06-IP Multicast Configuration Guide

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02-IGMP snooping configuration
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02-IGMP snooping configuration 496.39 KB

Contents

Configuring IGMP snooping· 1

About IGMP snooping· 1

Fundamentals of IGMP snooping· 1

IGMP snooping ports· 1

How IGMP snooping works· 3

IGMP snooping proxying· 4

Protocols and standards· 5

Restrictions and guidelines: IGMP snooping configuration· 6

VLAN-based IGMP snooping tasks at a glance· 6

VSI-based IGMP snooping tasks at a glance· 7

Enabling the IGMP snooping feature· 8

Enabling IGMP snooping· 8

Enabling IGMP snooping globally· 8

Enabling IGMP snooping for VLANs· 9

Enabling IGMP snooping for a VSI 9

Configuring basic IGMP snooping features· 10

Specifying an IGMP snooping version· 10

Setting the maximum number of IGMP snooping forwarding entries· 11

Configuring static multicast MAC address entries· 11

Configuring static multicast MAC address entries for VXLAN· 12

Setting the IGMP last member query interval 12

Configuring IGMP snooping port features· 13

Setting aging timers for dynamic ports· 13

Configuring a static member port 14

Configuring a static router port 15

Configuring a port as a simulated member host 15

Enabling fast-leave processing· 16

Disabling a port from becoming a dynamic router port 16

Specifying the Layer 2 multicast forwarding mode· 17

About Layer 2 multicast forwarding modes· 17

Restrictions and guidelines for specifying the Layer 2 multicast forwarding mode· 17

Specifying the Layer 2 multicast forwarding mode for a VLAN· 17

Configuring the IGMP snooping querier 18

Enabling the IGMP snooping querier 18

Enabling IGMP snooping querier election· 18

Configuring parameters for IGMP general queries and responses· 19

Enabling the device to send IGMP general queries upon a path change· 20

Enabling IGMP snooping proxying· 21

About enabling IGMP snooping proxying· 21

Restrictions and guidelines for enabling IGMP snooping proxying· 21

Enabling IGMP snooping proxying for a VLAN· 21

Enabling IGMP snooping proxying for a VSI 21

Configuring parameters for IGMP messages· 22

Configuring source IP addresses for IGMP messages· 22

Setting the 802.1p priority for IGMP messages· 23

Configuring IGMP snooping policies· 24

Configuring a multicast group policy· 24

Enabling multicast source port filtering· 24

Enabling dropping unknown multicast data· 25

Enabling IGMP report suppression· 26

Setting the maximum number of multicast groups on a port 26

Enabling multicast group replacement 27

Enabling host tracking· 27

Setting the DSCP value for outgoing IGMP protocol packets· 28

Display and maintenance commands for IGMP snooping· 28

IGMP snooping configuration examples· 30

Example: Configuring VLAN-based IGMP snooping group polices and simulated joining· 30

Example: Configuring VLAN-based IGMP snooping static ports· 32

Example: Configuring the VLAN-based IGMP snooping querier 35

Example: Configuring VLAN-based IGMP snooping proxying· 38

Example: Configuring VSI-based IGMP snooping· 39

Example: Configuring VXLAN-based IGMP snooping· 46

Troubleshooting IGMP snooping· 50

Layer 2 multicast forwarding cannot function· 50

Multicast group policy does not work· 51

 


Configuring IGMP snooping

About IGMP snooping

IGMP snooping runs on a Layer 2 device as a multicast constraining mechanism to improve multicast forwarding efficiency. It creates Layer 2 multicast forwarding entries from IGMP packets that are exchanged between the hosts and the Layer 3 device.

Fundamentals of IGMP snooping

As shown in Figure 1, when IGMP snooping is not enabled, the Layer 2 switch floods multicast packets to all hosts in a VLAN or VSI. When IGMP snooping is enabled, the Layer 2 switch forwards multicast packets of known multicast groups to only the receivers.

Figure 1 Multicast packet transmission without and with IGMP snooping

 

IGMP snooping ports

As shown in Figure 2, IGMP snooping runs on Switch A and Switch B, and Host A and Host C are receivers in a multicast group. IGMP snooping ports are divided into member ports and router ports.

Figure 2 IGMP snooping ports

 

Router ports

On an IGMP snooping Layer 2 device, the ports toward Layer 3 multicast devices are called router ports. In Figure 2, Port A1 of Switch A and Port B1 of Switch B are router ports.

Router ports contain the following types:

·     Dynamic router port—When a port receives an IGMP general query whose source address is not 0.0.0.0 or receives a PIM hello message, the port is added into the dynamic router port list. At the same time, an aging timer is started for the port. If the port receives either of the messages before the timer expires, the timer is reset. If the port does not receive either of the messages when the timer expires, the port is removed from the dynamic router port list.

·     Static router port—When a port is statically configured as a router port, it is added into the static router port list. The static router port does not age out, and it can be deleted only manually.

Do not confuse the "router port" in IGMP snooping with the "routed interface" commonly known as the "Layer 3 interface." The router port in IGMP snooping is a Layer 2 interface.

Member ports

On an IGMP snooping Layer 2 device, the ports toward receiver hosts are called member ports. In Figure 2, Port A2 and Port A3 of Switch A and Port B2 of Switch B are member ports.

Member ports contain the following types:

·     Dynamic member port—When a port receives an IGMP report, it is added to the associated dynamic IGMP snooping forwarding entry as an outgoing interface. At the same time, an aging timer is started for the port. If the port receives an IGMP report before the timer expires, the timer is reset. If the port does not receive an IGMP report when the timer expires, the port is removed from the associated dynamic forwarding entry.

·     Static member port—When a port is statically configured as a member port, it is added to the associated static IGMP snooping forwarding entry as an outgoing interface. The static member port does not age out, and it can be deleted only manually.

Unless otherwise specified, router ports and member ports in this document include both static and dynamic router ports and member ports.

How IGMP snooping works

The ports in this section are dynamic ports. For information about how to configure and remove static ports, see "Configuring a static member port" and "Configuring a static router port."

IGMP messages types include general query, IGMP report, and leave message. An IGMP snooping-enabled Layer 2 device performs differently depending on the message types.

General query

The IGMP querier periodically sends IGMP general queries to all hosts and devices on the local subnet to check for the existence of multicast group members.

After receiving an IGMP general query, the Layer 2 device forwards the query to all ports in the VLAN or VSI except the receiving port. The Layer 2 device also performs one of the following actions:

·     If the receiving port is a dynamic router port in the dynamic router port list, the Layer 2 device restarts the aging timer for the port.

·     If the receiving port does not exist in the dynamic router port list, the Layer 2 device adds the port to the dynamic router port list. It also starts an aging timer for the port.

IGMP report

A host sends an IGMP report to the IGMP querier for the following purposes:

·     Responds to queries if the host is a multicast group member.

·     Applies for a multicast group membership.

After receiving an IGMP report from a host, the Layer 2 device forwards the report through all the router ports in the VLAN or VSI. It also resolves the address of the reported multicast group, and looks up the forwarding table for a matching entry as follows:

·     If no match is found, the Layer 2 device creates a forwarding entry with the receiving port as an outgoing interface. It also marks the receiving port as a dynamic member port and starts an aging timer for the port.

·     If a match is found but the matching forwarding entry does not contain the receiving port, the Layer 2 device adds the receiving port to the outgoing interface list. It also marks the receiving port as a dynamic member port and starts an aging timer for the port.

·     If a match is found and the matching forwarding entry contains the receiving port, the Layer 2 device restarts the aging timer for the port.

 

 

NOTE:

A Layer 2 device does not forward an IGMP report through a non-router port because of the host IGMP report suppression mechanism. If a non-router port has member host attached, the member hosts suppress their IGMP reports upon receiving IGMP reports forwarded by the non-router port. The Layer 2 device cannot know the existence of the member hosts attached to the non-router port. For more information about the IGMP report suppression mechanism, see "Configuring IGMP."

 

Leave message

An IGMPv1 receiver host does not send any leave messages when it leaves a multicast group. The Layer 2 device cannot immediately update the status of the port that connects to the receiver host. The Layer 2 device does not remove the port from the outgoing interface list in the associated forwarding entry until the aging time for the group expires.

An IGMPv2 or IGMPv3 host sends an IGMP leave message when it leaves a multicast group.

When the Layer 2 device receives an IGMP leave message on a dynamic member port, the Layer 2 device first examines whether a forwarding entry matches the group address in the message.

·     If no match is found, the Layer 2 device discards the IGMP leave message.

·     If a match is found but the receiving port is not an outgoing interface in the forwarding entry, the Layer 2 device discards the IGMP leave message.

·     If a match is found and the receiving port is not the only outgoing interface in the forwarding entry, the Layer 2 device performs the following actions:

¡     Discards the IGMP leave message.

¡     Sends an IGMP group-specific query to identify whether the group has active receivers attached to the receiving port.

¡     Sets the aging timer for the receiving port to twice the IGMP last member query interval.

·     If a match is found and the receiving port is the only outgoing interface in the forwarding entry, the Layer 2 device performs the following actions:

¡     Forwards the IGMP leave message to all router ports in the VLAN or VSI.

¡     Sends an IGMP group-specific query to identify whether the group has active receivers attached to the receiving port.

¡     Sets the aging timer for the receiving port to twice the IGMP last member query interval.

After receiving the IGMP leave message on a port, the IGMP querier resolves the multicast group address in the message. Then, it sends an IGMP group-specific query to the multicast group through the receiving port.

After receiving the IGMP group-specific query, the Layer 2 device forwards the query through all router ports and member ports of the group in the VLAN or VSI. Then, it waits for the responding IGMP report from the directly connected hosts. For the dynamic member port that received the leave message, the Layer 2 device also performs one of the following actions:

·     If the port receives an IGMP report before the aging timer expires, the Layer 2 device resets the aging timer.

·     If the port does not receive an IGMP report when the aging timer expires, the Layer 2 device removes the port from the forwarding entry for the multicast group.

IGMP snooping proxying

As shown in Figure 3, to reduce the number of IGMP report and leave messages received by the upstream device, you can enable IGMP snooping proxying on the edge device. With IGMP snooping proxying enabled, the edge device acts as a host for the upstream IGMP snooping querier to send IGMP report and leave messages to Device A. The host IGMP report suppression mechanism on the edge device does not take effect. For more information about the IGMP report suppression mechanism, see "Configuring IGMP."

Figure 3 IGMP snooping proxying

 

The IGMP snooping proxy device processes different IGMP messages as follows:

·     General query.

After receiving an IGMP general query, the device forwards the query to all ports in the VLAN or VSI except the receiving port. The device also generates an IGMP report based on the local membership information and sends the report to all router ports.

·     Group-specific query or group-and-source-specific query.

After receiving an IGMP group-specific query or group-and-source-specific query, the device forwards the query to all ports in the VLAN or VSI except the receiving port. If the forwarding entry has a member port, the device sends a report to all router ports in the VLAN or VSI.

·     Report.

After receiving an IGMP report from a host, the device looks up the forwarding table for a matching entry as follows:

¡     If a match is found and the matching forwarding entry contains the receiving port, the device resets the aging timer for the port.

¡     If a match is found but the matching forwarding entry does not contain the receiving port, the device adds the receiving port to the outgoing interface list. It also marks the receiving port as a dynamic member port and starts an aging timer for the port.

¡     If no match is found, the device creates a forwarding entry with the receiving port as an outgoing interface. It also marks the receiving port as a dynamic member port and starts an aging timer for the port. Then it sends the report to all router ports.

·     Leave message.

After receiving the IGMP leave message on a port, the device sends an IGMP group-specific query through the receiving port. The device sends the IGMP leave message to all router ports only when the last member port is removed from the forwarding entry.

Protocols and standards

RFC 4541, Considerations for Internet Group Management Protocol (IGMP) and Multicast Listener Discovery (MLD) Snooping Switches

Restrictions and guidelines: IGMP snooping configuration

For IGMP reports received from secondary VLANs, the associated IGMP snooping forwarding entries are maintained by the primary VLAN. Therefore, you need to enable IGMP snooping only for the primary VLAN. The IGMP snooping configuration made in secondary VLANs does not take effect. For more information about primary VLANs and secondary VLANs, see Layer 2—LAN Switching Configuration Guide.

The IGMP snooping configurations made on Layer 2 aggregate interfaces do not interfere with the configurations made on member ports. In addition, the configurations made on Layer 2 aggregate interfaces do not take part in aggregation calculations. The configuration made on a member port of the aggregate group takes effect after the port leaves the aggregate group.

Some features can be configured for a VLAN in VLAN view or for multiple VLANs in IGMP-snooping view. The configuration made in VLAN view and the configuration made in IGMP-snooping view have the same priority, and the most recent configuration takes effect.

