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- Table of Contents
-
- 09-MPLS Command Reference
- 00-Preface
- 01-MPLS SR commands
- 02-Basic MPLS commands
- 03-Static LSP commands
- 04-LDP commands
- 05-MPLS TE commands
- 06-Static CRLSP commands
- 07-RSVP commands
- 08-Tunnel policy commands
- 09-MPLS L3VPN commands
- 10-MPLS L2VPN commands
- 11-VPLS commands
- 12-L2VPN access to L3VPN or IP backbone commands
- 13-MPLS OAM commands
- 14-MPLS protection switching commands
- 15-MCE commands
- Related Documents
-
| Title | Size | Download |
|---|---|---|
| 10-MPLS L2VPN commands | 270.31 KB |
Contents
description (cross-connect group view)
pw-class (auto-discovery cross-connect group view)
shutdown (cross-connect group view)
statistics enable (cross-connect PW view)
tunnel-policy (auto-discovery cross-connect view)
MPLS L2VPN commands
ac interface
Use ac interface to bind a Layer 3 interfaceto a cross-connect.
Use undo ac interface to remove the binding.
Syntax
ac interface interface-type interface-number[ track track-entry-number&<1-3> ]
undo ac interface interface-type interface-number
Default
No Layer 3 interface is bound to a cross-connect.
Views
Cross-connect view
Auto-discovery cross-connect view
Predefined user roles
network-admin
Parameters
interface-type interface-number: Specifies an interface by its type and number.
track track-entry-number&<1-3>: Specifies a space-separated list of up to three track entry numbers in the range of 1 to 1024. The AC is up only if a minimum of one associated track entry is in positive state.
Usage guidelines
After you execute this command, packets received from the Layer 3 interfaceare forwarded to the bound PW or another AC.
Examples
# Bind GigabitEthernet 1/0 to cross-connect aaa in cross-connect group vpna.
[Sysname] xconnect-group vpna
[Sysname-xcg-vpna] connection aaa
[Sysname-xcg-vpna-aaa] ac interface gigabitethernet 1/0
Related commands
connection
display l2vpn interface
pw-type
address-family l2vpn
Use address-family l2vpn to create the BGP L2VPN address family and enter its view, or enter the view of the existing BGP L2VPN address family view.
Use undo address-family l2vpn to delete the BGP L2VPN address family and all settings from BGP L2VPN address family view.
Syntax
address-family l2vpn
undo address-family l2vpn
Default
No BGP L2VPN address family exists.
Views
BGP instance view
Predefined user roles
network-admin
Usage guidelines
To establish a BGP PW to a remote PE, you must execute the peer enable command in BGP L2VPN address family view to enable the remote PE.
Examples
# Create the BGP L2VPN address family and enter BGP L2VPN address family view.
<Sysname> system-view
[Sysname] bgp 100
[Sysname-bgp-default] address-family l2vpn
[Sysname-bgp-default-l2vpn]
peer enable (Layer 3—IP Routing Command Reference)
auto-discovery
Use auto-discovery to enable a cross-connect group to automatically discover neighbors and create PWs through BGP, and enter auto-discovery cross-connect group view.
Use undo auto-discovery to restore the default.
Syntax
auto-discovery bgp
undo auto-discovery
Default
A cross-connect group does not use BGP to automatically discover neighbors and create PWs.
Views
Cross-connect group view
Predefined user roles
network-admin
Parameters
bgp: Enables the cross-connect group to automatically discover neighbors and create PWs through BGP.
Usage guidelines
In auto-discovery cross-connect group view, you can configure parameters such as the local site, remote site, and route target for BGP. The local PE can use BGP to discover remote PEs and create PWs.
Examples
# Enable cross-connect group bbb to automatically discover neighbors and create PWs through BGP, and enter auto-discovery cross-connect group view.
<Sysname> system-view
[Sysname] xconnect-group bbb
[Sysname-xcg-bbb] auto-discovery bgp
[Sysname-xcg-bbb-auto]
Related commands
display l2vpn pw
display l2vpn xconnect-group
backup-peer
Use backup-peer to configure a backup PW for a cross-connect and enter cross-connect backup PW view, or enter the view of an existing cross-connect backup PW.
Use undo backup-peer to restore the default.
Syntax
backup-peer ip-address pw-id pw-id [ in-label label-value out-label label-value ] [ pw-class class-name | tunnel-policy tunnel-policy-name ] *
undo backup-peer ip-address pw-id pw-id
Default
No backup PW exists for a cross-connect.
Views
Cross-connect PW view
Predefined user roles
network-admin
Parameters
ip-address: Specifies the LSR ID of the peer PE on the backup PW.
pw-id pw-id: Specifies a PW ID for the backup PW, in the range of 1 to 4294967295.
in-label label-value: Specifies the incoming label for the backup PW. The value range for the label-value argument is 16 to 1023.
out-label label-value: Specifies the outgoing label for the backup PW. The value range is 16 to 1048575.
pw-class class-name: Specifies a PW class by its name, a case-sensitive string of 1 to 19 characters. You can specify a PW class to configure the PW data encapsulation type and control word for the backup PW. If you do not specify a PW class, the PW data encapsulation type is determined by the link type of the interface. The control word feature is not supported for PW data encapsulation types that do not require using control word.
tunnel-policy tunnel-policy-name: Specifies a tunnel policy by its name, a case-sensitive string of 1 to 19 characters. If you do not specify a tunnel policy, the default tunnel policy is used.
Usage guidelines
This command configures a backup PW to implement PW redundancy. The backup PW is used when the primary PW fails.
To configure a backup static PW, you must specify the in-label and out-label. To configure a backup LDP PW, you do not need to specify the in-label and out-label.
The peer LSR ID and PW ID for a backup PW must be different from those for an existing VPLS PW or cross-connect PW.
Backup PW and multi-segment PW are mutually exclusive with each other. If you have configured a multi-segment PW, you cannot configure a backup PW for the two PWs that form the multi-segment PW. If you have configured a backup PW for a PW, the PW cannot form a multi-segment PW. For information about configuring a multi-segment PW, see the peer command.
When you add a static PW, you must make sure that static PW uses a different incoming label than an existing static LSP or static CRLSP. If the incoming label is duplicated, you cannot make the static PW take effect by changing the incoming label of the static LSP or CRLSP. Instead, you must delete the static PW and then reconfigure the static PW with an unused incoming label.
Examples
# Configure a primary PW and a backup PW for cross-connect pw2pw in cross-connect group vpn2. The primary PW is destined to 6.6.6.6 and has a PW ID of 100. The backup PW is destined to 7.7.7.7 and has a PW ID of 200.
<Sysname> system-view
[Sysname] xconnect-group vpn2
[Sysname-xcg-vpn2] connection pw2pw
[Sysname-xcg-vpn2-pw2pw] peer 6.6.6.6 pw-id 100 in-label 16 out-label 17
[Sysname-xcg-vpn2-pw2pw-6.6.6.6-100] backup-peer 7.7.7.7 pw-id 200 in-label 18 out-label 19
[Sysname-xcg-vpn2-pw2pw-6.6.6.6-100-backup]
Related commands
display l2vpn ldp
display l2vpn pw
bandwidth
Use bandwidth to set the expected bandwidth for a PW.
Use undo bandwidth to restore the default.
Syntax
bandwidth bandwidth-value
undo bandwidth
Default
The expected bandwidth is 10000000 kbps.
Views
Cross-connect PW view
Predefined user roles
network-admin
Parameters
bandwidth-value: Specifies the expected bandwidth in the range of 1 to 10000000 kbps.
Examples
# Set the expected bandwidth to 10000 kbps for a PW.
<Sysname> system-view
[Sysname] xconnect-group vpn1
[Sysname-xcg-vpn1] connection pw2pw
[Sysname-xcg-vpn1-pw2pw] peer 1.1.1.1 pw-id 1
[Sysname-xcg-vpn1-pw2pw-1.1.1.1-1] bandwidth 10000
ccc
Use ccc to create a remote Circuit Cross Connect (CCC) connection.
Use undo ccc to restore the default.
Syntax
ccc in-label in-label-value out-label out-label-value { nexthop nexthop | out-interface interface-type interface-number } [ pw-class class-name ]
undo ccc
Default
No remote CCC connections exist.
Views
Cross-connect view
Predefined user roles
network-admin
Parameters
in-label in-label-value: Specifies an incoming label. The value range for the in-label-value argument is 16 to 1023.
out-label out-label-value: Specifies an outgoing label in the range of 16 to 1048575.
nexthop nexthop: Specifies the IP address of the next hop.
out-interface interface-type interface-number: Specifies the outgoing interface by its type and number.
pw-class class-name: Specifies a PW class by its name, a case-sensitive string of 1 to 19 characters. You can specify a PW class to configure the PW data encapsulation type and control word. If you do not specify a PW class, the PW data encapsulation type is determined by the interface type. The control word feature is not supported for PW data encapsulation types that do not require using control word.
Usage guidelines
A remote CCC connection is a static L2VPN connection that is manually created by specifying the incoming and outgoing labels on two PEs. A remote CCC connection does not need a public tunnel, but it requires configuring two static LSPs in opposite directions on each P device between the two PEs. CCC employs only one level of label to transfer packets. The static LSPs on the P devices transfer data only for the CCC connection.
This command must be configured on both the local and remote PEs to create a remote CCC connection. The outgoing label specified on a device must be the same as the incoming label specified on the next hop device.
After you create a remote CCC connection, you must execute the ac interface command to bind an interface. The PE can forward packets from the interfaceto the remote CCC connection.
Use the out-interface keyword to specify the outgoing interface only on a point-to-point link. On other interfaces, for example, VLAN interfaces, you must use the nexthop keyword to specify the next hop IP address.
For the PEs to forward packets over a CCC connection, make sure the two PEs have the same CCC connection settings such as the encapsulation type and control word feature.
Examples
# Create a remote CCC connection that has incoming label 100, outgoing label 200, and next hop 10.1.1.1, and uses PW class pwc1.
