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| Title | Size | Download |
|---|---|---|
| 01-EVPN commands | 526.87 KB |
Contents
address-family evpn (public instance view)
address-family evpn (VPN instance view)
display arp filter source service-instance
display evpn m-lag synchronized-mac
display evpn ipv6 auto-discovery
display evpn route arp suppression
display evpn route arp-mobility
display evpn route { igmp-js | igmp-ls | smet }
display evpn route mac-mobility
display evpn route nd suppression
display evpn route nd-mobility
display l2vpn forwarding evpn split-horizon
evpn encapsulation vxlan binding instance
evpn mac-ip advertise distributed-gateway
evpn multihoming advertise disable
evpn multihoming timer df-delay
evpn multihoming vxlan-frr local
evpn route arp-mobility suppression
evpn route gateway-mac unmovable
evpn route mac-mobility suppression
evpn route nd-mobility suppression
ip forwarding-conversational-learning
ip-prefix-route generate disable
ipv6 nd ra tunnel-broadcast enable
ipv6 nd ra tunnel-broadcast global enable
l2vpn m-lag peer-link ac-match-rule vxlan-mapping
mac-address forwarding-conversational-learning
nexthop evpn-m-lag group-address
nexthop recursive-lookup default-route ignore
peer advertise evpn-route suppress
peer advertise vpn-reoriginate ibgp
peer default-gateway no-advertise
reset evpn route arp-mobility suppression
reset evpn route mac-mobility suppression
reset evpn route nd-mobility suppression
EVPN commands
EVPN multihoming, EVPN gateways, and EVPN-DCI are not supported by S6800 switches labeled with the following product codes:
· LS-6800-2C.
· LS-6800-32Q.
· LS-6800-4C.
address-family evpn (public instance view)
Use address-family evpn to enter public instance EVPN view.
Use undo address-family evpn to delete all settings in public instance EVPN view.
Syntax
address-family evpn
undo address-family evpn
Views
Public instance view
Predefined user roles
network-admin
Usage guidelines
You can configure EVPN settings such as route targets in public instance EVPN view.
Examples
# Enter public instance EVPN view.
<Sysname> system-view
[Sysname] ip public-instance
[Sysname-public-instance] address-family evpn
[Sysname-public-instance-evpn]
address-family evpn (VPN instance view)
Use address-family evpn to enter VPN instance EVPN view.
Use undo address-family evpn to delete all settings in VPN instance EVPN view.
Syntax
address-family evpn
undo address-family evpn
Views
VPN instance view
Predefined user roles
network-admin
Usage guidelines
You can configure EVPN settings such as route targets and routing policies in VPN instance EVPN view.
Examples
# Enter EVPN view of VPN instance tenant.
<Sysname> system-view
[Sysname] ip vpn-instance tenant
[Sysname-vpn-instance-tenant] address-family evpn
[Sysname-vpn-evpn-tenant]
address-family l2vpn evpn
Use address-family l2vpn evpn to create the BGP EVPN address family and enter its view, or enter the view of the existing BGP EVPN address family.
Use undo address-family l2vpn evpn to delete the BGP EVPN address family and all settings in BGP EVPN address family view.
Syntax
address-family l2vpn evpn
undo address-family l2vpn evpn
Default
The BGP EVPN address family does not exist.
Views
BGP instance view
Predefined user roles
network-admin
Usage guidelines
Configuration made in BGP EVPN address family view takes effect only on routes and peers of the BGP EVPN address family that are on the public network.
Examples
# Create the BGP EVPN address family and enter its view.
<Sysname> system-view
[Sysname] bgp 100
[Sysname-bgp-default] address-family l2vpn evpn
[Sysname-bgp-default-evpn]
advertise evpn route
Use advertise evpn route to enable BGP EVPN route advertisement for the BGP VPNv4 or VPNv6 address family.
Use undo advertise evpn route to disable BGP EVPN route advertisement for the BGP VPNv4 or VPNv6 address family.
Syntax
advertise evpn route [ replace-rt ][ advertise-policy policy-name ]
undo advertise evpn route
Default
BGP EVPN routes are not advertised through the BGP VPNv4 or VPNv6 address family.
Views
BGP VPNv4 address family
BGP VPNv6 address family
Predefined user roles
network-admin
Parameters
replace-rt: Replaces the route targets of BGP EVPN routes with the route targets of BGP VPNv4 or VPNv6 routes. If you do not specify this keyword, route targets of BGP EVPN routes are not modified.
advertise-policy policy-name: Specifies a routing policy to filter the BGP EVPN routes to be advertised to BGP VPNv4 or VPNv6 peers. The policy-name argument specifies the routing policy name, a case-sensitive string of 1 to 63 characters. If you do not specify this option, all BGP EVPN routes are advertised to BGP VPNv4 or VPNv6 peers.
Usage guidelines
To enable communication between data centers interconnected through an MPLS L3VPN network, you must configure the BGP EVPN address family and the BGP VPNv4 or VPNv6 address family to exchange routes on EDs.
After you execute this command, the device advertises IP prefix advertisement routes and MAC/IP advertisement routes that contain host route information through the BGP VPNv4 or VPNv6 address family.
Examples
# Enable BGP EVPN route advertisement for the BGP VPNv4 address family.
<Sysname> system-view
[Sysname] bgp 100
[Sysname-bgp-default] address-family vpnv4
[Sysname-bgp-default-vpnv4] advertise evpn route
advertise l2vpn evpn
Use advertise l2vpn evpn to enable BGP EVPN route advertisement to the local site.
Use undo advertise l2vpn evpn to disable BGP EVPN route advertisement to the local site.
Syntax
advertise l2vpn evpn
undo advertise l2vpn evpn
Default
BGP EVPN route advertisement to the local site is enabled.
Views
BGP-VPN IPv4 unicast address family view
BGP-VPN IPv6 unicast address family view
Predefined user roles
network-admin
Usage guidelines
This command enables the device to advertise BGP EVPN routes to the local site after the device adds the routes to the routing table of a VPN instance. The BGP EVPN routes here are IP prefix advertisement routes and MAC/IP advertisement routes that contain ARP or ND information.
Examples
# Enable BGP EVPN route advertisement to the local site for VPN instance vpn1.
<Sysname> system-view
[Sysname] bgp 100
[Sysname-bgp-default] ip vpn-instance vpn1
[Sysname-bgp-default-vpn1] address-family ipv4
[Sysname-bgp-default-ipv4-vpn1] advertise l2vpn evpn
advertise l3vpn route
Use advertise l3vpn route to enable BGP VPNv4 or VPNv6 route advertisement for the BGP EVPN address family.
Use undo advertise l3vpn route to disable BGP VPNv4 or VPNv6 route advertisement for the BGP EVPN address family.
Syntax
advertise l3vpn route [ replace-rt ][ advertise-policy policy-name ]
undo advertise l3vpn route
Default
BGP VPNv4 or VPNv6 routes are not advertised through the BGP EVPN address family.
Views
BGP EVPN address family view
Predefined user roles
network-admin
Parameters
replace-rt: Replaces the route targets of BGP VPNv4 or VPNv6 routes with the route targets of BGP EVPN routes. If you do not specify this keyword, route targets of BGP VPNv4 or VPNv6 routes are not modified.
advertise-policy policy-name: Specifies a routing policy to filter the BGP VPNv4 or VPNv6 routes to be advertised to BGP EVPN peers. The policy-name argument specifies the routing policy name, a case-sensitive string of 1 to 63 characters. If you do not specify this option, all BGP VPNv4 or VPNv6 routes are advertised to BGP EVPN peers.
Usage guidelines
To enable communication between data centers interconnected through an MPLS L3VPN network, you must configure the BGP EVPN address family and the BGP VPNv4 or VPNv6 address family to exchange routes on EDs.
After you execute this command, the device advertises BGP VPNv4 or VPNv6 routes as IP prefix advertisement routes through the BGP EVPN address family.
Examples
# Enable BGP VPNv4 or VPNv6 route advertisement for the BGP EVPN address family.
<Sysname> system-view
[Sysname] bgp 100
[Sysname-bgp-default] address-family l2vpn evpn
[Sysname-bgp-default-evpn] advertise l3vpn route
arp mac-learning disable
Use arp mac-learning disable to disable a VSI EVPN instance from learning MAC addresses from ARP information.
Use undo arp mac-learning disable to restore the default.
Syntax
arp mac-learning disable
undo arp mac-learning disable
Default
An EVPN instance learns MAC addresses from ARP information.
Views
EVPN instance view
VSI EVPN instance view
Predefined user roles
network-admin
Usage guidelines
The MAC information and ARP information advertised by a remote VTEP or PE overlap. To avoid duplication, use this command to disable the learning of MAC addresses from ARP information. EVPN will learn remote MAC addresses only from the MAC information advertised from remote sites.
Examples
# Disable a VSI EVPN instance from learning MAC addresses from ARP information.
<Sysname> system-view
[Sysname] vsi aaa
[Sysname-vsi-aaa] evpn encapsulation vxlan
[Sysname-vsi-aaa-evpn-vxlan] arp mac-learning disable
arp proxy-send enable
Use arp proxy-send enable to enable ARP request proxy.
Use undo arp proxy-send enable to disable ARP request proxy.
Syntax
arp proxy-send enable
undo arp proxy-send enable
Default
ARP request proxy is disabled on VSI interfaces.
Views
VSI interface view
Predefined user roles
network-admin
Usage guidelines
ARP request proxy allows a VSI interface to send an ARP request sourced from itself when the VTEP forwards an ARP request. This feature helps resolve certain communication issues.
In an EVPN VXLAN network, VM 1 and VM 2 are attached to VTEP 1 and VTEP 2, respectively, and the VMs are in the same subnet. The gateway interfaces of VM 1 and VM 2 are VSI-interface 1 on VTEP 1 and VSI-interface 2 on VTEP 2, respectively. The following conditions exist on the VTEPs:
· The VTEPs have established BGP EVPN neighbor relationships.
· EVPN is disabled from learning MAC addresses from ARP information.
· MAC address advertisement is disabled, and advertised MAC addresses are withdrawn.
· Remote-MAC address learning is disabled.
· Local proxy ARP is enabled on the VSI interfaces.
· The VSI interfaces use different IP addresses and MAC addresses.