Some features can be configured for a VLAN in VLAN view or globally for all VLANs in IGMP-snooping view. The VLAN-specific configuration takes priority over the global configuration.

Some features can be configured for a VSI in VSI view or globally for all VSIs in IGMP-snooping view. The VSI-specific configuration takes priority over the global configuration.

Some features can be configured for an interface in interface view or for all interfaces of the specified VLANs in IGMP-snooping view. The interface-specific configuration takes priority over the configuration made in IGMP-snooping view.

VLAN-based IGMP snooping tasks at a glance

To configure IGMP snooping for VLANs, perform the following tasks:

1.     Enabling the IGMP snooping feature

2.     Enabling IGMP snooping

Choose the following tasks as needed:

¡     Enabling IGMP snooping globally

¡     Enabling IGMP snooping for VLANs

3.     (Optional.) Configuring basic IGMP snooping features

¡     Specifying an IGMP snooping version

¡     Setting the maximum number of IGMP snooping forwarding entries

¡     Configuring static multicast MAC address entries

¡     Setting the IGMP last member query interval

4.     (Optional.) Configuring IGMP snooping port features

¡     Setting aging timers for dynamic ports

¡     Configuring a static member port

¡     Configuring a static router port

¡     Configuring a port as a simulated member host

¡     Enabling fast-leave processing

¡     Disabling a port from becoming a dynamic router port

5.     (Optional.) Specifying the Layer 2 multicast forwarding mode

6.     (Optional.) Configuring the IGMP snooping querier

¡     Enabling the IGMP snooping querier

¡     Enabling IGMP snooping querier election

¡     Configuring parameters for IGMP general queries and responses

¡     Enabling the device to send IGMP general queries upon a path change

7.     (Optional.) Enabling IGMP snooping proxying

8.     (Optional.) Configuring parameters for IGMP messages

¡     Configuring source IP addresses for IGMP messages

¡     Setting the 802.1p priority for IGMP messages

9.     (Optional.) Configuring IGMP snooping policies

¡     Configuring a multicast group policy

¡     Enabling multicast source port filtering

¡     Enabling dropping unknown multicast data

¡     Enabling IGMP report suppression

¡     Setting the maximum number of multicast groups on a port

¡     Enabling multicast group replacement

¡     Enabling host tracking

10.     (Optional.) Setting the DSCP value for outgoing IGMP protocol packets

VSI-based IGMP snooping tasks at a glance

To configure IGMP snooping for VSIs, perform the following tasks:

1.     Enabling the IGMP snooping feature

2.     Enabling IGMP snooping

Choose the following tasks as needed:

¡     Enabling IGMP snooping globally

¡     Enabling IGMP snooping for a VSI

3.     (Optional.) Configuring basic IGMP snooping features

¡     Specifying an IGMP snooping version

¡     Setting the maximum number of IGMP snooping forwarding entries

¡     Setting the IGMP last member query interval

4.     (Optional.) Setting aging timers for dynamic ports

5.     (Optional.) Configuring the IGMP snooping querier

¡     Enabling the IGMP snooping querier

¡     Enabling IGMP snooping querier election

¡     Configuring parameters for IGMP general queries and responses

6.     (Optional.) Enabling IGMP snooping proxying

7.     (Optional.) Configuring parameters for IGMP messages

¡     Configuring source IP addresses for IGMP messages

¡     Setting the 802.1p priority for IGMP messages

8.     (Optional.) Configuring IGMP snooping policies

¡     Enabling dropping unknown multicast data

¡     Enabling IGMP report suppression

9.     (Optional.) Setting the DSCP value for outgoing IGMP protocol packets

Enabling the IGMP snooping feature

About this task

You must enable the IGMP snooping feature before you configure other IGMP snooping features.

Procedure

1.     Enter system view.

system-view

2.     Enable the IGMP snooping feature and enter IGMP-snooping view.

igmp-snooping

By default, the IGMP snooping feature is disabled.

Enabling IGMP snooping

Enabling IGMP snooping globally

About this task

After you enable IGMP snooping globally, IGMP snooping is enabled for all VLANs or VSIs. You can disable IGMP snooping for a VLAN or VSI when IGMP snooping is globally enabled.

Restrictions and guidelines

To configure other IGMP snooping features for VLANs or VSIs, you must enable IGMP snooping for the specific VLANs or VSIs even though IGMP snooping is enabled globally.

The VLAN-specific or VSI-specific IGMP snooping configuration takes priority over the global IGMP snooping configuration. For example, if you enable IGMP snooping globally and then use the igmp-snooping disable command to disable IGMP snooping for a VLAN, IGMP snooping is disabled in the VLAN.

Procedure

1.     Enter system view.

system-view

2.     Enter IGMP-snooping view.

igmp-snooping

3.     Enable IGMP snooping globally.

global-enable

By default, IGMP snooping is disabled globally.

4.     (Optional.) Disable IGMP snooping for a VLAN or VSI.

a.     Return to system view.

quit

b.     Enter VLAN or VSI view.

vlan vlan-id

vsi vsi-name

c.     Disable IGMP snooping for the VLAN or VSI.

igmp-snooping disable

By default, the IGMP snooping status in a VLAN or VSI is consistent with the global IGMP snooping status.

Enabling IGMP snooping for VLANs

Restrictions and guidelines

You can enable IGMP snooping for multiple VLANs by using the enable vlan command in IGMP-snooping view or for a VLAN by using the igmp-snooping enable command in VLAN view. The configuration in VLAN view has the same priority as the configuration in IGMP-snooping view.

IGMP snooping configuration in a VLAN takes effect only on the member ports in the VLAN.

Enabling IGMP snooping for multiple VLANs

1.     Enter system view.

system-view

2.     Enter IGMP-snooping view.

igmp-snooping

3.     Enable IGMP snooping for the specified VLANs.

enable vlan vlan-list

By default, the IGMP snooping status in a VLAN is consistent with the global IGMP snooping status.

Enabling IGMP snooping for a VLAN

1.     Enter system view.

system-view

2.     Enter VLAN view.

vlan vlan-id

3.     Enable IGMP snooping for the VLAN.

igmp-snooping enable

By default, the IGMP snooping status in a VLAN is consistent with the global IGMP snooping status.

Enabling IGMP snooping for a VSI

Restrictions and guidelines

For VSIs, you can only enable IGMP snooping for a VSI by using the igmp-snooping enable command in VSI view.

IGMP snooping configuration in a VSI takes effect only on the member ports in the VSI.

Procedure

1.     Enter system view.

system-view

2.     Enter VSI view.

vsi vsi-name

3.     Enable IGMP snooping for the VSI.

igmp-snooping enable

By default, the IGMP snooping status in a VSI is consistent with the global IGMP snooping status.

Configuring basic IGMP snooping features

Specifying an IGMP snooping version

About this task

Different IGMP snooping versions process different versions of IGMP messages.

·     IGMPv2 snooping processes IGMPv1 messages, IGMPv2 messages, and IGMPv3 queries, but it floods IGMPv3 reports in the VLAN or VSI instead of processing them.

·     IGMPv3 snooping processes IGMPv1, IGMPv2, and IGMPv3 messages.

Restrictions and guidelines

If you change the IGMP snooping version from 2 to 3, the device performs the following actions:

·     Clears all IGMP snooping forwarding entries that are dynamically created.

·     Keeps static IGMPv3 snooping forwarding entries (*, G).

·     Clears static IGMPv3 snooping forwarding entries (S, G), which will be restored when the IGMP snooping version is switched back to 3.

For more information about static IGMP snooping forwarding entries, see "Configuring a static member port."

Specifying an IGMP snooping version for multiple VLANs

1.     Enter system view.

system-view

2.     Enter IGMP-snooping view.

igmp-snooping

3.     Specify an IGMP snooping version for multiple VLANs.

version version-number vlan vlan-list

By default, the IGMP snooping version for a VLAN is 2.

Specifying an IGMP snooping version for a VLAN

1.     Enter system view.

system-view

2.     Enter VLAN view.

vlan vlan-id

3.     Specify an IGMP snooping version for the VLAN.

igmp-snooping version version-number

By default, the IGMP snooping version for a VLAN is 2.

Specifying an IGMP snooping version for a VSI

1.     Enter system view.

system-view

2.     Enter VSI view.

vsi vsi-name

3.     Specify an IGMP snooping version for the VSI.

igmp-snooping version version-number

By default, the IGMP snooping version for a VSI is 2.

Setting the maximum number of IGMP snooping forwarding entries

About this task

You can modify the maximum number of IGMP snooping forwarding entries, including dynamic entries and static entries. When the number of forwarding entries on the device reaches the upper limit, the device does not automatically remove any existing entries. To allow new entries to be created, remove some entries manually.

Procedure

1.     Enter system view.

system-view

2.     Enter IGMP-snooping view.

igmp-snooping

3.     Set the maximum number of IGMP snooping forwarding entries.

entry-limit limit

By default, the maximum number of IGMP snooping forwarding entries is 4294967295.

Configuring static multicast MAC address entries

About this task

In Layer 2 multicast, multicast MAC address entries can be dynamically created through Layer 2 multicast protocols (such as IGMP snooping). You can also manually configure static multicast MAC address entries by binding multicast MAC addresses and ports to control the destination ports of the multicast data.

Restrictions and guidelines

You must specify an unused multicast MAC address when configuring a static multicast MAC address entry. A multicast MAC address is the MAC address in which the least significant bit of the most significant octet is 1.

Configuring a static multicast MAC address entry in system view

1.     Enter system view.

system-view

2.     Configure a static multicast MAC address entry.

mac-address multicast mac-address interface interface-list vlan vlan-id

Configuring a static multicast MAC address entry in interface view

1.     Enter system view.

system-view

2.     Enter Layer 2 interface view.

¡     Enter Layer 2 Ethernet interface view.

interface interface-type interface-number

¡     Enter Layer 2 aggregate interface view.

interface bridge-aggregation interface-number

3.     Configure a static multicast MAC address entry.

mac-address multicast mac-address vlan vlan-id

Configuring static multicast MAC address entries for VXLAN

About this task

Use this feature to configure local and remote static multicast MAC address entries for a VXLAN network. For more information about VXLAN, see VXLAN Configuration Guide.

Restrictions and guidelines

Do not specify the tunnel interfaces automatically created by using EVPN as outgoing interfaces for a remote static multicast MAC address entry. If you do so, the numbers of these tunnel interfaces might change during tunnel re-establishment, and the related entries cannot be restored as a result. For more information about EVPN, see EVPN Configuration Guide.

In an EVPN network, you cannot configure the same multicast MAC address entry on multiple leaf nodes or VTEPs. When configured with EVPN multihoming, a VTEP does not support synchronization of multicast MAC address entries.

Procedure

1.     Enter system view.

system-view

2.     Configure local static multicast MAC address entries.

mac-address multicast mac-address { interface { interface-type interface-number service-instance instance-id }&<1-4> } vsi vsi-name

By default, no local static multicast MAC address entries exist.

For successful configuration, make sure the specified Ethernet service instances have been mapped to the specified VSI.

3.     Configure remote static multicast MAC address entries.

mac-address multicast mac-address { interface { tunnel tunnel-number1 [ to tunnel tunnel-number2 ] }&<1-4> } vsi vsi-name

By default, no remote static multicast MAC address entries exist.

For successful configuration, make sure the specified VXLAN tunnel interfaces have been associated with the specified VSI.

Setting the IGMP last member query interval

About this task

A receiver host starts a report delay timer for a multicast group when it receives an IGMP group-specific query for the group. This timer is set to a random value in the range of 0 to the maximum response time advertised in the query. When the timer value decreases to 0, the host sends an IGMP report to the group.

The IGMP last member query interval defines the maximum response time advertised in IGMP group-specific queries. Set an appropriate value for the IGMP last member query interval to speed up hosts' responses to IGMP group-specific queries and avoid IGMP report traffic bursts.

Setting the IGMP last member query interval globally

1.     Enter system view.

system-view

2.     Enter IGMP-snooping view.

igmp-snooping

3.     Set the IGMP last member query interval globally.

last-member-query-interval interval

By default, the global IGMP last member query interval is 1 second.

Setting the IGMP last member query interval for a VLAN

1.     Enter system view.

system-view

2.     Enter VLAN view.

vlan vlan-id

3.     Set the IGMP last member query interval for the VLAN.

igmp-snooping last-member-query-interval interval

By default, the IGMP last member query interval is 1 second for a VLAN.

Setting the IGMP last member query interval for a VSI

1.     Enter system view.

system-view

2.     Enter VSI view.

vsi vsi-name

3.     Set the IGMP last member query interval for the VSI.

igmp-snooping last-member-query-interval interval

By default, the IGMP last member query interval is 1 second for a VSI.