<Sysname> system-view
[Sysname] xconnect-group bbb
[Sysname-xcg-bbb] connection ccc1
[Sysname-xcg-bbb-ccc1] ccc in-label 100 out-label 200 nexthop 10.1.1.1 pw-class pwc1
Related commands
ac interface
display l2vpn pw
connection
Use connection to create a cross-connect and enter its view, or enter the view of an existing cross-connect.
Use undo connection to remove a cross-connect.
Syntax
connection connection-name
undo connection connection-name
Default
No cross-connects exist.
Views
Cross-connect group view
Predefined user roles
network-admin
Parameters
connection-name: Specifies the name of the cross-connect, a case-sensitive string of 1 to 20 characters, excluding hyphens.
Usage guidelines
A cross-connect is a point-to-point connection.
You can perform the following operations in cross-connect view:
· Execute the ac interface and peer commands to connect an AC to a PW, so the PE can forward packets between the AC and the PW.
· Execute the ac interface command twice to connect two ACs, so the PE can forward packets between the two ACs.
· Execute the peer command twice to connect two PWs to form a multi-segment PW.
· Execute the ac interface and ccc commands to connect an AC to a remote CCC connection, so the PE can forward packets between the AC and the remote CCC connection.
Examples
# Create cross-connect ac2pw for cross-connect group vpn1 and enter cross-connect view.
<Sysname> system-view
[Sysname] xconnect-group vpn1
[Sysname-xcg-vpn1] connection ac2pw
[Sysname-xcg-vpn1-ac2pw]
connection remote-site-id
Use connection remote-site-id to create an auto-discovery cross-connect and enter its view, or enter the view of an existing auto-discovery cross-connect.
Use undo connection remote-site-id to remove the auto-discovery cross-connect.
Syntax
connection remote-site-id remote-site-id
undo connection remote-site-id remote-site-id
Default
No auto-discovery cross-connects exist.
Views
Site view
Predefined user roles
network-admin
Parameters
remote-site-id: Specifies a remote site by its ID in the range of 0 to 256.
Usage guidelines
This command creates an auto-discovery cross-connect that uses BGP to establish a PW from the local site to the specified remote site.
In auto-discovery cross-connect view, you can execute ac interface to bind an AC to the auto-discovery cross-connect. The PE can forward packets between the AC and the PW.
Examples
# Create an auto-discovery cross-connect from site 1 to site 3 in site view, and enter auto-discovery cross-connect view.
<Sysname> system-view
[Sysname] xconnect-group bbb
[Sysname-xcg-bbb] auto-discovery bgp
[Sysname-xcg-bbb-auto] site 1 range 10
[Sysname-xcg-bbb-auto-1] connection remote-site-id 3
[Sysname-xcg-bbb-auto-1-3]
control-word enable
Use control-word enable to enable the control word feature.
Use undo control-word enable to disable the control word feature.
Syntax
control-word enable
undo control-word enable
Default
The control word feature is disabled.
Views
PW class view
Predefined user roles
network-admin
Usage guidelines
The control word field is between the MPLS label stack and the Layer 2 data. It carries control information for the Layer 2 frame, for example, the sequence number.
The control word feature has the following functions:
· Avoids fragment disorder. In multipath forwarding, fragments received might be disordered. You can configure the control word feature so the device reorders the fragments according to the sequence number carried in the control word field.
· Transfers specific Layer 2 frame flags, such as the FECN bit and BECN bit of Frame Relay.
· Identifies the original payload length for packets that include padding.
When the PW data encapsulation type is FR DLCI or ATM AAL5 SDU VCC, packets on the PW always carry the control word field, and the control word feature cannot be disabled.
When the PW data encapsulation type is Ethernet or VLAN, the control word field is optional. Packets transmitted on the PW carry the control word field only when control word is enabled on both PEs.
Examples
# Enable the control word feature for PW class pw100.
<Sysname> system-view
[Sysname] pw-class pw100
[Sysname-pw-pw100] control-word enable
Related commands
display l2vpn pw-class
default-nexthop
Use default-nexthop to specify the default next hop.
Use undo default-nexthop to restore the default.
Syntax
default-nexthop { ip ip-address | mac { mac-address | broadcast } }
undo default-nexthop
Default
No default next hop is specified.
Views
Interface view
Predefined user roles
network-admin
Parameters
ip ip-address: Specifies the IP address of the default next hop.
mac: Specifies the MAC address of the default next hop.
mac-address: Specifies the MAC address of the default next hop.
broadcast: Uses the broadcast MAC address as the MAC address of the default next hop.
Usage guidelines
If a CE is connected to a PE through an Ethernet link in an MPLS L2VPN interworking scenario, configure the default next hop on the PE. This allows the PE to encapsulate a link layer header for the packets to be sent to the CE.
If you specify the CE's MAC address or a broadcast MAC address as the default next hop, the PE uses this MAC address as the destination address of the outgoing packets. If you specify the CE's IP address as the default next hop, the PE performs the following operations:
1. Resolves the IP address to a MAC address through ARP.
2. Uses the resolved MAC address as the destination MAC address of the outgoing packets.
Examples
# Specify the default next hop IP address as 1.1.1.1 on GigabitEthernet 1/0 (PE's interface connected to the CE).
<Sysname> system-view
[Sysname] interface gigabitethernet 1/0
[Sysname-GigabitEthernet1/0] default-nexthop ip 1.1.1.1
description (cross-connect group view)
Use description to configure a description for a cross-connect group.
Use undo description to restore the default.
Syntax
description text
undo description
Default
No description is configured for a cross-connect group.
Views
Cross-connect group view
Predefined user roles
network-admin
Parameters
text: Specifies a description, a case-sensitive string of 1 to 80 characters.
Examples
# Configure a description of vpws for vpn2 for cross-connect group vpn2.
<Sysname> system-view
[Sysname] xconnect-group vpn2
[Sysname-xcg-vpn2] description vpws for vpn2
Related commands
display l2vpn xconnect-group
display bgp l2vpn signaling
Use display bgp l2vpn signaling to display MPLS L2VPN label block information discovered by BGP.
Syntax
display bgp [ instance instance-name ] l2vpn signaling [ peer ip-address { advertised | received } [ statistics ] | route-distinguisher route-distinguisher [ site-id site-id [ label-offset label-offset [ advertise-info ] ] ] | statistics ]
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
instance instance-name: Displays MPLS L2VPN label block information in a BGP instance. The instance-name argument specifies the BGP instance name, a case-sensitive string of 1 to 31 characters. If you do not specify a BGP instance, this command displays MPLS L2VPN label block information in the default BGP instance.
peer ip-address: Displays MPLS L2VPN label block information advertised to or received from a BGP peer. The ip-address argument specifies the peer IP address.
advertised: Displays MPLS L2VPN label block information advertised to the BGP peer.
received: Displays MPLS L2VPN label block information received from the BGP peer.
statistics: Displays BGP MPLS L2VPN label block statistics.
route-distinguisher route-distinguisher: Displays BGP MPLS L2VPN label block information for the route distinguisher (RD), which is a string of 3 to 21 characters. You can specify an RD in one of the following formats:
· 16-bit AS number:32-bit user-defined number. For example, 101:3.
· 32-bit IP address:16-bit user-defined number. For example, 192.168.122.15:1.
· 32-bit AS number:16-bit user-defined number, where the AS number must be equal to or greater than 65536. For example, 65536:1.
site-id site-id: Displays BGP MPLS L2VPN label block information for a site. The site-id argument specifies the site ID. The site ID range is 0 to 65535.
label-offset label-offset: Displays information about the BGP MPLS L2VPN label block with an offset. The label-offset argument specifies the offset in the range of 0 to 65535.
advertise-info: Displays BGP MPLS L2VPN label block advertisement information.
Usage guidelines
If you do not specify any parameters, this command displays brief information about all BGP MPLS L2VPN label blocks.
Examples
# Display brief information about all BGP MPLS L2VPN label blocks.
<Sysname> display bgp l2vpn signaling
BGP local router ID is 192.168.1.135
Status codes: * - valid, > - best, d - dampened, h - history,
s - suppressed, S - stale, i - internal, e - external
Origin: i - IGP, e - EGP, ? - incomplete
Total number of label blocks: 2
Route distinguisher: 2:2
Total number of label blocks: 2
Site ID LB offset LB range LB base Nexthop
* > 1 0 10 1034 0.0.0.0
* >i 2 0 10 1162 192.3.3.3
Table 1 Command output
|
Field |
Description |
|
Status codes |
Status codes: · * – valid—Valid route. · > – best—Best route. · d – damped—Dampened route. · h – history—History route. · s – suppressed—Suppressed route. · S – Stale—Stale route. · i – internal—Internal route. · e – external—External route. |
|
Origin |
Origin of the label block: · i – IGP—Originated in the AS. · e – EGP—Learned through EGP. · ? – incomplete—Unknown origin. |
|
LB offset |
Offset of the label block. |
|
LB range |
Size of the label block. |
|
LB base |
Initial value of the label block. |
<Sysname> display bgp l2vpn signaling route-distinguisher 2:2 site-id 2 label-offset 0
BGP local router ID: 192.168.1.135
Local AS number: 100
Route distinguisher: 2:2
Total number of label blocks: 1
Paths: 1 available, 1 best
From : 192.3.3.3 (192.168.1.140)
Original nexthop: 192.3.3.3
Ext-Community : <RT: 2:2>, <L2VPN info: MTU 1500, Encap type VLAN>
AS-path : (null)
Origin : igp
Attribute value : localpref 100, pref-val 0
Site ID : 2
LB offset : 0
LB base : 1162
LB range : 10
State : valid, internal, best
CSV : 0x01000ABFFF
Table 2 Command output
|
Field |
Description |
|
Paths |
Number of label block messages: · available—Number of available label block messages. · best—Number of best label block messages. |
|
From |
IP address of the peer from which the label block was received. |
|
Original nexthop |
Original next hop. If the label block was obtained from a BGP route update, this field displays the next hop address in that BGP route update. |
|
Ext-Community |
Extended community attribute: · RT—Route target. · L2VPN info—L2VPN information, including the MTU and encapsulation type. |
|
AS-path |
AS path attribute, which records all ASs that the label block passed to prevent routing loops. |
|
Origin |
Origin of the label block: · igp—Originated in the AS. · egp—Learned through EGP. · incomplete—Unknown origin. |
|
Attribute value |
Attribute of the label block: · MED—Multi-Exit Discriminator attribute. · localpref—Local preference value. · pref-val—Preferred value. · pre—Preference value. |
|
LB offset |
Offset of the label block. |
|
LB base |
Initial value of the label block. |
|
LB range |
Size of the label block. |
|
State |
State of the label block: · valid. · internal. · external. · local. · best. |
|
CSV |
Circuit status vector. |
# Display BGP advertisement information for the specified MPLS L2VPN label block.
<Sysname> display bgp l2vpn signaling route-distinguisher 2:2 site-id 1 label-offset 0 advertise-info
BGP local router ID: 192.168.1.135
Local AS number: 100
Route distinguisher: 2:2
Total number of label blocks: 1
Paths: 1 best
Site ID : 1
LB offset : 0
LB base : 1034
LB range : 10
CSV : 0x01000ADFFF
Advertised to peers (1 in total):
192.3.3.3
Table 3 Command output
|
Field |
Description |
|
Paths |
Number of label block messages: · available—Number of available label block messages. · best—Number of best label block messages. |
|
LB offset |
Offset of the label block. |
|
LB base |
Initial value of the label block. |
|
LB range |
Size of the label block. |
|
CSV |
Circuit status vector. |
|
Advertised to peers (1 in total) |
Peers to which the label block has been advertised. |
display l2vpn bgp
Use display l2vpn bgp to display MPLS L2VPN label block information.
