Contents

VXLAN commands· 1

Basic VXLAN commands· 1

ac statistics enable (VLAN view) 1

arp suppression enable· 1

description· 2

display arp suppression vsi 3

display igmp host group· 4

display ipv6 nd suppression vsi 5

display l2vpn mac-address· 6

display l2vpn service-instance· 9

display l2vpn vsi 11

display vxlan tunnel 14

encapsulation· 15

flooding disable· 17

group· 18

igmp host enable· 19

ipv6 nd suppression enable· 20

l2vpn enable· 20

l2vpn mac-address software-learning enable· 21

mac-address static vsi 22

mac-based ac· 23

reserved vxlan· 24

reset arp suppression vsi 24

reset ipv6 nd suppression vsi 25

reset l2vpn mac-address· 25

reset l2vpn statistics ac· 26

reset l2vpn statistics vsi 26

rewrite inbound tag· 27

rewrite outbound tag· 29

selective-flooding mac-address· 30

service-instance· 31

shutdown· 32

statistics enable (Ethernet service instance view) 32

statistics enable (VSI view) 33

tunnel 34

tunnel bfd enable· 35

tunnel global source-address· 36

vsi 36

vxlan· 37

vxlan invalid-vlan-tag discard· 38

vxlan local-mac report 38

vxlan tunnel mac-learning disable· 39

vxlan udp-port 39

vxlan vlan-based· 40

vxlan vni 41

xconnect vsi 41

VXLAN IP gateway commands· 43

arp distributed-gateway dynamic-entry synchronize· 43

arp send-rate· 44

default 44

description· 45

display interface vsi-interface· 46

distributed-gateway local 48

gateway subnet 49

gateway vsi-interface· 50

interface vsi-interface· 51

ipv6 nd distributed-gateway dynamic-entry synchronize· 51

mac-address· 52

mtu· 52

shutdown· 53

vtep group member local 53

vtep group member remote· 54

vxlan tunnel arp-learning disable· 55

vxlan tunnel nd-learning disable· 55

OVSDB commands· 56

ovsdb server bootstrap ca-certificate· 56

ovsdb server enable· 57

ovsdb server pki domain· 57

ovsdb server pssl 58

ovsdb server ptcp· 59

ovsdb server ssl 60

ovsdb server tcp· 61

vtep access port 61

vtep acl disable· 62

vtep enable· 63

 

VXLAN commands

Basic VXLAN commands

ac statistics enable (VLAN view)

Use ac statistics enable to enable packet statistics for Ethernet service instances of a VLAN.

Use undo ac statistics enable to disable packet statistics for Ethernet service instances of a VLAN.

Syntax

ac statistics enable

undo ac statistics enable

Default

The packet statistics feature is disabled for Ethernet service instances of a VLAN.

Views

VLAN view

Predefined user roles

network-admin

Usage guidelines

This command enables packet statistics for the Ethernet service instances automatically created for VLAN-based VXLAN assignment.

Before you enable this feature, you must use the vxlan vlan-based command to enable VLAN-based VXLAN assignment.

Examples

# Map VLAN 10 to VXLAN 100, and enable packet statistics for Ethernet service instances of VLAN 10.

<Sysname> system-view

[Sysname] vxlan vlan-based

[Sysname] vlan 10

[Sysname-vlan10] vxlan vni 100

[Sysname-vlan10] ac statistics enable

Related commands

display l2vpn service-instance

reset l2vpn statistics ac

vxlan vlan-based

arp suppression enable

Use arp suppression enable to enable ARP flood suppression.

Use undo arp suppression enable to disable ARP flood suppression.

Syntax

arp suppression enable

undo arp suppression enable

Default

ARP flood suppression is disabled.

Views

VSI view

Predefined user roles

network-admin

Usage guidelines

ARP flood suppression reduces ARP request broadcasts by enabling the VTEP to reply to ARP requests on behalf of VMs.

This feature snoops ARP packets to populate the ARP flood suppression table with local and remote MAC addresses. If an ARP request has a matching entry, the VTEP replies to the request on behalf of the VM. If no match is found, the VTEP floods the request to both local and remote sites.

Examples

# Enable ARP flood suppression for VSI vsi1.

<Sysname> system-view

[Sysname] vsi vsi1

[Sysname-vsi-vsi1] arp suppression enable

Related commands

display arp suppression vsi

reset arp suppression vsi

description

Use description to configure a description for a VSI.

Use undo description to restore the default.

Syntax

description text

undo description

Default

A VSI does not have a description.

Views

VSI view

Predefined user roles

network-admin

Parameters

text: Specifies a description, a case-sensitive string of 1 to 80 characters.

Examples

# Configure a description for VSI vpn1.

<Sysname> system-view

[Sysname] vsi vpn1

[Sysname-vsi-vpn1] description vsi for vpn1

Related commands

display l2vpn vsi

display arp suppression vsi

Use display arp suppression vsi to display ARP flood suppression entries.

Syntax

display arp suppression vsi [ name vsi-name ] [ slot slot-number ] [ count ]

Views

Any view

Predefined user roles

network-admin

network-operator

Parameters

name vsi-name: Specifies a VSI by its name, a case-sensitive string of 1 to 31 characters. If you do not specify a VSI, this command displays entries for all VSIs.

slot slot-number: Specifies an IRF member device by its member ID. If you do not specify a member device, this command displays entries on the master device.

count: Displays the number of ARP flood suppression entries that match the command.

Examples

# Display ARP flood suppression entries.

<Sysname> display arp suppression vsi

IP address      MAC address    Vsi name                        Link ID    Aging

1.1.1.2         000f-e201-0101 vsi1                            0x70000    14

1.1.1.3         000f-e201-0202 vsi1                            0x80000    18

1.1.1.4         000f-e201-0203 vsi2                            0x90000    10

# Display the number of ARP flood suppression entries.

<Sysname> display arp suppression vsi count

Total entries: 3

Table 1 Command output

Field	Description
Link ID	Link ID that uniquely identifies an AC or a VXLAN tunnel on a VSI.
Aging	Remaining lifetime (in minutes) of the ARP flood suppression entry. When the timer expires, the entry is deleted.

 

Related commands

arp suppression enable

reset arp suppression vsi

display igmp host group

Use display igmp host group to display information about the multicast groups that contain IGMP host-enabled interfaces.

Syntax

display igmp host group [ group-address | interface interface-type interface-number ] [ verbose ]

Views

Any view

Predefined user roles

network-admin

network-operator

Parameters

group-address: Specifies a multicast group address in the range of 224.0.1.0 to 239.255.255.255. If you do not specify a multicast group, this command displays information about all multicast groups.

interface interface-type interface-number: Specifies an interface by its type and number. If you do not specify an interface, this command displays multicast group information for all interfaces.

verbose: Displays detailed multicast group information. If you do not specify this keyword, the command displays brief multicast group information.

Usage guidelines

For the VXLAN multicast source interface of a multicast-mode VXLAN to join its VXLAN multicast group, enable the IGMP host feature on the interface. The VXLAN multicast source interface provides the source IP address for multicast VXLAN packets.

Use this command to verify the following information:

·           Multicast group information for VXLANs.

·           Group membership status of VXLAN multicast source interfaces.

Examples

# Display brief information about all multicast groups that contain IGMP host-enabled interfaces.

<Sysname> display igmp host group

IGMP host groups in total: 2

 Vlan-interface10(1.1.1.20):

  IGMP host groups in total: 2

   Group address      Member state      Expires

   225.1.1.1          Idle              Off

   225.1.1.2          Idle              Off

# Display detailed information about all multicast groups that contain IGMP host-enabled interfaces.

<Sysname> display igmp host group verbose

 Vlan-interface10(1.1.1.20):

  IGMP host groups in total: 2

   Group: 225.1.1.1

     Group mode: Exclude

     Member state: Idle

     Expires: Off

     Source list (sources in total: 0):

   Group: 225.1.1.2

     Group mode: Exclude

     Member state: Idle

     Expires: Off

     Source list (sources in total: 0):

Table 2 Command output

Field	Description
IGMP host groups in total	Total number of multicast groups that contain IGMP host-enabled interfaces.
Vlan-interface10(1.1.1.20)	Name and IP address of the IGMP host-enabled interface.
IGMP host groups in total	Total number of multicast groups on the interface.
Group address/Group	Address of the multicast group.
Member state	Member state: ·          Delay—The interface has joined the multicast group, and it has started the delay timer for sending IGMP reports. ·          Idle—The interface has joined the multicast group, but it has not started the delay timer for sending IGMP reports. The delay timer is not user configurable.
Expires	Remaining delay time for the interface to send an IGMP report. This field displays Off if the delay timer is disabled.
Group mode	Multicast source filtering mode: ·          Include. ·          Exclude.
Source list	Multicast sources of the multicast group.
sources in total	Total number of multicast sources.

 

	NOTE: For more information about the command output, see IGMP in IP Multicast Configuration Guide.

 

Related commands

igmp host enable

display ipv6 nd suppression vsi

Use display ipv6 nd suppression vsi to display ND flood suppression entries.

Syntax

display ipv6 nd suppression vsi [ name vsi-name ] [ slot slot-number ] [ count ]

Views

Any view

Predefined user roles

network-admin

network-operator

Parameters

name vsi-name: Specifies a VSI by its name, a case-sensitive string of 1 to 31 characters. If you do not specify a VSI, this command displays entries for all VSIs.

slot slot-number: Specifies an IRF member device by its member ID. If you do not specify a member device, this command displays entries on the master device.

count: Displays the number of ND flood suppression entries that match the command.

Examples

# Display ND flood suppression entries.

<Sysname> display ipv6 nd suppression vsi

IPv6 address    MAC address      VSI name         Link ID      Aging (min)

1000::2         000f-e201-0101   vsi1             0x70000      5

1000::3         000f-e201-0202   vsi1             0x80000      5

1000::4         000f-e201-0203   vsi2             0x90000      5

# Display the number of ND flood suppression entries.

<Sysname> display ipv6 nd suppression vsi count

Total entries: 3

Table 3 Command output

Field	Description
Link ID	Link ID that uniquely identifies an AC or a VXLAN tunnel on a VSI.
Aging (min)	Remaining lifetime (in minutes) of the ND flood suppression entry. When the timer expires, the entry is deleted.

 

Related commands

ipv6 nd suppression enable

reset ipv6 nd suppression vsi

display l2vpn mac-address

Use display l2vpn mac-address to display MAC address entries for VSIs.

Syntax

display l2vpn mac-address [ vsi vsi-name ] [ dynamic ] [ count | verbose ]

Views

Any view

Predefined user roles

network-admin

network-operator

Parameters

vsi vsi-name: Specifies a VSI name, a case-sensitive string of 1 to 31 characters. If you do not specify a VSI, this command displays MAC address entries for all VSIs.

dynamic: Specifies dynamic MAC address entries learned in the data plane. If you do not specify this keyword, the command displays all MAC address entries, including:

·           Dynamic remote- and local-MAC entries.

·           Remote-MAC entries advertised through BGP EVPN.

·           Manually added static remote- and local-MAC entries.

·           Remote-MAC entries issued through OpenFlow.

·           Remote-MAC entries issued through OVSDB.

count: Displays the number of MAC address entries.

verbose: Displays detailed information about MAC address entries.

Usage guidelines

If you do not specify the count or verbose keyword, this command displays brief information about MAC address entries.

Examples

# Display brief information about MAC address entries for all VSIs.

<Sysname> display l2vpn mac-address

MAC Address      State     VSI Name                        Link ID/Name  Aging

0000-0000-000b   Static    vpn1                            Tunnel10      NotAging

0000-0000-000c   Dynamic   vpn1                            Tunnel60      Aging

0000-0000-000d   Dynamic   vpn1                            Tunnel99      Aging

00e0-fc09-9993   EVPN      vpna                            Tunnel0       NotAging

0001-0001-0003   EVPN      vpna                            Tunnel0       NotAging

                                                           Tunnel1       NotAging

00e0-fc09-0001   EVPN      vpna                            0             NotAging

0002-0003-0004   Multiport vpna                            XGE1/0/2       NotAging

                                                           Tunnel8       NotAging

                                                           Tunnel9       NotAging

0100-5e00-0003   Multicast vpnb                            XGE1/0/3       NotAging

                                                           Tunnel12      NotAging

--- 8 mac address(es) found  ---

# Display the total number of MAC address entries in all VSIs.

<Sysname> display l2vpn mac-address count

8 mac address(es) found

Table 4 Command output

Field	Description
State	Entry state: ·          Dynamic—Local- or remote-MAC entry dynamically learned in the data plane. ·          Static—Static local- and remote-MAC entry. ·          EVPN—Remote-MAC entry advertised through BGP EVPN. ·          OpenFlow—Remote-MAC entry issued by a remote controller through OpenFlow. ·          OVSDB—Remote-MAC entry issued by a remote controller through OVSDB. ·          Multiport—Local or remote multiport unicast MAC entry. ·          Multicast—Local or remote multicast MAC entry.
Link ID/Name	For a local MAC address, this field displays the name of the interface that hosts the Ethernet service instance for the MAC address. For a remote MAC address, this field displays the tunnel interface name.
Aging	Entry aging state: ·          Aging. ·          NotAging.

