- Read Me First
- Preparing for Broadband Access Aggregation
- Providing Protocol Support for Broadband Access Aggregation of PPPoE Sessions
- PPP for IPv6
- DHCP for IPv6 Broadband
- Providing Protocol Support for Broadband Access Aggregation of PPP over ATM Sessions
- Providing Connectivity Using ATM Routed Bridge Encapsulation over PVCs
- PPPoE Circuit-Id Tag Processing
- Configuring PPP over Ethernet Session Limit Support
- PPPoE Session Limit Local Override
- PPPoE QinQ Support
- PPP-Max-Payload and IWF PPPoE Tag Support
- PPPoE Session Limiting on Inner QinQ VLAN
- PPPoE Agent Remote-ID and DSL Line Characteristics Enhancement
- Enabling PPPoE Relay Discovery and Service Selection Functionality
- Configuring Cisco Subscriber Service Switch Policies
- AAA Improvements for Broadband IPv6
- Per Session Queueing and Shaping for PPPoEoVLAN Using RADIUS
- 802.1P CoS Bit Set for PPP and PPPoE Control Frames
- PPP over Ethernet Client
- VRF Awareness Access Class Line
- PPPoE Smart Server Selection
- Monitoring PPPoE Sessions with SNMP
- PPPoE on ATM
- PPPoE on Ethernet
- PPPoE over VLAN Enhancements Configuration Limit Removal and ATM Support
- Configuring PPPoE over L2TPv3 Tunnels
- ADSL Support in IPv6
- Broadband IPv6 Counter Support at LNS
- PPP IP Unique Address and Prefix Detection
- PPP IPv4 Address Conservation in Dual Stack Environments
- TR-069 Agent
- Broadband High Availability Stateful Switchover
- Broadband High Availability In-Service Software Upgrade
- Controlling Subscriber Bandwidth
- PPPoE Service Selection
- Disabling AC-name and AC-cookie Tags from PPPoE PADS
- Broadband Smart Licensing
- Finding Feature Information
- Prerequisites for PPPoE Service Selection
- Information About PPPoE Service Selection
- PPPoE Service Selection Through Service Tags
- PPPoE Service Names
- RADIUS Service Profiles for PPPoE Service Selection
- Benefits of PPPoE Service Selection
- Attributes Used to Define a RADIUS Service Profile for PPPoE Selection
- Attributes Used to Configure a Subscriber Profile on the RADIUS Server for PPPoE Service Selection
- How to Offer PPPoE Service Selection
- Configuration Examples for PPPoE Service Selection
- Where to Go Next
- Additional References
- Feature Information for PPPoE Service Selection
PPPoE Service Selection
The PPPoE Service Selection feature uses service tags to enable a PPP over Ethernet (PPPoE) server to offer PPPoE clients a selection of services during call setup. You choose one of the services offered, and the service is provided when the PPPoE session becomes active. This feature enables service providers to offer a variety of services and to charge you according to the service chosen.
- Finding Feature Information
- Prerequisites for PPPoE Service Selection
- Information About PPPoE Service Selection
- How to Offer PPPoE Service Selection
- Configuration Examples for PPPoE Service Selection
- Where to Go Next
- Additional References
- Feature Information for PPPoE Service Selection
Finding Feature Information
Your software release may not support all the features documented in this module. For the latest caveats and feature information, see Bug Search Tool and the release notes for your platform and software release. To find information about the features documented in this module, and to see a list of the releases in which each feature is supported, see the feature information table.
Use Cisco Feature Navigator to find information about platform support and Cisco software image support. To access Cisco Feature Navigator, go to www.cisco.com/go/cfn. An account on Cisco.com is not required.
Prerequisites for PPPoE Service Selection
-
PPPoE must be configured using PPPoE profile configuration rather than virtual private dial-up network (VPDN) group configuration as described in the "Providing Protocol Support for Broadband Aggregation of PPPoE Sessions" module.
-
The PPPoE client must support service tags in the PPPoE discovery phase.
-
The procedures in this document assume that RADIUS accounting and authentication, and PPPoE are configured and working, if you use PPPoE service selection to offer tunneling services.
- You must configure either the subscriber authorization enable or the vpdn enable command before configuring PPPoE service selection to successfully create service names.
Information About PPPoE Service Selection
- PPPoE Service Selection Through Service Tags
- PPPoE Service Names
- RADIUS Service Profiles for PPPoE Service Selection
- Benefits of PPPoE Service Selection
- Attributes Used to Define a RADIUS Service Profile for PPPoE Selection
- Attributes Used to Configure a Subscriber Profile on the RADIUS Server for PPPoE Service Selection
PPPoE Service Selection Through Service Tags
PPPoE service selection enables a PPPoE server to offer clients a selection of services during call setup. The PPPoE client chooses one of the services offered, and that service is provided when the PPPoE session becomes active.
PPPoE service selection works through the exchange of service tags during the PPPoE discovery phase. When a client initiates a call with a PPPoE Active Discovery Initiation (PADI) packet, the PPPoE server responds with a PPPoE Active Discovery Offer (PADO) packet that advertises a list of available services. The client selects a service and sends a PPPoE Active Discovery Request (PADR) packet that indicates the service name that was selected.
When the PPPoE server receives the PADR packet that indicates the chosen service, the PPPoE server handles the service name in the same manner as a domain name. The service profile for the service name is retrieved from a RADIUS server, and the attributes within that service profile are applied to the call.