Syntax
display l2vpn bgp [ local | peer ip-address ] [ xconnect-group group-name ] [ verbose ]
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
local: Displays local MPLS L2VPN label block information.
peer ip-address: Displays MPLS L2VPN label block information received from the remote peer.
xconnect-group group-name: Displays MPLS L2VPN label block information for a cross-connect group. The group-name argument specifies the cross-connect group name, a case-sensitive string of 1 to 31 characters. If you do not specify a cross-connect group, this command displays MPLS L2VPN label block information for all cross-connect groups.
verbose: Displays detailed information. If you do not specify this keyword, the command displays brief information.
Usage guidelines
If you specify a peer, this command displays both the label block received from the peer and the local label block that matches the received label block.
If you do not specify a peer or local, this command displays label blocks received from all peers and local label blocks that match the received ones. If no local label block matches the received ones, the command only displays the label blocks received from all peers.
A local label block matches a received label block if the following condition is met: local label block LO ≤ remote site ID ≤ local label block LO + local label block LR – 1.
Examples
# Display brief information about label blocks received from all peers.
<Sysname> display l2vpn bgp
Total number of BGP PWs: 1, 1 up, 0 down
Xconnect-group Name: vpnb, Site ID:1
Rmt Site Offset RD Nexthop In/Out Label State
2 0 2:2 192.3.3.3 1036/1163 Up
Table 4 Command output
|
Field |
Description |
|
Rmt Site |
ID of the remote site. |
|
Offset |
Offset of the label block. |
# Display detailed information about label blocks received from all peers.
<Sysname> display l2vpn bgp verbose
Xconnect-group Name: vpnb, Site ID:1
Remote Site ID : 2
Offset : 0
RD : 2:2
PW State : Up
Encapsulation : VLAN
MTU : 1500
MTU Negotiation : Enabled
Nexthop : 192.3.3.3
Local VC Label : 1036
Remote VC Label : 1163
Link ID : 1
Local Label Block : 1034/10/0
Remote Label Block : 1162/10/0
Export Route Target: 2:2
Table 5 Command output
|
Field |
Description |
|
MTU Negotiation |
Whether PW MTU negotiation is enabled. |
|
Local VC Label |
Incoming label of the PW. |
|
Remote VC Label |
Outgoing label of the PW. |
|
Link ID |
Link ID of the PW. |
|
Local Label Block |
Local label block: label base/label range/Label-block offset. |
|
Remote Label Block |
Remote label block: label base/label range/Label-block offset. |
|
Export Route Target |
Route target of the remote label block. |
# Display brief information about all local label blocks.
<Sysname> display l2vpn bgp local
Xconnect-group Name: vpnb
Site Offset Range Label Base RD
1 0 10 1034 2:2
# Display detailed information about all local label blocks.
<Sysname> display l2vpn bgp local verbose
Xconnect-group Name: vpnb
Site ID : 1
Offset : 0
RD : 2:2
Range : 10
Label Base : 1034
Link ID : 1
Table 6 Command output
|
Field |
Description |
|
Offset |
Offset of the label block. |
|
RD |
RD of the label block. If no RD is configured, this field displays a hyphen (-). |
|
Range |
Range of the label block. |
|
Label Base |
Initial value of the label block. |
|
Link ID |
Link ID of the PW established using the label block. The link ID is fixed to 1 because an MPLS L2VPN cross-connect can establish only one BGP PW. |
Related commands
display l2vpn pw
display l2vpn forwarding
Use display l2vpn forwarding to display cross-connect forwarding information.
Syntax
In standalone mode:
display l2vpn forwarding { ac | pw } [ xconnect-group group-name ] [ verbose ]
In IRF mode:
display l2vpn forwarding { ac | pw } [ xconnect-group group-name ] [ slot slot-number ] [ verbose ]
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
ac: Displays AC forwarding information.
pw: Displays PW forwarding information.
xconnect-group group-name: Displays forwarding information for a cross-connect group. The group-name argument specifies the cross-connect group name, a case-sensitive string of 1 to 31 characters. If you do not specify a group, this command displays forwarding information for all cross-connect groups.
slot slot-number: Specifies an IRF member device by its member ID. If you do not specify a member device, this command displays cross-connect forwarding information for the master device. (In IRF mode.)
verbose: Displays detailed information. If you do not specify this keyword, the command displays brief information.
Examples
# Display brief AC forwarding information for all cross-connect groups.
<Sysname> display l2vpn forwarding ac
Total number of cross-connections: 2
Total number of ACs: 2
AC Xconnect-group Name Link ID
GE1/0 vpn1 0
GE2/0 vpn2 0
Table 7 Command output
|
Field |
Description |
|
Total number of cross-connections |
Total number of cross-connects, including cross-connects not bound to any ACs. |
|
AC |
AC type: Layer 3 interface. |
# Display detailed AC forwarding information for all cross-connect groups.
<Sysname> display l2vpn forwarding ac verbose
Xconnect-group Name: vpws1
Connection Name: actopw
Interface: GE1/0
Link ID : 1
Access Mode : Ethernet
Connection Name: actoac
Interface: GE2/0
Link ID : 0
Access Mode : Ethernet
Interface: GE3/0
Link ID : 1
Access Mode : Ethernet
Table 8 Command output
|
Field |
Description |
|
Xconnect-group Name |
Cross-connect group name. |
|
Connection Name |
Cross-connect name. |
|
Access Mode |
AC access mode: · VLAN. · Ethernet. |
|
State |
Packet reflection configuration issuing state: · Succeeded—The packet reflection configuration has been issued to the drive. · Reloading—The packet reflection configuration is being re-issued to the drive. · Failed—Failed to issue the packet reflection configuration to the drive. |
# Display brief PW forwarding information for all cross-connect groups.
<Sysname> display l2vpn forwarding pw
Total number of cross-connections: 1
Total number of PWs: 2, 2 up, 0 blocked, 0 down
Xconnect-group Name In/Out Label NID Link ID State
vpn1 1279/1151 1025 0 Up
vpn1 1278/1151 1027 1 Up
Table 9 Command output
|
Field |
Description |
|
Total number of cross-connections |
Total number of cross-connects, including those not bound to any PW. |
|
NID |
NHLFE ID for the public tunnel that carries the PW. If equal-cost tunnels are available, this field displays multiple NIDs. If no tunnel is available, this field displays None. |
|
State |
PW state: Up, Down, or Blocked. Blocked indicates that the PW is a backup PW. |
# Display detailed PW forwarding information for all cross-connect groups.
<Sysname> display l2vpn forwarding pw verbose
Xconnect-group Name: vpn1
Connection Name: ldp
Link ID: 0
PW Type : VLAN PW State : Up
In Label : 1279 Out Label: 1151
MTU : 1500
PW Attributes : Main
VCCV CC : Router-Alert
VCCV BFD : Fault Detection with BFD
Tunnel Group ID : 0x60000000
Tunnel NHLFE IDs: 1025
Link ID: 1
PW Type : VLAN PW State : Up
In Label : 1278 Out Label: 1151
MTU : 1500
PW Attributes : Main
VCCV CC : Router-Alert
VCCV BFD : Fault Detection with BFD
Tunnel Group ID : 0x160000001
Tunnel NHLFE IDs: 1027
Table 10 Command output
|
Field |
Description |
|
PW State |
PW state: Up, Down, or Blocked. Blocked indicates that the PW is a backup PW. |
|
PW Attributes |
PW attribute: · Main—The PW is the primary PW. · Backup—The PW is the backup PW. |
|
VCCV CC |
VCCV CC type: · Control-Word—Control word. · Router-Alert—MPLS Router Alert Label. · TTL—TTL expiry (MPLS PW Label with TTL=1.) This field displays a hyphen (-) if no VCCV CC type is specified. |
|
VCCV BFD |
VCCV BFD type: · Fault Detection with BFD. BFD packets use IP/UDP encapsulation (with IP/UDP headers). · Fault Detection with Raw-BFD. BFD packets use PW-ACH encapsulation (without IP/UDP headers). This field displays a hyphen (-) if BFD is not used to verify PW connectivity. |
|
Tunnel Group ID |
ID of the tunnel group for the PW. |
|
Tunnel NHLFE IDs |
NHLFE IDs of the public tunnels that carry the PW. If equal-cost tunnels are available, this field displays multiple tunnel NHLFE IDs. If no tunnel is available, this field displays None. |
display l2vpn interface
Use display l2vpn interface to display L2VPN information for Layer 3 interfaces bound to cross-connects.
Syntax
display l2vpn interface [ xconnect-group group-name | interface-type interface-number ] [ verbose ]
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
xconnect-group group-name: Displays L2VPN information for Layer 3 interfaces bound to cross-connects in a cross-connect group. The group-name argument specifies the cross-connect group name, a case-sensitive string of 1 to 31 characters.
interface-type interface-number: Displays L2VPN information for the specified interface.
verbose: Displays detailed information. If you do not specify this keyword, the command displays brief information.
