Cisco Systems Network Router 1600R User Manual

OSPF Sham-Link Support for MPLS VPN  
Feature History  
Release  
Modification  
12.2(8)T  
This feature was introduced.  
This document describes how to configure and use a sham-link to connect Virtual Private Network  
(VPN) client sites that run the Open Shortest Path First (OSPF) protocol and share backdoor OSPF links  
in a Multiprotocol Label Switching (MPLS) VPN configuration.  
This document includes the following sections:  
Feature Overview  
Using OSPF in PE-CE Router Connections  
In an MPLS VPN configuration, the OSPF protocol is one way you can connect customer edge (CE) routers  
to service provider edge (PE) routers in the VPN backbone. OSPF is often used by customers that run OSPF  
as their intrasite routing protocol, subscribe to a VPN service, and want to exchange routing information  
between their sites using OSPF (during migration or on a permanent basis) over an MPLS VPN backbone.  
Figure 1 shows an example of how VPN client sites that run OSPF can connect over an MPLS VPN  
backbone.  
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OSPF Sham-Link Support for MPLS VPN  
Feature Overview  
Figure 2  
Backdoor Paths Between OSPF Client Sites  
MPLS VPN Backbone  
Winchester  
10.3.1.7  
PE-3  
10.3.1.2  
Area 1  
Brighton  
PE-1  
10.3.1.6  
PE-2  
10.3.1.5  
Area 1  
Area 1  
Stockholm  
10.3.1.3  
Vienna  
10.3.1.15  
For example, Figure 2 shows three client sites, each with backdoor links. Because each site runs OSPF within  
backdoor links, rather than over the MPLS VPN backbone.  
The following example shows BGP routing table entries for the prefix 10.3.1.7/32 in the PE-1 router in  
Figure 2. This prefix is the loopback interface of the Winchester CE router. As shown in bold in this example,  
the loopback interface is learned via BGP from PE-2 and PE-3. It is also generated through redistribution into  
BGP on PE-1.  
PE-1# show ip bgp vpnv4 all 10.3.1.7  
BGP routing table entry for 100:251:10.3.1.7/32, version 58  
Paths: (3 available, best #2)  
Advertised to non peer-group peers:  
10.3.1.2 10.3.1.5  
Local  
10.3.1.5 (metric 30) from 10.3.1.5 (10.3.1.5)  
Origin incomplete, metric 22, localpref 100, valid, internal  
Extended Community: RT:1:793 OSPF DOMAIN ID:0.0.0.100 OSPF  
RT:1:2:0 OSPF 2  
Local  
10.2.1.38 from 0.0.0.0 (10.3.1.6)  
Origin incomplete, metric 86, localpref 100, weight 32768,  
valid, sourced, best  
Extended Community: RT:1:793 OSPF DOMAIN ID:0.0.0.100 OSPF  
RT:1:2:0 OSPF 2  
Local  
10.3.1.2 (metric 30) from 10.3.1.2 (10.3.1.2)  
Origin incomplete, metric 11, localpref 100, valid, internal  
Extended Community: RT:1:793 OSPF DOMAIN ID:0.0.0.100 OSPF  
RT:1:2:0 OSPF 2  
Within BGP, the locally generated route (10.2.1.38) is considered to be the best route. However, as shown in  
bold in the next example, the VRF routing table shows that the selected path is learned via OSPF with a next  
hop of 10.2.1.38, which is the Vienna CE router.  
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OSPF Sham-Link Support for MPLS VPN  
Feature Overview  
PE-1# show ip route vrf ospf 10.3.1.7  
Routing entry for 10.3.1.7/32  
Known via "ospf 100", distance 110, metric 86, type intra area  
Redistributing via bgp 215  
Advertised by bgp 215  
Last update from 10.2.1.38 on Serial0/0/0, 00:00:17 ago  
Routing Descriptor Blocks:  
* 10.2.1.38, from 10.3.1.7, 00:00:17 ago, via Serial0/0/0  
Route metric is 86, traffic share count is 1  
This path is selected because:  
The OSPF intra-area path is preferred over the interarea path (over the MPLS VPN backbone)  
generated by the PE-1 router.  
