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Cisco Employee
Cisco Employee



Broadband deployments are complex because of the options you have, varying needs in terms of deployments, the combination of technologies and many other reasons. In this article we'll go over the various designs, options and service deliverables that you can achieve with the ASR9000 BNG solution.


Access models

One of the decissions to be made when running BNG is the type of access that is preferred. There are 2 key options for the ASR9000 which is PPPoE (PPP over Ethernet) or IP sessions. Both can run on single or double tagged subinterfaces.


PPPoE sessions are triggered by the reception of a PADI and IP sessions are created by using DHCP as a session trigger.

In XR4.2.1 we can also use the "packet trigger" which means that an unclassified L3 address can be used to start a new session.


Also one has to decide on the Access interface, whether that is a single physical interface or access via bundles with multiple members. When choosing bundles the next decission is whether the members run in an active/active mode (that is all members are forwarding traffic) or in an active standby mode (whereby there is one link not forwarding traffic and only taking over when one of the member(s) fails).


Bundles vs Phyiscal interfaces


In the ASR9000 the use of a phyiscal interface, whether that be a GigabitEthernet or a TenGigabitEthernet interface are terminated on the linecard, this significantly increases the scale as effectively every linecard becomes its own controller of the sessions.

When you are running bundles, the sessions are then maintained on the RSP.


The LC's currently have their own Control Policy Engine, PPP manager and AAA processes. But they lack IGMP and LI today. This means that if you are planning to use LI or IGMP or parameterized QOS LC based subscribers should not be the choice for you.


You can use bundle interfaces with one member and disabling LACP to pull the subs to the RSP so that you have access to these features:


interface GigabitEthernet0/0/0/0

bundle id 100 mode on


When you are using bundle interfaces, all features enabled on the subscriber are programmed to the NP's where the bundle has members on.

So running a bundle with 2 members effectively creates the subscriber on both NPU's for those members, because of the phenomenal failover support it has.

For downstream loadbalancing we can use destination based hashing, which is the subscriber's ip address, so we always hash the traffic from one subscriber over 1 member, but the subscribers would be spread over the members based on their destination address.


The following configuration takes care of that:

interface Bundle-Ether100

bundle load-balancing hash dst-ip


When one member fails, the traffic is carried over to the other member seemlessly.

For the upstream direction, we can't control how the traffic arrives to us, which is controlled by the access layer device, whether that be your metro device or DSLAM.


Linecard based subscribers

This is an XR 5.1.1 deliverable. LC subs will increase the scale even further as it distributed the control plane to the LC as opposed to the RSP.


Hardware requirements

The hardware you require for BNG on the ASR9000 is:

  • Any typhoon linecard such as the A9K-MOD80-SE, A9K-24x10, 36x10 and MOD160.
  • A9K-RSP440-SE


Note that for both the RSP and the linecard we need to have the "SE" or Service Edge variant.

Also the ASR9001 will support BNG.


Trident linecards are not supported for subscriber termination, but they can be used as core facing linecard for transport


The MOD80 is a 2NP based linecard. Per NP we support 32k sessions with 64k per linecard.

Per Port we support up to 8K sessions when they are running QOS. This because of the QOS architecture within the NP that won't allow more then 8k parent shapers per phyiscal port. (that restriction is partially lifted in XR4.3.1 which allows for QOS chunk allocation more dynamically. You still have 32k parent shapers, but you can instruct a subinterface to use a chunk. This means a limitation of 8k per vlan, 32k per NPU)


These retrictions apply regardless of whether you are using LC or RSP based subscribers.


All linecards that run BNG need to be of the Typhoon kind (NP4). Your core facing interfaces if not running BNG can be Trident based or SIP700 based. However if you are using L2TP, then your core facing LC's need to be NP4 also. This is because the L2TP decap is not implemented in SIP or Trident which is handled by the core facing LC in the downstream direction.



Radius Source Ports

Each LC is assigned a source port range for radius, so while all LC's present themselves as a single NAS-ID, the source ports they are using effectively identify the node within the system. This is transparent for your use and nothing needs to be configured for that.

However it is imperative that your radius server supports extended source-ports (so the combination of source-port + radius-request-ID) defines a unique request. This is the same in IOS otherwise you can only support a call window of 256 (as the radius ID is only an 8 bit field). So check your radius-server capability!


For example see this radius request received on a radius-server:

Tue Apr 5 16:55:45 2011: [17224] message received from code=4, length=361

Tue Apr 5 16:55:45 2011: [17224] Acct-Interim-Interval = 60

Tue Apr 5 16:55:45 2011: [17224] Acct-Status-Type = Stop

Tue Apr 5 16:55:45 2011: [17224] Cisco-avpair = "if-handle=167774432"

Tue Apr 5 16:55:45 2011: [17224] Cisco-avpair = "client-mac-address=0010.9441.0001"

Tue Apr 5 16:55:45 2011: [17224] Acct-Session-Id = "00000054“


This radius (accounting) request was sent from UDP Port 49080 and its radiusID is number 12

You can check in LPTS in IOS-XR where that source port is mapping to:


RP/0/RSP1/CPU0:A9K-BNG#show lpts pifib hardware entry br location 0/1/CPU0 | i 49080

Tue Apr 5 17:22:52.941 EST

(VRF:0) any.49080 , any.any         UDP   any         48           deliver 48



If you decode 48 into binary: 48 =======> 0 0 0 0 1 1 0 0 0 0 (Binary of 48)

The "1" represent the RSP's in the middle slot of a 10 slot chassis!


PPPoE vs DHCP/IP-sessions

Broadband access has natively been using PPP based access, which originates from the dial days, whereby modems dialing into a modem-bank/access server allowing the transmission of data packets by encapsulating them in PPP packets. When access evolved to higher speeds using DSL (effectively ATM over the phone line), PPP was still used in the flavor of PPPoA (PPP over ATM).

Now that the aggregation point's uplinks are transitioning from ATM based to Ethernet based and the fact that there is Ethernet directly to the home, PPPoE has made a strong hold in the access layer.

Still with DSL in the first mile, DSLAM's may convert the PPPoA session into PPPoE towards the aggregator leaving PPP with a (well deserved) strong precense in the access.


In a transition to an all ethernet, there is no need per-se to run PPP at the access. PPPoE requires a client (which nowadays come natively in many operating systems however), which created the opportunity for a more simple approach of direct IP access using DHCP as a signal to trigger the session creation.


Drrivers of PPPoE are:

  • Ability to run multistack, each Layer 3 protocol is negotiated separately via their CP (Control Protocol) during the NCP phase (Network Control Protocol)
  • Authentication natively build in via protocols such as CHAP, PAP, MS-CHAP etc
  • Link control (~negotiable options during LCP)
  • Keepalives
  • Ability to aggregate multiple lines together into a single link such via MLP (Multilink PPP)


IP sessions don't have an authentication natively build in as there is no concept of username/password here, but with BNG deployments there are options now by having the BNG construct a username out of options of the DHCP discover or other fields such as MAC address, access interface, VLAN etc.


First Sign of Life comparison between PPPoE and IPoE sessions


Screen shot 2012-03-15 at 3.47.13 PM.png




Access Interfaces

This is the basic configuration to be setup in order to get PPPoE and IP sessions running.

Note that PPP and IPoE sessions can co-exist on the same parent interface as well as on the same subinterface.


This this is a base configuration example to setup the FSOL handling for PPPoE or IP sessions.

