Table Of Contents
RADIUS and TACACS+ Servers in a Wireless Environment
Configuring and Enabling RADIUS
Identifying the RADIUS Server Host
Configuring RADIUS Login Authentication
Configuring RADIUS Authorization for User Privileged Access and Network Services
Configuring Packet of Disconnect
Configuring Settings for All RADIUS Servers
Configuring the Access Point to Use Vendor-Specific RADIUS Attributes
Configuring the Access Point for Vendor-Proprietary RADIUS Server Communication
Configuring WISPr RADIUS Attributes
Displaying the RADIUS Configuration
RADIUS Attributes Sent by the Access Point
Configuring and Enabling TACACS+
Identifying the TACACS+ Server Host and Setting the Authentication Key
Configuring TACACS+ Login Authentication
Configuring TACACS+ Authorization for Privileged EXEC Access and Network Services
Displaying the TACACS+ Configuration
RADIUS and TACACS+ Servers in a Wireless Environment
This module describes how to enable and configure the Remote Authentication Dial-In User Service (RADIUS) and Terminal Access Controller Access Control System Plus (TACACS+) and provides detailed accounting information and flexible administrative control over authentication and authorization processes. RADIUS and TACACS+ are facilitated through AAA and can be enabled only through AAA commands.
Note You can configure your access point as a local authenticator to provide a backup for your main server or to provide authentication service on a network without a RADIUS server.
Note For complete syntax and usage information for the commands used in this module, refer to the latest Cisco IOS Security Command Reference on Cisco.com.
This note contains these sections:
•Configuring and Enabling RADIUS
•Configuring and Enabling TACACS+
Configuring and Enabling RADIUS
This section describes how to configure and enable RADIUS. These sections describe RADIUS configuration:
•Displaying the RADIUS Configuration
•RADIUS Attributes Sent by the Access Point
Understanding RADIUS
RADIUS is a distributed client/server system that secures networks against unauthorized access. RADIUS clients run on supported Cisco devices and send authentication requests to a central RADIUS server, which contains all user authentication and network service access information. The RADIUS host is normally a multiuser system running RADIUS server software from Cisco (Cisco Secure Access Control Server version 3.0), Livingston, Merit, Microsoft, or another software provider. For more information, refer to the RADIUS server documentation.
Use RADIUS in these network environments, which require access security:
•Networks with multiple-vendor access servers, each supporting RADIUS. For example, access servers from several vendors use a single RADIUS server-based security database. In an IP-based network with multiple vendors' access servers, dial-in users are authenticated through a RADIUS server that is customized to work with the Kerberos security system.
•Turnkey network security environments in which applications support the RADIUS protocol, such as an access environment that uses a smart card access control system. In one case, RADIUS has been used with Enigma's security cards to validate users and to grant access to network resources.
•Networks already using RADIUS. You can add a Cisco access point containing a RADIUS client to the network.
•Networks that require resource accounting. You can use RADIUS accounting independently of RADIUS authentication or authorization. The RADIUS accounting functions allow data to be sent at the start and end of services, showing the amount of resources (such as time, packets, bytes, and so forth) used during the session. An Internet service provider might use a freeware-based version of RADIUS access control and accounting software to meet special security and billing needs.
RADIUS is not suitable in these network security situations:
•Multiprotocol access environments. RADIUS does not support AppleTalk Remote Access (ARA), NetBIOS Frame Control Protocol (NBFCP), NetWare Asynchronous Services Interface (NASI), or X.25 PAD connections.
•Switch-to-switch or router-to-router situations. RADIUS does not provide two-way authentication. RADIUS can be used to authenticate from one device to a non-Cisco device if the non-Cisco device requires authentication.
•Networks using a variety of services. RADIUS generally binds a user to one service model.
RADIUS Operation
When a wireless user attempts to log in and authenticate to an access point whose access is controlled by a RADIUS server, authentication to the network occurs in the steps shown in Figure 1:
Figure 1 Sequence for EAP Authentication
The steps in Figure 1 show how a wireless client authenticates to a Radius server on a network.
A wireless client device and a RADIUS server on the wired LAN use 802.1x and EAP to perform a mutual authentication through the access point. The RADIUS server sends an authentication challenge to the client. The client uses a one-way encryption of the user-supplied password to generate a response to the challenge and sends that response to the RADIUS server.
Using information from its user database, the RADIUS server creates its own response and compares that to the response from the client. When the RADIUS server authenticates the client, the process repeats in reverse, and the client authenticates the RADIUS server.
When mutual authentication is complete, the RADIUS server and the client determine a WEP key that is unique to the client and provides the client with the appropriate level of network access, thereby approximating the level of security in a wired switched segment to an individual desktop. The client loads this key and prepares to use it for the logon session.
During the logon session, the RADIUS server encrypts and sends the WEP key, called a session key, over the wired LAN to the access point. The access point encrypts its broadcast key with the session key and sends the encrypted broadcast key to the client, which uses the session key to decrypt it. The client and access point activate WEP and use the session and broadcast WEP keys for all communications during the remainder of the session.