PPPoE Service Names
Each PPPoE service has a service name, which can be defined as a set of characteristics that are applied to a PPPoE connection when that service name is selected during call setup.
When you configure PPPoE service selection, you can define a RADIUS service profile for each service name, list in a subscriber profile the service names that you want to advertise, and then assign the subscriber profile to a PPPoE profile. The PPPoE server advertises the service names that are listed in the subscriber profile to each PPPoE client connection that uses the configured PPPoE profile.
If a subscriber profile is not assigned to a PPPoE profile, the PPPoE connections that use that PPPoE profile are established without the additional service tags in the discovery packets. If a port is configured with a static service name (using the vpn service command), the static service name takes precedence, and no services are advertised to the client.
The Cisco RADIUS vendor-specific attribute (VSA) "service-name" is used in RADIUS accounting records to log the service name that was selected by the client. This attribute is also used to download the service names from the subscriber profile when the subscriber profile is defined on the RADIUS server.
You can use the pppoe-client dial-pool-number command to configure a PPPoE client. While configuring the PPPoE client, you can also specify the service name requested by the PPPoE client. This service name allows the PPPoE client to signal a service name to the Broadband Access Aggregation System (BRAS). By default, no service name is signaled and the service name value is set to NULL.
A single Permanent Virtual Connection (PVC) can support multiple PPPoE clients and redundancy. You can use the pppoe-client dial-pool-number command to configure one or more concurrent client PPPoE sessions on a single Asynchronous Transfer Mode (ATM) PVC.
RADIUS Service Profiles for PPPoE Service Selection
A service profile must be created on the RADIUS server for each service name. The service profile contains attributes that define how the call is handled. Currently, two sets of attributes are available for defining service profiles: attributes that define tunneling and attributes that define the quality of service (QoS) that is applied to the permanent virtual circuit (PVC) on which the PPPoE call is coming in.
The table below lists some of the attributes that are supported in RADIUS service profiles for PPPoE service selection.
Benefits of PPPoE Service Selection
PPPoE service selection enables a service provider to use PPPoE to offer a selection of services to you and to charge you according to the service selected. For example, a wholesaler could offer different levels of service by defining multiple service profiles for the same tunnel but with different levels of QoS for the ATM PVC. The wholesaler would be able to charge you according to the level of service provided.
PPPoE service selection could also be used by access providers to avoid link control protocol (LCP) negotiation at the Layer 2 Tunnel Protocol (L2TP) access concentrator (LAC) for sessions that are to be forwarded to tunnels. Avoiding LCP negotiation at the LAC can improve scalability of the LAC during call setup and help alleviate the load on the LAC while all the sessions on the LAC are reconnecting after an outage.
Attributes Used to Define a RADIUS Service Profile for PPPoE Selection
The table below lists some of the attributes that can be used to define a RADIUS service profile for PPPoE service selection. These attributes are defined when setting up the RADIUS server.
RADIUS Entry |
Purpose |
---|---|
User-Service-Type = Outbound-User |
Configures the service type as outbound. |
Cisco-AVpair = "vpdn:tunnel-id= name " |
Specifies the name of the tunnel that must match the LNS’s VPDN terminate-from hostname. |
Cisco-AVpair = "vpdn:tunnel-type=l2tp" |
Specifies Layer 2 Tunnel Protocol (L2TP). |
Cisco-AVpair = "vpdn:ip-addresses= ip-address " |
Specifies the IP address of L2TP network server (LNS). |
Cisco-AVpair = "atm:peak-cell-rate= kbps " |
Specifies the peak cell rate, in kbps, that is applied to the ATM PVC on which a PPPoE session is being established. |
Cisco-AVpair = "atm:sustainable-cell-rate= kbps " |
Specifies the sustainable cell rate, in kbps, that is applied to the ATM PVC on which a PPPoE session is being established. |
Attributes Used to Configure a Subscriber Profile on the RADIUS Server for PPPoE Service Selection
The table below lists the attributes that can be used to configure a RADIUS subscriber profile to support PPPoE service selection.
The default AAA authorization method list determines where the policy manager looks for the subscriber profile. When the subscriber profile is configured remotely, the aaa authorization network default group radiuscommand must be included in the AAA configuration so the policy manager knows to look for the subscriber policy on a AAA server. These attributes are defined while configuring the RADIUS server. Refer to the RADIUS server documentation for information about how to perform this configuration.
RADIUS Entry |
Purpose |
---|---|
User-Service-Type = Outbound-User |
Configures the service type as outbound. |
Cisco-AVpair = "pppoe:service-name= service-name " |
Specifies a PPPoE service name that is listed in this subscriber profile. |
How to Offer PPPoE Service Selection
- Configuring the Subscriber Profile for PPPoE Service Selection
- Configuring the PPPoE Profile for PPPoE Service Selection
- Configuring Service Names for PPPoE Clients on an ATM PVC
- Verifying PPPoE Service Selection
- Monitoring and Maintaining PPPoE Service Selection
Configuring the Subscriber Profile for PPPoE Service Selection
The subscriber profile contains the list of services that is advertised to PPPoE clients. You can configure the subscriber profile locally on the router or on the RADIUS server.
If the services are defined locally and the subscriber services points to RADIUS server, the PPPoE services must come from RADIUS which is not been defined, empty, or unavailable for specific reason. You can configure either the subscriber authorization enable or the vpdn enable command before configuring PPPoE service selection to successfully create service names.