OSPF has a lower administrative distance (AD) than internal BGP (BGP running between routers in  
the same autonomous system).  
If the backdoor links between sites are used only for backup purposes and do not participate in the VPN  
service, then the default route selection shown in the preceding example is not acceptable. To reestablish the  
desired path selection over the MPLS VPN backbone, you must create an additional OSPF intra-area (logical)  
link between ingress and egress VRFs on the relevant PE routers. This link is called a sham-link.  
A sham-link is required between any two VPN sites that belong to the same OSPF area and share an OSPF  
backdoor link. If no backdoor link exists between the sites, no sham-link is required.  
Figure 3 shows a sample sham-link between PE-1 and PE-2. A cost is configured with each sham-link and is  
is configured between PE routers, the PEs can populate the VRF routing table with the OSPF routes learned  
over the sham-link.  
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OSPF Sham-Link Support for MPLS VPN  
Feature Overview  
Figure 3  
Using a Sham -Link Between PE Routers to Connect OSPF Client Sites  
MPLS VPN Backbone  
Net=10.3.1.7  
Winchester  
PE-3  
Route-type 1:2:0  
10.3.1.7  
Net=10.3.1.7  
Type-1 LSA  
Area 1  
10.3.1.2  
Net=10.3.1.7  
Route-type 1:2:0  
Brighton  
MP-BGP  
Net=10.3.1.7  
Type-1 LSA  
Sham-link  
PE-1  
10.3.1.6  
PE-2  
10.3.1.5  
Net=10.3.1.7  
Type-1 LSA  
Area 1  
Area 1  
Stockholm  
10.3.1.3  
Vienna  
10.3.1.15  
Because the sham-link is seen as an intra-area link between PE routers, an OSPF adjacency is created and  
database exchange (for the particular OSPF process) occurs across the link. The PE router can then flood  
LSAs between sites from across the MPLS VPN backbone. As a result, the desired intra-area connectivity is  
created.  
The section, “Creating a Sham-Link”, describes how to configure a sham-link between two PE routers.  
Sham-Link Configuration Example  
The example in this section is designed to show how a sham-link is used only to affect the OSPF intra-area  
path selection of the PE and CE routers. The PE router also uses the information received from MP-BGP to  
set the outgoing label stack of incoming packets, and to decide to which egress PE router to label switch the  
packets.  
Figure 4 shows a sample MPLS VPN topology in which a sham-link configuration is necessary. A VPN client  
has three sites, each with a backdoor link. Two sham-links have been configured, one between PE-1 and PE-2,  
and another between PE-2 and PE-3. A sham-link between PE-1 and PE-3 is not necessary in this  
configuration because the Vienna and Winchester sites do not share a backdoor link.  
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OSPF Sham-Link Support for MPLS VPN  
Feature Overview  
Figure 4  
Sham -Link Exam ple  
MPLS VPN Backbone  
Winchester  
10.3.1.7  
PE-3  
10.3.1.2  
Area 1  
Sham-link  
Sham-link  
Brighton  
PE-1  
10.3.1.6  
PE-2  
10.3.1.5  
Area 1  
Area 1  
Stockholm  
10.3.1.3  
Vienna  
10.3.1.15  
The following example shows the forwarding that occurs between sites from the standpoint of how PE-1  
views the 10.3.1.7/32 prefix, the loopback1 interface of the Winchester CE router in Figure 4.  
