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This chapter describes how to configure the Remote Access Dial-In User Service (RADIUS) protocol on Cisco NX-OS devices.
This chapter includes the following sections:
Your software release might not support all the features documented in this module. For the latest caveats and feature information, see the Bug Search Tool at https://tools.cisco.com/bugsearch/ and the release notes for your software release. To find information about the features documented in this module, and to see a list of the releases in which each feature is supported, see the "New and Changed Information"chapter or the Feature History table in this chapter.
The RADIUS distributed client/server system allows you to secure networks against unauthorized access. In the Cisco implementation, RADIUS clients run on Cisco NX-OS devices and send authentication and accounting requests to a central RADIUS server that contains all user authentication and network service access information.
RADIUS can be implemented in a variety of network environments that require high levels of security while maintaining network access for remote users.
You can use RADIUS in the following network environments that require access security:
Networks with multiple-vendor network devices, each supporting RADIUS. For example, network devices from several vendors can use a single RADIUS server-based security database.
Networks already using RADIUS. You can add a Cisco NX-OS device with RADIUS to the network. This action might be the first step when you make a transition to a AAA server.
Networks that require resource accounting. You can use RADIUS accounting independent of RADIUS authentication or authorization. The RADIUS accounting functions allow data to be sent at the start and end of services, indicating the amount of resources (such as time, packets, bytes, and so on) used during the session. An Internet service provider (ISP) might use a freeware-based version of the RADIUS access control and accounting software to meet special security and billing needs.
Networks that support authentication profiles. Using the RADIUS server in your network, you can configure AAA authentication and set up per-user profiles. Per-user profiles enable the Cisco NX-OS device to better manage ports using their existing RADIUS solutions and to efficiently manage shared resources to offer different service-level agreements.
When a user attempts to log in and authenticate to a Cisco NX-OS device using RADIUS, the following process occurs:
The user is prompted for and enters a username and password.
The username and encrypted password are sent over the network to the RADIUS server.
The user receives one of the following responses from the RADIUS server:
The ACCEPT or REJECT response is bundled with additional data that is used for EXEC or network authorization. You must first complete RADIUS authentication before using RADIUS authorization. The additional data included with the ACCEPT or REJECT packets consists of the following:
Services that the user can access, including Telnet, rlogin, or local-area transport (LAT) connections, and Point-to-Point Protocol (PPP), Serial Line Internet Protocol (SLIP), or EXEC services.
Connection parameters, including the host or client IPv4 or IPv6 address, access list, and user timeouts.
An unresponsive RADIUS server can cause a delay in processing AAA requests. You can configure the Cisco NX-OS device to periodically monitor a RADIUS server to check whether it is responding (or alive) to save time in processing AAA requests. The Cisco NX-OS device marks unresponsive RADIUS servers as dead and does not send AAA requests to any dead RADIUS servers. The Cisco NX-OS device periodically monitors the dead RADIUS servers and brings them to the alive state once they respond. This monitoring process verifies that a RADIUS server is in a working state before real AAA requests are sent its way. Whenever a RADIUS server changes to the dead or alive state, a Simple Network Management Protocol (SNMP) trap is generated and the Cisco NX-OS device displays an error message that a failure is taking place.
 Note |
The monitoring interval for alive servers and dead servers are different and can be configured by the user. The RADIUS server monitoring is performed by sending a test authentication request to the RADIUS server. |
Cisco Fabric Services (CFS) allows the Cisco NX-OS device to distribute the RADIUS configuration to other Cisco NX-OS devices in the network. When you enable CFS distribution for a feature on your device, the device belongs to a CFS region containing other devices in the network that you have also enabled for CFS distribution for the feature. CFS distribution for RADIUS is disabled by default.
Note |
You must explicitly enable CFS for RADIUS on each device to which you want to distribute configuration changes. |
After you enable CFS distribution for RADIUS on your Cisco NX-OS device, the first RADIUS configuration command that you enter causes the Cisco NX-OS software to take the following actions:
Creates a CFS session on your Cisco NX-OS device.
