default

Configures the default setting(s).

accounting accounting_attribute

Enables RADIUS accounting attributes for the following options, provided they are supported in the configured RADIUS dictionary:

  • 3gpp-cg-address
  • 3gpp-charging-characteristics
  • 3gpp-charging-id
  • 3gpp-ggsn-address
  • 3gpp-ggsn-mcc-mnc
  • 3gpp-gprs-qos-negotiated-profile
  • 3gpp-imeisv
  • 3gpp-imsi-mcc-mnc
  • 3gpp-ms-timezone
  • 3gpp-nsapi
  • 3gpp-pdp-type
  • 3gpp-rat-type
  • 3gpp-select-mode
  • 3gpp-sgsn-address
  • 3gpp-sgsn-mcc-mnc
  • 3gpp-user-location-info
  • acct-input-octets
  • acct-input-packets
  • acct-output-octets
  • acct-output-packets
  • acct-session-time
  • called-station-id
  • calling-station-id
  • event-timestamp
  • imsi

By default, all of the attributes are enabled.

authentication authentication_attribute

Enables RADIUS authentication attributes for the following options, provided they are supported in the configured RADIUS dictionary:

  • 3gpp-cg-address
  • 3gpp-charging-characteristics
  • 3gpp-ggsn-address
  • 3gpp-ggsn-mcc-mnc
  • 3gpp-gprs-qos-negotiated-profile
  • 3gpp-imeisv
  • 3gpp-imsi-mcc-mnc
  • 3gpp-ms-timezone
  • 3gpp-nsapi
  • 3gpp-pdp-type
  • 3gpp-rat-type
  • 3gpp-select-mode
  • 3gpp-sgsn-address
  • 3gpp-sgsn-mcc-mnc
  • 3gpp-user-location-info
  • called-station-id
  • calling-station-id
  • imsi

By default, all of the attributes are enabled.

nas-identifier nas_id

Specifies the attribute name by which the system will be identified in Access-Request messages. nas_id must be a case-sensitive alphanumeric string of 1 through 32 characters.

nas-ip-address address primary_address

Specifies the AAA interface IP address(es) used to identify the system. Up to two addresses can be configured.

primary_address : The IP address of the primary interface to use in the current context. This must be specified using the IPv4 dotted-decimal notation.

IMPORTANT:

In 12.0 and earlier releases, the configuration of NAS IP address with IPv6 prefix is currently not supported.

backup secondary_address

backup: The IP address of the secondary interface to use in the current context. This must be specified using IPv4 dotted-decimal notation.

nexthop-forwarding-address nexthop_address

Configures next hop IP address for this NAS IP address. It optionally sets the RADIUS client to provide VLAN ID and nexthop forwarding address to system when running in single nexthop gateway mode.

nexthop_address must be specified using IPv4 dotted-decimal notation.

IMPORTANT:

To define more than one NAS IP address per context, in Global Configuration Mode use the aaa large-configuration command. If enabled, for a PDSN a maximum of 400 and for a GGSN a maximum of 800 NAS IP addresses/NAS identifiers (1 primary and 1 secondary per server group) can be configured per context.

mpls-label input in_label_value | output out_label_value1 [ out_label_value2 ]
Configures the traffic from the specified RADIUS client NAS IP address to use the specified MPLS labels.
  • in_label_value is the MPLS label that will identify inbound traffic destined for the configured NAS IP address.
  • out_label_value1 and out_label_value2 identify the MPLS labels to be added to packets sent from the specified NAS IP address.
  • out_label_value1 is the inner output label.
  • out_label_value2 is the outer output label.

MPLS label values must be an integer from 16 to 1048575.

vlan vlan_id

This optional keyword sets the RADIUS client to provide VLAN ID with nexthop forwarding address to system when running in single nexthop gateway mode.

vlan_id must be a pre-configured VLAN ID, and must be an integer from 1 through 4096. It is the VLAN ID to be provided to the system in RADIUS attributes.

This option is available only when nexthop-forwarding gateway is also configured with nexthop-forwarding-address nexthop_address keyword and aaa-large configuration is enabled at Global Configuration level.


Usage:

This is necessary for NetWare Access Server usage such as the system must be identified to the NAS.