Screen shot 2012-03-15 at 3.48.40 PM.png


Using ambigious vlans

Originally for double tagged traffic, also known is QinQ or QiQ, we had to explicitly configure the inner and outer vlan combination for each possible termination point. In ASR9000/XR we can define ambigious ranges allowing us to specify the outer vlan only and an inner range.

The most common deployment scenario for QIQ is whereby the outer vlan represents the dslam and the inner vlan represents the subscriber, obviously configuring 64k subinterfaces is not very easy to manage and the Ambigious vlan support greatly reduces operational overhead, large configs and provides for much more simplicity:


Configuration example:


interface Bundle-Ether1.50

service-policy type control subscriber PPP_IP_PM1

pppoe enable bba-group default

encapsulation ambiguous    dot1q { any | <vlan range> }

                           dot1ad { any | <vlan range> }

                           dot1q <vlan#> second-dot1q { any | <vlan range> }

                           dot1ad <vlan#> second-dot1q { any | <vlan range> }                          


Screen shot 2012-03-15 at 4.14.34 PM.png



DHCP/IP sessions

PPP sessions have a native keepalive build in. If keepalives are not sent between the BNG and the client, the sessions are automatically torn down. IP sessions don't have a native keepalive mechanism and some implementations opted for an ICMP or ARP keepalive methodology to detect absent IP sessions as opposed to relying on (potentially long) DHCP lease timers.

ASR9000 does not have ICMP or ARP keepalives for IP sessions rather instead we have a different mechanism of lease-proxy which is elaborated on in this section.

Restart handling

Problem domain 1:

IPoE sessions are initiated upon receipt of a DHCP discover and can be terminated prior client’s IP address lease expires/is released by:

  • CoA Account-Logoff/PoD
  • Session Administratively cleared
  • Reload


Need a way to recreate session if client lease is still valid:


Screen shot 2012-03-15 at 4.06.37 PM.png


Once we have marked the Binding in the dhcp proxy on the BNG as "stale" due to one of the reasons mentioned above, a subsequent DHCP request from the client (eg on renew) is NAK'd to the client who will then faill back to a discovery mode upon which we can recreate the session.

Screen shot 2012-03-15 at 4.07.30 PM.png

To support a sort of keepalive mechanism we can shorten the lease time, which will require the session to renew its lease at half the lease time. So we effectively have a keepalive mechanism at half-lease time in this scenario.

This inherently increases the load on the dhcp server because the BNG will forward the renew requests to the dhcp server and when Acknowledged it will maintain the binding and the session.


A smoother solution is the concept of "lease proxy". This means that eventhough the server offers a lease, in this example of 40 minutes, the BNG advertises a lease to the client of a configurable time, in this example 10 minutes.

Every 5 minute interval the client will renew, but now the BNG intercepts and re-acknowledges the lease to the client, as opposed to relying on the dhcp server to ack the renew.

At half the lease time, here 20 minutes, we renew with the dhcp server to maintain proper state.


DHCP lease limits

Lease limit and Lease proxy for DHCP subscribers


Lease limit for a given proxy profile can be specified for:


per remote id:



dhcp ipv4

  profile dhcp-red proxy

  limit lease per-remote-id 1000


per circuit-id:



dhcp ipv4

profile dhcp-green proxy

  limit lease per-circuit-id 1000



per interface:



dhcp ipv4

profile dhcp-blue proxy

  limit lease per-interface 1000


Note that per circuit-id and per remote-id options are confined to any given access

interface. In other words, per circuit id limit on a given access interfaces doesn't affect

or influence the circuit-id limit configured for any other access interface


Lease proxy:

DHCP lease proxy is also known as DHCP split lease.  With this implementation, the DHCP proxy

ie., BNG router will renew the lease of the client without contacting the DHCP server. The

lease proxy value configured is assumed to be lower than the server lease. Following terminologies

are used:


i) Client<->Proxy is the client lease

ii) Proxy<->Server is the proxy lease


ASR9K is the DHCP proxy


Lease proxy benefits include:

a) shorter client lease times and longer proxy lease

b) Proxy can respond faster to renews at the network edge

c) Reduces load on centralized DHCP servers for renewal processing




dhcp ipv4

profile dhcp-red proxy

RP/0/RSP0/CPU0:BNG1(config-dhcpv4-proxy-profile)#lease proxy client-lease-time ?

  <300-4294967295>  Value of lease proxy client-time in seconds


dhcp ipv4

profile dhcp-red proxy

lease proxy client-lease-time 300


Example TAL (Transparent Autologon) use case 1

TAL or transparent autologon is one of the most commonly used access scenarios for IP sessions.

You can authenticate the user on mac address or option 82 information. The following use cases depict on how to set that up with the ASR9000 BNG implementation.

Screen shot 2012-03-15 at 4.48.06 PM.png


Example TAL use case 2

Screen shot 2012-03-15 at 4.48.30 PM.png

IP sessions and security forwarding

When your access interface is configured for IP it by nature can start forwarding IP already. A session that takes a static source ip can start forwarding traffic just fine then.

This could be a security issue and this has been done at the explicit request from some our initial adopters of A9K BNG.


Downstream traffic can only flow on AMBIGUOUS vlans when we have a session since the mapping from destination IP to mac and vlan is only held by the dhcp binding. In UNAMB scenarios, we could technically send traffic down to the sub.


UPstream traffic can be mitigated by either using:

  • uRPF
  • ACL

ACL being a far less pps implication then uRPF.

also uRPF will not necessarily capture all issues, especially when an ip source is chosen in the same range as the unnumbered or designated address of this access interface.


    When you apply an ACL, make sure it allows DHCP to go through.


    Packet trigger or unclassified Source

    This implementation allows for IPoE subscribers to be established based on

    a received packet from an IP source on the access interface when the "unclassified

    source" is enabled.  Typically, the sessions will be restricted to packets originating

    from a particular network. Multiple matching criteria may be specified to match packets

    from discontiguous networks. In addition, the packets may be subject to radius based

    AAA for a successful session bringup. An access interface may be configured to support

    both DHCP and PKT triggered sessions


    In an ideal network, the subscriber would first send an ARP request to the access

    interface and if the packet matching criteria are met, this in itself is a sufficient

    condition to bringup the IPoE session. However, if there is a burst of traffic with

    unique flows, this could overwhelm the BNG router in terms of processing each packet

    to determine if it is a IPoE (PKT) candidate. The software limits the amount of in-flight

    requests to 200. In cases where traffic rates for IPoE-PKT sessions are high (>120 pps) and

    there are also parallel DHCP based sessions creates in progress, it may be desirable to

    configure static policer on the line cards.  Based on testing results, a policer rate of

    200 per LC is shown to handle this stress condition satisfactorily.





    Wed Jun 13 14:20:40.883 PDT

    RP/0/RSP0/CPU0:BNG1(config)#lpts punt police location 0/0/cpu0  protocol unclassified rsp rate 200


    aaa attribute format ip-plus-mac

    format-string length 253 "%s:%s" addr client-mac-address




    interface Bundle-Ether10.41

    ipv4 address

    service-policy type control subscriber ipsub_policy1

    encapsulation dot1q 30

    ipsubscriber ipv4 l2-connected

      initiator dhcp

      initiator unclassified-source





    policy-map type control subscriber ipsub_policy1

    event session-start match-first

      class type control subscriber class-dhcp do-all

       1 activate dynamic-template ipsub_template

       3 authorize aaa list default identifier circuit-id password dhcp123

       5 activate dynamic-template acct-default


      class type control subscriber class-pkt do-until-failure

       1 activate dynamic-template ipsub_template

       3 authorize aaa list default format ip-plus-mac password abc123

       5 activate dynamic-template acct-default







    class-map type control subscriber match-any class-pkt

    match source-address ipv4






    type ipsubscriber ipsub_template

      ipv4 unnumbered Loopback1






    Using Control Polices

    One integral part of the BNG solution in XR is the use of control policies.