PE-1# show ip bgp vpnv4 all 10.3.1.7  
BGP routing table entry for 100:251:10.3.1.7/32, version 124  
Paths: (1 available, best #1)  
Local  
10.3.1.2 (metric 30) from 10.3.1.2 (10.3.1.2)  
Origin incomplete, metric 11, localpref 100, valid, internal,  
best  
Extended Community: RT:1:793 OSPF DOMAIN ID:0.0.0.100 OSPF  
RT:1:2:0 OSPF 2  
PE-1# show ip route vrf ospf 10.3.1.7  
Routing entry for 10.3.1.7/32  
Known via "ospf 100", distance 110, metric 13, type intra area  
Redistributing via bgp 215  
Last update from 10.3.1.2 00:12:59 ago  
Routing Descriptor Blocks:  
10.3.1.2 (Default-IP-Routing-Table), from 10.3.1.7, 00:12:59 ago  
The next example shows forwarding information in which the next hop for the route, 10.3.1.2, is the PE-3  
router rather than the PE-2 router (which is the best path according to OSPF). The reason the OSPF route is  
not redistributed to BGP on the PE is because the other end of the sham-link already redistributed the route  
to BGP and there is no need for duplication. The OSPF sham-link is used only to influence intra-area path  
selection. When sending traffic to a particular destination, the PE router uses the MP-BGP forwarding  
information.  
PE-1# show ip bgp vpnv4 all tag | begin 10.3.1.7  
10.3.1.7/32  
10.3.1.2  
notag/38  
PE-1# show tag-switching forwarding 10.3.1.2  
Local Outgoing Prefix Bytes tag Outgoing  
tag or VC or Tunnel Id  
42 10.3.1.2/32  
Next Hop  
tag  
31  
switched  
0
interface  
PO3/0/0  
point2point  
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OSPF Sham-Link Support for MPLS VPN  
Feature Overview  
PE-1# show ip cef vrf ospf 10.3.1.7  
10.3.1.7/32, version 73, epoch 0, cached adjacency to POS3/0/0  
0 packets, 0 bytes  
tag information set  
local tag: VPN-route-head  
fast tag rewrite with PO3/0/0, point2point, tags imposed: {42 38}  
via 10.3.1.2, 0 dependencies, recursive  
next hop 10.1.1.17, POS3/0/0 via 10.3.1.2/32  
valid cached adjacency  
tag rewrite with PO3/0/0, point2point, tags imposed: {42 38}  
If a prefix is learned across the sham-link and the path via the sham-link is selected as the best, the PE router  
does not generate an MP-BGP update for the prefix. It is not possible to route traffic from one sham-link over  
another sham-link.  
In the following example, PE-2 shows how an MP-BGP update for the prefix is not generated. Although  
10.3.1.7/32 has been learned via OSPF across the sham-link as shown in bold, no local generation of a route  
into BGP is performed. The only entry within the BGP table is the MP-BGP update received from PE-3 (the  
egress PE router for the 10.3.1.7/32 prefix).  
PE-2# show ip route vrf ospf 10.3.1.7  
Routing entry for 10.3.1.7/32  
Known via "ospf 100", distance 110, metric 12, type intra area  
Redistributing via bgp 215  
Last update from 10.3.1.2 00:00:10 ago  
Routing Descriptor Blocks:  
* 10.3.1.2 (Default-IP-Routing-Table), from 10.3.1.7, 00:00:10 ago  
Route metric is 12, traffic share count is 1  
PE-2# show ip bgp vpnv4 all 10.3.1.7  
BGP routing table entry for 100:251:10.3.1.7/32, version 166  
Paths: (1 available, best #1)  
Not advertised to any peer  
Local  
10.3.1.2 (metric 30) from 10.3.1.2 (10.3.1.2)  
Origin incomplete, metric 11, localpref 100, valid, internal,  
best  
Extended Community: RT:1:793 OSPF DOMAIN ID:0.0.0.100 OSPF  
RT:1:2:0 OSPF 2  
The PE router uses the information received from MP-BGP to set the ongoing label stack of incoming  
packets, and to decide to which egress PE router to label switch the packets.  
Benefits  
Client Site Connection Across the MPLS VPN Backbone  
A sham-link overcomes the OSPF default behavior for selecting an intra-area backdoor route between VPN  
sites instead of an interarea (PE-to-PE) route. A sham-link ensures that OSPF client sites that share a  
backdoor link can communicate over the MPLS VPN backbone and participate in VPN services.  
