Configuring RADIUS

The RADIUS security system is a distributed client/server system that secures networks against unauthorized access. In the Cisco implementation, RADIUS clients run on Cisco devices and send authentication requests to a central RADIUS server that contains all user authentication and network service access information.

Prerequisites for Configuring RADIUS

This section lists the prerequisites for controlling Device access with RADIUS.

General:

  • RADIUS and Authentication, Authorization, and Accounting (AAA) must be enabled to use any of the configuration commands in this chapter.

  • RADIUS is facilitated through AAA and can be enabled only through AAA commands.

  • Use the aaa new-model global configuration command to enable AAA.

  • Use the aaa authentication global configuration command to define method lists for RADIUS authentication.

  • Use line and interface commands to enable the defined method lists to be used.

  • 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.

  • You should have access to and should configure a RADIUS server before configuring RADIUS features on your Device.

  • 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, see the RADIUS server documentation.

  • To use the Change-of-Authorization (CoA) interface, a session must already exist on the switch. CoA can be used to identify a session and enforce a disconnect request. The update affects only the specified session.

For RADIUS operation:
  • Users must first successfully complete RADIUS authentication before proceeding to RADIUS authorization, if it is enabled.

Restrictions for Configuring RADIUS

This topic covers restrictions for controlling Device access with RADIUS.

General:

  • To prevent a lapse in security, you cannot configure RADIUS through a network management application.

RADIUS is not suitable in the following 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.

Information about RADIUS

RADIUS and Switch Access

This section describes how to enable and configure RADIUS. RADIUS provides detailed accounting information and flexible administrative control over the authentication and authorization processes.

RADIUS Overview

RADIUS is a distributed client/server system that secures networks against unauthorized access. RADIUS clients run on supported Cisco routers and switches. Clients send authentication requests to a central RADIUS server, which contains all user authentication and network service access information.

Use RADIUS in these network environments that 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 has been customized to work with the Kerberos security system.

  • Turnkey network security environments in which applications support the RADIUS protocol, such as in an access environment that uses a smart card access control system. In one case, RADIUS has been used with Enigma’s security cards to validates users and to grant access to network resources.

  • Networks already using RADIUS. You can add a Cisco Device containing a RADIUS client to the network. This might be the first step when you make a transition to a TACACS+ server. See Figure 2: Transitioning from RADIUS to TACACS+ Services below.

  • Network in which the user must only access a single service. Using RADIUS, you can control user access to a single host, to a single utility such as Telnet, or to the network through a protocol such as IEEE 802.1x. For more information about this protocol, see Chapter 11, “Configuring IEEE 802.1x Port-Based Authentication.”

  • 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.

Figure 1. Transitioning from RADIUS to TACACS+ Services
Transitioning from RADIUS to TACACS+ Services

RADIUS Operation

When a user attempts to log in and authenticate to a Device that is access controlled by a RADIUS server, these events occur:

  1. The user is prompted to enter a username and password.

  2. The username and encrypted password are sent over the network to the RADIUS server.

  3. The user receives one of the following responses from the RADIUS server:

    • ACCEPT—The user is authenticated.

    • REJECT—The user is either not authenticated and is prompted to re-enter the username and password, or access is denied.

    • CHALLENGE—A challenge requires additional data from the user.

    • CHALLENGE PASSWORD—A response requests the user to select a new password.

    The ACCEPT or REJECT response is bundled with additional data that is used for privileged EXEC or network authorization. The additional data included with the ACCEPT or REJECT packets includes these items:

  • Telnet, SSH, rlogin, or privileged EXEC services

  • Connection parameters, including the host or client IP address, access list, and user timeouts

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 switch through the CLI.

RADIUS Server Host

Switch-to-RADIUS-server communication involves several components:

  • Hostname or IP address

  • Authentication destination port

  • Accounting destination port

  • Key string

  • Timeout period

  • Retransmission value

You identify RADIUS security servers by their hostname or IP address, hostname 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.

If two different host entries on the same RADIUS server are configured for the same service—for example, 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 %RADIUS-4-RADIUS_DEAD message appears, and then the switch 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 switch 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 switch.

The timeout, retransmission, and encryption key values can be configured globally for all RADIUS servers, on a per-server basis, or in some combination of global and per-server settings.

RADIUS Login Authentication

To configure AAA authentication, you define a named list of authentication methods and then apply that list to various ports. 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 port before any of the defined authentication methods are performed. The only exception is the default method list. The default method list is automatically applied to all ports 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.

AAA Server Groups

You can configure the switch 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. This unique identifier enables RADIUS requests to be sent to different UDP ports on a server at the same IP address. If you configure two different host entries on the same RADIUS server for the same service, (for example, accounting), the second configured host entry acts as a fail-over backup to the first one. If the first host entry fails to provide accounting services, the network access server tries the second host entry configured on the same device for accounting services. (The RADIUS host entries are tried in the order in which they are configured.)

AAA Authorization

AAA authorization limits the services available to a user. When AAA authorization is enabled, the switch 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.

RADIUS Accounting

The AAA accounting feature tracks the services that users are using and the amount of network resources that they are consuming. When you enable AAA accounting, the switch 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. You can then analyze the data for network management, client billing, or auditing.

Vendor-Specific RADIUS Attributes

The Internet Engineering Task Force (IETF) draft standard specifies a method for communicating vendor-specific information between the switch 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 attributevalue (AV) pair defined in the Cisco TACACS+ specification, and sep is = for mandatory attributes and is * for optional attributes. The full set of features available for TACACS+ authorization can then be used for RADIUS.