 

# Display detailed information about MAC address entries for all VSIs.

<Sysname> display l2vpn mac-address verbose

MAC Address : 0000-0000-000b

VSI Name    : vpn1

VXLAN ID    : 123

Interface   : XGE1/0/1

Link ID     : 1

State       : Dynamic

Aging       : Aging

 

MAC Address : 0002-0003-0004

VSI Name    : vpna

VXLAN ID    : 10

State       : Multiport

Aging       : NotAging

Interface       Link ID

XGE1/0/2         0x0

Tunnel8         0x5000002

Tunnel9         0x5000003

 

MAC Address : 0100-5e00-0003

VSI Name    : vpnb

VXLAN ID    : 20

State       : Multicast

Aging       : NotAging

Interface       Link ID

XGE1/0/3         0x0

Tunnel12        0x5000004

Table 5 Command output

Field	Description
Interface	For a local MAC address, this field displays the name of the interface that hosts the Ethernet service instance for the MAC address. For a remote MAC address, this field displays the tunnel interface name.
Link ID	Link ID that uniquely identifies an AC or a VXLAN tunnel on a VSI.
State	Entry state: ·          Dynamic—Local- or remote-MAC entry dynamically learned in the data plane. ·          Static—Static local- or remote-MAC entry. ·          EVPN—Remote-MAC entry advertised through BGP EVPN. ·          OpenFlow—Remote-MAC entry issued by a remote controller through OpenFlow. ·          OVSDB—Remote-MAC entry issued by a remote controller through OVSDB. ·          Multiport—Local or remote multiport unicast MAC entry. ·          Multicast—Local or remote multicast MAC entry.
Aging	Entry aging state: ·          Aging. ·          NotAging.

 

Related commands

reset l2vpn mac-address

display l2vpn service-instance

Use display l2vpn service-instance to display information about Ethernet service instances.

Syntax

display l2vpn service-instance [ interface interface-type interface-number [ service-instance instance-id ] ] [ verbose ]

Views

Any view

Predefined user roles

network-admin

network-operator

Parameters

interface interface-type interface-number: Specifies a Layer 2 Ethernet interface or Layer 2 aggregate interface by its interface type and number. If you do not specify an interface, this command displays Ethernet service instance information for all Layer 2 Ethernet interfaces and Layer 2 aggregate interfaces.

service-instance instance-id: Specifies an Ethernet service instance by its ID in the range of 1 to 4096. If you do not specify an Ethernet service instance, this command displays information about all Ethernet service instances on the specified Layer 2 Ethernet interface or Layer 2 aggregate interface.

verbose: Displays detailed information about Ethernet service instances. If you do not specify this keyword, the command displays brief information about Ethernet service instances.

Examples

# Display brief information about all Ethernet service instances.

<Sysname> display l2vpn service-instance

Total number of service-instances: 4, 4 up, 0 down

Total number of ACs: 2, 2 up, 0 down

 

Interface                SrvID Owner                           LinkID State Type

XGE1/1/1                 3     vsi12                           1      Up    VSI

XGE1/1/1                 4     vsi13                           1      Up    VSI

Table 6 Command output

Field	Description
Total number of ACs	Total number of attachment circuits (ACs) and the number of ACs in each state (up or down).
Interface	Name of a Layer 2 Ethernet interface or Layer 2 aggregate interface.
SrvID	Ethernet service instance ID.
Owner	VSI name. This field is empty if an Ethernet service instance is not mapped to any VSI.
LinkID	Ethernet service instance's link ID on the VSI.
State	Ethernet service instance state: ·          Up. ·          Down.
Type	L2VPN type of the Ethernet service instance: ·          VSI. ·          VPWS.

 

# Display detailed information about all Ethernet service instances on Ten-GigabitEthernet 1/0/1.

<Sysname> display l2vpn service-instance interface ten-gigabitethernet 1/0/1 verbose

Interface: XGE1/0/1

  Service Instance: 1

    Type          : Manual

    Encapsulation : s-vid 16

    Bandwidth     : Unlimited

    VSI Name      : vsi10

    Link ID       : 1

    State         : Up

    Statistics    : Enabled

    Input Statistics:

      Octets   :0

      Packets  :0

    Output Statistics:

      Octets   :0

      Packets  :0

Table 7 Command output

Field	Description
Interface	Name of a Layer 2 Ethernet interface or Layer 2 aggregate interface.
Service Instance	Ethernet service instance ID.
Type	Type and traffic match mode of the Ethernet service instance: ·          Dynamic (MAC-based)—Dynamic Ethernet service instance in MAC-based traffic match mode. ·          Dynamic (VLAN-based)—Dynamic Ethernet service instance in VLAN-based traffic match mode. ·          Manual—Static Ethernet service instance in VLAN-based traffic match mode.
Encapsulation	Frame match criterion of the Ethernet service instance. If the Ethernet service instance does not contain a frame match criterion, the command does not display this field.
Bandwidth	Bandwidth limit in kbps. If no bandwidth limit is set for the Ethernet service instance, Unlimited is displayed.
Link ID	Ethernet service instance's link ID on the VSI.
State	Ethernet service instance state: ·          Up. ·          Down.
Statistics	Packet statistics state: ·          Enabled—The packet statistics feature is enabled for the Ethernet service instance. ·          Disabled—The packet statistics feature is disabled for the Ethernet service instance.
Input Statistics	Incoming traffic statistics: ·          Octets—Number of incoming bytes. ·          Packets—Number of incoming packets.
Output Statistics	Outgoing traffic statistics: ·          Octets—Number of outgoing bytes. ·          Packets—Number of outgoing packets.

 

Related commands

service-instance

display l2vpn vsi

Use display l2vpn vsi to display information about VSIs.

Syntax

display l2vpn vsi [ name vsi-name ] [ verbose ]

Views

Any view

Predefined user roles

network-admin

network-operator

Parameters

name vsi-name: Specifies a VSI by its name, a case-sensitive string of 1 to 31 characters. If you do not specify a VSI, this command displays information about all VSIs.

verbose: Displays detailed information about VSIs. If you do not specify this keyword, the command displays brief information about VSIs.

Examples

# Display brief information about all VSIs.

<Sysname> display l2vpn vsi

Total number of VSIs: 1, 1 up, 0 down, 0 admin down

 

VSI Name                        VSI Index       MTU    State

vpna                            0               1500   Up

Table 8 Command output

Field	Description
MTU	MTU on the VSI.
State	VSI state: ·          Up—The VSI is up. ·          Down—The VSI is down. ·          Admin down—The VSI has been manually shut down by using the shutdown command.

 

# Display detailed information about all VSIs.

<Sysname> display l2vpn vsi verbose

VSI Name: vpna

  VSI Index               : 0

  VSI State               : Up

  MTU                     : 1500

  Bandwidth               : -

  Broadcast Restrain      : -

  Multicast Restrain      : -

  Unknown Unicast Restrain: -

  MAC Learning            : Enabled

  MAC Table Limit         : -

  MAC Learning rate       : -

  Drop Unknown            : -

  Flooding                : Enabled

  Statistics              : Enabled

  Input statistics:

    Octets   : 0

    Packets  : 0

    Errors   : 0

    Discards : 0

  Output statistics:

    Octets   : 0

    Packets  : 0

    Errors   : 0

    Discards : 0

  Gateway Interface       : VSI-interface 100

  VXLAN ID                : 10

  Tunnels:

    Tunnel Name          Link ID    State  Type      Flood proxy

    Tunnel1              0x5000001  Up     Manual    Disabled

    Tunnel2              0x5000002  Up     Manual    Disabled

    MTunnel0             0x6002710  Up     Auto      Disabled

  ACs:

    AC                               Link ID    State    Type

    XGE1/1/1 srv1000                 0          Up

Table 9 Command output

Field	Description
VSI Description	Description of the VSI. If the VSI does not have a description, the command does not display this field.
VSI State	VSI state: ·          Up—The VSI is up. ·          Down—The VSI is down. ·          Administratively down—The VSI has been manually shut down by using the shutdown command.
MTU	MTU on the VSI.
Bandwidth	Bandwidth limit in kbps. If no bandwidth limit is set for the VSI, Unlimited is displayed.
Broadcast Restrain	Broadcast restraint bandwidth (in kbps). If the broadcast restraint bandwidth is not set, Unlimited is displayed.
Multicast Restrain	Multicast restraint bandwidth (in kbps). If the multicast restraint bandwidth is not set, Unlimited is displayed.
Unknown Unicast Restrain	Unknown unicast restraint bandwidth (in kbps). If the unknown unicast restraint bandwidth is not set, Unlimited is displayed.
MAC Learning	State of the MAC learning feature.
MAC Table Limit	Maximum number of MAC address entries on the VSI.
Drop Unknown	Action on source MAC-unknown frames received after the maximum number of MAC entries is reached.
Flooding	State of the VSI's flooding feature: ·          Enabled—Flooding is enabled on the VSI. ·          Disabled—Flooding is disabled on the VSI.
Statistics	Packet statistics state: ·          Enabled—The packet statistics feature is enabled for the VSI. ·          Disabled—The packet statistics feature is disabled for the VSI.
Input statistics	Incoming traffic statistics: ·          Octets—Number of incoming bytes. ·          Packets—Number of incoming packets. ·          Errors—Number of error packets. ·          Discards—Number of discarded packets. The device does not support the Errors and Discards fields.
Output statistics	Outgoing traffic statistics: ·          Octets—Number of outgoing bytes. ·          Packets—Number of outgoing packets. ·          Errors—Number of error packets. ·          Discards—Number of discarded packets. The device does not support the Errors and Discards fields.
Gateway Interface	VSI interface name.
State	Tunnel state: ·          Up—The tunnel is operating correctly. ·          Defect—The tunnel interface is up, but BFD cannot detect the remote VTEP. ·          Down—The tunnel interface is down.
Type	Tunnel assignment method: ·          Auto—The tunnel was automatically assigned to the VXLAN: ?  For an EVPN network, VXLAN tunnels are automatically assigned to VXLANs. ?  For a multicast-mode VXLAN, the tunnel (MTunnel) was automatically created and assigned to the VXLAN to transmit flood traffic. ·          Manual—The tunnel was manually assigned to the VXLAN.
Flood proxy	Flood proxy state. This field is not supported in the current software version.
ACs	ACs that are bound to the VSI.
Link ID	AC's link ID on the VSI.
State	AC state: ·          Up. ·          Down.
Type	Type and traffic match mode of the Ethernet service instance: ·          Dynamic (MAC-based)—Dynamic Ethernet service instance in MAC-based traffic match mode. ·          Dynamic (VLAN-based)—Dynamic Ethernet service instance in VLAN-based traffic match mode. ·          Manual—Static Ethernet service instance in VLAN-based traffic match mode.

 

display vxlan tunnel

Use display vxlan tunnel to display VXLAN tunnel information for VXLANs.

Syntax

display vxlan tunnel [ vxlan-id vxlan-id ]

Views

Any view

Predefined user roles

network-admin

network-operator

Parameters

vxlan-id: Specifies a VXLAN ID in the range of 0 to 16777215. If you do not specify a VXLAN, this command displays VXLAN tunnel information for all VXLANs.

Examples

# Display VXLAN tunnel information for all VXLANs.

<Sysname> display vxlan tunnel

Total number of VXLANs: 1

 

VXLAN ID: 10, VSI name: vpna, Total tunnels: 3 (3 up, 0 down, 0 defect, 0 blocked)

Tunnel name          Link ID    State  Type         Flood proxy

Tunnel1              0x5000001  Up     Manual       Disabled

Tunnel2              0x5000002  Up     Manual       Disabled

MTunnel0             0x6002710  Up     Auto         Disabled

# Display VXLAN tunnel information for VXLAN 10.

<Sysname> display vxlan tunnel vxlan-id 10

VXLAN ID: 10, VSI name: vpna, Total tunnels: 3 (3 up, 0 down, 0 defect, 0 blocked)

Tunnel name          Link ID    State  Type         Flood proxy

Tunnel1              0x5000001  Up     Manual       Disabled

Tunnel2              0x5000002  Up     Manual       Disabled

MTunnel0             0x6002710  Up     Auto         Disabled

Table 10 Command output

Field	Description
Link ID	Tunnel's link ID in the VXLAN.
State	Tunnel state: ·          Up—The tunnel is operating correctly. ·          Blocked—The tunnel is a backup tunnel. Its tunnel interface is up, but the tunnel is blocked because the primary tunnel is operating correctly. ·          Defect—The tunnel interface is up, but BFD cannot detect the remote VTEP. ·          Down—The tunnel interface is down.
Type	Tunnel assignment method: ·          Auto—The tunnel was automatically assigned to the VXLAN: ?  For an EVPN network, VXLAN tunnels are automatically assigned to VXLANs. ?  For a multicast-mode VXLAN, the tunnel (MTunnel) was automatically created and assigned to the VXLAN to transmit flood traffic. ·          Manual—The tunnel was manually assigned to the VXLAN.
Flood proxy	Flood proxy state. This field is not supported in the current software version.