Flexible Routing in an MPLS VPN Configuration  
In an MPLS VPN configuration, the OSPF cost configured with a sham-link allows you to decide if OSPF  
client site traffic will be routed over a backdoor link or through the VPN backbone.  
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OSPF Sham-Link Support for MPLS VPN  
Supported Platforms  
Restrictions  
When OSPF is used as a protocol between PE and CE routers, the OSPF metric is preserved when routes  
are advertised over the VPN backbone. The metric is used on the remote PE routers to select the correct  
route. For this reason, you should not modify the metric value when OSPF is redistributed to BGP, and  
when BGP is redistributed to OSPF. If you modify the metric value, routing loops may occur.  
Related Features and Technologies  
MPLS  
OSPF  
BGP  
Related Documents  
Cisco IOS Configuration Fundamentals Configuration Guide, Release 12.2  
Cisco IOS Configuration Fundamentals Command Reference, Release 12.2  
Cisco IOS IP Command Reference, Volume 2 of 3: Routing Protocols, Release 12.2  
MPLS Virtual Private Networks  
Configuring OSPF  
Configuring BGP  
RFC 1163, A Border Gateway Protocol  
RFC 1164, Application of the Border Gateway Protocol in the Internet  
RFC 2283, Multiprotocol Extensions for BGP-4  
RFC 2328, Open Shortest Path First, Version 2  
RFC 2547, BGP/MPLS VPNs  
Supported Platforms  
Cisco 1400 series  
Cisco 1600  
Cisco 1600R  
Cisco 1710  
Cisco 1720  
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OSPF Sham-Link Support for MPLS VPN  
Supported Platforms  
Cisco 1721  
Cisco 1750  
Cisco 1751  
Cisco 2420  
Cisco 2600  
Cisco 2691  
Cisco 3620  
Cisco 3631  
Cisco 3640  
Cisco 3660  
Cico 3725  
Cisco 3745  
Cisco 7100  
Cisco 7200  
Cisco 7500  
Cisco 7700  
URM  
Cisco uBR7200  
Determining Platform Support Through Cisco Feature Navigator  
Cisco IOS software is packaged in feature sets that support specific platforms. To get updated  
information regarding platform support for this feature, access Cisco Feature Navigator. Cisco Feature  
Navigator dynamically updates the list of supported platforms as new platform support is added for the  
feature.  
Cisco Feature Navigator is a web-based tool that enables you to quickly determine which Cisco IOS  
software images support a specific set of features and which features are supported in a specific  
Cisco IOS image. You can search by feature or release. Under the release section, you can compare  
releases side by side to display both the features unique to each software release and the features in  
common.  
Cisco Feature Navigator is updated regularly when major Cisco IOS software releases and technology  
releases occur. For the most current information, go to the Cisco Feature Navigator home page at the  
following URL:  
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OSPF Sham-Link Support for MPLS VPN  
Supported Standards, MIBs, and RFCs  
Supported Standards, MIBs, and RFCs  
Standards  
No new or modified standards are supported by this feature.  
MIBs  
No new or modified MIBs are supported by this feature.  
To obtain lists of supported MIBs by platform and Cisco IOS release, and to download MIB modules,  
go to the Cisco MIB website on Cisco.com at the following URL:  
RFCs  
No new or modified RFCs are supported by this feature.  
Prerequisites  
Before you can configure a sham-link in an MPLS VPN, you must first enable OSPF as follows:  
Create an OSPF routing process.  
Specify the range of IP addresses to be associated with the routing process.  
Assign area IDs to be associated with the range of IP addresses.  
For more information on these OSPF configuration procedures, go to:  
Configuration Tasks  
See the following sections for configuration tasks for the sham-link feature. Each task in the list is  
identified as either required or optional.  
Creating a Sham-Link  
Before you create a sham-link between PE routers in an MPLS VPN, you must:  
Configure a separate /32 address on the remote PE so that OSPF packets can be sent over the VPN  
backbone to the remote end of the sham-link. The /32 address must meet the following criteria:  
Not be advertised by OSPF.  
Be advertised by BGP.  
You can use the /32 address for other sham-links.  