For example, the following AV pair causes Cisco’s “multiple named IP address pools” feature to be activated during IP authorization (during PPP’s Internet Protocol Control Protocol (IPCP) address assignment):
cisco-avpair= ”ip:addr-pool=first“

If you insert an “*”, the AV pair “ip:addr-pool=first” becomes optional. Note that any AV pair can be made optional:
cisco-avpair= ”ip:addr-pool*first“

The following example shows how to cause a user logging in from a network access server to have immediate access to 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, see RFC 2138, “Remote Authentication Dial-In User Service (RADIUS).”

Attribute 26 contains the following three elements:

  • Type

  • Length

  • String (also known as data)
    • Vendor-Id
    • Vendor-Type
    • Vendor-Length
    • Vendor-Data

The figure below shows the packet format for a VSA encapsulated “behind” attribute 26.

Figure 2. VSA Encapsulated Behind Attribute 26

Note


It is up to the vendor to specify the format of their VSA. The Attribute-Specific field (also known as Vendor-Data) is dependent on the vendor's definition of that attribute.


The table below describes significant fields listed in the Vendor-Specific RADIUS IETF Attributes table (second table below), which lists supported vendor-specific RADIUS attributes (IETF attribute 26).

Table 1. Vendor-Specific Attributes Table Field Descriptions

Field

Description

Number

All attributes listed in the following table are extensions of IETF attribute 26.

Vendor-Specific Command Codes

A defined code used to identify a particular vendor. Code 9 defines Cisco VSAs, 311 defines Microsoft VSAs, and 529 defines Ascend VSAs.

Sub-Type Number

The attribute ID number. This number is much like the ID numbers of IETF attributes, except it is a “second layer” ID number encapsulated behind attribute 26.

Attribute

The ASCII string name of the attribute.

Description

Description of the attribute.

Table 2. Vendor-Specific RADIUS IETF Attributes

Number

Vendor-Specific Company Code

Sub-Type Number

Attribute

Description

MS-CHAP Attributes

26

311

1

MSCHAP-Response

Contains the response value provided by a PPP MS-CHAP user in response to the challenge. It is only used in Access-Request packets. This attribute is identical to the PPP CHAP Identifier. ( RFC 2548

26

311

11

MSCHAP-Challenge

Contains the challenge sent by a network access server to an MS-CHAP user. It can be used in both Access-Request and Access-Challenge packets. ( RFC 2548 )

VPDN Attributes

26

9

1

l2tp-cm-local-window-size

Specifies the maximum receive window size for L2TP control messages. This value is advertised to the peer during tunnel establishment.

26

9

1

l2tp-drop-out-of-order

Respects sequence numbers on data packets by dropping those that are received out of order. This does not ensure that sequence numbers will be sent on data packets, just how to handle them if they are received.

26

9

1

l2tp-hello-interval

Specifies the number of seconds for the hello keepalive interval. Hello packets are sent when no data has been sent on a tunnel for the number of seconds configured here.

26

9

1

l2tp-hidden-avp

When enabled, sensitive AVPs in L2TP control messages are scrambled or hidden.

26

9

1

l2tp-nosession-timeout

Specifies the number of seconds that a tunnel will stay active with no sessions before timing out and shutting down.

26

9

1

tunnel-tos-reflect

Copies the IP ToS field from the IP header of each payload packet to the IP header of the tunnel packet for packets entering the tunnel at the LNS.

26

9

1

l2tp-tunnel-authen

If this attribute is set, it performs L2TP tunnel authentication.

26

9

1

l2tp-tunnel-password

Shared secret used for L2TP tunnel authentication and AVP hiding.

26

9

1

l2tp-udp-checksum

This is an authorization attribute and defines whether L2TP should perform UDP checksums for data packets. Valid values are “yes” and “no.” The default is no.

Store and Forward Fax Attributes

26

9

3

Fax-Account-Id-Origin

Indicates the account ID origin as defined by system administrator for the mmoip aaa receive-id or the mmoip aaa send-id commands.

26

9

4

Fax-Msg-Id=

Indicates a unique fax message identification number assigned by Store and Forward Fax.

26

9

5

Fax-Pages

Indicates the number of pages transmitted or received during this fax session. This page count includes cover pages.

26

9

6

Fax-Coverpage-Flag

Indicates whether or not a cover page was generated by the off-ramp gateway for this fax session. True indicates that a cover page was generated; false means that a cover page was not generated.

26

9

7

Fax-Modem-Time

Indicates the amount of time in seconds the modem sent fax data (x) and the amount of time in seconds of the total fax session (y), which includes both fax-mail and PSTN time, in the form x/y. For example, 10/15 means that the transfer time took 10 seconds, and the total fax session took 15 seconds.

26

9

8

Fax-Connect-Speed

Indicates the modem speed at which this fax-mail was initially transmitted or received. Possible values are 1200, 4800, 9600, and 14400.

26

9

9

Fax-Recipient-Count

Indicates the number of recipients for this fax transmission. Until e-mail servers support Session mode, the number should be 1.

26

9

10

Fax-Process-Abort-Flag

Indicates that the fax session was cancelled or successful. True means that the session was cancelled; false means that the session was successful.

26

9

11

Fax-Dsn-Address

Indicates the address to which DSNs will be sent.

26

9

12

Fax-Dsn-Flag

Indicates whether or not DSN has been enabled. True indicates that DSN has been enabled; false means that DSN has not been enabled.

26

9

13

Fax-Mdn-Address

Indicates the address to which MDNs will be sent.

26

9

14

Fax-Mdn-Flag

Indicates whether or not message delivery notification (MDN) has been enabled. True indicates that MDN had been enabled; false means that MDN had not been enabled.

26

9

15

Fax-Auth-Status

Indicates whether or not authentication for this fax session was successful. Possible values for this field are success, failed, bypassed, or unknown.

26

9

16

Email-Server-Address

Indicates the IP address of the e-mail server handling the on-ramp fax-mail message.