    With control policies you are able to manage the sessions life while various events on the session are triggered.

    You can handle these events or ignore them depending on your configuration and deployment needs.

    User authentication/control

    One key action in the control policy is obviously the authentication.

    These can be executed via the command under the event/class:


    • 10 authorize aaa list default identifier source-address-mac password cisco
    • 10 authenticate aaa list default


    Both of these will trigger a RADIUS access-request message, but the difference between the two is with the authorize statement we can compose the username ourselves regardless of what is received on the line, where as the authenticate statement uses the PPP chap or pap username and password received. The authenticate option for that reason only applies to PPP based sessions.


    You can define the username in the authorize statement either inline as per example above or you can construct the username via a "formatted" way:


    Screen shot 2012-03-15 at 4.02.20 PM.png


    Note that an authentication does NOT have to succeed in order for BNG to bring up the session.

    The activation of a dynamic template will create the subscriber interface regardless of the authentication result.

    A failed authentication will result in an unauthenticated state and you'll be able to apply HTTP-redirect or restricted access on the session.



    Nas identification

    Source IP

    Is by default selected of the interface's address that is used to reach the radius-server.

    This is configurable to be overriden from this default.


    RP/0/RSP0/CPU0:A9K-BNG(config)#radius source-interface <interface name>


    Or per default configuration:


    RP/0/RSP0/CPU0:A9K-BNG#show run | i radius-server

    Fri Mar 16 12:40:15.791 EDT

    Building configuration...

    radius-server host auth-port 1645 acct-port 1646

    radius-server attribute list LIST

    RP/0/RSP0/CPU0:A9K-BNG#sh route

    Routing entry for

      Known via "connected", distance 0, metric 0 (connected)

      Installed Feb 22 15:42:37.812 for 3w1d

      Routing Descriptor Blocks

        directly connected, via MgmtEth0/RSP0/CPU0/0

          Route metric is 0

      No advertising protos.


    RP/0/RSP0/CPU0:A9K-BNG#sh run int mgmtEth 0/rsP0/CPU0/0

    Fri Mar 16 12:40:26.121 EDT

    interface MgmtEth0/RSP0/CPU0/0

    ipv4 address




    Thu Mar 15 11:55:12 2012: [18848] NAS-IP-Address =



    Attribute 87 can be filled with the configuration like this:


    aaa attribute format NAS-PORT-ID

    circuit-id plus remote-id


    aaa radius attribute nas-port-id format NAS-PORT-ID



    Attribute 32 is the BNG's hostname, always and only configurable when changing the router's hostname.




    RP/0/RSP0/CPU0:A9K-BNG#sh run | i host

    hostname A9K-BNG



    Thu Mar 15 11:55:12 2012: [18848] NAS-Identifier = "A9K-BNG"



    Attribute 5


    Is computed very flexibly configured on a per session type basis:


    aaa radius attribute nas-port format e <format> [type <0-44>]


    Format (32bits): entered as a string of letters:

    Zero : 0

    One : 1

    Slot : S

    Adapter : A

    Port : P

    (Outer) VLAN Id : V

    Session-Id : U

    Inner VLAN ID: Q





    ETHERNET   15

    PPPOEOE   32







    If type is omitted it will apply and be used for any session without a more specific type definition.


    Control policy Events, Classes and Actions


    The folllowing pictures shows how everything ties together in a control policy:

    Screen shot 2012-03-15 at 4.17.20 PM.png


    The diagram below shows where the various events would be triggered for a PPPoE session.

    Note that the session activate event is only applicable to PPP sessions.


    You need to make sure that the session-start event has a template defined with the lcp paramters

    which are used during LCP.


    Screen shot 2012-03-16 at 11.08.40 AM.png


    the power of the solution, amongst many others, is the differentiation you can do between authentication failures as well as no response,

    so you can act upon a faulty username differently then a radius-server not responding.


    Failover for that reason can be embedded in the control policy like this:


    event session-activate match-first

      class type control subscriber CLASS do-until-failure

       10 activate dynamic-template TPL

       20 authenticate aaa list default


    event authentication-failure

       class ...

       10 "apply http redirect"


    On authentication failure we an apply a layer 4 redirect service while keeping the session active.


    event authentication-no-response

       10 authenticate aaa list failover-list


    If there was no response from radius, we can try a different radius-server list


    Using Class-Maps

    The class map definition allows you to control how the event triggered is handled.

    Either the event is handled for the first class that is matched, or ALL classes for this event are evaluated as part of the event definition directive.



    class-map type control subscriber match-any IP_SUB

    match protocol dhcpv4

    ! The above would match specifically on IP subscribers only


    class-map type control subscriber match-any PPP_SUB

    match protocol ppp

    ! This example would match specifically on PPP subscribers only


    Using these example classes allows you to have a single control policy that can handle events and use different actions per access category.


    Available Match Criteria:

    • Domain name: domain <string>
    • Protocol: protocol { dhcpv4 | ppp }
    • Source address: source-address { ipv4 | mac }
    • User name: username <string>
    • Authentication Status: authen-status { authenticated | unauthenticated }
    • To negate match criteria: not <>


    Available Match policies (as part of the class-map definition):

    •       match-any: match any of match clauses
    •       match-all: match all match clauses


    If you only have 1 match clause in your class-map it obviously doesn't make a difference whether you choose match-all or match-any.


    Also the class-maps allow for very extensive control of the event handling whereby you can handle a particular event differently for an unauthenticated ppp subscriber vs an authenticated ip subscriber or any combination of that of course!


    Handling failed authentications

    When an authentication fails for a subscriber against radius, we can still bring the user up by activating a dynamic template.

    So the order of actions executed during an event is very important along with using do-until-success/failure etc.


    For instance the following actions:

    event session-start do-all

    10 activate dynamic-template TPL

    20 authorize aaa list default mac-address password cisco

    would bring up the subscriber even with failed authentication.


    In this example where the actions are effectively reversed:

    event session-start do-until-failure

    10 authorize aaa list default mac-address password cisco

    20 activate dynamic-template TPL

    would not bring up a user after authentication failure.


    Alternatively, you can pull in the event for authorization failure and disconnect the service like this:

    event authorization-failure do-all

    10 disconnect


    Or you can use the authorization failure to apply HTTP-Redirect and start a timer, so effectively allowing the user to login within that time before he is getting disconnected.


    Account Logon

    If the user failed authentication and has a restricted access service applied, we can force the user to go the web portal to provide credentials and try to login again, pay their bill etc.


    The model is here that the user goes to a web page to provide credentials that are then send via a coa account logon to the BNG.

    The BNG will generate an access request to authenticate using these credentials.


    If it succeeds new attributes can be send in that access-accept to remove the restricted access or HTTP-R service.

    Screen shot 2012-03-16 at 1.22.28 PM.png



    How IP sessions /DHCP interact with AAA

    Screen shot 2012-03-15 at 4.49.09 PM.png






    Address assignment options

    Obviously in order for a subscriber to have access to the network, an address has to be handed out. There are different options available for this that'll be listed out here.