 

Related commands

tunnel

vxlan

encapsulation

Use encapsulation to configure a frame match criterion for an Ethernet service instance.

Use undo encapsulation to restore the default.

Syntax

encapsulation s-vid { vlan-id | vlan-id-list } [ only-tagged ]

encapsulation s-vid { vlan-id | vlan-id-list } c-vid { vlan-id-list | all }

encapsulation c-vid { vlan-id | vlan-id-list }

encapsulation { default | tagged | untagged }

undo encapsulation

Default

An Ethernet service instance does not contain a frame match criterion.

Views

Ethernet service instance view

Predefined user roles

network-admin

Parameters

s-vid: Matches frames that are tagged with the specified outer 802.1Q VLAN IDs.

c-vid: Matches frames that are tagged with the specified inner 802.1Q VLAN IDs.

vlan-id: Specifies an 802.1Q VLAN ID in the range of 1 to 4094.

vlan-id-list: Specifies a space-separated list of up to eight VLAN items. Each item specifies a VLAN ID or a range of VLAN IDs in the format of vlan-id1 to vlan-id2. The value range for VLAN IDs is 1 to 4094.

only-tagged: Matches tagged frames. If the outer 802.1Q VLAN is not the PVID, the matching result does not differ, whether or not you specify the only-tagged keyword. If the outer 802.1Q VLAN is the PVID, the matching result depends on whether or not the only-tagged keyword is specified.

·           To match only PVID-tagged frames, specify the only-tagged keyword.

·           To match both untagged frames and PVID-tagged frames, do not specify the only-tagged keyword.

all: Specifies all 802.1Q VLAN IDs.

default: Matches frames that do not match any other Ethernet service instance on the interface. On an interface, you can configure this criterion only in one Ethernet service instance. The Ethernet service instance matches any frames if it is the only instance on the interface.

tagged: Matches any frames that have an 802.1Q VLAN tag.

untagged: Matches any frames that do not have an 802.1Q VLAN tag.

Usage guidelines

The frame match criteria of Ethernet service instances cannot overlap on an interface.

When you configure frame match criteria on different Ethernet service instances on an interface, follow these restrictions and guidelines:

·           The matching VLAN ID ranges of two Ethernet service instances cannot overlap.

·           The criterion specified by the tagged keyword is mutually exclusive with the criterion specified by the s-vid or c-vid keyword.

·           An Ethernet service instance cannot work correctly if the following conditions exist:

?  The Ethernet service instance has a frame match criterion specified by the c-vid keyword.

?  All of the following commands are used on the Ethernet service instances on the interface:

-       encapsulation s-vid vlan-id-list [ only-tagged ]

-       encapsulation s-vid vlan-id-list c-vid { vlan-id-list | all }

-       encapsulation c-vid vlan-id-list

An Ethernet service instance can contain only one frame match criterion. To change the frame match criterion, first execute the undo encapsulation command to remove the original criterion. When you remove the frame match criterion in an Ethernet service instance, the mapping between the service instance and the VSI is removed automatically.

Examples

# Configure Ethernet service instance 1 on Ten-GigabitEthernet 1/0/1 to match frames that have an outer 802.1Q VLAN ID of 111.

<Sysname> system-view

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

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

[Sysname-Ten-GigabitEthernet1/0/1-srv1] encapsulation s-vid 111

Related commands

display l2vpn service-instance

flooding disable

Use flooding disable to disable flooding for a VSI.

Use undo flooding disable to enable flooding for a VSI.

Syntax

flooding disable { all | { broadcast | unknown-multicast | unknown-unicast } * } [ all-direction | dci ]

undo flooding disable

Default

Flooding is enabled for a VSI.

Views

VSI view

Predefined user roles

network-admin

Parameters

all: Specifies broadcast, unknown unicast, and unknown multicast traffic.

broadcast: Specifies broadcast traffic.

unknown-multicast: Specifies unknown multicast traffic.

unknown-unicast: Specifies unknown unicast traffic.

all-direction: Disables flooding traffic received from an AC or VXLAN tunnel interface to any other ACs and VXLAN tunnel interfaces of the same VSI. If you do not specify this keyword, the command only disables flooding traffic received from ACs to VXLAN tunnel interfaces of the VSI.

dci: Disables flooding only to VXLAN-DCI tunnel interfaces. If you do not specify this keyword, the command disables flooding to both VXLAN tunnel interfaces and VXLAN-DCI tunnel interfaces.

Usage guidelines

By default, the device floods broadcast, unknown unicast, and unknown multicast frames received from the local site to the following interfaces in the frame's VXLAN:

·           All site-facing interfaces except for the incoming interface.

·           All VXLAN tunnel interfaces.

When receiving broadcast, unknown unicast, and unknown multicast frames on VXLAN tunnel interfaces, the device floods the frames to all site-facing interfaces in the frames' VXLAN.

To confine a kind of flood traffic, use this command to disable flooding for that kind of flood traffic on the VSI bound to the VXLAN.

If VXLAN-DCI is configured, flood traffic is also sent out of VXLAN-DCI tunnel interfaces. To confine flood traffic to the site-facing interfaces and VXLAN tunnels within a data center, you can specify the dci keyword to disable flooding only to VXLAN-DCI tunnel interfaces.

The all-direction keyword disables flooding traffic received from an AC or VXLAN tunnel interface to any other ACs and VXLAN tunnel interfaces of the same VSI. If VXLAN-DCI is configured, this keyword also disables flooding between VXLAN tunnel interfaces and VXLAN-DCI tunnel interfaces.

Examples

# Disable flooding of local broadcast traffic to remote sites for VSI vsi1.

<Sysname> system-view

[Sysname] vsi vsi1

[Sysname-vsi-vsi1] flooding disable broadcast

group

Use group to assign a VXLAN a multicast group address for flood traffic, and specify a source IP address for multicast VXLAN packets.

Use undo group to restore the default.

Syntax

group group-address source source-address

undo group group-address source source-address

Default

A VXLAN uses unicast mode (head-end replication) for flood traffic. No multicast group address or source IP address is specified for multicast VXLAN packets.

Views

VXLAN view

Predefined user roles

network-admin

Parameters

group-address: Specifies a multicast address in the range of 224.0.1.0 to 239.255.255.255.

source source-address: Specifies a source IP address for multicast VXLAN packets.

Usage guidelines

To reduce traffic sent to the transport network, use multicast mode if the network has dense flood traffic or many VTEPs.

The multicast mode supports the following multicast methods:

·           PIM—VTEPs and transport network devices run PIM to generate multicast forwarding entries. On a VTEP, you can use the IP address of a loopback interface as the source IP address for multicast VXLAN packets. If the VTEP has multiple transport-facing interfaces, PIM dynamically selects the outgoing interfaces for multicast VXLAN packets.

·           IGMP host—VTEPs and transport network devices run PIM and IGMP to generate multicast forwarding entries.

?  Transport-facing interfaces of VTEPs act as IGMP hosts.

?  Transport network devices connected to a VTEP run IGMP.

?  All transport network devices run PIM.

On a VTEP, you must use the IP address of the transport-facing interface as the source IP address for multicast VXLAN packets. If the VTEP has multiple transport-facing interfaces, multicast VXLAN packets are sent to the transport network through the interface that provides the source IP address for multicast VXLAN packets.

VTEPs in a multicast-mode VXLAN can use different multicast methods.

To forward multicast traffic correctly, you must use the source IP address of an up VXLAN tunnel as the source IP address for multicast VXLAN packets.

For multicast-mode VXLANs, transport network devices must maintain multicast group and forwarding information. To reduce the multicast forwarding entries maintained by transport network devices, assign a multicast group address to multiple VXLANs. The VTEP separates traffic between VXLANs by VXLAN IDs.

 

	NOTE: For VXLANs that use the same multicast group address, you must configure the same source IP address for their multicast VXLAN packets.

 

If you execute the group command multiple times for a VXLAN, the most recent configuration takes effect.

Examples

# Set the multicast group address to 233.1.1.1 for flood traffic in VXLAN 100. Set the source IP address to 2.1.1.1 for multicast VXLAN packets.

<Sysname> system-view

[Sysname] vsi aaa

[Sysname-vsi-aaa] vxlan 100

[Sysname-vsi-aaa-vxlan-100] group 233.1.1.1 source 2.1.1.1

Related commands

igmp host enable

pim dm (IP Multicast Command Reference)

pim sm (IP Multicast Command Reference)

igmp host enable

Use igmp host enable to enable the IGMP host feature on an interface.

Use undo igmp host enable to disable the IGMP host feature on an interface.

Syntax

igmp host enable

undo igmp host enable

Default

The IGMP host feature is disabled on an interface.

Views

Interface view

Predefined user roles

network-admin

Usage guidelines

You must configure an interface as an IGMP host if its IP address is the source IP address of multicast VXLAN packets. The IGMP host feature enables the interface to send IGMP reports in response to IGMP queries before it can receive traffic from a multicast group.

For this command to take effect, you must use the multicast routing command to enable IP multicast routing.

Examples

# Enable IP multicast routing, and then enable the IGMP host feature on VLAN-interface 10.

<Sysname> system-view

[Sysname] multicast routing

[Sysname-mrib] quit

[Sysname] interface vlan-interface 10

[Sysname-Vlan-interface10] igmp host enable

Related commands

display igmp host group

group

multicast routing (IP Multicast Command Reference)

ipv6 nd suppression enable

Use ipv6 nd suppression enable to enable ND flood suppression.

Use undo ipv6 nd suppression enable to disable ND flood suppression.

Syntax

ipv6 nd suppression enable

undo ipv6 nd suppression enable

Default

ND flood suppression is disabled.

Views

VSI view

Predefined user roles

network-admin

Usage guidelines

ND flood suppression reduces ND request multicasts by enabling the VTEP to reply to ND requests on behalf of user terminals.

This feature snoops ND packets to populate the ND flood suppression table with local and remote MAC addresses. If an ND request has a matching entry, the VTEP replies to the request on behalf of the user terminal. If no match is found, the VTEP floods the request to both local and remote sites.

Examples

# Enable ND flood suppression for VSI vsi1.

<Sysname> system-view

[Sysname] vsi vsi1

[Sysname-vsi-vsi1] ipv6 nd suppression enable

Related commands

display ipv6 nd suppression vsi

reset ipv6 nd suppression vsi

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 you can configure L2VPN settings.

Examples

# Enable L2VPN.

<Sysname> system-view

[Sysname] l2vpn enable

l2vpn mac-address software-learning enable

Use l2vpn mac-address software-learning enable to enable software-based MAC learning on an interface.

Use undo l2vpn mac-address software-learning enable to disable software-based MAC learning on an interface.

Syntax

l2vpn mac-address software-learning enable

undo l2vpn mac-address software-learning enable

Default

Hardware-based MAC learning is used.

Views

Layer 2 aggregate interface view

Layer 2 Ethernet interface view

Predefined user roles

network-admin

Usage guidelines

This command is applicable to SDN networks.

To reduce broadcast traffic in an SDN network, the controller synchronizes the MAC addresses that each VTEP learns among all VTEPs. On a VTEP, an interface can learn MAC addresses in hardware or software.

·           In hardware-based learning mode, the software periodically obtains new MAC addresses from the hardware and advertises the MAC addresses to the controller.

·           In software-based learning mode, the software instantly issues new MAC addresses to the hardware and the controller as soon as they are learned.

Software-based MAC learning shortens the interval at which the VTEP advertises MAC address reachability information to the controller. However, this mode is resource intensive. When you use this mode, you must fully understand its impact on the device performance.

Examples

# Enable software-based MAC learning on Ten-GigabitEthernet 1/0/1.

<Sysname> system-view

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

[Sysname-Ten-GigabitEthernet1/0/1] l2vpn mac-address software-learning enable

 

mac-address static vsi

Use mac-address static vsi to add a static MAC address entry for a VXLAN VSI.

Use undo mac-address static vsi to remove a static MAC address entry for a VXLAN VSI.

Syntax

mac-address static mac-address interface tunnel tunnel-number vsi vsi-name

undo mac-address static [ mac-address ] [ interface tunnel tunnel-number ] vsi vsi-name

Default

VXLAN VSIs do not have static MAC address entries.