In this network, when VM 1 attempts to communicate with VM 2, the following procedure occurs:
1. VM 1 sends an ARP request.
2. VTEP 1 learns the MAC address of VM 1 from the ARP request, replies to VM 1 on behalf of VM 2, and sends an ARP request to obtain the MAC address of VM 2.
3. VTEP 2 forwards the ARP request, and VM 2 replies to VTEP 1.
4. VTEP 2 forwards the ARP reply sent by VM 2 without learning the MAC address of VM 2 because EVPN is disabled from learning MAC addresses from ARP information.
5. VTEP 1 does not learn the MAC address of VM 2 because remote-MAC address learning is disabled.
As a result, VM 1 fails to communicate with VM 2.
For VM 1 to communicate with VM 2, enable ARP request proxy on VSI-interface 2 of VTEP 2. When receiving the ARP request sent by VTEP 1, VTEP 2 forwards it and sends an ARP request sourced from VSI-interface 2 simultaneously, and VM 2 replies to both ARP requests. Then, VTEP 2 learns the MAC address of VM 2 from the ARP reply sent to VSI-interface 2 and advertises the MAC address to VTEP 1 through BGP EVPN routes. In this way, VTEP 1 obtains the MAC address of VM 2, and VM 1 and VM 2 can communicate.
Examples
# Enable ARP request proxy on VSI-interface 100.
<Sysname> system-view
[Sysname] interface vsi-interface 100
[Sysname-vsi-interface100] arp proxy-send enable
Related commands
local-proxy-arp enable (Layer 3—IP Services Command Reference)
arp-advertising disable
Use arp-advertising disable to disable ARP information advertisement for a VSI EVPN instance.
Use undo arp-advertising disable to restore the default.
Syntax
arp-advertising disable
undo arp-advertising disable
Default
ARP information advertisement is enabled for a VSI EVPN instance.
Views
EVPN instance view
VSI EVPN instance view
Predefined user roles
network-admin
Usage guidelines
In an EVPN network with distributed gateways, you can disable ARP information advertisement for a VXLAN to save resources if all its user terminals use the same EVPN gateway device. The EVPN instance of the VXLAN will stop advertising ARP information through MAC/IP advertisement routes and withdraw advertised ARP information. When ARP information advertisement is disabled, user terminals in other VXLANs still can communicate with that VXLAN through IP prefix advertisement routes.
Examples
# Disable ARP information advertisement for a VSI EVPN instance.
<Sysname> system-view
[Sysname] vsi aaa
[Sysname-vsi-aaa] evpn encapsulation vxlan
[Sysname-vsi-aaa-evpn-vxlan] arp-advertising disable
dci enable
Use dci enable to enable DCI on an interface.
Use undo dci enable to disable DCI on an interface.
Syntax
dci enable
undo dci enable
Default
DCI is disabled on an interface.
Views
Interface view
Predefined user roles
network-admin
Usage guidelines
For EDs to automatically establish VXLAN-DCI tunnels, you must enable DCI on the Layer 3 Ethernet interfaces or Layer 3 aggregate interfaces that interconnect the EDs.
Subinterfaces of a DCI-enabled interface inherit configuration of the interface.
Examples
# Enable DCI on VLAN-interface 10.
<Sysname> system-view
[Sysname] interface ten-gigabitethernet 1/0/1
[Sysname-Ten-GigabitEthernet1/0/1] dci enable
display arp filter source service-instance
Use display arp filter source service-instance to display ARP gateway protection configuration for Ethernet service instances.
Syntax
display arp filter source service-instance [ interface interface-type interface-number [ service-instance instance-id ] ] [ slot slot-number ]
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
interface interface-type interface-number: Specifies an interface by its type and number. If you do not specify an interface, this command displays ARP gateway protection configuration for Ethernet service instances on all 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 ARP gateway protection configuration for all Ethernet service instances on the specified interface.
slot slot-number: Specifies an IRF member device by its member ID. If you do not specify a member device, this command displays ARP gateway protection configuration on the master device.
Usage guidelines
After you enable ARP gateway protection in Ethernet service instance view, use this command to view the ARP gateway protection configuration for Ethernet service instances.
Examples
# Display ARP gateway protection configuration for all Ethernet service instances on Ten-GigabitEthernet 1/0/1 of slot 1.
<Sysname> display arp filter source service-instance interface ten-gigabitethernet 1/0/1 slot 1
Interface: ten-gigabitethernet 1/0/1
Service instance: 1
IPv4 address: 192.168.56.1
Drop count: 10
Service instance: 2
IPv4 address: 192.168.56.2
Drop count: 10
# Display ARP gateway protection configuration for Ethernet service instance 1 on Ten-GigabitEthernet 1/0/1 of slot 1.
<Sysname> display arp filter source service-instance interface ten-gigabitethernet 1/0/1 instance 1 slot 1
Interface: ten-gigabitethernet 1/0/1
Service instance: 1
IPv4 address: 192.168.56.1
Drop count: 10
# Display ARP gateway protection configuration for Ethernet service instances on all interfaces of slot 1.
<Sysname> display arp filter source service-instance slot 1
Interface: ten-gigabitethernet 1/0/1
Service instance: 1
IPv4 address: 192.168.56.1
Drop count: 10
Service instance: 2
IPv4 address: 192.168.56.2
Drop count: 10
Interface: ten-gigabitethernet 1/0/2
Service instance: 2
IPv4 address: 192.168.56.2
Drop count: 10
Table 1 Command output
|
Field |
Description |
|
Service instance |
Ethernet service instance ID. |
|
IPv4 address |
Protected gateway IP address. |
|
Drop count |
Number of packets dropped due to gateway protection. |
Related commands
arp filter source
display bgp l2vpn evpn
Use display bgp l2vpn evpn to display BGP EVPN routes.
Syntax
display bgp [ instance instance-name ] l2vpn evpn [ peer ipv4-address { advertised-routes | received-routes } [ statistics ] | [ route-distinguisher route-distinguisher | route-type { auto-discovery | es | igmp-ls | igmp-js | imet | ip-prefix | mac-ip | s-pmsi | smet } ] * [ { evpn-route route-length | evpn-prefix } [ advertise-info | as-path | cluster-list | community | ext-community ] | { ipv4-address | ipv6-address | mac-address } [ verbose ] ] | statistics ]
display bgp [ instance instance-name ] l2vpn evpn [ route-distinguisher route-distinguisher ] [ statistics ] community [ community-number&<1-32> | aa:nn&<1-32> ] [ internet | no-advertise | no-export | no-export-subconfed ] [ whole-match ]
display bgp [ instance instance-name ] l2vpn evpn [ route-distinguisher route-distinguisher ] [ statistics ] community-list { basic-community-list-number | adv-community-list-number | comm-list-name } [ whole-match ]
display bgp [ instance instance-name ] l2vpn evpn [ route-distinguisher route-distinguisher ] [ statistics ] ext-community [ rt route-target | soo site-of-origin]&<1-32> [ whole-match ]
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
instance instance-name: Specifies a BGP instance by its name, a case-sensitive string of 1 to 31 characters. If you do not specify this option, the command displays BGP EVPN routes for the default BGP instance.
peer ipv4-address: Specifies a peer by its IPv4 address.
advertised-routes: Specifies the routes advertised to the specified peer.
received-routes: Specifies the routes received from the specified peer.
statistics: Displays BGP EVPN route statistics.
route-distinguisher route-distinguisher: Specifies a route distinguisher (RD), a string of 3 to 21 characters. The RD can use one of the following formats:
· 16-bit AS number:32-bit user-defined number. For example, 101:3.
· 32-bit IP address:16-bit user-defined number. For example, 192.168.122.15:1.
· 32-bit AS number:16-bit user-defined number. For example, 65536:1. The AS number must be equal to or greater than 65536.
route-type: Specifies a route type.
auto-discovery: Specifies Ethernet auto-discovery routes.
es: Specifies Ethernet segment (ES) routes.
igmp-ls: Specifies IGMP leave synch routes.
igmp-js: Specifies IGMP join synch routes.
imet: Specifies inclusive multicast Ethernet tag (IMET) routes.
ip-prefix: Specifies IP prefix advertisement routes.
mac-ip: Specifies MAC/IP advertisement routes.
s-pmsi: Specifies Selective Provider Multicast Service Interface (S-PMSI) routes.
smet: Specifies selective multicast Ethernet tag (SMET) routes.
evpn-route: Specifies a BGP EVPN route, a case-insensitive string of 1 to 512 characters.
route-length: Specifies the route length in bits, in the range of 0 to 65535.
evpn-prefix: Specifies a BGP EVPN route in the format of evpn-route/route-length, a case-insensitive string of 1 to 512 characters.
advertise-info: Displays advertisement information for BGP EVPN routes.
as-path: Specifies the AS path attribute.
cluster-list: Specifies the cluster list attribute.
community: Specifies the community attribute.
ext-community: Specifies the extended community attribute.
ipv4-address: Specifies an IPv4 address.
ipv6-address: Specifies an IPv6 address.
mac-address: Specifies a MAC address in MAC/IP advertisement routes. If you specify the route-type keyword, to use this argument, you must also specify the mac-ip keyword.
verbose: Displays detailed BGP EVPN route information. If you do not specify this keyword, the command displays brief BGP EVPN route information.
community-number&<1-32>: Specifies a community sequence number. The value range for the community-number argument is 1 to 4294967295. &<1-32> indicates that a maximum of 32 numbers can be specified.
aa:nn&<1-32>: Specifies a community number. Both aa and nn are in the range of 0 to 65535. &<1-32> indicates that a maximum of 32 numbers can be specified.
internet: Specifies the INTERNET community attribute. Routes with this attribute can be advertised to all BGP peers. By default, all routes have this attribute.
no-advertise: Specifies the NO_ADVERTISE community attribute. Routes with this attribute cannot be advertised to any BGP peers.
no-export: Specifies the NO_EXPORT community attribute. Routes with this attribute cannot be advertised outside the local AS or confederation, but can be advertised to other sub-ASs in the confederation.
no-export-subconfed: Specifies the NO_EXPORT_SUBCONFED community attribute. Routes with this attribute cannot be advertised outside the local AS or to other sub-ASs in the confederation.
whole-match: Displays BGP EVPN routes that exactly match the specified community list, community numbers, or extended community attribute. If you do not specify this keyword, the command displays BGP EVPN routes that include the specified community list, community numbers, or extended community attribute.
community-list: Specifies a community list to match BGP EVPN unicast routes.
basic-community-list-number: Specifies a basic community list by its number in the range of 1 to 99.
comm-list-name: Specifies a community list by its name, a case-sensitive string of 1 to 63 characters.
adv-community-list-number: Specifies an advanced community list by its number in the range of 100 to 199.
rt route-target: Specifies a route target, a string of 3 to 24 characters.
soo site-of-origin: Specifies the Site of Origin (SoO) extended community attribute, a string of 3 to 24 characters.
