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10-VLAN termination configuration
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Configuring VLAN termination

About VLAN termination

VLAN termination typically processes packets that include VLAN tags. A VLAN termination-enabled interface performs the following tasks when receiving a VLAN-tagged packet:

1.     Assigns the packet to an interface according to its VLAN tags.

2.     Removes the VLAN tags of the packet.

3.     Delivers the packet to Layer 3 forwarding or other processing pipelines.

Before sending the packet, the VLAN termination-enabled interface determines whether to add new VLAN tags to the packet, based on the VLAN termination type.

VLAN termination can also process packets that do not include any VLAN tags.

This document uses the following VLAN tag concepts for a packet that has two or more layers of VLAN tags:

·     Layer 1 VLAN tag—Specifies the outermost layer of VLAN tags.

·     Layer 2 VLAN tag—Specifies the second outermost layer of VLAN tags.

The VLAN IDs of the packets are numbered in the same manner as the VLAN tags.

VLAN termination types

VLAN termination types

Types of packets to be terminated on the interface

Tags of outgoing packets on the interface

Dot1q termination

The packets must meet both of the following requirements:

·     The packets include one or more layers of VLAN tags.

·     The outermost VLAN ID matches the configured value.

Single-tagged

QinQ termination

The packets must meet both of the following requirements:

·     The packets include two or more layers of VLAN tags.

·     The outermost two layers of tags match the configured values.

Double-tagged

Untagged termination

Untagged packets.

Untagged

Default termination

Packets that cannot be processed on any other subinterfaces of the same main interface.

Untagged

 

VLAN termination mechanism

VLAN interfaces and subinterfaces, such as Layer 3 Ethernet subinterfaces and Layer 3 aggregate subinterfaces, can terminate the following packets:

·     Packets whose outermost VLAN IDs match the configured values.

·     Packets whose outermost two layers of VLAN IDs match the configured values.

A VLAN interface terminates only the packets whose outermost VLAN ID is the same as the VLAN interface number. For example, VLAN-interface 10 terminates only the packets with the outermost VLAN tag 10.

A main interface does not terminate VLAN-tagged packets (for example, Layer 3 Ethernet interface or Layer 3 aggregate interface). To terminate VLAN-tagged packets, create subinterfaces for the main interface.

Subinterfaces of the same main interface can use different types of VLAN termination. To process received packets, the system selects a subinterface based on the following VLAN termination types in descending order of priority:

·     QinQ termination.

·     Dot1q termination or support for Dot1q termination by default.

·     Untagged termination.

·     Default termination.

If none of these VLAN termination types applies, the main interface processes the packets.

If default termination is enabled on a subinterface of an interface, packets are processed by the subinterface instead of the main interface.

When a main interface is bound to a VLAN interface, the main interface processes VLAN-tagged packets according to the VLAN termination configuration of the VLAN interface.

VLAN termination application scenarios

Inter-VLAN communication

Hosts in different VLANs cannot directly communicate with each other. You can use Layer 3 routing to allow all VLANs to communicate. To restrict communication to the specified VLANs, configure VLAN termination on subinterfaces or VLAN interfaces.

As shown in Figure 1, Host A and Host B are in different VLANs. For the two hosts to communicate with each other, perform the following tasks:

1.     Specify 1.1.1.1/24 and 1.1.2.1/24 as the gateway IP address for Host A and Host B, respectively.

2.     On the device, configure Dot1q termination on Layer 3 Ethernet subinterfaces Subinterface A.2 and Subinterface A.3.

Figure 1 Inter-VLAN communication through Layer 3 subinterfaces

 

As shown in Figure 2, Host A is in VLAN 2, Host B is in VLAN 3, and Host C is in VLAN 4. For Host A and Host B to communicate with each other, perform the following tasks:

1.     Specify 1.1.1.1/24 and 1.1.2.1/24 as the gateway IP address for Host A and Host B, respectively.

2.     On the device, create VLAN-interface 2 and configure the IP address as 1.1.1.1/24, which is the same as the gateway address of Host A. Create VLAN-interface 3 and configure the IP address as 1.1.2.1/24, which is the same as the gateway address of Host B.

VLAN termination by the outermost VLAN ID of packets is automatically performed on VLAN interfaces. For example, when Host A sends a packet to Host B, VLAN-interface 2 removes the VLAN tag from the packet and forwards it to VLAN-interface 3. Then, VLAN-interface 3 tags the packet with VLAN 3 and Host B can receive the packet.