There is more than one type of EAP authentication, but the access point behaves the same way for each type: it relays authentication messages from the wireless client device to the RADIUS server and from the RADIUS server to the wireless client device. See the software configuration guide for your wireless device for instructions on setting up client authentication using a RADIUS server.
Configuring RADIUS
This section describes how to configure your access point to support RADIUS. At a minimum, you must identify the host or hosts that run the RADIUS server software and define the method lists for RADIUS authentication. You can optionally define method lists for RADIUS authorization and accounting.
A method list defines the sequence and methods to be used to authenticate, to authorize, or to keep accounts on a user. You can use method lists to designate one or more security protocols to be used, thus ensuring a backup system if the initial method fails. The software uses the first method listed to authenticate, to authorize, or to keep accounts on users; if that method does not respond, the software selects the next method in the list. This process continues until there is successful communication with a listed method or the method list is exhausted.
You should have access to and should configure a RADIUS server before configuring RADIUS features on your access point.
This section contains this configuration information:
•Identifying the RADIUS Server Host (required)
•Configuring RADIUS Login Authentication (required)
•Defining AAA Server Groups (optional)
•Configuring RADIUS Authorization for User Privileged Access and Network Services (optional)
•Configuring Packet of Disconnect (optional)
•Starting RADIUS Accounting m (optional)
•Selecting the CSID Format (optional)
•Configuring Settings for All RADIUS Servers (optional)
•Configuring the Access Point to Use Vendor-Specific RADIUS Attributes (optional)
•Configuring the Access Point for Vendor-Proprietary RADIUS Server Communication (optional)
•Configuring WISPr RADIUS Attributes (optional)
Note The RADIUS server CLI commands are disabled until you enter the aaa new-model command.
Default RADIUS Configuration
RADIUS and AAA are disabled by default.
To prevent a lapse in security, you cannot configure RADIUS through a network management application. When enabled, RADIUS can authenticate users accessing the access point through the CLI.
Identifying the RADIUS Server Host
Access point-to-RADIUS-server communication involves several components:
•Host name or IP address
•Authentication destination port
•Accounting destination port
•Key string
•Timeout period
•Retransmission value
You identify RADIUS security servers by their host name or IP address, host name and specific UDP port numbers, or their IP address and specific UDP port numbers. The combination of the IP address and the UDP port number creates a unique identifier allowing different ports to be individually defined as RADIUS hosts providing a specific AAA service. This unique identifier enables RADIUS requests to be sent to multiple UDP ports on a server at the same IP address.
Note For Cisco IOS Release 12.4 and later, the access point uses a randomly chosen UDP source port number in the range of 21645 to 21844 for communication with RADIUS servers.
If two different host entries on the same RADIUS server are configured for the same service—such as accounting—the second host entry configured acts as a fail-over backup to the first one. Using this example, if the first host entry fails to provide accounting services, the access point tries the second host entry configured on the same device for accounting services. (The RADIUS host entries are tried in the order that they are configured.)
A RADIUS server and the access point use a shared secret text string to encrypt passwords and exchange responses. To configure RADIUS to use the AAA security commands, you must specify the host running the RADIUS server daemon and a secret text (key) string that it shares with the access point.
The timeout, retransmission, and encryption key values can be configured globally per server for all RADIUS servers or in some combination of global and per-server settings. To apply these settings globally to all RADIUS servers communicating with the access point, use the three unique global configuration commands: radius-server timeout, radius-server retransmit, and radius-server key. To apply these values on a specific RADIUS server, use the radius-server host global configuration command.
Note If you configure both global and per-server functions (timeout, retransmission, and key commands) on the access point, the per-server timer, retransmission, and key value commands override global timer, retransmission, and key value commands. For information on configuring these setting on all RADIUS servers, see the "Configuring Settings for All RADIUS Servers" section.
You can configure the access point to use AAA server groups to group existing server hosts for authentication. For more information, see the "Defining AAA Server Groups" section.
Beginning in privileged EXEC mode, follow these steps to configure per-server RADIUS server communication. This procedure is required.
Command PurposeStep 1
configure terminal
Enter global configuration mode.
Step 2
aaa new-model
Enable AAA.
Step 3
radius-server host {hostname | ip-address} [auth-port port-number] [acct-port port-number] [timeout seconds] [retransmit retries] [key string]
Specify the IP address or host name of the remote RADIUS server host.
•(Optional) For auth-port port-number, specify the UDP destination port for authentication requests. The default port number is 1645 if this parameter is not present.
•(Optional) For acct-port port-number, specify the UDP destination port for accounting requests. The default port number is 1646 if this parameter is not present.
•(Optional) For timeout seconds, specify the time interval that the access point waits for the RADIUS server to reply before retransmitting. The range is 1 to 1000. This setting overrides the radius-server timeout global configuration command setting. If no timeout is set with the radius-server host command, the setting of the radius-server timeout command is used.