A route target or SoO attribute has the following forms:
· 16-bit AS number:32-bit self-defined number. For example, 101:3. The value range is 0 to 65535 for an AS number and 0 to 4294967295 for a self-defined number.
· 32-bit IP address:16-bit self-defined number. For example, 192.168.122.15:1. The value range is 0 to 65535 for a self-defined number.
· 32-bit AS number:16-bit self-defined number. For example, 70000:3. The value range is 65536 to 4294967295 for an AS number and 0 to 65535 for a self-defined number.
· 32-bit IP address/IPv4 address mask length:16-bit user-defined number. For example, 192.168.122.15/24:1.
· 32-bit AS number in dotted format:16-bit user-defined number. For example, 65535.65535:1.
&<1-32>: Specifies a maximum of 32 items.
|
|
NOTE: The S6820 switches with the following product codes do not support the auto-discovery, es, igmp-ls, igmp-js, s-pmsi, or smet keyword: · LS-6800-2C. · LS-6800-4C. · LS-6800-32Q. |
Usage guidelines
If you do not specify any parameter, this command displays brief information about all BGP EVPN routes.
This command displays BGP EVPN routes that carry any community attribute and the whole-match keyword does not take effect if you do not specify the following parameters:
· community-number
· aa:nn
· internet
· no-advertise
· no-export
· no-export-subconfed
This command displays BGP EVPN routes that carry any extended community attribute and the whole-match keyword does not take effect if you do not specify the following parameters:
· rt
· soo
Examples
# Display brief information about all BGP EVPN routes.
<Sysname> display bgp l2vpn evpn
BGP local router ID is 8.8.8.8
Status codes: * - valid, > - best, d - dampened, h - history,
s - suppressed, S - stale, i - internal, e - external
a - additional-path
Origin: i - IGP, e - EGP, ? - incomplete
Total number of routes from all PEs: 3
Route distinguisher: 1:1
Total number of routes: 2
* >e Network : [2][0][48][0011-0022-0033][32][11.22.33.55]/136
NextHop : 1.1.1.2 LocPrf : 100
PrefVal : 0 OutLabel : NULL
MED : 0
Path/Ogn: 20i
Route distinguisher of public instance: 1:15
Total number of routes: 1
* >i Network : [2][0][48][7010-0000-0001][0][0.0.0.0]/104
NextHop : 1.1.1.4 LocPrf : 100
PrefVal : 0 OutLabel : NULL
MED : 0
Path/Ogn: 20i
# Display all BGP EVPN routes that carry community attributes.
<Sysname> display bgp l2vpn evpn community
BGP local router ID is 1.1.1.9
Status codes: * - valid, > - best, d - dampened, h - history,
s - suppressed, S - stale, i - internal, e - external
a – additional-path
Origin: i - IGP, e - EGP, ? - incomplete
Total number of routes from all PEs: 6
Route distinguisher: 100:1
Total number of routes: 3
Network NextHop MED LocPrf PrefVal Path/Ogn Community
* > [2][0][48][00aa.00bb.00cc][4][0.0.0.0]/136
10.1.1.2 0 32768 ? <2:3>
* e 10.1.1.1 0 0 65410? <2:3>
* > [3][300][16][::ffff:1.1.1.1]/176
127.0.0.1 0 32768 ? <3:4>
# Display all BGP EVPN routes that carry extended community attributes.
<Sysname> display bgp l2vpn evpn ext-community
BGP local router ID is 1.1.1.9
Status codes: * - valid, > - best, d - dampened, h - history,
s - suppressed, S - stale, i - internal, e - external
a – additional-path
Origin: i - IGP, e - EGP, ? - incomplete
Total number of routes from all PEs: 6
Route distinguisher: 100:1
Total number of routes: 3
Network NextHop MED LocPrf PrefVal Path/Ogn Ext-Community
* > [2][0][48][00aa.00bb.00cc][4][0.0.0.0]/136
10.1.1.2 0 32768 ? <RT 2:3>
* e 10.1.1.1 0 0 65410? <RT 2:3>
* > [3][300][16][::ffff:1.1.1.1]/176
127.0.0.1 0 32768 ? <RT 3:4>
Table 2 Command output
|
Field |
Description |
|
Status codes |
Route status codes: · * - valid—Valid route. · > - best—Optimal route. · d - dampened—Dampened route. · h - history—History route. · i - internal—Internal route. · e - external—External route. · s - suppressed—Suppressed route. · S - stale—Stale route. · a - additional-path—Add-Path optimal route. |
|
Origin |
Origin of the route: · i – IGP—Originated in the AS. The origin of routes advertised by using the network command is IGP. · e – EGP—Learned through EGP. · ? – incomplete—Unknown origin. The origin of routes redistributed from IGP protocols is incomplete. |
|
Network |
BGP EVPN route/route length. For example, in the entry [2][0][48][1485-247c-0506][32][10.1.2.20]/136, [2][0][48][1485-247c-0506][32][10.1.2.20] is the route, and 136 is the route length in bytes. BGP EVPN routes are as follows: · [1][ESI][EthernetTagID] ¡ 1—Ethernet auto-discovery route. ¡ ESI—Ethernet segment identifier (ESI). ¡ EthernetTagID—Ethernet tag ID. · [2][EthernetTagID][MACLength][MAC][IPAddressLength][IPAddress] ¡ 2—MAC/IP advertisement route. ¡ EthernetTagID—Ethernet tag ID. ¡ MACLength—MAC address length. ¡ MAC—MAC address. ¡ IPAddressLength—IP address length. ¡ IPAddress—IP address. · [3][EthernetTagID][IPAddressLength][IPAddress] ¡ 3—IMET route. ¡ IPAddressLength—IP address length. ¡ IPAddress—IP address of the originating router. · [4][ESI][IPAddressLength][IPAddress] ¡ 4—ES route. ¡ ESI—ESI. ¡ IPAddressLength—IP address length. ¡ IPAddress—IP address of the originating router. · [5][EthernetTagID][IPAddressLength][IPAddress] ¡ 5—IP prefix advertisement route. ¡ EthernetTagID—Ethernet tag ID. ¡ IPAddressLength—IP address length. ¡ IPAddress—IP address of the originating router. · [6][EthernetTagID][Source Len][Source IP][Group Len][Group IP][Originator Len][Originator IP] ¡ 6—Selective multicast Ethernet tag route. ¡ EthernetTagID—Ethernet tag ID. ¡ Source Len—Length of the multicast source address. This field displays 0 if the multicast source is any (*, G). ¡ Source IP—Source IP address of IGMP membership reports. This field is not displayed if the multicast source is any (*, G). ¡ Group Len—Length of the multicast group address. ¡ Group IP—Multicast group address of IGMP membership reports. ¡ Originator Len—Length of the originating router's IP address. ¡ Originator IP—IP address of the originating router. · [7][ESI][EthernetTagID][Source Len][Source IP][Group Len][Group IP][Originator Len][Originator IP] ¡ 7—IGMP join synch route. ¡ ESI—ESI. ¡ EthernetTagID—Ethernet tag ID. ¡ Source Len—Length of the multicast source address. This field displays 0 if the multicast source is any (*, G). ¡ Source IP—Source IP address of IGMP membership reports. This field is not displayed if the multicast source is any (*, G). ¡ Group Len—Length of the multicast group address. ¡ Group IP—Multicast group address of IGMP membership reports. ¡ Originator Len—Length of the originating router's IP address. ¡ Originator IP—IP address of the originating router. · [8][ESI][EthernetTagID] [Source Len][Source IP][Group Len][Group IP][Originator Len][Originator IP][ [LeaveGroup Synchronization] ¡ 8—IGMP leave synch route. ¡ ESI—ESI. ¡ EthernetTagID—Ethernet tag ID. ¡ Source Len—Length of the multicast source address. This field displays 0 if the multicast source is any (*, G). ¡ Source IP—Source IP address of IGMP membership reports. This field is not displayed if the multicast source is any (*, G). ¡ Group Len—Length of the multicast group address. ¡ Group IP—Multicast group address of IGMP membership reports. ¡ Originator Len—Length of the originating router's IP address. ¡ Originator IP—IP address of the originating router. ¡ LeaveGroup Synchronization—Leave group synchronization sequence number. · [10]EthernetTagID][Source Len][Source IP][Group Len][Group IP]][Originator Len][Originator IP] ¡ 10—Selective provider multicast service interface route. ¡ EthernetTagID—Ethernet tag ID. ¡ Source Len—Length of the multicast source IP address. This field displays 0 if the multicast source is any (*, G). ¡ Source IP—Multicast source IP address. This field is not displayed if the multicast source is any (*, G). ¡ Group Len—Length of the multicast group IP address. ¡ Group IP—Multicast group IP address. ¡ Originator Len—Length of the originating router's IP address. ¡ Originator IP—IP address of the originating router. |