26

9

17

Email-Server-Ack-Flag

Indicates that the on-ramp gateway has received a positive acknowledgment from the e-mail server accepting the fax-mail message.

26

9

18

Gateway-Id

Indicates the name of the gateway that processed the fax session. The name appears in the following format: hostname.domain-name.

26

9

19

Call-Type

Describes the type of fax activity: fax receive or fax send.

26

9

20

Port-Used

Indicates the slot/port number of the Cisco AS5300 used to either transmit or receive this fax-mail.

26

9

21

Abort-Cause

If the fax session cancels, indicates the system component that signaled the cancel operation. Examples of system components that could trigger a cancel operation are FAP (Fax Application Process), TIFF (the TIFF reader or the TIFF writer), fax-mail client, fax-mail server, ESMTP client, or ESMTP server.

H323 Attributes

26

9

23

Remote-Gateway-ID (h323-remote-address)

Indicates the IP address of the remote gateway.

26

9

24

Connection-ID

(h323-conf-id)

Identifies the conference ID.

26

9

25

Setup-Time

(h323-setup-time)

Indicates the setup time for this connection in Coordinated Universal Time (UTC) formerly known as Greenwich Mean Time (GMT) and Zulu time.

26

9

26

Call-Origin

(h323-call-origin)

Indicates the origin of the call relative to the gateway. Possible values are originating and terminating (answer).

26

9

27

Call-Type

(h323-call-type)

Indicates call leg type. Possible values are telephony and VoIP .

26

9

28

Connect-Time

(h323-connect-time)

Indicates the connection time for this call leg in UTC.

26

9

29

Disconnect-Time

(h323-disconnect-time)

Indicates the time this call leg was disconnected in UTC.

26

9

30

Disconnect-Cause

(h323-disconnect-cause)

Specifies the reason a connection was taken offline per Q.931 specification.

26

9

31

Voice-Quality

(h323-voice-quality)

Specifies the impairment factor (ICPIF) affecting voice quality for a call.

26

9

33

Gateway-ID

(h323-gw-id)

Indicates the name of the underlying gateway.

Large Scale Dialout Attributes

26

9

1

callback-dialstring

Defines a dialing string to be used for callback.

26

9

1

data-service

No description available.

26

9

1

dial-number

Defines the number to dial.

26

9

1

force-56

Determines whether the network access server uses only the 56 K portion of a channel, even when all 64 K appear to be available.

26

9

1

map-class

Allows the user profile to reference information configured in a map class of the same name on the network access server that dials out.

26

9

1

send-auth

Defines the protocol to use (PAP or CHAP) for username-password authentication following CLID authentication.

26

9

1

send-name

PPP name authentication. To apply for PAP, do not configure the ppp pap sent-name password command on the interface. For PAP, “preauth:send-name” and “preauth:send-secret” will be used as the PAP username and PAP password for outbound authentication. For CHAP, “preauth:send-name” will be used not only for outbound authentication, but also for inbound authentication. For a CHAP inbound case, the NAS will use the name defined in “preauth:send-name” in the challenge packet to the caller box.

Note

 
The send-name attribute has changed over time: Initially, it performed the functions now provided by both the send-name and remote-name attributes. Because the remote-name attribute has been added, the send-name attribute is restricted to its current behavior.

26

9

1

send-secret

PPP password authentication. The vendor-specific attributes (VSAs) “preauth:send-name” and “preauth:send-secret” will be used as the PAP username and PAP password for outbound authentication. For a CHAP outbound case, both “preauth:send-name” and “preauth:send-secret” will be used in the response packet.

26

9

1

remote-name

Provides the name of the remote host for use in large-scale dial-out. Dialer checks that the large-scale dial-out remote name matches the authenticated name, to protect against accidental user RADIUS misconfiguration. (For example, dialing a valid phone number but connecting to the wrong device.)

Miscellaneous Attributes

26

9

2

Cisco-NAS-Port

Specifies additional vendor specific attribute (VSA) information for NAS-Port accounting. To specify additional NAS-Port information in the form an Attribute-Value Pair (AVPair) string, use the radius-server vsa send global configuration command.

Note

 
This VSA is typically used in Accounting, but may also be used in Authentication (Access-Request) packets.

26

9

1

min-links

Sets the minimum number of links for MLP.

26

9

1

proxyacl#<n>

Allows users to configure the downloadable user profiles (dynamic ACLs) by using the authentication proxy feature so that users can have the configured authorization to permit traffic going through the configured interfaces.

26

9

1

spi

Carries the authentication information needed by the home agent to authenticate a mobile node during registration. The information is in the same syntax as the ip mobile secure host <addr> configuration command. Basically it contains the rest of the configuration command that follows that string, verbatim. It provides the Security Parameter Index (SPI), key, authentication algorithm, authentication mode, and replay protection timestamp range.

RADIUS Disconnect-Cause Attribute Values

Disconnect-cause attribute values specify the reason a connection was taken offline. The attribute values are sent in Accounting request packets. These values are sent at the end of a session, even if the session fails to be authenticated. If the session is not authenticated, the attribute can cause stop records to be generated without first generating start records.

The table below lists the cause codes, values, and descriptions for the Disconnect-Cause (195) attribute.


Note


The Disconnect-Cause is incremented by 1000 when it is used in RADIUS AVPairs; for example, disc-cause 4 becomes 1004.


Table 3. Disconnect-Cause Attribute Values

Cause Code

Value

Description

0

No-Reason

No reason is given for the disconnect.

1

No-Disconnect

The event was not disconnected.

2

Unknown

Reason unknown.

3

Call-Disconnect

The call has been disconnected.

4

CLID-Authentication-Failure

Failure to authenticate number of the calling-party.

9

No-Modem-Available

A modem in not available to connect the call.

10

No-Carrier

No carrier detected.