Configuring IGMP snooping port features

Setting aging timers for dynamic ports

About this task

A dynamic router port is removed from the dynamic router port list if it does not receive an IGMP general query or PIM hello message when its aging timer expires.

A dynamic member port is removed from the dynamic member port if it does not receive an IGMP report when its aging timer expires.

Restrictions and guidelines

Set an appropriate value for the aging timers of dynamic ports. For example, if the memberships of multicast groups frequently change, set a relatively small value for the aging timer of the dynamic member ports. If the memberships of multicast groups rarely change, set a relatively large value.

If a dynamic router port receives a PIMv2 hello message, the aging timer for the port is specified by the hello message. In this case, the router-aging-time or igmp-snooping router-aging-time command does not take effect on the port.

IGMP group-specific queries originated by the Layer 2 device trigger the adjustment of aging timers for dynamic member ports. If a dynamic member port receives such a query, its aging timer is set to twice the IGMP last member query interval. For more information about setting the IGMP last member query interval on the Layer 2 device, see "Setting the IGMP last member query interval."

Setting the aging timers for dynamic ports globally

1.     Enter system view.

system-view

2.     Enter IGMP-snooping view.

igmp-snooping

3.     Set the aging timer for dynamic router ports globally.

router-aging-time seconds

By default, the aging timer for dynamic router ports is 260 seconds.

4.     Set the global aging timer for dynamic member ports globally.

host-aging-time seconds

By default, the aging timer for dynamic member ports is 260 seconds.

Setting the aging timers for dynamic ports in a VLAN

1.     Enter system view.

system-view

2.     Enter VLAN view.

vlan vlan-id

3.     Set the aging timer for dynamic router ports in the VLAN.

igmp-snooping router-aging-time seconds

By default, the aging timer for dynamic router ports is 260 seconds.

4.     Set the aging timer for dynamic member ports in the VLAN.

igmp-snooping host-aging-time seconds

By default, the aging timer for dynamic member ports is 260 seconds.

Setting the aging timers for dynamic ports in a VSI

1.     Enter system view.

system-view

2.     Enter VSI view.

vsi vsi-name

3.     Set the aging timer for dynamic router ports in the VSI.

igmp-snooping router-aging-time seconds

By default, the aging timer for dynamic router ports is 260 seconds.

4.     Set the aging timer for dynamic member ports in the VSI.

igmp-snooping host-aging-time seconds

By default, the aging timer for dynamic member ports is 260 seconds.

Configuring a static member port

About this task

You can configure a port as a static member port for a multicast group so that hosts attached to the port can always receive multicast for the group. The static member port does not respond to IGMP queries. When you complete or cancel this configuration on a port, the port does not send an unsolicited IGMP report or leave message.

Procedure

1.     Enter system view.

system-view

2.     Enter Layer 2 interface view.

¡     Enter Layer 2 Ethernet interface view.

interface interface-type interface-number

¡     Enter Layer 2 aggregate interface view.

interface bridge-aggregation interface-number

3.     Configure the port as a static member port.

igmp-snooping static-group group-address [ source-ip source-address ] vlan vlan-id

By default, a port is not a static member port.

Configuring a static router port

About this task

You can configure a port as a static router port for a multicast group so that all multicast data for the group received on the port will be forwarded.

Procedure

1.     Enter system view.

system-view

2.     Enter Layer 2 interface view.

¡     Enter Layer 2 Ethernet interface view.

interface interface-type interface-number

¡     Enter Layer 2 aggregate interface view.

interface bridge-aggregation interface-number

3.     Configure the port as a static router port.

igmp-snooping static-router-port vlan vlan-id

By default, a port is not a static router port.

Configuring a port as a simulated member host

About this task

When a port is configured as a simulated member host, it is equivalent to an independent host in the following ways:

·     It sends an unsolicited IGMP report when you complete the configuration.

·     It responds to IGMP general queries with IGMP reports.

·     It sends an IGMP leave message when you cancel the configuration.

The version of IGMP running on the simulated member host is the same as the version of IGMP snooping running on the port. The port ages out in the same way as a dynamic member port.

Procedure

1.     Enter system view.

system-view

2.     Enter Layer 2 interface view.

¡     Enter Layer 2 Ethernet interface view.

interface interface-type interface-number

¡     Enter Layer 2 aggregate interface view.

interface bridge-aggregation interface-number

3.     Configure the port as a simulated member host.

igmp-snooping host-join group-address [ source-ip source-address ] vlan vlan-id

By default, the port is not a simulated member host.

Enabling fast-leave processing

About this task

This feature enables the Layer 2 device to immediately remove a port from the forwarding entry for a multicast group when the port receives a leave massage. The Layer 2 device no longer sends or forwards IGMP group-specific queries for the group to the port.

Restrictions and guidelines

Do not enable fast-leave processing on a port that has multiple receiver hosts in a VLAN. If you do so, the remaining receivers cannot receive multicast data for a group after a receiver leaves the group.

Enabling fast-leave processing globally

1.     Enter system view.

system-view

2.     Enter IGMP-snooping view.

igmp-snooping

3.     Enable fast-leave processing globally.

fast-leave [ vlan vlan-list ]

By default, fast-leave processing is disabled globally.

Enabling fast-leave processing on a port

1.     Enter system view.

system-view

2.     Enter Layer 2 interface view.

¡     Enter Layer 2 Ethernet interface view.

interface interface-type interface-number

¡     Enter Layer 2 aggregate interface view.

interface bridge-aggregation interface-number

3.     Enable fast-leave processing on the port.

igmp-snooping fast-leave [ vlan vlan-list ]

By default, fast-leave processing is disabled on a port.

Disabling a port from becoming a dynamic router port

About this task

A receiver host might send IGMP general queries or PIM hello messages for testing purposes. On the Layer 2 device, the port that receives either of the messages becomes a dynamic router port. Before the aging timer for the port expires, the following problems might occur:

·     All multicast data for the VLAN to which the port belongs flows to the port. Then, the port forwards the data to attached receiver hosts. The receiver hosts will receive multicast data that it does not want to receive.

·     The port forwards the IGMP general queries or PIM hello messages to its upstream Layer 3 devices. These messages might affect the multicast routing protocol state (such as the IGMP querier or DR election) on the Layer 3 devices. This might further cause network interruption.

To solve these problems, you can disable a port from becoming a dynamic router port. This also improves network security and the control over receiver hosts.

Restrictions and guidelines

This configuration and the static router port configuration do not interfere with each other.

Procedure

1.     Enter system view.

system-view

2.     Enter Layer 2 interface view.

¡     Enter Layer 2 Ethernet interface view.

interface interface-type interface-number

¡     Enter Layer 2 aggregate interface view.

interface bridge-aggregation interface-number

3.     Disable the port from becoming a dynamic router port.

igmp-snooping router-port-deny [ vlan vlan-list ]

By default, a port is allowed to become a dynamic router port.

Specifying the Layer 2 multicast forwarding mode

About Layer 2 multicast forwarding modes

The device supports the following Layer 2 multicast forwarding modes:

·     MAC-based mode—The device forwards Layer 2 multicast packets based on the multicast MAC addresses in the packets.

·     IP-based mode—The device forwards Layer 2 multicast packets based on the IP addresses (multicast source addresses and multicast group addresses) in the packets.

To display Layer 2 multicast IP forwarding entries, use the display l2-multicast ip forwarding command.

To display Layer 2 multicast MAC forwarding entries, use the display l2-multicast mac forwarding command.

Restrictions and guidelines for specifying the Layer 2 multicast forwarding mode

Multiple multicast IP addresses might be mapped to the same multicast MAC address. This causes that non-members of a multicast group receive the multicast data of this group if the device uses the MAC-based forwarding mode. As a best practice, specify the IP-based Layer 2 multicast forwarding mode on Layer 3 multicast devices.

As a best practice, specify the IP-based Layer 2 multicast forwarding mode on the device if a device running IGMPv3 exists in the network.

Specifying the Layer 2 multicast forwarding mode for a VLAN

1.     Enter system view.

system-view

2.     Enter VLAN view.

vlan vlan-id

3.     Specify the Layer 2 multicast forwarding mode.

igmp-snooping forwarding-mode { ip | mac }

By default, the device forwards Layer 2 multicast packets based on the multicast MAC addresses in the packets.

Configuring the IGMP snooping querier

Enabling the IGMP snooping querier

About this task

This feature enables the Layer 2 device to periodically send IGMP general queries to establish and maintain multicast forwarding entries at the data link Layer. You can configure an IGMP snooping querier on a network without Layer 3 multicast devices.

Restrictions and guidelines

Do not enable the IGMP snooping querier on a multicast network that runs IGMP. An IGMP snooping querier does not take part in IGMP querier elections. However, it might affect IGMP querier elections if it sends IGMP general queries with a low source IP address. For more information about IGMP querier, see "Configuring IGMP."

On a VXLAN network, the IGMP snooping querier in a VSI does not include VLAN tags in IGMP general queries. As a best practice, do not enable the IGMP snooping querier in a VSI if the VSI uses the Ethernet access mode. For more information about the Ethernet access mode, see VXLAN Configuration Guide.

Enabling the IGMP snooping querier for a VLAN

1.     Enter system view.

system-view

2.     Enter VLAN view.

vlan vlan-id

3.     Enable the IGMP snooping querier for the VLAN.

igmp-snooping querier

By default, the IGMP snooping querier is disabled for a VLAN.

Enabling the IGMP snooping querier for a VSI

1.     Enter system view.

system-view

2.     Enter VSI view.

vsi vsi-name

3.     Enable the IGMP snooping querier for the VSI.

igmp-snooping querier

By default, the IGMP snooping querier is disabled for a VSI.

Enabling IGMP snooping querier election

About this task

To avoid traffic interruption caused by the failure of a single querier in a VLAN or VSI, configure multiple queriers in the VLAN or VSI and enable querier election. When the elected querier fails, the device starts a new querier election to ensure multicast forwarding. The mechanism for IGMP snooping querier election is the same as that for IGMP querier election. For more information about IGMP querier election, see "Configuring IGMP."

Prerequisites for enabling IGMP snooping querier election

Before you enable IGMP snooping querier election, you must complete the following tasks:

·     Enable the IGMP snooping querier for a VLAN or VSI. For more information about enabling the IGMP snooping querier, see "Enabling the IGMP snooping querier."

·     Configure the source IP address for IGMP general queries as an IP address different from 0.0.0.0 and the local querier IP address. An IGMP snooping querier performs querier election only if the source IP address of a received IGMP general query is not 0.0.0.0 or its own IP address.

·     Make sure the candidate IGMP snooping queriers run the same IGMP snooping version. To specify the IGMP snooping version, use the igmp-snooping version command.

Enabling IGMP snooping querier election for a VLAN

1.     Enter system view.

system-view

2.     Enter VLAN view.

vlan vlan-id

3.     Enable IGMP snooping querier election for the VLAN.

igmp-snooping querier-election

By default, IGMP snooping querier election is disabled for a VLAN.

Enabling IGMP snooping querier election for a VSI

1.     Enter system view.

system-view

2.     Enter VSI view.

vsi vsi-name

3.     Enable IGMP snooping querier election for the VSI.

igmp-snooping querier-election

By default, IGMP snooping querier election is disabled for a VSI.

Configuring parameters for IGMP general queries and responses

About this task

You can modify the IGMP general query interval based on the actual condition of the network.

A receiver host starts a report delay timer for each multicast group that it has joined when it receives an IGMP general query. This timer is set to a random value in the range of 0 to the maximum response time advertised in the query. When the timer value decreases to 0, the host sends an IGMP report to the corresponding multicast group.

Set an appropriate value for the maximum response time for IGMP general queries to speed up hosts' responses to IGMP general queries and avoid IGMP report traffic bursts.

Restrictions and guidelines

To avoid mistakenly deleting multicast group members, make sure the IGMP general query interval is greater than the maximum response time for IGMP general queries.

Configuring parameters for IGMP general queries and responses globally

1.     Enter system view.

system-view

2.     Enter IGMP-snooping view.

igmp-snooping

3.     Set the maximum response time for IGMP general queries.

max-response-time seconds

By default, the maximum response time for IGMP general queries is 10 seconds.

Configuring parameters for IGMP general queries and responses in a VLAN

1.     Enter system view.

system-view

2.     Enter VLAN view.

vlan vlan-id

3.     Set the IGMP general query interval in the VLAN.

igmp-snooping query-interval interval

By default, the IGMP general query interval is 125 seconds for a VLAN.