Perform this task to configure a local subscriber profile for PPPoE service selection.
The default AAA authorization method list determines where the policy manager looks for the subscriber profile. When the subscriber profile is configured locally, the aaa authorization network default local command must be included in the AAA configuration so the policy manager knows to look for the subscriber policy locally.
1.
enable
2.
configure
terminal
3.
policy-map
type
service
policy-map-name
4.
pppoe
service
service-name
5. Repeat Step 4 for each service name that you want to add to the subscriber profile.
6.
end
7. end
DETAILED STEPS
Configuring the PPPoE Profile for PPPoE Service Selection
Perform this task to associate a subscriber profile with a PPPoE profile.
1.
enable
2.
configure
terminal
3.
bba-group
pppoe
{group-name | global}
4.
virtual-template
template-number
5.
sessions
per-vc
limit
number
6.
service
profile
subscriber-profile-name
[refresh minutes]
7.
end
8. end
DETAILED STEPS
Troubleshooting Tips
Use the show pppoe session and debug pppoe commands to troubleshoot PPPoE sessions.
What to Do Next
Once a PPPoE profile has been defined, it must be assigned to a PPPoE port (Fast Ethernet, virtual LAN [VLAN], or PVC), a virtual circuit (VC) class, or an ATM PVC range. For more information about how to configure PPPoE profiles, refer to the Providing Protocol Support for Broadband Access Aggregation of PPPoE Sessions chapter.
Configuring Service Names for PPPoE Clients on an ATM PVC
Perform this task to configure the service name for PPPoE client on an ATM PVC.
1.
enable
2.
configure
terminal
3.
interface
atm
number
4.
pvc
[name]
vpi
/
vci
5.
pppoe-client
dial-pool-number
number
restart
number
service-name
name
6.
end
DETAILED STEPS
If you make
any changes to the PVC configuration after the PPPoE client session is
established, the session is automatically terminated and reestablished.
Note
Verifying PPPoE Service Selection
Perform this task to verify PPPoE service selection configuration and performance. Steps 2 through 3 are optional and do not have to be performed in a particular order.
1.
show
pppoe
derived
group
group-name
2.
show
vpdn
[session [all | packets | sequence | state] | tunnel [all | packets | summary | state | transport]]
3.
show
atm
pvc
[vpi / vci | name | interface atm slot/subslot/port[. subinterface multipoint]] [ppp]
DETAILED STEPS
Step 1 |
show
pppoe
derived
group
group-name
(Optional) Displays the cached PPPoE configuration that is derived from the subscriber profile for a specified PPPoE profile. This command is useful for viewing the subscriber profile configuration when the subscriber profile is configured on a remote AAA server. Example: Router# show pppoe derived group sp-group-a Derived configuration from subscriber profile 'abc': Service names: isp-xyz, gold-isp-A, silver-isp-A |
Step 2 |
show
vpdn
[session [all | packets | sequence | state] | tunnel [all | packets | summary | state | transport]] (Optional) Displays information about active L2TP or Layer 2 Forwarding (L2F) Protocol tunnel and message identifiers in a VPDN. Use this command to display tunneling parameters for the services configured for tunneling. Example: Router# show vpdn Active L2F tunnels NAS Name Gateway Name NAS CLID Gateway CLID State nas gateway 4 2 open L2F MIDs Name NAS Name Interface MID State router1@cisco.com nas As7 1 open router2@cisco.com nas As8 2 open |
Step 3 |
show
atm
pvc
[vpi / vci | name | interface atm slot/subslot/port[. subinterface multipoint]] [ppp] (Optional) Displays all ATM PVCs and traffic information.
Use this command to display ATM QoS parameters for the services configured for ATM QoS. Example: Router# show atm pvc VCD/ Peak Avg/Min Burst Interface Name VPI VCI Type Encaps Kbps Kbps Cells Sts 2/0 1 0 5 PVC SAAL 155000 155000 UP 2/0 2 0 16 PVC ILMI 155000 155000 UP 2/0.2 101 0 50 PVC SNAP 155000 155000 UP 2/0.2 102 0 60 PVC SNAP 155000 155000 DOWN 2/0.2 104 0 80 PVC SNAP 155000 155000 UP 2/0 hello 0 99 PVC SNAP 1000
|
Monitoring and Maintaining PPPoE Service Selection
To monitor and maintain PPPoE service selection, perform the following steps.
1.
clear
pppoe
derived
group
group-name
2.
debug
pppoe
events
[rmac remote-mac-address | interface type number [vc {[vpi /]vci | vc-name}] [vlan vlan-id]]
3.