Views

System view

Predefined user roles

network-admin

Parameters

mac-address: Specifies a MAC address in H-H-H format. Do not specify a multicast MAC address or an all-zeros MAC address. You can omit the consecutive zeros at the beginning of each segment. For example, you can enter f-e2-1 for 000f-00e2-0001.

interface tunnel tunnel-number: Specifies a VXLAN or VXLAN-DCI tunnel interface by its tunnel interface number. The specified tunnel interface must already exist. This option applies to remote MAC addresses.

vsi vsi-name: Specifies a VSI name, a case-sensitive string of 1 to 31 characters.

Usage guidelines

A remote MAC address is the MAC address of a VM in a remote site. Remote MAC entries include manually added MAC entries, dynamically learned MAC entries, and MAC entries advertised through BGP EVPN.

When you add a remote MAC address entry, make sure the VSI's VXLAN has been specified on the VXLAN or VXLAN-DCI tunnel.

The undo mac-address static vsi vsi-name command removes all static MAC address entries for a VSI.

Examples

# Add MAC address 000f-e201-0101 to VSI vsi1. Specify Tunnel-interface 1 as the outgoing interface.

<Sysname> system-view

[Sysname] mac-address static 000f-e201-0101 interface tunnel 1 vsi vsi1

Related commands

vxlan tunnel mac-learning disable

mac-based ac

Use mac-based ac to enable MAC-based traffic match mode for dynamic Ethernet service instances on an interface.

Use undo mac-based ac to disable MAC-based traffic match mode for dynamic Ethernet service instances on an interface.

Syntax

mac-based ac

undo mac-based ac

Default

VLAN-based traffic match mode is used for dynamic Ethernet service instances.

Views

Layer 2 aggregate interface view

Layer 2 Ethernet interface view

Predefined user roles

network-admin

Usage guidelines

The 802.1X or MAC authentication feature can use the authorization VSI, the guest VSI, the Auth-Fail VSI, and the critical VSI to control the access of users to network resources. When assigning a user to a VSI, 802.1X or MAC authentication sends the VXLAN feature the VSI information and the user's access information, including access interface, VLAN, and MAC address. Then the VXLAN feature creates a dynamic Ethernet service instance for the user and maps it to the VSI.

A dynamic Ethernet service instance supports the following traffic match modes:

·           VLAN-based mode—Matches frames by VLAN ID.

·           MAC-based mode—Matches frames by source MAC address.

To use MAC-based traffic match mode for dynamic Ethernet service instances, you must enable MAC authentication or 802.1X authentication that uses MAC-based access control.

This command takes effect only on dynamic Ethernet service instances. Static Ethernet service instances created by using the service-instance command match traffic only by the VLAN IDs specified by using the encapsulation command.

You cannot change the traffic match mode when dynamic Ethernet service instances already exist on an interface.

Examples

# Enable MAC-based traffic match mode for dynamic Ethernet service instances on Ten-GigabitEthernet 1/0/1.

<Sysname> system-view

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

[Sysname-Ten-GigabitEthernet1/0/1] mac-based ac

Related commands

display l2vpn service-instance

reserved vxlan

Use reserved vxlan to specify a reserved VXLAN.

Use undo reserved vxlan to restore the default.

Syntax

reserved vxlan vxlan-id

undo reserved vxlan

Default

No VXLAN has been reserved.

Views

System view

Predefined user roles

network-admin

Parameters

vxlan-id: Specifies a VXLAN ID in the range of 0 to 16777215.

Usage guidelines

You can specify only one reserved VXLAN on the VTEP. The reserved VXLAN cannot be the VXLAN created on any VSI.

The reserved VXLAN ID cannot be the same as the remote VXLAN ID specified by using the mapping vni command.

Examples

# Specify VXLAN 10000 as the reserved VXLAN.

<Sysname> system-view

[Sysname] reserved vxlan 10000

Related commands

mapping vni (EVPN Command Reference)

reset arp suppression vsi

Use reset arp suppression vsi to clear ARP flood suppression entries on VSIs.

Syntax

reset arp suppression vsi [ name vsi-name ]

Views

User view

Predefined user roles

network-admin

Parameters

name vsi-name: Specifies a VSI by its name, a case-sensitive string of 1 to 31 characters. If you do not specify a VSI, this command clears ARP flood suppression entries on all VSIs.

Examples

# Clear ARP flood suppression entries on all VSIs.

<Sysname> reset arp suppression vsi

This command will delete all entries. Continue? [Y/N]:y

Related commands

arp suppression enable

display arp suppression vsi

reset ipv6 nd suppression vsi

Use reset ipv6 nd suppression vsi to clear ND flood suppression entries on VSIs.

Syntax

reset ipv6 nd suppression vsi [ name vsi-name ]

Views

User view

Predefined user roles

network-admin

Parameters

name vsi-name: Specifies a VSI by its name, a case-sensitive string of 1 to 31 characters. If you do not specify a VSI, this command clears ND flood suppression entries on all VSIs.

Examples

# Clear ND flood suppression entries on all VSIs.

<Sysname> reset ipv6 nd suppression vsi

This command will delete all entries. Continue? [Y/N]:y

Related commands

display ipv6 nd suppression vsi

ipv6 nd suppression enable

reset l2vpn mac-address

Use reset l2vpn mac-address to clear dynamic MAC address entries on VSIs.

Syntax

reset l2vpn mac-address [ vsi vsi-name ]

Views

User view

Predefined user roles

network-admin

Parameters

vsi vsi-name: Specifies a VSI by its name, a case-sensitive string of 1 to 31 characters. If you do not specify a VSI, this command clears all dynamic MAC address entries on all VSIs.

Usage guidelines

Use this command when the number of dynamic MAC address entries reaches the limit or the device learns incorrect MAC addresses.

Examples

# Clear the dynamic MAC address entries on VSI vpn1.

<Sysname> reset l2vpn mac-address vsi vpn1

Related commands

display l2vpn mac-address vsi

reset l2vpn statistics ac

Use reset l2vpn statistics ac to clear packet statistics on ACs.

Syntax

reset l2vpn statistics ac [ interface interface-type interface-number service-instance instance-id ]

Views

User view

Predefined user roles

network-admin

Parameters

interface interface-type interface-number: Specifies an interface by its type and number.

service-instance instance-id: Specifies an Ethernet service instance ID in the range of 1 to 4096.

Usage guidelines

If you do not specify any parameters, this command clears packet statistics on all ACs.

Examples

# Clear packet statistics for Ethernet service instance 1 on Ten-GigabitEthernet 1/0/1.

<Sysname> reset l2vpn statistics ac interface ten-gigabitethernet 1/0/1 service-instance 1

Related commands

display l2vpn service-instance verbose

statistics enable (Ethernet service instance view)

reset l2vpn statistics vsi

Use reset l2vpn statistics vsi to clear packet statistics on VSIs.

Syntax

reset l2vpn statistics vsi [ name vsi-name ]

Views

User view

Predefined user roles

network-admin

Parameters

name vsi-name: Specifies a VSI by its name, a case-sensitive string of 1 to 31 characters. If you do not specify a VSI, this command clears packet statistics on all VSIs.

Examples

# Clear packet statistics on all VSIs.

<Sysname> reset l2vpn statistics vsi

Related commands

statistics enable (VSI view)

rewrite inbound tag

Use rewrite inbound tag to configure the VLAN tag processing rule for incoming traffic.

Use undo rewrite inbound tag to restore the default.

Syntax

rewrite inbound tag { nest { c-vid vlan-id | s-vid vlan-id [ c-vid vlan-id ] } | remark { { 1-to-1 | 2-to-1 } { c-vid vlan-id | s-vid vlan-id } | { 1-to-2 | 2-to-2 } s-vid vlan-id c-vid vlan-id } | strip { c-vid | s-vid [ c-vid ] } } [ symmetric ]

undo rewrite inbound tag

Default

VLAN tags of incoming traffic are not processed.

Views

Ethernet service instance view

Predefined user roles

network-admin

Parameters

nest: Adds VLAN tags.

c-vid: Specifies an inner VLAN tag.

s-vid: Specifies an outer VLAN tag.

vlan-id: Specifies a VLAN ID in the range of 1 to 4094.

remark: Maps VLAN tags.

1-to-1: Performs one-to-one mapping to replace one VLAN tag of packets with the specified VLAN tag.

2-to-1: Performs two-to-one mapping to replace the outer and inner VLAN tags of double tagged packets with the specified VLAN tag.

1-to-2: Performs one-to-two mapping to replace the VLAN tag of single tagged packets with the specified outer and inner VLAN tags.

2-to-2: Performs two-to-two mapping to replace the outer and inner VLAN tags of double tagged packets with the specified outer and inner VLAN tags.

strip: Removes VLAN tags.

symmetric: Applies the reverse VLAN tag processing rule to outgoing traffic.

Usage guidelines

For this command to take effect, follow these restrictions and guidelines:

·           Do not use this command on a VXLAN IP gateway. This command and VXLAN IP gateway configuration are mutually exclusive.

·           You must configure a match criterion by using the encapsulation command (except encapsulation default), and specify Ethernet access mode by using the xconnect vsi command.

If the rewrite inbound tag command and a QoS policy are both used, this command takes effect prior to the QoS policy. The QoS policy takes effect on the traffic that has been processed by using the rewrite inbound tag command.

You cannot both specify the symmetric keyword in the rewrite inbound tag command and configure the rewrite outbound tag command.

When you configure a nest rule for incoming traffic, follow these restrictions and guidelines:

·           VXLAN supports a maximum of two VLAN tags.

?  To add an outer VLAN tag for untagged or single-tagged frames, configure a nest s-vid vlan-id rule. To add one VLAN tag for untagged frames, you must use a nest s-vid vlan-id rule instead of a nest c-vid vlan-id rule.

?  To insert an inner VLAN tag in a single-tagged frame, configure a nest c-vid vlan-id rule. If the encapsulation tagged frame match criterion is used, the 802.1p priority in the added inner VLAN tag is set to 0. If the symmetric keyword is specified, the device does not strip the inner tag of the returned outgoing traffic.

?  To add two VLAN tags to untagged frames, configure a nest s-vid vlan-id c-vid vlan-id rule. You cannot add two tags to tagged frames.

·           If the nest rule specifies an outer VLAN (s-vid vlan-id) and the symmetric keyword, you must add the site-facing interface to the specified outer VLAN.

When you configure a re-mark rule for incoming traffic, follow these restrictions and guidelines:

·           The VLAN tag of a single-tagged frame is processed as the outer VLAN tag. To perform one-to-one mapping for a single-tagged frame, configure a remark 1-to-1 s-vid vlan-id rule.

·           If you use a remark 2-to-1 c-vid vlan-id rule with the encapsulation tagged criterion, the 802.1p priority in the new inner VLAN tag is copied from the original outer VLAN tag.

·           If you use a remark 1-to-2 s-vid vlan-id c-vid vlan-id rule with the encapsulation tagged criterion, the 802.1p priority in the new inner VLAN tag is set to 0.

·           If you use the symmetric keyword in the re-mark rule, follow these restrictions and guidelines:

?  If you specify an outer VLAN tag in the rule, you must configure the frame match criterion to match outer VLAN tags.

?  If both outer and inner VLAN tags are specified in the rule, you must configure the frame match criterion to match both outer and inner VLAN tags.

?  If a remark 1-to-1 c-vid vlan-id rule is configured, the device does not perform reverse one-to-one VLAN mapping for the returned outgoing traffic.

When you configure a strip rule for incoming traffic, follow these restrictions and guidelines:

·           The VLAN tag of a single-tagged frame is processed as the outer VLAN tag. To remove its VLAN tag, configure the strip s-vid rule.

·           If the strip rule contains the symmetric keyword, the following restrictions apply:

?  If the rule strips the outer VLAN tag, you must configure the frame match criterion to match outer VLAN tags.

?  If the rule strips both inner and outer VLAN tags, you must configure the frame match criterion to match both outer and inner VLAN tags.

?  The device does not add the VLAN tag that was removed in the inbound direction for the returned outgoing traffic.

·           If the encapsulation tagged frame match criterion is used, do not configure the strip s-vid rule. This rule cannot take effect on the matching frames.

To modify the VLAN tag processing rule for incoming traffic, you must first delete the existing rule by using the undo rewrite inbound tag command.

Examples

# Configure Ethernet service instance 1 on Ten-GigabitEthernet 1/0/1 to replace outer VLAN tag 10 with outer VLAN tag 100 for incoming traffic.

<Sysname> system-view

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

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

[Sysname-Ten-GigabitEthernet1/0/1-srv1] encapsulation s-vid 10

[Sysname-Ten-GigabitEthernet1/0/1-srv1] rewrite inbound tag remark 1-to-1 s-vid 100

rewrite outbound tag

Use rewrite outbound tag to configure the VLAN tag processing rule for outgoing traffic.

Use undo rewrite outbound tag to restore the default.