    Local pools (PPPoE)

    When you have PPPoE based sessions, the easiest implementation is to define a local pool from which the addresses are handed out to the subscriber during IPCP


    The associated configuration is:

    pool vrf default ipv4 POOL



    Multiple ranges can be provided and addresses in that range can be excluded.


    Which can be monitored via this command:

    RP/0/RSP0/CPU0:A9K-BNG#show pool ipv4


                  Allocation Summary


    Used: 1

    Excl: 0

    Free: 65278

    Total: 65279

    Utilization: 0%


      Pool         VRF      Used   Excl   Free   Total

    ----------  ----------  -----  -----  -----  -----

          POOL     default      1      0  65278  65279


    The Pool can either be referenced directly on the dynamic template which is activated to the subscriber during its event handling in the control policy like this:


    This is the template that holds the base configuration for subscribers when this template gets activated on the session:


    type ppp TPL

      ppp authentication chap

      ppp ipcp dns

      ppp ipcp peer-address pool POOL

      ipv4 unnumbered Loopback1000


    This template can then be referenced in an event handling of the control policy as with this example:


    policy-map type control subscriber sub

    event session-start match-first

      class type control subscriber CLASS do-until-failure

       10 activate dynamic-template TPL


    Alternatively the POOL can also be referenced via Radius Attributes during the Access-Accept as per following example:


    • With a Cisco-Avpair        Password = "cisco"

          Service-Type = Framed-User,

          Framed-Protocol = PPP,

          Cisco-avpair = "ipv4:addr-pool=POOL",


    • Using an Ascend Attribute (number 218):
         Ascend-Assign-IP-Pool = POOL


    • Using an IETF Attribute (number 88):

              Framed-Pool = POOL


    • Alternatively, but uncontrolled is the use of the Framed-IP-Address magic number which will instruct the NAS to do a "pool pick" from any pool available.


    Using this method of locally defined pools on the BNG is by far preferred because it allows us to create a summary route and advertise the pool in its whole. This reduces significant amount of routing updates, but has the limitation that a full block is assigned to the BNG regardless of whether it needs it or not.


    Pool advertisement

    Can be done via the following methodology:

    First define a summary route for the pool range:


    router static

    address-family ipv4 unicast Null0


    Next inject that summary route into your eg IGP via a redistribution command

    router ospf CORE

    redistribute static


    When users come online they will have a /32 in the routing table which is then followed for forwarding rather then the summary route to NULL0.

    Another "disadvantage" of this methodology is that you'll be drawing all 199.1.x.x traffic to the BNG regardless of whether there is a session or not. However the ingress LC's NPU will drop the packets in hardware in that case.


    Radius based pools (PPPoE)

    Instead of assigning a pool on the BNG, you can also outsource the pool management to a radius-server.

    IT is recommended to have the radius server select a pool per BNG device, this in order to keep the model of summary advertisement.

    If the pool attributes are distributed between different BNG's, you're required to inject the /32's which will put unnecessary burden on your IGP.

    In this case you probably want to consider STUB areas to keep the /32's only floating in your OSPF STUB area and summarize them at the area border.


    Radius based pools rely on the accounting mechanism from AAA to learn whether addresses are in use or not.

    This requires a strong Accounting back end on the radius-server and obviously proper delivery of your AAA records.


    Don't implement radius pools without AAA System accounting.


    Static address assignment (PPPoE/IPoE)

    Requires you most of the times to inject /32's into the IGP for proper routing if not part of a summary.

    The way to achieve this is via the radius attribute Framed-IP-Address (IETF number 8).


    IP sessions

    IP sessions address assignment is done via a DHCP Server. IOS-XR release 4.3.0 will come with an on board dhcp server.

    In today's model the dhcp server is responsible for handing out addresses which are picked based on the "giAddr" field in the dhcp discover which is filed in by the DHCP Proxy component of the ASR9000.

    Static addresses are defined within the dhcp server.


    The advertisement is here more simple since the unnumbered interface to the subscriber session provides the subnet it is serving hence the inclusion of this unnumbered interface in your IGP will take care of the proper routing:


    In this example we set the dhcp server to, the giAddr for pool selection is set to the red value to instruct the dhcp server where to pick an address from. The giAddr selection in this example is based on the dhcp option 60, vendor Class which is matching a hex string.


    dhcp ipv4

    profile AutoSelectGiaddr proxy

      class MATCHALL

       match option 60 hex 68656C6C6F mask 0

       helper-address vrf default giaddr


      class HardPhone1

       match option 60 hex 4861726450686F6E6531 mask 0

       helper-address vrf default giaddr


      class HardPhone2

       match option 60 hex 4861726450686F6E6532 mask 0

       helper-address vrf default giaddr


      relay information option

      relay information policy replace

      relay information option remote-id testme

      relay information option allow-untrusted


    interface Bundle-Ether100.2 proxy profile AutoSelectGiaddr


    This combined with the following template configuration, the subscriber is unnumbered to loopback interface number 12.



    type ipsubscriber IPSUB

      ipv4 unnumbered Loopback12


    Which has then address in the same pool range as the giAddr and the dhcp server will want to set the default-router option to this value.


    RP/0/RSP0/CPU0:A9K-BNG#sh run int lo12

    Fri Mar 16 10:52:33.265 EDT

    interface Loopback12

    ipv4 address


    Including Loopback 12 (passively) in your IGP will provide for proper downstream routing!


    More information on the DHCP configlet is in the BNG training guide


    Applying configuration to a subscriber

    Configuration can be applied to a subscriber via 3 methods and in order of preference from lowest to highest:

    1. Dynamic Template
    2. Radius/Access-Accept (also known as Policy PULL)
    3. COA (also known as Policy PUSH)


    So that means that local template configuration can be overridden by RADIUS, which can be overidden by COA.


    Here are a few examples on how to match a CLI Configuration to a radius attribute, full documentation is available in the XR configuration guide.


    Screen shot 2012-03-15 at 4.44.23 PM.png

    Screen shot 2012-03-15 at 4.44.35 PM.png




    PPP timer configuration

    It is very important for any BNG implementation to properly define your PPP timer configuration to make sure that sessions establish, also under load and that we are not prematurely timing out, or working on establishment while the peer already gave up.


    The picture below shows the different stages of PPP and which timers apply that need evaluation.


    Screen shot 2012-03-16 at 11.10.31 AM.png


    The referenced timers can be configured on the dynamic template for PPP subscribers:


    dynamic-template type ppp <tmpl_name>

    ppp max-configure <#>

         ppp max-failure <#>

         ppp timeout retry <sec>


         ppp lcp delay <sec>

         ppp lcp renegotiation ignore

         ppp authentication { pap | chap | ms-chap }

         keepalives { disable | <sec> }


         ppp max-bad-auth <#>

         ppp timeout authentication <sec>


         ppp ipcp peer-address pool <poolname>

         ppp ipcp mask <mask> 

         ppp ipcp { dns | wins } <server ip>

         ppp ipcp renegotiation ignore


         ipv4 unnumbered <interface>



    Quality of Service

    QOS application to the session can be done via static configuration in the dynamic template, or the policy-map name can be referenced via Cisco AVP's in RADIUS access-accept or COA requests.

    This requires the configuration of the policy-map to be present in the XR configuration.


    QOS can be applied at the port level, vlan level (subinterface)  and at the session level with classes in a hierarchical manner.

    This constitutes the 4 layers of QOS.