Usage guidelines
If you do not specify any parameters, this command displays L2VPN information for all Layer 3 interfaces bound to cross-connects.
Examples
# Display brief L2VPN information for all Layer 3 interfaces bound to cross-connects.
<Sysname> display l2vpn interface
Total number of interfaces: 2, 2 up, 0 down
Interface Owner Link ID State Type
GE1/0 vpws1 1 Up VPWS
GE2/0 vpws2 1 Up VPWS
# Display detailed L2VPN information for all Layer 3 interfaces bound to cross-connects.
<Sysname> display l2vpn interface verbose
Interface : GE1/0
Owner : vpws1
Link ID : 1
State : UP
Type : VPWS
Statistics : Enabled
Input Statistics:
Octets :0
Packets :0
Output Statistics:
Octets :0
Packets :0
Interface : GE2/0
Owner : vpws2
Link ID : 1
State : UP
Type : VPWS
Statistics : Enabled
Input Statistics:
Octets :0
Packets :0
Output Statistics:
Octets :0
Packets :0
Table 11 Command output
|
Field |
Description |
|
Owner |
Cross-connect group name. |
|
Link ID |
Link ID of the AC. |
|
Type |
L2VPN type. The value can only be VPWS for an MPLS L2VPN network. |
|
Statistics |
Packet statistics state on the Layer 3 interface: · Enabled. · Disabled. |
|
Input Statistics |
Incoming packet statistics on the Layer 3 interface: · Octets—Number of incoming octets. · Packets—Number of incoming packets. |
|
Output Statistics |
Outgoing packet statistics on the Layer 3 interface: · Octets—Number of outgoing octets. · Packets—Number of outgoing packets. |
display l2vpn ldp
Use display l2vpn ldp to display LDP PW label information.
Syntax
display l2vpn ldp [ peer ip-address [ pw-id pw-id ] | xconnect-group group-name ] [ verbose ]
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
peer ip-address: Displays LDP PW label information advertised by a peer PE. The ip-address argument specifies the LSR ID of the peer PE. If you do not specify a peer PE, this command displays LDP PW label information advertised by all peer PEs.
pw-id pw-id: Displays LDP PW label information for a PW. The pw-id argument specifies the PW ID in the range of 1 to 4294967295. If you specify peer ip-address without this option, the command displays all LDP PW label information advertised by the peer PE.
xconnect-group group-name: Displays LDP PW label information for a cross-connect group. The group-name argument specifies the cross-connect group name, a case-sensitive string of 1 to 31 characters. If you do not specify a cross-connect group, this command displays LDP PW label information for all cross-connect groups.
verbose: Displays detailed information. If you do not specify this keyword, the command displays brief information.
Examples
# Display brief information about all LDP PW labels.
<Sysname> display l2vpn ldp
Total number of LDP PWs: 5, 4 up, 1 down
Peer PW ID/VPLS ID In/Out Label State Owner
192.3.3.3 1001 775125/775126 Up vpws1
192.3.3.3 1001 775125/775126 Up vpws1
192.3.3.3 1003 775117/775122 Up vpws3
192.3.3.3 1004 775120/775120 Up vpws4
192.4.4.4 1000 775116/unknown Down vpws5
Table 12 Command output
|
Field |
Description |
|
PW ID/VPLS ID |
This field displays the PW ID for FEC 128, and displays the VPLS ID for FEC 129. Only VPLS supports FEC 129. |
|
Owner |
Cross-connect group of the PW. |
# Display detailed information about all LDP PW labels.
<Sysname> display l2vpn ldp verbose
Peer: 192.2.2.2 PW ID: 1000
Xconnect-group: vpn1
Connection : ldp
PW State : Up
PW Status Communication: Notification method
PW Preferential Forwarding Status Bit: Process
PW ID FEC (Local/Remote):
PW Type : VLAN/VLAN
Group ID : 0/0
Label : 1151/1279
Control Word : Disabled/Disabled
VCCV CC Type : -/-
VCCV CV Type : -/-
MTU : 1500/1500
MTU Negotiation : Enabled
PW Status : PW forwarding/PW forwarding
Table 13 Command output
|
Field |
Description |
|
Xconnect-group |
Cross-connect group of the PW. |
|
Connection |
Cross-connect of the PW. |
|
PW Status Communication |
PW state communicate: · Notification method—Uses notifications to communicate PW states. · Label withdraw method—Assigns a PW label to the PW when the AC is up and withdraws the PW label when the AC goes down. |
|
PW Preferential Forwarding Status Bit |
PW state processing mode: · Process—Process the received PW states. · Ignore—Ignore the received PW states. |
|
VCCV CC Type |
VCCV CC type: · Control-Word—Control word. · Router-Alert—MPLS Router Alert Label. · TTL—TTL expiry (MPLS PW Label with TTL=1.) This field displays a hyphen (-) if no VCCV CC type is specified. For information about VCCV, see MPLS Configuration Guide. |
|
VCCV CV Type |
VCCV CV type: · LSP Ping—Uses MPLS LSP ping to verify PW connectivity. · BFD—Uses BFD to verify PW connectivity. BFD packets use IP/UDP encapsulation (with IP/UDP headers). · Raw-BFD—Uses BFD to verify PW connectivity. BFD packets use PW-ACH encapsulation (without IP/UDP headers). This field displays a hyphen (-) if VCCV is not performed on the PW. |
|
MTU Negotiation |
Whether PW MTU negotiation is enabled. |
display l2vpn pw
Use display l2vpn pw to display L2VPN PW information.
Syntax
display l2vpn pw [ xconnect-group group-name ] [ protocol { bgp | ldp | static } ] [ verbose ]
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
xconnect-group group-name: Displays L2VPN PW information for a cross-connect group. The group-name argument specifies the cross-connect group name, a case-sensitive string of 1 to 31 characters. If you do not specify a group, this command displays L2VPN PW information for all cross-connect groups.
protocol: Displays L2VPN PW information established by a protocol. If you do not specify a protocol, this command displays L2VPN PW information established by all protocols.
bgp: Displays BGP PW information.
ldp: Displays LDP PW information.
static: Displays static PW information, including remote CCC connections.
verbose: Displays detailed information. If you do not specify this keyword, the command displays brief information.
Usage guidelines
After you enable PW statistics, you can use the display l2vpn pw verbose command to display PW statistics.
Examples
# Display brief information about all L2VPN PWs.
<Sysname> display l2vpn pw
Flags: M - main, B - backup, BY - bypass, H - hub link, S - spoke link, N - no split horizon
Total number of PWs: 2
2 up, 0 blocked, 0 down, 0 defect, 0 idle, 0 duplicate
Xconnect-group Name: ldp
Peer PW ID/Rmt Site In/Out Label Proto Flag Link ID State
192.3.3.3 500 1299/1299 LDP M 0 Up
Xconnect-group Name: vpnb
Peer PW ID/Rmt Site In/Out Label Proto Flag Link ID State
192.3.3.3 2 1036/1163 BGP M 1 Up
Table 14 Command output
|
Field |
Description |
|
Flags |
PW flag. |
|
PW ID/Rmt Site |
This field displays the PW ID for a static or LDP PW, and displays the remote site ID for a BGP PW. |
|
Proto |
Protocol that established the PW: LDP, Static, or BGP. |
|
Flag |
PW attribute: · M—Primary PW. · B—Backup PW. · BY—Bypass PW. This flag is not supported in the current software version. |
|
Link ID |
Link ID of the PW. |
|
State |
PW state: · Up—The PW is available. · Down—The PW is not available. · Blocked—The PW is a backup PW. · Defect—BFD has detected a defect on the PW. · Idle—The incoming label of the PW is not available. · Dup—The incoming label of the static PW is used by a static LSP or a static CRLSP. |
# Display detailed information about all PWs.
<Sysname> display l2vpn pw verbose
Xconnect-group Name: ldp
Connection Name: ldp
Peer: 192.3.3.3 PW ID: 500
Signaling Protocol : LDP
Link ID : 0 PW State : Up
In Label : 1299 Out Label: 1299
MTU : 1500
PW Attributes : Main
VCCV CC : -
VCCV BFD : -
Tunnel Group ID : 0x800000160000000
Tunnel NHLFE IDs : 1026
Input statistics :
Octets : 10600
Packets : 100
Errors : 0
Discards : 0
Output statistics :
Octets : 12600
Packets : 100
Errors : 0
Discards : 0
Xconnect-group Name: vpnb
Connection of auto-discovery: Site 1
Peer: 192.3.3.3 Remote Site: 2
Signaling Protocol : BGP
Link ID : 1 PW State : Up
In Label : 1036 Out Label: 1163
MTU : 1500
PW Attributes : Main
VCCV CC : -
VCCV BFD : -
Tunnel Group ID : 0x800000160000000
Tunnel NHLFE IDs : 1026
Table 15 Command output
|
Field |
Description |
|
|
Xconnect-group Name |
Cross-connect group name. |
|
|
Connection Name |
Cross-connect name, which is displayed for LDP and static PWs. |
|
|
Peer |
IP address of the peer PE of the PW. |
|
|
Signaling Protocol |
Protocol that established the PW: LDP, Static, or BGP. |
|
|
PW State |
PW state: · Up—The PW is available. · Down—The PW is not available. · Blocked—The PW is a backup PW. · Defect—BFD has detected a defect on the PW. · Idle—The incoming label of the PW is not available. · Duplicate—The incoming label of the static PW is used by a static LSP or a static CRLSP. |
|
|
Wait to Restore Time |
Wait time to switch traffic from the backup PW to the primary PW when the primary PW recovers, in seconds. If the switchover is disabled, this field displays Infinite. This field is available when both primary and backup PW exist, and is displayed only for the primary PW. |
|
|
Remaining Time |
Remaining wait time for traffic switchover, in seconds. |
|
|
PW Attributes |
PW attribute: · Main—Primary PW. · Backup—Backup PW. |
|
|
VCCV CC |
VCCV CC type: · Control-Word—Control word. · Router-Alert—MPLS Router Alert Label. · TTL—TTL expiry (MPLS PW Label with TTL=1.) This field displays a hyphen (-) if no VCCV CC type is specified. |
|
|
VCCV BFD |
VCCV BFD type: · Fault Detection with BFD. BFD packets use IP/UDP encapsulation (with IP/UDP headers). · Fault Detection with Raw-BFD. BFD packets use PW-ACH encapsulation (without IP/UDP headers). This field displays a hyphen (-) if BFD is not used to verify PW connectivity. |
|
|
Tunnel Group ID |
ID of the tunnel group for the PW. |
|
|
Tunnel NHLFE IDs |
NHLFE IDs of the public tunnels that carry the PW. If equal-cost tunnels are available, this field displays multiple tunnel NHLFE IDs. If no tunnel is available, this field displays None. |
|
|
Connection of auto-discovery |
The PW is a BGP PW. |
|
|
Site |
Local site ID. |
|
|
Remote site |
Remote site ID. |
|
|
Input statistics |
Incoming packet statistics for the PW: · Octets—Number of incoming octets. · Packets—Number of incoming packets. · Errors—Number of error packets. · Discards—Number of discarded packets. |
|
|
Output statistics |
Outgoing packet statistics for the PW: · Octets—Number of outgoing octets. · Packets—Number of outgoing packets. · Errors—Number of error packets. · Discards—Number of discarded packets. |
|
statistics enable
display l2vpn pw-class
Use display l2vpn pw-class to display PW class information.