Syntax

rewrite outbound tag { nest { c-vid vlan-id | s-vid vlan-id [ c-vid vlan-id ] } | remark { { 1-to-1 | 2-to-1 } { c-vid vlan-id | s-vid vlan-id } | { 1-to-2 | 2-to-2 } s-vid vlan-id c-vid vlan-id } | strip { c-vid | s-vid [ c-vid ] } }

undo rewrite outbound tag

Default

VLAN tags of outgoing traffic are not processed.

Views

Ethernet service instance view

Predefined user roles

network-admin

Parameters

nest: Adds VLAN tags.

c-vid: Specifies an inner VLAN tag.

s-vid: Specifies an outer VLAN tag.

vlan-id: Specifies a VLAN ID in the range of 1 to 4094.

remark: Maps VLAN tags.

1-to-1: Performs one-to-one mapping to replace one VLAN tag of packets with the specified VLAN tag.

2-to-1: Performs two-to-one mapping to replace the outer and inner VLAN tags of double tagged packets with the specified VLAN tag.

1-to-2: Performs one-to-two mapping to replace the VLAN tag of single tagged packets with the specified outer and inner VLAN tags.

2-to-2: Performs two-to-two mapping to replace the outer and inner VLAN tags of double tagged packets with the specified outer and inner VLAN tags.

strip: Removes VLAN tags.

Usage guidelines

This command is mutually exclusive with the symmetric keyword in the rewrite inbound tag command. To use this command, you must make sure the symmetric keyword is not specified in the VLAN tag processing rule for incoming traffic.

For this command to take effect, follow these restrictions and guidelines:

·           Do not use this command on a VXLAN IP gateway. This command and VXLAN IP gateway configuration are mutually exclusive.

·           You must specify Ethernet access mode by using the xconnect vsi command.

If the rewrite outbound tag command and a QoS policy are both used, this command takes effect prior to the QoS policy. The QoS policy takes effect on the traffic that has been processed by using the rewrite outbound tag command.

When you configure a nest rule for outgoing traffic, follow these restrictions and guidelines:

·           You can configure a nest rule only for untagged packets.

·           To add one tag to untagged frames, you can use either a nest s-vid rule or nest c-vid rule.

·           If an outer VLAN (s-vid vlan-id) is specified, you must add the site-facing interface to the specified outer VLAN.

You cannot use the following rules for untagged or tagged frames:

·           Re-mark rules that use one-to-one VLAN mapping for inner VLAN tag replacement (remark 1-to-1 c-vid vlan-id).

·           The inner VLAN strip rule (strip c-vid).

To modify the VLAN tag processing rule for outgoing traffic, you must first delete the existing rule by using the undo rewrite outbound tag command.

Examples

# Configure Ethernet service instance 1 on Ten-GigabitEthernet 1/0/1 to replace outer VLAN tag 10 with outer VLAN tag 100 for incoming traffic and to remove the outer VLAN tags for outgoing traffic.

<Sysname> system-view

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

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

[Sysname-Ten-GigabitEthernet1/0/1-srv1] encapsulation s-vid 10

[Sysname-Ten-GigabitEthernet1/0/1-srv1] rewrite inbound tag remark 1-to-1 s-vid 100

[Sysname-Ten-GigabitEthernet1/0/1-srv1] rewrite outbound tag strip s-vid

selective-flooding mac-address

Use selective-flooding mac-address to enable selective flood for a MAC address.

Use undo selective-flooding mac-address to disable selective flood for a MAC address.

Syntax

selective-flooding mac-address mac-address

undo selective-flooding mac-address mac-address

Default

Selective flood is disabled for all MAC addresses.

Views

VSI view

Predefined user roles

network-admin

Parameters

mac-address: Specifies a MAC address. The MAC address cannot be all Fs.

Usage guidelines

This command excludes a remote unicast or multicast MAC address from the remote flood suppression done by using the flooding disable command. The VTEP will flood the frames destined for the specified MAC address to remote sites when floods are confined to the local site.

Examples

# Enable selective flood for 000f-e201-0101 on VSI vsi1.

<Sysname> system-view

[Sysname] vsi vsi1

[Sysname-vsi-vsi1] selective-flooding mac-address 000f-e201-0101

Related commands

flooding disable (VSI view)

service-instance

Use service-instance to create an Ethernet service instance and enter its view, or enter the view of an existing Ethernet service instance.

Use undo service-instance to delete an Ethernet service instance.

Syntax

service-instance instance-id

undo service-instance instance-id

Default

No Ethernet service instances exist.

Views

Layer 2 aggregate interface view

Layer 2 Ethernet interface view

Predefined user roles

network-admin

Parameters

instance-id: Specifies an Ethernet service instance ID in the range of 1 to 4096.

Examples

# On Layer 2 Ethernet interface Ten-GigabitEthernet 1/0/1, create Ethernet service instance 1 and enter Ethernet service instance view.

<Sysname> system-view

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

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

[Sysname-Ten-GigabitEthernet1/0/1-srv1]

Related commands

display l2vpn service-instance

shutdown

Use shutdown to shut down a VSI.

Use undo shutdown to bring up a VSI.

Syntax

shutdown

undo shutdown

Default

VSIs are up.

Views

VSI view

Predefined user roles

network-admin

Usage guidelines

Use this command to temporarily disable a VSI to provide Layer 2 switching services. The shutdown action does not change settings on the VSI. You can continue to configure the VSI. After you bring up the VSI again, the VSI provides services based on the latest settings.

Examples

# Shut down VSI vpn1.

<Sysname> system-view

[Sysname] vsi vpn1

[Sysname-vsi-vpn1] shutdown

Related commands

display l2vpn vsi

statistics enable (Ethernet service instance view)

Use statistics enable to enable packet statistics for an Ethernet service instance.

Use undo statistics enable to disable packet statistics for an Ethernet service instance.

Syntax

statistics enable

undo statistics enable

Default

The packet statistics feature is disabled for an Ethernet service instance.

Views

Ethernet service instance view

Predefined user roles

network-admin

Usage guidelines

For this command to take effect, you must configure a frame match criterion for the Ethernet service instance and map it to a VSI. If you modify the frame match criterion or VSI mapping, packet statistics of the instance is cleared.

Examples

# Enable packet statistics for Ethernet service instance 200 on Ten-GigabitEthernet 1/0/1.

<Sysname> system-view

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

[Sysname-Ten-GigabitEthernet1/0/1] service-instance 200

[Sysname-Ten-GigabitEthernet1/0/1-srv200] statistics enable

Related command

display l2vpn service-instance verbose

reset l2vpn statistics ac

statistics enable (VSI view)

Use statistics enable to enable packet statistics for a VSI.

Use undo statistics enable to disable packet statistics for a VSI.

Syntax

statistics enable

undo statistics enable

Default

The packet statistics feature is disabled for a VSI.

Views

VSI view

Predefined user roles

network-admin

Examples

# Enable packet statistics for VSI vsi1.

<Sysname> system-view

[Sysname] vsi vsi1

[Sysname-vsi-vsi1] statistics enable

Related commands

display l2vpn vsi verbose

reset l2vpn statistics vsi

tunnel

Use tunnel to assign VXLAN tunnels to a VXLAN.

Use undo tunnel to remove VXLAN tunnels from a VXLAN.

Syntax

tunnel { tunnel-number [ backup-tunnel tunnel-number | relay-agent ipoe ] | all }

undo tunnel { tunnel-number | all }

Default

A VXLAN does not contain VXLAN tunnels.

Views

VXLAN view

Predefined user roles

network-admin

Parameters

tunnel-number: Specifies a tunnel interface number. The tunnel must be an existing VXLAN tunnel.

backup-tunnel tunnel-number: Specifies a backup tunnel by its tunnel interface number. The tunnel must be an existing VXLAN tunnel.

relay-agent: Enables relay agent for the tunnel to transmit IPoE packets to the remote VTEP. If you do not specify this keyword, relay agent is disabled on the tunnel.

ipoe: Enables IPoE relay agent.

all: Specifies all VXLAN tunnels.

Usage guidelines

This command assigns a VXLAN tunnel to a VXLAN to provide Layer 2 connectivity for the VXLAN between two sites. In unicast mode, the system floods unknown unicast, multicast, and broadcast traffic to each tunnel in the VXLAN.

You can assign multiple VXLAN tunnels to a VXLAN, and configure a VXLAN tunnel to trunk multiple VXLANs.

To assign a pair of primary and backup VXLAN tunnels to the VXLAN, specify the backup-tunnel tunnel-number option. When the primary VXLAN tunnel is operating correctly, the backup VXLAN tunnel does not forward traffic. When the primary VXLAN tunnel goes down, traffic is switched to the backup VXLAN tunnel.

If you enable IPoE relay agent on a VXLAN tunnel, the device uses this tunnel to send IPoE packets received from the associated VXLAN to the remote VTEP. Typically, relay agent is used on DPs in the forwarding-control separation solution. For a DP to send control traffic (IPoE packets) to a CP, you must enable IPoE relay agent on the VXLAN tunnel between the DP and the CP.

If you assign VXLAN tunnels to a VXLAN one by one, you cannot remove all the VXLAN tunnels by using the undo tunnel all command.

If you assign all VXLAN tunnels to a VXLAN by using the tunnel all command, you cannot remove the VXLAN tunnels one by one. You can only use the undo tunnel all command to remove all the VXLAN tunnels.

As a best practice, use the tunnel all command only when batch VXLAN tunnel assignment is necessary.

Examples

# Assign VXLAN tunnels 1 and 2 to VXLAN 10000.

<Sysname> system-view

[Sysname] vsi vpna

[Sysname-vsi-vpna] vxlan 10000

[Sysname-vsi-vpna-vxlan-10000] tunnel 1

[Sysname-vsi-vpna-vxlan-10000] tunnel 2

Related commands

display vxlan tunnel

tunnel bfd enable

Use tunnel bfd enable to enable BFD on a VXLAN tunnel interface.

Use undo tunnel bfd enable to disable BFD on a VXLAN tunnel interface.

Syntax

tunnel bfd enable destination-mac mac-address

undo tunnel bfd enable

Default

BFD is disabled on a VXLAN tunnel interface.

Views

VXLAN tunnel interface view

Predefined user roles

network-admin

Parameters

destination-mac mac-address: Specifies a destination MAC address in H-H-H format for BFD control packets. The MAC address must be a remote VTEP address. You can omit the consecutive zeros at the beginning of each segment. For example, you can enter f-e2-1 for 000f-00e2-0001.

Usage guidelines

Enable BFD on both ends of a VXLAN tunnel for quick link connectivity detection. The VTEPs periodically send BFD single-hop control packets to each other through the VXLAN tunnel. A VTEP sets the tunnel state to Defect if it has not received control packets from the remote end for 5 seconds. In this situation, the tunnel interface state is still Up. The tunnel state will change from Defect to Up if the VTEP can receive BFD control packets again.

For BFD sessions to come up, you must reserve a VXLAN by using the reserved vxlan command.

Examples

# Enable BFD on VXLAN tunnel interface Tunnel 9, and specify 1-1-1 as the destination MAC address for BFD control packets.

<Sysname> system-view

[Sysname] interface tunnel 9 mode vxlan

[Sysname-Tunnel9] tunnel bfd enable destination-mac 1-1-1

tunnel global source-address

Use tunnel global source-address to specify a global source address for VXLAN tunnels.

Use undo tunnel global source-address to restore the default.

Syntax

tunnel global source-address ip-address

undo tunnel global source-address

Default

No global source address is specified for VXLAN tunnels.

Views

System view

Predefined user roles

network-admin

Parameters

ip-address: Specifies an IP address.

Usage guidelines

	IMPORTANT: For correct VXLAN deployment and VTEP management, do not manually specify tunnel-specific source addresses for VXLAN tunnels if OVSDB is used.

‌

A VXLAN tunnel uses the global source address if you do not specify a source interface or source address for the tunnel.

The global source address takes effect only on VXLAN tunnels (VXLAN-DCI tunnels not included).

Examples

# Specify 1.1.1.1 as the global source address for VXLAN tunnels.

<Sysname> system-view

[Sysname] tunnel global source-address 1.1.1.1

vsi

Use vsi to create a VSI and enter its view, or enter the view of an existing VSI.

Use undo vsi to delete a VSI.

Syntax

vsi vsi-name

undo vsi vsi-name

Default

No VSIs exist.

Views

System view

Predefined user roles

network-admin

Parameters

vsi-name: Specifies a VSI name, a case-sensitive string of 1 to 31 characters.

Usage guidelines

A VSI acts as a virtual switch to provide Layer 2 switching services for a VXLAN on a VTEP. A VSI has all functions of a physical Ethernet switch, including source MAC address learning, MAC address aging, and flooding.

A VSI can provide services only for one VXLAN.

Examples

# Create VSI vxlan10 and enter VSI view.

<Sysname> system-view

[Sysname] vsi vxlan10

[Sysname-vsi-vxlan10]

Related commands

display l2vpn vsi

vxlan

Use vxlan to create a VXLAN and enter its view, or enter the view of an existing VXLAN.