The system supports the concept of the active nas-ip-address. The active nas-ip-address is defined as the current source ip address for RADIUS messages being used by the system. This is the content of the nas-ip-address attribute in each RADIUS message.

The system will always have exactly one active nas-ip-address. The active nas-ip-address will start as the primary nas-ip-address. However, the active nas-ip-address may switch from the primary to the backup, or the backup to the primary. The following events will occur when the active nas-ip-address is switched:
  • All current in-process RADIUS accounting messages from the entire system are cancelled. The accounting message is re-sent, with retries preserved, using the ne w active nas-ip-address. Acct-Delay-Time, however, is updated to reflect the time that has occurred since the accounting event. The value of Event-Timestamp is preserved.
  • All current in-process RADIUS authentication messages from the entire system are cancelled. The authentication message is re-sent, with retries preserved, using the new active nas-ip-address. The value of Event-Timestamp is preserved.
  • All subsequent in-process RADIUS requests uses the new active nas-ip-address.
The system uses a revertive algorithm when transitioning active NAS IP addresses as described below:
  • If the configured primary nas-ip-address transitions from UP to DOWN, and the backup nas-ip-address is UP, then the active nas-ip-address switches from the primary to the backup nas-ip-address.
  • If the backup nas-ip-address is active, and the primary nas-ip-address transitions from DOWN to UP, then the active nas-ip-address switches from the backup to the primary nas-ip-address.

Example:
The following command configures the RADIUS identification parameter, NAS IP address to 10.2.3.4.
radius attribute nas-ip-address
10.2.3.4 
radius authenticate

This command configures RADIUS authentication related parameters.

Platform:

ASR 5000

Product:

All


Privilege:

Security Administrator, Administrator


Syntax
radius authenticate { apn-to-be-included { gi | gn } | null-username }default radius authenticate { apn-to-be-included | null-username }no radius authenticate
null-username
default

Configures the default setting.

no radius authenticate null-username

Disables sending an Access-Request message to the AAA server for user names (NAI) that are blank.

apn-to-be-included

Specifies the APN name to be included for RADIUS authentication.

gi: Specifies the usage of Gi APN name in RADIUS authentication request. Gi APN represents the APN received in the Create PDP Context request message from SGSN.

gn: Specifies the usage of Gn APN name in RADIUS authentication request. Gn APN represents the APN selected by the GGSN.

null-username

Specifies attempting RADIUS authentication even if the provided user name is NULL (empty).

Default: Enables authenticating, sending Access-Request messages to the AAA server, all user names, including NULL user names.


Usage:

Use this command to disable, or re-enable, sending Access-Request messages to the AAA server for user names (NAI) that are blank (NULL).


Example:
The following command disables sending of Access-Request messages for user names (NAI) that are blank:
no radius authenticate
null-username
The following command re-enables sending of Access-Request messages for user names (NAI) that are blank:
radius authenticate
null-username
radius authenticator-validation

This command enables/disables the MD5 authentication of RADIUS user. MD5 authentication is enabled by default.

Platform:

ASR 5000

Product:

All


Privilege:

Security Administrator, Administrator


Syntax
[ default | no ] radius
authenticator-validation
no

Disables MD5 authentication validation for an Access-Request message to the AAA server.


Usage:

Use this command to disable or re-enable, sending Access-Request messages to the AAA server for MD5 validation.


Example:
The following command disables MD5 authentication validation for Access-Request messages for user names (NAI):
no radius authenticator-validation
The following command enables MD5 authentication validation for Access-Request messages for user names (NAI):
radius authenticator-validation
radius charging

This command configures basic RADIUS options for Active Charging Service (ACS).

Platform:

ASR 5000

Product:

All


Privilege:

Security Administrator, Administrator


Syntax
radius charging { deadtime dead_time | detect-dead-server { consecutive-failures consecutive_failures_count | response-timeout response_timeout_duration } | max-outstanding
 max_messages | max-retries max_retries | max-transmissions max_transmissions | timeout idle_seconds }default radius charging { deadtime | detect-dead-server | max-outstanding | max-retries | max-transmissions | timeout } no radius charging { detect-dead-server | max-transmissions | timeout } 
no

Removes the specified configuration.

default

Configures the default setting for the specified keyword.

deadtime dead_time

Specifies the number of minutes to wait before attempting to communicate with a server that has been marked as unreachable.

dead_time must be an integer from 0 through 65535.