Associate the sham-link with an existing OSPF area.  
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OSPF Sham-Link Support for MPLS VPN  
Configuration Tasks  
To create a sham-link, use the following commands starting in EXEC mode:  
Command  
Purpose  
Router1# configure terminal  
Step 1  
Step 2  
Enters global configuration mode on the first PE router.  
Router1(config)# interface loopback  
interface-number  
Creates a loopback interface to be used as an endpoint of the  
sham-link on PE-1 and enters interface configuration mode.  
Router1(config-if)# ip vrf forwarding  
vrf-name  
Step 3  
Step 4  
Associates the loopback interface with a VRF. Removes the IP  
address.  
Router1(config-if)# ip address ip-address  
mask  
Reconfigures the IP address of the loopback interface on PE-1.  
Router1(config-if)# end  
Router1(config)# end  
Step 5  
Step 6  
Step 7  
Step 8  
Returns to global configuration mode.  
Returns to EXEC mode.  
Router2# configure terminal  
Enters global configuration mode on the second PE router.  
Router2(config)# interface loopback  
interface-number  
Creates a loopback interface to be used as the endpoint of the  
sham-link on PE-2 and enters interface configuration mode.  
Router2(config-if)# ip vrf forwarding  
vrf-name  
Step 9  
Associates the second loopback interface with a VRF. Removes  
the IP address.  
Router2(config-if)# ip address ip-address  
mask  
Step 10  
Reconfigures the IP address of the loopback interface on PE-2.  
Router2(config-if)# end  
Router1(config)# end  
Step 11  
Step 12  
Step 13  
Returns to global configuration mode.  
Returns to EXEC mode.  
Router1(config)# router ospf process-id  
vrf vrf-name  
Configures the specified OSPF process with the VRF associated  
with the sham-link interface on PE-1 and enters interface  
configuration mode.  
Router1(config-if)# area area-id  
sham-link source-address  
destination-address cost number  
Step 14  
Configures the sham-link on the PE-1 interface within a specified  
OSPF area and with the loopback interfaces specified by the IP  
addresses as endpoints. cost number configures the OSPF cost for  
sending an IP packet on the PE-1 sham-link interface.  
Router2(config)# router ospf process-id  
vrf vrf-name  
Step 15  
Step 16  
Configures the specified OSPF process with the VRF associated  
with the sham-link interface on PE-2 and enters interface  
configuration mode.  
Router2(config-if)# area area-id  
sham-link source-address  
destination-address cost number  
Configures the sham-link on the PE-2 interface within a specified  
OSPF area and with the loopback interfaces specified by the IP  
addresses as endpoints. cost number configures the OSPF cost for  
sending an IP packet on the PE-2 sham-link interface.  
Verifying Sham-Link Creation  
To verify that the sham-link was successfully created and is operational, use the show ip ospf  
sham-links command in EXEC mode:  
Router1# show ip ospf sham-links  
Sham Link OSPF_SL0 to address 10.2.1.2 is up  
Area 1 source address 10.2.1.1  
Run as demand circuit  
DoNotAge LSA allowed. Cost of using 40 State POINT_TO_POINT,  
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OSPF Sham-Link Support for MPLS VPN  
Monitoring and Maintaining a Sham-Link  
Timer intervals configured, Hello 10, Dead 40, Wait 40,  
Hello due in 00:00:04  
Adjacency State FULL (Hello suppressed)  
Index 2/2, retransmission queue length 4, number of  
retransmission 0  
First 0x63311F3C(205)/0x63311FE4(59) Next  
0x63311F3C(205)/0x63311FE4(59)  
Last retransmission scan length is 0, maximum is 0  
Last retransmission scan time is 0 msec, maximum is 0 msec  
Link State retransmission due in 360 msec  
Monitoring and Maintaining a Sham-Link  
To monitor a sham-link, use the following show commands in EXEC mode:  
Command  
Purpose  
Router# show ip ospf sham-links  
Displays the operational status of all sham-links configured for a  
router.  