Syntax
display l2vpn pw-class [ class-name ] [ verbose ]
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
class-name: Displays information about the PW class specified by its name, a case-sensitive string of 1 to 19 characters. If you do not specify a PW class, this command displays information about all PW classes.
verbose: Displays detailed information. If you do not specify this keyword, the command displays brief PW class information.
Examples
# Display information about all PW classes.
<Sysname> display l2vpn pw-class
Total number of PW classes: 2
PW Class Name PW Type Control Word VCCV CC VCCV BFD
pw1 Ethernet Enabled Router-Alert BFD
pw2 VLAN Disabled Router-Alert BFD
Table 16 Command output
|
Field |
Description |
|
|
PW Type |
PW data encapsulation type: Ethernet or VLAN. |
|
|
VCCV CC |
VCCV CC type: · Control-Word—Control word. · Router-Alert—MPLS Router Alert Label. · TTL—TTL expiry (MPLS PW Label with TTL=1.) This field displays a hyphen (-) if no VCCV CC type is specified. |
|
|
VCCV BFD |
VCCV BFD type: · BFD—BFD packets use IP/UDP encapsulation (with IP/UDP headers). · Raw-BFD—BFD packets use PW-ACH encapsulation (without IP/UDP headers). This field displays a hyphen (-) if BFD is not used to verify PW connectivity. |
|
# Display detailed information about all PW classes.
<Sysname> display l2vpn pw-class verbose
PW Class Name : pw1
PW Type : Ethernet
Control Word: Enabled
VCCV CC : Router-Alert
VCCV BFD : BFD
Sequencing : Both
PW Class Name : pw2
PW Type : VLAN
Control Word: Disabled
VCCV CC : Router-Alert
VCCV BFD : BFD
Sequencing : -
Table 17 Command output
|
Field |
Description |
|
PW Type |
PW data encapsulation type: Ethernet or VLAN. |
|
Control Word |
Whether control word is enabled. |
|
VCCV CC |
VCCV CC type: · Control-Word—Control word. · Router-Alert—MPLS Router Alert Label. · TTL—TTL expiry (MPLS PW Label with TTL=1.) This field displays a hyphen (-) if no VCCV CC type is specified. |
|
VCCV BFD |
VCCV BFD type: · BFD—BFD packets use IP/UDP encapsulation (with IP/UDP headers). · Raw-BFD—BFD packets use PW-ACH encapsulation (without IP/UDP headers). This field displays a hyphen (-) if BFD is not used to verify PW connectivity. |
|
Sequencing |
Packet sequencing on the PW. The value is Both, which means sequencing is enabled for both incoming and outgoing packets on a PW. A hyphen (-) in this field indicates that packet sequencing is disabled on the PW. |
Related commands
pw-class
display l2vpn xconnect-group
Use display l2vpn xconnect-group to display cross-connect group information.
Syntax
display l2vpn xconnect-group [ name group-name ] [ verbose ]
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
name group-name: Displays information about a cross-connect group. The group-name argument specifies the cross-connect group name, a case-sensitive sting of 1 to 31 characters. If you do not specify a group, this command displays information about all cross-connect groups.
verbose: Displays detailed information. If you do not specify this keyword, the command displays brief information.
Examples
# Display brief information about all cross-connect groups.
<Sysname> display l2vpn xconnect-group
Status Codes: UP - Up, DN - Down, DF - Defect, BD - Blocked, AD - Admin Down,
DL - Idle, DP - Duplicate
Total number of cross-connections: 1, 1 up, 0 down, 0 admin down
Xconnect-group Connection ST
Segment1 ST Segment2 ST
--------------------------------------------------------------------------------
aaa bbb UP
GE1/0 srv2 UP LDP 192.3.3.3 100 UP
--------------------------------------------------------------------------------
Table 18 Command output
|
Field |
Description |
|
Connection |
Cross-connect name. |
|
ST |
Cross-connect group state: Up, Down, or Admin down. Admin down indicates that the cross-connect group has been shut down by using the shutdown command. |
|
Segment1 / Segment2 |
· AC information—Layer 3 interface name or Ethernet service instance name. · PW information—PW establishment mode, IP address of the remote PE, and PW ID. |
|
ST |
When this field displays the AC state, options include the following: · UP—The AC is up. · DN—The AC is down. When this field displays the PW state, options include the following: · UP—The PW is up. · DN—The PW is down. · DF—BFD has detected faults on the PW. · BD—The PW is a backup PW and does not forward traffic. · DL—The incoming label of the PW is unavailable. · DP—The incoming label of the PW is the same as the incoming label of a static LSP or static CRLSP. |
# Display detailed information about all cross-connect groups.
<Sysname> display l2vpn xconnect-group verbose
Xconnect-group Name: aaa
Connection Name : bbb
Connection ID : 0
State : Up
MTU : 1500
PW Redundancy : Slave
Interworking IPv4: Enabled
LDP PWs:
Peer PW ID Link ID State
192.3.3.3 100 1 Up
Create time: 2019-10-24 14:57:35
Last time status changed: 2019-10-24 15:00:00
Last time PW went down: 2019-10-24 14:57:35
Statistics: Disabled
ACs:
AC Link ID State
GE1/0 0 Up
Statistics: Disabled
Table 19 Command output
|
Field |
Description |
|
Xconnect-group Name |
Cross-connect group name. |
|
Description |
Description for the cross-connect group. If no description is configured, this field is not displayed. |
|
Connection Name |
Cross-connect name. |
|
Connection of auto-discovery |
Auto-discovery cross-connect. |
|
Site |
Local site ID. |
|
Remote site |
Remote site ID. |
|
Connection ID |
Cross-connect ID. |
|
State |
Cross-connect group state: Up, Down, or Admin down. Admin down indicates that the cross-connect group has been shut down by using the shutdown command. |
|
PW Redundancy |
PW redundancy mode: · Slave—Master/slave mode and the local PE operates as the slave node. · Master—Master/slave mode and the local PE operates as the master node. |
|
Interworking IPv4 |
IPv4 interworking state: Enabled or Disabled. |
|
State |
PW state: Up, Down, Blocked, or Defect. |
|
Create time |
Time when the PW was established. |
|
Last time status changed |
Time when the PW state most recently changed. |
|
Last time PW went down |
Time when the PW most recently went down. |
|
Statistics |
PW statistics state: Enabled or Disabled. If AC or PW statistics is enabled, the following information is displayed: · Octets—Numbers of incoming and outgoing bytes. · Packets—Numbers of incoming and outgoing packets. · Errors—Numbers of incoming and outgoing error packets. · Discards—Numbers of discarded incoming and outgoing packets. |
|
AC |
AC type: Layer 3 interface. |
Related commands
xconnect-group
interworking
Use interworking to enable interworking for a cross-connect.
Use undo interworking to disable interworking for a cross-connect.
Syntax
interworking ipv4
undo interworking
Default
Interworking is disabled for a cross-connect.
Views
Cross-connect view
Predefined user roles
network-admin
Parameters
ipv4: Specifies IPv4 interworking.
Usage guidelines
Interworking enables a PW to connect ACs that have different link types. In an IPv4 interworking scenario, a PE extracts IPv4 packets from frames received from the AC and sends the packets to the peer PE through the PW. The peer PE uses the link protocol of the connected AC to encapsulate the IPv4 packets and sends the packets through the AC. This method hides the link types of ACs at the two ends.
IPv4 interworking discards non-IPv4 packets received from the AC.
When interworking is enabled, the PW data encapsulation type configuration does not take effect.
Examples
# Enable IPv4 interworking for cross-connect ac2pw in cross-connect group vpn1.
<Sysname> system-view
[Sysname] xconnect-group vpn1
[Sysname-xcg-vpn1] connection ac2pw
[Sysname-xcg-vpn1-ac2pw] interworking ipv4
l2vpn enable
Use l2vpn enable to enable L2VPN.
Use undo l2vpn enable to disable L2VPN.
Syntax
l2vpn enable
undo l2vpn enable
Default
L2VPN is disabled.
Views
System view
Predefined user roles
network-admin
Usage guidelines
You must enable L2VPN before configuring other L2VPN settings.
Examples
# Enable L2VPN.
<Sysname> system-view
[Sysname] l2vpn enable
l2vpn switchover
Use l2vpn switchover to switch traffic from a PW to its backup or primary PW.
Syntax
l2vpn switchover peer ip-address pw-id pw-id
Views
User view
Predefined user roles
network-admin
Parameters
peer ip-address: Specifies the LSR ID of the peer PE.
pw-id pw-id: Specifies a PW by its ID in the range of 1 to 4294967295.
Usage guidelines
The specified LSR ID and PW ID uniquely identify a PW.