4.     Set the maximum response time for IGMP general queries in the VLAN.

igmp-snooping max-response-time seconds

By default, the maximum response time for IGMP general queries is 10 seconds for a VLAN.

Configuring parameters for IGMP general queries and responses in a VSI

1.     Enter system view.

system-view

2.     Enter VSI view.

vsi vsi-name

3.     Set the IGMP general query interval in the VSI.

igmp-snooping query-interval interval

By default, the IGMP general query interval is 125 seconds for a VSI.

4.     Set the maximum response time for IGMP general queries in the VSI.

igmp-snooping max-response-time seconds

By default, the maximum response time for IGMP general queries is 10 seconds for a VSI.

Enabling the device to send IGMP general queries upon a path change

About this task

Perform this task to enable the device to immediately send an IGMP general query to all ports in the affected VLAN when a path changes. This feature ensures that the device can update the member port information in multicast forwarding entries and switch multicast traffic to the new path promptly.

Restrictions and guidelines

Perform this task on the IGMP snooping querier in a network of which the topology frequently changes.

Procedure

1.     Enter system view.

system-view

2.     Enter IGMP-snooping view.

igmp-snooping

3.     Enable the device to send IGMP general queries upon a path change.

send-query enable

By default, the device does not send IGMP general queries upon a path change.

Enabling IGMP snooping proxying

About enabling IGMP snooping proxying

The device enabled with IGMP snooping proxying is called an IGMP snooping proxy. The IGMP snooping proxy acts as a host to the upstream device. Enabled with IGMP snooping querier, the IGMP snooping proxy acts as the router to downstream devices and receives report and leave messages on behalf of the upstream device. As a best practice, enable IGMP snooping proxy on the edge device to alleviate the effect caused by excessive packets.

Restrictions and guidelines for enabling IGMP snooping proxying

Before you enable IGMP snooping proxying for a VLAN or VSI, you must first enable IGMP snooping globally and enable IGMP snooping for the VLAN or VSI. IGMP snooping proxying does not take effect on sub VLANs of a multicast VLAN.

Use this feature with IGMP snooping querier. For more information about enabling IGMP snooping querier, see "Enabling the IGMP snooping querier."

Enabling IGMP snooping proxying for a VLAN

1.     Enter system view.

system-view

2.     Enter VLAN view.

vlan vlan-id

3.     Enable IGMP snooping proxying for the VLAN.

igmp-snooping proxy enable

By default, IGMP snooping proxying is disabled for a VLAN.

Enabling IGMP snooping proxying for a VSI

1.     Enter system view.

system-view

2.     Enter VSI view.

vsi vsi-name

3.     Enable IGMP snooping proxying for the VSI.

igmp-snooping proxy enable

By default, IGMP snooping proxying is disabled for a VSI.

Configuring parameters for IGMP messages

Configuring source IP addresses for IGMP messages

About this task

The IGMP snooping querier might send IGMP general queries with the source IP address 0.0.0.0. The port that receives such queries will not be maintained as a dynamic router port. This might prevent the associated dynamic IGMP snooping forwarding entry from being correctly created at the data link layer and eventually cause multicast traffic forwarding failures. To avoid this problem, you can configure a non-all-zero IP address as the source IP address of the IGMP queries on the IGMP snooping querier. This configuration might affect the IGMP querier election within the subnet.

You can also change the source IP address of IGMP reports or leave messages sent by a simulated member host or an IGMP snooping proxy.

Configuring the source IP addresses for IGMP messages in a VLAN

1.     Enter system view.

system-view

2.     Enter VLAN view.

vlan vlan-id

3.     Configure the source IP address for IGMP general queries.

igmp-snooping general-query source-ip ip-address

By default, the source IP address of IGMP general queries is the IP address of the current VLAN interface. If the current VLAN interface does not have an IP address, the source IP address is 0.0.0.0.

4.     Configure the source IP address for IGMP group-specific queries.

igmp-snooping special-query source-ip ip-address

By default, the source IP address of IGMP group-specific queries is one of the following:

¡     The source address of IGMP group-specific queries if the IGMP snooping querier of the VLAN has received IGMP general queries.

¡     The IP address of the current VLAN interface if the IGMP snooping querier does not receive an IGMP general query.

¡     0.0.0.0 if the IGMP snooping querier does not receive an IGMP general query and the current VLAN interface does not have an IP address.

5.     Configure the source IP address for IGMP reports.

igmp-snooping report source-ip ip-address

By default, the source IP address of IGMP reports is the IP address of the current VLAN interface. If the current VLAN interface does not have an IP address, the source IP address is 0.0.0.0.

6.     Configure the source IP address for IGMP leave messages.

igmp-snooping leave source-ip ip-address

By default, the source IP address of IGMP leave messages is the IP address of the current VLAN interface. If the current VLAN interface does not have an IP address, the source IP address is 0.0.0.0.

Configuring the source IP addresses for IGMP messages in a VSI

1.     Enter system view.

system-view

2.     Enter VSI view.

vsi vsi-name

3.     Configure the source IP address for IGMP general queries.

igmp-snooping general-query source-ip ip-address

By default, the source IP address of IGMP general queries is the IP address of the gateway interface for a VSI. If the gateway interface does not have an IP address, the source IP address is 0.0.0.0.

4.     Configure the source IP address for IGMP group-specific queries.

igmp-snooping special-query source-ip ip-address

By default, the source IP address of IGMP group-specific queries is one of the following:

¡     The source IP address of IGMP general queries if the IGMP snooping querier of a VSI has received IGMP general queries.

¡     The IP address of the gateway interface for the VSI if the IGMP snooping querier does not receive an IGMP general query.

¡     0.0.0.0 if the gateway interface of the VSI does not have an IP address.

5.     Configure the source IP address for IGMP reports.

igmp-snooping report source-ip ip-address

By default, the source IP address of IGMP reports is the IP address of the gateway interface for a VSI. If the gateway interface does not have an IP address, the source IP address is 0.0.0.0.

6.     Configure the source IP address for IGMP leave messages.

igmp-snooping leave source-ip ip-address

By default, the source IP address of IGMP leave messages is the IP address of the gateway interface for a VSI. If the gateway interface does not have an IP address, the source IP address is 0.0.0.0.

Setting the 802.1p priority for IGMP messages

About this task

When congestion occurs on outgoing ports of the Layer 2 device, it forwards IGMP messages in their 802.1p priority order, from highest to lowest. You can assign a higher 802.1p priority to IGMP messages that are created or forwarded by the device.

Restrictions and guidelines

The configuration in IGMP-snooping view takes effect only for all VLANs. For VSIs, you can set the 802.1p priority for IGMP messages only in VSI view.

Setting the 802.1p priority for IGMP messages globally

1.     Enter system view.

system-view

2.     Enter IGMP-snooping view.

igmp-snooping

3.     Set the 802.1p priority for IGMP messages.

dot1p-priority priority

By default, the global 802.1p priority is 6 for IGMP messages.

Setting the 802.1p priority for IGMP messages in a VLAN

1.     Enter system view.

system-view

2.     Enter VLAN view.

vlan vlan-id

3.     Set the 802.1p priority for IGMP messages in the VLAN.

igmp-snooping dot1p-priority priority

By default, the 802.1p priority is 6 for IGMP messages in a VLAN.

Configuring IGMP snooping policies

Configuring a multicast group policy

About this task

This feature enables the Layer 2 device to filter IGMP reports by using an ACL that specifies the multicast groups and the optional sources. It is used to control the multicast groups that hosts can join. This configuration takes effect only on the multicast groups that ports join dynamically.

In a multicast application, a host sends an unsolicited IGMP report when a user requests a multicast program. The Layer 2 device uses the multicast group policy to filter the IGMP report. The host can join the multicast group only if the IGMP report is permitted by the multicast group policy.

Configuring a multicast group policy globally

1.     Enter system view.

system-view

2.     Enter IGMP-snooping view.

igmp-snooping

3.     Configure a multicast group policy globally.

group-policy ipv4-acl-number [ vlan vlan-list ]

By default, no multicast group policies are configured, and hosts can join any multicast groups.

Configuring a multicast group policy on a port

1.     Enter system view.

system-view

2.     Enter Layer 2 interface view.

¡     Enter Layer 2 Ethernet interface view.

interface interface-type interface-number

¡     Enter Layer 2 aggregate interface view.

interface bridge-aggregation interface-number

3.     Configure a multicast group policy on the port.

igmp-snooping group-policy ipv4-acl-number [ vlan vlan-list ]

By default, no multicast group policies are configured on a port, and hosts attached to the port can join any multicast groups.

Enabling multicast source port filtering

About this task

This feature enables the Layer 2 device to discard all multicast data packets and to accept multicast protocol packets. You can enable this feature on ports that connect only to multicast receivers.

Restrictions and guidelines

When multicast source port filtering is enabled, the system automatically enables multicast source port filtering.

The configuration made for multiple interfaces in IGMP-snooping view has the same priority as the interface-specific configuration, and the most recent configuration takes effect.

Enabling multicast source port filtering in IGMP-snooping view

1.     Enter system view.

system-view

2.     Enter IGMP-snooping view.

igmp-snooping

3.     Enable multicast source port filtering.

source-deny port interface-list

By default, multicast source port filtering is disabled.

Enabling multicast source port filtering in interface view

1.     Enter system view.

system-view

2.     Enter Layer 2 Ethernet interface view.

interface interface-type interface-number

3.     Enable multicast source port filtering.

igmp-snooping source-deny

By default, multicast source port filtering is disabled.

Enabling dropping unknown multicast data

About this task

Unknown multicast data refers to multicast data for which no forwarding entries exist in the IGMP snooping forwarding table. This feature enables the device to forward unknown multicast data only to the router port. If the device does not have a router port, unknown multicast data will be dropped.

If you do not enable this feature, the unknown multicast data is flooded in the VLAN or VSI to which the data belongs.

Restrictions and guidelines

When dropping unknown IPv4 multicast data is enabled, the device also drops unknown IPv6 multicast data.

When this feature is enabled for a VLAN or VSI, the device still forwards unknown multicast data out of router ports except the receiving router port in this VLAN or VSI.

If the outgoing ports of the multicast forwarding entry for a Layer 3 multicast packet are in the same VLAN, enable dropping unknown multicast data for the VLAN as a best practice. This restriction prevents the device from flooding the Layer 3 multicast packet in the VLAN.

Enabling dropping unknown multicast data for a VLAN

1.     Enter system view.

system-view

2.     Enter VLAN view.

vlan vlan-id

3.     Enable dropping unknown multicast data for the VLAN.

igmp-snooping drop-unknown

By default, dropping unknown multicast data is disabled for a VLAN. Unknown multicast data is flooded in the VLAN.

Enabling dropping unknown multicast data for a VSI

1.     Enter system view.

system-view

2.     Enter VSI view.

vsi vsi-name

3.     Enable dropping unknown multicast data for the VSI.

igmp-snooping drop-unknown

By default, dropping unknown multicast data is disabled for a VSI. Unknown multicast data is flooded in the VSI.

Enabling IGMP report suppression

About this task

This feature enables the Layer 2 device to forward only the first IGMP report for a multicast group to its directly connected Layer 3 device. Other reports for the same group in the same query interval are discarded. Use this feature to reduce multicast traffic.

Procedure

1.     Enter system view.

system-view

2.     Enter IGMP-snooping view.

igmp-snooping

3.     Enable IGMP report suppression.

report-aggregation

By default, IGMP report suppression is enabled.

Setting the maximum number of multicast groups on a port

About this task

You can set the maximum number of multicast groups on a port to regulate the port traffic. This feature takes effect only on the multicast groups that a port joins dynamically.

If the number of multicast groups on a port exceeds the limit, the system removes all the forwarding entries associated with the port. The receiver hosts attached to that port can join multicast groups again before the number of multicast groups on the port reaches the limit. When the number of multicast groups on the port reaches the limit, the port automatically drops IGMP reports for new groups.

Procedure

1.     Enter system view.

system-view

2.     Enter Layer 2 interface view.

¡     Enter Layer 2 Ethernet interface view.

interface interface-type interface-number

¡     Enter Layer 2 aggregate interface view.

interface bridge-aggregation interface-number

3.     Set the maximum number of multicast groups on the port.

igmp-snooping group-limit limit [ vlan vlan-list ]

By default, no limit is placed on the maximum number of multicast groups on a port.

Enabling multicast group replacement

About this task

When multicast group replacement is enabled, the port does not drop IGMP reports for new groups if the number of multicast groups on the port reaches the upper limit. Instead, the port leaves the multicast group that has the lowest IP address and joins the new group contained in the IGMP report. The multicast group replacement feature is typically used in the channel switching application.

Restrictions and guidelines

This feature takes effect only on the multicast groups that a port joins dynamically.