Note

 

Codes 10, 11, and 12 can be sent if there is a disconnection during initial modem connection.

11

Lost-Carrier

Loss of carrier.

12

No-Detected-Result-Codes

Failure to detect modem result codes.

20

User-Ends-Session

User terminates a session.

Note

 

Codes 20, 22, 23, 24, 25, 26, 27, and 28 apply to EXEC sessions.

21

Idle-Timeout

Timeout waiting for user input.

Codes 21, 100, 101, 102, and 120 apply to all session types.

22

Exit-Telnet-Session

Disconnect due to exiting Telnet session.

23

No-Remote-IP-Addr

Could not switch to SLIP/PPP; the remote end has no IP address.

24

Exit-Raw-TCP

Disconnect due to exiting raw TCP.

25

Password-Fail

Bad passwords.

26

Raw-TCP-Disabled

Raw TCP disabled.

27

Control-C-Detected

Control-C detected.

28

EXEC-Process-Destroyed

EXEC process destroyed.

29

Close-Virtual-Connection

User closes a virtual connection.

30

End-Virtual-Connection

Virtual connected has ended.

31

Exit-Rlogin

User exists Rlogin.

32

Invalid-Rlogin-Option

Invalid Rlogin option selected.

33

Insufficient-Resources

Insufficient resources.

40

Timeout-PPP-LCP

PPP LCP negotiation timed out.

Note

 

Codes 40 through 49 apply to PPP sessions.

41

Failed-PPP-LCP-Negotiation

PPP LCP negotiation failed.

42

Failed-PPP-PAP-Auth-Fail

PPP PAP authentication failed.

43

Failed-PPP-CHAP-Auth

PPP CHAP authentication failed.

44

Failed-PPP-Remote-Auth

PPP remote authentication failed.

45

PPP-Remote-Terminate

PPP received a Terminate Request from remote end.

46

PPP-Closed-Event

Upper layer requested that the session be closed.

47

NCP-Closed-PPP

PPP session closed because there were no NCPs open.

48

MP-Error-PPP

PPP session closed because of an MP error.

49

PPP-Maximum-Channels

PPP session closed because maximum channels were reached.

50

Tables-Full

Disconnect due to full terminal server tables.

51

Resources-Full

Disconnect due to full internal resources.

52

Invalid-IP-Address

IP address is not valid for Telnet host.

53

Bad-Hostname

Hostname cannot be validated.

54

Bad-Port

Port number is invalid or missing.

60

Reset-TCP

TCP connection has been reset.

Note

 

Codes 60 through 67 apply to Telnet or raw TCP sessions.

61

TCP-Connection-Refused

TCP connection has been refused by the host.

62

Timeout-TCP

TCP connection has timed out.

63

Foreign-Host-Close-TCP

TCP connection has been closed.

64

TCP-Network-Unreachable

TCP network is unreachable.

65

TCP-Host-Unreachable

TCP host is unreachable.

66

TCP-Network-Admin Unreachable

TCP network is unreachable for administrative reasons.

67

TCP-Port-Unreachable

TCP port in unreachable.

100

Session-Timeout

Session timed out.

101

Session-Failed-Security

Session failed for security reasons.

102

Session-End-Callback

Session terminated due to callback.

120

Invalid-Protocol

Call refused because the detected protocol is disabled.

150

RADIUS-Disconnect

Disconnected by RADIUS request.

151

Local-Admin-Disconnect

Administrative disconnect.

152

SNMP-Disconnect

Disconnected by SNMP request.

160

V110-Retries

Allowed V.110 retries have been exceeded.

170

PPP-Authentication-Timeout

PPP authentication timed out.

180

Local-Hangup

Disconnected by local hangup.

185

Remote-Hangup

Disconnected by remote end hangup.

190

T1-Quiesced

Disconnected because T1 line was quiesced.

195

Call-Duration

Disconnected because the maximum duration of the call was exceeded.

600

VPN-User-Disconnect

Call disconnected by client (through PPP).

Code is sent if the LNS receives a PPP terminate request from the client.

601

VPN-Carrier-Loss

Loss of carrier. This can be the result of a physical line going dead.

Code is sent when a client is unable to dial out using a dialer.

602

VPN-No-Resources

No resources available to handle the call.

Code is sent when the client is unable to allocate memory (running low on memory).

603

VPN-Bad-Control-Packet

Bad L2TP or L2F control packets.

This code is sent when an invalid control packet, such as missing mandatory Attribute-Value pairs (AVP), from the peer is received. When using L2TP, the code will be sent after six retransmits; when using L2F, the number of retransmits is user configurable.

Note

 

VPN-Tunnel-Shut will be sent if there are active sessions in the tunnel.

604

VPN-Admin-Disconnect

Administrative disconnect. This can be the result of a VPN soft shutdown, which is when a client reaches maximum session limit or exceeds maximum hopcount.

Code is sent when a tunnel is brought down by issuing the clear vpdn tunnel command.

605

VPN-Tunnel-Shut

Tunnel teardown or tunnel setup has failed.

Code is sent when there are active sessions in a tunnel and the tunnel goes down.

Note

 

This code is not sent when tunnel authentication fails.

606

VPN-Local-Disconnect

Call is disconnected by LNS PPP module.

Code is sent when the LNS sends a PPP terminate request to the client. It indicates a normal PPP disconnection initiated by the LNS.

607

VPN-Session-Limit

VPN soft shutdown is enabled.

Code is sent when a call has been refused due to any of the soft shutdown restrictions previously mentioned.

608

VPN-Call-Redirect

VPN call redirect is enabled.

RADIUS Progress Codes

The RADIUS Progress Codes feature adds additional progress codes to RADIUS attribute 196 (Ascend-Connect-Progress), which indicates a connection state before a call is disconnected through progress codes.