debug
radius
[brief | hex]
DETAILED STEPS
Step 1 |
clear
pppoe
derived
group
group-name
Clears the cached PPPoE configuration of a PPPoE profile and forces the PPPoE profile to reread the configuration from the assigned subscriber profile. Example: Router# clear pppoe derived group group1 |
Step 2 |
debug
pppoe
events
[rmac remote-mac-address | interface type number [vc {[vpi /]vci | vc-name}] [vlan vlan-id]] (Optional) Displays PPPoE protocol messages about events that are part of normal session establishment or shutdown. Use this command to monitor the exchange of PPPoE service names during call setup. Example: Router# debug pppoe events interface atm 0/0.0 vc 101 PPPoE protocol events debugging is on Router# 00:41:55:PPPoE 0:I PADI R:00b0.c2e9.c470 L:ffff.ffff.ffff 0/101 ATM0/1/0.10 00:41:55:PPPoE 0:O PADO, R:00b0.c2e9.c470 L:0001.c9f0.0c1c 0/101 ATM0/1/0.10 00:41:55:PPPoE 0:I PADR R:00b0.c2e9.c470 L:0001.c9f0.0c1c 0/101 ATM0/1/0.10 00:41:55:PPPoE :encap string prepared 00:41:55:[3]PPPoE 3:Access IE handle allocated 00:41:55:[3]PPPoE 3:pppoe SSS switch updated 00:41:55:[3]PPPoE 3:AAA unique ID allocated 00:41:55:[3]PPPoE 3:No AAA accounting method list 00:41:55:[3]PPPoE 3:Service request sent to SSS 00:41:55:[3]PPPoE 3:Created R:0001.c9f0.0c1c L:00b0.c2e9.c470 0/101 ATM0/1/0.10 00:41:55:[3]PPPoE 3:State REQ_NASPORT Event MORE_KEYS 00:41:55:[3]PPPoE 3:O PADS R:00b0.c2e9.c470 L:0001.c9f0.0c1c 0/101 ATM0/1/0.10 00:41:55:[3]PPPoE 3:State START_PPP Event DYN_BIND 00:41:55:[3]PPPoE 3:data path set to PPP 00:41:57:[3]PPPoE 3:State LCP_NEGO Event PPP_LOCAL 00:41:57:PPPoE 3/SB:Sent vtemplate request on base Vi2 00:41:57:[3]PPPoE 3:State CREATE_VA Event VA_RESP 00:41:57:[3]PPPoE 3:Vi2.1 interface obtained 00:41:57:[3]PPPoE 3:State PTA_BIND Event STAT_BIND 00:41:57:[3]PPPoE 3:data path set to Virtual Acess 00:41:57:[3]PPPoE 3:Connected PTA |
Step 3 |
debug
radius
[brief | hex] (Optional) Displays information associated with RADIUS. Use this command to monitor the transactions between the router and the RADIUS server. Example: Router# debug radius Radius protocol debugging is on Radius packet hex dump debugging is off Router# 00:02:50: RADIUS: ustruct sharecount=3 00:02:50: Radius: radius_port_info() success=0 radius_nas_port=1 00:02:50: RADIUS: Initial Transmit ISDN 0:D:23 id 0 10.0.0.0:0000, Accounting-Request, len 358 00:02:50: RADIUS: NAS-IP-Address [4] 6 10.0.0.0 00:02:50: RADIUS: Vendor, Cisco [26] 19 VT=02 TL=13 ISDN 0:D:23 00:02:50: RADIUS: NAS-Port-Type [61] 6 Async 00:02:50: RADIUS: User-Name [1] 12 "5559999999" 00:02:50: RADIUS: Called-Station-Id [30] 7 "52981" 00:02:50: RADIUS: Calling-Station-Id [31] 12 "5559999999" 00:02:50: RADIUS: Acct-Status-Type [40] 6 Start 00:02:50: RADIUS: Service-Type [6] 6 Login 00:02:50: RADIUS: Vendor, Cisco [26] 27 VT=33 TL=21 h323-gw-id=5300_43. 00:02:50: RADIUS: Vendor, Cisco [26] 55 VT=01 TL=49 h323-incoming-conf-id=8F3A3163 B4980003 0 29BD0 00:02:50: RADIUS: Vendor, Cisco [26] 31 VT=26 TL=25 h323-call-origin=answer 00:02:50: RADIUS: Vendor, Cisco [26] 32 VT=27 TL=26 h323-call-type=Telephony 00:02:50: RADIUS: Vendor, Cisco [26] 57 VT=25 TL=51 h323-setup-time=*16:02:48.681 PST Fri Dec 31 1999 00:02:50: RADIUS: Vendor, Cisco [26] 46 VT=24 TL=40 h323-conf-id=8F3A3163 B4980003 0 29BD0 00:02:50: RADIUS: Acct-Session-Id [44] 10 "55559999" 00:02:50: RADIUS: Delay-Time [41] 6 0 00:02:51: RADIUS: Received from id 0 0.0.000.0:0000, Accounting-response, len 20 00:02:51: %ISDN-6-CONNECT: Interface Serial0:22 is now connected to 5559000000 00:03:01: RADIUS: ustruct sharecount=3 00:03:01: Radius: radius_port_info() success=0 radius_nas_port=1 00:03:01: RADIUS: Initial Transmit ISDN 0:D:23 id 1 0.0.000.0:0000, Access-Request, len 171 00:03:01: RADIUS: NAS-IP-Address [4] 6 10.x.y.z 00:03:01: RADIUS: Vendor, Cisco [26] 19 VT=02 TL=13 ISDN 0:D:23 00:03:01: RADIUS: NAS-Port-Type [61] 6 Async 00:03:01: RADIUS: User-Name [1] 8 "123456" 00:03:01: RADIUS: Vendor, Cisco [26] 46 VT=24 TL=40 h323-conf-id=8F3A3163 B4980003 0 29BD0 00:03:01: RADIUS: Calling-Station-Id [31] 12 "555999999" 00:03:01: RADIUS: User-Password [2] 18 * 00:03:01: RADIUS: Vendor, Cisco [26] 36 VT=01 TL=30 h323-ivr-out=transactionID:0 00:03:01: RADIUS: Received from id 0 0.0.000.0 1:1823, Access-Accept, len 115 00:03:01: RADIUS: Service-Type [6] 6 Login 00:03:01: RADIUS: Vendor, Cisco [26] 29 VT=101 TL=23 h323-credit-amount=45 00:03:01: RADIUS: Vendor, Cisco [26] 27 VT=102 TL=21 h323-credit-time=33 00:03:01: RADIUS: Vendor, Cisco [26] 26 VT=103 TL=20 h323-return-code=0 00:03:01: RADIUS: Class [25] 7 6C6F63616C 00:03:01: RADIUS: saved authorization data for user 62321E14 at 6233D258 00:03:13: %ISDN-6-DISCONNECT: Interface Serial0:22 disconnected from 5559000000, call lasted 22 seconds 00:03:13: RADIUS: ustruct sharecount=2 00:03:13: Radius: radius_port_info() success=0 radius_nas_port=1 00:03:13: RADIUS: Sent class "local" at 6233D2C4 from user 62321E14 00:03:13: RADIUS: Initial Transmit ISDN 0:D:23 id 0 0.0.000.0:0000, Accounting-Request, len 775 00:03:13: RADIUS: NAS-IP-Address [4] 6 10.0.0.0 00:03:13: RADIUS: Vendor, Cisco [26] 19 VT=02 TL=13 ISDN 0:D:23 00:03:13: RADIUS: NAS-Port-Type [61] 6 Async 00:03:13: RADIUS: User-Name [1] 8 "123456" 00:03:13: RADIUS: Called-Station-Id [30] 7 "52981" 00:03:13: RADIUS: Calling-Station-Id [31] 12 "5559000000" 00:03:13: RADIUS: Acct-Status-Type [40] 6 Stop 00:03:13: RADIUS: Class [25] 7 6C6F63616C 00:03:13: RADIUS: Undebuggable [45] 6 00000001 00:03:13: RADIUS: Service-Type [6] 6 Login 00:03:13: RADIUS: Vendor, Cisco [26] 27 VT=33 TL=21 h323-gw-id=5300_43. 00:03:13: RADIUS: Vendor, Cisco [26] 55 VT=01 TL=49 h323-incoming-conf-id=8F3A3163 B4980003 0 29BD0 00:03:13: RADIUS: Vendor, Cisco [26] 31 VT=26 TL=25 h323-call-origin=answer 00:03:13: RADIUS: Vendor, Cisco [26] 32 VT=27 TL=26 h323-call-type=Telephony 00:03:13: RADIUS: Vendor, Cisco [26] 57 VT=25 TL=51 h323-setup-time=*16:02:48.681 PST Fri Dec 31 1999 00:03:13: RADIUS: Vendor, Cisco [26] 59 VT=28 TL=53 h323-connect-time=*16:02:48.946 PST Fri Dec 31 1999 00:03:13: RADIUS: Vendor, Cisco [26] 62 VT=29 TL=56in=0 00:03:13: RADIUS: Vendor, Cisco [26] 23 VT=01 TL=17 pre-bytes-out=0 00:03:13: RADIUS: Vendor, Cisco [26] 21 VT=01 TL=15 pre-paks-in=0 00:03:13: RADIUS: Vendor, Cisco [26] 22 VT=01 TL=16 pre-paks-out=0 00:03:13: RADIUS: Vendor, Cisco [26] 22 VT=01 TL=16 nas-rx-speed=0 00:03:13: RADIUS: Vendor, Cisco [26] 22 VT=01 TL=16 nas-tx-speed=0 00:03:13: RADIUS: Delay-Time [41] 6 0 00:03:13: RADIUS: Received from id 0 0.0.000.0:0000, Accounting-response, len 20 h323-disconnect-time=*16:03:11.306 PST Fri Dec 31 1999 00:03:13: RADIUS: Vendor, Cisco [26] 32 VT=30 TL=26 h323-disconnect-cause=10 00:03:13: RADIUS: Vendor, Cisco [26] 28 VT=31 TL=22 h323-voice-quality=0 00:03:13: RADIUS: Vendor, Cisco [26] 46 VT=24 TL=40 h323-conf-id=8F3A3163 B4980003 0 29BD0 00:03:13: RADIUS: Acct-Session-Id [44] 10 "00000000" 00:03:13: RADIUS: Acct-Input-Octets [42] 6 0 00:03:13: RADIUS: Acct-Output-Octets [43] 6 88000 00:03:13: RADIUS: Acct-Input-Packets [47] 6 0 00:03:13: RADIUS: Acct-Output-Packets [48] 6 550 00:03:13: RADIUS: Acct-Session-Time [46] 6 22 00:03:13: RADIUS: Vendor, Cisco [26] 30 VT=01 TL=24 subscriber=RegularLine 00:03:13: RADIUS: Vendor, Cisco [26] 35 VT=01 TL=29 h323-ivr-out=Tariff:Unknown 00:03:13: RADIUS: Vendor, Cisco [26] 22 VT=01 TL=16 pre-bytes- The following is sample output from the debug radius brief command: Example: Router# debug radius brief Radius protocol debugging is on Radius packet hex dump debugging is off Radius protocol in brief format debugging is on 00:05:21: RADIUS: Initial Transmit ISDN 0:D:23 id 0 00.0.0.0:0000, Accounting-Request, len 358 00:05:21: %ISDN-6-CONNECT: Interface Serial0:00 is now connected to 5559000000 00:05:26: RADIUS: Retransmit id 6 00:05:31: RADIUS: Tried all servers. 00:05:31: RADIUS: No valid server found. Trying any viable server 00:05:31: RADIUS: Tried all servers. 