Default: 10

detect-dead-server { consecutive-failures consecutive_failures_count | response-timeout response_timeout_duration }

consecutive-failures consecutive_failures_count: Specifies the number of consecutive failures, for each AAA Manager, before a server is marked as unreachable.

consecutive_failures_count must be an integer from 1 through 1000.

Default: 4

response-timeout response_timeout_duration: Specifies the number of seconds for each AAA Manager to wait for a response to any message before a server is detected as failed, or in a down state.

response_timeout_duration must be an integer from 1 through 65535.

max-outstanding max_messages

Specifies the maximum number of outstanding messages a single AAA Manager instance will queue.

max_messages must be an integer from 1 through 4000.

Default: 256

max-retries max_retries

Specifies the maximum number of times communication with a AAA server will be attempted before it is marked as unreachable, and the detect dead servers consecutive failures count is incremented.

max_retries must be an integer from 0 through 65535.

Default: 5

max-transmissions max_transmissions

Sets the maximum number of re-transmissions for RADIUS authentication requests. This limit is used in conjunction with the max-retries parameter for each server.

When failing to communicate with a RADIUS sever, the subscriber is failed once all of the configured RADIUS servers have been exhausted or once the configured number of maximum transmissions is reached.

For example, if three servers are configured and if the configured max-retries is 3 and max-transmissions is 12, then the primary server is tried four times (once plus three retries), the secondary server is tried four times, and then a third server is tried four times. If there is a fourth server, it is not tried because the maximum number of transmissions (12) has been reached.

max_transmissions must be an integer from 1 through 65535.

Default: Disabled

timeout idle_seconds

Specifies the number of seconds to wait for a response from the RADIUS server before re-sending the messages.

idle_seconds must be an integer from 1 through 65535.

Default: 3


Usage:

Use this command to manage the basic Charging Service RADIUS options according to the RADIUS server used for the context.


Example:
The following command configures the AAA server to be marked as unreachable when the consecutive failure count exceeds 6:
radius charging detect-dead-server
consecutive-failures 6
The following command sets the timeout value to 300 seconds to wait for a response from RADIUS server before resending the messages:
radius charging timeout 300
radius charging accounting algorithm

This command specifies the fail-over/load-balancing algorithm to be used for selecting RADIUS servers for charging services.

Platform:

ASR 5000

Product:

PDSN, GGSN


Privilege:

Security Administrator, Administrator


Syntax
radius charging accounting
algorithm { first-n n | first-server | round-robin }
first-n n

Specifies that the AGW must send accounting data to n (more than one) AAA servers based on their priority. Response from any one of the n AAA servers would suffice to proceed with the call. The full set of accounting data is sent to each of the n AAA servers.

n is the number of AAA servers to which accounting data will be sent, and must be an integer from 2 through 128.

Default: 1 (Disabled)

first-server

Specifies that the context must send accounting data to the RADIUS server with the highest configured priority. In the event that this server becomes unreachable, accounting data is sent to the server with the next-highest configured priority. This is the default algorithm.

round-robin

Specifies that the context must load balance sending accounting data among all of the defined RADIUS servers. Accounting data is sent in a circular queue fashion on a per Session Manager task basis, where data is sent to the next available server and restarts at the beginning of the list of configured servers. The order of the list is based upon the configured relative priority of the servers.


Usage:

Use this command to specify the accounting algorithm to use to select RADIUS servers for charging services configured in the current context.


Example:
The following command configures to use the round-robin algorithm for RADIUS server selection:
radius charging accounting
algorithm round-robin
radius charging accounting server

This command configures RADIUS charging accounting servers in the current context for ACS Prepaid Accounting.

Platform:

ASR 5000

Product:

All


Privilege:

Security Administrator, Administrator


Syntax
radius charging accounting
server ip_address [ encrypted ] key value [ max  max_messages ] [ oldports ] [ port
 port_number ] [ priority
 priority ] [ admin-status { enable | disable } ] [ -noconfirm ]no radius charging
accounting server ip_address [ oldports | port port_number ]
no

Removes the server or server port(s) specified from the list of configured servers.

ip_address

Specifies the IP address of the accounting server. ip_address must be specified using IPv4 dotted-decimal notation. A maximum of 128 RADIUS servers can be configured per context. This limit includes accounting and authentication servers.