Attribute 196 is sent in network, exec, and resource accounting “start” and “stop” records. This attribute can facilitate call failure debugging because each progress code identifies accounting information relevant to the connection state of a call. The attribute is activated by default; when an accounting “start” or “stop” accounting record is requested, authentication, authorization, and accounting (AAA) adds attribute 196 into the record as part of the standard attribute list. Attribute 196 is valuable because the progress codes, which are sent in accounting “start” and “stop” records, facilitate the debugging of call failures.


Note


In accounting “start” records, attribute 196 does not have a value.
Table 4. Newly Supported Progress Codes for Attribute 196

Code

Description

10

Modem allocation and negotiation is complete; the call is up.

30

The modem is up.

33

The modem is waiting for result codes.

41

The max TNT is establishing the TCP connection by setting up a TCP clear call.

60

Link control protocol (LCP) is the open state with PPP and IP Control Protocol (IPCP) negotiation; the LAN session is up.

65

PPP negotiation occurs and, initially, the LCP negotiation occurs; LCP is in the open state.

67

After PPP negotiation with LCP in the open state occurs, IPCP negotiation begins.


Note


Progress codes 33, 30, and 67 are generated and seen through debugs on the NAS; all other codes are generated and seen through debugs and the accounting record on the RADIUS server.

Vendor-Proprietary RADIUS Server Communication

Although an IETF draft standard for RADIUS specifies a method for communicating vendor-proprietary information between the switch 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 switch. You specify the RADIUS host and secret text string by using the radius server global configuration commands.

Enhanced Test Command

The Enhanced Test Command feature allows a named user profile to be created with calling line ID (CLID) or dialed number identification service (DNIS) attribute values. The CLID or DNIS attribute values can be associated with the RADIUS record that is sent with the user profile so that the RADIUS server can access CLID or DNIS attribute information for all incoming calls.

How to Configure RADIUS

Identifying the RADIUS Server Host

To apply these settings globally to all RADIUS servers communicating with the Device, use the three unique global configuration commands: radius-server timeout , radius-server retransmit , and radius-server key .

You can configure the Device to use AAA server groups to group existing server hosts for authentication. For more information, see Related Topics below.

You also need to configure some settings on the RADIUS server. These settings include the IP address of the Device and the key string to be shared by both the server and the Device. For more information, see the RADIUS server documentation.

Follow these steps to configure per-server RADIUS server communication.

Before you begin

If you configure both global and per-server functions (timeout, retransmission, and key commands) on the device, the per-server timer, retransmission, and key value commands override global timer, retransmission, and key value commands. For information on configuring these settings on all RADIUS servers, see Related Topics below.

Procedure

  Command or Action Purpose

Step 1

enable

Example:


Device> enable

Enables privileged EXEC mode.

  • Enter your password if prompted.

Step 2

configure terminal

Example:


Device# configure terminal

Enters global configuration mode.

Step 3

radius server name

Example:


Device(config)# radius server ISE

Specifies the name of the RADIUS server configuration for Protected Access Credential (PAC) provisioning and enters RADIUS server configuration mode.

The device also supports RADIUS for IPv6.

Step 4

address {ipv4 | ipv6} ip address {auth-port port number | acct-port port number}

Example:


Device(config-radius-server)# address ipv4 10.1.1.1 auth-port 1645 acct-port 1646

(Optional) Specifies the RADIUS server parameters.

For auth-port port-number , specify the UDP destination port for authentication requests. The default is 1645. The range is 0 to 65536.

For acct-port port-number , specify the UDP destination port for authentication requests. The default is 1646.

Step 5

key string

Example:


Device(config-radius-server)#  key cisco123

(Optional) For key string , specify the authentication and encryption key used between the Device 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 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.

Step 6

retransmit value

Example:


Device(config-radius-server)# retransmit 10

(Optional) Specifies the number of times a RADIUS request is resent when the server is not responding or responding slowly. The range is 1 to 100. This setting overrides the radius-server retransmit global configuration command setting.

Step 7

timeout seconds

Example:


Device(config-radius-server)# timeout 60

(Optional) Specifies the time interval that the Device waits for the RADIUS server to reply before sending a request again. The range is 1 to 1000. This setting overrides the radius-server timeout global configuration command setting.

Step 8

end

Example:


Device(config)# end

Returns to privileged EXEC mode.

Step 9

show running-config

Example:


Device# show running-config 

Verifies your entries.

Step 10

copy running-config startup-config

Example:


Device# copy running-config startup-config 

(Optional) Saves your entries in the configuration file.

Configuring Settings for All RADIUS Servers

Beginning in privileged EXEC mode, follow these steps to configure settings for all RADIUS servers:

Procedure

  Command or Action Purpose

Step 1

configure terminal

Example:


Device# configure terminal

Enters global configuration mode.

Step 2

radius-server key string

Example:


Device(config)# radius-server key your_server_key


Device(config)# key your_server_key

Specifies the shared secret text string used between the switch and all RADIUS servers.

Note

 

The key is a text string that must match the encryption key used on the RADIUS server. 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.

Step 3

radius-server retransmit retries

Example:


Device(config)#  radius-server retransmit 5

Specifies the number of times the switch sends each RADIUS request to the server before giving up. The default is 3; the range 1 to 1000.

Step 4

radius-server timeout seconds

Example:


Device(config)#  radius-server timeout 3

Specifies the number of seconds a switch waits for a reply to a RADIUS request before resending the request. The default is 5 seconds; the range is 1 to 1000.

Step 5

radius-server deadtime minutes

Example:


Device(config)#  radius-server deadtime 0

When a RADIUS server is not responding to authentication requests, this command specifies a time to stop the request on that server. This avoids the wait for the request to timeout before trying the next configured server. The default is 0; the range is 1 to 1440 minutes.