00:05:31: RADIUS: No response for id 7 00:05:31: RADIUS: Initial Transmit ISDN 0:D:00 id 0 00.0.0.0:0000, Access-Request, len 171 00:05:36: RADIUS: Retransmit id 8 00:05:36: RADIUS: Received from id 0 0.0.000.0:0000, Access-Accept, len 115 00:05:47: %ISDN-6-DISCONNECT: Interface Serial0:22 disconnected from 5559000000, call lasted 26 seconds 00:05:47: RADIUS: Initial Transmit ISDN 0:D:00 id 0 00.0.0.0:0000, Accounting-Request, len 775 00:05:47: RADIUS: Received from id 0 0.0.000.0:0000, Accounting-response, len 20 The following example shows debug radius hex command output: Example: Router# debug radius hex Radius protocol debugging is on Radius packet hex dump debugging is on Router# 17:26:52: RADIUS: ustruct sharecount=3 17:26:52: Radius: radius_port_info() success=0 radius_nas_port=1 17:26:52: RADIUS: Initial Transmit ISDN 0:D:00 id 0 00.0.0.0:0000, Accounting-Request, len 361 17:26:52: Attribute 4 6 01081D03 17:26:52: Attribute 26 19 00000009020D4953444E20303A443A3233 17:26:52: Attribute 61 6 00000000 17:26:52: Attribute 1 12 34303835323734323036 17:26:52: Attribute 30 7 3532393831 17:26:52: Attribute 31 12 34303835323734323036 17:26:52: Attribute 40 6 00000001 17:26:52: Attribute 6 6 00000001 17:26:52: Attribute 26 27 000000092115683332332D67772D69643D353330305F34332E 17:26:52: Attribute 26 57 000000090133683332332D696E636F6D696E672D636F6E662D69643D3846334133313633204234393830303046 20302033424537314238 17:26:52: Attribute 26 31 000000091A19683332332D63616C6C2D6F726967696E3D616E73776572 17:26:52: Attribute 26 32 000000091B1A683332332D63616C6C2D747970653D54656C6570686F6E79 17:26:52: Attribute 26 56 000000091932683332332D73657475702D74696D653D2A30393A32363A35322E3838302050535420536174204A 616E20312032303030 17:26:52: Attribute 26 48 00000009182A683332332D636F6E662D69643D3846334133313633204234393830303046203020334245373142 38 :26:52: Attribute 44 10 3030303030303035 17:26:52: Attribute 41 6 00000000 17:26:52: %ISDN-6-CONNECT: Interface Serial0:22 is now connected to 0000000000 17:26:52: RADIUS: Received from id 10 10.0.0.1:1824, Accounting-response, len 20 17:27:01: RADIUS: ustruct sharecount=3 17:27:01: Radius: radius_port_info() success=0 radius_nas_port=1 17:27:01: RADIUS: Initial Transmit ISDN 0:D:23 id 11 10.0.0.0:1823, Access-Request, len 173 17:27:01: Attribute 4 6 01081D03 17:27:01: Attribute 26 19 00000009020D4953444E20303A443A3233 17:27:01: Attribute 61 6 00000000 17:27:01: Attribute 1 8 313233343536 17:27:01: Attribute 26 48 00000009182A683332332D636F6E662D69643D3846334133313633204234393830303046203020334245373142 38 17:27:01: Attribute 31 12 34303835323734323036 17:27:01: Attribute 2 18 C980D8D0E9A061B3D783C61AA6F27214 17:27:01: Attribute 26 36 00000009011E683332332D6976722D6F75743D7472616E73616374696F6E49443A33 17:27:01: RADIUS: Received from id 11 0.0.000.0:0000, Access-Accept, len 115 17:27:01: Attribute 6 6 00000001 17:27:01: Attribute 26 29 000000096517683332332D6372656469742D616D6F756E743D3435 17:27:01: Attribute 26 27 000000096615683332332D6372656469742D74696D653D3333 17:27:01: Attribute 26 26 000000096714683332332D72657475726E2D636F64653D30 17:27:01: Attribute 25 7 6C6F63616C 17:27:01: RADIUS: saved authorization data for user 61AA0698 at 6215087C 17:27:09: %ISDN-6-DISCONNECT: Interface Serial0:22 disconnected from 5559999999, call lasted 17 seconds 17:27:09: RADIUS: ustruct sharecount=2 17:27:09: Radius: radius_port_info() success=0 radius_nas_port=1 17:27:09: RADIUS: Sent class "local" at 621508E8 from user 61AA0698 17:27:09: RADIUS: Initial Transmit ISDN 0:D:23 id 12 0.0.000.0:0000, Accounting-Request, len 776 17:27:09: Attribute 4 6 01081D03 17:27:09: Attribute 26 19 00000009020D4953444E20303A443A3233 17:27:09: Attribute 61 6 00000000 17:27:09: Attribute 1 8 313233343536 17:27:09: Attribute 30 7 3532393831 17:27:09: Attribute 31 12 34303835323734323036 17:27:09: Attribute 40 6 00000002 17:27:09: Attribute 25 7 6C6F63616C 17:27:09: Attribute 45 6 00000001 17:27:09: Attribute 6 6 00000001 17:27:09: Attribute 26 27 000000092115683332332D67772D69643D353330305F34332E 17:27:09: Attribute 26 57 000000090133683332332D696E636F6D696E672D636F6E662D69643D3846334133313633204234393830303046 20302033424537314238 17:27:09: Attribute 26 31 000000091A19683332332D63616C6C2D6F726967696E3D616E73776572 17:27:09: Attribute 