[ encrypted ] key value

Specifies the shared secret key used to authenticate the client to the servers. The encrypted keyword indicates the key specified is encrypted.

In 12.1 and earlier releases, the key value must be an alphanumeric string of 1 through 127 characters without encryption, and 1 through 256 characters with encryption.

The encrypted keyword is intended only for use by the system while saving configuration scripts. The system displays the encrypted keyword in the configuration file as a flag that the variable following the key keyword is the encrypted version of the plaint text key. Only the encrypted key is saved as part of the configuration file.

max max_messages

Specifies the maximum number of outstanding messages that may be allowed to the server. max_messages must be an integer from 0 through 4000.

Default: 0

oldports

Sets the UDP communication port to the out of date standardized default for RADIUS communications to 1646.

port port_number

Specifies the port number to use for communication.

port_number must be an integer from 0 through 65535.

Default: 1813

priority priority

Specifies the relative priority of this accounting server. The priority is used in server selection for determining which server to send accounting data to. priority must be an integer from 1 through 1000, where 1 is the highest priority.

Default: 1000

admin-status { enable | disable }

Enables or disables the RADIUS authentication/accounting/charging server functionality and saves the status setting in the configuration file to re-establish the set status at reboot.

-noconfirm

Specifies that the command must execute without any prompts and confirmation from the user.


Usage:

This command is used to configure the RADIUS charging accounting server(s) with which the system is to communicate for ACS Prepaid Accounting requests.

Up to 128 AAA servers can be configured per context when the system is functioning as a PDSN and/or HA. Up to 16 servers are supported per context when the system is functioning as a GGSN.


Example:
The following commands configure RADIUS charging accounting server with the IP address set to 10.1.2.3, port to 1024, priority to 10:
radius charging accounting
server 10.1.2.3 key sharedKey212 port 1024 max 127
radius charging accounting
server 10.1.2.3 encrypted key scrambledKey234 oldports priority 10
radius charging algorithm

This command specifies the RADIUS authentication server selection algorithm for ACS for the current context.

Platform:

ASR 5000

Product:

All


Privilege:

Security Administrator, Administrator


Syntax
radius charging algorithm { first-server | round-robin }default radius charging algorithm
default

Configures the default setting.

Default: first-server

first-server

Accounting data is sent to the first available server based upon the relative priority of each configured server.

round-robin

Accounting data is sent in a circular queue fashion on a per Session Manager task basis where data is sent to the next available server and restarts at the beginning of the list of configured servers. The order of the list is based upon the configured relative priority of the servers.


Usage:

Use this command to configure the context’s RADIUS server selection algorithm for ACS to ensure proper load distribution amongst the available servers.


Example:
The following command configures to use the round-robin algorithm for RADIUS server selection:
radius algorithm round-robin
radius charging server

This command configures the RADIUS charging server(s) in the current context for ACS Prepaid Authentication.

Platform:

ASR 5000

Product:

All


Privilege:

Security Administrator, Administrator


Syntax
radius charging server ip_address [ encrypted ] key value [ max max_messages ] [ oldports ] [ port
 port_number ] [ priority priority ] [ admin-status { enable | disable } ] [ -noconfirm ]no radius charging
server ip_address [ oldports | port port_number ]
no

Removes the server or server port(s) specified from the list of configured servers.

ip_address

Specifies the IP address of the server. ip_address must be specified using IPv4 dotted-decimal notation. A maximum of 128 RADIUS servers can be configured per context. This limit includes accounting and authentication servers.

[ encrypted ] key value

Specifies the shared secret key used to authenticate the client to the servers. The encrypted keyword indicates the key specified is encrypted.

In 12.1 and earlier releases, the key value must be an alphanumeric string of 1 through 127 characters without encryption, and 1 through 256 characters with encryption.

The encrypted keyword is intended only for use by the system while saving configuration scripts. The system displays the encrypted keyword in the configuration file as a flag that the variable following the key keyword is the encrypted version of the plain text key. Only the encrypted key is saved as part of the configuration file.

max max_messages

Specifies the maximum number of outstanding messages that may be allowed to the server. max_messages must be an integer from 0 through 4000.