Locks the RADIUS configuration on all Cisco NX-OS devices in the CFS region with CFS enabled for RADIUS.
Saves the RADIUS configuration changes in a temporary buffer on the Cisco NX-OS device.
The changes stay in the temporary buffer on the Cisco NX-OS device until you explicitly commit them to be distributed to the devices in the CFS region. When you commit the changes, the Cisco NX-OS software takes the following actions:
Applies the changes to the running configuration on your Cisco NX-OS device.
Distributes the updated RADIUS configuration to the other Cisco NX-OS devices in the CFS region.
Unlocks the RADIUS configuration in the devices in the CFS region.
Terminates the CFS session.
CFS does not distribute the RADIUS server group configuration or server and global keys. The keys are unique to the Cisco NX-OS device and are not shared with other Cisco NX-OS devices.
For detailed information on CFS, see the Cisco Nexus 7000 Series NX-OS System Management Configuration Guide.The Internet Engineering Task Force (IETF) draft standard specifies a method for communicating VSAs between the network access server and the RADIUS server. The IETF uses attribute 26. VSAs allow vendors to support their own extended attributes that are not suitable for general use. The Cisco RADIUS implementation supports one vendor-specific option using the format recommended in the specification. The Cisco vendor ID is 9, and the supported option is vendor type 1, which is named cisco-av-pair. The value is a string with the following format:
protocol : attribute separator value *
The protocol is a Cisco attribute for a particular type of authorization, the separator is = (equal sign) for mandatory attributes, and * (asterisk) indicates optional attributes.
When you use RADIUS servers for authentication on a Cisco NX-OS device, the RADIUS protocol directs the RADIUS server to return user attributes, such as authorization information, with authentication results. This authorization information is specified through VSAs.
The following VSA protocol options are supported by the Cisco NX-OS software:
The Cisco NX-OS software supports the following attributes:
shell:roles=network-operator vdc-admin
shell:roles*“network-operator vdc-admin
The following examples show the roles attribute that is supported by FreeRADIUS:
Cisco-AVPair = shell:roles=\network-operator vdc-admin\
Cisco-AVPair = shell:roles*\network-operator vdc-admin\
Note |
When you specify a VSA as shell:roles*"network-operator vdc-admin" or "shell:roles*\"network-operator vdc-admin\"", this VSA is flagged as an optional attribute and other Cisco devices ignore this attribute. |
RADIUS configuration and operation are local to the virtual device context (VDC). For more information on VDCs, see the Cisco Nexus 7000 Series NX-OS Virtual Device Context Configuration Guide.
The Cisco NX-OS device uses virtual routing and forwarding instances (VRFs) to access the RADIUS servers. For more information on VRFs, see the Cisco Nexus 7000 Series NX-OS Unicast Routing Configuration Guide.
RADIUS has the following prerequisites:
Obtain IPv4 or IPv6 addresses or hostnames for the RADIUS servers.
Obtain keys from the RADIUS servers.
Ensure that the Cisco NX-OS device is configured as a RADIUS client of the AAA servers.
RADIUS has the following guidelines and limitations:
You can configure a maximum of 64 RADIUS servers on the Cisco NX-OS device.
If you have a user account configured on the local Cisco NX-OS device that has the same name as a remote user account on an AAA server, the Cisco NX-OS software applies the user roles for the local user account to the remote user, not the user roles configured on the AAA server.
This table lists the default settings for RADIUS parameters.
|
Parameters |
Default |
|---|---|
|
Server roles |
Authentication and accounting |
|
Dead timer interval |
0 minutes |
|
Retransmission count |
1 |
|
Retransmission timer interval |
5 seconds |
|
Authentication port |
1812 |
|
Accouinting port |
1813 |
|
Idle timer interval |
0 minutes |
|
Periodic server monitoring username |
test |
|
Periodic server monitoring password |
test |
This section describes how to configure RADIUS servers on a Cisco NX-OS device.