Because the device does not have a VLAN interface to terminate packets from VLAN 4, Host C cannot communicate with Host A or Host B.

Figure 2 Inter-VLAN communication through VLAN interfaces

 

LAN-WAN communication

Typically, WAN protocols (PPP for example) do not recognize VLAN-tagged packets from LANs. Before packets are sent to a WAN, the sending port must locally record the VLAN information and remove VLAN tags from the packets. To do that, configure VLAN termination on subinterfaces or VLAN interfaces.

As shown in Figure 3, a host is located on a customer network and wants to access the WAN network through a PPPoE connection. CVLAN and SVLAN represent the VLAN on the customer network and service provider network, respectively.

To access the WAN network, a packet originating from the host is processed as follows:

1.     Layer 2 Switch A adds a CVLAN tag to the packet and sends the packet.

2.     Layer 2 Switch B adds an SVLAN tag to the packet on the QinQ-enabled port.

3.     The packet is forwarded on the service provider network based on the SVLAN tag.

4.     The gateway removes the two layers of VLAN tags from the packet and adds new VLAN tags on the QinQ termination-enabled port.

5.     The gateway sends the packet to the WAN.

Figure 3 VLAN termination enables LAN-WAN communication

 

Restrictions: Hardware compatibility with VLAN termination

Hardware series

Model

Product code

VLAN termination compatibility

WX1800H series

WX1804H-PWR

EWP-WX1804H-PWR-CN

Yes

WX2500H series

WX2508H-PWR-LTE

WX2510H-PWR

WX2510H-F-PWR

WX2540H

WX2540H-F

WX2560H

EWP-WX2508H-PWR-LTE

EWP-WX2510H-PWR

EWP-WX2510H-F-PWR

EWP-WX2540H

EWP-WX2540H-F

EWP-WX2560H

Yes

MAK series

MAK204

MAK206

EWP-MAK204

EWP-MAK206

Yes

WX3000H series

WX3010H

WX3010H-X-PWR

WX3010H-L-PWR

WX3024H

WX3024H-L-PWR

WX3024H-F

EWP-WX3010H

EWP-WX3010H-X-PWR

EWP-WX3010H-L-PWR

EWP-WX3024H

EWP-WX3024H-L-PWR

EWP-WX3024H-F

Yes:

·     WX3010H

·     WX3024H

·     WX3024H-F

No:

·     WX3010H-L-PWR

·     WX3010H-X-PWR

·     WX3024H-L-PWR

WX3500H series

WX3508H

WX3510H

WX3520H

WX3520H-F

WX3540H

EWP-WX3508H

EWP-WX3508H-F

EWP-WX3510H

EWP-WX3510H-F

EWP-WX3520H

EWP-WX3520H-F

EWP-WX3540H

EWP-WX3540H-F

Yes

WX5500E series

WX5510E

WX5540E

EWP-WX5510E

EWP-WX5540E

No

WX5500H series

WX5540H

WX5560H

WX5580H

EWP-WX5540H

EWP-WX5560H

EWP-WX5580H

Yes

Access controller modules

LSUM1WCME0

EWPXM1WCME0

LSQM1WCMX20

LSUM1WCMX20RT

LSQM1WCMX40

LSUM1WCMX40RT

EWPXM2WCMD0F

EWPXM1MAC0F

LSUM1WCME0

EWPXM1WCME0

LSQM1WCMX20

LSUM1WCMX20RT

LSQM1WCMX40

LSUM1WCMX40RT

EWPXM2WCMD0F

EWPXM1MAC0F

No

Hardware series

Model

Product code

VLAN termination compatibility

WX1800H series

WX1804H-PWR

WX1810H-PWR

WX1820H

WX1840H

EWP-WX1804H-PWR

EWP-WX1810H-PWR

EWP-WX1820H

EWP-WX1840H-GL

Yes

WX3800H series

WX3820H

WX3840H

EWP-WX3820H-GL

EWP-WX3840H-GL

No

WX5800H series

WX5860H

EWP-WX5860H-GL

No

Restrictions and guidelines: VLAN termination configuration

When you configure VLAN termination, follow these restrictions and guidelines:

·     On a portal-enabled interface, log off all portal users before you change the VLAN termination type, for example, from Dot1q termination to QinQ termination. Any portal users who remain online after the change cannot be logged off or reauthenticated. For more information about portal authentication, see User Access and Authentication Configuration Guide.