26 32 000000091B1A683332332D63616C6C2D747970653D54656C6570686F6E79 17:27:09: Attribute 26 56 000000091932683332332D73657475702D74696D653D2A30393A32363A35322E3838302050535420536174204A 616E20312032303030 17:27:09: Attribute 26 58 000000091C34683332332D636F6E6E6563742D74696D653D2A30393A32363A35322E3930372050535420536174 204A616E20312032303030 17:27:09: Attribute 26 61 000000091D37683332332D646973636F6E6E6563742D74696D653D2A30393A32373A31302E3133372050535420 536174204A616E20312032303030 17:27:09: Attribute 26 32 000000091E1A683332332D646973636F6E6E6563742D63617573653D3130 17:27:09: Attribute 26 28 000000091F16683332332D766F6963652D7175616C6974793D30 17:27:09: Attribute 26 48 00000009182A683332332D636F6E662D69643D3846334133313633204234393830303046203020334245373142 38 17:27:09: Attribute 44 10 3030303030303035 17:27:09: Attribute 42 6 00000000 17:27:09: Attribute 43 6 00012CA0 17:27:09: Attribute 47 6 00000000 17:27:09: Attribute 48 6 000001E1 17:27:09: Attribute 46 6 00000011 17:27:09: Attribute 26 30 000000090118737562736372696265723D526567756C61724C696E65 17:27:09: Attribute 26 35 00000009011D683332332D6976722D6F75743D5461726966663A556E6B6E6F776E 17:27:09: Attribute 26 22 0000000901107072652D62797465732D696E3D30 17:27:09: Attribute 26 23 0000000901117072652D62797465732D6F75743D30 17:27:09: Attribute 26 21 00000009010F7072652D70616B732D696E3D30 17:27:09: Attribute 26 22 0000000901107072652D70616B732D6F75743D30 17:27:09: Attribute 26 22 0000000901106E61732D72782D73706565643D30 17:27:09: Attribute 26 22 0000000901106E61732D74782D73706565643D30 17:27:09: Attribute 41 6 00000000 17:27:09: RADIUS: Received from id 12 10.0.0.1:1824, Accounting-response, len 20
|
Configuration Examples for PPPoE Service Selection
- Example PPPoE Service Selection with ATM QoS and Tunneling Services
- Example PPPoE Service Selection with Tunneling Services
Example PPPoE Service Selection with ATM QoS and Tunneling Services
In the following example, three services are configured: gold-isp-A, silver-isp-A, and isp-xyz. The gold and silver services are forwarded onto the same tunnel, but the ATM PVCs between the LAC and DSLAM is set up with different QoS parameters depending on the level of service chosen. The isp-xyz service offers users access to the services of the xyz Internet service provider.
In this example, the subscriber profile is configured locally on the PPPoE server.
RADIUS Service Profile Configuration
gold-isp-A Password = "cisco", User-Service-type = Outbound-User Tunnel-Assignment-Id = nrp1-3, Cisco-Avpair = "vpdn:tunnel-id=nrp1-3", Cisco-Avpair = "vpdn:tunnel-type=l2tp", Cisco-Avpair = "vpdn:ip-addresses=10.1.1.4", Cisco-Avpair = "atm:peak-cell-rate =2500", Cisco:Cisco-Avpair = "atm:sustainable-cell-rate =400" silver-isp-A Password = "cisco", User-Service-type = Outbound-User Cisco-Avpair = "vpdn:tunnel-id=nrp1-3", Cisco-Avpair = "vpdn:tunnel-type=l2tp", Cisco-Avpair = "vpdn:ip-addresses=10.1.1.4", Cisco:Cisco-Avpair = "atm:peak-cell-rate =1500", Cisco:Cisco-Avpair = "atm:sustainable-cell-rate =200" isp-xyz Password = "cisco", User-Service-type = Outbound-User Cisco-Avpair = "vpdn:tunnel-id=aol", Cisco-Avpair = "vpdn:tunnel-type=l2tp", Cisco-Avpair = "vpdn:ip-addresses=10.1.1.5", Cisco:Cisco-Avpair = "atm:peak-cell-rate =1000", Cisco:Cisco-Avpair = "atm:sustainable-cell-rate =150"
PPPoE Server Configuration
! ! Configure the AAA default authorization method aaa new-model aaa authorization network default local ! !subscriber authorization enable ! Configure the subscriber profile policy-map type service listA pppoe service gold-isp-A pppoe service silver-isp-A pppoe service isp-xyz ! ! Configure the PPPoE profile bba-group pppoe group-A virtual-template 1 sessions per-vc limit 5 service profile listA ! Attach the PPPoE profile to a PVC interface atm0/0.0 pvc 2/200 protocol PPPoE group group-A !
Example PPPoE Service Selection with Tunneling Services
In the following example, PPPoE service selection is used to provide tunneling services only. In this example, the subscriber profile is configured on the RADIUS server.