•(Optional) For retransmit retries, specify the number of times a RADIUS request is resent to a server if that server is not responding or responding slowly. The range is 1 to 1000. If no retransmit value is set with the radius-server host command, the setting of the radius-server retransmit global configuration command is used.
•(Optional) For key string, specify the authentication and encryption key used between the access point and the RADIUS daemon running on the RADIUS server.
Note The key is a text string that must match the encryption key used on the RADIUS server. Always configure the key as the last item in the radius-server host command. Leading spaces are ignored, but spaces within and at the end of the key are used. If you use spaces in your key, do not enclose the key in quotation marks unless the quotation marks are part of the key.
To configure the access point to recognize more than one host entry associated with a single IP address, enter this command as many times as necessary, making sure that each UDP port number is different. The access point software searches for hosts in the order in which you specify them. Set the timeout, retransmit, and encryption key values to use with the specific RADIUS host.
Step 4
dot11 ssid ssid-string
Enter SSID configuration mode for an SSID on which you need to enable accounting. The SSID can consist of up to 32 alphanumeric characters. SSIDs are case sensitive.
Step 5
accounting list-name
Enable RADIUS accounting for this SSID. For list-name, specify the accounting method list. Click this URL for more information on method lists: http://www.cisco.com/univercd/cc/td/doc/product/software/ios122/122cgcr/fsecur_c/fsaaa/scfacct.htm#xtocid2
Note To enable accounting for an SSID, you must include the accounting command in the SSID configuration. Click this URL to browse to a detailed description of the SSID configuration mode accounting command:
http://www.cisco.com/en/US/docs/wireless/access_point/12.3_4_JA/command/reference/cr34main.html
Step 6
end
Return to privileged EXEC mode.
Step 7
show running-config
Verify your entries.
Step 8
copy running-config startup-config
(Optional) Save your entries in the configuration file.
To remove the specified RADIUS server, use the no radius-server host hostname | ip-address global configuration command.
This example shows how to configure one RADIUS server to be used for authentication and another to be used for accounting:
AP(config)# radius-server host 172.29.36.49 auth-port 1612 key rad1AP(config)# radius-server host 172.20.36.50 acct-port 1618 key rad2This example shows how to configure an SSID for RADIUS accounting:
AP(config)# dot11 ssid batmanAP(config-ssid)# accounting accounting-method-list
This example shows how to configure host1 as the RADIUS server and to use the default ports for both authentication and accounting:
AP(config)# radius-server host host1
Note You also need to configure some settings on the RADIUS server. These settings include the IP address of the access point and the key string to be shared by both the server and the access point. For more information, refer to the RADIUS server documentation.
Configuring RADIUS Login Authentication
To configure AAA authentication, you define a named list of authentication methods and then apply that list to various interfaces. The method list defines the types of authentication to be performed and the sequence in which they are performed; it must be applied to a specific interface before any of the defined authentication methods are performed. The only exception is the default method list (which, by coincidence, is named default). The default method list is automatically applied to all interfaces except those that have a named method list explicitly defined.
A method list describes the sequence and authentication methods to be queried to authenticate a user. You can designate one or more security protocols to be used for authentication, thus ensuring a backup system for authentication in case the initial method fails. The software uses the first method listed to authenticate users; if that method fails to respond, the software selects the next authentication method in the method list. This process continues until there is successful communication with a listed authentication method or until all defined methods are exhausted. If authentication fails at any point in this cycle—meaning that the security server or local username database responds by denying the user access—the authentication process stops, and no other authentication methods are attempted.
Beginning in privileged EXEC mode, follow these steps to configure login authentication. This procedure is required.
Command PurposeStep 1
configure terminal
Enter global configuration mode.
Step 2
aaa new-model
Enable AAA.
Step 3
aaa authentication login {default | list-name} method1 [method2...]
Create a login authentication method list.
•To create a default list that is used when a named list is not specified in the login authentication command, use the default keyword followed by the methods that are to be used in default situations. The default method list is automatically applied to all interfaces. For more information on list names, click this link: http://www.cisco.com/univercd/cc/td/doc/product/software/ios122/122cgcr/fsecur_c/fsaaa/scfathen.htm#xtocid2
•For method1..., specify the actual method the authentication algorithm tries. The additional methods of authentication are used only if the previous method returns an error, not if it fails.
Select one of these methods:
•line—Use the line password for authentication. You must define a line password before you can use this authentication method. Use the password password line configuration command.
•local—Use the local username database for authentication. You must enter username information in the database. Use the username password global configuration command.
•radius—Use RADIUS authentication. You must configure the RADIUS server before you can use this authentication method. For more information, see the "Identifying the RADIUS Server Host" section.
Step 4
line [console | tty | vty] line-number [ending-line-number]
Enter line configuration mode, and configure the lines to which you want to apply the authentication list.