Step 6

end

Example:


Device(config)# end

Returns to privileged EXEC mode.

Step 7

show running-config

Example:


Device# show running-config 

Verifies your entries.

Step 8

copy running-config startup-config

Example:


Device# copy running-config startup-config 

(Optional) Saves your entries in the configuration file.

Configuring RADIUS Login Authentication

Follow these steps to configure RADIUS login authentication:

Before you begin

To secure the device for HTTP access by using AAA methods, you must configure the device with the ip http authentication aaa global configuration command. Configuring AAA authentication does not secure the device for HTTP access by using AAA methods.

Procedure

  Command or Action Purpose

Step 1

enable

Example:


Device> enable

Enables privileged EXEC mode.

  • Enter your password if prompted.

Step 2

configure terminal

Example:


Device# configure terminal

Enters global configuration mode.

Step 3

aaa new-model

Example:


Device(config)# aaa new-model

Enables AAA.

Step 4

aaa authentication login {default | list-name} method1 [method2...]

Example:


Device(config)# aaa authentication login default local

Creates 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 ports.

  • For list-name , specify a character string to name the list you are creating.

  • 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:

    • enable —Use the enable password for authentication. Before you can use this authentication method, you must define an enable password by using the enable password global configuration command.

    • group radius —Use RADIUS authentication. Before you can use this authentication method, you must configure the RADIUS server.

    • line —Use the line password for authentication. Before you can use this authentication method, you must define a line password. 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 name password global configuration command.

    • local-case —Use a case-sensitive local username database for authentication. You must enter username information in the database by using the username password global configuration command.

    • none —Do not use any authentication for login.

Step 5

line [console | tty | vty] line-number [ending-line-number]

Example:


Device(config)# line 1 4

Enters line configuration mode, and configure the lines to which you want to apply the authentication list.

Step 6

login authentication {default | list-name}

Example:


Device(config)# login authentication default 

Applies 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 7

end

Example:


Device(config)# end

Returns to privileged EXEC mode.

Step 8

show running-config

Example:


Device# show running-config 

Verifies your entries.

Step 9

copy running-config startup-config

Example:


Device# copy running-config startup-config 

(Optional) Saves your entries in the configuration file.

Defining AAA Server Groups

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.

Follow these steps to define AAA server groups:

Procedure

  Command or Action Purpose

Step 1

enable

Example:


Device> enable

Enables privileged EXEC mode.

  • Enter your password if prompted.

Step 2

configure terminal

Example:


Device# configure terminal

Enters global configuration mode.

Step 3

radius server name

Example:


Device(config)# radius server ISE

Specifies the name of the RADIUS server configuration for Protected Access Credential (PAC) provisioning and enters RADIUS server configuration mode.

The device also supports RADIUS for IPv6.

Step 4

address {ipv4 | ipv6} {ip-address | hostname} auth-port port-number acct-port port-number

Example:


Device(config-radius-server)# address ipv4 10.1.1.1 auth-port 1645 acct-port 1646

Configures the IPv4 address for the RADIUS server accounting and authentication parameters.

Step 5

key string

Example:


Device(config-radius-server)# key cisco123

Specifies the authentication and encryption key for all RADIUS communications between the device and the RADIUS server.

Step 6

end

Example:


Device(config-radius-server)# end

Exits RADIUS server configuration mode and returns to privileged EXEC mode.

Step 7

show running-config

Example:


Device# show running-config 

Verifies your entries.

Step 8

copy running-config startup-config

Example:


Device# copy running-config startup-config 

(Optional) Saves your entries in the configuration file.

Configuring RADIUS Authorization for User Privileged Access and Network Services


Note


Authorization is bypassed for authenticated users who log in through the CLI even if authorization has been configured.


Follow these steps to configure RADIUS authorization for user priviledged access and network services:

Procedure

  Command or Action Purpose

Step 1

enable

Example:


Device> enable

Enables privileged EXEC mode.

  • Enter your password if prompted.

Step 2

configure terminal

Example:


Device# configure terminal

Enters global configuration mode.

Step 3

aaa authorization network radius

Example:


Device(config)# aaa authorization network radius

Configures the device for user RADIUS authorization for all network-related service requests.

Step 4

aaa authorization exec radius

Example:


Device(config)# aaa authorization exec radius

Configures the device for user RADIUS authorization if the user has privileged EXEC access.

The exec keyword might return user profile information (such as autocommand information).

Step 5

end

Example:


Device(config)# end

Returns to privileged EXEC mode.

Step 6

show running-config

Example:


Device# show running-config 

Verifies your entries.

Step 7

copy running-config startup-config

Example:


Device# copy running-config startup-config 

(Optional) Saves your entries in the configuration file.

What to do next

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.

Starting RADIUS Accounting

Follow these steps to start RADIUS accounting:

Procedure

  Command or Action Purpose

Step 1

enable

Example:


Device> enable

Enables privileged EXEC mode.

  • Enter your password if prompted.

Step 2

configure terminal

Example:


Device# configure terminal

Enters global configuration mode.

Step 3

aaa accounting network start-stop radius

Example:


Device(config)# aaa accounting network start-stop radius

Enables RADIUS accounting for all network-related service requests.

Step 4

aaa accounting exec start-stop radius

Example:

Device(config)# aaa accounting exec start-stop radius

Enables RADIUS accounting to send a start-record accounting notice at the beginning of a privileged EXEC process and a stop-record at the end.

Step 5

end

Example:


Device(config)# end

Returns to privileged EXEC mode.

Step 6

show running-config

Example:


Device# show running-config 

Verifies your entries.

Step 7

copy running-config startup-config

Example:


Device# copy running-config startup-config 

(Optional) Saves your entries in the configuration file.

Verifying Attribute 196

No configuration is required to configure RADIUS Progress Codes. To verify attribute 196 in accounting “start” and “stop” records, perform the following steps.