·     After you modify the VLAN termination configuration for a subinterface, the subinterface automatically restarts. All dynamic ARP table entries for the subinterface are deleted.

VLAN termination tasks at a glance

To configure VLAN termination, perform the following tasks:

1.     (Required.) Configuring VLAN termination

Choose one of the following tasks:

¡     Configuring ambiguous Dot1q termination

¡     Configuring unambiguous Dot1q termination

¡     Configuring ambiguous QinQ termination

¡     Configuring unambiguous QinQ termination

¡     Configuring untagged termination

¡     Configuring default termination

2.     (Optional.) Enabling a VLAN termination-enabled interface to transmit broadcasts and multicasts

Perform this task to enable VLAN termination-enabled interfaces to transmit broadcasts and multicasts.

Configuring ambiguous Dot1q termination

About this task

Use this feature to terminate VLAN-tagged packets whose outermost VLAN IDs are in the specified range. Other VLAN-tagged packets are not allowed to pass.

When an interface receives a packet, it removes the outermost VLAN ID from the packet. When the interface sends a packet, it tags the packet with a VLAN ID as follows:

·     For a PPPoE packet, the VLAN ID is from the matching PPPoE session entry.

·     For a DHCP relay packet, the VLAN ID is from the matching DHCP session entry.

Procedure

1.     Enter system view.

system-view

2.     Enter interface view.

¡     Enter Layer 3 Ethernet subinterface view.

interface interface-type interface-number.subnumber

3.     Configure ambiguous Dot1q termination.

vlan-type dot1q vid vlan-id-list

By default, Dot1q termination is disabled on a subinterface.

Configuring unambiguous Dot1q termination

About this task

Use this feature to terminate only VLAN-tagged packets whose outermost VLAN ID matches the specified VLAN ID. Other VLAN-tagged packets are not allowed to pass.

When an interface receives a packet, it removes the outermost VLAN ID from the packet. When the interface sends a packet, it tags the packet with the specified VLAN ID.

Procedure

1.     Enter system view.

system-view

2.     Enter interface view.

¡     Enter Layer 3 Ethernet subinterface view.

interface interface-type interface-number.subnumber

3.     Configure unambiguous Dot1q termination.

vlan-type dot1q vid vlan-id

By default, Dot1q termination is disabled on a subinterface.

Configuring ambiguous QinQ termination

About ambiguous QinQ termination

Use this feature to terminate QinQ packets whose outermost two layers of VLAN IDs are in the specified range.

When an interface receives a packet, it removes the outermost two layers of VLAN tags from the packet. When the interface sends a packet, it tags the packet with the outermost two layers of VLAN IDs, which are determined as follows:

·     For a PPPoE packet, VLAN IDs are from the matching PPPoE session entry.

·     For a DHCP relay packet, VLAN IDs are from the matching DHCP relay entry.

Configuring ambiguous QinQ termination by specifying the outermost two layers of VLAN IDs

Restrictions and guidelines

·     If you specify the same Layer 1 VLAN ID for multiple subinterfaces of the same main interface, specify different Layer 2 VLAN IDs for them. However, if you specify different Layer 1 VLAN IDs for the subinterfaces, the Layer 2 VLAN IDs specified for the subinterfaces are not required to be different.

·     Subinterfaces of different main interfaces can terminate VLAN-tagged packets with the same Layer 1 and Layer 2 VLAN IDs.

·     If you execute the vlan-type dot1q vid second-dot1q command multiple times, all specified pairs of Layer 1 IDs and Layer 2 IDs in each execution take effect.

Procedure

1.     Enter system view.

system-view

2.     Enter interface view.

¡     Enter Layer 3 Ethernet subinterface view.

interface interface-type interface-number.subnumber

3.     Configure ambiguous QinQ termination by specifying the outermost two layers of VLAN IDs.

vlan-type dot1q vid vlan-id-list second-dot1q { vlan-id-list | any }

By default, QinQ termination is disabled on a subinterface.

Configuring ambiguous QinQ termination by specifying the Layer 2 VLAN IDs

Restrictions and guidelines

After you enable ambiguous QinQ termination on a VLAN interface, Layer 2 Ethernet interfaces bound to the VLAN interface operate as follows:

·     Process only packets that match the ambiguous QinQ termination configuration of the VLAN interface.

·     Drop any other packets sent to the VLAN interface.