Use undo vxlan to restore the default.

Syntax

vxlan vxlan-id

undo vxlan

Default

No VXLANs exist.

Views

VSI view

Predefined user roles

network-admin

Parameters

vxlan-id: Specifies a VXLAN ID in the range of 0 to 16777215.

Usage guidelines

You can create only one VXLAN for a VSI. The VXLAN ID for each VSI must be unique.

Examples

# Create VXLAN 10000 for VSI vpna and enter VXLAN view.

<Sysname> system-view

[Sysname] vsi vpna

[Sysname-vsi-vpna] vxlan 10000

[Sysname-vsi-vpna-vxlan-10000]

Related commands

vsi

vxlan invalid-vlan-tag discard

Use vxlan invalid-vlan-tag discard to enable the device to drop the VXLAN packets that have 802.1Q VLAN tags in the inner Ethernet header.

Use undo vxlan invalid-vlan-tag discard to restore the default.

Syntax

vxlan invalid-vlan-tag discard

undo vxlan invalid-vlan-tag discard

Default

The device does not check whether a VXLAN packet has 802.1Q VLAN tags in the inner Ethernet header.

Views

System view

Predefined user roles

network-admin

Usage guidelines

If a remote VTEP uses the Ethernet access mode, its VXLAN packets might contain 802.1Q VLAN tags. To prevent the local VTEP from dropping the VXLAN packets, do not execute the vxlan invalid-vlan-tag discard command on the local VTEP.

To configure the access mode, use the xconnect vsi command.

Examples

# Enable the device to drop VXLAN packets that have 802.1Q VLAN tags.

<Sysname> system-view

[Sysname] vxlan invalid-vlan-tag discard

Related commands

xconnect vsi

vxlan local-mac report

Use vxlan local-mac report to enable local-MAC logging.

Use undo vxlan local-mac report to disable local-MAC logging.

Syntax

vxlan local-mac report

undo vxlan local-mac report

Default

Local-MAC logging is disabled.

Views

System view

Predefined user roles

network-admin

Usage guidelines

When the local-MAC logging feature is enabled, the VXLAN module immediately sends a log message with its local MAC addresses to the information center. When a local MAC address is added or removed, a log message is also sent to the information center to report the local-MAC change.

With the information center, you can set log message filtering and output rules, including output destinations. For more information about configuring the information center, see Network Management and Monitoring Configuration Guide.

Examples

# Enable local-MAC logging.

<Sysname> system-view

[Sysname] vxlan local-mac report

vxlan tunnel mac-learning disable

Use vxlan tunnel mac-learning disable to disable remote-MAC address learning.

Use undo vxlan tunnel mac-learning disable to enable remote-MAC address learning.

Syntax

vxlan tunnel mac-learning disable

undo vxlan tunnel mac-learning disable

Default

Remote-MAC address learning is enabled.

Views

System view

Predefined user roles

network-admin

Usage guidelines

When network attacks occur, use this command to prevent the device from learning incorrect remote MAC addresses in the data plane.

Examples

# Disable remote-MAC address learning.

<Sysname> system-view

[Sysname] vxlan tunnel mac-learning disable

vxlan udp-port

Use vxlan udp-port to set the destination UDP port number for VXLAN packets.

Use undo vxlan udp-port to restore the default.

Syntax

vxlan udp-port port-number

undo vxlan udp-port

Default

The destination UDP port number is 4789 for VXLAN packets.

Views

System view

Predefined user roles

network-admin

Parameters

port-number: Specifies a UDP port number in the range of 1 to 65535. As a best practice, specify a port number in the range of 1024 to 65535 to avoid conflict with well-known ports.

Usage guidelines

You must configure the same destination UDP port number on all VTEPs in a VXLAN.

Examples

# Set the destination UDP port number to 6666 for VXLAN packets.

<Sysname> system-view

[Sysname] vxlan udp-port 6666

vxlan vlan-based

Use vxlan vlan-based to enable VLAN-based VXLAN assignment.

Use undo vxlan vlan-based to disable VLAN-based VXLAN assignment.

Syntax

vxlan vlan-based

undo vxlan vlan-based

Default

VLAN-based VXLAN assignment is disabled.

Views

System view

Predefined user roles

network-admin

Usage guidelines

You can assign customer traffic to a VXLAN by using one of the following methods:

·           Ethernet service instance-to-VSI mapping—This method uses the frame match criterion of an Ethernet service instance to match a list of VLANs on a site-facing Layer 2 interface. The VTEP assigns customer traffic to a VXLAN by mapping the Ethernet service instance to a VSI.

·           VLAN-based VXLAN assignment—This method maps a VLAN to a VXLAN. When a VLAN is mapped to a VXLAN and VLAN-based VXLAN assignment is enabled, the device automatically performs the following operations:

a.    Creates an Ethernet service instance that uses the VLAN ID as its instance ID on each interface in the VLAN. The matching outer VLAN ID of the Ethernet service instances is the VLAN ID.

b.    Maps the Ethernet service instances to the VSI of the VXLAN.

Do not configure both Ethernet service instance-to-VSI mapping and VLAN-based VXLAN assignment.

Examples

# Enable VLAN-based VXLAN assignment.

<Sysname> system-view

[Sysname] vxlan vlan-based

vxlan vni

Use vxlan vni to map a VLAN to a VXLAN.

Use undo vxlan vni to remove the VXLAN mapping for a VLAN.

Syntax

vxlan vni vxlan-id

undo vxlan vni

Default

A VLAN is not mapped to a VXLAN.

Views

VLAN view

Predefined user roles

network-admin

Parameters

vxlan-id: Specifies a VXLAN ID in the range of 0 to 16777215.

Usage guidelines

Before you map VLANs to VXLANs, enable VLAN-based VXLAN assignment by using the vxlan vlan-based command.

You cannot map VLAN 1 to any VXLAN.

Do not map a VLAN to the L3 VXLAN ID of EVPN.

If you map a VLAN to a nonexistent VXLAN, the configuration takes effect after the VXLAN is created.

Examples

# Map VLAN 10 to VXLAN 100.

<Sysname> system-view

[Sysname] vlan 10

[Sysname-vlan10] vxlan vni 100

Related commands

vxlan vlan-based

xconnect vsi

Use xconnect vsi to map an AC to a VSI.

Use undo xconnect vsi to restore the default.

Syntax

xconnect vsi vsi-name [ access-mode { ethernet | vlan } ] [ track track-entry-number&<1-3> ]

undo xconnect vsi

Default

An AC is not mapped to any VSI.

Views

Ethernet service instance view

Predefined user roles

network-admin

Parameters

vsi-name: Specifies the VSI name, a case-sensitive string of 1 to 31 characters.

access-mode: Specifies an access mode. The default access mode is VLAN.

ethernet: Specifies the Ethernet access mode.

vlan: Specifies the VLAN access mode.

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

To monitor the status of an AC, associate it with track entries.

To configure this command for an Ethernet service instance, you must first use the encapsulation command to add a frame match criterion to the service instance.

For traffic that matches the Ethernet service instance, the system uses the VSI's MAC address table to make a forwarding decision.

The access mode determines how a VTEP processes the 802.1Q VLAN tags in the inner Ethernet frames assigned to the VSI.

·           VLAN access mode—The VTEP processes 802.1Q VLAN tags of Ethernet frames as follows:

?  If the Ethernet service instance uses the encapsulation untagged criterion, Ethernet frames received from or sent to the local site does not contain 802.1Q VLAN tags.

-       The VTEP directly forwards untagged Ethernet frames received from the local site.

-       The VTEP does not add 802.1Q VLAN tags to Ethernet frames when forwarding them to the local site.

?  If the Ethernet service instance uses any other criterion except encapsulation default, Ethernet frames received from or sent to the local site must contain 802.1Q VLAN tags.

-       For an Ethernet frame received from the local site, the VTEP removes all its 802.1Q VLAN tags before forwarding the frame.

-       For an Ethernet frame destined for the local site, the VTEP adds 802.1Q VLAN tags to the frame before forwarding the frame.

?  The Ethernet service instance cannot use the encapsulation default criterion if VLAN access mode is used.

In VLAN access mode, VXLAN packets sent between VXLAN sites do not contain 802.1Q VLAN tags. VXLAN can provide Layer 2 connectivity for different 802.1Q VLANs between sites. You can use different 802.1Q VLANs to provide the same service in different sites.

·           Ethernet access mode—The VTEP does not process the 802.1Q VLAN tags of Ethernet frames received from or sent to the local site.

?  For an Ethernet frame received from the local site, the VTEP forwards the frame with the 802.1Q VLAN tags intact.

?  For an Ethernet frame destined for the local site, the VTEP forwards the frame without adding 802.1Q VLAN tags.

In Ethernet access mode, VXLAN packets sent between VXLAN sites contain 802.1Q VLAN tags. VXLAN cannot provide Layer 2 connectivity for different 802.1Q VLANs between sites. You must use the same 802.1Q VLAN to provide the same service between sites.

Examples

# On Ten-GigabitEthernet 1/0/1, configure Ethernet service instance 200 to match frames with an outer 802.1Q VLAN tag of 200, and map the instance to VSI vpn1.

<Sysname> system-view

[Sysname] vsi vpn1

[Sysname-vsi-vpn1] quit

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

[Sysname-Ten-GigabitEthernet1/0/1] service-instance 200

[Sysname-Ten-GigabitEthernet1/0/1-srv200] encapsulation s-vid 200

[Sysname-Ten-GigabitEthernet1/0/1-srv200] xconnect vsi vpn1

Related commands

display l2vpn service-instance

encapsulation

vsi

VXLAN IP gateway commands

arp distributed-gateway dynamic-entry synchronize

Use arp distributed-gateway dynamic-entry synchronize to enable dynamic ARP entry synchronization for distributed VXLAN IP gateways.

Use undo arp distributed-gateway dynamic-entry synchronize to disable dynamic ARP entry synchronization for distributed VXLAN IP gateways.

Syntax

arp distributed-gateway dynamic-entry synchronize

undo arp distributed-gateway dynamic-entry synchronize

Default

Dynamic ARP entry synchronization is disabled for distributed VXLAN IP gateways.

Views

System view

Predefined user roles

network-admin

Usage guidelines

When local proxy ARP is enabled on distributed VXLAN IP gateways, each gateway learns ARP information independently. A gateway does not forward ARP packets destined for its local VSI interfaces to other gateways. For distributed VXLAN IP gateways to have the same ARP entries, you must enable dynamic ARP entry synchronization.

A controller or the EVPN feature can also synchronize ARP entries among distributed VXLAN IP gateways. When you use a controller or the EVPN feature, do not enable dynamic ARP entry synchronization.

Examples

# Enable dynamic ARP entry synchronization for distributed VXLAN IP gateways.

<Sysname> system-view

[Sysname] arp distributed-gateway dynamic-entry synchronize

Related commands

distributed-gateway local

local-proxy-arp enable (Layer 3—IP Services Command Reference)

arp send-rate

Use arp send-rate to set an ARP packet sending rate limit for a VSI interface.

Use undo arp send-rate to remove the ARP packet sending rate limit for a VSI interface.

Syntax

arp send-rate pps

undo arp send-rate

Default

The ARP packet sending rate is not limited for a VSI interface.

Views

VSI interface view

Predefined user roles

network-admin

Parameters

pps: Specifies a rate limit in the range of 1 to 500 pps.

Usage guidelines

VMs have limited capacity to process packets. To prevent packet processing from degrading VM performance, limit the ARP packet sending rate of the VSI interface for VMs. The VTEP will drop excess ARP packets if the rate limit is exceeded.

Examples

# Set the ARP packet sending rate limit to 50 pps for VSI-interface 1.

<Sysname> system

[Sysname] interface vsi-interface 1

[Sysname-Vsi-interface1] arp send-rate 50

default

Use default to restore the default settings for a VSI interface.

Syntax

default

Views

VSI interface view

Predefined user roles

network-admin

Usage guidelines

	CAUTION: The default command might interrupt ongoing network services. Make sure you are fully aware of the impact of this command when you use it on a live network.

 

This command might fail to restore the default settings for some commands for reasons such as command dependencies and system restrictions.

To resolve this problem:

1.      Use the display this command in interface view to identify these commands.

2.      Use their undo forms or follow the command reference to restore their default settings.

3.      If the restoration attempt still fails, follow the error message instructions to resolve the problem.

Examples

# Restore the default settings for VSI-interface 100.

<Sysname> system-view

[Sysname] interface vsi-interface 100

[Sysname-Vsi-interface100] default

This command will restore the default settings. Continue? [Y/N]:y

description

Use description to configure the description of a VSI interface.

Use undo description to restore the default.

Syntax

description text

undo description

Default

The description of a VSI interface is interface-name plus Interface (for example, Vsi-interface100 Interface).