Procedure

  Command or Action Purpose

Step 1

enable

Example:


Device> enable

Enables privileged EXEC mode.

  • Enter your password if prompted.

Step 2

debug aaa accounting

Example:


Device# debug aaa accounting

Displays information on accountable events as they occur.

Step 3

show radius statistics

Example:


Device# debug aaa authorization

Displays the RADIUS statistics for accounting and authentication packets.

Configuring the Device to Use Vendor-Specific RADIUS Attributes

Follow these steps to configure the device to use vendor-specific RADIUS attributes:

Procedure

  Command or Action Purpose

Step 1

enable

Example:


Device> enable

Enables privileged EXEC mode.

  • Enter your password if prompted.

Step 2

configure terminal

Example:


Device# configure terminal

Enters global configuration mode.

Step 3

radius-server vsa send [accounting | authentication]

Example:


Device(config)# radius-server vsa send accounting

Enables the device to recognize and use VSAs as defined by RADIUS IETF attribute 26.

  • (Optional) Use the accounting keyword to limit the set of recognized vendor-specific attributes to only accounting attributes.

  • (Optional) Use the authentication keyword to limit the set of recognized vendor-specific attributes to only authentication attributes.

If you enter this command without keywords, both accounting and authentication vendor-specific attributes are used.

Step 4

end

Example:


Device(config)# end

Returns to privileged EXEC mode.

Step 5

show running-config

Example:


Device# show running-config 

Verifies your entries.

Step 6

copy running-config startup-config

Example:


Device# copy running-config startup-config 

(Optional) Saves your entries in the configuration file.

Configuring the Device for Vendor-Proprietary RADIUS Server Communication

Follow these steps to configure the device to use vendor-proprietary RADIUS server communication:

Procedure

  Command or Action Purpose

Step 1

enable

Example:


Device> enable

Enables privileged EXEC mode.

  • Enter your password if prompted.

Step 2

configure terminal

Example:


Device# configure terminal

Enters global configuration mode.

Step 3

radius-server host {hostname | ip-address} non-standard

Example:


Device(config)# radius-server host 172.20.30.15 non-standard

Specifies the IP address or hostname of the remote RADIUS server host and identifies that it is using a vendor-proprietary implementation of RADIUS.

Step 4

radius-server key string

Example:


Device(config)# radius-server key rad124

Specifies the shared secret text string used between the device and the vendor-proprietary RADIUS server. The device and the RADIUS server use this text string to encrypt passwords and exchange responses.

Note

 

The key is a text string that must match the encryption key used on the RADIUS server. 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.

Step 5

end

Example:


Device(config)# end

Returns to privileged EXEC mode.

Step 6

show running-config

Example:


Device# show running-config 

Verifies your entries.

Step 7

copy running-config startup-config

Example:


Device# copy running-config startup-config 

(Optional) Saves your entries in the configuration file.

Configuring a User Profile and Associating it with the RADIUS Record

This section describes how to create a named user profile with CLID or DNIS attribute values and associate it with the RADIUS record.

Procedure

  Command or Action Purpose

Step 1

enable

Example:


Device> enable

Enables privileged EXEC mode.

  • Enter your password if prompted.

Step 2

configure terminal

Example:


Device# configure terminal

Enters global configuration mode.

Step 3

aaa user profile profile-name

Example:


Device(config)# aaa user profile profilename1

Creates a user profile.

Step 4

aaa attribute {dnis | clid }

Example:


Device# configure terminal

Adds DNIS or CLID attribute values to the user profile and enters AAA-user configuration mode.

Step 5

exit

Exit Global Configuration mode.

Step 6

test aaa group {group-name | radius } username password new-code [profile profile-name ]

Example:


Device# test aaa group  radius secret new-code profile  profilename1

Associates a DNIS or CLID named user profile with the record sent to the RADIUS server.

Note

 

The profile-name must match the profile-name specified in the aaa user profile command.

Verifying the Enhanced Test Command Configuration

To verify the Enhanced Test Command configuration, use the following commands in privileged EXEC mode:

Command

Purpose


Device# debug radius 

Displays information associated with RADIUS.


Devie# more system:running-config 

Displays the contents of the current running configuration file. (Note that the more system:running-config command has replaced the show running-config command.)

Configuration Examples for RADIUS

Examples: Identifying the RADIUS Server Host

This example shows how to configure one RADIUS server to be used for authentication and another to be used for accounting:


Device(config)# radius-server host 172.29.36.49 auth-port 1612 key rad1
Device(config)# radius-server host 172.20.36.50 acct-port 1618 key rad2

This example shows how to configure host1 as the RADIUS server and to use the default ports for both authentication and accounting:


Device(config)# radius-server host host1

Example: Using Two Different RADIUS Group Servers

In this example, the switch 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.


Device(config)# radius-server host 172.20.0.1 auth-port 1000 acct-port 1001
Device(config)# radius-server host 172.10.0.1 auth-port 1645 acct-port 1646
Device(config)# aaa new-model
Device(config)# aaa group server radius group1
Device(config-sg-radius)# server 172.20.0.1 auth-port 1000 acct-port 1001
Device(config-sg-radius)# exit
Device(config)# aaa group server radius group2
Device(config-sg-radius)# server 172.20.0.1 auth-port 2000 acct-port 2001
Device(config-sg-radius)# exit

Examples: AAA Server Groups

The following example shows how to create server group radgroup1 with three different RADIUS server members, each using the default authentication port (1645) and accounting port (1646):


aaa group server radius radgroup1
 server 172.16.1.11 
 server 172.17.1.21 
 server 172.18.1.31 

The following example shows how to create server group radgroup2 with three RADIUS server members, each with the same IP address but with unique authentication and accounting ports:


aaa group server radius radgroup2
 server 172.16.1.1 auth-port 1000 acct-port 1001
 server 172.16.1.1 auth-port 2000 acct-port 2001
 server 172.16.1.1 auth-port 3000 acct-port 3001

Troubleshooting Tips for RADIUS Progress Codes

The following example is a sample debug output from the debug ppp negotiation command. This debug output is used to verify that accounting “stop” records have been generated and that attribute 196 (Ascend-Connect-Progress) has a value of 65.