Note |
If you are familiar with the Cisco IOS CLI, be aware that the Cisco NX-OS commands for this feature might differ from the Cisco IOS commands that you would use. |
If needed, enable CFS configuration distribution for RADIUS.
Establish the RADIUS server connections to the Cisco NX-OS device.
Configure the RADIUS secret keys for the RADIUS servers.
If needed, configure RADIUS server groups with subsets of the RADIUS servers for AAA authentication methods.
If needed, configure any of the following optional parameters:
Dead-time interval
RADIUS server specification allowed at user login
Timeout interval
TCP port
(Optional) If RADIUS distribution is enabled, commit the RADIUS configuration to the fabric.
Only Cisco NX-OS devices that have distribution enabled for RADIUS can participate in the distribution of the RADIUS configuration changes in the CFS region.
Ensure that CFS distribution is enabled.
| Command or Action | Purpose | |
|---|---|---|
|
Step 1 |
configure terminal Example: |
Enters global configuration mode. |
|
Step 2 |
radius distribute Example: |
Enable RADIUS configuration distribution. The default is disabled. |
|
Step 3 |
exit Example: |
Exits configuration mode. |
|
Step 4 |
(Optional) show radius status Example: |
(Optional)
Displays the RADIUS CFS distribution configuration. |
|
Step 5 |
(Optional) copy running-config startup-config Example: |
(Optional)
Copies the running configuration to the startup configuration. |
To access a remote RADIUS server, you must configure the IP address or hostname of a RADIUS server. You can configure up to 64 RADIUS servers.
Note |
By default, when you configure a RADIUS server IP address or hostname of the Cisco NX-OS device, the RADIUS server is added to the default RADIUS server group. You can also add the RADIUS server to another RADIUS server group. |
Ensure that the server is already configured as a member of the server group.
Ensure that the server is configured to authenticate RADIUS traffic.
Ensure that the Cisco NX-OS device is configured as a RADIUS client of the AAA servers.
| Command or Action | Purpose | |
|---|---|---|
|
Step 1 |
configure terminal Example: |
Enters global configuration mode. |
|
Step 2 |
radius-server host {ipv4-address | ipv6-address | host-name} Example: |
Specifies the IPv4 or IPv6 address or hostname for a RADIUS server to use for authentication. |
|
Step 3 |
(Optional) show radius {pending | pending-diff} Example: |
(Optional)
Displays the RADIUS configuration pending for distribution. |
|
Step 4 |
(Optional) radius commit Example: |
(Optional)
Applies the RADIUS configuration changes in the temporary database to the running configuration and distributes the RADIUS configuration to other Cisco NX-OS devices if you have enabled CFS configuration distribution for the user role feature. |
|
Step 5 |
exit Example: |
Exits configuration mode. |
|
Step 6 |
(Optional) show radius-server Example: |
(Optional)
Displays the RADIUS server configuration. |
|
Step 7 |
(Optional) copy running-config startup-config Example: |
(Optional)
Copies the running configuration to the startup configuration. |
You can configure RADIUS keys for all servers used by the Cisco NX-OS device. A RADIUS key is a shared secret text string between the Cisco NX-OS device and the RADIUS server hosts.
Note |
CFS does not distribute RADIUS keys. |
Obtain the RADIUS key values for the remote RADIUS servers.
Configure the RADIUS key on the remote RADIUS servers.
| Command or Action | Purpose | |||
|---|---|---|---|---|
|
Step 1 |
configure terminal Example: |
Enters global configuration mode. |
||
|
Step 2 |
radius-server key [0 | 7] key-value Example: |
Specifies a RADIUS key for all RADIUS servers. You can specify that the key-value is in clear text format (0 ) or is type-7 encrypted (7 ). The Cisco NX-OS software encrypts a clear text key before saving it to the running configuration. The default format is clear text. The maximum length is 63 characters. By default, no RADIUS key is configured. |
||
|
Step 3 |
exit Example: |
Exits configuration mode. |
||
|
Step 4 |
(Optional) show radius-server Example: |
(Optional)
Displays the RADIUS server configuration.
|
||
|
Step 5 |
(Optional) copy running-config startup-config Example: |
(Optional)
Copies the running configuration to the startup configuration. |
You can configure a key on the Cisco NX-OS device for a specific RADIUS server. A RADIUS key is a secret text string shared between the Cisco NX-OS device and a specific RADIUS server.