Views

VSI interface view

Predefined user roles

network-admin

Parameters

text: Specifies a description, a case-sensitive string of 1 to 255 characters.

Examples

# Configure the description as gateway for VXLAN 10 for VSI-interface 100.

<Sysname> system-view

[Sysname] interface vsi-interface 100

[Sysname-Vsi-interface100] description gateway for VXLAN 10

display interface vsi-interface

Use display interface vsi-interface to display information about VSI interfaces.

Syntax

display interface [ vsi-interface [ vsi-interface-id ] ] [ brief [ description | down ] ]

Views

Any view

Predefined user roles

network-admin

network-operator

Parameters

vsi-interface [ vsi-interface-id ]: Specifies VSI interfaces. If you specify a VSI interface, this command displays information about the specified interface. If you specify only the vsi-interface keyword, this command displays information about all VSI interfaces. If you do not specify the vsi-interface [ vsi-interface-id ] option, this command displays information about all interfaces. Make sure the specified VSI interfaces have been created on the device.

brief: Display brief interface information. If you do not specify this keyword, the command displays detailed interface information.

description: Displays complete interface descriptions. If you do not specify this keyword, the command displays only the first 27 characters of interface descriptions.

down: Displays interfaces that are physically down as well as the down reason. If you do not specify this keyword, the command does not filter output by physical interface state.

Examples

# Display information about VSI-interface 100.

<Sysname> display interface vsi-interface 100

Vsi-interface100

Current state: UP

Line protocol state: UP

Description: Vsi-interface100 Interface

Bandwidth: 1000000 kbps

Maximum transmission unit: 1500

Internet address: 10.1.1.1/24 (primary)

IP packet frame type: Ethernet II, hardware address: 0011-2200-0102

IPv6 packet frame type: Ethernet II, hardware address: 0011-2200-0102

Physical: Unknown, baudrate: 1000000 kbps

Last clearing of counters: Never

Last 300 seconds input rate: 0 bytes/sec, 0 bits/sec, 0 packets/sec

Last 300 seconds output rate: 0 bytes/sec, 0 bits/sec, 0 packets/sec

Input: 0 packets, 0 bytes, 0 drops

Output: 0 packets, 0 bytes, 0 drops

Table 11 Command output

Field	Description
Current state	Physical link state of the interface: ·          Administratively DOWN—The interface has been shut down by using the shutdown command. ·          DOWN—The interface is administratively up, but its physical state is down. ·          UP—The interface is both administratively and physically up.
Line protocol state	Data link layer state of the interface: ·          UP—The data link layer protocol is up. ·          UP(spoofing)—The data link layer protocol is up, but the link is an on-demand link or does not exist. ·          DOWN—The data link layer protocol is down.
Description	Description of the interface.
Bandwidth	Expected bandwidth of the interface.
Maximum transmission unit	MTU of the interface.
Internet protocol processing: Disabled	The interface is not assigned an IP address and cannot process IP packets.
Internet address	IP address of the interface. The primary attribute indicates that the address is the primary IP address.
IP packet frame type	IPv4 packet framing format.
hardware address	MAC address.
IPv6 packet frame type	IPv6 packet framing format.
Physical	Physical type of the interface, which is fixed at Unknown.
baudrate	Interface baudrate in kbps.
Last clearing of counters	Last time when interface statistics are cleared. The current software version does not support clearing VSI interface statistics.
Last 300 seconds input rate	Average input rate for the last 300 seconds.
Last 300 seconds output rate	Average output rate for the last 300 seconds.
Input: 0 packets, 0 bytes, 0 drops	Incoming traffic statistics on the interface: ·          Number of incoming packets. ·          Number of incoming bytes. ·          Number of dropped incoming packets.
Output: 0 packets, 0 bytes, 0 drops	Outgoing traffic statistics on the interface: ·          Number of outgoing packets. ·          Number of outgoing bytes. ·          Number of dropped outgoing packets.

‌

# Display brief information about all VSI interfaces.

<Sysname> display interface vsi-interface brief

Brief information on interfaces in route mode:

Link: ADM - administratively down; Stby - standby

Protocol: (s) - spoofing

Interface            Link Protocol Primary IP      Description

Vsi100               DOWN DOWN     --

# Display brief information and complete description for VSI-interface 100.

<Sysname> display interface vsi-interface 100 brief description

Brief information on interfaces in route mode:

Link: ADM - administratively down; Stby - standby

Protocol: (s) - spoofing

Interface            Link Protocol Primary IP      Description

Vsi100               UP    UP      1.1.1.1         VSI-interface100

# Displays interfaces that are physically down and the down reason.

<Sysname> display interface brief down

Brief information on interfaces in route mode:

Link: ADM - administratively down; Stby - standby

Interface            Link   Cause

Vsi100               DOWN   Administratively

Vsi200               DOWN   Administratively

Table 12 Command output

Field	Description
Interface	Abbreviated interface name.
Link	Physical link state of the interface: ·          UP—The interface is physically up. ·          DOWN—The interface is physically down. ·          ADM—The interface has been shut down by using the shutdown command. To restore the physical state of the interface, use the undo shutdown command. ·          Stby—The interface is a backup interface in standby state. To see the primary interface, use the display interface-backup state command.
Protocol	Data link layer protocol state of the interface: ·          UP—The data link layer protocol of the interface is up. ·          UP (s)—The data link layer protocol of the interface is up, but the link is an on-demand link or does not exist. The (s) attribute represents the spoofing flag. ·          DOWN—The data link layer protocol of the interface is down.
Primary IP	Primary IP address of the interface. This field displays two hyphens (--) if the interface does not have an IP address.
Description	Description of the interface.
Cause	Cause for the physical link state of an interface to be DOWN: ·          Administratively—The interface has been manually shut down by using the shutdown command. To restore the physical state of the interface, use the undo shutdown command. ·          Not connected—The interface is not mapped to any VSI, or the mapped VSI does not have any AC or VXLAN tunnel.

 

distributed-gateway local

Use distributed-gateway local to specify a VSI interface as a distributed gateway to provide services for the local site.

Use undo distributed-gateway local to restore the default.

Syntax

distributed-gateway local

undo distributed-gateway local

Default

A VSI interface is not a distributed gateway.

Views

VSI interface view

Predefined user roles

network-admin

Usage guidelines

If a VXLAN uses distributed gateway services, you must assign the same IP address to the VXLAN's VSI interfaces on different VTEPs. To avoid IP address conflicts, you must specify the VSI interface on each VTEP as a distributed gateway.

Examples

# Specify VSI-interface 100 as a distributed gateway.

<Sysname> system-view

[Sysname] interface vsi-interface 100

[Sysname-Vsi-interface100] distributed-gateway local

gateway subnet

Use gateway subnet to assign a subnet to a VSI.

Use undo gateway subnet to remove a subnet from a VSI.

Syntax

gateway subnet { ipv4-address wildcard-mask | ipv6-address prefix-length }

undo gateway subnet { ipv4-address wildcard-mask | ipv6-address prefix-length }

Default

No subnet is assigned to a VSI.

Views

VSI view

Predefined user roles

network-admin

Parameters

ipv4-address: Specifies an IPv4 subnet address in dotted-decimal notation.

wildcard-mask: Specifies a wildcard mask in dotted decimal notation. In contrast to a network mask, the 0 bits in a wildcard mask represent "do care" bits, and the 1 bits represent "don't care" bits. If the "do care" bits in a packet's IP address are identical to the "do care" bits in the specified subnet address, the packet is assigned to the VSI. All "don't care" bits are ignored. The 0s and 1s in a wildcard mask can be noncontiguous. For example, 0.255.0.255 is a valid wildcard mask.

ipv6-address prefix-length: Specifies an IPv6 subnet address and the address prefix length in the range of 1 to 128.

Usage guidelines

You must configure this command on VSIs that share a gateway interface. This command enables the VSI interface to identify the VSI of a packet.

You can assign a maximum of eight IPv4 and IPv6 subnets to a VSI.

You must specify a gateway interface for a VSI before you can assign subnets to the VSI. If you remove the gateway interface from the VSI, the VSI's subnet settings are automatically deleted.

For VSIs that share a gateway interface, the subnets must be unique.

Examples

# Assign subnet 100.0.10.0/24 to VSI vxlan.

<Sysname> system-view

[Sysname] vsi vxlan

[Sysname-vsi-vxlan] gateway subnet 100.0.10.0 0.0.0.255

gateway vsi-interface

Use gateway vsi-interface to specify a gateway interface for a VSI.

Use undo gateway vsi-interface to restore the default.

Syntax

gateway vsi-interface vsi-interface-id

undo gateway vsi-interface

Default

No gateway interface is specified for a VSI.

Views

VSI view

Predefined user roles

network-admin

Parameters

vsi-interface-id: Specifies a VSI interface by its number. The value range for this argument is 0 to 4094.

Usage guidelines

When you delete a VSI interface by using the undo interface vsi-interface command, the gateway interface setting of the VSI interface is also deleted.

A VSI can have only one gateway interface. Multiple VSIs can share a gateway interface.

Examples

# Specify VSI-interface 100 as the gateway interface for VSI vpna.

<Sysname> system-view

[Sysname] vsi vpna

[Sysname-vsi-vpna] gateway vsi-interface 100

Related commands

interface vsi-interface

interface vsi-interface

Use interface vsi-interface to create a VSI interface and enter its view, or enter the view of an existing VSI interface.

Use undo interface vsi-interface to delete a VSI interface.

Syntax

interface vsi-interface vsi-interface-id

undo interface vsi-interface vsi-interface-id

Default

No VSI interfaces exist.

Views

System view

Predefined user roles

network-admin

Parameters

vsi-interface-id: Specifies a VSI interface number. The value range for this argument is 0 to 4094.

Usage guidelines

When you delete a VSI interface by using the undo interface vsi-interface command, the gateway interface setting of the VSI interface is also deleted.

Examples

# Create VSI-interface 100 and enter VSI interface view.

<Sysname> system-view

[Sysname] interface vsi-interface 100

[Sysname-Vsi-interface100]

Related commands

gateway vsi-interface

ipv6 nd distributed-gateway dynamic-entry synchronize

Use ipv6 nd distributed-gateway dynamic-entry synchronize to enable dynamic ND entry synchronization for distributed VXLAN IP gateways.

Use undo ipv6 nd distributed-gateway dynamic-entry synchronize to disable dynamic ND entry synchronization for distributed VXLAN IP gateways.

Syntax

ipv6 nd distributed-gateway dynamic-entry synchronize

undo ipv6 nd distributed-gateway dynamic-entry synchronize

Default

Dynamic ND entry synchronization is disabled for distributed VXLAN IP gateways.

Views

System view

Predefined user roles

network-admin

Usage guidelines

When local ND proxy is enabled on distributed VXLAN IP gateways, each gateway learns ND information independently. A gateway does not forward ND packets destined for its local VSI interfaces to other gateways. For distributed VXLAN IP gateways to have the same ND entries, you must enable dynamic ND entry synchronization.

A controller or the EVPN feature can also synchronize ND entries among distributed VXLAN IP gateways. When you use a controller or the EVPN feature, do not enable dynamic ND entry synchronization.

Examples

# Enable dynamic ND entry synchronization for distributed VXLAN IP gateways.

<Sysname> system-view

[Sysname] ipv6 nd distributed-gateway dynamic-entry synchronize

Related commands

distributed-gateway local

local-proxy-nd enable (Layer 3—IP Services Command Reference)

mac-address

Use mac-address to assign a MAC address to a VSI interface.

Use undo mac-address to restore the default.

Syntax

mac-address mac-address

undo mac-address

Default

The MAC address of VSI interfaces is the bridge MAC address + 1.

Views

VSI interface view

Predefined user roles

network-admin

Parameters

mac-address: Specifies a MAC address in H-H-H format.

Examples

# Assign MAC address 0001-0001-0001 to VSI-interface 100.

<Sysname> system-view

[Sysname] interface vsi-interface 100

[Sysname-Vsi-interface100] mac-address 1-1-1

mtu

Use mtu to set the MTU for a VSI interface.

Use undo mtu to restore the default.

Syntax

mtu size

undo mtu

Default

The default MTU of a VSI interface is 1444 bytes.

Views

VSI interface view

Predefined user roles

network-admin

Parameters

size: Specifies an MTU value in the range of 46 to 1560 bytes.

Examples

# Set the MTU to 1430 bytes for VSI-interface 100.

<Sysname> system-view

[Sysname] interface vsi-interface 100

[Sysname-Vsi-interface100] mtu 1430

shutdown

Use shutdown to shut down a VSI interface.

Use undo shutdown to bring up a VSI interface.

Syntax

shutdown

undo shutdown

Default

A VSI interface is up.