Tue Aug 7 06:21:03 2001
        NAS-IP-Address = 10.0.58.62
        NAS-Port = 20018
        Vendor-Specific = ""
        NAS-Port-Type = ISDN
        User-Name = "peer_16a"
        Called-Station-Id = "5213124"
        Calling-Station-Id = "5212175"
        Acct-Status-Type = Stop
        Acct-Authentic = RADIUS
        Service-Type = Framed-User
        Acct-Session-Id = "00000014"
        Framed-Protocol = PPP
        Framed-IP-Address = 172.16.0.2
        Acct-Input-Octets = 3180
        Acct-Output-Octets = 3186
        Acct-Input-Packets = 40
        Acct-Output-Packets = 40
        Ascend-Connect-Pr = 65
        Acct-Session-Time = 49
        Acct-Delay-Time = 0
        Timestamp = 997190463
        Request-Authenticator = Unverified

Examples: Configuring the Switch to Use Vendor-Specific RADIUS Attributes

For example, this AV pair activates Cisco’s multiple named ip address pools feature during IP authorization (during PPP IPCP address assignment):


cisco-avpair= ”ip:addr-pool=first“

This example shows how to provide a user logging in from a switch with immediate access to privileged EXEC commands:


cisco-avpair= ”shell:priv-lvl=15“ 

This example shows how to specify an authorized VLAN in the RADIUS server database:


cisco-avpair= ”tunnel-type(#64)=VLAN(13)”
cisco-avpair= ”tunnel-medium-type(#65)=802 media(6)”
cisco-avpair= ”tunnel-private-group-id(#81)=vlanid”

This example shows how to apply an input ACL in ASCII format to an interface for the duration of this connection:


cisco-avpair= “ip:inacl#1=deny ip 10.10.10.10 0.0.255.255 20.20.20.20 255.255.0.0”
cisco-avpair= “ip:inacl#2=deny ip 10.10.10.10 0.0.255.255 any”
cisco-avpair= “mac:inacl#3=deny any any decnet-iv”

This example shows how to apply an output ACL in ASCII format to an interface for the duration of this connection:


cisco-avpair= “ip:outacl#2=deny ip 10.10.10.10 0.0.255.255 any”

Example: Configuring the Switch for Vendor-Proprietary RADIUS Server Communication

This example shows how to specify a vendor-proprietary RADIUS host and to use a secret key of rad124 between the switch and the server:


Device(config)# radius-server host 172.20.30.15 nonstandard
Device(config)# radius-server key rad124

Example: User Profile Associated With the test aaa group Command

The following example shows how to configure the dnis = dnisvalue user profile “prfl1” and associate it with a test aaa group command. In this example, the debug radius command has been enabled and the output follows the configuration.


aaa user profile prfl1
  aaa attribute dnis
  aaa attribute dnis dnisvalue
  no aaa attribute clid
! Attribute not found.
  aaa attribute clid clidvalue
  no aaa attribute clid 
  exit
!
! Associate the dnis user profile with the test aaa group command.
test aaa group radius user1 pass new-code profile profl1
!
!
!
! debug radius output, which shows that the dnis value has been passed to the radius ! server.
*Dec 31 16:35:48: RADIUS: Sending packet for Unique id = 0
 *Dec 31 16:35:48: RADIUS: Initial Transmit unknown id 8 172.22.71.21:1645, Access-Request, len 68
 *Dec 31 16:35:48: RADIUS: code=Access-Request id=08 len=0068
         authenticator=1E CA 13 F2 E2 81 57 4C - 02 EA AF 9D 30 D9 97 90
         T=User-Password[2]                 L=12 V=*
         T=User-Name[1]                     L=07 V="test"
         T=Called-Station-Id[30]            L=0B V="dnisvalue"
         T=Service-Type[6]                  L=06 V=Login                     [1]
         T=NAS-IP-Address[4]                L=06 V=10.0.1.81                 
 
 *Dec 31 16:35:48: RADIUS: Received from id 8 172.22.71.21:1645, Access-Accept, len 38
 *Dec 31 16:35:48: RADIUS: code=Access-Accept id=08 len=0038

Additional References for RADIUS

Related Documents

Related Topic

Document Title

Cisco security commands

IPv6 commands

Cisco IOS IPv6 Command Reference

Standards and RFCs

Standard/RFC Title

RFC 5176

RADIUS Change of Authorization (CoA) extensions

Error Message Decoder

Description Link

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To locate and download MIBs for selected platforms, Cisco IOS releases, and feature sets, use Cisco MIB Locator found at the following URL:

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Feature Information for RADIUS

Release Feature Information
Cisco IOS Release 15.0(2)EX

This feature was introduced.

Cisco IOS 15.2(1)E

The RADIUS Progress Codes feature adds additional progress codes to RADIUS attribute 196 (Ascend-Connect-Progress), which indicates a connection state before a call is disconnected through progress codes.

Cisco IOS 15.2(1)E

The Enhanced Test Command feature allows a named user profile to be created with calling line ID (CLID) or Dialed Number Identification Service (DNIS) attribute values. The CLID or DNIS attribute values can be associated with the RADIUS record that is sent with the user profile so that the RADIUS server can access CLID or DNIS attribute information for all incoming calls.

The following commands were introduced or modified: aaa attribute , aaa user profile , and test aaa group