Implementing IPv6 VPN Provider Edge Transport over MPLS
IPv6 VPN Provider Edge (6PE) uses the existing MPLS IPv4 core infrastructure for IPv6 transport. 6PE enables IPv6 sites to communicate with each other over an MPLS IPv4 core network using MPLS label switched paths (LSPs).
This feature relies heavily on multiprotocol Border Gateway Protocol (BGP) extensions in the IPv4 network configuration on the provider edge (PE) router to exchange IPv6 reachability information (in addition to an MPLS label) for each IPv6 address prefix. Edge routers are configured as dual-stack, running both IPv4 and IPv6, and use the IPv4 mapped IPv6 address for IPv6 prefix reachability exchange.
For detailed information about the commands used to configure L2TP functionality, see Cisco IOS XR Routing Command Reference.
Feature History for Implementing 6PE on Cisco IOS XR Software
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Release 3.5.0 |
This feature was introduced. |
Release 3.7.0 |
Support was added for:
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Prerequisites for Implementing 6PE
The following prerequisites are required to implement 6PE:
- To perform these configuration tasks, your Cisco IOS XR software system administrator must assign you to a user group associated with a task group that includes the corresponding command task IDs. All command task IDs are listed in individual command references and in the Cisco IOS XR Task ID Reference Guide.
If you need assistance with your task group assignment, contact your system administrator.
- You must be familiar with MPLS and BGP4 configuration and troubleshooting.
Information About 6PE
To configure the 6PE feature, you should understand the following concepts, which are described in the following sections:
Overview of 6PE
Multiple techniques are available to integrate IPv6 services over service provider core backbones:
- Dedicated IPv6 network running over various data link layers
- Dual-stack IPv4-IPv6 backbone
- Leveraging of an existing MPLS backbone
These solutions are deployed on service providers’ backbones when the amount of IPv6 traffic and the revenue generated are in line with the necessary investments and the risks agreed to. Conditions are favorable for the introduction of native IPv6 service, from the edge, in a scalable way, without any IPv6 addressing restrictions and without putting a well-controlled IPv4 backbone in jeopardy. Backbone stability is key for service providers that recently stabilized their IPv4 infrastructure.
Service providers running an MPLS/IPv4 infrastructure follow the same trends, as several integration scenarios are possible to offer IPv6 services on an MPLS network. Cisco Systems specially developed Cisco 6PE, or, IPv6 Provider Edge Router over MPLS, to meet all of those requirements.
Inter-AS support for 6PE requires support of Border Gateway Protocol (BGP) to enable the address families and to allocate and distribute the PE and ASBR labels.
Benefits of 6PE
Service providers that currently deploy MPLS will experience the following benefits of Cisco 6PE:
- Minimal operational cost and risk—No impact on existing IPv4 and MPLS services.
- Provider edge routers upgrade only—A 6PE router can be an existing PE router or a new one dedicated to IPv6 traffic.
- No impact on IPv6 customer edge routers—The ISP can connect to any customer CE running Static, IGP or EGP.
- Ready for production services—An ISP can delegate IPv6 prefixes.
- IPv6 introduction into an existing MPLS service—6PE routers can be added at any time.
- It is possible to switch up to OC-192 speed in the core.
Deploying IPv6 over MPLS Backbones
Backbones enabled by 6PE (IPv6 over MPLS) allow IPv6 domains to communicate with each other over an MPLS IPv4 core network. This implementation requires no backbone infrastructure upgrades and no reconfiguration of core routers, because forwarding is based on labels rather than on the IP header itself. This provides a very cost-effective strategy for IPv6 deployment.
Additionally, the inherent virtual private network (VPN) and traffic engineering (TE) services available within an MPLS environment allow IPv6 networks to be combined into VPNs or extranets over an infrastructure that supports IPv4 VPNs and MPLS-TE.
IPv6 on the Provider Edge and Customer Edge Routers
Service Provider Edge Routers
6PE is particularly applicable to service providers who currently run an MPLS network. One of its advantages is that there is no need to upgrade the hardware, software, or configuration of the core network, and it eliminates the impact on the operations and the revenues generated by the existing IPv4 traffic. MPLS is used by many service providers to deliver services to customers. MPLS as a multiservice infrastructure technology is able to provide layer 3 VPN, QoS, traffic engineering, fast re-routing and integration of ATM and IP switching.
Customer Edge Routers
Using tunnels on the CE routers is the simplest way to deploy IPv6 over MPLS networks. It has no impact on the operation or infrastructure of MPLS and requires no changes to the P routers in the core or to the PE routers. However, tunnel meshing is required as the number of CEs to connect increases, and it is difficult to delegate a global IPv6 prefix for an ISP.
Figure 21 illustrates the network architecture using tunnels on the CE routers.