Default: 256

oldports

Sets the UDP communication port to the old default for RADIUS communications to 1645.

port port_number

Specifies the port number to use for communications.

port_number must be an integer from 1 through 65535.

Default: 1812

priority priority

Specifies the relative priority of this accounting server. The priority is used in server selection for determining which server to send accounting data to.

priority must be an integer from 1 through 1000, where 1 is the highest priority.

Default: 1000

admin-status { enable | disable }

Enables or disables the RADIUS authentication, accounting, or charging server functionality and saves the status setting in the configuration file to re-establish the set status at reboot.

-noconfirm

Specifies that the command must execute without any prompts and confirmation from the user.


Usage:

This command is used to configure the RADIUS charging server(s) with which the system is to communicate for ACS Prepaid Authentication requests.

Up to 128 AAA servers can be configured per context when the system is functioning as a PDSN and/or HA. Up to 16 servers are supported per context when the system is functioning as a GGSN.


Example:
The following commands configure RADIUS charging server with the IP address set to 10.2.3.4, port to 1024, priority to 10:
radius charging server
10.2.3.4 key sharedKey212 port 1024 max 127
radius charging server
10.2.3.4 encrypted key scrambledKey234 oldports priority 10 
radius ip vrf

This command associates the specific AAA group (NAS-IP) with a Virtual Routing and Forwarding (VRF) Context instance for BGP/MPLS, GRE, and IPSec Tunnel functionality which needs VRF support for RADIUS communication. By default the VRF is NULL, which means that AAA group is associated with global routing table.

Platform:

ASR 5000

Product:

All


Privilege:

Security Administrator, Administrator


Syntax
radius ip vrf vrf_nameno radius ip vrf
no

Disables the configured IP Virtual Routing and Forwarding (VRF) context instance and removes the association between the VRF context instance and the AAA group instance (NAS-IP).

By default this command is disabled, which means the NAS-IP being used is assumed a non-VRF IP and specific AAA group does not have any VRF association.

vrf_name

Specifies the name of a pre-configured VRF context instance.

vrf_name is the name of a pre-configured virtual routing and forwarding (VRF) context configured in Context configuration mode through ip vrf command.

CAUTION:

Any incorrect configuration, such as associating AAA group with wrong VRF instance or removing a VRF instance, will fail the RADIUS communication.


Usage:

Use this command to associate/disassociate a pre-configured VRF context for a feature such as BGP/MPLS VPN or GRE, and IPSec tunneling which needs VRF support for RADIUS communication.

By default the VRF is NULL, which means that AAA group (NAS-IP) is associated with global routing table and NAS-IP being used is assumed a non-VRF IP.

This IP VRF feature can be applied to RADIUS communication, which associates the VRF with the AAA group. This command must be configured whenever a VRF IP is used as a NAS-IP in the AAA group or at the Context level for the “default” AAA group.

This is a required configuration as VRF IPs may be overlapping hence AAA needs to know which VRF the configured NAS-IP belongs to. By this support different VRF-based subscribers can communicate with different RADIUS servers using the same, overlapping NAS-IP address, if required across different AAA groups.


Example:
The following command associates VRF context instance ip_vrf1 with specific AAA group (NAS-IP):
radius ip vrf ip_vrf1 
radius keepalive

This command configures the RADIUS keepalive authentication parameters.

Platform:

ASR 5000

Product:

All


Privilege:

Security Administrator, Administrator


Syntax
radius keepalive { calling-station-id id | consecutive-response number | encrypted | interval seconds | password | retries number | timeout seconds | username user_name | valid-response
access-accept [ access-reject ] }default radius keepalive { calling-station-id | consecutive-response | interval | password | retries | timeout | username | valid-response }
default

Configures the default setting for the specified keyword.

calling-station-id id

Specifies the Calling-Station-Id to be used for the keepalive authentication.

id must be an alphanumeric string of size 1 to 15 characters.

Default: 000000000000000

consecutive-response number

Specifies the number of consecutive authentication responses after which the server is marked as reachable.

number must be an integer from 1 through 10.

Default: 1

encrypted password

Specifies encrypting the password.

In 12.1 and earlier releases, the password must be an alphanumeric string of 1 through 63 characters.

Default password: Test-Password

interval seconds

Specifies the time interval, in seconds, between two keepalive access requests.

