- Finding Feature Information
- Restrictions for MLDP In-Band Signaling
- Information About MLDP In-Band Signaling/Transit Mode
- How to Configure MLDP In-Band Signaling/Transit Mode
- Additional References
- Configuration Examples for MLDP In-Band Signaling/Transit Mode
- Feature Information for MLDP In-Band Signaling/Transit Mode
MLDP In-Band Signaling/Transit Mode
This module contains information for configuring Multicast Label Distribution Protocol (MLDP) in-band signaling to enable the MLDP core to create (S,G) or (*,G) state without using out-of-band signaling such as Border Gateway protocol (BGP) or Protocol Independent Multicast (PIM).
- Finding Feature Information
- Restrictions for MLDP In-Band Signaling
- Information About MLDP In-Band Signaling/Transit Mode
- How to Configure MLDP In-Band Signaling/Transit Mode
- Additional References
- Configuration Examples for MLDP In-Band Signaling/Transit Mode
- Feature Information for MLDP In-Band Signaling/Transit Mode
Finding Feature Information
Your software release may not support all the features documented in this module. For the latest caveats and feature information, see Bug Search Tool and the release notes for your platform and software release. To find information about the features documented in this module, and to see a list of the releases in which each feature is supported, see the feature information table.
Use Cisco Feature Navigator to find information about platform support and Cisco software image support. To access Cisco Feature Navigator, go to www.cisco.com/go/cfn. An account on Cisco.com is not required.
Restrictions for MLDP In-Band Signaling
Information About MLDP In-Band Signaling/Transit Mode
MLDP In-Band Signaling/Transit Mode
Multicast Label Distribution Protocol (MLDP)-supported multicast VPN (MVPN) allows VPN multicast streams to be aggregated over a VPN-specific tree. No customer state is created in the MLDP core;, there is only state for default and data multicast distribution trees (MDTs). In certain scenarios, the state created for VPN streams is limited and does not appear to be a risk or limiting factor. In these scenarios, MLDP can build in-band MDTs that are transit Label Switched Paths (LSPs).
Trees used in a VPN space are MDTs. Trees used in the global table are transit point-to-multipoint (P2MP) or multipoint-to-multipoint (MP2MP) LSPs. In both cases, a single multicast stream (VPN or not) is associated with a single LSP in the MPLS core. The stream information is encoded in the Forwarding Equivalence Class (FEC) of the LSP. This is in-band signaling.
MLDP in-band signaling uses access control lists (ACLs) with the range of the multicast (S, G) to be transported by the MLDP LSP. Each multicast channel (S, G) maps, one-to-one, to each tree in the in-band tree. The (S,G) join is registered in the Multicast Routing Information Base (MRIB), which is a client of MLDP. Each MLDP LSP is identified by the FEC of [(S,G) + RD], where RD is the Route Distinquisher (RD) obtained from BGP. This differs from MLDP-based MVPN, where the identity is in a FEC of [MDT #, VPN ID, Tree #]).
The ingress Provider Edge (PE) device uses the FEC to decode the stream information and associate the multicast stream with the LSP (in the FEC). This service model is only applicable for transporting Protocol Independent Multicast (PIM) source-specific multicast (SSM) traffic. There is no need to run PIM over the LSP because the stream signaling is done in-band.
The MLDP In-Band Signaling/Transit Mode feature is supported on IPv4 networks. MLDP in-band signaling and MLDP-based MVPN cannot be supported in the same VRF.