Router# show ip ospf data router ip-address  
Displays information about how the sham-link is advertised as an  
unnumbered point-to-point connection between two PE routers.  
Configuration Examples  
The following example shows how to configure a sham-link between two PE routers:  
Router1(config)# interface loopback 1  
Router1(config-if)# ip vrf forwarding ospf  
Router1(config-if)# ip address 10.2.1.1 255.255.255.255  
!
Router2(config)# interface loopback 1  
Router2(config-if)# ip vrf forwarding ospf  
Router2(config-if)# ip address 10.2.1.2 255.255.255.255  
!
Router1(config)# router ospf 100 vrf ospf  
Router1(config-if)# area 1 sham-link 10.2.1.1 10.2.1.2 cost 40  
!
Router2(config)# router ospf 100 vrf ospf  
Router2(config-if)# area 1 sham-link 10.2.1.2 10.2.1.1 cost 40  
Command Reference  
This section documents new commands. All other commands used with this feature are documented in  
the Cisco IOS Release 12.2 command reference publications.  
area sham-link cost  
show ip ospf sham-links  
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OSPF Sham-Link Support for MPLS VPN  
area sham-link cost  
area sham-link cost  
To configure a sham-link interface on a provider edge (PE) router in a Multiprotocol Label Switching  
(MPLS) Virtual Private Network (VPN) backbone, use the area sham-link cost command in global  
configuration mode. To remove the sham-link, use the no form of this command.  
area area-id sham-link source-address destination-address cost number  
no area area-id sham-link source-address destination-address cost number  
Syntax Description  
area-id  
ID number of the Open Shortest Path First (OSPF) area assigned to the  
sham-link. Valid values: numeric value or valid IP address. There is no  
default.  
source-address  
destination-address  
number  
IP address of the source PE router in the format: ip-address [mask].  
IP address of the destination PE route in the format: ip-address [mask].  
OSPF cost to send IP packets over the sham-link interface.  
Valid values are from 1 to 65535.  
Defaults  
No default behavior or values.  
Global configuration  
Command Modes  
Command History  
Release  
Modification  
This command was introduced.  
12.2(8)T  
Usage Guidelines  
In the MPLS VPN environment, several VPN client sites can be connected in the same OSPF area. If  
these sites are connected over a backdoor link in addition to the VPN backbone, all traffic passes over  
the backdoor link instead of over the VPN backbone. OSPF always selects intra-area routes over  
interarea (external) routes.  
To correct this default OSPF behavior in an MPLS VPN, use the area sham-link cost command to  
configure a sham-link between two PEs to connect the sites through the MPLS VPN backbone. A  
sham-link represents an intra-area (unnumbered point-to-point) connection between PEs. All other  
routers in the area see the sham-link and use it to calculate intra-area shortest path first (SPF) routes to  
the remote site.  
Configure the source and destination addresses of the sham-link as a host route mask (255.255.255.255)  
on the PE routers that serve as the endpoints of the sham-link. The source and destination IP addresses  
must belong to the VRF and be advertised by Border Gateway Protocol (BGP) to remote PE routers. The  
sham-link endpoint addresses should not be advertised by OSPF.  
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OSPF Sham-Link Support for MPLS VPN  
area sham-link cost  
Examples  
The following example shows how to configure a sham-link between two PE routers in an MPLS VPN  
backbone by using the area sham-link cost command on each router:  
Router1(config)# interface loopback 55  
Router1(config-if)# ip vrf forwarding v1  
Router1(config-if)# ip address 10.0.0.1 255.255.255.255  
!
Router1(config)# router ospf 2 vrf v1  
Router1(config-if)# log-adjacency-changes  
Router1(config-if)# area 120 sham-link 10.0.0.1 10.44.0.1 cost 1  
Router1(config-if)# redistribute bgp 1 subnets  
Router1(config-if)# network 10.2.0.1 255.255.255.255 area 1  
Router1(config-if)# network 10.120.0.0 0.255.255.255 area 120  
Router1(config-if)# network 10.140.0.0 0.255.255.255 area 120  
!