Figure 21 IPv6 Using Tunnels on the CE Routers
IPv6 Provider Edge Multipath
Internal and external BGP multipath for IPv6 allows the IPv6 router to load balance between several paths (for example, same neighboring autonomous system (AS) or sub-AS, or the same metric) to reach its destination. The 6PE multipath feature uses multiprotocol internal BGP (MP-IBGP) to distribute IPv6 routes over the MPLS IPv4 core network and to attach an MPLS label to each route.
When MP-IBGP multipath is enabled on the 6PE router, all labeled paths are installed in the forwarding table with MPLS information (label stack) when MPLS information is available. This functionality enables 6PE to perform load balancing.
How to Implement 6PE
This section includes the following implementation procedure:
Configuring 6PE
This task describes how to configure 6PE on PE routers to transport the IPv6 prefixes across the IPv4 cloud.
Be sure to configure 6PE on PE routers participating in both the IPv4 cloud and IPv6 clouds.
Note To learn routes from both clouds, you can use all routing protocols supported on Cisco IOS XR software: BGP, OSPF, IS-IS, EIGRP, RIP, and Static.
SUMMARY STEPS
1. configure
2. router bgp as-number
3. neighbor ip-address
4. address-family ipv6 labeled-unicast
5. exit
6. exit
7. address-family ipv6 unicast
8. allocate-label [ all | route-policy policy_name ]
9. end
or
commit
DETAILED STEPS
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Step 1 |
configure
RP/0/0/CPU0:router# configure |
Enters global configuration mode. |
Step 2 |
router bgp as-number
RP/0/0/CPU0:router(config)# router bgp 1 |
Enters the number that identifies the autonomous system (AS) in which the router resides. Range for 2-byte numbers is 1 to 65535. Range for 4-byte numbers is 1.0 to 65535.65535. |
Step 3 |
neighbor ip-address
RP/0/0/CPU0:router(config-bgp)# neighbor 1.1.1.1 |
Enters neighbor configuration mode for configuring Border Gateway Protocol (BGP) routing sessions. |
Step 4 |
address-family ipv6 labeled-unicast
RP/0/0/CPU0:router(config-bgp-nbr)# address-family ipv6 labeled-unicast |
Specifies IPv6 labeled-unicast address prefixes. Note This option is also available in IPv6 neighbor configuration mode and VRF neighbor configuration mode. |
Step 5 |
exit
RP/0/0/CPU0:router(config-bgp-nbr-af)# exit |
Exits BGP address-family submode. |
Step 6 |
exit
RP/0/0/CPU0:router(config-bgp-nbr)# exit |
Exits BGP neighbor submode. |
Step 7 |
address-family ipv6 unicast
RP/0/0/CPU0:router(config-bgp)# address-family ipv6 unicast |
Specifies IPv6 unicast address prefixes. |
Step 8 |
allocate-label [ all | route-policy policy_name ]
RP/0/0/CPU0:router(config-bgp-af)# allocate-label all |
Allocates MPLS labels for specified IPv4 unicast routes. Note The route-policy keyword provides finer control to filter out certain routes from being advertised to the neighbor. |
Step 9 |
end or commit
RP/0/0/CPU0:router(config-bgp-af)# end or RP/0/0/CPU0:router(config-bgp-af)# commit |
Saves configuration changes.
- When you issue the end command, the system prompts you to commit changes:
Uncommitted changes found, commit them before exiting(yes/no/cancel)?
[cancel]:
– Entering yes saves configuration changes to the running configuration file, exits the configuration session, and returns the router to EXEC mode. – Entering no exits the configuration session and returns the router to EXEC mode without committing the configuration changes. – Entering cancel leaves the router in the current configuration session without exiting or committing the configuration changes.
- Use the commit command to save the configuration changes to the running configuration file and remain within the configuration session.
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Configuration Examples for 6PE
This section includes the following configuration example:
Configuring 6PE on a PE Router: Example
The following sample configuration shows the configuration of 6PE on a PE router:
interface GigabitEthernet0/3/0/0
address-family ipv6 unicast
interface GigabitEthernet0/3/0/0
address-family ipv6 unicast
address-family ipv4 unicast
address-family ipv6 unicast
redistribute isis ipv6-cloud
address-family ipv4 unicast
address-family ipv6 labeled-unicast
Additional References
For additional information related to this feature, refer to the following references:
Related Document
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Cisco IOS XR L2VPN command reference document |
MPLS Virtual Private Network Commands on Cisco IOS XR Software module in Cisco IOS XR MPLS Command Reference |
Cisco CRS router getting started material |
Cisco IOS XR Getting Started Guide |
Information about user groups and task IDs |
Configuring AAA Services on Cisco IOS XR Software module in Cisco IOS XR System Security Configuration Guide |
Standards
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No new or modified standards are supported by this feature, and support for existing standards has not been modified by this feature. |
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Technical Assistance
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http://www.cisco.com/techsupport |