How to Configure MLDP In-Band Signaling/Transit Mode
Enabling In-Band Signaling on a PE Device
1.
enable
2.
configure terminal
DETAILED STEPS
Additional References
Related Documents
Related Topic |
Document Title |
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IPv6 addressing and connectivity |
IPv6 Configuration Guide |
Cisco IOS commands |
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IP multicast commands |
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IPv6 commands |
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Cisco IOS IPv6 features |
Standards and RFCs
Standard/RFC |
Title |
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RFCs for IPv6 |
IPv6 RFCs |
MIBs
MIB |
MIBs Link |
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To locate and download MIBs for selected platforms, Cisco IOS releases, and feature sets, use Cisco MIB Locator found at the following URL: |
Technical Assistance
Description |
Link |
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The Cisco Support and Documentation website provides online resources to download documentation, software, and tools. Use these resources to install and configure the software and to troubleshoot and resolve technical issues with Cisco products and technologies. Access to most tools on the Cisco Support and Documentation website requires a Cisco.com user ID and password. |
Configuration Examples for MLDP In-Band Signaling/Transit Mode
Example: In-Band Signaling on PE1
PE1# show running-config Building configuration... Current configuration : 8247 bytes ! ! Last configuration change at 12:44:13 IST Thu Nov 15 2012 ! hostname PE1 ! mls ipv6 vrf ! vrf definition vrf1 rd 1:1 vpn id 1:1 route-target export 1:1 route-target import 1:1 ! address-family ipv4 route-target export 1:1 route-target import 1:1 exit-address-family ! address-family ipv6 route-target export 1:1 route-target import 1:1 exit-address-family ! ip multicast-routing ip multicast-routing vrf vrf1 ip multicast hardware-switching replication-mode egress ip multicast mpls mldp ip multicast vrf vrf1 mpls mldp ! ! ! ipv6 unicast-routing ipv6 multicast-routing ipv6 multicast-routing vrf vrf1 ipv6 multicast rpf use-bgp ipv6 multicast mpls source Loopback0 ipv6 multicast mpls mldp ipv6 multicast vrf vrf1 rpf use-bgp ipv6 multicast vrf vrf1 mpls source Loopback0 ipv6 multicast vrf vrf1 mpls mldp ! ! vtp domain cisco vtp mode off mpls label protocol ldp mpls ldp graceful-restart mls flow ip interface-full no mls flow ipv6 mls rate-limit multicast ipv4 igmp 100 10 mls cef error action reset mls mpls tunnel-recir multilink bundle-name authenticated ! ! ! ! spanning-tree mode pvst spanning-tree extend system-id no diagnostic bootup level ! redundancy main-cpu auto-sync running-config mode sso ! vlan internal allocation policy ascending vlan access-log ratelimit 2000 ! interface Loopback0 ip address 1.1.1.1 255.255.255.255 ip pim sparse-mode ip ospf 100 area 0 ipv6 address 1::1:1:1/64 ipv6 enable ! . . . ! interface GigabitEthernet2/0/0.1 encapsulation dot1Q 2 vrf forwarding vrf1 ip address 192.0.2.1 255.255.255.0 ip pim sparse-mode ip igmp version 3 ipv6 address FE80::10:1:1 link-local ipv6 address 2001:DB8::/64 ipv6 enable ! interface GigabitEthernet2/0/0.2000 encapsulation dot1Q 2000 ip address 192.0.2.2 255.255.255.0 ip pim sparse-mode ip igmp version 3 ipv6 address 2001:DB8:0:1/64 ipv6 enable ! . . . interface GigabitEthernet2/0/12 ip address 192.0.2.3 255.255.255.0 ip pim sparse-mode ip ospf 100 area 0 ipv6 address 2001:DB8::/64 ipv6 enable mpls ip mpls label protocol ldp no mls qos trust ! ! ! router ospf 100 router-id 1.1.1.1 ! router bgp 100 bgp log-neighbor-changes neighbor 2.2.2.2 