    The following pictures shows the basics of the 4 layer QOS:


    Screen shot 2012-03-16 at 11.03.07 AM.png

    Which can be further expanded on in this picture:


    Screen shot 2012-03-16 at 11.03.17 AM.png



    Parameterized QOS

    Parameterized QOS is a very powerful option in ASR9000 BNG. It allows you to construct the policy-map and its values from the AAA server.

    pQOS only requires the class-map definitions to be present in XR configuration.


    You can setup hierarchical policy-maps without a problem using pQOS.


    Note however that if you have defined a static policy-map via configuration to the dynamic template or from radius

    then you cannot override it or modify it with pQOS.

    If you desire to use pQOS the initial policy-map needs to be pQOS'd also.


    You can modify pQOS policies on a per class basis and while the session is active add or remove classes dynamically as you go!!

    To see pQOS in action and the benefits see this video on demand BNG demo on YOUtube


    VSA definition

    Understanding the format of the Vendor Specific Attribute for Parameterized QOS (pQOS).

    VSA(9-1)”qos-policy-in:add-class( <target-specifier>,(<class-list>),<qos-action-params> )”


                             VSA 9,1 is Cisco-Avpair


    sub – The QoS policy attached to the subscriber session. This implies that the CoA/Access-Accept target must be a subscriber session.



    This example identifies the class “class-default” on the parent-policy.


    This example identifies a leaf class “voip”. This class will be added to or removed from a nested child policy specified under the class “class-default” of the policy attached to the target.


    This example specifies a leaf class “voip-1”. This class will be added to or removed from a nested child policy specified under the class “voip-aggregate” of the policy which is in turn nested under “class-default” of the policy attached to the target




                   See this next section on how to map IOS-XR MQC (modular Qos configuration) actions to the parameterized QOS equivalent.


    Supported pQOS actions:


    Screen shot 2012-03-16 at 10.09.19 AM.png



    CLI Equivalent: police <bps> <burst-normal> <burst-max> <burst-size> conform-action <action> exceed-action <action> violate-action <action>


    VSA value: qos-policy-in:add-class(sub,(voip),police(200000,9216,0,0,transmit,drop,drop) )



    CLI Equivalent: shape <shape-rate>

    VSA value: qos-policy-out:add-class(sub,(class-default),shape(14700))




    For complete COA examples check the Change of Authorization document



    Multicast and video distribution


    Coming soon!!



    Call Admission Control

    Unlike IOS, ASR9000/XR BNG has no explicit call admission control configuration as that is natively build into the system.

    When resources are running slow or the system experiences internal back pressure to do slow responses on function calls

    the number of in flight sessions increases which are then throttled back down at the access interface.


    Most of the time you may want to control the number of in flight sessions so you can streamline the number of radius access requests that are being sent to the RADIUS server.


    The way to monitor and control the in flight sessions is via this command :


    RP/0/RSP0/CPU0:A9K-BNG#show pppoe summary total location 0/rsP0/CPU0

    ....<output omitted>...


    Flow Control


    Limit                    2000

    In Flight                   0

    Dropped                     0

    Disconnected                1

    Successful                  9


    Limit means the number of in lfight sessions you want to control on a per node basis. A node constitutes a pppoe processing entity which is either the LC for phyiscal interface based sessions or the RSP when using bundle interfaces. This number is configurable via the followingcommand:

    RP/0/RSP0/CPU0:A9K-BNG(config)#pppoe in-flight-window 2000

    Default value is 200, recommended for RP-based subscribers. Recommended value for LC-based subscribers is 50.


    In Flight is the number of sessions we are currently handling and have not fully established yet. A fully established session is the signal from the session control entity that the subscriber interface is up and forwarding


    Dropped are the sessions when the in flight session number exceeds the Limit set.


    Disconnected how many sessions ahve been disconnected for normal reasons, eg send a PADT etc.


    Successful is the number of sessions that we successfully established over time on this node





    This feature supports throttling of access (authentication and authorization) and accounting records

    that are sent to the radius server. Throttling rate can be configured separately for access

    and accounting requests. When the threshold is reached for a server, no more requests of that type

    will be sent. A retransmit timer is started when the threshold limit is reached. After expiry of

    the retransmit timer, the queue is checked to see if the outstanding requests is less than the

    configured limit. If so, then the request is sent out to the radius server


    AAA throttling can be configured globally or at the server group level. Throttling configured

    for the server group will take precedence




    radius-server throttle access 100 access-timeout 3 accounting 150

    aaa group server radius my-grp

    server auth-port 1812 acct-port 1813

    server auth-port 1812 acct-port 1813

    throttle access 200 access-timeout 3 accounting 120




    Subscriber Services

    Services constitute a set of features under a common umbrella.

    These features are enabled together constituting the service defintion.


    For instance you can allow users to access or deny parts of the network, or modify its qos parameters.


    Services are defined via the dynamic template in IOS-XR.



    dynamic-template type { ppp | ipsubscriber | service } <tmpl_name>



    There are 3 types of templates:

    ppp: for configuration on PPP sessions (both PTA and LAC)

    ipsubscriber: for configuration on IpoE sessions

    service: contains configuration commands for all types of sessions

    Dynamic templates allow for inline modifications, changes take effect immediately on all sessions using template, with the exception: unmutable config options (e.g session IP address)


    The following is an example of a service definition:



    type service SERVICE_1

      service-policy output testme

      ipv4 access-group lab-video ingress


    The following set describes a few RADIUS/COA templates to activate or deactivate services on a subscriber.




    RADIUS attributes set to achieve that operation

    Account Logon

    attribute   44 “<string>”

    attribute 1 "<username>

    Cisco-avpair = "subscriber:password=<subscriber password>

    Cisco-avpair = "subscriber:command=account-logon"

    Account Logoff

    attribute   44 “<string>”

    Cisco-avpair = "subscriber:command=account-logoff"

    Account Update

    attribute   44 “<string>”

    Cisco-avpair = "subscriber:command=account-update”

    <radius   attributes to set/update>

    Service Activate

    attribute   44 “<string>”

    Cisco-avpair = "subscriber:command=activate-service"

    Cisco-avpair = "subscriber:service-name=<service-name>”

    Service De-activate

    attribute   44 “<string>”

    Cisco-avpair =  "subscriber:command=deactivate-service"

    Cisco-avpair = "subscriber:service-name=<service-name>”


    Attribute 44, or accounting session ID is always used for fastest lookup of the subscriber session.

    The subscriber password is a special encoded string by providing a seed authenticator together with a hashed MD5 password of that seed.

    COA tool is available on the forum for Windows, MAC/OSX and Linux.


    Redundancy and fan out

    Redundancy is obviously very important these days and while IOS-XR supports process restart and process crashes without affecting the subscribers there are additional options available to increase your density and protect against failures.


    Cluster and Satellite are part of the ASR9000's nV concept (Network Virtualization).


    Cluster is the concept of binding two physical chassis together into 1 logical unit. The control plane is extended via RSP on board 1 or 10G interfaces while the data plane is extended via 1 or more physical interfaces on the linecards.


    So when building a bundle from the access side, if you link them to each individual chassis you'll have an active active bundle with failover between chassis!


    Also the physical ASR's don't need to be on the same location. Only the control plane extension needs to have minimum latency (~<20msec).


    Screen shot 2012-03-16 at 11.20.05 AM.png


    Screen shot 2012-03-16 at 11.53.40 AM.png



    Allows for port extension into a simple 1RU chassis with large 1G port fan out.

    The Satellite connects via 1 or multiple 10G uplinks ot the ASR9000 host.