Step 5
login authentication {default | list-name}
Apply the authentication list to a line or set of lines.
•If you specify default, use the default list created with the aaa authentication login command.
•For list-name, specify the list created with the aaa authentication login command.
Step 6
radius-server attribute 32 include-in-access-req format %h
Configure the access point to send its system name in the NAS_ID attribute for authentication.
Step 7
end
Return to privileged EXEC mode.
Step 8
show running-config
Verify your entries.
Step 9
copy running-config startup-config
(Optional) Save your entries in the configuration file.
To disable AAA, use the no aaa new-model global configuration command. To disable AAA authentication, use the no aaa authentication login {default | list-name} method1 [method2...] global configuration command. To either disable RADIUS authentication for logins or to return to the default value, use the no login authentication {default | list-name} line configuration command.
Defining AAA Server Groups
You can configure the access point to use AAA server groups to group existing server hosts for authentication. You select a subset of the configured server hosts and use them for a particular service. The server group is used with a global server-host list, which lists the IP addresses of the selected server hosts.
Server groups also can include multiple host entries for the same server if each entry has a unique identifier (the combination of the IP address and UDP port number), allowing different ports to be individually defined as RADIUS hosts providing a specific AAA service. If you configure two different host entries on the same RADIUS server for the same service (such as accounting), the second configured host entry acts as a fail-over backup to the first one.
You use the server group server configuration command to associate a particular server with a defined group server. You can either identify the server by its IP address or identify multiple host instances or entries by using the optional auth-port and acct-port keywords.
Beginning in privileged EXEC mode, follow these steps to define the AAA server group and associate a particular RADIUS server with it:
Command PurposeStep 1
configure terminal
Enter global configuration mode.
Step 2
aaa new-model
Enable AAA.
Step 3
radius-server host {hostname | ip-address} [auth-port port-number] [acct-port port-number] [timeout seconds] [retransmit retries] [key string]
Specify the IP address or host name of the remote RADIUS server host.
•(Optional) For auth-port port-number, specify the UDP destination port for authentication requests.
•(Optional) For acct-port port-number, specify the UDP destination port for accounting requests.
•(Optional) For timeout seconds, specify the time interval that the access point waits for the RADIUS server to reply before retransmitting. The range is 1 to 1000. This setting overrides the radius-server timeout global configuration command setting. If no timeout is set with the radius-server host command, the setting of the radius-server timeout command is used.
•(Optional) For retransmit retries, specify the number of times a RADIUS request is resent to a server if that server is not responding or responding slowly. The range is 1 to 1000. If no retransmit value is set with the radius-server host command, the setting of the radius-server retransmit global configuration command is used.
•(Optional) For key string, specify the authentication and encryption key used between the access point and the RADIUS daemon running on the RADIUS server.
Note The key is a text string that must match the encryption key used on the RADIUS server. Always configure the key as the last item in the radius-server host command. Leading spaces are ignored, but spaces within and at the end of the key are used. If you use spaces in your key, do not enclose the key in quotation marks unless the quotation marks are part of the key.
To configure the access point to recognize more than one host entry associated with a single IP address, enter this command as many times as necessary, making sure that each UDP port number is different. The access point software searches for hosts in the order in which you specify them. Set the timeout, retransmit, and encryption key values to use with the specific RADIUS host.
Step 4
aaa group server radius group-name
Define the AAA server-group with a group name.
This command puts the access point in a server group configuration mode.
Step 5
server ip-address
Associate a particular RADIUS server with the defined server group. Repeat this step for each RADIUS server in the AAA server group.
Each server in the group must be previously defined in Step 2.
Step 6
end
Return to privileged EXEC mode.
Step 7
show running-config
Verify your entries.
Step 8
copy running-config startup-config
(Optional) Save your entries in the configuration file.
Step 9
Enable RADIUS login authentication. See the "Configuring RADIUS Login Authentication" section.
To remove the specified RADIUS server, use the no radius-server host hostname | ip-address global configuration command. To remove a server group from the configuration list, use the no aaa group server radius group-name global configuration command. To remove the IP address of a RADIUS server, use the no server ip-address server group configuration command.
In this example, the access point is configured to recognize two different RADIUS group servers (group1 and group2). Group1 has two different host entries on the same RADIUS server configured for the same services. The second host entry acts as a fail-over backup to the first entry.
AP(config)# aaa new-modelAP(config)# radius-server host 172.20.0.1 auth-port 1000 acct-port 1001AP(config)# radius-server host 172.10.0.1 auth-port 1645 acct-port 1646AP(config)# aaa group server radius group1AP(config-sg-radius)# server 172.20.0.1 auth-port 1000 acct-port 1001AP(config-sg-radius)# exitAP(config)# aaa group server radius group2AP(config-sg-radius)# server 172.20.0.1 auth-port 2000 acct-port 2001AP(config-sg-radius)# exitConfiguring RADIUS Authorization for User Privileged Access and Network Services
AAA authorization limits the services available to a user. When AAA authorization is enabled, the access point uses information retrieved from the user's profile, which is in the local user database or on the security server, to configure the user's session. The user is granted access to a requested service only if the information in the user profile allows it.