Configure one or more RADIUS server hosts.
Obtain the key value for the remote RADIUS server.
Configure the key on the RADIUS server.
| Command or Action | Purpose | |||
|---|---|---|---|---|
|
Step 1 |
configure terminal Example: |
Enters global configuration mode. |
||
|
Step 2 |
radius-server host {ipv4-address | ipv6-address | host-name} key [0 | 7] key-value Example: |
Specifies a RADIUS key for a specific RADIUS server. You can specify that the key-value is in clear text format (0 ) or is type-7 encrypted (7 ). The Cisco NX-OS software encrypts a clear text key before saving it to the running configuration. The default format is clear text. The maximum length is 63 characters. This RADIUS key is used instead of the global RADIUS key. |
||
|
Step 3 |
exit Example: |
Exits configuration mode. |
||
|
Step 4 |
(Optional) show radius-server Example: |
(Optional)
Displays the RADIUS server configuration.
|
||
|
Step 5 |
(Optional) copy running-config startup-config Example: |
(Optional)
Copies the running configuration to the startup configuration. |
You can specify one or more remote AAA servers for authentication using server groups. All members of a group must belong to the RADIUS protocol. The servers are tried in the same order in which you configure them. You can configure up to 100 server groups in a VDC.
You can configure these server groups at any time but they only take effect when you apply them to an AAA service.
Note |
CFS does not distribute RADIUS server group configurations. |
Ensure that all servers in the group are RADIUS servers.
| Command or Action | Purpose | |||
|---|---|---|---|---|
|
Step 1 |
configure terminal Example: |
Enters global configuration mode. |
||
|
Step 2 |
aaa group server radius group-name Example: |
Creates a RADIUS server group and enters the RADIUS server group configuration submode for that group. The group-name argument is a case-sensitive alphanumeric string with a maximum length of 127 characters. |
||
|
Step 3 |
server {ipv4-address | ipv6-address | host-name} Example: |
Configures the RADIUS server as a member of the RADIUS server group. If the specified RADIUS server is not found, configure it using the radius-server host command and retry this command. |
||
|
Step 4 |
(Optional) deadtime minutes Example: |
(Optional)
Configures the monitoring dead time. The default is 0 minutes. The range is from 1 through 1440.
|
||
|
Step 5 |
(Optional) server {ipv4-address | ipv6-address | host-name} Example: |
(Optional)
Configures the RADIUS server as a member of the RADIUS server group.
|
||
|
Step 6 |
(Optional) use-vrf vrf-name Example: |
(Optional)
Specifies the VRF to use to contact the servers in the server group. |
||
|
Step 7 |
exit Example: |
Exits configuration mode. |
||
|
Step 8 |
(Optional) show radius-server groups [group-name] Example: |
(Optional)
Displays the RADIUS server group configuration. |
||
|
Step 9 |
(Optional) copy running-config startup-config Example: |
(Optional)
Copies the running configuration to the startup configuration. |
You can configure a global source interface for RADIUS server groups to use when accessing RADIUS servers. You can also configure a different source interface for a specific RADIUS server group. By default, the Cisco NX-OS software uses any available interface.
| Command or Action | Purpose | |
|---|---|---|
|
Step 1 |
configure terminal Example: |
Enters global configuration mode. |
|
Step 2 |
ip radius source-interface interface Example: |
Configures the global source interface for all RADIUS server groups configured on the device. |
|
Step 3 |
exit Example: |
Exits configuration mode. |
|
Step 4 |
(Optional) show radius-server Example: |
(Optional)
Displays the RADIUS server configuration information. |
|
Step 5 |
(Optional) copy running-config startup config Example: |
(Optional)
Copies the running configuration to the startup configuration. |
By default, the Cisco NX-OS device forwards an authentication request based on the default AAA authentication method. You can configure the Cisco NX-OS device to allow the user to specify a VRF and RADIUS server to send the authentication request by enabling the directed-request option. If you enable this option, the user can log in as username@vrfname:hostname , where vrfname is the VRF to use and hostname is the name of a configured RADIUS server.