If a PW has a backup PW or primary PW, this command switches traffic from the PW to the backup or primary PW. If the PW does not have a backup or primary PW, this command does not perform the switchover.
Examples
# Switch traffic from PW 100 destined for 3.3.3.3 to its backup PW.
<Sysname> l2vpn switchover peer 3.3.3.3 pw-id 100
mtu
Use mtu to set an MTU for PWs established on a cross-connect or auto-discovery cross-connect.
Use undo mtu to restore the default.
Syntax
mtu size
undo mtu
Default
A PW has an MTU of 1500 bytes.
Views
Cross-connect view
Auto-discovery cross-connect group view
Predefined user roles
network-admin
Parameters
size: Specifies an MTU value. The value range for this argument is 300 to 65535.
Usage guidelines
The specified MTU applies to all PWs established in the cross-connect view or the auto-discovery cross-connect group view.
The MTU specifies the maximum packet length, including the control word, PW label, and network layer packet.
When PW MTU negotiation is enabled, you can establish an LDP or BGP PW between two PEs only when you configure the same PW MTU on the two PEs. When PW MTU negotiation is disabled, you can establish an LDP or BGP PW between two PEs even if you configure different PW MTUs on the two PEs.
Examples
# Set the MTU to 1400 bytes for cross-connect ac2pw in cross-connect group vpn1.
<Sysname> system-view
[Sysname] xconnect-group vpn1
[Sysname-xcg-vpn1] connection ac2pw
[Sysname-xcg-vpn1-ac2pw] mtu 1400
# Set the MTU to 1400 bytes for the auto-discovery cross-connect in cross-connect group bbb.
<Sysname> system-view
[Sysname] xconnect-group bbb
[Sysname-xcg-bbb] auto-discovery bgp
[Sysname-xcg-bbb-auto] mtu 1400
Related commands
display l2vpn xconnect-group
mtu-negotiate disable
mtu-negotiate disable
Use mtu-negotiate disable to disable PW MTU negotiation.
Use undo mtu-negotiate disable to enable PW MTU negotiation.
Syntax
mtu-negotiate disable
undo mtu-negotiate disable
Default
PW MTU negotiation is enabled.
Views
Cross-connect view
Auto-discovery cross-connect group view
Predefined user roles
network-admin
Usage guidelines
By default, the establishment of an LDP or BGP PW requires the same PW MTU on the two PEs of the PW. Configure this command if you want to establish a PW between two PEs that are configured with different PW MTUs. If the PW MTUs of the two PEs of a PW are different, the PEs use their respective local PW MTUs to forward packets.
Examples
# In cross-connect view, disable PW MTU negotiation.
<Sysname> system-view
[Sysname] xconnect-group 1
[Sysname-xcg-1] connection ldp
[Sysname-xcg-1-ldp] mtu-negotiate disable
Related commands
mtu
peer
Use peer to configure a PW for a cross-connect and enter cross-connect PW view, or enter the view of an existing cross-connect PW.
Use undo peer to delete a PW for a cross-connect.
Syntax
peer ip-address pw-id pw-id [ ignore-standby-state | in-label label-value out-label label-value ] [ pw-class class-name | tunnel-policy tunnel-policy-name ] *
undo peer ip-address pw-id pw-id
Default
No PWs exist for a cross-connect.
Views
Cross-connect view
Predefined user roles
network-admin
Parameters
ip-address: Specifies the LSR ID of the peer PE.
pw-id pw-id: Specifies a PW ID for the PW, in the range of 1 to 4294967295.
ignore-standby-state: Ignores the PW active/standby status bit received from the remote PE. This keyword is applicable only to LDP PWs.
in-label label-value: Specifies the incoming label of the PW. The value range for the label-value argument is 16 to 1023.
out-label label-value: Specifies the outgoing label of the PW. The value range is 16 to 1048575.
pw-class class-name: Specifies a PW class by its name, a case-sensitive string of 1 to 19 characters. You can specify a PW class to configure the PW data encapsulation type and control word. If you do not specify a PW class, the PW data encapsulation type is determined by the interface type. The control word feature is not supported for PW data encapsulation types that do not require using control word.
tunnel-policy tunnel-policy-name: Specifies a tunnel policy by its name, a case-sensitive string of 1 to 19 characters. If you do not specify a tunnel policy, the default tunnel policy is used.
Usage guidelines
A PE uses the PW Preferential Forwarding Status bit in LDP messages to advertise the local PWs' active/standby states. When the bit is set, it indicates that the local PW is in standby state. When the bit is cleared, it indicates that the local PW is in active state.
In master/slave mode of PW redundancy, the slave PE selects the forwarding PW among the set of redundant PWs based on the status bit received from the master PE. If you specify the ignore-standby-state keyword, the PE ignores the status bit received from the master PE and uses the primary PW to forward packets as long as the primary PW is up.
The PW ID for a PW must be the same on the PEs at the two ends of the PW.
On a PE, the LSR ID of the peer PE and the PW ID uniquely identify a PW. The peer LSR ID and PW ID combination of a PW must be unique among all VPLS PWs and cross-connect PWs.
To create a static PW, you must specify the incoming and outgoing labels. To enter the view of an existing static PW, you do not need to specify the incoming and outgoing labels.
If you do not specify the incoming and outgoing labels when you create a new PW, LDP is used to create the PW.
To create a multi-segment PW, execute the peer command twice to create two cross-connect PWs in the same cross-connect view. The two PWs form a multi-segment PW.
When you add a static PW, you must make sure that static PW uses a different incoming label than an existing static LSP or static CRLSP. If the incoming label is duplicated, you cannot make the static PW take effect by changing the incoming label of the static LSP or CRLSP. Instead, you must delete the static PW and then reconfigure the static PW with an unused incoming label.
Examples
# Configure an LDP PW destined to 4.4.4.4 for cross-connect pw2pw in cross-connect group vpn1 and enter cross-connect PW view. The PW ID is 200.
<Sysname> system-view
[Sysname] xconnect-group vpn1
[Sysname-xcg-vpn1] connection pw2pw
[Sysname-xcg-vpn1-pw2pw] peer 4.4.4.4 pw-id 200
[Sysname-xcg-vpn1-pw2pw-4.4.4.4-200]
# Configure a static PW destined to 5.5.5.5 for cross-connect pw2pw in cross-connect group vpn1 and enter cross-connect PW view. The static PW has an ID of 200, an incoming label of 100, and an outgoing label of 200.
<Sysname> system-view
[Sysname] xconnect-group vpn1
[Sysname-xcg-vpn1] connection pw2pw
[Sysname-xcg-vpn1-pw2pw] peer 5.5.5.5 pw-id 200 in-label 100 out-label 200
[Sysname-xcg-vpn1-pw2pw-5.5.5.5-200]
Related commands
display l2vpn ldp
display l2vpn pw
pw-class
peer signaling
Use peer signaling to enable BGP to exchange label block information with the specified peer or peer group.
Use undo peer signaling to disable BGP to exchange label block information with the specified peer or peer group.
Syntax
peer { group-name | ip-address [ mask-length ] } signaling [ non-standard ]
undo peer { group-name | ip-address [ mask-length ] } signaling
Default
BGP can exchange label block information with an L2VPN peer or peer group through RFC 4761 MP_REACH_NLRI.
Views
BGP L2VPN address family view
Predefined user roles
network-admin
Parameters
group-name: Specifies a peer group by its name, a case-sensitive string of 1 to 47 characters. The specified peer group must have been created.
ip-address: Specifies a peer by its IP address. The specified peer must have been created.
mask-length: Specifies a mask length in the range of 0 to 32. You can use the ip-address and mask-length arguments together to specify a subnet. If you specify a subnet, this command enables BGP to exchange label block information with all dynamic peers in the subnet.
non-standard: Uses draft-kompella-ppvpn-l2vpn-03 MP_REACH_NLRI to exchange label block information. If you do not specify this keyword, RFC 4761 MP_REACH_NLRI is used to exchange label block information.
Usage guidelines
L2VPN uses MP-BGP to exchange label blocks when creating a BGP PW.
To enable BGP to exchange label blocks with the specified peers through RFC 4761 MP_REACH_NLRI, you can also use the peer enable command in BGP L2VPN address family view. To disable the capability, use the undo peer signaling command.
Examples
# Enable BGP to exchange label block information with the peer 3.3.3.9 through draft-kompella-ppvpn-l2vpn-03 MP_REACH_NLRI.
<Sysname> system-view
[Sysname] bgp 100
[Sysname-bgp-default] address-family l2vpn
[Sysname-bgp-default-l2vpn] peer 3.3.3.9 signaling non-standard
Related commands
display bgp l2vpn signaling
policy vpn-target
Use policy vpn-target to enable route target-based filtering of incoming BGP L2VPN information.
Use undo policy vpn-target to disable route target-based filtering of incoming BGP L2VPN information.
Syntax
policy vpn-target
undo policy vpn-target
Default
Route target-based filtering of incoming BGP L2VPN information is enabled.
Views
BGP L2VPN address family view
Predefined user roles
network-admin
Usage guidelines
If route target-based filtering is enabled, L2VPN accepts only the incoming BGP L2VPN information whose export route target attribute matches the local import route target attribute. If route target-based filtering is disabled, L2VPN accepts all incoming BGP L2VPN information.
To establish a BGP PW between two MP-IBGP peers that use a route reflector, you must disable route target-based filtering of incoming BGP L2VPN information on the route reflector.
Examples
# Disable route target-based filtering of incoming BGP L2VPN information.
<Sysname> system-view
[Sysname] bgp 100
[Sysname-bgp-default] address-family l2vpn
[Sysname-bgp-default-l2vpn] undo policy vpn-target
protection dual-receive
Use protection dual-receive to enable the dual receive feature for PW redundancy. After the dual receive feature is enabled, both the primary and backup PWs can receive packets, but only the primary PW sends packets.
Use undo protection dual-receive to restore the default.
Syntax
protection dual-receive
undo protection dual-receive
Default
The dual receive feature is disabled. When the primary PW is normal, the backup PW does not send or receive packets.