Note This section describes setting up authorization for access point administrators, not for wireless client devices.
You can use the aaa authorization global configuration command with the radius keyword to set parameters that restrict a user's network access to privileged EXEC mode.
The aaa authorization exec radius local command sets these authorization parameters:
•Use RADIUS for privileged EXEC access authorization if authentication was performed by using RADIUS.
•Use the local database if authentication was not performed by using RADIUS.
Note Authorization is bypassed for authenticated users who log in through the CLI even if authorization has been configured.
Beginning in privileged EXEC mode, follow these steps to specify RADIUS authorization for privileged EXEC access and network services:
To disable authorization, use the no aaa authorization {network | exec} method1 global configuration command.
Configuring Packet of Disconnect
Packet of Disconnect (PoD) is also known as Disconnect Message. Additional information on PoD can be found in the Internet Engineering Task Force (IETF) Internet Standard RFC 3576
Packet of Disconnect consists of a method of terminating a session that has already been connected. The PoD is a RADIUS Disconnect_Request packet and is intended to be used in situations where the authenticating agent server wants to disconnect the user after the session has been accepted by the RADIUS access_accept packet. This may be needed in at least two situations:
•Detection of fraudulent use, which cannot be performed before accepting the call.
•Disconnecting hot spot users when their prepaid access time has expired.
When a session is terminated, the RADIUS server sends a disconnect message to the Network Access Server (NAS); an access point or WDS. For 802.11 sessions, the Calling-Station-ID [31] RADIUS attribute (the MAC address of the client) must be supplied in the Pod request. The access point or WDS attempts to disassociate the relevant session and then sends a disconnect response message back to the RADIUS server. The message types are as follows:
•40—Disconnect-Request
•41—Disconnect—ACK
•42—Disconnect—NAK
Note Refer to your RADIUS server application documentation for instructions on how to configure PoD requests.
Note The access point does not block subsequent attempts by the client to reassociate. It is the responsibility of the security administrator to disable the client account before issuing a PoD request.
Note When WDS is configured, PoD requests should be directed to the WDS. The WDS forwards the disassociation request to the parent access point and then purges the session from its own internal tables.
Note PoD is supported on the Cisco CNS Access Registrar (CAR) RADIUS server, but not on the Cisco Secure ACS Server, v4.0 and earlier.
Beginning in privileged EXEC mode, follow these steps to configure a PoD:
Starting RADIUS Accounting m
The AAA accounting feature tracks the services that users are accessing and the amount of network resources that they are consuming. When AAA accounting is enabled, the access point reports user activity to the RADIUS security server in the form of accounting records. Each accounting record contains accounting attribute-value (AV) pairs and is stored on the security server. This data can then be analyzed for network management, client billing, or auditing. See the "RADIUS Attributes Sent by the Access Point" section for a complete list of attributes sent and honored by the access point.
Beginning in privileged EXEC mode, follow these steps to enable RADIUS accounting for each Cisco IOS privilege level and for network services:
To disable accounting, use the no aaa accounting {network | exec} {start-stop} method1... global configuration command.
Selecting the CSID Format
You can select the format for MAC addresses in Called-Station-ID (CSID) and Calling-Station-ID attributes in RADIUS packets. Use the dot11 aaa csid global configuration command to select the CSID format. Table 1 lists the format options with corresponding MAC address examples.
Table 1 CSID Format Options
Option MAC Address Exampledefault
0007.85b3.5f4a
ietf
00-07-85-b3-5f-4a
unformatted
000785b35f4a
To return to the default CSID format, use the no form of the dot11 aaa csid command, or enter
dot11 aaa csid default.
Note You can also use the wlccp wds aaa csid command to select the CSID format.
Configuring Settings for All RADIUS Servers
Beginning in privileged EXEC mode, follow these steps to configure global communication settings between the access point and all RADIUS servers:
This example shows how to set up two main servers and a local authenticator with a server deadtime of 10 minutes:
AP(config)# aaa new-modelAP(config)# radius-server host 172.20.0.1 auth-port 1000 acct-port 1001 key 77654AP(config)# radius-server host 172.10.0.1 auth-port 1645 acct-port 1646 key 77654AP(config)# radius-server host 10.91.6.151 auth-port 1812 acct-port 1813 key 110337AP(config)# radius-server deadtime 10To return to the default setting for retransmit, timeout, and deadtime, use the no forms of these commands.