This feature does not take effect if the following conditions exist:

·     The number of the IGMP snooping forwarding entries on the device reaches the upper limit.

·     The multicast group that the port newly joins is not included in the multicast group list maintained by the device.

Enabling multicast group replacement globally

1.     Enter system view.

system-view

2.     Enter IGMP-snooping view.

igmp-snooping

3.     Enable multicast group replacement globally.

overflow-replace [ vlan vlan-list ]

By default, multicast group replacement is disabled globally.

Enabling multicast group replacement on a port

1.     Enter system view.

system-view

2.     Enter Layer 2 interface view.

¡     Enter Layer 2 Ethernet interface view.

interface interface-type interface-number

¡     Enter Layer 2 aggregate interface view.

interface bridge-aggregation interface-number

3.     Enable multicast group replacement on the port.

igmp-snooping overflow-replace [ vlan vlan-list ]

By default, multicast group replacement is disabled on a port.

Enabling host tracking

About this task

This feature enables the Layer 2 device to record information about member hosts that are receiving multicast data. The information includes IP addresses of the hosts, length of time elapsed since the hosts joined multicast groups, and remaining timeout time for the hosts. This feature facilitates monitoring and managing member hosts.

Restrictions and guidelines

The global configuration does not take effect on VSIs.

Enabling host tracking globally

1.     Enter system view.

system-view

2.     Enter IGMP-snooping view.

igmp-snooping

3.     Enable host tracking globally.

host-tracking

By default, host tracking is disabled globally.

Enabling host tracking for a VLAN

1.     Enter system view.

system-view

2.     Enter VLAN view.

vlan vlan-id

3.     Enable host tracking for the VLAN.

igmp-snooping host-tracking

By default, host tracking is disabled for a VLAN.

Setting the DSCP value for outgoing IGMP protocol packets

About this task

The DSCP value determines the packet transmission priority. A greater DSCP value represents a higher priority.

Procedure

1.     Enter system view.

system-view

2.     Enter IGMP snooping view.

igmp-snooping

3.     Set the DSCP value for outgoing IGMP protocol packets.

dscp dscp-value

By default, the DSCP value is 48 for outgoing IGMP protocol packets.

Display and maintenance commands for IGMP snooping

Execute display commands in any view and reset commands in user view.

 

Task

Command

Display IGMP snooping status.

display igmp-snooping [ global | vlan vlan-id | vsi vsi-name ]

Display dynamic IGMP snooping group entries.

display igmp-snooping group [ group-address | source-address ] * [ vlan vlan-id | vsi vsi-name ] [ interface interface-type interface-number | [ verbose ] [ slot slot-number  ] ]

Display host tracking information.

display igmp-snooping host-tracking vlan vlan-id group group-address [ source source-address ] [ slot slot-number ]

Display dynamic router port information.

display igmp-snooping router-port [ vlan vlan-id | vsi vsi-name ] [ verbose ] [ slot slot-number ]

Display static IGMP snooping group entries.

display igmp-snooping static-group [ group-address | source-address ] * [ vlan vlan-id ] [ verbose ] [ slot slot-number ]

Display static router port information.

display igmp-snooping static-router-port [ vlan vlan-id ] [ verbose ] [ slot slot-number ]

Display statistics for the IGMP messages and PIMv2 hello messages learned by IGMP snooping.

display igmp-snooping statistics

Display Layer 2 multicast fast forwarding entries.

display l2-multicast fast-forwarding cache [ vlan vlan-id ] [ source-address | group-address ] * [ slot slot-number ]

Display information about Layer 2 IP multicast groups.

display l2-multicast ip [ group group-address | source source-address ] * [ vlan vlan-id | vsi vsi-name ] [ slot slot-number ]

Display Layer 2 IP multicast group entries.

display l2-multicast ip forwarding [ group group-address | source source-address ] * [ vlan vlan-id ] [ slot slot-number ]

Display information about Layer 2 MAC multicast groups.

display l2-multicast mac [ mac-address ] [ vlan vlan-id | vsi vsi-name ] [ slot slot-number ]

Display Layer 2 MAC multicast group entries.

display l2-multicast mac forwarding [ mac-address ] [ vlan vlan-id ] [ slot slot-number ]

Display static multicast MAC address entries.

display mac-address [ mac-address [ vlan vlan-id ] | [ multicast ] [ vlan vlan-id ] [ count ] ]

Display multicast group information that IGMP snooping learns from EVPN.

display igmp-snooping evpn-group [ group-address | source-address ] * [vsi vsi-name ] [ slot slot-number   ]

Clear dynamic IGMP snooping group entries.

reset igmp-snooping group { group-address [ source-address ] | all } [ vlan vlan-id | vsi vsi-name ]

Clear dynamic router port information.

reset igmp-snooping router-port { all | vlan vlan-id | vsi vsi-name }

Clear statistics for IGMP messages and PIMv2 hello messages learned through IGMP snooping.

reset igmp-snooping statistics

Clear Layer 2 multicast fast forwarding entries.

reset l2-multicast fast-forwarding cache [ vlan vlan-id ] { { source-address | group-address } * | all } [ slot slot-number ]

 

IGMP snooping configuration examples

Example: Configuring VLAN-based IGMP snooping group polices and simulated joining

Network configuration

As shown in Figure 4, Router A runs IGMPv2 and acts as the IGMP querier. Switch A runs IGMPv2 snooping.

Configure a multicast group policy and simulated joining to meet the following requirements:

·     Host A and Host B receive only the multicast data addressed to multicast group 224.1.1.1. Multicast data can be forwarded through Ten-GigabitEthernet 1/0/3 and Ten-GigabitEthernet 1/0/4 of Switch A uninterruptedly, even though Host A and Host B fail to receive the multicast data.

·     Switch A will drop unknown multicast data instead of flooding it in VLAN 100.

Figure 4 Network diagram

Prerequisites

Assign an IP address and subnet mask to each interface, as shown in Figure 4.

Procedure

1.     Configure Router A:

# Enable IP multicast routing.

<RouterA> system-view

[RouterA] multicast routing

[RouterA-mrib] quit

# Enable IGMP on Ten-GigabitEthernet 1/0/1.

[RouterA] interface ten-gigabitethernet 1/0/1

[RouterA-Ten-GigabitEthernet1/0/1] igmp enable

[RouterA-Ten-GigabitEthernet1/0/1] quit

# Enable PIM-DM on Ten-GigabitEthernet 1/0/2.

[RouterA] interface ten-gigabitethernet 1/0/2

[RouterA-Ten-GigabitEthernet1/0/2] pim dm

[RouterA-Ten-GigabitEthernet1/0/2] quit

2.     Configure Switch A:

# Enable the IGMP snooping feature.

<SwitchA> system-view

[SwitchA] igmp-snooping

[SwitchA-igmp-snooping] quit

# Create VLAN 100, and assign Ten-GigabitEthernet 1/0/1 through Ten-GigabitEthernet 1/0/4 to the VLAN.

[SwitchA] vlan 100

[SwitchA-vlan100] port ten-gigabitethernet 1/0/1 to ten-gigabitethernet 1/0/4

# Enable IGMP snooping, and enable dropping unknown multicast data for VLAN 100.

[SwitchA-vlan100] igmp-snooping enable

[SwitchA-vlan100] igmp-snooping drop-unknown

[SwitchA-vlan100] quit

# Configure a multicast group policy so that hosts in VLAN 100 can join only multicast group 224.1.1.1.

[SwitchA] acl basic 2001

[SwitchA-acl-ipv4-basic-2001] rule permit source 224.1.1.1 0

[SwitchA-acl-ipv4-basic-2001] quit

[SwitchA] igmp-snooping

[SwitchA-igmp-snooping] group-policy 2001 vlan 100

[SwitchA-igmp-snooping] quit

# Configure Ten-GigabitEthernet 1/0/3 and Ten-GigabitEthernet 1/0/4 as simulated member hosts of multicast group 224.1.1.1.

[SwitchA] interface ten-gigabitethernet 1/0/3

[SwitchA-Ten-GigabitEthernet1/0/3] igmp-snooping host-join 224.1.1.1 vlan 100

[SwitchA-Ten-GigabitEthernet1/0/3] quit

[SwitchA] interface ten-gigabitethernet 1/0/4

[SwitchA-Ten-GigabitEthernet1/0/4] igmp-snooping host-join 224.1.1.1 vlan 100

[SwitchA-Ten-GigabitEthernet1/0/4] quit

Verifying the configuration

# Send IGMP reports from Host A and Host B to join multicast groups 224.1.1.1 and 224.2.2.2. (Details not shown.)

# Display dynamic IGMP snooping group entries for VLAN 100 on Switch A.

[SwitchA] display igmp-snooping group vlan 100

Total 1 entries.

 

VLAN 100: Total 1 entries.

  (0.0.0.0, 224.1.1.1)

    Host ports (2 in total):

      XGE1/0/3                              (00:03:23)

      XGE1/0/4                              (00:04:10)

The output shows the following information:

·     Host A and Host B have joined multicast group 224.1.1.1 through the member ports Ten-GigabitEthernet 1/0/4 and Ten-GigabitEthernet 1/0/3 on Switch A, respectively.

·     Host A and Host B have failed to join multicast group 224.2.2.2.

Example: Configuring VLAN-based IGMP snooping static ports

Network configuration

As shown in Figure 5:

·     Router A runs IGMPv2 and acts as the IGMP querier. Switch A, Switch B, and Switch C run IGMPv2 snooping.

·     Host A and host C are permanent receivers of multicast group 224.1.1.1.

Configure static ports to meet the following requirements:

·     To enhance the reliability of multicast traffic transmission, configure Ten-GigabitEthernet 1/0/3 and Ten-GigabitEthernet 1/0/5 on Switch C as static member ports for multicast group 224.1.1.1.

·     Suppose the STP runs on the network. To avoid data loops, the forwarding path from Switch A to Switch C is blocked. Multicast data flows to the receivers attached to Switch C only along the path of Switch A—Switch B—Switch C. When this path is blocked, a minimum of one IGMP query-response cycle must be completed before multicast data flows to the receivers along the path of Switch A—Switch C. In this case, the multicast delivery is interrupted during the process. For more information about the STP, see Layer 2—LAN Switching Configuration Guide.

Configure Ten-GigabitEthernet 1/0/3 on Switch A as a static router port. Then, multicast data can flow to the receivers nearly uninterruptedly along the path of Switch A—Switch C when the path of Switch A—Switch B—Switch C is blocked.

Figure 5 Network diagram

Prerequisites

Assign an IP address and subnet mask to each interface, as shown in Figure 5.

Procedure

1.     Configure Router A:

# Enable IP multicast routing.

<RouterA> system-view

[RouterA] multicast routing

[RouterA-mrib] quit

# Enable IGMP on Ten-GigabitEthernet 1/0/1.

[RouterA] interface ten-gigabitethernet 1/0/1

[RouterA-Ten-GigabitEthernet1/0/1] igmp enable

[RouterA-Ten-GigabitEthernet1/0/1] quit

# Enable PIM-DM on Ten-GigabitEthernet 1/0/2.

[RouterA] interface ten-gigabitethernet 1/0/2

[RouterA-Ten-GigabitEthernet1/0/2] pim dm

[RouterA-Ten-GigabitEthernet1/0/2] quit

2.     Configure Switch A:

# Enable the IGMP snooping feature.

<SwitchA> system-view

[SwitchA] igmp-snooping

[SwitchA-igmp-snooping] quit

# Create VLAN 100, and assign Ten-GigabitEthernet 1/0/1 through Ten-GigabitEthernet 1/0/3 to the VLAN.

[SwitchA] vlan 100

[SwitchA-vlan100] port ten-gigabitethernet 1/0/1 to ten-gigabitethernet 1/0/3

# Enable IGMP snooping for VLAN 100.

[SwitchA-vlan100] igmp-snooping enable

[SwitchA-vlan100] quit

# Configure Ten-GigabitEthernet 1/0/3 as a static router port.

[SwitchA] interface ten-gigabitethernet 1/0/3

[SwitchA-Ten-GigabitEthernet1/0/3] igmp-snooping static-router-port vlan 100

[SwitchA-Ten-GigabitEthernet1/0/3] quit

3.     Configure Switch B:

# Enable the IGMP snooping feature.

<SwitchB> system-view

[SwitchB] igmp-snooping

[SwitchB-igmp-snooping] quit

# Create VLAN 100, and assign Ten-GigabitEthernet 1/0/1 and Ten-GigabitEthernet 1/0/2 to the VLAN.

[SwitchB] vlan 100

[SwitchB-vlan100] port ten-gigabitethernet 1/0/1 ten-gigabitethernet 1/0/2

# Enable IGMP snooping for VLAN 100.

[SwitchB-vlan100] igmp-snooping enable

[SwitchB-vlan100] quit

4.     Configure Switch C:

# Enable the IGMP snooping feature.

<SwitchC> system-view

[SwitchC] igmp-snooping

[SwitchC-igmp-snooping] quit

# Create VLAN 100, and assign Ten-GigabitEthernet 1/0/1 through Ten-GigabitEthernet 1/0/5 to the VLAN.

[SwitchC] vlan 100

[SwitchC-vlan100] port ten-gigabitethernet 1/0/1 to ten-gigabitethernet 1/0/5

# Enable IGMP snooping for VLAN 100.

[SwitchC-vlan100] igmp-snooping enable

[SwitchC-vlan100] quit

# Configure Ten-GigabitEthernet 1/0/3 and Ten-GigabitEthernet 1/0/5 as static member ports for multicast group 224.1.1.1.