    You can statically pin ports to an uplink or share an uplink via a bundle to multiple ports.

    Satellite interfaces appear in teh ASR9000 config as if they were physically on the ASR9000.



    Satellite interconnection options:

    Screen shot 2012-03-16 at 11.56.32 AM.png


    Configuration example:



    satellite 100 •ß define satellite ID

    description my lovely satellite

    type asr9000v


    satellite 101 •ß define satellite

    description your lovely satellite

    type asr9000v


    interface TenGigE 0/2/0/2


       satellite-fabric-link satellite 100


           GigabitEthernet 0/0/0-9



    interface bundle-ethernet 10


       satellite-fabric-link satellite 101


           GigabitEthernet 0/0/10-19


    On top of these bundle interfaces you can enable BNG.



    Cluster and Satellite together


    Screen shot 2012-03-16 at 11.58.21 AM.png


    Wholesale Models

    Most of the documentation here has been talking about locally terminating the subscribers on the BNG for regular access. Obviously there deployment models whereby a provider may like to just provide the initial termination on behalf of the wholesale provider.


    Per access technology there are different options available.


    Screen shot 2012-03-16 at 12.01.56 PM.png



    PPP sessions can either be locally terminated, also known as PTA, or forwarded to the wholesale provider with 2 main options:

    • L2TP tunneling
    • RAMPLS


    IP sessions

    IP sessions only have one option for wholesaling which is inserting the subscribers in a VRF and using MPLS VPN to transport the data traffic to the wholesale provider.


    (Remote Access into MPLS-VPN) Is the concept of terminating the subscriber sesisions locally on the BNG and insert them in a specific vrf. This vrf is a separate routing context and using MPLS-VPN to transport the users traffic to the wholesale provider.


    Layer 2 Tunnelling Protocol is the concept of transporting the PPP session over to the wholesale provider's LNS.

    ASR9000 can only function as LAC which basically means that after authentication we are creating a tunnel or inserting the user into an existing tunnel over to the LNS.


    L2TP has as key advantage that the subscriber's PPP session is sent over to the LNS. This allows the LNS to have full control over the PPP session including authentication.

    RAMPLS doesn't have such an option as the only Authentication stage is done on the BNG one time.

    The concept of "double dip" is a phenomenal extension allowing you to use a local radius server on teh BNG and then contact the wholesale provider's AAA server and merge the profiles together:


    Screen shot 2012-03-16 at 12.12.26 PM.png


    On the ASR9000 BNG you can filter the attributes from the retailer to make sure that they don't override the user's vrf for instance like this:


    radius-server attribute list RETAILER_X_ATTR_LIST

    attribute <accepted or rejected attribute-list>


    aaa group server radius RETAILER_X_SG

    authorization reply { accept | reject } RETAILER_X_ATTR_LIST


    server-private auth-port 1645 acct-port 1646




    This server group referenced can be used in a control policy as an additional authenticate/authorize action under the session-start event for instance.



    High Scale Deployment Best Practices

    If your BNG deployments is high scale, these are some of the best practices to follow:

    ICMP Unreachables

    ICMP unreachables can significantly increase the CPU utilisation on line cards, especially if security access lists are enabled on seubscriber interfaces. You can disable the generation of ICMP unreachables in subscriber access interface configuration or dynamic template configuration:

    ipv4 unreachables disable

    or in radius profile:



    In deployment scenarios with IP unnumbered and loopback interfaces with multiple secondary IP addresses, the ARP table size grows very quickly. Since on subscriber interfaces the MAC to IPv4 mapping is known through either DHCP or PPPoE, ARP entries are not required. On XR release 5.3.3 and later you can prevent the creation of ARP entries associated with subscriber interfaces by configuring:

    subscriber arp scale-mode-enable

    For more information on high scale ARP, refer to:

    Related Information


    Special thanks to Sabrina Pittarel for some of the great visualizations seen in this document

    and Nanjangud Sreekanta Prasad providing packet trigger and dhcp lease limit sections




    Xander Thuijs, CCIE #6775

    Sr. Tech Lead ASR9000

    Level 1
    Level 1

    Dear All,


    Can someone give me config snippet for diameter config on bng? What is the config value in BNG equivalent to below AVP values in the GX-CCA message? or Is there any other way to assign qos attributes?


    Charging-Rule-Install             [1001]                         (M)

         Vendor, 3GENPP                [10415]

         Charging-Rule-Definition     [1003]                         (M)

             Vendor, 3GENPP            [10415]

             Charging Rule Name        [1005]  "HSI_10MB"                 (M)

             CC-service-identifier     [439]    5                         (M)

             Rating group              [432]     3





    Kijush Maharjan
    Level 1
    Level 1

    @r.maharjan Thank you for the information.


    Can anyone help me to get the immediate accounting update for the connected users? is there any configuration to send accounting update as soon as subscribers connet?

    Level 1
    Level 1

    Hi Xander

    We need to achieve the below contention ratios


















    On the uplink from the BNG going up to the CORE is it possible to have sub interfaces for each of the 4 profiles above i.e. 5Mbps,10Mbps,20Mbps and 40Mbps and then cap each of the uplinks to something like this:


    5Mbps customers------Uplink capped to 50Meg meaning that we can have a maximum of 10 customers before they start to experience anything less than the Max bandwidth stipulated. And we can have a maximum of about 80 users for that profile each experiencing 1,1.

    10MBPS customers-----Uplink capped to 100Meg meaning that we can have a maximum of 10 customers before they start to experience anything less than the Max bandwidth stipulated. And we can have a maximum of about 60 users for that profile each experiencing 1.7.

    20 MBPS customers---- Uplink capped to 200Meg meaning that we can have a maximum of 10 customers before they start to experience anything less than the Max bandwidth stipulated. And we can have a maximum of about 80 users for that profile each experiencing 2.6.

    40 MBPS customers---- Uplink capped to 400Meg meaning that we can have a maximum of 10 customers before they start to experience anything less than the Max bandwidth stipulated. And we can have a maximum of about 1000 users for that profile each experiencing 4.0.


    And then have some form of policy based routing to direct the different traffic profiles to the different respective links.

    AS the users in each profile increase there will be some manual intervention to slightly increase the uplink capped bandwidth.


    Is this possible?or kindly Suggest an alternative way that could work

    Level 1
    Level 1

     The MOD80 is a 2NP based linecard. Per NP we support 32k sessions with 64k per linecard.

    Per Port we support up to 8K sessions when they are running QOS. This because of the QOS architecture within the NP that won't allow more then 8k parent shapers per phyiscal port. (that restriction is partially lifted in XR4.3.1 which allows for QOS chunk allocation more dynamically. You still have 32k parent shapers, but you can instruct a subinterface to use a chunk. This means a limitation of 8k per vlan, 32k per NPU)



    How I can instruct a subinterface on ASR to use a chunk?

    I ask to give the link to the document or an example of a configuration.


    We have 2 x ASR9001-S. They were forced to share the load on both ASR

     due to the inability to serve 12,000 customers on one device.


    Currently we have on ASR-1 about 7500-7600  customers, rest customer terminated on ASR-2.