Configuring the Access Point to Use Vendor-Specific RADIUS Attributes
The Internet Engineering Task Force (IETF) draft standard specifies a method for communicating vendor-specific information between the access point and the RADIUS server by using the vendor-specific attribute (attribute 26). Vendor-specific attributes (VSAs) allow vendors to support their own extended attributes not suitable for general use. The Cisco RADIUS implementation supports one vendor-specific option by using the format recommended in the specification. Cisco's vendor ID is 9, and the supported option has vendor type 1, which is named cisco-avpair. The value is a string with this format:
protocol : attribute sep value *Protocol is a value of the Cisco protocol attribute for a particular type of authorization. Attribute and value are an appropriate AV pair defined in the Cisco TACACS+ specification, and sep is = for mandatory attributes and the asterisk (*) for optional attributes. This allows the full set of features available for TACACS+ authorization to also be used for RADIUS.
For example, the following AV pair activates Cisco's multiple named ip address pools feature during IP authorization (during PPP's IPCP address assignment):
cisco-avpair= "ip:addr-pool=first"The following example shows how to provide a user logging in from an access point with immediate access to privileged EXEC commands:
cisco-avpair= "shell:priv-lvl=15"Other vendors have their own unique vendor IDs, options, and associated VSAs. For more information about vendor IDs and VSAs, refer to RFC 2138, "Remote Authentication Dial-In User Service (RADIUS)."
Beginning in privileged EXEC mode, follow these steps to configure the access point to recognize and use VSAs:
For a complete list of RADIUS attributes or more information about VSA 26, refer to the "RADIUS Attributes" appendix in the Cisco IOS Security Configuration Guide for Release 12.2.
Configuring the Access Point for Vendor-Proprietary RADIUS Server Communication
Although an IETF draft standard for RADIUS specifies a method for communicating vendor-proprietary information between the access point and the RADIUS server, some vendors have extended the RADIUS attribute set in a unique way. Cisco IOS software supports a subset of vendor-proprietary RADIUS attributes.
As mentioned earlier, to configure RADIUS (whether vendor-proprietary or IETF draft-compliant), you must specify the host running the RADIUS server daemon and the secret text string it shares with the access point. You specify the RADIUS host and secret text string by using the radius-server global configuration commands.
Beginning in privileged EXEC mode, follow these steps to specify a vendor-proprietary RADIUS server host and a shared secret text string:
To delete the vendor-proprietary RADIUS host, use the no radius-server host {hostname | ip-address} non-standard global configuration command. To disable the key, use the no radius-server key global configuration command.
This example shows how to specify a vendor-proprietary RADIUS host and to use a secret key of rad124 between the access point and the server:
AP(config)# radius-server host 172.20.30.15 nonstandardAP(config)# radius-server key rad124Configuring WISPr RADIUS Attributes
The Wi-Fi Alliance's WISPr Best Current Practices for Wireless Internet Service Provider (WISP) Roaming document lists RADIUS attributes that access points must send with RADIUS accounting and authentication requests. The access point currently supports only the WISPr location-name and the ISO and International Telecommunications Union (ITU) country and area codes attributes. Use the snmp-server location and the dot11 location isocc commands to configure these attributes on the access point.
The WISPr Best Current Practices for Wireless Internet Service Provider (WISP) Roaming document also requires the access point to include a class attribute in RADIUS authentication replies and accounting requests. The access point includes the class attribute automatically and does not have to be configured to do so.
You can find a list of ISO and ITU country and area codes at the ISO and ITU websites. Cisco IOS software does not check the validity of the country and area codes that you configure on the access point.
Beginning in privileged EXEC mode, follow these steps to specify WISPr RADIUS attributes on the access point:
This example shows how to configure the WISPr location-name attribute:
ap# snmp-server location ACMEWISP,Gate_14_Terminal_C_of_Newark_AirportThis example shows how to configure the ISO and ITU location codes on the access point:
ap# dot11 location isocc us cc 1 ac 408This example shows how the access point adds the SSID used by the client device and formats the location-ID string:
isocc=us,cc=1,ac=408,network=ACMEWISP_NewarkAirportDisplaying the RADIUS Configuration
To display the RADIUS configuration, use the show running-config privileged EXEC command.
Note When DNS is configured on the access point, the show running-config command sometimes displays a server's IP address instead of its name.
RADIUS Attributes Sent by the Access Point
Table 2 through Table 6 identify the attributes sent by an access point to a client in access-request, access-accept, and accounting-request packets.
Note You can configure the access point to include in its RADIUS accounting and authentication requests attributes recommended by the Wi-Fi Alliance's WISPr Best Current Practices for Wireless Internet Service Provider (WISP) Roaming document. Refer to the "Configuring WISPr RADIUS Attributes" section for instructions.