Views
Cross-connect view
Predefined user roles
network-admin
Examples
# Enable the dual receive feature for cross-connect ac2pw in cross-connect group vpn1.
<Sysname> system-view
[Sysname] xconnect-group vpn1
[Sysname-xcg-vpn1] connection ac2pw
[Sysname-xcg-vpn1-ac2pw] protection dual-receive
pw-class (auto-discovery cross-connect group view)
Use pw-class to specify a PW class for an auto-discovery cross-connect group.
Use undo pw-class to restore the default.
Syntax
pw-class class-name
undo pw-class
Default
No PW class is specified.
Views
Auto-discovery cross-connect group view
Predefined user roles
network-admin
Parameters
class-name: Specifies a PW class by its name, a case-sensitive string of 1 to 19 characters.
Usage guidelines
The specified PW class will be used to establish all PWs in the auto-discovery cross-connect group.
Examples
# Specify a PW class named pw100 for auto-discovery cross-connect group bbb.
<Sysname> system-view
[Sysname] pw-class pw100
[Sysname-pw-pw100] quit
[Sysname] xconnect-group bbb
[Sysname-xcg-bbb] auto-discovery bgp
[Sysname-xcg-bbb-auto] pw-class pw100
Related commands
control-word enable
display l2vpn pw-class
pw-class
pw-type
pw-class (system view)
Use pw-class to create a PW class and enter its view, or enter the view of an existing PW class.
Use undo pw-class to delete a PW class.
Syntax
pw-class class-name
undo pw-class class-name
Default
No PW classes exist.
Views
System view
Predefined user roles
network-admin
Parameters
class-name: Specifies a name for the PW class, a case-sensitive string of 1 to 19 characters.
Usage guidelines
In PW class view, you can configure PW attributes such as the PW data encapsulation type and whether to enable control word. You can configure PWs to use the same PW class to simplify PW attribute configuration.
Examples
# Create a PW class named pw100 and enter PW view.
<Sysname> system-view
[Sysname] pw-class pw100
[Sysname-pw-pw100]
Related commands
control-word enable
display l2vpn pw-class
pw-type
pw-redundancy
Use pw-redundancy to specify the master/slave PW redundancy mode and configure the local PE as the master node.
Use undo pw-redundancy to restore the default.
Syntax
pw-redundancy master
undo pw-redundancy
Default
The PW redundancy mode is master/slave and the local PE operates as the slave node.
Views
Cross-connect view
Predefined user roles
network-admin
Parameters
master: Uses the master/slave PW redundancy mode and configures the local PE as the master node.
Usage guidelines
This command is applicable only to LDP PWs.
For LDP PWs, PEs use LDP to negotiate the active/standby states of the PWs. In master/slave mode, one endpoint PE of a PW operates as the master node and the other endpoint PE operates as the slave node. The master PE determines the active/standby state of the PW and uses LDP to advertise the PW state to the slave PE. The slave PE uses the same PW state as the master PE based on the information received from the master PE. In this way, the master and slave PEs for the set of redundant PWs can use the same active PW to forward user traffic.
The slave PE does not need to send the PW states to the master PE and the master PE ignores the PW states sent by the slave PE.
Do not configure this command on the local PE if the remote PE does not support the master/slave PW redundancy mode.
Examples
# Use the master/slave PW redundancy mode and configure the local PE as the master node.
<Sysname> system-view
[Sysname] xconnect-group vpn1
[Sysname-xcg-vpn1] connection pw2pw
[Sysname-xcg-vpn1-pw2pw] pw-redundancy master
Related commands
backup-peer
display l2vpn ldp
display l2vpn pw
peer
pw-type
Use pw-type to specify a PW data encapsulation type for a PW class.
Use undo pw-type to restore the default.
Syntax
pw-type { ethernet | vlan }
undo pw-type
Default
The PW data encapsulation type is VLAN.
Views
PW class view
Predefined user roles
network-admin
Parameters
ethernet: Specifies the PW data encapsulation type as Ethernet.
vlan: Specifies the PW data encapsulation type as VLAN.
Usage guidelines
When the PW data encapsulation type is Ethernet, P-tag is not transferred on a PW.
· For a packet from a CE:
¡ If the packet contains a P-tag, the PE removes the P-tag, and adds a PW label and an outer tag into the packet before forwarding it.
¡ If the packet contains no P-tag, the PE directly adds a PW label and an outer tag into the packet before forwarding it.
· For a packet to a CE:
¡ If the access mode is configured as VLAN by using the ac interface command, the PE adds a P-tag into the packet before sending it to the CE.
¡ If the access mode is configured as Ethernet by using the ac interface command, the PE directly sends the packet to the CE.
You cannot rewrite or remove existing tags.
When the PW data encapsulation type is VLAN, packets transmitted over a PW must carry a P-tag.
· For a packet from a CE:
¡ If the peer PE does not require the ingress to rewrite the P-tag, the PE keeps the P-tag unchanged for the packet, and then encapsulates the packet. If the packet contains no P-tag, the PE adds a null label (the label value is 0) into the packet, and then encapsulates the packet.
¡ If the peer PE requires the ingress to rewrite the P-tag, the PE changes the P-tag to the expected VLAN tag (the tag value might be 0), and then adds a PW label and an outer tag into the packet. If the packet contains no P-tag, the PE adds a VLAN tag expected by the peer PE (the tag value might be 0), and then adds a PW label and an outer tag into the packet.
· For a packet to a CE:
¡ If the access mode is configured as VLAN by using the ac interface command, the PE rewrites or retains the P-tag before forwarding the packet.
¡ If the access mode is configured as Ethernet by using the ac interface command, the PE removes the P-tag before forwarding the packet.
Examples
# Configure the PW data encapsulation type as Ethernet.
<Sysname> system-view
[Sysname] pw-class pw100
[Sysname-pw-pw100] pw-type ethernet
Related commands
ac-interface
display l2vpn pw-class
reset l2vpn statistics pw
Use reset l2vpn statistics pw to clear packet statistics for PWs.
Syntax
reset l2vpn statistics pw [ xconnect-group group-name [ connection connection-name ] ]
Views
User view
Predefined user roles
network-admin
Parameters
xconnect-group group-name: Specifies a cross-connect group by its name, a case-sensitive string of 1 to 31 characters. If you do not specify a cross-connect group, this command clears packet statistics for all PWs.
connection connection-name: Specifies a cross-connect by its name, a case-sensitive string of 1 to 20 characters. If you do not specify a cross-connect, this command clears packet statistics for all cross-connects in a cross-connect group.
Usage guidelines
If a PW has a backup PW, this command clears packet statistics for both the PW and its backup PW.
Examples
# Clear packet statistics for all PWs.
<Sysname> reset l2vpn statistics pw
Related commands
statistics enable
revertive
Use revertive to specify the switchover mode and set the switchover wait time.
Use undo revertive to restore the default.
Syntax
revertive { wtr wtr-time | never }
undo revertive { wtr | never }
Default
The switchover mode is revertive and the switchover wait time is 0 seconds. When the primary PW recovers, traffic is immediately switched from the backup PW to the primary PW.
Views
Cross-connect view
Predefined user roles
network-admin
Parameters
wtr wtr-time: Specifies the switchover mode as revertive and specifies the wait time in the range of 0 to 3600 seconds. When the primary PW recovers, the PE waits for the specified time before switching traffic from the backup PW to the primary PW.
never: Specifies the switchover mode as non-revertive. After the primary PW recovers, traffic is not switched from the backup PW to the primary PW.
Examples
# Specify the revertive mode and set the switchover wait time to 120 seconds for cross-connect ac2pw in cross-connect group vpn1.
<Sysname> system-view
[Sysname] xconnect-group vpn1
[Sysname-xcg-vpn1] connection ac2pw
[Sysname-xcg-vpn1-ac2pw] revertive wtr 120
Related commands
display l2vpn pw
route-distinguisher
Use route-distinguisher to configure a route distinguisher (RD) for a BGP cross-connect group.
Use undo route-distinguisher to restore the default.
Syntax
route-distinguisher route-distinguisher
undo route-distinguisher
Default
No RD is configured for a BGP cross-connect group.
Views
Auto-discovery cross-connect group view
Predefined user roles
network-admin
Parameters
route-distinguisher: Specifies an RD, a string of 3 to 21 characters. An RD can be in one of the following formats:
· 16-bit AS number:32-bit user-defined number. For example, 101:3.
· 32-bit IP address:16-bit user-defined number. For example, 192.168.122.15:1.
· 32-bit AS number:16-bit user-defined number, where the AS number must be equal to or greater than 65536. For example, 65536:1.
Usage guidelines
MPLS L2VPN uses RDs to differentiate the sites with the same site ID but in different VPNs.
BGP adds the configured RD before the site ID. The RD and the site ID uniquely identify a VPN site.
You cannot configure the same RD for different BGP cross-connect groups.
To modify an RD, execute the undo route-distinguisher command to remove the RD, and then execute the route-distinguisher command.
Examples
# Configure the RD 22:2 for BGP cross-connect group bbb.
<Sysname> system-view
[Sysname] xconnect-group bbb
[Sysname-xcg-bbb] auto-discovery bgp
[Sysname-xcg-bbb-auto] route-distinguisher 22:2
rr-filter
Use rr-filter to create a route reflector (RR) reflection policy.
Use undo rr-filter to restore the default.
Syntax
rr-filter ext-comm-list-number
undo rr-filter
Default
An RR does not filter reflected L2VPN information.
Views
BGP L2VPN address family view
Predefined user roles
network-admin
Parameters
ext-comm-list-number: Specifies an extended community list number in the range of 1 to 199.
Usage guidelines
After this command is executed, only the L2VPN information that is permitted by the specified extended community list is reflected.
By configuring different RR reflection policies on RRs in a cluster, you can implement load balancing among the RRs.
For more information about extended community lists, see Layer 3—IP Routing Configuration Guide.
Examples
# Configure the RR to reflect only the BGP L2VPN information that is permitted by extended community list 10.
<Sysname> system-view
[Sysname] bgp 100
[Sysname-bgp-default] address-family l2vpn
[Sysname-bgp-default-l2vpn] rr-filter 10
Related commands
ip extcommunity-list (Layer 3—IP Routing Command Reference)
sequencing
Use sequencing to enable sequencing for packets on a PW.