remote-as 100 neighbor 2.2.2.2 update-source Loopback0 neighbor 3.3.3.3 remote-as 100 neighbor 3.3.3.3 update-source Loopback0 neighbor 4.4.4.4 remote-as 100 neighbor 4.4.4.4 update-source Loopback0 ! address-family ipv4 redistribute static redistribute connected neighbor 2.2.2.2 activate neighbor 2.2.2.2 send-community both neighbor 3.3.3.3 activate neighbor 3.3.3.3 send-community both neighbor 4.4.4.4 activate neighbor 4.4.4.4 send-community both exit-address-family ! address-family vpnv4 neighbor 2.2.2.2 activate neighbor 2.2.2.2 send-community extended neighbor 3.3.3.3 activate neighbor 3.3.3.3 send-community extended neighbor 4.4.4.4 activate neighbor 4.4.4.4 send-community extended exit-address-family ! address-family ipv4 mdt neighbor 2.2.2.2 activate neighbor 2.2.2.2 send-community extended neighbor 3.3.3.3 activate neighbor 3.3.3.3 send-community extended neighbor 4.4.4.4 activate neighbor 4.4.4.4 send-community extended exit-address-family ! address-family ipv6 redistribute connected neighbor 2.2.2.2 activate neighbor 2.2.2.2 send-community extended neighbor 2.2.2.2 send-label neighbor 3.3.3.3 activate neighbor 3.3.3.3 send-community extended neighbor 3.3.3.3 send-label neighbor 4.4.4.4 activate neighbor 4.4.4.4 send-community extended neighbor 4.4.4.4 send-label exit-address-family ! address-family vpnv6 neighbor 2.2.2.2 activate neighbor 2.2.2.2 send-community extended neighbor 3.3.3.3 activate neighbor 3.3.3.3 send-community extended neighbor 4.4.4.4 activate neighbor 4.4.4.4 send-community extended exit-address-family ! address-family ipv4 vrf vrf1 redistribute connected exit-address-family ! address-family ipv6 vrf vrf1 redistribute connected exit-address-family ! no ip forward-protocol nd ! no ip http server no ip http secure-server ip pim ssm default ip pim mpls source Loopback0 ip pim vrf vrf1 ssm default ip pim vrf vrf1 mpls source Loopback0 ip route 192.0.2.25 255.255.255.255 7.37.0.1 ! ! mpls ldp router-id Loopback0 force ! ! ! end
Example: In-Band Signaling on PE2
PE2# show running-config Building configuration... Current configuration : 7609 bytes ! ! Last configuration change at 13:18:45 IST Thu Nov 15 2012 ! hostname PE2 ! mls ipv6 vrf ! vrf definition vrf1 rd 1:1 vpn id 1:1 route-target export 1:1 route-target import 1:1 ! address-family ipv4 route-target export 1:1 route-target import 1:1 exit-address-family ! address-family ipv6 route-target export 1:1 route-target import 1:1 exit-address-family ! . . . ! ip multicast-routing ip multicast-routing vrf vrf1 ip multicast hardware-switching replication-mode egress ip multicast mpls mldp ip multicast vrf vrf1 mpls mldp ! ! ! ipv6 unicast-routing ipv6 multicast-routing ipv6 multicast-routing vrf vrf1 ipv6 multicast rpf use-bgp ipv6 multicast mpls source Loopback0 ipv6 multicast mpls mldp ipv6 multicast vrf vrf1 rpf use-bgp ipv6 multicast vrf vrf1 mpls source Loopback0 ipv6 multicast vrf vrf1 mpls mldp ! ! vtp domain isbu-devtest vtp mode off mpls label protocol ldp mpls ldp graceful-restart mls flow ip interface-full no mls flow ipv6 mls cef error action reset multilink bundle-name authenticated ! ! ! ! spanning-tree mode pvst spanning-tree extend system-id diagnostic bootup level minimal ! redundancy main-cpu auto-sync running-config mode sso ! ! ! interface Loopback0 ip address 4.4.4.4 255.255.255.255 ip pim sparse-mode ip ospf 100 area 0 ipv6 enable ! . . . ! interface GigabitEthernet3/0/3.1 encapsulation dot1Q 2 vrf forwarding vrf1 ip address 192.0.2.1 255.255.255.0 ip pim sparse-mode ip igmp version 3 ipv6 address FE80::30:1:1 link-local ipv6 address 2001:DB8::/64 ipv6 enable ! interface GigabitEthernet3/0/3.2000 encapsulation dot1Q 2000 ip address 