    RP/0/RSP0/CPU0:ASR9000-S-1#show qoshal resource summary np 0 location 0/0/CPU0


    Policy Instances: Ingress 15124 Egress 15128 Total: 30252
    Entities: (L4 level: Queues)
    Level Chunk 0 Chunk 1 Chunk 2 Chunk 3
    L4 7563( 7563/ 7563) 7563( 7563/ 7563) 2( 2/ 2) 0( 0/ 0)
    L3(8Q) 7563( 7563/ 7563) 7566( 7566/ 7566) 2( 2/ 2) 0( 0/ 0)
    L3(16Q) 0( 0/ 0) 0( 0/ 0) 0( 0/ 0) 0( 0/ 0)
    L2 0( 0/ 0) 0( 0/ 0) 2( 2/ 2) 0( 0/ 0)
    L1 0( 0/ 0) 0( 0/ 0) 0( 0/ 0) 0( 0/ 0)
    Policers: Internal 2047(2047) Regular 13077(13077) Parent 0(0) Child 0(0) Total 15124(15124)


    SUMMARY per NP:
    Policy Instances: Ingress 15132 Egress 15126 Total: 30258
    Entities: (L4 level: Queues)
    Level Chunk 0 Chunk 1 Chunk 2 Chunk 3
    L4 7585( 7585/ 7585) 7569( 7569/ 7569) 2( 2/ 2) 0( 0/ 0)
    L3(8Q) 7567( 7567/ 7567) 7566( 7566/ 7566) 2( 2/ 2) 0( 0/ 0)
    L3(16Q) 0( 0/ 0) 0( 0/ 0) 0( 0/ 0) 0( 0/ 0)
    L2 5( 5/ 5) 2( 2/ 2) 2( 2/ 2) 0( 0/ 0)
    L1 7( 7/ 7) 0( 0/ 0) 0( 0/ 0) 0( 0/ 0)
    Level Chunk 0 Chunk 1 Chunk 2 Chunk 3
    L4 7567( 7567/ 7567) 7563( 7563/ 7563) 2( 2/ 2) 0( 0/ 0)
    L3(8Q) 1896( 1896/ 1896) 1894( 1894/ 1894) 2( 2/ 2) 0( 0/ 0)
    L3(16Q) 0( 0/ 0) 0( 0/ 0) 0( 0/ 0) 0( 0/ 0)
    L2 5( 5/ 5) 2( 2/ 2) 2( 2/ 2) 0( 0/ 0)
    L1 7( 7/ 7) 0( 0/ 0) 0( 0/ 0) 0( 0/ 0)
    Policers: Internal 2048(2048) Regular 13349(13349) Parent 0(0) Child 0(0) Total 15397(15397)

    Level Chunk 0 Chunk 1 Chunk 2 Chunk 3
    L4 254( 254/437673) 254( 254/3280329) 254( 254/ 2) 254( 254/ 0)
    L3 256( 256/437655) 256( 256/3280323) 256( 256/ 2) 256( 256/ 0)
    L2 256( 256/ 5) 256( 256/ 2) 256( 256/ 2) 256( 256/ 0)
    L1 64( 64/ 4) 0( 0/ 0) 0( 0/ 0) 0( 0/ 0)
    Level Chunk 0 Chunk 1 Chunk 2 Chunk 3
    L4 15( 15/ 7562) 14( 14/ 7561) 0( 0/ 0) 0( 0/ 0)
    L3 0( 0/ 0) 0( 0/ 0) 0( 0/ 0) 0( 0/ 0)
    L2 0( 0/ 0) 0( 0/ 0) 0( 0/ 0) 0( 0/ 0)
    L1 1( 1/ 2) 0( 0/ 0) 0( 0/ 0) 0( 0/ 0)
    Level Chunk 0 Chunk 1 Chunk 2 Chunk 3
    L4 16( 16/ 0) 0( 0/ 0) 0( 0/ 0) 0( 0/ 0)
    L3 0( 0/ 0) 0( 0/ 0) 0( 0/ 0) 0( 0/ 0)
    L2 0( 0/ 0) 0( 0/ 0) 0( 0/ 0) 0( 0/ 0)
    L1 2( 2/ 5) 0( 0/ 0) 0( 0/ 0) 0( 0/ 0)
    In HW (In Sw/ Ref count) : 72 ( 72 / 15397)



    RP/0/RSP0/CPU0:ASR9000-S-1#show subscriber session all summary location 0/RSP0/CPU0
    Mon Dec 18 22:06:36.447 CET

    Session Summary Information for 0/RSP0/CPU0

    Type PPPoE IPSub IPSub
    (DHCP) (PKT)
    ==== ===== ====== =====

    Session Counts by State:
    initializing 0 0 0
    connecting 0 21 0
    connected 0 2 0
    activated 0 7561 0
    idle 0 0 0
    disconnecting 0 1 0
    end 0 0 0
    Total: 0 7585 0

    Session Counts by Address-Family/LAC:
    in progress 0 23 0
    ipv4-only 0 7562 0
    ipv6-only 0 0 0
    dual-partial-up 0 0 0
    dual-up 0 0 0
    lac 0 0 0
    Total: 0 7585 0


    Now we are use chunk 2 & chunk 3 ?

    Hi Xander,


    Hope you are doing good!

    Since 6.2.x is still not recommended for BNG so we cannot configure a global session limit (CSCuq24454), I was looking at some workarounds and a couple of questions regarding the following example came up:


    bba-group xander
    session-limit 100

    bba-group you
    session-limit 200


    interface TenGigE0/3/0/1.1
     pppoe enable bba-group xander


    interface TenGigE0/3/0/2.1
     pppoe enable bba-group xander

    interface TenGigE0/3/0/2.2
     pppoe enable bba-group you


    interface TenGigE0/3/0/2.3
     pppoe enable bba-group xander

    interface TenGigE0/3/0/2.4
     pppoe enable bba-group you


    1. How many sessions are supported in TenGigE0/3/0/1?
    2. How many sessions are supported in TenGigE0/3/0/2?
    3. How many sessions are supported in TenGigE0/3/0?
    4. If 200 sessions are terminated under TenGigE0/3/0/2.2, is it possible to terminate any sessions in TenGigE0/3/0/1.1?

    Thank you in advance,


    Hi Xander,

    According to "ASR9K BNG RADIUS and COA deployment guide" "trigger a service authorization ( sending access request with username of <service- name> to download a service-proFile from radius server) is not supported as of now (5.1.1 release)".

    Do you know about service-authorization support in later releases? Is it possible to store configuration of services at Radius-server?

    We are using 6.2.3, but BNG doesn't send access-request for the service-name received in access-accept for a user.



    There was a missed VSA Cisco-AVPair += "Method-List=AUTHOR_LIST1" in user profile on Radius-server. Issue was solved after adding Cisco-AVPair += "Method-List=AUTHOR_LIST1" to user profile.


    Cheng Xing
    Level 1
    Level 1

    Hi Xander,

    Thank you for this article.

    Just ask how to pass realm information for LAC connection via VPDN to LNS in ASR9k BNG?

    Can not find command like 

    vpdn-group XXX
    domain XXX




    Level 1
    Level 1



    I have implemented a test BNG setup on XRv9000 (version 6.4.1) in order to do some Lawful Intercept tests of our product. The user is terminated on a "physical" interface (not on a bundle) and the session is successfully established. In this article you mention that LI is currently not supported on LC terminated subscribers.

    When I try to establish a session on a bundle interface I get this error: "Packet received on interface not in database". Does anybody have any info on this?




    Level 1
    Level 1


    I have trouble implementing scheme where one subscriber keeps simultaneous IPoE and PPPoE sesssions. The sessions are in different VLANs (and on different access-interfaces) but have the same MAC-address of subscriber. There are no timeouts neither on PPP nor on IP session.