Router2(config)# interface loopback 44  
Router2(config-if)# ip vrf forwarding v1  
Router2(config-if)# ip address 44.0.0.1 255.255.255.255  
!
Router2(config)# router ospf 2 vrf v1  
Router2(config-if)# log-adjacency-changes  
Router2(config-if)# area 120 sham-link 10.44.0.1 10.0.0.1 cost 1  
Router2(config-if)# redistribute bgp 1 subnets  
Router2(config-if)# network 10.2.0.1 255.255.255.255 area 1  
Router2(config-if)# network 10.120.0.0 0.255.255.255 area 120  
Router2(config-if)# network 10.140.0.0 0.255.255.255 area 120  
!
Cisco IOS Release 12.2(8)T  
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OSPF Sham-Link Support for MPLS VPN  
show ip ospf sham-links  
show ip ospf sham-links  
To display information about all sham-links configured for a provider edge (PE) router in the Virtual  
Private Network (VPN) backbone, use the show ip ospf sham-links command in EXEC mode.  
show ip ospf sham-links  
This command has no arguments or keywords.  
No default behavior or values.  
EXEC  
Syntax Description  
Defaults  
Command Modes  
Command History  
Release  
Modification  
12.2(8)T  
This command was introduced.  
Usage Guidelines  
Examples  
Use this command to display Open Shortest Path First (OSPF) information about the sham-links  
configured on a PE router.  
The following example shows sample output from the show ip ospf sham-links command for a PE  
router in the VPN backbone:  
Router1# show ip ospf sham-links  
Sham Link OSPF_SL0 to address 10.44.0.1 is up  
Area 120 source address 10.0.0.1  
Run as demand circuit  
DoNotAge LSA allowed., Cost of using 1  
Transmit Delay is 1 sec, State POINT_TO_POINT,  
Timer intervals configured, Hello 10, Dead 40, Wait 40, Retransmit 5  
Hello due in 00:00:09  
Adjacency State FULL (Hello suppressed)  
Index 2/2, retransmission queue length 0, number of retransmission 27  
First 0x0(0)/0x0(0) Next 0x0(0)/0x0(0)  
Last retransmission scan length is 0, maximum is 2  
Last retransmission scan time is 0 msec, maximum is 0 msec  
Cisco IOS Release 12.2(8)T  
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OSPF Sham-Link Support for MPLS VPN  
Glossary  
Glossary  
BGP—Border Gateway Protocol. Interdomain routing protocol that exchanges reachability information  
with other BGP systems. It is defined in RFC 1163.  
CE router—customer edge router. A router that is part of a customer network and that interfaces to a  
provider edge (PE) router. CE routers are not aware of associated VPNs.  
CEF—Cisco Express Forwarding. An advanced Layer 3 IP switching technology. CEF optimizes  
network performance and scalability for networks with large and dynamic traffic patterns.  
OSPF—Open Shortest Path First protocol.  
IGP—Interior Gateway Protocol. An Internet protocol used to exchange routing information within an  
autonomous system. Examples of common IGPs include IGRP, OSPF, and RIP.  
LSA—link-state advertisement. A broadcast packet used by link-state protocols. The LSA contains  
information about neighbors and path costs and is used by the receiving router to maintain a routing  
table.  
MPLS—Multiprotocol Label Switching. Emerging industry standard upon which tag switching is  
based.  
PE router—provider edge router. A router that is part of a service provider network connected to a  
customer edge (CE) router. All VPN processing occurs in the PE router.  
SPF—shortest path first calculation.  
VPN—Virtual Private Network. A secure IP-based network that shares resources on one or more  
physical networks. A VPN contains geographically dispersed sites that can communicate securely over  
a shared backbone.  
VRF—VPN routing and forwarding instance. A VRF consists of an IP routing table, a derived  
forwarding table, a set of interfaces that use the forwarding table, and a set of rules and routing protocols  
that determine what goes into the forwarding table. In general, a VRF includes the routing information  
that defines a customer VPN site that is attached to a PE router.  
Cisco IOS Release 12.2(8)T  
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