RADIUS Service Profile Configuration
tunnel-to-cust1 Password = "cisco", User-Service-type = Outbound-User Tunnel-Assignment-Id = nrp1-3, Cisco-Avpair = "vpdn:tunnel-id=nrp1-3", Cisco-Avpair = "vpdn:tunnel-type=l2tp", Cisco-Avpair = "vpdn:ip-addresses=10.1.1.4", tunnel-to-cust2 Password = "cisco", User-Service-type = Outbound-User Cisco-Avpair = "vpdn:tunnel-id=xyz", Cisco-Avpair = "vpdn:tunnel-type=l2tp", Cisco-Avpair = "vpdn:ip-addresses=10.1.1.5", tunnel-to-cust3 Password = "cisco", User-Service-type = Outbound-User Cisco-Avpair = "vpdn:tunnel-id=aol", Cisco-Avpair = "vpdn:tunnel-type=l2tp", Cisco-Avpair = "vpdn:ip-addresses=10.1.1.6",
RADIUS Subscriber Profile Configuration
customer-tunnels Password = "cisco", User-Service-type = Outbound-User Cisco:Cisco-Avpair = "pppoe:service-name=tunnel-to-cust1", Cisco:Cisco-Avpair = "pppoe:service-name=tunnel-to-cust2", Cisco:Cisco-Avpair = "pppoe:service-name=tunnel-to-cust3"
PPPoE Server Configuration
! ! Configure the AAA default authorization method aaa new-model aaa authorization network default group radius ! ! Configure the PPPoE profile bba-group pppoe group-A virtual-template 1 sessions per-vc 5 service profile customer-tunnels ! ! Attach the PPPoE profile to PVCs interface atm0/1/0.10 pvc 2/200 protocol PPPoE group pppoe-group-A ! interface atm0/1/0.10 pvc 3/300 protocol PPPoE group pppoe-group-A
Where to Go Next
If you want to establish PPPoE sessions limits for sessions on a specific permanent virtual circuit or VLAN configured on an L2TP access concentrator, refer to the "Establishing PPPoE Session Limits per NAS Port" module.
If you want to enable an L2TP access concentrator to relay active discovery and service selection functionality for PPPoE over an L2TP control channel to an LNS or tunnel switch, refer to the "Enabling PPPoE Relay Discovery and Service Selection Functionality" module.
If you want to configure the transfer upstream of the Point-to-Point Protocol over X (family of encapsulating communications protocols implementing PPP)(PPPoX) session speed value, refer to the "Configuring Upstream Connections Speed Transfer" module.
If you want to use the Simple Network Management Protocol (SNMP) to monitor PPPoE sessions, refer to the "Monitoring PPPoE Sessions with SNMP" module.
If you want to identify a physical subscribe line for RADIUS communication with a RADIUS server, refer to the "Identifying a Physical Subscriber Line for RADIUS Access and Accounting" module.
If you want to configure a Cisco Subscriber Service Switch, refer to the "Configuring Cisco Subscriber Service Switch Policies" module.
Additional References
Related Documents
Related Topic |
Document Title |
---|---|
RADIUS attributes and configuration |
Cisco IOS XE Security Configuration Guide, Release 2 |
Tunneling configuration |
Cisco IOS XE Dial Technologies Configuration Guide , Release 2 |
Broadband access aggregation concepts, preparing for broadband access aggregation, and configuring PPPoE sessions |
Cisco IOS XE Broadband Access Aggregation and DSL Configuration Guide, Release 2 |
Broadband access commands: complete command syntax, command mode, command history, defaults, usage guidelines, and examples |
Cisco IOS XE Broadband Access Aggregation and DSL Command Reference |
Standards
Standards |
Title |
---|---|
No new or modified standards are supported by this feature. Support for existing standards has not been modified by this feature. |
-- |
MIBs
MIBs |
MIBs Link |
---|---|
No new or modified MIBs are supported by this feature. Support for existing MIBs has not been modified by this feature. |
To locate and download MIBs for selected platforms, Cisco software releases, and feature sets, use Cisco MIB Locator found at the following URL: |
RFCs
RFCs |
Title |
---|---|
RFC 2516 |
A Method for Transmitting PPP over Ethernet (PPPoE), February 1999 |
Technical Assistance
Description |
Link |
---|---|
The Cisco Support website provides extensive online resources, including documentation and tools for troubleshooting and resolving technical issues with Cisco products and technologies. To receive security and technical information about your products, you can subscribe to various services, such as the Product Alert Tool (accessed from Field Notices), the Cisco Technical Services Newsletter, and Really Simple Syndication (RSS) Feeds. Access to most tools on the Cisco Support website requires a Cisco.com user ID and password. |
Feature Information for PPPoE Service Selection
The following table provides release information about the feature or features described in this module. This table lists only the software release that introduced support for a given feature in a given software release train. Unless noted otherwise, subsequent releases of that software release train also support that feature.
Use Cisco Feature Navigator to find information about platform support and Cisco software image support. To access Cisco Feature Navigator, go to www.cisco.com/go/cfn. An account on Cisco.com is not required.
Feature Name |
Releases |
Feature Configuration Information |
---|---|---|
PPPoE Service Selection |
Cisco IOS XE Release 2.1 |
The PPPoE Service Selection feature uses service tags to enable a PPP over Ethernet (PPPoE) server to offer PPPoE clients a selection of services during call setup. You choose one of the services offered, and the service is provided when the PPPoE session becomes active. The following commands were introduced or modified: service profile, pppoe service, virtual-template. |