[SwitchC] interface ten-gigabitethernet 1/0/3

[SwitchC-Ten-GigabitEthernet1/0/3] igmp-snooping static-group 224.1.1.1 vlan 100

[SwitchC-Ten-GigabitEthernet1/0/3] quit

[SwitchC] interface ten-gigabitethernet 1/0/5

[SwitchC-Ten-GigabitEthernet1/0/5] igmp-snooping static-group 224.1.1.1 vlan 100

[SwitchC-Ten-GigabitEthernet1/0/5] quit

Verifying the configuration

# Display static router port information for VLAN 100 on Switch A.

[SwitchA] display igmp-snooping static-router-port vlan 100

VLAN 100:

  Router ports (1 in total):

    XGE1/0/3

The output shows that Ten-GigabitEthernet 1/0/3 on Switch A has become a static router port.

# Display static IGMP snooping group entries for VLAN 100 on Switch C.

[SwitchC] display igmp-snooping static-group vlan 100

Total 1 entries.

 

VLAN 100: Total 1 entries.

  (0.0.0.0, 224.1.1.1)

    Host ports (2 in total):

      XGE1/0/3

      XGE1/0/5

The output shows that Ten-GigabitEthernet 1/0/3 and Ten-GigabitEthernet 1/0/5 on Switch C have become static member ports of multicast group 224.1.1.1.

Example: Configuring the VLAN-based IGMP snooping querier

Network configuration

As shown in Figure 6:

·     The network is a Layer 2-only network.

·     Source 1 and Source 2 send multicast data to multicast groups 224.1.1.1 and 225.1.1.1, respectively.

·     Host A and Host C are receivers of multicast group 224.1.1.1, and Host B and Host D are receivers of multicast group 225.1.1.1.

·     All host receivers run IGMPv2, and all switches run IGMPv2 snooping. Switch A (which is close to the multicast sources) acts as the IGMP snooping querier.

Configure the switches to meet the following requirements:

·     To prevent the switches from flooding unknown data in the VLAN, enable all the switches to drop unknown multicast data.

·     A switch does not mark a port that receives an IGMP query with source IP address 0.0.0.0 as a dynamic router port. This adversely affects the establishment of Layer 2 forwarding entries and multicast traffic forwarding. To avoid this, configure the source IP address of IGMP queries as a non-zero IP address.

Figure 6 Network diagram

Procedure

1.     Configure Switch A:

# Enable the IGMP snooping feature.

<SwitchA> system-view

[SwitchA] igmp-snooping

[SwitchA-igmp-snooping] quit

# Create VLAN 100, and assign Ten-GigabitEthernet 1/0/1 through Ten-GigabitEthernet 1/0/3 to the VLAN.

[SwitchA] vlan 100

[SwitchA-vlan100] port ten-gigabitethernet 1/0/1 to ten-gigabitethernet 1/0/3

# Enable IGMP snooping, and enable dropping unknown multicast data for VLAN 100.

[SwitchA-vlan100] igmp-snooping enable

[SwitchA-vlan100] igmp-snooping drop-unknown

# Configure Switch A as the IGMP snooping querier.

[SwitchA-vlan100] igmp-snooping querier

[SwitchA-vlan100] quit

# In VLAN 100, specify 192.168.1.1 as the source IP address of IGMP general queries.

[SwitchA-vlan100] igmp-snooping general-query source-ip 192.168.1.1

# In VLAN 100, specify 192.168.1.1 as the source IP address of IGMP group-specific queries.

[SwitchA-vlan100] igmp-snooping special-query source-ip 192.168.1.1

[SwitchA-vlan100] quit

2.     Configure Switch B:

# Enable the IGMP snooping feature.

<SwitchB> system-view

[SwitchB] igmp-snooping

[SwitchB-igmp-snooping] quit

# Create VLAN 100, and assign Ten-GigabitEthernet 1/0/1 through Ten-GigabitEthernet 1/0/4 to the VLAN.

[SwitchB] vlan 100

[SwitchB-vlan100] port ten-gigabitethernet 1/0/1 to ten-gigabitethernet 1/0/4

# Enable IGMP snooping, and enable dropping unknown multicast data for VLAN 100.

[SwitchB-vlan100] igmp-snooping enable

[SwitchB-vlan100] igmp-snooping drop-unknown

[SwitchB-vlan100] quit

3.     Configure Switch C:

# Enable the IGMP snooping feature.

<SwitchC> system-view

[SwitchC] igmp-snooping

[SwitchC-igmp-snooping] quit

# Create VLAN 100, and assign Ten-GigabitEthernet 1/0/1 through Ten-GigabitEthernet 1/0/3 to the VLAN.

[SwitchC] vlan 100

[SwitchC-vlan100] port ten-gigabitethernet 1/0/1 to ten-gigabitethernet 1/0/3

# Enable IGMP snooping, and enable dropping unknown multicast data for VLAN 100.

[SwitchC-vlan100] igmp-snooping enable

[SwitchC-vlan100] igmp-snooping drop-unknown

[SwitchC-vlan100] quit

4.     Configure Switch D:

# Enable the IGMP snooping feature.

<SwitchD> system-view

[SwitchD] igmp-snooping

[SwitchD-igmp-snooping] quit

# Create VLAN 100, and assign Ten-GigabitEthernet 1/0/1 and Ten-GigabitEthernet 1/0/2 to the VLAN.

[SwitchD] vlan 100

[SwitchD-vlan100] port ten-gigabitethernet 1/0/1 to ten-gigabitethernet 1/0/2

# Enable IGMP snooping, and enable dropping unknown multicast data for VLAN 100.

[SwitchD-vlan100] igmp-snooping enable

[SwitchD-vlan100] igmp-snooping drop-unknown

[SwitchD-vlan100] quit

Verifying the configuration

# Display statistics for IGMP messages and PIMv2 hello messages learned through IGMP snooping on Switch B.

[SwitchB] display igmp-snooping statistics

Received IGMP messages:

  IGMP general queries: 19

    DRNI: 19

  IGMPv2 specific queries: 10

    DRNI: 0

  IGMPv3 specific queries: 0

    DRNI: 0

  IGMPv3 specific sg queries: 0

    DRNI: 0

  IGMPv1 reports: 0

    DRNI: 0

  IGMPv2 reports: 19

    DRNI: 19

  IGMPv3 reports: 0

    DRNI: 0

  IGMPv3 reports with right and wrong records: 0

    DRNI: 0

  IGMP leaves: 5

    DRNI: 5

  Error IGMP messages: 1

    DRNI: 1

Sent IGMP messages:

  IGMPv2 specific queries: 0

  IGMPv3 specific queries: 0

  IGMPv3 specific sg queries: 0

Received PIMv2 hello : 0

The output shows that all switches except Switch A can receive the IGMP general queries after Switch A acts as the IGMP snooping querier.

Example: Configuring VLAN-based IGMP snooping proxying

Network configuration

As shown in Figure 7, Router A runs IGMPv2 and acts as the IGMP querier. Switch A runs IGMPv2 snooping. Configure IGMP snooping proxying so that Switch A can perform the following actions:

·     Forward IGMP report and leave messages to Router A.

·     Respond to IGMP queries sent by Router A and forward the queries to downstream hosts.

Figure 7 Network diagram

 

Prerequisites

Assign an IP address and subnet mask to each interface, as shown in Figure 7.

Procedure

1.     Configure Router A:

# Enable IP multicast routing.

<RouterA> system-view

[RouterA] multicast routing

[RouterA-mrib] quit

# Enable IGMP and PIM-DM on Ten-GigabitEthernet 1/0/1.

[RouterA] interface ten-gigabitethernet 1/0/1

[RouterA-Ten-GigabitEthernet1/0/1] igmp enable

[RouterA-Ten-GigabitEthernet1/0/1] pim dm

[RouterA-Ten-GigabitEthernet1/0/1] quit

# Enable PIM-DM on Ten-GigabitEthernet 1/0/2.

[RouterA] interface ten-gigabitethernet 1/0/2

[RouterA-Ten-GigabitEthernet1/0/2] pim dm

[RouterA-Ten-GigabitEthernet1/0/2] quit

2.     Configure Switch A:

# Enable the IGMP snooping feature.

<SwitchA> system-view

[SwitchA] igmp-snooping

[SwitchA-igmp-snooping] quit

# Create VLAN 100, and assign Ten-GigabitEthernet 1/0/1 through Ten-GigabitEthernet 1/0/4 to the VLAN.

[SwitchA] vlan 100

[SwitchA-vlan100] port ten-gigabitethernet 1/0/1 to ten-gigabitethernet 1/0/4

# Enable IGMP snooping and IGMP snooping proxying for the VLAN.

[SwitchA-vlan100] igmp-snooping enable

[SwitchA-vlan100] igmp-snooping proxy enable

[SwitchA-vlan100] quit

Verifying the configuration

# Send IGMP reports from Host A and Host B to join multicast groups 224.1.1.1 and 224.1.1.1. (Details not shown.)

# Display brief information about IGMP snooping group entries on Switch A.

[SwitchA] display igmp-snooping group

 Total 1 entries.

 

VLAN 100: Total 1 entries.

  (0.0.0.0, 224.1.1.1)

    Host ports (2 in total):

      XGE1/0/3                                     (00:04:00)

      XGE1/0/4                                     (00:04:04)

The output shows that Ten-GigabitEthernet 1/0/3 and Ten-GigabitEthernet 1/0/4 are member ports of multicast group 224.1.1.1. Host A and Host B become receivers of the group.

# Display IGMP group membership information on Router A.

[RouterA] display igmp group

IGMP groups in total: 1

 Ten-GigabitEthernet1/0/1(10.1.1.1):

  IGMP groups reported in total: 1

   Group address   Last reporter   Uptime      Expires

   224.1.1.1       0.0.0.0         00:00:31    00:02:03

# Send an IGMP leave message from Host A to leave multicast group 224.1.1.1. (Details not shown.)

# Display brief information about IGMP snooping group entries on Switch A.

[SwitchA] display igmp-snooping group

Total 1 entries.

 

VLAN 100: Total 1 entries.

  (0.0.0.0, 224.1.1.1)

    Host ports (1 in total):

      XGE1/0/3                                     ( 00:01:23 )

The output shows that Ten-GigabitEthernet 1/0/3 is the only member port of multicast group 224.1.1.1. Only Host B remains as the receiver of the group.

Example: Configuring VSI-based IGMP snooping

Network configuration

As shown in Figure 8:

·     There are three sites in VPN a. They are connected through the VPLS network.

·     In VLAN 100, Source in Site 1, Host A in Site 2, and Host B in Site 3 communicate with CE 1, CE 2, and CE 3, respectively.

Configure the devices so that Host A and Host B can receive multicast data from Source.

Figure 8 Network diagram

Table 1 Interface and IP address assignment

Device

Interface

IP address

Device

Interface

IP address

PE 1

Vlan-int101

10.110.1.1/24

PE 2

Loop0

2.2.2.2/32

PE 1

Vlan-int102

10.110.2.1/24

PE 3

Loop0

10.110.2.2/24

PE 1

Loop0

1.1.1.1/32

PE 3

Loop0

10.110.3.2/24

PE 2

Vlan-int101

10.110.1.2/24

PE 3

Loop0

3.3.3.3/32

PE 2

Vlan-int103

10.110.3.1/24

 

 

 

 

Prerequisites

On the VPLS network, assign an IP address and subnet mask to each interface as shown in Table 1, and configure OSPF on the switches.