Note |
If you enable the directed-request option, the Cisco NX-OS device uses only the RADIUS method for authentication and not the default local method. |
Note |
User-specified logins are supported only for Telnet sessions. |
| Command or Action | Purpose | |
|---|---|---|
|
Step 1 |
configure terminal Example: |
Enters global configuration mode. |
|
Step 2 |
radius-server directed-request Example: |
Allows users to specify a RADIUS server to send the authentication request when logging in. The default is disabled. |
|
Step 3 |
(Optional) show radius {pending | pending-diff} Example: |
(Optional)
Displays the RADIUS configuration pending for distribution. |
|
Step 4 |
(Optional) radius commit Example: |
(Optional)
Applies the RADIUS configuration changes in the temporary database to the running configuration and distributes the RADIUS configuration to other Cisco NX-OS devices if you have enabled CFS configuration distribution for the user role feature. |
|
Step 5 |
exit Example: |
Exits configuration mode. |
|
Step 6 |
(Optional) show radius-server directed-request Example: |
(Optional)
Displays the directed request configuration. |
|
Step 7 |
(Optional) copy running-config startup-config Example: |
(Optional)
Copies the running configuration to the startup configuration. |
You can configure a global retransmission retry count and timeout interval for all RADIUS servers. By default, a Cisco NX-OS device retries transmission to a RADIUS server only once before reverting to local authentication. You can increase this number up to a maximum of five retries per server. The timeout interval determines how long the Cisco NX-OS device waits for responses from RADIUS servers before declaring a timeout failure.
| Command or Action | Purpose | |
|---|---|---|
|
Step 1 |
configure terminal Example: |
Enters global configuration mode. |
|
Step 2 |
radius-server retransmit count Example: |
Specifies the retransmission count for all RADIUS servers. The default retransmission count is 1 and the range is from 0 to 5. |
|
Step 3 |
radius-server timeout seconds Example: |
Specifies the transmission timeout interval for RADIUS servers. The default timeout interval is 5 seconds and the range is from 1 to 60 seconds. |
|
Step 4 |
(Optional) show radius {pending | pending-diff} Example: |
(Optional)
Displays the RADIUS configuration pending for distribution. |
|
Step 5 |
(Optional) radius commit Example: |
(Optional)
Applies the RADIUS configuration changes in the temporary database to the running configuration and distributes the RADIUS configuration to other Cisco NX-OS devices if you have enabled CFS configuration distribution for the user role feature. |
|
Step 6 |
exit Example: |
Exits configuration mode. |
|
Step 7 |
(Optional) show radius-server Example: |
(Optional)
Displays the RADIUS server configuration. |
|
Step 8 |
(Optional) copy running-config startup-config Example: |
(Optional)
Copies the running configuration to the startup configuration. |
By default, a Cisco NX-OS device retries a transmission to a RADIUS server only once before reverting to local authentication. You can increase this number up to a maximum of five retries per server. You can also set a timeout interval that the Cisco NX-OS device waits for responses from RADIUS servers before declaring a timeout failure.