192.0.2.2 255.255.255.0 ip pim sparse-mode ip igmp static-group 232.1.1.1 source 50.0.0.2 ip igmp version 3 ipv6 address 2001:DB8:0:1/64 ipv6 enable ! . . . ! interface GigabitEthernet4/15 ip address 192.0.2.3 255.255.255.0 ip pim sparse-mode ip ospf 100 area 0 ipv6 address 2001:DB8::/64 ipv6 enable mpls ip mpls label protocol ldp ! . . . ! interface Vlan1 no ip address shutdown ! router ospf 100 router-id 4.4.4.4 ! router bgp 100 bgp log-neighbor-changes neighbor 1.1.1.1 remote-as 100 neighbor 1.1.1.1 update-source Loopback0 neighbor 2.2.2.2 remote-as 100 neighbor 2.2.2.2 update-source Loopback0 neighbor 3.3.3.3 remote-as 100 neighbor 3.3.3.3 update-source Loopback0 ! address-family ipv4 redistribute static redistribute connected neighbor 1.1.1.1 activate neighbor 1.1.1.1 send-community both neighbor 2.2.2.2 activate neighbor 2.2.2.2 send-community both neighbor 3.3.3.3 activate neighbor 3.3.3.3 send-community both exit-address-family ! address-family vpnv4 neighbor 1.1.1.1 activate neighbor 1.1.1.1 send-community extended neighbor 2.2.2.2 activate neighbor 2.2.2.2 send-community extended neighbor 3.3.3.3 activate neighbor 3.3.3.3 send-community extended exit-address-family ! address-family ipv4 mdt neighbor 1.1.1.1 activate neighbor 1.1.1.1 send-community extended neighbor 2.2.2.2 activate neighbor 2.2.2.2 send-community extended neighbor 3.3.3.3 activate neighbor 3.3.3.3 send-community extended exit-address-family ! address-family ipv6 redistribute connected neighbor 1.1.1.1 activate neighbor 1.1.1.1 send-community extended neighbor 1.1.1.1 send-label neighbor 2.2.2.2 activate neighbor 2.2.2.2 send-community extended neighbor 2.2.2.2 send-label neighbor 3.3.3.3 activate neighbor 3.3.3.3 send-community extended neighbor 3.3.3.3 send-label exit-address-family ! address-family vpnv6 neighbor 1.1.1.1 activate neighbor 1.1.1.1 send-community extended neighbor 2.2.2.2 activate neighbor 2.2.2.2 send-community extended neighbor 3.3.3.3 activate neighbor 3.3.3.3 send-community extended exit-address-family ! address-family ipv4 vrf vrf1 redistribute connected exit-address-family ! address-family ipv6 vrf vrf1 redistribute connected exit-address-family ! ip forward-protocol nd ! no ip http server no ip http secure-server ip pim ssm default ip pim mpls source Loopback0 ip pim vrf vrf1 ssm default ip pim vrf vrf1 mpls source Loopback0 ip route 192.0.2.25 255.255.255.255 7.37.0.1 ! ! mpls ldp router-id Loopback0 force ! ! . . . ! ! end
Feature Information for MLDP In-Band Signaling/Transit Mode
The following table provides release information about the feature or features described in this module. This table lists only the software release that introduced support for a given feature in a given software release train. Unless noted otherwise, subsequent releases of that software release train also support that feature.
Use Cisco Feature Navigator to find information about platform support and Cisco software image support. To access Cisco Feature Navigator, go to www.cisco.com/go/cfn. An account on Cisco.com is not required.
Feature Name |
Releases |
Feature Information |
---|---|---|
MLDP In-Band Signaling/Transit Mode |
15.3(1)S Cisco IOS XE 3.14S |
Multicast Label Distribution Protocol (MLDP) in-band signaling supports point-to-multipoint (P2P) and multipoint-to-multipoint (MP2MP) Label Switched Paths (LSPs) and enables the MLDP core to create (S,G) or (*,G) state without using out-of-band signaling such as Border Gateway Protocol (BGP) or Protocol Independent Multicast (PIM). This feature is supported for IPv4 and IPv6 multicast groups. The following commands were introduced or modified: ip multicast mpls mldp, ipv6 multicast mpls mldp. |