Table 2 Attributes Sent in Access-Request Packets
Attribute ID Description1
User-Name
4
NAS-IP-Address
5
NAS-Port
12
Framed-MTU
30
Called-Station-ID (MAC address)
31
Calling-Station-ID (MAC address)
32
NAS-Identifier1
61
NAS-Port-Type
79
EAP-Message
80
Message-Authenticator
1 The access point sends the NAS-Identifier if attribute 32 (include-in-access-req) is configured.
Table 3 Attributes Honored in Access-Accept Packets
Attribute ID Description25
Class
27
Session-Timeout
64
Tunnel-Type1
65
Tunnel-Medium-Type1
79
EAP-Message
80
Message-Authenticator
81
Tunnel-Private-Group-ID1
VSA (attribute 26)
LEAP session-key
VSA (attribute 26)
Auth-Algo-Type
VSA (attribute 26)
SSID
1 RFC2868; defines a VLAN override number.
Note By default, the access point sends re-authentication requests to the authentication server with the service-type attribute set to authenticate-only. However, some Microsoft IAS servers do not support the authenticate-only service-type attribute. Changing the service-type attribute to login-only ensures that Microsoft IAS servers recognize re-authentication requests from the access point. Use the dot11 aaa authentication attributes service-type login-only global configuration command to set the service-type attribute in re-authentication requests to login-only.
Configuring and Enabling TACACS+
This section contains this configuration information:
•Displaying the TACACS+ Configuration
Understanding TACACS+
TACACS+ is a security application that provides centralized validation of users attempting to gain access to your access point. Unlike RADIUS, TACACS+ does not authenticate client devices associated to the access point.
TACACS+ services are maintained in a database on a TACACS+ daemon typically running on a UNIX or Windows NT workstation. You should have access to and should configure a TACACS+ server before configuring TACACS+ features on your access point.
TACACS+ provides for separate and modular authentication, authorization, and accounting facilities. TACACS+ allows for a single access control server (the TACACS+ daemon) to provide each service—authentication, authorization, and accounting—independently. Each service can be tied into its own database to take advantage of other services available on that server or on the network, depending on the capabilities of the daemon.
TACACS+, administered through the AAA security services, can provide these services:
•Authentication—Provides complete control of authentication of administrators through login and password dialog, challenge and response, and messaging support.
The authentication facility can conduct a dialog with the administrator (for example, after a username and password are provided, to challenge a user with several questions, such as home address, mother's maiden name, service type, and social security number). The TACACS+ authentication service can also send messages to administrator screens. For example, a message could notify administrators that their passwords must be changed because of the company's password aging policy.
•Authorization—Provides fine-grained control over administrator capabilities for the duration of the administrator's session, including but not limited to setting autocommands, access control, session duration, or protocol support. You can also enforce restrictions on the commands that an administrator can execute with the TACACS+ authorization feature.
•Accounting—Collects and sends information used for billing, auditing, and reporting to the TACACS+ daemon. Network managers can use the accounting facility to track administrator activity for a security audit or to provide information for user billing. Accounting records include administrator identities, start and stop times, executed commands (such as PPP), number of packets, and number of bytes.
The TACACS+ protocol provides authentication between the access point and the TACACS+ daemon, and it ensures confidentiality because all protocol exchanges between the access point and the TACACS+ daemon are encrypted.
You need a system running the TACACS+ daemon software to use TACACS+ on your access point.
TACACS+ Operation
When an administrator attempts a simple ASCII login by authenticating to an access point using TACACS+, this process occurs:
1. When the connection is established, the access point contacts the TACACS+ daemon to obtain a username prompt, which is then displayed to the administrator. The administrator enters a username, and the access point then contacts the TACACS+ daemon to obtain a password prompt. The access point displays the password prompt to the administrator, the administrator enters a password, and the password is then sent to the TACACS+ daemon.
TACACS+ allows a conversation to be held between the daemon and the administrator until the daemon receives enough information to authenticate the administrator. The daemon prompts for a username and password combination, but can include other items, such as the user's mother's maiden name.
2. The access point eventually receives one of these responses from the TACACS+ daemon:
–ACCEPT—The administrator is authenticated and service can begin. If the access point is configured to require authorization, authorization begins at this time.
–REJECT—The administrator is not authenticated. The administrator can be denied access or is prompted to retry the login sequence, depending on the TACACS+ daemon.
–ERROR—An error occurred at some time during authentication with the daemon or in the network connection between the daemon and the access point. If an ERROR response is received, the access point typically tries to use an alternative method for authenticating the administrator.
–CONTINUE—The administrator is prompted for additional authentication information.
After authentication, the administrator undergoes an additional authorization phase if authorization has been enabled on the access point. Administrators must first successfully complete TACACS+ authentication before proceeding to TACACS+ authorization.
3. If TACACS+ authorization is required, the TACACS+ daemon is again contacted, and it returns an ACCEPT or REJECT authorization response. If an ACCEPT response is returned, the response contains data in the form of attributes that direct the EXEC or NETWORK session for that administrator, determining the services that the administrator can access:
–Telnet, rlogin, or privileged EXEC services
–Connection parameters, including the host or client IP address, access list, and administrator timeouts
Configuring TACACS+
This section describes how to configure your access point to support TACACS+. At a minimum, you must identify the host or hosts maintaining the TACACS+ daemon and define the method lists for TACACS+ authentication. You can optionally define method lists for TACACS+ authorization and accounting. A method list defines the sequence and methods to be used to authenticate, to authorize, or to keep accounts on an administrator. You can use method lists to designate one or more security protocols to be used, thus ensuring a backup system if the initial method fails. The software uses the first method listed to authenticate, to authorize, or to keep accounts on administrators; if that method does not respond, the software selects the next method in the list. This process continues until there is successful communication with a listed method or the method list is exhausted.