|
NextHop |
Next hop IP address. |
|
MED |
Multi-Exit Discriminator (MED) attribute. |
|
LocPrf |
Local precedence. |
|
OutLabel |
Outgoing label. |
|
PrefVal |
Preferred value. |
|
Path/Ogn |
AS_PATH and ORIGIN attributes of the route. |
|
Community |
Community attribute. |
|
Ext-Community |
Extended community attribute. |
# Display detailed information about BGP EVPN route [1][0001.0203.0405.0607.0809][5]/120 with RD 1.1.1.1:100.
<Sysname> display bgp l2vpn evpn route-distinguisher 1.1.1.1:100 [1][0001.0203.0405.0607.0809][5] 120
BGP local router ID: 172.16.250.133
Local AS number: 100
Route distinguisher: 1.1.1.1:100
Total number of routes: 1
Paths: 1 available, 1 best
BGP routing table information of [1][0001.0203.0405.0607.0809][5]/120:
From : 10.1.1.2 (192.168.56.17)
Rely nexthop : 10.1.1.2
Original nexthop: 10.1.1.2
OutLabel : NULL
Ext-Community : <RT: 1:2>, <Encapsulation Type: MPLS >, <ESI Label: Flag 0,
Label 1>, <EVPN Layer 2 Attributes: MTU 1500, Control Flags 0x2>
RxPathID : 0x0
TxPathID : 0x0
AS-path : 200
Origin : igp
Attribute value : MED 0, pref-val 0
State : valid, external, best
IP precedence : N/A
QoS local ID : N/A
Traffic index : N/A
EVPN route type : Ethernet auto-discovery route
ESI : 0001.0203.0405.0607.0809
Ethernet tag ID : 5
MPLS label : 10
Table 3 Command output
|
Field |
Description |
|
Paths |
Number of routes: · available—Number of valid routes. · best—Number of optimal routes. |
|
From |
IP address of the BGP peer that advertised the route. |
|
Rely nexthop |
Next hop after route recursion. If no next hop is found, this field displays not resolved. |
|
Original nexthop |
Original next hop of the route. If the route was obtained from a BGP update message, the original next hop is the next hop IP address in the message. |
|
OutLabel |
Outgoing label of the route. |
|
Ext-Community |
Extended community attributes: · RT. · Encapsulation Type. · ESI Label. · EVPN Layer 2 Attributes. |
|
RxPathID |
Add-Path ID value of the received route. This field is not supported by the BGP EVPN address family. |
|
TxPathID |
Add-Path ID value of the sent route. This field is not supported by the BGP EVPN address family. |
|
AS-path |
AS_PATH attribute of the route. This attribute records the ASs the route has passed and avoids routing loops. |
|
Origin |
Origin of the route: · igp—Originated in the AS. The origin of routes advertised by using the network command is IGP. · egp—Learned through EGP. · incomplete—Unknown origin. The origin of routes redistributed from IGP protocols is incomplete. |
|
Attribute value |
Attributes of the route: · MED—MED value for the destination network. · localpref—Local preference value. · pref-val—Preferred value. · pre—Route preference value. |
|
State |
Current state of the route: · valid. · internal. · external. · local. · synchronize. · best. · localredist—The route is redistributed from a local VPN instance or public instance. · bgp-rib-only—The route will not be flushed to the routing table. This field is displayed only in the detailed command output. |
|
IP precedence |
IP precedence in the range of 0 to 7. N/A indicates that the IP precedence is invalid. |
|
QoS local ID |
QoS local ID in the range of 1 to 4095. N/A indicates that the QoS local ID is invalid. |
|
Traffic index |
Traffic index in the range of 1 to 64. N/A indicates that the traffic index is invalid. |
|
MPLS label |
MPLS label. The current software version does not support this field. |
# Display detailed information about BGP EVPN route [2][5][48][0001-0203-0405][32][4.5.5.5]/136 with RD 1.1.1.1:100.
<Sysname> display bgp l2vpn evpn route-distinguisher 1.1.1.1:100 [2][5][48][0001-0203-0405][32][5.5.5.5] 136
BGP local router ID: 172.16.250.133
Local AS number: 100
Route distinguisher: 1.1.1.1:100
Total number of routes: 1
Paths: 1 available, 1 best
BGP routing table information of [2][5][48][0001-0203-0405][32][5.5.5.5]/136:
From : 10.1.1.2 (192.168.56.17)
Rely nexthop : 10.1.1.2
Original nexthop: 10.1.1.2
OutLabel : NULL
Ext-Community : <RT: 1:2>, <RT: 1:3>, <RT: 1:4>, <RT: 1:5>, <RT: 1:6>, <RT: 1:7
>, <Encapsulation Type: VXLAN>, <Router's Mac: 0006-0708-0910
>, <MAC Mobility: Flag 0, SeqNum 2>, <Default GateWay>
RxPathID : 0x0
TxPathID : 0x0
AS-path : 200
Origin : igp
Attribute value : MED 0, pref-val 0
State : valid, external, best
IP precedence : N/A
QoS local ID : N/A
Traffic index : N/A
EVPN route type : MAC/IP advertisement route
ESI : 0001.0203.0405.0607.0809
Ethernet tag ID : 5
MAC address : 0001-0203-0405
IP address : 5.5.5.5/32
MPLS label1 : 10
MPLS label2 : 100
Re-origination : Enable
Route distinguisher: 2.2.2.2:100
Total number of routes: 1
Paths: 1 available, 1 best
BGP routing table information of [2][5][48][0001-0203-0405][32][5.5.5.5]/136:
From : 10.1.1.2 (192.168.56.17)
Rely nexthop : 10.1.1.2
Original nexthop: 10.1.1.2
OutLabel : 0
Ext-Community : <RT: 1:2>, <RT: 1:3>, <RT: 1:4>, <RT: 1:5>, <RT: 1:6>, <RT: 1:7
>, <Encapsulation Type: VXLAN>, <Router's Mac: 0006-0708-0910
>, <MAC Mobility: Flag 0, SeqNum 2>, <Default GateWay>
RxPathID : 0x0
TxPathID : 0x0
AS-path : 200
Origin : igp
Attribute value : MED 0, pref-val 0
State : valid, external, best, reoriginated, remoteredist
IP precedence : N/A
QoS local ID : N/A
Traffic index : N/A
EVPN route type : MAC/IP advertisement route
ESI : 0001.0203.0405.0607.0809
Ethernet tag ID : 5
MAC address : 0001-0203-0405
IP address : 5.5.5.5/32
MPLS label1 : 200
MPLS label2 : 300
Table 4 Command output
|
Field |
Description |
|
Paths |
Number of routes: · available—Number of valid routes. · best—Number of optimal routes. |
|
From |
IP address of the BGP peer that advertised the route. |
|
Rely nexthop |
Next hop after route recursion. If no next hop is found, this field displays not resolved. |
|
Original nexthop |
Original next hop of the route. If the route was obtained from a BGP update message, the original next hop is the next hop IP address in the message. |
|
OutLabel |
Outgoing label of the route. |
|
Ext-Community |
Extended community attributes: · RT. · Encapsulation Type. · Router's Mac. · MAC Mobility—MAC mobility. ¡ Flag—Indicates whether the MAC address can move. A value of 1 indicates that the MAC address cannot move, and a value of 0 indicates that the MAC address can move. ¡ SeqNum—Identifies the most recent move of the MAC address. · Default GateWay—Route for the default gateway. · MicroSegment-id—Microsegment ID attribute: ¡ Type—Microsegment ID type. ¡ ID—Microsegment ID.
|
|
State |
Current state of the route: · valid. · internal. · external. · local. · synchronize. · best. · reoriginated—Reoriginated route. · remoteredist—MAC/IP advertisement route generated based on a remote route. |
|
MPLS label1 |
VXLAN ID used for Layer 2 forwarding. |
|
MPLS label2 |
L3 VXLAN ID used for Layer 3 forwarding. |
|
Re-origination |
State of route reorigination: · Enable. · Disable. |
# Display detailed information about BGP EVPN route [3][0][32][5.5.5.5]/80 with RD 1.1.1.1:100.
<Sysname> display bgp l2vpn evpn route-distinguisher 1.1.1.1:100 [3][0][32][4.5.5.5] 80
BGP local router ID: 172.16.250.133
Local AS number: 100
Route distinguisher: 1.1.1.1:100
Total number of routes: 1
Paths: 1 available, 1 best
BGP routing table information of [3][0][32][4.5.5.5]/80:
From : 10.1.1.2 (192.168.56.17)
Rely nexthop : 10.1.1.2
Original nexthop: 10.1.1.2
OutLabel : NULL
Ext-Community : <RT: 1:2>, <Encapsulation Type: VXLAN>
RxPathID : 0x0
TxPathID : 0x0
PMSI tunnel : Flag 0, TunnelType 6, Label 10, EndPointAddress 10.1.1.2
AS-path : 200
Origin : igp
Attribute value : MED 0,pref-val 0
State : valid, external, best
IP precedence : N/A
QoS local ID : N/A
Traffic index : N/A
EVPN route type : Inclusive multicast Ethernet tag route
Ethernet tag ID : 0
Origin address : 5.5.5.5/32
Re-origination : Enable
Route distinguisher: 2.2.2.2:100
Total number of routes: 1
Paths: 1 available, 1 best
BGP routing table information of [3][0][32][4.5.5.5]/80:
From : 10.1.1.2 (192.168.56.17)
Rely nexthop : 10.1.1.2
Original nexthop: 10.1.1.2
OutLabel : NULL
Ext-Community : <RT: 1:2>, <Encapsulation Type: VXLAN>
RxPathID : 0x0
TxPathID : 0x0
PMSI tunnel : Flag 0, TunnelType 6, Label 10, EndPointAddress 10.1.1.2
AS-path : 200
Origin : igp
Attribute value : MED 0,pref-val 0
State : valid, external, best, reoriginated, remoteredist
IP precedence : N/A
QoS local ID : N/A
Traffic index : N/A
EVPN route type : Inclusive multicast Ethernet tag route
Ethernet tag ID : 0
Origin address : 5.5.5.5/32
Table 5 Command output
|
Field |
Description |
|
Ext-Community |
Extended community attributes: · RT. · Encapsulation Type. |
|
State |
Route state: · valid—Valid route. · internal—Internal route. · external—External route. · local—Locally originated route. · synchronize—Synchronized route. · best—Optimal route. · reoriginated—Reoriginated route. · remoteredist—IMET route originated based on a remote route. |
|
PMSI tunnel |
P-Multicast Service Interface (PMSI) tunnel information: · Flag—This field is fixed at 0 in the current software version. · TunnelType—This field is fixed at 6 in the current software version, which represents a head-end replication tunnel. · Label—VXLAN ID. · EndPointAddress—Tunnel destination address. |