Use undo sequencing to restore the default.
Syntax
sequencing both
undo sequencing both
Default
Sequencing is disabled for packets on a PW.
Views
PW class view
Predefined user roles
network-admin
Parameters
both: Enables sequencing for both incoming and outgoing packets on a PW.
Usage guidelines
During packet switching, packet disorder might occur due to load balancing or heavy forwarding load. To ensure that packets are forwarded correctly, enable packet sequencing on the ingress and egress PEs. Then, the ingress PE adds a sequence number to each packet on the PW, and the egress PE resequences the packets according to the sequence numbers.
If packet sequencing is enabled on the remote PE, not on the local PE, the local PE does not sequence the received packets with sequence numbers.
Examples
# Enable sequencing for both incoming and outgoing packets on PWs that use PW class aaa.
<Sysname> system-view
[Sysname] pw-class aaa
[Sysname-pw-aaa] sequencing both
shutdown (cross-connect group view)
Use shutdown to disable a cross-connect group.
Use undo shutdown to enable a cross-connect group.
Syntax
shutdown
undo shutdown
Default
A cross-connect group is enabled.
Views
Cross-connect group view
Predefined user roles
network-admin
Usage guidelines
After you disable a cross-connect group, all cross-connects in the group cannot provide L2VPN services.
Use the shutdown command when you want to temporarily disable L2VPN. When a cross-connect group is disabled, you can still configure the cross-connect group. After the configuration, use the undo shutdown command to enable the cross-connect group. The cross-connect group will provide L2VPN services using the new settings.
Examples
# Disable cross-connect group vpn2.
<Sysname> system-view
[Sysname] xconnect-group vpn2
[Sysname-xcg-vpn2] shutdown
Related commands
display l2vpn xconnect-group
site
Use site to create a local site and enter its view, or enter the view of an existing local site.
Use undo site to delete a local site.
Syntax
site site-id [ range range-value ] [ default-offset default-offset ]
undo site site-id
Default
No sites exist.
Views
Auto-discovery cross-connect group view
Predefined user roles
network-admin
Parameters
site-id: Specifies a local site ID in the range of 0 to 256.
range range-value: Specifies the maximum number of sites in a VPN, in the range of 2 to 257. The default value is 10.
default-offset default-offset: Specifies the start site ID, 0 or 1. The default value is 0.
Usage guidelines
The range range-value and default-offset default-offset options determine the label block of the site.
· If you execute the site command with the range-value of range1, a label block with LR of range1 and LO of default-offset is assigned to the site.
· If you execute another site command with range-value of range2 (range2 is larger than range1), a second label block with LR of range2 to range1 and LO being range1 + default-offset is assigned to the site.
For example, if you execute the following commands, three label blocks LB1/0/10, LB2/10/12, and LB3/22/14 are assigned to site 1. LB1, LB2, and LB3 are automatically selected.
site 1 range 10 default-offset 0
site 1 range 22
site 1 range 36
You can create multiple local sites for a cross-connect group.
You can use the site command to increase the range value for an existing site. You cannot decrease the range value for an existing site with the site command. To decrease the range value, execute the undo site command to delete the site and then execute the site command.
Select a large range value to reduce future modifications for VPN expansion.
You cannot modify the default-offset for a site with the site command. To modify it, execute the undo site command to delete the site and then execute the site command.
Examples
# Create site 1, configure the VPN to contain a maximum of 30 sites, set the start site ID to 0 for cross-connect group bbb, and enter site view.
<Sysname> system-view
[Sysname] xconnect-group bbb
[Sysname-xcg-bbb] auto-discovery bgp
[Sysname-xcg-bbb-auto] site 1 range 30 default-offset 0
[Sysname-xcg-bbb-auto-1]
Related commands
display l2vpn pw
display l2vpn xconnect-group
snmp-agent trap enable l2vpn
Use snmp-agent trap enable l2vpn to enable SNMP notifications for L2VPN PW.
Use undo snmp-agent trap enable l2vpn to disable SNMP notifications for L2VPN PW.
Syntax
snmp-agent trap enable l2vpn [ pw-delete | pw-switch | pw-up-down ] *
undo snmp-agent trap enable l2vpn [ pw-delete | pw-switch | pw-up-down ] *
Default
SNMP notifications for L2VPN PW are disabled.
Views
System view
Predefined user roles
network-admin
Parameters
pw-delete: Enables PW deletion notifications.
pw-switch: Enables PW primary/backup switchover notifications.
pw-up-down: Enables PW up-down notifications.
Usage guidelines
This feature enables L2VPN to generate SNMP notifications when PW deletions, PW status changes, or PW switchovers occur. For L2VPN event notifications to be sent correctly, you must also configure SNMP on the device. For more information about SNMP configuration, see the network management and monitoring configuration guide for the device.
If you do not specify a notification type, this command enables all types of notifications for L2VPN PW.
Examples
# Enable PW up-down notifications.
<Sysname> system-view
[Sysname] snmp-agent trap enable l2vpn pw-up-down
Related commands
display snmp-agent trap-list (Network Management and Monitoring Command Reference)
statistics enable (cross-connect PW view)
Use statistics enable to enable packet statistics for a PW.
Use undo statistics enable to disable packet statistics for a PW.
Syntax
statistics enable
undo statistics enable
Default
Packet statistics is disabled for PWs created from the CLI, and is enabled for PWs created from the MIB.
Views
Cross-connect PW view
Predefined user roles
network-admin
Usage guidelines
Enabling/disabling packet statistics for the primary PW automatically enables/disables packet statistics for the backup PW.
To display the collected packet statistics, use the display l2vpn pw verbose command.
Examples
# Enable packet statistics for a PW.
<Sysname> system-view
[Sysname] xconnect-group vpws
[Sysname-xcg-vpws] connection ldp
[Sysname-xcg-vpws-ldp] peer 5.5.5.5 pw-id 120
[Sysname-xcg-vpws-ldp-5.5.5.5-120] statistics enable
Related commands
display l2vpn pw
reset l2vpn statistics pw
tunnel-policy (auto-discovery cross-connect view)
Use tunnel-policy to specify a tunnel policy for an auto-discovery cross-connect.
Use undo tunnel-policy to restore the default.
Syntax
tunnel-policy tunnel-policy-name
undo tunnel-policy
Default
No tunnel policy is specified.
Views
Auto-discovery cross-connect view
Predefined user roles
network-admin
Parameters
tunnel-policy-name: Specifies a tunnel policy by its name, a case-sensitive string of 1 to 19 characters.
Usage guidelines
The PWs on the auto-discovery cross-connect use the specified tunnel policy to select public tunnels.
If you do not specify a tunnel policy or specify a nonexistent tunnel policy, the default tunnel policy applies. The default tunnel policy selects only one public tunnel for a PW in this order: LSP tunnel, GRE tunnel, CRLSP tunnel.
Examples
# Specify tunnel policy policy1 for the auto-discovery cross-connect in cross-connect group bbb.
<Sysname> system-view
[Sysname] tunnel-policy policy1
[Sysname-tunnel-policy-policy1] quit
[Sysname] xconnect-group bbb
[Sysname-xcg-bbb] auto-discovery bgp
[Sysname-xcg-bbb-auto] site 2 range 10 default-offset 0
[Sysname-xcg-bbb-auto-2] connection remote-site-id 3
[Sysname-xcg-bbb-auto-2-3] tunnel-policy policy1
Related commands
tunnel-policy (system view)
vpn-target
Use vpn-target to configure route targets for a cross-connect group.
Use undo vpn-target to remove the specified or all route targets for a cross-connect group.
Syntax
vpn-target vpn-target&<1-8> [ both | export-extcommunity | import-extcommunity ]
undo vpn-target { vpn-target&<1-8> | all } [ both | export-extcommunity | import-extcommunity ]
Default
No route targets are configured for a cross-connect group.
Views
Auto-discovery cross-connect group view
Predefined user roles
network-admin
Parameters
vpn-target&<1-8>: Specifies a space-separated list of a maximum of eight route targets.
A route target is a string of 3 to 21 characters in one of the following formats:
· 16-bit AS number:32-bit user-defined number. For example, 101:3.
· 32-bit IP address:16-bit user-defined number. For example, 192.168.122.15:1.
· 32-bit AS number:16-bit user-defined number, where the AS number must be equal to or greater than 65536. For example, 65536:1.
both: Uses the specified route targets as both import targets and export targets. The both keyword is used when you do not specify any of both, export-extcommunity, and import-extcommunity.
export-extcommunity: Uses the specified route targets as export targets.
import-extcommunity: Uses the specified route targets as import targets.
all: Removes all route targets.
Usage guidelines
A local PE sets the route targets as export targets in BGP update messages when it advertises L2VPN information through the update messages to a remote peer. The peer uses its import targets to match the received export targets. If a match is found, the peer accepts the L2VPN information.
If you repeat this command, all the configured route targets take effect.
Examples
# Configure import route targets as 10:1 100:1 1000:1 and export route targets as 20:1 200:1 2000:1 for BGP cross-connect group bbb.
<Sysname> system-view
[Sysname] xconnect-group bbb
[Sysname-xcg-bbb] auto-discovery bgp
[Sysname-xcg-bbb-auto] vpn-target 10:1 100:1 1000:1 import-extcommunity
[Sysname-xcg-bbb-auto] vpn-target 20:1 200:1 2000:1 export-extcommunity
xconnect-group
Use xconnect-group to create a cross-connect group and enter its view, or enter the view of an existing cross-connect group.
Use undo xconnect-group to delete a cross-connect group.
Syntax
xconnect-group group-name
undo xconnect-group group-name
Default
No cross-connect groups exist.
Views
System view
Predefined user roles
network-admin
Parameters
group-name: Specifies a name for the cross-connect group, a case-sensitive string of 1 to 31 characters excluding hyphens.
Usage guidelines
L2VPN can create multiple LDP, BGP, and static PWs for a cross-connect group.
Examples
# Create a cross-connect group named vpn1 and enter cross-connect group view.
<Sysname> system-view
[Sysname] xconnect-group vpn1
[Sysname-xcg-vpn1]
Related commands
display l2vpn xconnect-group