Default: 30 seconds

password

Specifies the password to be used for authentication.

password must be an alphanumeric string of 1 through 63 characters.

Default password: Test-Password

retries number

Specifies the number of times the keepalive access request to be sent before marking the server as unreachable.

number must be an integer from 3 through 10.

Default: 3

timeout timeout_duration

Specifies the time interval between keepalive access request retries.

timeout_duration must be an integer from 1 through 30.

Default: 3 seconds

username user_name

Specifies the user name to be used for authentication.

user_name must be an alphanumeric string of 1 through 127 characters.

Default: Test-Username

valid-response access-accept [ access-reject ]

Specifies the valid response for the authentication request.

If access-reject is configured, then both access-accept and access-reject are considered as success for the keepalive authentication request.

If access-reject is not configured, then only access-accept is considered as success for the keepalive access request.

Default: keepalive valid-response access-accept


Usage:

Use this command to configure the keepalive authentication parameters for the RADIUS server.


Example:
The following command configures the user name for RADIUS keepalive access requests to Test-Username2:
radius keepalive username Test-Username2
The following command configures the number of RADIUS keepalive retries to 4:
radius keepalive retries
4 
radius mediation-device

See the radius accounting server command.

radius probe-interval

This command configures the time interval between two RADIUS authentication probes.

Platform:

ASR 5000

Product:

All


Privilege:

Security Administrator, Administrator


Syntax
radius probe-interval secondsdefault radius probe-interval
default

Configures the default setting.

seconds

Specifies the number of seconds to wait before sending another probe authentication request to a RADIUS server.

seconds must be an integer from 1 through 65535.

Default: 60


Usage:

Use this command for Interchassis Session Recovery (ICSR) support to set the duration between two authentication probes to the RADIUS server.


Example:
The following command sets the RADIUS authentication probe interval to 30 seconds.
radius probe-interval
30 
radius probe-max-retries

This command configures the number of retries for RADIUS authentication probe response.

Platform:

ASR 5000

Product:

All


Privilege:

Security Administrator, Administrator


Syntax
radius probe-max-retries retriesdefault radius probe-max-retries
default

Configures the default setting.

retries

Specifies the number of retries for RADIUS authentication probe response before the authentication is declared as failed.

retries must be an integer from 0 through 65535.

Default: 5


Usage:

Use this command with Interchassis Session Recovery (ICSR) to set the number of attempts to send RADIUS authentication probe without a response before the authentication is declared as failed.


Example:
The following command configures the maximum number of retries to 6 seconds.
radius probe-max-retries
6 
radius probe-timeout

This command configures the timeout duration for Interchassis Session Recovery (ICSR) to wait for a response for RADIUS authentication probes.

Platform:

ASR 5000

Product:

All


Privilege:

Security Administrator, Administrator


Syntax
radius probe-timeout idle_secondsdefault radius probe-timeout
default

Configures the default setting.

idle_seconds

Specifies the number of seconds to wait for a response from the RADIUS server before re-sending the authentication probe.

idle_seconds must be an integer from 0 through 65535.

Default: 3


Usage:

Use this command to set the time duration for ICSR, to wait for a response before re-sending the RADIUS authentication probe to the RADIUS server.


Example:
The following command sets the authentication probe timeout to 120 seconds:
radius probe-timeout
120 
radius server

This command configures RADIUS authentication server(s) in the current context for authentication.

Platform:

ASR 5000

Product:

All


Privilege:

Security Administrator, Administrator


Syntax
radius server ip_address [ encrypted ] key value [ admin-status { disable | enable } ] [ max max_messages ] [ max-rate max_value ] [ oldports ] [ port port_number ] [ priority priority ] [ probe | no-probe ] [ probe-username user_name ] [ probe-password [ encrypted ] password password ] [ type { mediation-device | standard } ] [ -noconfirm ]no radius server ip_address [ oldports | port port_number ]
no

Removes the server or server port(s) specified from the list of configured servers.

ip_address port port_number

Specifies the IP address and port number of the server.

ip_address: Must be specified using IPv4 dotted-decimal notation. A maximum of 1600 RADIUS servers per context/system and 128 servers per Server group can be configured. This limit includes accounting and authentication servers.

port port_number: Specifies the port number to use for communications. port_number must be an integer from 1 through 65535.

Default: 1812.