|
Origin address |
IP address of the originating router. |
|
Re-origination |
Status of route reorigination: · Enable. · Disable. |
# Display detailed information about BGP EVPN route [4][0000.0000.0000.0000.000a][32][4.5.5.5]/128 with RD 1.1.1.1:100.
<Sysname> display bgp l2vpn evpn route-distinguisher 1.1.1.1:100 [4][0000.0000.0000.0000.000a][32][4.5.5.5] 128
BGP local router ID: 172.16.250.133
Local AS number: 100
Route distinguisher: 1.1.1.1:100
Total number of routes: 1
Paths: 1 available, 1 best
BGP routing table information of [4][0000.0000.0000.0000.000a][32][4.5.5.5]/128:
From : 10.1.1.2 (192.168.56.17)
Rely nexthop : 10.1.1.2
Original nexthop: 10.1.1.2
OutLabel : NULL
Ext-Community : <RT: 1:2>, <Encapsulation Type: VXLAN>, <ES-Import RT: 1:1>
RxPathID : 0x0
TxPathID : 0x0
AS-path : 200
Origin : igp
Attribute value : MED 0,pref-val 0
State : valid, external, best
IP precedence : N/A
QoS local ID : N/A
Traffic index : N/A
EVPN route type : Ethernet segment route
ESI : 0000.0000.0000.0000.000a
Origin address : 4.5.5.5/32
Table 6 Command output
|
Field |
Description |
|
Ext-Community |
Extended community attributes: · RT. · Encapsulation Type. · ES-Import RT. |
|
Origin address |
IP address of the originating router. |
# Display detailed information about BGP EVPN route [5][10][32][4.5.5.5]/80 with RD 1.1.1.1:100.
<Sysname> display bgp l2vpn evpn route-distinguisher 1.1.1.1:100 [5][10][32][4.5.5.5] 80
BGP local router ID: 172.16.250.133
Local AS number: 100
Route distinguisher: 1.1.1.1:100
Total number of routes: 1
Paths: 1 available, 1 best
BGP routing table information of [5][10][32][4.5.5.5]/80:
From : 10.1.1.2 (192.168.56.17)
Rely nexthop : 10.1.1.2
Original nexthop: 10.1.1.2
OutLabel : NULL
Ext-Community : <RT: 1:2>, <Encapsulation Type: VXLAN>, <Router's Mac:
0006-0708-0910>
RxPathID : 0x0
TxPathID : 0x0
AS-path : 200
Origin : igp
Attribute value : MED 0,pref-val 0
State : valid, external, best
IP precedence : N/A
QoS local ID : N/A
Traffic index : N/A
EVPN route type : IP prefix advertisement route
ESI : 0000.0000.0000.0000.000a
Ethernet tag ID : 10
IP address : 4.5.5.5/32
Gateway address : 0.0.0.0
MPLS Label : 1
Re-origination : Enable
Route distinguisher: 2.2.2.2:100
Total number of routes: 1
Paths: 1 available, 1 best
BGP routing table information of [5][10][32][4.5.5.5]/80:
From : 10.1.1.2 (192.168.56.17)
Rely nexthop : 10.1.1.2
Original nexthop: 10.1.1.2
OutLabel : 0
Ext-Community : <RT: 1:2>, <Encapsulation Type: VXLAN>, <Router's Mac:
0006-0708-0910>
RxPathID : 0x0
TxPathID : 0x0
AS-path : 200
Origin : igp
Attribute value : MED 0,pref-val 0
State : valid, external, best, reoriginated, remoteredist
IP precedence : N/A
QoS local ID : N/A
Traffic index : N/A
EVPN route type : IP prefix advertisement route
ESI : 0000.0000.0000.0000.000a
Ethernet tag ID : 10
IP address : 4.5.5.5/32
Gateway address : 0.0.0.0
MPLS Label : 20
Table 7 Command output
|
Field |
Description |
|
Ext-Community |
Extended community attributes: · RT. · Encapsulation Type. · Router's Mac. |
|
State |
Current state of the route: · valid. · internal. · external. · local. · synchronize. · best. · reoriginated—Reoriginated route. · localredist—IP prefix advertisement route generated based on a local route. · remoteredist—IP prefix advertisement route generated based on a remote route. |
|
IP address |
IP address and prefix length. |
|
MPLS Label |
L3 VXLAN ID used for Layer 3 forwarding. |
|
Re-origination |
State of route reorigination: · Enable. · Disable. |
# Display detailed information about BGP EVPN route [6][0][32][10.1.1.1][32][224.224.224.224][32][192.168.3.1]/160 with RD 1.1.1.1:100.
<Sysname> display bgp l2vpn evpn route-distinguisher 1.1.1.1:100 [6][0][32][10.1.1.1][32][224.224.224.224][32][192.168.3.1] 160
BGP local router ID: 172.16.250.133
Local AS number: 100
Route distinguisher: 1.1.1.1:100
Total number of routes: 1
Paths: 1 available, 1 best
BGP routing table information of [6][0][32][10.1.1.1][32][224.224.224.224][32][192.168.3.1]/160:
From : 10.1.1.2
Rely nexthop : 10.1.1.2
Original nexthop: 10.1.1.2
OutLabel : NULL
Ext-Community : <RT: 1:2>, <Encapsulation Type: VXLAN>,
RxPathID : 0x0
TxPathID : 0x0
AS-path : 200
Origin : igp
Attribute value : MED 0,pref-val 0
State : valid, external, best
IP precedence : N/A
QoS local ID : N/A
Traffic index : N/A
EVPN route type : Selective multicast Ethernet tag route
Ethernet tag ID : 0
Source length : 32
Source address : 10.1.1.1
Group length : 32
Group address : 224.224.224.224
Origin address : 192.168.3.1
IGMP flags : v3, include
Table 8 Command output
|
Field |
Description |
|
Ext-Community |
Extended community attributes: · RT. · Encapsulation Type. |
|
Source length |
Length of the multicast source address. |
|
Source address |
Multicast source address. |
|
Group length |
Length of the multicast group address. |
|
Group address |
Multicast group address. |
|
Origin address |
IP address of the originating router. |
# Display detailed information about BGP EVPN route [7][00:00:00:00:00:00:00:00:00][0][32][10.1.1.1][32][224.224.224.224][32][192.168.3.1]/240 with RD 1.1.1.1:100.
<Sysname> display bgp l2vpn evpn route-distinguisher 1.1.1.1:100 [7][0000.0000.0000.0000.0000][0][32][10.1.1.1][16][224.224.224.224][32][192.168.3.1] 240
BGP local router ID: 172.16.250.133
Local AS number: 100
Route distinguisher: 1.1.1.1:100
Total number of routes: 1
Paths: 1 available, 1 best
BGP routing table information of [7][0000.0000.0000.0000.0000][0][32][10.1.1.1][32][224.224.224.224][32][192.168.3.1]/240:
From : 10.1.1.2
Rely nexthop : 10.1.1.2
Original nexthop: 10.1.1.2
OutLabel : NULL
Ext-Community : <RT: 1:2>, <Encapsulation Type: VXLAN>, < ESI-RT: 0:0>
RxPathID : 0x0
TxPathID : 0x0
AS-path : 200
Origin : igp
Attribute value : MED 0,pref-val 0
State : valid, external, best
IP precedence : N/A
QoS local ID : N/A
Traffic index : N/A
EVPN route type : IGMP join synch route
ESI : 0000.0000.0000.0000.0000
Ethernet tag ID : 0
Source length : 32
Source address : 10.1.1.1
Group length : 32
Group address : 224.224.224.224
Origin address : 192.168.3.1
IGMP flags : v3, include
Table 9 Command output
|
Field |
Description |
|
Ext-Community |
Extended community attributes: · RT. · Encapsulation Type. · EVI-RT—Route target associated with EVI. |
|
Source length |
Length of the multicast source address. |
|
Source address |
Multicast source address. |
|
Group length |
Length of the multicast group address. |
|
Group address |
Multicast group address. |
|
Origin address |
IP address of the originating router. |
# Display detailed information about BGP EVPN route [8][ 00:00:00:00:00:00:00:00:00][0][32][10.1.1.1][32][224.224.224.224][32][192.168.3.1][0]/272 with RD 1.1.1.1:100.
<Sysname> display bgp l2vpn evpn route-distinguisher 1.1.1.1:100 [8][0000.0000.0000.0000.0000][0][32][10.1.1.1][32][224.224.224.224][32][192.168.3.1][0] 272
BGP local router ID: 172.16.250.133
Local AS number: 100
Route distinguisher: 1.1.1.1:100
Total number of routes: 1
Paths: 1 available, 1 best
BGP routing table information of [8][0000.0000.0000.0000.0000] [0][32][10.1.1.1][32][224.224.224.224][32][192.168.3.1][0]/272:
From : 10.1.1.2
Rely nexthop : 10.1.1.2
Original nexthop: 10.1.1.2
OutLabel : NULL
Ext-Community : <RT: 1:2>, <Encapsulation Type: VXLAN>, < ESI-RT: 1:200>
RxPathID : 0x0
TxPathID : 0x0
AS-path : 200
Origin : igp
Attribute value : MED 0,pref-val 0
State : valid, external, best
IP precedence : N/A
QoS local ID : N/A
Traffic index : N/A
EVPN route type : IGMP leave synch route
ESI : 0000.0000.0000.0000.0000
Ethernet tag ID : 0
Source length : 32
Source address : 10.1.1.1
Group length : 32
Group address : 224.224.224.224
Origin address : 192.168.3.1
Leave group sync: 0
Max ResponseTime: 2500ms
Max ResponseCode: 25
IGMP flags : v3, include
|
Field |
Description |
|
Ext-Community |
Extended community attributes: · RT. · Encapsulation Type. · ESI-RT—Route target associated with the ESI. |
|
Source length |
Length of the multicast source address. |
|
Source address |
Multicast source address. |
|
Group length |
Length of the multicast group address. |
|
Group address |
Multicast group address. |
|
Origin address |
IP address of the originating router. |
|
Leave group sync |
Leave group synchronization sequence number. |
|
Max ResponseTime |
Maximum response time in milliseconds. |
|
Max ResponseCode |
Maximum response time in the received packet, in deciseconds. |
# Display detailed information about BGP EVPN route [10][0][32][7.21.0.7][32][225.0.0.0][32][2.2.2.2]/160 with RD 1.1.1.1:100.