This section contains this configuration information:
•Default TACACS+ Configuration
•Identifying the TACACS+ Server Host and Setting the Authentication Key
•Configuring TACACS+ Login Authentication
•Configuring TACACS+ Authorization for Privileged EXEC Access and Network Services
Default TACACS+ Configuration
TACACS+ and AAA are disabled by default.
To prevent a lapse in security, you cannot configure TACACS+ through a network management application. When enabled, TACACS+ can authenticate administrators accessing the access point through the CLI.
Identifying the TACACS+ Server Host and Setting the Authentication Key
You can configure the access point to use a single server or AAA server groups to group existing server hosts for authentication. You can group servers to select a subset of the configured server hosts and use them for a particular service. The server group is used with a global server-host list and contains the list of IP addresses of the selected server hosts.
Beginning in privileged EXEC mode, follow these steps to identify the IP host or host maintaining TACACS+ server and optionally set the encryption key:
To remove the specified TACACS+ server name or address, use the no tacacs-server host hostname global configuration command. To remove a server group from the configuration list, use the no aaa group server tacacs+ group-name global configuration command. To remove the IP address of a TACACS+ server, use the no server ip-address server group subconfiguration command.
Configuring TACACS+ Login Authentication
To configure AAA authentication, you define a named list of authentication methods and then apply that list to various interfaces. The method list defines the types of authentication to be performed and the sequence in which they are performed; it must be applied to a specific interface before any of the defined authentication methods are performed. The only exception is the default method list (which, by coincidence, is named default). The default method list is automatically applied to all interfaces except those that have a named method list explicitly defined. A defined method list overrides the default method list.
A method list describes the sequence and authentication methods to be queried to authenticate an administrator. You can designate one or more security protocols to be used for authentication, thus ensuring a backup system for authentication in case the initial method fails. The software uses the first method listed to authenticate users; if that method fails to respond, the software selects the next authentication method in the method list. This process continues until there is successful communication with a listed authentication method or until all defined methods are exhausted. If authentication fails at any point in this cycle—meaning that the security server or local username database responds by denying the administrator access—the authentication process stops, and no other authentication methods are attempted.
Beginning in privileged EXEC mode, follow these steps to configure login authentication:
To disable AAA, use the no aaa new-model global configuration command. To disable AAA authentication, use the no aaa authentication login {default | list-name} method1 [method2...] global configuration command. To either disable TACACS+ authentication for logins or to return to the default value, use the no login authentication {default | list-name} line configuration command.
Configuring TACACS+ Authorization for Privileged EXEC Access and Network Services
AAA authorization limits the services available to an administrator. When AAA authorization is enabled, the access point uses information retrieved from the administrator's profile, which is located either in the local user database or on the security server, to configure the administrator's session. The administrator is granted access to a requested service only if the information in the administrator profile allows it.
You can use the aaa authorization global configuration command with the tacacs+ keyword to set parameters that restrict an administrator's network access to privileged EXEC mode.
The aaa authorization exec tacacs+ local command sets these authorization parameters:
•Use TACACS+ for privileged EXEC access authorization if authentication was performed by using TACACS+.
•Use the local database if authentication was not performed by using TACACS+.
Note Authorization is bypassed for authenticated administrators who log in through the CLI even if authorization has been configured.
Beginning in privileged EXEC mode, follow these steps to specify TACACS+ authorization for privileged EXEC access and network services:
To disable authorization, use the no aaa authorization {network | exec} method1 global configuration command.
Starting TACACS+ Accounting
The AAA accounting feature tracks the services that administrators are accessing and the amount of network resources that they are consuming. When AAA accounting is enabled, the access point reports administrator activity to the TACACS+ security server in the form of accounting records. Each accounting record contains accounting attribute-value (AV) pairs and is stored on the security server. This data can then be analyzed for network management, client billing, or auditing.
Beginning in privileged EXEC mode, follow these steps to enable TACACS+ accounting for each Cisco IOS privilege level and for network services:
To disable accounting, use the no aaa accounting {network | exec} {start-stop} method1... global configuration command.
Displaying the TACACS+ Configuration
To display TACACS+ server statistics, use the show tacacs privileged EXEC command.
Any Internet Protocol (IP) addresses used in this document are not intended to be actual addresses. Any examples, command display output, and figures included in the document are shown for illustrative purposes only. Any use of actual IP addresses in illustrative content is unintentional and coincidental.
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