Procedure

1.     Configure CE 1:

# Enable the IGMP snooping feature.

<CE1> system-view

[CE1] igmp-snooping

[CE1-igmp-snooping] quit

# Create VLAN 100, and assign Ten-GigabitEthernet 1/0/2 to VLAN 100.

[CE1] vlan 100

[CE1-vlan100] port ten-gigabitethernet 1/0/2

# In VLAN 100, enable IGMP snooping, and enable dropping unknown multicast data.

[CE1-vlan100] igmp-snooping enable

[CE1-vlan100] igmp-snooping drop-unknown

# Configure Ten-GigabitEthernet 1/0/1 as a trunk port, and assign it to VLAN 100.

[CE1] interface ten-gigabitethernet 1/0/1

[CE1-Ten-GigabitEthernet1/0/1] port link-type trunk

[CE1-Ten-GigabitEthernet1/0/1] port trunk permit vlan 100

[CE1-Ten-GigabitEthernet1/0/1] quit

# In VLAN 100, enable the IGMP snooping querier.

[CE1-vlan100] igmp-snooping querier

# In VLAN 100, specify 192.168.1.100 as the source IP address of IGMP general queries and IGMP group-specific queries.

[CE1-vlan100] igmp-snooping general-query source-ip 192.168.1.100

[CE1-vlan100] igmp-snooping special-query source-ip 192.168.1.100

2.     Configure CE 2:

# Enable the IGMP snooping feature.

<CE2> system-view

[CE2] igmp-snooping

[CE2-igmp-snooping] quit

# Create VLAN 100, and assign Ten-GigabitEthernet 1/0/2 to VLAN100.

[CE2] vlan 100

[CE2-vlan100] port ten-gigabitethernet 1/0/2

# In VLAN 100, enable IGMP snooping, and enable dropping unknown multicast data.

[CE2-vlan100] igmp-snooping enable

[CE2-vlan100] igmp-snooping drop-unknown

# Configure Ten-GigabitEthernet 1/0/1 as a trunk port, and assign it to VLAN 100.

[CE2] interface ten-gigabitethernet 1/0/1

[CE2-Ten-GigabitEthernet1/0/1] port link-type trunk

[CE2-Ten-GigabitEthernet1/0/1] port trunk permit vlan 100

[CE2-Ten-GigabitEthernet1/0/1] quit

3.     Configure CE 3:

# Enable the IGMP snooping feature.

<CE3> system-view

[CE3] igmp-snooping

[CE3-igmp-snooping] quit

# Create VLAN 100, and assign Ten-GigabitEthernet 1/0/2 to VLAN100.

[CE3] vlan 100

[CE3-vlan100] port ten-gigabitethernet 1/0/2

# In VLAN 100, enable IGMP snooping, and dropping unknown multicast data.

[CE3-vlan100] igmp-snooping enable

[CE3-vlan100] igmp-snooping drop-unknown

# Configure Ten-GigabitEthernet 1/0/1 as a trunk port, and assign it to VLAN 100.

[CE3] interface ten-gigabitethernet 1/0/1

[CE3-Ten-GigabitEthernet1/0/1] port link-type trunk

[CE3-Ten-GigabitEthernet1/0/1] port trunk permit vlan 100

[CE3-Ten-GigabitEthernet1/0/1] quit

4.     Configure PE 1:

# Configure the LSR ID as 1.1.1.1 for the local node, and enable L2VPN and LDP.

<PE1> system-view

[PE1] mpls lsr-id 1.1.1.1

[PE1] l2vpn enable

[PE1] mpls ldp

[PE1-ldp] quit

# Enable MPLS and LDP on VLAN-interface 101.

[PE1] interface vlan-interface 101

[PE1-Vlan-interface101] mpls enable

[PE1-Vlan-interface101] mpls ldp enable

[PE1-Vlan-interface101] quit

# Enable MPLS and LDP on VLAN-interface 102.

[PE1] interface vlan-interface 102

[PE1-Vlan-interface102] mpls enable

[PE1-Vlan-interface102] mpls ldp enable

[PE1-Vlan-interface102] quit

# Create a VSI named aaa, and specify the VSI to establish PWs statically.

[PE1] vsi aaa

[PE1-vsi-aaa] pwsignaling static

# Configure PWs for VSI aaa.

[PE1-vsi-aaa-static] peer 2.2.2.2 pw-id 3 in-label 100 out-label 100

[PE1-vsi-aaa-static-2.2.2.2-3] quit

[PE1-vsi-aaa-static] peer 3.3.3.3 pw-id 3 in-label 200 out-label 200

[PE1-vsi-aaa-static-3.3.3.3-3] quit

[PE1-vsi-aaa-static] quit

[PE1-vsi-aaa] quit

# Bind Ten-GigabitEthernet 1/0/1 to VSI aaa.

[PE1] interface ten-gigabitethernet 1/0/1

[PE1-Ten-GigabitEthernet1/0/1] service-instance 1

[PE1-Ten-GigabitEthernet1/0/1-srv1] encapsulation s-vid 5

[PE1-Ten-GigabitEthernet1/0/1-srv1] xconnect vsi aaa

[PE1-Ten-GigabitEthernet1/0/1-srv1] quit

[PE1-Ten-GigabitEthernet1/0/1] quit

# Enable the IGMP snooping feature.

[PE1] igmp-snooping

[PE1-igmp-snooping] quit

# Enable IGMP snooping, and enable dropping unknown multicast data for VSI aaa.

[PE1] vsi aaa

[PE1-vsi-aaa] igmp-snooping enable

[PE1-vsi-aaa] igmp-snooping drop-unknown

[PE1-vsi-aaa] quit

5.     Configure PE 2:

# Configure the LSR ID as 2.2.2.2 for the local node, and enable L2VPN and LDP.

<PE2> system-view

[PE2] mpls lsr-id 2.2.2.2

[PE2] l2vpn enable

[PE2] mpls ldp

[PE2-ldp] quit

# Enable MPLS and LDP on VLAN-interface 101.

[PE2] interface vlan-interface 101

[PE2-Vlan-interface101] mpls enable

[PE2-Vlan-interface101] mpls ldp enable

[PE2-Vlan-interface101] quit

# Enable MPLS and LDP on VLAN-interface 103.

[PE2] interface vlan-interface 103

[PE2-Vlan-interface103] mpls enable

[PE2-Vlan-interface103] mpls ldp enable

[PE2-Vlan-interface103] quit

# Create a VSI named aaa, and specify the VSI to establish PWs statically.

[PE2] vsi aaa

[PE2-vsi-aaa] pwsignaling static

# Configure PWs for VSI aaa.

[PE2-vsi-aaa-static] peer 1.1.1.1 pw-id 3 in-label 100 out-label 100

[PE2-vsi-aaa-static-1.1.1.1-3] quit

[PE2-vsi-aaa-static] peer 3.3.3.3 pw-id 3 in-label 300 out-label 300

[PE2-vsi-aaa-static-3.3.3.3-3] quit

[PE2-vsi-aaa-static] quit

[PE2-vsi-aaa] quit

# Bind Ten-GigabitEthernet 1/0/1 to VSI aaa.

[PE2] interface ten-gigabitethernet 1/0/1

[PE2-Ten-GigabitEthernet1/0/1] service-instance 1

[PE2-Ten-GigabitEthernet1/0/1-srv1] encapsulation s-vid 5

[PE2-Ten-GigabitEthernet1/0/1-srv1] xconnect vsi aaa

[PE2-Ten-GigabitEthernet1/0/1-srv1] quit

[PE2-Ten-GigabitEthernet1/0/1] quit

# Enable the IGMP snooping feature.

[PE2] igmp-snooping

[PE2-igmp-snooping] quit

# In VSI aaa, enable IGMP snooping, and enable dropping unknown multicast data.

[PE2] vsi aaa

[PE2-vsi-aaa] igmp-snooping enable

[PE2-vsi-aaa] igmp-snooping drop-unknown

[PE2-vsi-aaa] quit

6.     Configure PE 3:

# Configure the LSR ID as 3.3.3.3 for the local node, and enable L2VPN and LDP.

<PE3> system-view

[PE3] mpls lsr-id 3.3.3.3

[PE3] l2vpn enable

[PE3] mpls ldp

[PE3-ldp] quit

# Enable MPLS and LDP on VLAN-interface 102.

[PE3] interface vlan-interface 102

[PE3-Vlan-interface102] mpls enable

[PE3-Vlan-interface102] mpls ldp enable

[PE3-Vlan-interface102] quit

# Enable MPLS and LDP on VLAN-interface 103.

[PE3] interface vlan-interface 103

[PE3-Vlan-interface103] mpls enable

[PE3-Vlan-interface103] mpls ldp enable

[PE3-Vlan-interface103] quit

# Create a VSI named aaa, and specify the VSI to establish PWs statically.

[PE3] vsi aaa

[PE3-vsi-aaa] pwsignaling static

# Configure PWs for VSI aaa.

[PE3-vsi-aaa-static] peer 1.1.1.1 pw-id 3 in-label 200 out-label 200

[PE3-vsi-aaa-static-1.1.1.1-3] quit

[PE3-vsi-aaa-static] peer 2.2.2.2 pw-id 3 in-label 300 out-label 300

[PE3-vsi-aaa-static-2.2.2.2-3] quit

[PE3-vsi-aaa-static] quit

[PE3-vsi-aaa] quit

# Bind Ten-GigabitEthernet 1/0/1 to VSI aaa.

[PE3] interface ten-gigabitethernet 1/0/1

[PE3-Ten-GigabitEthernet1/0/1] service-instance 1

[PE3-Ten-GigabitEthernet1/0/1-srv1] encapsulation s-vid 5

[PE3-Ten-GigabitEthernet1/0/1-srv1] xconnect vsi aaa

[PE3-Ten-GigabitEthernet1/0/1-srv1] quit

[PE3-Ten-GigabitEthernet1/0/1] quit

# Enable the IGMP snooping feature.

[PE3] igmp-snooping

[PE3-igmp-snooping] quit

# In VSI aaa, enable IGMP snooping, and enable dropping unknown multicast data.

[PE3] vsi aaa

[PE3-vsi-aaa] igmp-snooping enable

[PE3-vsi-aaa] igmp-snooping drop-unknown

[PE3-vsi-aaa] quit

Verifying the configuration

# Display detailed information about dynamic IGMP snooping group entries for VSI aaa on PE 1.

[PE1] display igmp-snooping group vsi aaa verbose

Total 1 entries.

 

VSI aaa: Total 1 entries.

  (0.0.0.0, 225.0.0.1)

    Attribute: global port

    FSM information: dummy

    Host slots (0 in total):

    Host ports (1 in total):

      NPW (Link ID 9)                         (00:02:24)

        VLAN pairs (1 in total):

          Outer VLAN 100     Inner VLAN 0     (00:02:24)

# Display detailed information about dynamic router ports for VSI aaa on PE 1.

[PE1] display igmp-snooping router-port vsi aaa verbose

VSI aaa:

  Router slots (0 in total):

  Router ports (1 in total):

    XGE1/0/1 (Link ID 0)                       (00:01:46)

      VLAN pairs (1 in total):

        Outer VLAN 100     Inner VLAN 0       (00:01:46)

# Display detailed information about dynamic IGMP snooping group entries for VSI aaa on PE 2.

[PE2] display igmp-snooping group vsi aaa verbose

Total 1 entries.

 

VSI aaa: Total 1 entries.

  (0.0.0.0, 225.0.0.1)

    Attribute: global port

    FSM information: dummy

    Host slots (0 in total):

    Host ports (1 in total):

      NPW (Link ID 8)                         (00:02:07)

        VLAN pairs (1 in total):

          Outer VLAN 100     Inner VLAN 0     (00:02:07)

# Display detailed information about dynamic router ports for VSI aaa on PE 2.

[PE2] display igmp-snooping router-port vsi aaa verbose

VSI aaa:

  Router slots (0 in total):

  Router ports (1 in total):

    NPW (Link ID 9)                           (00:01:26)

      VLAN pairs (1 in total):

        Outer VLAN 100     Inner VLAN 0       (00:01:26)

# Display detailed information about dynamic IGMP snooping group entries for VSI aaa on PE 3.

[PE3] display igmp-snooping group vsi aaa verbose

Total 1 entries.

 

VSI aaa: Total 1 entries.

  (0.0.0.0, 225.0.0.1)

    Attribute: global port

    FSM information: dummy

    Host slots (0 in total):

    Host ports (1 in total):

      XGE1/0/1 (Link ID 0)                   (00:02:04)

        VLAN pairs (1 in total):

          Outer VLAN 100     Inner VLAN 0     (00:02:04)

# Display detailed information about dynamic router ports for VSI aaa on PE 3.

[PE3] display igmp-snooping router-port vsi aaa verbose

VSI aaa:

  Router slots (0 in total):

  Router ports (1 in total):

    NPW (Link ID 9)                           (00:01:24)

      VLAN pairs (1 in total):

        Outer VLAN 100     Inner VLAN 0       (00:01:24)

Example: Configuring VXLAN-based IGMP snooping

Network configuration

As shown in Figure 9:

·     VXLAN 10 provides Layer 2 connectivity for VM 1, VM 2, and VM 3 across the network sites.