<Sysname> display bgp l2vpn evpn route-distinguisher 1.1.1.1:100 [10][0][32][7.21.0.7][32][225.0.0.0][32][2.2.2.2]/160
BGP local router ID: 2.2.2.2
Local AS number: 200
Route distinguisher: 1.1.1.1:100(vpna)
Total number of routes: 1
Paths: 1 available, 1 best
BGP routing table information of [10][0][32][7.21.0.7][32][225.0.0.0][32][2.2.2.2]/160:
From : 1.1.1.1 (1.1.1.1)
Rely nexthop : 12.1.1.1
Original nexthop: 0.0.0.0
OutLabel : NULL
Ext-Community : <RT: 1:1>, <Encapsulation Type: VXLAN>
RxPathID : 0x0
TxPathID : 0x0
Org-validation : Valid
PMSI tunnel : Flag 0, TunnelType 3, Label 1000, Reserved 0, SenderAddr 2.2.2.2,
PGroupAddr 232.0.0.0
AS-path : (null)
Origin : igp
Attribute value : MED 0, localpref 100, pref-val 32768
State : valid, local, best
IP precedence : N/A
QoS local ID : N/A
Traffic index : N/A
EVPN route type : S-PMSI A-D route
Ethernet tag ID : 0
Source length : 32
Source address : 7.21.0.7
Group length : 32
Group address : 225.0.0.0
Origin address : 2.2.2.2
Table 11 Command output
|
Field |
Description |
|
Ext-Community |
Extended community attributes: · RT. · Encapsulation Type. |
|
EVPN route type |
S-PMSI (selective provider multicast service interface) route. |
|
Org-validation |
RPKI source AS check result: · Valid. · Not found. · Invalid. |
|
PMSI tunnel |
PMSI tunnel information: · Flag—Flag, which is fixed at 0 in the current software version. · TunnelType—Tunnel type, which is fixed at 6 (head-end replication tunnel) in the current software version. · Label—VXLAN ID. · Reserved—Reserved field. The value is fixed at 0 in the current software version. · SenderAddr—Sender address. · PgroupAddr—Multicast group address of the service provider. |
|
Source length |
Length of the multicast source address. |
|
Source address |
Multicast source address. |
|
Group length |
Length of the multicast group address. |
|
Group address |
Multicast group address. |
|
Origin address |
IP address of the originating router. |
# Display community attribute information about BGP EVPN route [4][00:00:00:00:00:00:00:00:00:0a][32][4.5.5.5]/128 with RD 1.1.1.1:100.
<Sysname> display bgp l2vpn evpn route-distinguisher 1.1.1.1:100 [4][00:00:00:00:00:00:00:00:00:0a][32][4.5.5.5] 128 community
BGP local router ID: 1.1.1.9
Local AS number: 100
Route distinguisher: 1.1.1.1:100
Total number of routes: 1
Paths: 1 available, 1 best
BGP routing table information of [4][00:00:00:00:00:00:00:00:00:0a][32][4.5.5.5]/128:
Community: no-export
# Display extended community attribute information about BGP EVPN route [4][00:00:00:00:00:00:00:00:00:0a][32][4.5.5.5]/128 with RD 1.1.1.1:100.
<Sysname> display bgp l2vpn evpn route-distinguisher 1.1.1.1:100 [4][00:00:00:00:00:00:00:00:00:0a][32][4.5.5.5] 128 ext-community
BGP local router ID: 1.1.1.9
Local AS number: 100
Route distinguisher: 1.1.1.1:100
Total number of routes: 1
Paths: 1 available, 1 best
BGP routing table information of [4][00:00:00:00:00:00:00:00:00:0a][32][4.5.5.5]/128:
Ext-Community: <RT 1:1>
# Display the AS path attribute of BGP EVPN route [4][00:00:00:00:00:00:00:00:00:0a][32][4.5.5.5]/128 with RD 1.1.1.1:100.
<Sysname> display bgp l2vpn evpn route-distinguisher 1.1.1.1:100 [4][00:00:00:00:00:00:00:00:00:0a][32][4.5.5.5] 128 as-path
BGP local router ID: 1.1.1.9
Local AS number: 100
Route distinguisher: 1.1.1.1:100
Total number of routes: 1
Paths: 1 available, 1 best
BGP routing table information of [4][00:00:00:00:00:00:00:00:00:0a][32][4.5.5.5]/128:
As-path: 80
# Display the cluster ID list attribute of BGP EVPN route [4][00:00:00:00:00:00:00:00:00:0a][32][4.5.5.5]/128 with RD 1.1.1.1:100.
<Sysname> display bgp l2vpn evpn route-distinguisher 1.1.1.1:100 [4][00:00:00:00:00:00:00:00:00:0a][32][4.5.5.5] 128 cluster-list
BGP local router ID: 1.1.1.9
Local AS number: 100
Route distinguisher: 1.1.1.1:100
Total number of routes: 1
Paths: 1 available, 1 best
BGP routing table information of [4][00:00:00:00:00:00:00:00:00:0a][32][4.5.5.5]/128:
Cluster list: 80
Table 12 Command output
|
Field |
Description |
|
Paths |
Numbers of available routes and optimal routes. |
|
Community |
Community attribute. |
|
Ext-Community |
Extended community attribute. |
|
As-path |
AS path attribute. |
|
Cluster-list |
Cluster ID list attribute. |
# Display statistics about the BGP EVPN routes with community attributes.
<Sysname> display bgp l2vpn evpn statistics community
Total number of routes from all PEs: 1
Route distinguisher: 100:1(vpn1)
Total number of routes: 4
display evpn auto-discovery
Use display evpn auto-discovery to display information about IPv4 peers that are automatically discovered through BGP.
Syntax
display evpn auto-discovery { { imet | mac-ip } [ peer ip-address] [ vsi vsi-name ] | macip-prefix [ nexthop next-hop ] [ count ] }
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
imet: Specifies IPv4 peers discovered through IMET routes.
mac-ip: Specifies IPv4 peers discovered through MAC/IP advertisement routes that do not carry L3 VXLAN IDs.
peer ip-address: Specifies a peer by its IPv4 address. If you do not specify this option, the command displays information about all automatically discovered IPv4 peers.
vsi vsi-name: Specifies a VSI by its name, a case-sensitive string of 1 to 31 characters. If you do not specify this option, the command displays IPv4 peer information for all VSIs.
macip-prefix: Specifies IPv4 peers discovered through MAC/IP advertisement routes that carry L3 VXLAN IDs or IP prefix advertisement routes that carry L3 VXLAN IDs.
nexthop next-hop: Specifies a next hop. If you do not specify this option, the command displays IPv4 peer information for all next hops.
count: Displays the number of IPv4 peers. If you do not specify this keyword, the command displays detailed IPv4 peer information.
Examples
# Display information about IPv4 peers discovered through IMET routes.
<Sysname> display evpn auto-discovery imet
Total number of automatically discovered peers: 2
VSI name: vpna
EVPN instance: -
RD PE_address Tunnel_address Tunnel mode VXLAN ID
1:10 2.2.2.2 2.2.2.2 VXLAN 10
2:100 3.3.3.3 3.3.3.3 VXLAN 10
Table 13 Command output
|
Field |
Description |
|
EVPN instance |
EVPN instance name. If the EVPN instance is created on a VSI, this field displays a hyphen (-). This field is supported only by EVPN VXLAN. |
|
PE_address |
Identifier of the remote VTEP on the VSI. |
|
Tunnel_address |
Tunnel destination IP address. |
|
Tunnel mode |
Tunnel mode: · VXLAN. · VXLAN-DCI. |
# Display information about IPv4 peers discovered through MAC/IP advertisement routes that do not carry L3 VXLAN IDs.
<Sysname> display evpn auto-discovery mac-ip
Total number of automatically discovered peers: 1
VSI name: vpna
EVPN instance: -
Destination IP Source IP VXLAN ID Tunnel mode Tunnel name
6.6.6.6 1.1.1.9 100 VXLAN Tunnel1
Table 14 Command output
|
Field |
Description |
|
EVPN instance |
EVPN instance name. If the EVPN instance is created on a VSI, this field displays a hyphen (-). This field is supported only by EVPN VXLAN. |
|
Destination IP |
Tunnel destination IP address. |
|
Source IP |
Tunnel source IP address. |
|
Tunnel mode |
Tunnel mode: VXLAN. |
# Display information about IPv4 peers discovered through MAC/IP advertisement routes that carry L3 VXLAN IDs or IP prefix advertisement routes that carry L3 VXLAN IDs.
<Sysname> display evpn auto-discovery macip-prefix
Destination IP Source IP L3VNI Tunnel mode Outgoing interface
1.1.1.1 3.3.3.3 200 VXLAN Vsi-interface3
2.2.2.2 3.3.3.3 200 VXLAN Vsi-interface3
# Display the total number of IPv4 peers discovered through MAC/IP advertisement routes that carry L3 VXLAN IDs or IP prefix advertisement routes that carry L3 VXLAN IDs.
<Sysname> display evpn auto-discovery macip-prefix count
Total number of entries: 2
Table 15 Command output
|
Field |
Description |
|
Destination IP |
Tunnel destination IP address. |
|
Source IP |
Tunnel source IP address. |
|
L3VNI |
L3 VXLAN ID used for Layer 3 forwarding. |
|
Tunnel mode |
VXLAN tunnel mode: · VXLAN. · VXLAN-DCI. |
|
Outgoing interface |
VSI interface associated with the L3 VXLAN ID. |
display evpn m-lag synchronized-mac
Use display evpn m-lag synchronized-mac to display M-LAG-synchronized MAC address entries.
Syntax
display evpn m-lag synchronized-mac [ vsi vsi-name ] [ count ]
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.
count: Displays the number of MAC address entries that match the command. If you do not specify this keyword, the command displays detailed information about MAC address entries.
Usage guidelines
To ensure VM reachability information consistency in an M-LAG system, M-LAG member devices synchronize MAC address entries and ARP packets with each other through a peer link. This command displays the synchronized MAC address entries from an M-LAG peer.
Examples
# Display all M-LAG-synchronized MAC address entries.
<Sysname> display evpn m-lag synchronized-mac
VSI name: bbb
MAC address Link ID Interface
0000-0000-000a 1 BAGG10
0000-0000-0009 0 Tunnel1
# Display the total number of M-LAG-synchronized MAC address entries.
<Sysname> display evpn m-lag synchronized-mac count
Total number of entries: 2
Table 16 Command output
|
Field |
Description |
|
Link ID |
AC's or VXLAN tunnel's link ID on a VSI. |
|
Interface |
Outgoing interface name. |
display evpn es
Use display evpn es to display EVPN ES information.