Configure one or more RADIUS server hosts.
| Command or Action | Purpose | |||
|---|---|---|---|---|
|
Step 1 |
configure terminal Example: |
Enters global configuration mode. |
||
|
Step 2 |
radius-server host {ipv4-address | ipv6-address | host-name} retransmit count Example: |
Specifies the retransmission count for a specific server. The default is the global value.
|
||
|
Step 3 |
radius-server host {ipv4-address | ipv6-address | host-name} timeout seconds Example: |
Specifies the transmission timeout interval for a specific server. The default is the global value.
|
||
|
Step 4 |
(Optional) show radius {pending | pending-diff} Example: |
(Optional)
Displays the RADIUS configuration pending for distribution. |
||
|
Step 5 |
(Optional) radius commit Example: |
(Optional)
Applies the RADIUS configuration changes in the temporary database to the running configuration and distributes RADIUS configuration to other Cisco NX-OS devices if you have enabled CFS configuration distribution for the user role feature. |
||
|
Step 6 |
exit Example: |
Exits configuration mode. |
||
|
Step 7 |
(Optional) show radius-server Example: |
(Optional)
Displays the RADIUS server configuration. |
||
|
Step 8 |
(Optional) copy running-config startup-config Example: |
(Optional)
Copies the running configuration to the startup configuration. |
You can specify that a RADIUS server is to be used only for accounting purposes or only for authentication purposes. By default, RADIUS servers are used for both accounting and authentication. You can also specify the destination UDP port numbers where RADIUS accounting and authentication messages should be sent if there is a conflict with the default port.
Configure one or more RADIUS server hosts.
| Command or Action | Purpose | |
|---|---|---|
|
Step 1 |
configure terminal Example: |
Enters global configuration mode. |
|
Step 2 |
(Optional) radius-server host {ipv4-address | ipv6-address | host-name} acct-port udp-port Example: |
(Optional)
Specifies a UDP port to use for RADIUS accounting messages. The default UDP port is 1813. The range is from 0 to 65535. |
|
Step 3 |
(Optional) radius-server host {ipv4-address | ipv6-address | host-name} accounting Example: |
(Optional)
Specifies to use the RADIUS server only for accounting purposes. The default is both accounting and authentication. |
|
Step 4 |
(Optional) radius-server host {ipv4-address | ipv6-address | host-name} auth-port udp-port Example: |
(Optional)
Specifies a UDP port to use for RADIUS authentication messages. The default UDP port is 1812. The range is from 0 to 65535. |
|
Step 5 |
(Optional) radius-server host {ipv4-address | ipv6-address | host-name} authentication Example: |
(Optional)
Specifies to use the RADIUS server only for authentication purposes. The default is both accounting and authentication. |
|
Step 6 |
(Optional) show radius {pending | pending-diff} Example: |
(Optional)
Displays the RADIUS configuration pending for distribution. |
|
Step 7 |
(Optional) radius commit Example: |
(Optional)
Applies the RADIUS configuration changes in the temporary database to the running configuration and distributes the RADIUS configuration to other Cisco NX-OS devices if you have enabled CFS configuration distribution for the user role feature. |
|
Step 8 |
exit Example: |
Exits configuration mode. |
|
Step 9 |
(Optional) show radius-server Example: |
(Optional)
Displays the RADIUS server configuration. |
|
Step 10 |
(Optional) copy running-config startup-config Example: |
(Optional)
Copies the running configuration to the startup configuration. |
You can monitor the availability of individual RADIUS servers. The configuration parameters include the username and password to use for the server and an idle timer. The idle timer specifies the interval during which a RADIUS server receives no requests before the Cisco NX-OS device sends out a test packet. You can configure this option to test servers periodically, or you can run a one-time only test.
Note |
For security reasons, we recommend that you do not configure a test username that is the same as an existing user in the RADIUS database. |
Note |
The default idle timer value is 0 minutes. When the idle time interval is 0 minutes, the Cisco NX-OS device does not perform periodic RADIUS server monitoring. |
Enable RADIUS.