Views

VSI interface view

Predefined user roles

network-admin

Examples

# Shut down VSI-interface 100.

<Sysname> system-view

[Sysname] interface vsi-interface 100

[Sysname-Vsi-interface100] shutdown

vtep group member local

Use vtep group member local to assign the local VTEP to a VTEP group.

Use undo vtep group member local to remove the local VTEP from a VTEP group.

Syntax

vtep group group-ip member local member-ip

undo vtep group group-ip member local

Default

A VTEP is not assigned to any VTEP group.

Views

System view

Predefined user roles

network-admin

Parameters

group-ip: Specifies a VTEP group by its group IP address. The IP address must already exist on the local VTEP.

member-ip: Specifies the member VTEP IP address for the local VTEP. The IP address must already exist on the local VTEP.

Usage guidelines

Member VTEPs in a VTEP group cannot use the group IP address or share an IP address.

Examples

# Assign the local VTEP to VTEP group 1.1.1.1, and specify 2.2.2.2 as the member VTEP IP address of the local VTEP.

<Sysname> system-view

[Sysname] vtep group 1.1.1.1 member local 2.2.2.2

Related commands

vtep group member remote

vtep group member remote

Use vtep group member remote to specify a VTEP group and its member VTEPs.

Use undo vtep group member remote to remove a VTEP group and its member VTEPs.

Syntax

vtep group group-ip member remote member-ip&<1-8>

undo vtep group group-ip member remote

Default

No VTEP group is specified.

Views

System view

Predefined user roles

network-admin

Parameters

group-ip: Specifies a VTEP group by its group IP address.

member-ip&<1-8>: Specifies a space-separated list of up to eight member VTEP IP addresses.

Examples

# Specify VTEP group 1.1.1.1 and its member VTEPs at 2.2.2.2, 3.3.3.3, and 4.4.4.4.

<Sysname> system-view

[Sysname] vtep group 1.1.1.1 member remote 2.2.2.2 3.3.3.3 4.4.4.4

Related commands

vtep group member local

vxlan tunnel arp-learning disable

Use vxlan tunnel arp-learning disable to disable remote ARP learning for VXLANs.

Use undo vxlan tunnel arp-learning disable to enable remote ARP learning for VXLANs.

Syntax

vxlan tunnel arp-learning disable

undo vxlan tunnel arp-learning disable

Default

Remote ARP learning is enabled for VXLANs.

Views

System view

Predefined user roles

network-admin

Usage guidelines

By default, the device learns ARP information of remote VMs from packets received on VXLAN tunnel interfaces. To save resources on VTEPs in an SDN transport network, you can temporarily disable remote ARP learning when the controller and VTEPs are synchronizing entries. After the entry synchronization is completed, use the undo vxlan tunnel arp-learning disable command to enable remote ARP learning.

As a best practice, disable remote ARP learning for VXLANs only when the controller and VTEPs are synchronizing entries.

Examples

# Disable remote ARP learning for VXLANs.

<Sysname> system

[Sysname] vxlan tunnel arp-learning disable

vxlan tunnel nd-learning disable

Use vxlan tunnel nd-learning disable to disable remote ND learning for VXLANs.

Use undo vxlan tunnel nd-learning disable to enable remote ND learning for VXLANs.

Syntax

vxlan tunnel nd-learning disable

undo vxlan tunnel nd-learning disable

Default

Remote ND learning is enabled for VXLANs.

Views

System view

Predefined user roles

network-admin

Usage guidelines

By default, the device learns ND information of remote VMs from packets received on VXLAN tunnel interfaces. To save resources on VTEPs in an SDN transport network, you can temporarily disable remote ND learning when the controller and VTEPs are synchronizing entries. After the entry synchronization is completed, use the undo vxlan tunnel nd-learning disable command to enable remote ND learning.

As a best practice, disable remote ND learning for VXLANs only when the controller and VTEPs are synchronizing entries.

Examples

# Disable remote ND learning for VXLANs.

<Sysname> system

[Sysname] vxlan tunnel nd-learning disable

OVSDB commands

ovsdb server bootstrap ca-certificate

Use ovsdb server bootstrap ca-certificate to specify a CA certificate file for establishing OVSDB SSL connections.

Use undo ovsdb server bootstrap ca-certificate to restore the default.

Syntax

ovsdb server bootstrap ca-certificate ca-filename

undo ovsdb server bootstrap ca-certificate

Default

SSL uses the CA certificate file in the PKI domain.

Views

System view

Predefined user roles

network-admin

Parameters

ca-filename: Specifies the CA certificate file name, a case-insensitive string. The file name cannot contain the slot string, and the file must be stored on the IRF master.

Usage guidelines

For the specified certificate to take effect, you must execute the ovsdb server enable command to enable the OVSDB server. You must disable and then re-enable the OVSDB server if it has been enabled.

If the specified CA certificate file does not exist, the device obtains a self-signed certificate from the controller. The obtained file uses the name specified for the ca-filename argument.

Examples

# Specify CA certificate file ca-new for establishing OVSDB SSL connections.

<Sysname> system-view

[Sysname] ovsdb server bootstrap ca-certificate ca-new

Related commands

ovsdb server enable

ovsdb server pki domain

ovsdb server pssl

ovsdb server ssl

ovsdb server enable

Use ovsdb server enable to enable the OVSDB server.

Use undo ovsdb server enable to disable the OVSDB server.

Syntax

ovsdb server enable

undo ovsdb server enable

Default

The OVSDB server is disabled.

Views

System view

Predefined user roles

network-admin

Usage guidelines

To obtain configuration data from controllers, you must enable the OVSDB server.

Before you enable the OVSDB server, you must establish an OVSDB SSL or TCP connection with a minimum of one controller.

Examples

# Enable the OVSDB server.

<Sysname> system-view

[Sysname] ovsdb server enable

ovsdb server pki domain

Use ovsdb server pki domain to specify a PKI domain for establishing OVSDB SSL connections.

Use undo ovsdb bootstrap server pki domain to restore the default.

Syntax

ovsdb server pki domain domain-name

undo ovsdb server pki domain

Default

No PKI domain is specified for establishing OVSDB SSL connections.

Views

System view

Predefined user roles

network-admin

Parameters

domain-name: Specifies a PKI domain name, a case-sensitive string of 1 to 31 characters. The PKI domain must already exist and contain a complete certificate and key.

Usage guidelines

To communicate with controllers through SSL, you must specify a PKI domain.

For the specified PKI domain to take effect, you must execute the ovsdb server enable command to enable the OVSDB server. You must disable and then re-enable the OVSDB server if it has been enabled.

For more information about PKI domains, see PKI in Security Configuration Guide.

Examples

# Specify PKI domain ovsdb_test for establishing OVSDB SSL connections.

<Sysname> system-view

[Sysname] ovsdb server pki domain ovsdb_test

Related commands

ovsdb server bootstrap ca-certificate

ovsdb server enable

ovsdb server pssl

ovsdb server ssl

ovsdb server pssl

Use ovsdb server pssl to enable the device to listen for OVSDB SSL connection requests.

Use undo ovsdb server pssl to restore the default.

Syntax

ovsdb server pssl [ port port-number ]

undo ovsdb server pssl

Default

The device does not listen for OVSDB SSL connection requests.

Views

System view

Predefined user roles

network-admin

Parameters

port port-number: Specifies a port to listen for OVSDB SSL connection requests. The value range for the port-number argument is 1 to 65535. If you do not specify a port, the device uses the port number 6640.

Usage guidelines

Before you use this command, you must specify a PKI domain for SSL.

You can specify only one port to listen for OVSDB SSL connection requests. If you execute this command multiple times, the most recent configuration takes effect.

For the specified port setting to take effect, you must execute the ovsdb server enable command to enable the OVSDB server. You must disable and then re-enable the OVSDB server if it has been enabled.

Examples

# Enable the device to listen for OVSDB SSL connection requests on port 6640.

<Sysname> system-view

[Sysname] ovsdb server pssl

Related commands

ovsdb server bootstrap ca-certificate

ovsdb server enable

ovsdb server pki domain

ovsdb server ssl

ovsdb server ptcp

Use ovsdb server ptcp to enable the device to listen for OVSDB TCP connection requests.

Use undo ovsdb server ptcp to restore the default.

Syntax

ovsdb server ptcp [ port port-number ]

undo ovsdb server ptcp

Default

The device does not listen for OVSDB TCP connection requests.

Views

System view

Predefined user roles

network-admin

Parameters

port-number: Specifies a port to listen for OVSDB TCP connection requests. The value range for the port-number argument is 1 to 65535. If you do not specify a port, the device uses the port number 6640.

Usage guidelines

You can specify only one port to listen for OVSDB TCP connection requests. If you execute this command multiple times, the most recent configuration takes effect.

For the specified port setting to take effect, you must execute the ovsdb server enable command to enable the OVSDB server. You must disable and then re-enable the OVSDB server if it has been enabled.

Examples

# Enable the device to listen for OVSDB TCP connection requests on port 6640.

<Sysname> system-view

[Sysname] ovsdb server ptcp

Related commands

ovsdb server enable

ovsdb server tcp

ovsdb server ssl

Use ovsdb server ssl to set up an active OVSDB SSL connection to a controller.

Use undo ovsdb server ssl to remove an OVSDB SSL connection from a controller.

Syntax

ovsdb server ssl ip ip-address port port-number

undo ovsdb server ssl ip ip-address port port-number

Default

The device does not have active OVSDB SSL connections to a controller.

Views

System view

Predefined user roles

network-admin

Parameters

ip ip-address: Specifies the destination IP address for the SSL connection.

port port-number: Specifies the destination port for the SSL connection. The value range for the port-number argument is 1 to 65535.

Usage guidelines

Before you use this command, you must specify a PKI domain for SSL.

The device can have a maximum of eight active SSL connections.

To establish the connection, you must execute the ovsdb server enable command. You must disable and then re-enable the OVSDB server if it has been enabled.

Examples

# Set up an active SSL connection to port 6632 at 192.168.12.2.

<Sysname> system-view

[Sysname] ovsdb server ssl ip 192.168.12.2 port 6632

Related commands

ovsdb server bootstrap ca-certificate

ovsdb server enable

ovsdb server pki domain

ovsdb server pssl

ovsdb server tcp

Use ovsdb server tcp to set up an active OVSDB TCP connection to a controller.

Use undo ovsdb server tcp to remove an OVSDB TCP connection.

Syntax

ovsdb server tcp ip ip-address port port-number

undo ovsdb server tcp ip ip-address port port-number

Default

The device does not have active OVSDB TCP connections.

Views

System view

Predefined user roles

network-admin

Parameters

ip ip-address: Specifies the destination IP address for the TCP connection.

port port-number: Specifies the destination port for the TCP connection. The value range for the port-number argument is 1 to 65535.

Usage guidelines

The device can have a maximum of eight active OVSDB TCP connections.

To establish the connection, you must execute the ovsdb server enable command. You must disable and then re-enable the OVSDB server if it has been enabled.

Examples

# Set up an active OVSDB TCP connection to port 6632 at 192.168.12.2.

<Sysname> system-view

[Sysname] ovsdb server tcp ip 192.168.12.2 port 6632

Related commands

ovsdb server enable

ovsdb server ptcp

vtep access port

Use vtep access port to specify a site-facing interface as a VTEP access port.

Use undo vtep access port to restore the default.

Syntax

vtep access port

undo vtep access port

Default

An interface is not a VTEP access port.

Views

Layer 2 aggregate interface view

Layer 2 Ethernet interface view

Predefined user roles

network-admin

Usage guidelines

For controllers to manage a site-facing interface, you must specify the interface as a VTEP access port.

Examples

# Specify Ten-GigabitEthernet 1/0/1 as a VTEP access port.

<Sysname> system-view

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

[Sysname-Ten-GigabitEthernet1/0/1] vtep access port

vtep acl disable

Use vtep acl disable to disable the ACLs issued by the OVSDB controller.

Use undo vtep acl disable to enable the ACLs issued by the OVSDB controller.

Syntax

vtep acl disable

undo vtep acl disable

Default

The ACLs issued by the OVSDB controller are enabled on the device.

Views

System view

Predefined user roles

network-admin

Usage guidelines

Before you use this command, you must use the vtep enable command to enable the OVSDB VTEP service.

Use the vtep acl disable command on a VTEP to disable all the ACLs issued by the OVSDB controller in order to save ACL resources on the VTEP.

Examples

# Disable the ACLs issued by the OVSDB controller.

<Sysname> system-view

[Sysname] vtep enable

[sysname] vtep acl disable

Related commands

vtep enable

vtep enable

Use vtep enable to enable the OVSDB VTEP service.

Use undo vtep enable to disable the OVSDB VTEP service.

Syntax

vtep enable

undo vtep enable

Default

The OVSDB VTEP service is disabled.

Views

System view

Predefined user roles

network-admin

Examples

# Enable the OVSDB VTEP service.

<Sysname> system-view

[Sysname] vtep enable