R3102-R3103-HP 6600/HSR6600 Routers IP Multicast Configuration Guide
Table Of Contents
- Title Page
- Contents
- Multicast overview
- Configuring IGMP snooping
- Overview
- IGMP snooping configuration task list
- Configuring basic IGMP snooping functions
- Configuring IGMP snooping port functions
- Configuring IGMP snooping querier
- Configuring IGMP snooping proxying
- Configuring IGMP snooping policies
- Configuration prerequisites
- Configuring a multicast group filter
- Configuring multicast source port filtering
- Enabling dropping unknown multicast data
- Enabling IGMP report suppression
- Setting the maximum number of multicast groups that a port can join
- Enabling multicast group replacement
- Setting the 802.1p precedence for IGMP messages
- Enabling the IGMP snooping host tracking function
- Displaying and maintaining IGMP snooping
- IGMP snooping configuration examples
- Troubleshooting IGMP snooping
- Appendix
- Configuring multicast routing and forwarding
- Overview
- Configuration task list
- Enabling IP multicast routing
- Configuring multicast routing and forwarding
- Displaying and maintaining multicast routing and forwarding
- Configuration examples
- Troubleshooting multicast routing and forwarding
- Configuring IGMP
- Overview
- IGMP configuration task list
- Configuring basic IGMP functions
- Adjusting IGMP performance
- Configuring IGMP SSM mapping
- Configuring IGMP proxying
- Displaying and maintaining IGMP
- IGMP configuration examples
- Troubleshooting IGMP
- Configuring PIM
- Overview
- Configuring PIM-DM
- Configuring PIM-SM
- Configuring BIDIR-PIM
- Configuring PIM-SSM
- Configuring common PIM features
- Displaying and maintaining PIM
- PIM configuration examples
- Troubleshooting PIM
- Configuring MSDP
- Overview
- MSDP configuration task list
- Configuring basic MSDP functions
- Configuring an MSDP peer connection
- Configuring SA message related parameters
- Displaying and maintaining MSDP
- MSDP configuration examples
- Troubleshooting MSDP
- Configuring MBGP
- MBGP overview
- Protocols and standards
- MBGP configuration task list
- Configuring basic MBGP functions
- Controlling route advertisement and reception
- Configuration prerequisites
- Configuring MBGP route redistribution
- Configuring default route redistribution into MBGP
- Configuring MBGP route summarization
- Advertising a default route to an IPv4 MBGP peer or peer group
- Configuring outbound MBGP route filtering
- Configuring inbound MBGP route filtering
- Configuring MBGP route dampening
- Configuring MBGP route attributes
- Optimizing MBGP networks
- Configuring a large scale MBGP network
- Displaying and maintaining MBGP
- MBGP configuration example
- Configuring multicast VPN
- Overview
- How MD-VPN works
- Multicast VPN configuration task list
- Configuring MD-VPN
- Configuring BGP MDT
- Specifying the source IP address for multicast across VPNs
- Displaying and maintaining multicast VPN
- Multicast VPN configuration examples
- Troubleshooting MD-VPN
- Configuring IPv6 multicast routing and forwarding
- Overview
- Configuration task list
- Enabling IPv6 multicast routing
- Configuring IPv6 multicast routing and forwarding
- Displaying and maintaining IPv6 multicast routing and forwarding
- IPv6 multicast forwarding over GRE tunnel configuration example
- Troubleshooting abnormal termination of IPv6 multicast data
- Configuring MLD
- Overview
- MLD configuration task list
- Configuring basic MLD functions
- Adjusting MLD performance
- Configuring MLD SSM mapping
- Configuring MLD proxying
- Displaying and maintaining MLD
- MLD configuration examples
- Troubleshooting MLD
- Configuring IPv6 PIM
- Overview
- Configuring IPv6 PIM-DM
- Configuring IPv6 PIM-SM
- Configuring IPv6 BIDIR-PIM
- Configuring IPv6 PIM-SSM
- Configuring common IPv6 PIM features
- Displaying and maintaining IPv6 PIM
- IPv6 PIM configuration examples
- Troubleshooting IPv6 PIM
- Configuring IPv6 MBGP
- Overview
- IPv6 MBGP configuration task list
- Configuring basic IPv6 MBGP functions
- Controlling route distribution and reception
- Configuration prerequisites
- Injecting a local IPv6 MBGP route
- Configuring IPv6 MBGP route redistribution
- Configuring IPv6 MBGP route summarization
- Advertising a default route to a peer or peer group
- Configuring outbound IPv6 MBGP route filtering
- Configuring inbound IPv6 MBGP route filtering
- Configuring IPv6 MBGP route dampening
- Configuring IPv6 MBGP route attributes
- Optimizing IPv6 MBGP networks
- Configuring a large scale IPv6 MBGP network
- Displaying and maintaining IPv6 MBGP
- IPv6 MBGP configuration example
- Configuring PIM snooping
- Configuring multicast VLANs
- Support and other resources
- Index
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MD-VPN overview
The basic concepts involved in MD-VPN are described in Table 9.
Table 9 Basic concepts in MD-VPN
Conce
p
t Descri
p
tion
Multicast domain (MD)
An MD is a set of VPN instances running on PE devices that can send
multicast traffic to each other. Each MD uniquely corresponds to the
same set of VPN instances.
Multicast distribution tree (MDT)
An MDT is a multicast distribution tree between all PE devices in the
same VPN. MDT types include share-MDT and switch-MDT.
Multicast tunnel (MT)
An MT is a tunnel that interconnects all PEs in an MD for delivering
VPN traffic within the MD.
Multicast tunnel interface (MTI)
An MTI is the entrance to or exit of an MT, equivalent to an entrance
to or exit of an MD. PE devices use the MTI to access the MD. An MTI
handles only multicast packets but not unicast packets. An MTI is
automatically created with the configuration of a share-group and
MTI binding for a VPN instance.
Share-group
In the public network, each MD is assigned an independent multicast
address, called share-group. A share-group is the unique identifier of
an MD on the public network. It helps build a share-MDT
corresponding to the MD on the public network.
Share-multicast distribution tree
(Share-MDT)
A share-MDT is an MDT that uses a share-group as its group address.
In a VPN, the share-MDT is uniquely identified by the share-group. A
share-MDT is automatically created after configuration and will
always exist on the public network, regardless of the presence of any
actual multicast services on the public network or the VPN.
Switch-multicast distribution tree
(Switch-MDT)
A switch-MDT is an MDT that uses a switch-group as it group address.
At MDT switchover, PE devices with receivers downstream join a
switch-group, forming a switch-MDT, along which the ingress PE
forwards the encapsulated VPN multicast traffic over the public
network.
Switch-group
When the multicast traffic of a VPN reaches or exceeds a threshold,
the ingress PE device assigns it an independent multicast address
called switch-group, and notifies the other PE devices that they should
use that address to forward the multicast traffic for that VPN. This
initiates a switchover to the switch-MDT.
Switch-group-pool
The switch-group-pool is a range of multicast addresses. At MDT
switchover, an address (namely, switch-group address) is chosen
from the switch-group-pool. The multicast packets for the VPN that
enter the public network at the PE device will be encapsulated using
that address. The switch-group-pool of a VPN must not overlap that of
another VPN, and must not contain the share-group of another VPN.
Introduction to MD-VPN
The main points in MD-VPN implementation are as follows:
• The public network of the service provider supports multicast:
{ The PE devices must support the public network and multiple VPN instances.
{ Each instance runs PIM independently.