Procedure

1.     Enter system view.

system-view

2.     Enter interface view.

¡     Enter Layer 3 Ethernet subinterface view.

interface interface-type interface-number.subnumber

¡     Enter VLAN interface view.

interface vlan-interface interface-number

3.     Configure ambiguous QinQ termination by specifying the Layer 2 VLAN IDs.

second-dot1q { vlan-id-list | any }

The Layer 1 VLAN ID of the VLAN-tagged packets that can be terminated by the subinterface or VLAN interface is the number of the subinterface or VLAN interface. This Layer 1 VLAN ID is not configurable.

Configuring unambiguous QinQ termination

About unambiguous QinQ termination

Use this feature to terminate QinQ packets whose outermost two layers of VLAN IDs match the specified values.

When an interface receives a packet, it removes the two layers of VLAN tags from the packet. When the interface sends a packet, it tags the packet with two layers of VLAN tags as specified.

Configuring unambiguous QinQ termination by specifying the outermost two layers of VLAN IDs

1.     Enter system view.

system-view

2.     Enter interface view.

¡     Enter Layer 3 Ethernet subinterface view.

interface interface-type interface-number.subnumber

3.     Configure unambiguous QinQ termination by specifying the outermost two layers of VLAN IDs.

vlan-type dot1q vid vlan-id second-dot1q vlan-id

By default, QinQ termination is disabled on a subinterface.

Configuring unambiguous QinQ termination by specifying the Layer 2 VLAN ID

Restrictions and guidelines

After you enable unambiguous QinQ termination on a VLAN interface, Layer 2 Ethernet interfaces bound to the VLAN interface operate as follows:

·     Process only packets that match the unambiguous QinQ termination configuration of the VLAN interface.

·     Drop any other packets sent to the VLAN interface.

Procedure

1.     Enter system view.

system-view

2.     Enter interface view.

¡     Enter Layer 3 Ethernet subinterface view.

interface interface-type interface-number.subnumber

¡     Enter VLAN interface view.

interface vlan-interface interface-number

3.     Configure unambiguous QinQ termination by specifying the Layer 2 VLAN ID.

second-dot1q vlan-id

By default, QinQ termination is disabled on an interface.

The Layer 1 VLAN ID of the VLAN-tagged packets that can be terminated by the subinterface or VLAN interface is the number of the subinterface or VLAN interface. This Layer 1 VLAN ID is not configurable.

Configuring untagged termination

1.     Enter system view.

system-view

2.     Enter interface view.

¡     Enter Layer 3 Ethernet subinterface view.

interface interface-type interface-number.subnumber

3.     Configure untagged termination.

vlan-type dot1q untagged

By default, untagged termination is disabled on a subinterface.

Configuring default termination

1.     Enter system view.

system-view

2.     Enter interface view.

¡     Enter Layer 3 Ethernet subinterface view.

interface interface-type interface-number.subnumber

3.     Configure default termination.

vlan-type dot1q default

By default, default termination is disabled on a subinterface.

Enabling a VLAN termination-enabled interface to transmit broadcasts and multicasts

About this task

This function enables ambiguous Dot1q or QinQ termination-enabled interfaces to transmit broadcasts and multicasts.

To transmit a broadcast or multicast packet, the interface starts a traversal over the VLAN IDs specified for ambiguous termination. It copies the packet and tags each copy with a VLAN ID, until all VLAN IDs in the specified range are traversed. For example, when ambiguous QinQ termination is configured, both layers of VLAN ID ranges are traversed.

Restrictions and guidelines

As a best practice, use the vlan-termination broadcast ra command to enable an ambiguous Dot1q or QinQ termination-enabled interface to transmit RA multicast packets on an IPv6 network. This command prohibits transmission of broadcast packets and other types of multicast packets, and consumes less CPU resources than the vlan-termination broadcast enable command.

Procedure

1.     Enter system view.

system-view

2.     Enter interface view.

¡     Enter Layer 3 Ethernet subinterface view.

interface interface-type interface-number.subnumber

¡     Enter VLAN interface view.

interface vlan-interface interface-number

3.     Enable the interface to transmit broadcasts and multicasts.

¡     Enable the interface to transmit broadcasts and multicasts.

vlan-termination broadcast enable

¡     Enable the interface to transmit only RA multicasts on an IPv6 network.

vlan-termination broadcast ra

By default, an ambiguous Dot1q or QinQ termination-enabled interface does not transmit broadcasts and multicasts.

 

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