    This was working flawlessly on ESR10k. With ASR it goes this way:

    Subscriber sets up IPoE session and receives DHCP lease in it.

    Then he sets up PPPoE session.

    Now I see both sessions up (and dhcp server binding too) on ASR filtering by subscriber's MAC.

    But when lease expires on IPoE both IPoE and PPPoE go down.

    The workaround is to disable IPv4 on ethernet interface on client side,

    but it's pretty hard to explain to subscribers that they must switch off IPv4 protocol deep in network settings.

    Is it possible to have IPoE and PPPoE sessions from the same MAC on ASR (software 5.3.3) ?


    Level 1
    Level 1

    I have an odd issue, we've got our ASR9001-S working its handling clients great in a GeoRed config.


    But we've noticed when customers connect it's taking noticeably longer than our old PPPoE Concentrators... After the verifying username and password step on windows complete, the final step sits there for a good 5-20 seconds and then will connect. This isn't the biggest issue, but when we have a session timeout every 24 hours, that means the customers not connecting right back, they lose internet for up to 30-60 seconds which is really bad. 


    Also, I'm starting to suspect that some routers don't like the long delay and are having issues connecting.


    It's not a radius issue as if I hit the radius direct from my windows radius tester it responds in 30ms consistently. Does anyone have any idea what could cause the PPPoE setup to delay like this? Anyone had this experience?

    Level 1
    Level 1

    Hello, cchance01

    I've attributed such delays to IPv6 being ON at client side and not setup at ASR side but may be I'm wrong. You can check it by clearing checkbox of IPv6 protocol on high-speed connection if that is windows os.

    Level 1
    Level 1
    Thanks for the suggestion, Sounds possible, I'll give it a try but that doesn't really explain why it only happens on the ASR and didn't happen on previous BNG's we had.
    Carlos A. Silva
    Level 3
    Level 3

    Hi, Xander:


    Long time!

    Does XRV 9000 6.4.2 support BNG with IPoE? According to release notes it does, but I'm having trouble with a testbed. Everything works, subs sessions are created, etc, except data-plane doesn't work and XRv seems to be dropping packets.


    Maybe it shouldn't work.




    RP/0/RP0/CPU0:BNG#show subscriber session all
    Wed Aug 8 15:49:48.166 UTC
    Codes: IN - Initialize, CN - Connecting, CD - Connected, AC - Activated,
    ID - Idle, DN - Disconnecting, ED - End

    Type Interface State Subscriber IP Addr / Prefix
    LNS Address (Vrf)
    IP:DHCP BE100.ip1 AC (default)
    IP:DHCP BE101.101.ip2 AC (default)
    RP/0/RP0/CPU0:BNG#show controllers dpa statistics global | b Drop
    Wed Aug 8 15:49:50.382 UTC
    Index Drop Count
    185 Destination MAC did not match port MY_MAC or MCAST 1
    252 IPv4 disabled in uIDB 37
    282 IPv4 transmit adjacency 30
    337 L2 ingress UIDB not present 9335


    Level 1
    Level 1


    what can be the reason of random delays in BNG?

    It looks strange when the session is in "disconnecting" state for whole 5 minutes. Also I see COA requests  getting ACKed after 10 seconds or more.

    I have about 9000 IPoE subscribers over BE interface. SW is 5.3.3 and CPU utilization is only about 4% on RSP0.

    How can I fix this?

     Fixed after istallation of SP10 for 5.3.3.

    Level 1
    Level 1

    Hi Xander & All,


    I have issue with IPoE and loadbalancing result when using RP based IPoE session. As mentioned above, load balance is based on dst IP so that the traffic only flowing over 1 interface, thus making PQOS working correct since the policer is implemented on port basis (I have opened ticket to TAC and this is his explanation). However, I see the traffic is too unbalanced between both member of port channel with the ratio more apprx 3:1 shown below:



    RP/0/RSP0/CPU0:#sh bundle bundle-ether 6
    Thu Oct 25 14:37:37.391 WIB

    Status: Up
    Local links <active/standby/configured>: 2 / 0 / 2
    Local bandwidth <effective/available>: 20000000 (20000000) kbps
    MAC address (source): e8ed.f337.803c (Chassis pool)
    Inter-chassis link: No
    Minimum active links / bandwidth: 1 / 1 kbps
    Maximum active links: 64
    Wait while timer: 2000 ms
    Load balancing: Default
    LACP: Operational
    Flap suppression timer: Off
    Cisco extensions: Disabled
    Non-revertive: Disabled
    mLACP: Not configured
    IPv4 BFD: Not configured

    Port Device State Port ID B/W, kbps
    -------------------- --------------- ----------- -------------- ----------
    Te0/1/0/18 Local Active 0x8000, 0x0001 10000000
    Link is Active
    Te0/3/0/0 Local Active 0x8000, 0x0018 10000000
    Link is Active

    RP/0/RSP0/CPU0:TNG-BSD-BNG1-ASR9K#monitor interface be6 Te0/1/0/18 te0/3/0/0
    Thu Oct 25 14:37:46.345 WIB
    TNG-BSD-BNG1-AS Monitor Time: 00:00:00 SysUptime: 1070:05:17

    Interface In(bps) Out(bps) InBytes/Delta OutBytes/Delta
    BE6 411.1M/ 2% 5.8G/ 29% 36.5T/0 433.6T/0
    Te0/1/0/18 219.6M/ 2% 1.6G/ 16% 71.3T/0 724.9T/0
    Te0/3/0/0 191.3M/ 1% 4.2G/ 42% 155.2T/0 2857T/0

    Quit='q', Clear='c', Freeze='f', Thaw='t',
    Next set='n', Prev set='p', Bytes='y', Packets='k'
    (General='g', IPv4 Uni='4u', IPv4 Multi='4m', IPv6 Uni='6u', IPv6 Multi='6m')


    There is only 1 VLAN there:


    RP/0/RSP0/CPU0:TNG-BSD-BNG1-ASR9K#sh bundle load-balancing bundle-ether 6 detail location 0/3/CPU0
    Thu Oct 25 14:40:01.194 WIB

    Type: Ether (L3)
    Members <current/max>: 2/64
    Total Weighting: 2
    Load balance: Default
    Locality threshold: 65
    Avoid rebalancing? False
    Sub-interfaces: 1

    Member Information:
    Port: LON ULID BW
    -------------------- --- ---- --
    Te0/1/0/18 0 0 1
    Te0/3/0/0 1 1 1

    Sub-interface Information:
    Sub-interface Type Load Balance Locality
    Hash Threshold
    ---------------------------- ---- ------------ ---------
    Bundle-Ether6.149 L3 Dst IP 65


    There are more than 6000 session on that bundle shown below which I think is enough number to create a rather more balanced traffic between the 2 links, yet now it is so heavily unbalanced.


    RP/0/RSP0/CPU0:TNG-BSD-BNG1-ASR9K#show subscriber session all | i BE6 | u wc li
    Thu Oct 25 14:41:03.682 WIB


    IPoE interface config is as below


    interface Bundle-Ether6.149
    description VLAN 149
    ipv4 point-to-point
    ipv4 unnumbered Loopback149
    ipv4 verify unicast source reachable-via rx
    arp learning disable
    service-policy type control subscriber IPOE
    bundle load-balancing hash dst-ip
    load-interval 30
    encapsulation dot1q 149
    ipsubscriber ipv4 l2-connected
    initiator dhcp


    Is there anything I could do to solve this?







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