IMPORTANT:

The same RADIUS server IP address and port can be configured in multiple RADIUS server groups within a context.

[ encrypted ] key value

Specifies the shared secret key used to authenticate the client to the servers. The encrypted keyword indicates the key specified is encrypted.

In 12.1 and earlier releases, the key value must be an alphanumeric string of 1 through 127 characters without encryption, and 1 through 256 characters with encryption.

The encrypted keyword is intended only for use by the chassis while saving configuration scripts. The system displays the encrypted keyword in the configuration file as a flag that the variable following the key keyword is the encrypted version of the plain text key. Only the encrypted key is saved as part of the configuration file.

admin-status { disable | enable }

Enables or disables the RADIUS authentication, accounting, or charging server functionality and saves the status setting in the configuration file to re-establish the set status at reboot.

max max_messages

Specifies the maximum number of outstanding messages that may be allowed to the server.

max_messages must be an integer from 0 through 4000.

Default: 256

max-rate max_value

Specifies the rate at which the authentication messages should be sent to the RADIUS server by a single AAA manager task.

max_value must be an integer from 0 through 1000.

Default: 0 (disabled)

oldports

Sets the UDP communication port to the old default for RADIUS communications to 1645.

priority priority

Specifies the relative priority of this accounting server. The priority is used in server selection for determining which server to send accounting data to.

priority must be an integer from 1 through 1000, where 1 is the highest priority. When configuring two or more servers with the same priority you will be asked to confirm that you want to do this. If you use the -noconfirm option, you are not asked for confirmation and multiple servers could be assigned the same priority.

Default: 1000

probe

Enable probe messages to be sent to the specified RADIUS server.

no-probe

Disable probe messages from being sent to the specified RADIUS server. This is the default behavior.

probe-username user_name

The user name sent to the RADIUS server to authenticate probe messages. user_name must be an alphanumeric string of 1 through 127 characters.

probe-password [ encrypted ] password password

The password sent to the RADIUS server to authenticate probe messages.

encrypted: This keyword is intended only for use by the chassis while saving configuration scripts. The system displays the encrypted keyword in the configuration file as a flag that the variable following the password keyword is the encrypted version of the plain text password. Only the encrypted password is saved as part of the configuration file.

password password: Specifies the probe-user password for authentication. password must be an alphanumeric string of 1 through 63 characters.

type { mediation-device | standard }

Specifies the type of transactions the RADIUS server accepts.

mediation-device: Specifies mediation-device specific AAA transactions. This device is available if you purchased a transaction control services license. Contact your local Cisco representative for licensing information.

standard: Specifies standard AAA transactions. (Default)

-noconfirm

Specifies that the command must execute without any prompts and confirmation from the user.


Usage:

This command is used to configure the RADIUS authentication server(s) with which the system is to communicate for authentication.

You can configure up to 1600 RADIUS servers per context/system and 128 servers per Server group. The servers can be configured as accounting, authentication, charging servers, or any combination thereof.


Example:
The following commands configure RADIUS server with the IP address set to 10.2.3.4, port to 1024, priority to 10:
radius server 10.2.3.4
key sharedKey212 port 1024 max 127
radius server 10.2.3.4
encrypted key scrambledKey234 oldports priority 10
radius trigger

This command enables specific RADIUS triggers.

Platform:

ASR 5000

Product:

GGSN, P-GW


Privilege:

Security Administrator, Administrator


Syntax
[ no ] radius
trigger { ms-timezone-change | qos-change | rai-change | rat-change | serving-node-change | uli-change }default radius trigger
no

Disables specified RADIUS trigger.

default

Configures the default setting.

Default: All RADIUS triggers are enabled.

ms-timezone-change

Specifies to enable RADIUS trigger for MS time zone change.

qos-change

Specifies to enable RADIUS trigger for Quality of Service change.

rai-change

Specifies to enable RADIUS trigger for Routing Area Information change.

rat-change

Specifies to enable RADIUS trigger for Radio Access Technology change.

serving-node-change

Specifies to enable RADIUS trigger for Serving Node change.

uli-change

Specifies to enable RADIUS trigger for User Location Information change.


Usage:

Use this command to enable RADIUS triggers.


Example:
The following command enables RADIUS trigger for RAT change:
radius trigger rat-change