Add one or more RADIUS server hosts.
| Command or Action | Purpose | |||
|---|---|---|---|---|
|
Step 1 |
configure terminal Example: |
Enters global configuration mode. |
||
|
Step 2 |
radius-server host {ipv4-address | ipv6-address | host-name} test {idle-time minutes | password password [idle-time minutes] | username name [password password [idle-time minutes]]} Example: |
Specifies parameters for individual server monitoring. The default username is test, and the default password is test. The default value for the idle timer is 0 minutes, and the valid range is from 0 to 1440 minutes.
|
||
|
Step 3 |
radius-server deadtime minutes Example: |
Specifies the number of minutes before the Cisco NX-OS device checks a RADIUS server that was previously unresponsive. The default value is 0 minutes, and the valid range is from 1 to 1440 minutes. |
||
|
Step 4 |
exit Example: |
Exits configuration mode. |
||
|
Step 5 |
(Optional) show radius-server Example: |
(Optional)
Displays the RADIUS server configuration. |
||
|
Step 6 |
(Optional) copy running-config startup-config Example: |
(Optional)
Copies the running configuration to the startup configuration. |
You can configure the dead-time interval for all RADIUS servers. The dead-time interval specifies the time that the Cisco NX-OS device waits after declaring a RADIUS server is dead, before sending out a test packet to determine if the server is now alive. The default value is 0 minutes.
Note |
When the dead-time interval is 0 minutes, RADIUS servers are not marked as dead even if they are not responding. You can configure the dead-time interval for a RADIUS server group. |
| Command or Action | Purpose | |
|---|---|---|
|
Step 1 |
configure terminal Example: |
Enters global configuration mode. |
|
Step 2 |
radius-server deadtime minutes Example: |
Configures the dead-time interval. The default value is 0 minutes. The range is from 1 to 1440 minutes. |
|
Step 3 |
(Optional) show radius {pending | pending-diff} Example: |
(Optional)
Displays the RADIUS configuration pending for distribution. |
|
Step 4 |
(Optional) radius commit Example: |
(Optional)
Applies the RADIUS configuration changes in the temporary database to the running configuration and distributes the RADIUS configuration to other Cisco NX-OS devices if you have enabled CFS configuration distribution for the user role feature. |
|
Step 5 |
exit Example: |
Exits configuration mode. |
|
Step 6 |
(Optional) show radius-server Example: |
(Optional)
Displays the RADIUS server configuration. |
|
Step 7 |
(Optional) copy running-config startup-config Example: |
(Optional)
Copies the running configuration to the startup configuration. |
You can apply the RADIUS global and server-specific configuration stored in the temporary buffer to the running configuration across all devices in the fabric (including the originating device).
| Command or Action | Purpose | |
|---|---|---|
|
Step 1 |
configure terminal Example: |
Enters global configuration mode. |
|
Step 2 |
(Optional) show radius {pending | pending-diff} Example: |
(Optional)
Displays the RADIUS configuration pending for distribution. |
|
Step 3 |
radius commit Example: |
Applies the RADIUS configuration changes in the temporary database to the running configuration and distributes the RADIUS configuration to other Cisco NX-OS devices if you have enabled CFS configuration distribution for the user role feature. |
|
Step 4 |
exit Example: |
Exits configuration mode. |
|
Step 5 |
(Optional) show role session status Example: |
(Optional)
Displays the user role CFS session status. |
|
Step 6 |
(Optional) copy running-config startup-config Example: |
(Optional)
Applies the running configuration to the startup configuration. |
You can discard the temporary database of RADIUS changes and end the CFS distribution session.
| Command or Action | Purpose | |
|---|---|---|
|
Step 1 |
configure terminal Example: |
Enters global configuration mode. |
|
Step 2 |
(Optional) show radius {pending | pending-diff} Example: |
(Optional)
Displays the RADIUS configuration pending for distribution. |
|
Step 3 |
radius abort Example: |
Discards the RADIUS configuration in the temporary storage and ends the session. |
|
Step 4 |
exit Example: |
Exits configuration mode. |
|
Step 5 |
(Optional) show radius session status Example: |
(Optional)
Displays the RADIUS CFS session status. |
You can clear the ongoing Cisco Fabric Services distribution session (if any) and unlock the fabric for the RADIUS feature.
| Command or Action | Purpose | |
|---|---|---|
|
Step 1 |
clear radius session Example: |
Clears the session and unlocks the fabric. |
|
Step 2 |
(Optional) show radius session status Example: |
(Optional)
Displays the RADIUS CFS session status. |
You can manually issue a test message to a RADIUS server or to a server group.