Syntax
display evpn es { local [ vsi vsi-name ] [ esi esi-id ] [ verbose ] | remote [ vsi vsi-name ] [ esi esi-id ] [ nexthop next-hop ] }
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
local: Specifies local ES information.
vsi vsi-name: Specifies a VSI by its name, a case-sensitive string of 1 to 31 characters. If you do not specify this option, the command displays ES information about all VSIs.
esi esi-id: Specifies an ES by its ESI in XXXX.XXXX.XXXX.XXXX.XXXX format. Each X represents a hexadecimal digit. The ESI must begin with 00 and cannot be all zeros. If you do not specify this option, the command displays information about all ESs.
verbose: Displays detailed ES information. If you do not specify this keyword, the command displays brief ES information.
remote: Specifies remote ES information.
nexthop next-hop: Specifies a next hop. If you do not specify this option, the command displays ES information received from all next hops.
Examples
# Display brief information about local ESs of VSI vpna.
<Sysname> display evpn es local vsi vpna
Redundancy mode: A – All-active, S – Single-active
VSI name : vpna
ESI Tag ID DF address Mode State ESI label
0001.0002.0002.0002.0002 - 1.1.1.1 A Up 1000
0001.0002.0003.0004.0005 - 1.1.1.1 A Up 1001
0003.0003.0003.0003.0003 2 2.2.2.2 A Up 1002
# Display brief information about all local ESs.
<Sysname> display evpn es local
Redundancy mode: A – All-active, S – Single-active
VSI name : v1
EVPN instance: -
ESI Tag ID DF address Mode State ESI label
0003.0003.0003.0003.0003 1 1.1.1.1 A Up -
0003.0003.0003.0003.0003 3 3.3.3.3 A Up -
0003.0003.0003.0003.0003 10 2.2.2.2 A Up -
VSI name : vpna
ESI Tag ID DF address Mode State ESI label
0001.0002.0002.0002.0002 - 1.1.1.1 A Up 1000
0001.0002.0003.0004.0005 - 1.1.1.1 A Up 1001
0003.0003.0003.0003.0003 2 2.2.2.2 A Up 1002
Table 17 Command output
|
Field |
Description |
|
EVPN instance |
EVPN instance name. If the EVPN instance is created on a VSI, this field displays a hyphen (-). This field is supported only by EVPN VXLAN. |
|
Tag ID |
Ethernet tag ID. |
|
DF address |
Router ID of the VTEP elected as the DF. |
|
Mode |
Redundancy mode of the ES: · A—All-active mode. · S—Single-active mode. |
|
State |
State of the ES: · Up. · Down. |
|
ESI label |
ESI label. For EVPN VXLAN, this field is invalid and displays a hyphen (-). |
# Display detailed information about all local ESs.
<Sysname> display evpn es local verbose
VSI name : v1
ESI : 0003.0003.0003.0003.0003
Interface : Ten-GigabitEthernet1/0/1
Redundancy mode : All-active
State : Up
ACs :
Link ID Service instance ID Tag ID DF address ESI label
0 1 1 1.1.1.1 1000
1 3 3 3.3.3.3 1001
2 10 10 2.2.2.2 1002
VSI name : vpna
EVPN instance: -
ESI : 0001.0002.0002.0002.0002
Interface : Ten-GigabitEthernet1/0/2
Redundancy mode : All-active
State : Up
ACs :
Link ID Service instance ID Tag ID DF address ESI label
1 - - 1.1.1.1 -
ESI : 0001.0002.0003.0004.0005
Interface : Ten-GigabitEthernet1/0/3
Redundancy mode : All-active
State : Up
ACs :
Link ID Service instance ID Tag ID DF address ESI label
0 - - 1.1.1.1 -
ESI : 0003.0003.0003.0003.0003
Interface : Ten-GigabitEthernet1/0/4
Redundancy mode : All-active
State : Up
ACs :
Link ID Service instance ID Tag ID DF address ESI label
2 2 2 2.2.2.2 -
Table 18 Command output
|
Field |
Description |
|
EVPN instance |
EVPN instance name. If the EVPN instance is created on a VSI, this field displays a hyphen (-). This field is supported only by EVPN VXLAN. |
|
AC |
AC name. This field displays a Layer 3 interface name or a Layer 2 interface name and an Ethernet service instance name. |
|
Redundancy mode |
Redundancy mode of the ES: · All-active. · Single-active. |
|
State |
State of the ES: · Up. · Down. If the ES is not manually assigned an ESI, a hyphen (-) is displayed. |
|
ACs |
The VSI's ACs on the ES. |
|
Link ID |
The AC's link ID on the VSI. |
|
Service instance ID |
Ethernet service instance ID. |
|
Tag ID |
Ethernet tag ID. |
|
DF address |
Router ID of the VTEP or PE elected as the DF. |
|
ESI label |
ESI label. For EVPN VXLAN, this field is invalid and displays a hyphen (-). |
# Display information about remote ESs of all VSIs.
<Sysname> display evpn es remote
Control Flags: P – Primary, B – Backup, C - Control word
VSI name : v1
EVPN instance: -
ESI : 0003.0003.0003.0003.0003
A-D per ES routes :
Peer IP Remote Redundancy mode
1.1.1.1 All-active
A-D per EVI routes :
Tag ID Peer IP
1 1.1.1.1
3 1.1.1.1
10 1.1.1.1
VSI name : vpna
ESI : 0001.0000.0000.0000.0001
Ethernet segment routes :
1.1.1.1
3.3.3.3
A-D per ES routes :
Peer IP Remote Redundancy mode
1.1.1.1 All-active
3.3.3.3 All-active
A-D per EVI routes :
Tag ID Peer IP
- 1.1.1.1
- 3.3.3.3
ESI : 0001.0002.0003.0004.0005
Ethernet segment routes :
1.1.1.1
A-D per ES routes :
Peer IP Remote Redundancy mode
1.1.1.1 All-active
A-D per EVI routes :
Tag ID Peer IP
- 1.1.1.1
# Display remote ES information received from next hop 3.3.3.3 for VSI vpna.
<Sysname> display evpn es remote vsi vpna nexthop 3.3.3.3
Control Flags: P - Primary, B - Backup, C - Control word
VSI name : vpna
EVPN instance: -
ESI : 0001.0000.0000.0000.0001
Ethernet segment routes :
1.1.1.1
A-D per ES routes :
Peer IP Remote Redundancy mode
1.1.1.1 All-active
A-D per EVI routes :
Tag ID Peer IP
- 3.3.3.3
Table 19 Command output
|
Field |
Description |
|
EVPN instance |
EVPN instance name. If the EVPN instance is created on a VSI, this field displays a hyphen (-). This field is supported only by EVPN VXLAN. |
|
Redundancy mode |
Redundancy mode of the ES: · All-active. · Single-active. |
|
Ethernet segment routes |
Ethernet segment routes for the ES. |
|
A-D per ES routes |
A-D per Ethernet segment routes for the ES. |
|
A-D per EVI routes |
A-D per EVI routes for the ES. |
|
Tag ID |
Ethernet tag ID. |
|
Peer IP |
IP address of the remote peer. |
|
Remote Redundancy mode |
Redundancy mode of the remote ES: · All-active. · Single-active. |
|
Control Flags |
Layer 2 attributes control flags of the remote route: · P—Primary flag. · B—Backup flag. · C—Control word flag. |
display evpn instance vxlan
Use display evpn instance vxlan to display EVPN instance information.
Syntax
display evpn instance [ name instance-name | vsi vsi-name ] vxlan
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
name instance-name: Specifies an EVPN instance by its name, a case-sensitive string of 1 to 31 characters.
vsi vsi-name: Specifies a VSI by its name, a case-sensitive string of 1 to 31 characters.
Usage guidelines
This command is supported only by EVPN VXLAN.
If you do not specify any parameters, this command displays information about all EVPN instances.
Examples
# Display information about all EVPN instances.
<Sysname> display evpn instance vxlan
EVPN instance : evpn1
Route distinguisher : 1:1
Export VPN targets : 1:1
Import VPN targets : 1:1
ARP-based MAC learning : Disabled
ND-based MAC learning : Disabled
ARP advertising : Disabled
MAC advertising : Disabled
ND advertising : Disabled
VSI binding list:
VSI name VSI tag ID
vpna 3
vpnb 5
EVPN instance : - (created on VSI vpnc)
Route distinguisher : 1:1
Export VPN targets : 1:1
Import VPN targets : 1:1
ARP-based MAC learning : Disabled
ND-based MAC learning : Disabled
ARP advertising : Disabled
MAC advertising : Disabled
ND advertising : Disabled
Table 20 Command output
|
Field |
Description |
|
EVPN instance |
EVPN instance name in one of the following formats: · instance-name—Name of an EVPN instance created in system view. · - (created on VSI vsi-name)—Name of an EVPN instance created on a VSI. |
|
ARP-based MAC learning |
Whether EVPN is enabled to learn MAC addresses from ARP information: · Enabled. · Disabled. |
|
ND-based MAC learning |
Whether EVPN is enabled to learn MAC addresses from ND information: · Enabled. · Disabled. |
|
ARP advertising |
Whether ARP information advertisement is enabled: · Enabled. · Disabled. |
|
MAC advertising |
Whether MAC address advertisement is enabled: · Enabled. · Disabled. |
|
ND advertising |
Whether ND information advertisement is enabled: · Enabled. · Disabled. |
|
VSI binding list |
VSIs bound to the EVPN instance. |
display evpn ipv6 auto-discovery
Use display evpn ipv6 auto-discovery to display information about IPv6 peers that are automatically discovered through BGP.
Syntax
display evpn ipv6 auto-discovery { imet [ peer ipv6-address ] [ vsi vsi-name ] | mac-ip | macip-prefix [ nexthop next-hop ] [ count ] }
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
imet: Specifies IPv6 peers discovered through IMET routes.
peer ipv6-address: Specifies a peer by its IPv6 address. If you do not specify this option, the command displays information about all automatically discovered IPv6 peers.
vsi vsi-name: Specifies a VSI by its name, a case-sensitive string of 1 to 31 characters. If you do not specify this option, the command displays IPv6 peer information for all VSIs.
mac-ip: Specifies IPv6 peers discovered through MAC/IP advertisement routes that do not carry L3 VXLAN IDs.
macip-prefix: Specifies IPv6 peers discovered through MAC/IP advertisement routes that carry L3 VXLAN IDs or IP prefix advertisement routes that carry L3 VXLAN IDs.
nexthop next-hop: Specifies a next hop. If you do not specify this option, the command displays IPv6 peer information for all next hops.
count: Displays the number of IPv6 peers. If you do not specify this keyword, the command displays detailed IPv6 peer information.