·     VXLAN 10 uses the unicast mode for flood traffic.

Configure IGMP snooping on the switches to implement Layer 2 multicast forwarding and reduce the burden of replicating known multicast traffic for VTEPs in VXLAN 10.

Figure 9 Network diagram

Table 2 Interface and IP address assignment

Device

Interface

IP address

Device

Interface

IP address

Switch A

Vlan-int11

11.1.1.1/24

Switch C

Vlan-int13

13.1.1.3/24

Switch A

Loop0

1.1.1.1/32

Switch C

Loop0

3.3.3.3/32

Switch B

Vlan-int12

12.1.1.2/24

Switch D

Vlan-int11

11.1.1.4/24

Switch B

Loop0

2.2.2.2/32

Switch D

Vlan-int12

12.1.1.4/24

 

 

 

Switch D

Vlan-int13

13.1.1.4/24

 

Prerequisites

On the transport network, assign an IP address and subnet mask to each interface as shown in Table 2, and configure OSPF on all the switches.

Procedure

1.     Configure Switch A:

# Enable L2VPN.

<SwitchA> system-view

[SwitchA] l2vpn enable

# Enable Layer 2 forwarding for VXLANs.

[SwitchA] undo vxlan ip-forwarding

# Create a VSI named vpna, and create VXLAN 10.

[SwitchA] vsi vpna

[SwitchA-vsi-vpna] vxlan 10

[SwitchA-vsi-vpna-vxlan-10] quit

[SwitchA-vsi-vpna] quit

# Enable the IGMP snooping feature.

[SwitchA] igmp-snooping

[SwitchA -igmp-snooping] quit

# Enable IGMP snooping and dropping unknown multicast data packets for VSI vpna.

[SwitchA] vsi vpna

[SwitchA-vsi-vpna] igmp-snooping enable

[SwitchA-vsi-vpna] igmp-snooping drop-unknown

[SwitchA-vsi-vpna] quit

# Assign an IP address to Loopback 0. This IP address will be used as the source address of the VXLAN tunnels to Switch B and Switch C.

[SwitchA] interface loopback 0

[SwitchA-Loopback0] ip address 1.1.1.1 255.255.255.255

[SwitchA-Loopback0] quit

# Create a VXLAN tunnel to Switch B.

¡     The tunnel interface name is Tunnel 1.

¡     The source address and destination address of the tunnel interface are 1.1.1.1 and 2.2.2.2, respectively.

[SwitchA] interface tunnel 1 mode vxlan

[SwitchA-Tunnel1] source 1.1.1.1

[SwitchA-Tunnel1] destination 2.2.2.2

[SwitchA-Tunnel1] quit

# Create a VXLAN tunnel to Switch C.

¡     The tunnel interface name is Tunnel 2.

¡     The source address and destination address of the tunnel interface are 1.1.1.1 and 3.3.3.3, respectively.

[SwitchA] interface tunnel 2 mode vxlan

[SwitchA-Tunnel2] source 1.1.1.1

[SwitchA-Tunnel2] destination 3.3.3.3

[SwitchA-Tunnel2] quit

# Assign Tunnel 1 and Tunnel 2 to VXLAN 10.

[SwitchA] vsi vpna

[SwitchA-vsi-vpna] vxlan 10

[SwitchA-vsi-vpna-vxlan-10] tunnel 1

[SwitchA-vsi-vpna-vxlan-10] tunnel 2

[SwitchA-vsi-vpna-vxlan-10] quit

[SwitchA-vsi-vpna] quit

# On Ten-GigabitEthernet 1/0/1, create Ethernet service instance 1000 to match VLAN 2.

[SwitchA] interface ten-gigabitethernet 1/0/1

[SwitchA-Ten-GigabitEthernet1/0/1] service-instance 1000

[SwitchA-Ten-GigabitEthernet1/0/1-srv1000] encapsulation s-vid 2

# Map Ethernet service instance 1000 to VSI vpna.

[SwitchA-Ten-GigabitEthernet1/0/1-srv1000] xconnect vsi vpna

[SwitchA-Ten-GigabitEthernet1/0/1-srv1000] quit

[SwitchA-Ten-GigabitEthernet1/0/1] quit

2.     Configure Switch B:

# Enable L2VPN.

<SwitchB> system-view

[SwitchB] l2vpn enable

# Enable Layer 2 forwarding for VXLANs.

[SwitchB] undo vxlan ip-forwarding

# Create a VSI named vpna, and create VXLAN 10.

[SwitchB] vsi vpna

[SwitchB-vsi-vpna] vxlan 10

[SwitchB-vsi-vpna-vxlan-10] quit

[SwitchB-vsi-vpna] quit

# Enable the IGMP snooping feature.

[SwitchB] igmp-snooping

[SwitchB -igmp-snooping] quit

# Enable IGMP snooping and dropping unknown multicast data packets for VSI vpna.

[SwitchB] vsi vpna

[SwitchB-vsi-vpna] igmp-snooping enable

[SwitchB-vsi-vpna] igmp-snooping drop-unknown

[SwitchB-vsi-vpna] quit

# Assign an IP address to Loopback 0. This IP address will be used as the source address of the VXLAN tunnels to Switch A and Switch C.

[SwitchB] interface loopback 0

[SwitchB-Loopback0] ip address 2.2.2.2 255.255.255.255

[SwitchB-Loopback0] quit

# Create a VXLAN tunnel to Switch A.

¡     The tunnel interface name is Tunnel 2.

¡     The source address and destination address of the tunnel interface are 2.2.2.2 and 1.1.1.1, respectively.

[SwitchB] interface tunnel 2 mode vxlan

[SwitchB-Tunnel2] source 2.2.2.2

[SwitchB-Tunnel2] destination 1.1.1.1

[SwitchB-Tunnel2] quit

# Create a VXLAN tunnel to Switch C.

¡     The tunnel interface name is Tunnel 3.

¡     The source address and destination address of the tunnel interface are 2.2.2.2 and 3.3.3.3, respectively.

[SwitchB] interface tunnel 3 mode vxlan

[SwitchB-Tunnel3] source 2.2.2.2

[SwitchB-Tunnel3] destination 3.3.3.3

[SwitchB-Tunnel3] quit

# Assign Tunnel 2 and Tunnel 3 to VXLAN 10.

[SwitchB] vsi vpna

[SwitchB-vsi-vpna] vxlan 10

[SwitchB-vsi-vpna-vxlan-10] tunnel 2

[SwitchB-vsi-vpna-vxlan-10] tunnel 3

[SwitchB-vsi-vpna-vxlan-10] quit

[SwitchB-vsi-vpna] quit

# On Ten-GigabitEthernet 1/0/1, create Ethernet service instance 1000 to match VLAN 2.

[SwitchB] interface ten-gigabitethernet 1/0/1

[SwitchB-Ten-GigabitEthernet1/0/1] service-instance 1000

[SwitchB-Ten-GigabitEthernet1/0/1-srv1000] encapsulation s-vid 2

# Map Ethernet service instance 1000 to VSI vpna.

[SwitchB-Ten-GigabitEthernet1/0/1-srv1000] xconnect vsi vpna

[SwitchB-Ten-GigabitEthernet1/0/1-srv1000] quit

[SwitchB-Ten-GigabitEthernet1/0/1] quit

3.     Configure Switch C:

# Enable L2VPN.

<SwitchC> system-view

[SwitchC] l2vpn enable

# Enable Layer 2 forwarding for VXLANs.

[SwitchC] undo vxlan ip-forwarding

# Create a VSI named vpna, and create VXLAN 10.

[SwitchC] vsi vpna

[SwitchC-vsi-vpna] vxlan 10

[SwitchC-vsi-vpna-vxlan-10] quit

[SwitchC-vsi-vpna] quit

# Enable the IGMP snooping feature.

[SwitchB] igmp-snooping

[SwitchB -igmp-snooping] quit

# Enable IGMP snooping for VSI vpna.

[SwitchC] vsi vpna

[SwitchC-vsi-vpna] igmp-snooping enable

# Enable dropping unknown multicast data packets for VSI vpna.

[SwitchC-vsi-vpna] igmp-snooping drop-unknown

# Specify 3.3.3.3 as the source IP address of IGMP general queries in VSI vpna.

[SwitchC-vsi-vpna] igmp-snooping general-query source-ip 3.3.3.3

# Enable the IGMP snooping querier.

[SwitchC-vsi-vpna] igmp-snooping querier

[SwitchC-vsi-vpna] quit

# Assign an IP address to Loopback 0. This address will be used as the source address of the VXLAN tunnels to Switch A and Switch B.

[SwitchC] interface loopback 0

[SwitchC-Loopback0] ip address 3.3.3.3 255.255.255.255

[SwitchC-Loopback0] quit

# Create a VXLAN tunnel to Switch A.

¡     The tunnel interface name is Tunnel 1.

¡     The source address and destination address of the tunnel interface are 3.3.3.3 and 1.1.1.1, respectively.

[SwitchC] interface tunnel 1 mode vxlan

[SwitchC-Tunnel1] source 3.3.3.3

[SwitchC-Tunnel1] destination 1.1.1.1

[SwitchC-Tunnel1] quit

# Create a VXLAN tunnel to Switch B.

¡     The tunnel interface name is Tunnel 3.

¡     The source address and destination address of the tunnel interface are 3.3.3.3 and 2.2.2.2, respectively.

[SwitchC] interface tunnel 3 mode vxlan

[SwitchC-Tunnel3] source 3.3.3.3

[SwitchC-Tunnel3] destination 2.2.2.2

[SwitchC-Tunnel3] quit

# Assign Tunnel 1 and Tunnel 3 to VSI vpna.

[SwitchC] vsi vpna

[SwitchC-vsi-vpna] vxlan 10

[SwitchC-vsi-vpna-vxlan-10] tunnel 1

[SwitchC-vsi-vpna-vxlan-10] tunnel 3

[SwitchC-vsi-vpna-vxlan-10] quit

[SwitchC-vsi-vpna] quit

# On Ten-GigabitEthernet 1/0/1, create Ethernet service instance 1000 to match VLAN 2.

[SwitchC] interface ten-gigabitethernet 1/0/1

[SwitchC-Ten-GigabitEthernet1/0/1] service-instance 1000

[SwitchC-Ten-GigabitEthernet1/0/1-srv1000] encapsulation s-vid 2

# Map Ethernet service instance 1000 to VSI vpna.

[SwitchC-Ten-GigabitEthernet1/0/1-srv1000] xconnect vsi vpna

[SwitchC-Ten-GigabitEthernet1/0/1-srv1000] quit

[SwitchC-Ten-GigabitEthernet1/0/1] quit

Verifying the configuration

# Display brief information about dynamic router ports for VSI vpna on Switch A.

[SwitchA] display igmp-snooping router-port vsi vpna

VSI vpna:

  Router ports (1 in total):

    Tun2 (VXLAN ID 10)                        (00:04:17)

# Display brief information about dynamic router ports for VSI vpna on Switch B.

[SwitchB] display igmp-snooping router-port vsi vpna

VSI vpna:

  Router ports (1 in total):

    Tun3 (VXLAN ID 10)                        (00:04:07)

Troubleshooting IGMP snooping

Layer 2 multicast forwarding cannot function

Symptom

Layer 2 multicast forwarding cannot function on the Layer 2 device.

Solution

To resolve the problem:

1.     Use the display igmp-snooping command to display IGMP snooping status.

2.     If IGMP snooping is not enabled, use the igmp-snooping command in system view to enable the IGMP snooping feature. Then, use the igmp-snooping enable command in VLAN view or VSI view to enable IGMP snooping for the VLAN or VSI.

3.     If IGMP snooping is enabled globally but not enabled for the VLAN or VSI, use the igmp-snooping enable command in VLAN view or VSI view to enable IGMP snooping for the VLAN or VSI.

4.     If the problem persists, contact H3C Support.

Multicast group policy does not work

Symptom

Hosts can receive multicast data for multicast groups that are not permitted by the multicast group policy.

Solution

To resolve the problem:

1.     Use the display acl command to verify that the configured ACL meets the multicast group policy requirements.

2.     Use the display this command in IGMP-snooping view or in a corresponding interface view to verify that the correct multicast group policy has been applied. If the applied policy is not correct, use the group-policy or igmp-snooping group-policy command to apply the correct multicast group policy.

3.     Use the display igmp-snooping command to verify that dropping unknown multicast data is enabled. If it is not, use the igmp-snooping drop-unknown command to enable dropping unknown multicast data.

4.     If the problem persists, contact H3C Support.