| Command or Action | Purpose | |
|---|---|---|
|
Step 1 |
test aaa server radius {ipv4-address | ipv6-address | host-name} [vrf vrf-name] username password Example: |
Sends a test message to a RADIUS server to confirm availability. |
|
Step 2 |
test aaa group group-name username password Example: |
Sends a test message to a RADIUS server group to confirm availability. |
To display RADIUS configuration information, perform one of the following tasks:
|
Command |
Purpose |
|---|---|
|
show radius {status | pending | pending-diff} |
Displays the RADIUS Cisco Fabric Services distribution status and other details. |
|
show running-config radius [all] |
Displays the RADIUS configuration in the running configuration. |
|
show startup-config radius |
Displays the RADIUS configuration in the startup configuration. |
|
show radius-server [host-name | ipv4-address | ipv6-address] [directed-request | groups | sorted | statistics] |
Displays all configured RADIUS server parameters. |
For detailed information about the fields in the output from this command, see the Cisco Nexus 7000 Series NX-OS Security Command Reference.
You can monitor the statistics that the Cisco NX-OS device maintains for RADIUS server activity.
Configure one or more RADIUS server hosts.
| Command or Action | Purpose |
|---|---|
|
show radius-server statistics {hostname | ipv4-address | ipv6-address} Example: |
Displays the RADIUS statistics. |
You can display the statistics that the Cisco NX-OS device maintains for RADIUS server activity.
Configure RADIUS servers on the Cisco NX-OS device.
| Command or Action | Purpose | |
|---|---|---|
|
Step 1 |
(Optional) show radius-server statistics {hostname | ipv4-address | ipv6-address} Example: |
(Optional)
Displays the RADIUS server statistics on the Cisco NX-OS device. |
|
Step 2 |
clear radius-server statistics {hostname | ipv4-address | ipv6-address} Example: |
Clears the RADIUS server statistics. |
The following example shows how to configure RADIUS:
radius-server key 7 "ToIkLhPpG"
radius-server host 10.10.1.1 key 7 "ShMoMhTl" authentication accounting
aaa group server radius RadServer
server 10.10.1.1You can now configure AAA authentication methods to include the server groups.
This section describes additional information related to implementing RADIUS.
|
Related Topic |
Document Title |
|---|---|
|
Cisco NX-OS Licensing |
Cisco NX-OS Licensing Guide |
|
Command reference |
Cisco Nexus 7000 Series NX-OS Security Command Reference |
|
VRF configuration |
Cisco Nexus 7000 Series NX-OS Unicast Routing Configuration Guide |
|
Standards |
Title |
|---|---|
|
No new or modified standards are supported by this feature, and support for existing standards has not been modified by this feature. |
— |
|
MIBs |
MIBs Link |
|---|---|
|
To locate and download MIBs, go to the following URL: http://www.cisco.com/public/sw-center/netmgmt/cmtk/mibs.shtml |
This table lists the release history for this feature.
|
Feature Name |
Releases |
Feature Information |
|---|---|---|
|
RADIUS |
6.0(1) |
No change from Release 5.2. |
|
RADIUS |
5.2(1) |
Added support for the Cisco Nexus 3000 Series Switches. |
|
RADIUS |
5.2(1) |
Added type-6 encryption for RADIUS server keys. |
|
RADIUS |
5.1(1) |
No change from Release 5.0. |
|
RADIUS server groups |
5.0(2) |
Added support for configuring the global source interface for all RADIUS server groups. |
|
RADIUS server groups |
5.0(2) |
Added support for configuring a source interface for a specific RADIUS server group. |
|
Periodic server monitoring |
5.0(2) |
Added support for global periodic RADIUS server monitoring. |
|
OTP |
5.0(2) |
Added support for one-time passwords. |
|
RADIUS statistics |
4.2(1) |
Added support for clearing statistics for RADIUS server hosts. |
|
RADIUS |
4.2(1) |
No change from Release 4.1. |
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