Examples
# Display information about IPv6 peers discovered through IMET routes.
<Sysname> display evpn ipv6 auto-discovery imet
Total number of automatically discovered peers: 2
VSI name: vpna
RD : 1:10
PE address : 11::8
Tunnel address : 11::8
Tunnel mode : VXLAN
VXLAN ID : 10
RD : 2:100
PE address : 12::8
Tunnel address : 12::8
Tunnel mode : VXLAN
VXLAN ID : 10
Table 21 Command output
|
Field |
Description |
|
PE address |
Identifier of the remote VTEP on the VSI. |
|
Tunnel address |
Tunnel destination IP address. |
|
Tunnel mode |
Tunnel mode: · VXLAN. · VXLAN-DCI. |
# Display information about IPv6 peers discovered through MAC/IP advertisement routes that do not carry L3 VXLAN IDs.
<Sysname> display evpn ipv6 auto-discovery mac-ip
Total number of automatically discovered peers: 1
VSI name: vpna
Destination IP : 6:6::6:8
Source IP : 1:1::1:7
VXLAN ID : 100
Tunnel mode : VXLAN
Tunnel name : Tunnel1
Table 22 Command output
|
Field |
Description |
|
Destination IP |
Tunnel destination IP address. |
|
Source IP |
Tunnel source IP address. |
|
Tunnel mode |
Tunnel mode. VXLAN represents a VXLAN tunnel. |
# Display information about IPv6 peers discovered through MAC/IP advertisement routes that carry L3 VXLAN IDs or IP prefix advertisement routes that carry L3 VXLAN IDs.
<Sysname> display evpn ipv6 auto-discovery macip-prefix
Destination IP : 6:6::6:8
Source IP : 1:1::1:7
L3VNI : 100
Tunnel mode : VXLAN
OutInterface : Vsi-interface3
# Display the total number of IPv6 peers discovered through MAC/IP advertisement routes that carry L3 VXLAN IDs or IP prefix advertisement routes that carry L3 VXLAN IDs.
<Sysname> display evpn ipv6 auto-discovery macip-prefix count
Total number of entries: 1
Table 23 Command output
|
Field |
Description |
|
Destination IP |
Tunnel destination IP address. |
|
Source IP |
Tunnel source IP address. |
|
L3VNI |
L3 VXLAN ID used for Layer 3 forwarding. |
|
Tunnel mode |
Tunnel mode: · VXLAN. · VXLAN-DCI. |
|
OutInterface |
VSI interface associated with the L3 VXLAN ID. |
display evpn ipv6 route mac
Use display evpn ipv6 route mac to display IPv6 EVPN MAC address entries.
Syntax
display evpn ipv6 route mac [ local | remote ] [ vsi vsi-name ] [ count ]
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
local: Specifies local MAC address entries.
remote: Specifies remote MAC address entries.
vsi vsi-name: Specifies a VSI by its name, a case-sensitive string of 1 to 31 characters. If you do not specify this option, the command displays MAC address entries for all VSIs.
count: Displays the number of MAC address entries. If you do not specify this keyword, the command displays detailed information about MAC address entries.
Usage guidelines
If you do not specify the local or remote keyword, this command displays both local and remote IPv6 EVPN MAC address entries.
Examples
# Display all IPv6 EVPN MAC address entries.
<Sysname> display evpn ipv6 route mac
Flags: D - Dynamic B - BGP L - Local active
G - Gateway S - Static M - Mapping I - Invalid
A - MAC-authentication
VSI name: vpna
MAC address Link ID/Name Flags Nexthop
0000-0000-000a 1 DL -
0000-0000-0009 Tunnel1 B 1::2
0001-2000-4000 - BI 1::3
# Display the total number of IPv6 EVPN MAC address entries.
<Sysname> display evpn ipv6 route mac count
Total number of entries: 3
Table 24 Command output
|
Field |
Description |
|
Link ID/Name |
For a local MAC address, this field displays the AC's link ID on the VSI. For a remote MAC address, this field displays the tunnel interface name. |
|
Flags |
MAC address entry type: · D—The entry is dynamically learned. · B—The entry is learned from BGP EVPN routes. · L—The local entry is active. If this flag is not set and the B flag is set, the entry learned from BGP EVPN routes is active. · G—The entry for the gateway is active. · S—The static entry is active. · M—The entry from a remote VXLAN mapped to a local VXLAN is active. · I—The entry is invalid. Possible reasons: ¡ The VSI has been administratively shut down by using the shutdown command. ¡ The outgoing tunnel interface does not exist. · A—The entry was learned by MAC authentication. |
|
Nexthop |
IP address of the remote VTEP. If the MAC address entry is a local entry, a hyphen (-) is displayed. |
display evpn route arp
Use display evpn route arp to display EVPN ARP entries.
Syntax
display evpn route arp [ local | remote ] [ public-instance | vpn-instance vpn-instance-name ] [ count ]
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
local: Specifies local ARP entries.
remote: Specifies remote ARP entries.
public-instance: Specifies the public instance.
vpn-instance vpn-instance-name: Specifies an MPLS L3VPN instance by its name, a case-sensitive string of 1 to 31 characters.
count: Displays the number of ARP entries. If you do not specify this keyword, the command displays detailed information about ARP entries.
Usage guidelines
If you do not specify the local or remote keyword, this command displays both local and remote EVPN ARP entries.
If you do not specify the public-instance keyword or the vpn-instance vpn-instance-name option, this command displays EVPN ARP entries for the public instance and all VPN instances.
Examples
# Display all EVPN ARP entries.
<Sysname> display evpn route arp
Flags: D - Dynamic B - BGP L - Local active
G - Gateway S - Static M - Mapping I - Invalid
VPN instance: vpn1 Interface: Vsi-interface1
IP address MAC address Router MAC VSI index Flags
10.1.1.1 0003-0003-0003 a0ce-7e40-0400 0 GL
10.1.1.11 0001-0001-0001 a0ce-7e40-0400 0 DL
10.1.1.12 0001-0001-0011 a0ce-7e41-0401 0 B
10.1.1.13 0001-0001-0021 a0ce-7e42-0402 0 B
10.1.1.101 0001-0011-0101 a0ce-7e40-0400 0 SL
10.1.1.102 0001-0011-0102 0011-9999-0000 0 BS
Public instance Interface: Vsi-interface2
IP address MAC address Router MAC VSI index Flags
11.1.1.1 0033-0033-0033 a0ce-7e40-0400 0 GL
11.1.1.11 0011-0011-0011 a0ce-7e40-0400 0 DL
# Display the total number of EVPN ARP entries.
<Sysname> display evpn route arp count
Total number of entries: 8
Table 25 Command output
|
Field |
Description |
|
Interface |
VSI interface. |
|
Flags |
ARP entry type: · D—The entry is dynamically learned. · B—The entry is learned from BGP EVPN routes. · L—The local entry is active. If this flag is not set and the B flag is set, the entry learned from BGP EVPN routes is active. · G—The entry for the gateway is active. · S—The static entry is active. · M—The entry from a remote VXLAN mapped to a local VXLAN is active. · I—The entry is invalid. Possible reasons: ¡ The VSI has been administratively shut down by using the shutdown command. ¡ The outgoing tunnel interface does not exist. |
display evpn route arp suppression
Use display evpn route arp suppression to display EVPN ARP flood suppression entries.
Syntax
display evpn route arp suppression [ local | remote ] [ vsi vsi-name ] [ count ]
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
local: Specifies local ARP flood suppression entries.
remote: Specifies remote ARP flood suppression entries.
vsi vsi-name: Specifies a VSI by its name, a case-sensitive string of 1 to 31 characters. If you do not specify this option, the command displays ARP flood suppression entries for all VSIs.
count: Displays the number of ARP flood suppression entries. If you do not specify this keyword, the command displays detailed information about ARP flood suppression entries.
Usage guidelines
If you do not specify the local or remote keyword, this command displays both local and remote EVPN ARP flood suppression entries.
Examples
# Display all EVPN ARP flood suppression entries.
<Sysname> display evpn route arp suppression
Flags: D - Dynamic B - BGP L - Local active
G - Gateway S - Static M - Mapping I - Invalid
VSI name: vpna
EVPN instance: -
IP address MAC address Flags Encap
10.1.1.12 0002-0002-0002 B VXLAN
10.1.1.13 0002-0002-0002 BI VXLAN
10.1.1.101 0001-0011-0101 BS VXLAN
10.1.1.102 0001-0011-0102 DL VXLAN
# Display the total number of ARP flood suppression entries.
<Sysname> display evpn route arp suppression count
Total number of entries: 4
Table 26 Command output
|
Field |
Description |
|
EVPN instance |
EVPN instance name. If the EVPN instance is created on a VSI, this field displays a hyphen (-). This field is supported only by EVPN VXLAN. |
|
Flags |
ARP flood suppression entry type: · D—The entry is dynamically learned. · B—The entry is learned from BGP EVPN routes. · L—The local entry is active. If this flag is not set and the B flag is set, the entry learned from BGP EVPN routes is active. · G—The entry for the gateway is active. · S—The static entry is active. · M—The entry from a remote VXLAN mapped to a local VXLAN is active. · I—The entry is invalid. Possible reasons: ¡ The VSI has been administratively shut down by using the shutdown command. ¡ The outgoing tunnel interface does not exist. |
|
Encap |
Packet encapsulation type: VXLAN. |
display evpn route arp-mobility
Use display evpn route arp-mobility to display EVPN ARP mobility information.
Syntax
display evpn route arp-mobility [ public-instance | vpn-instance vpn-instance-name ] [ ip ip-address ]
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
public-instance: Specifies the public instance.
vpn-instance vpn-instance-name: Specifies an MPLS L3VPN instance by its name, a case-sensitive string of 1 to 31 characters.
ip ip-address: Specifies an IPv4 address in dotted decimal notation. If you do not specify an IP address, this command displays ARP mobility information about all IP addresses of the public instance or MPLS L3VPN instance.
Usage guidelines
If you do not specify any parameters, this command displays ARP mobility information about the public instance and all VPN instances.
Examples
# Display EVPN ARP mobility information about the public instance and all VPN instances.
<Sysname> display evpn route arp-mobility
Flags: S - Suppressed, N - Not suppressed
Suppression threshold: 5
Detection cycle : 180s
Suppression time : Permanent
VPN instance : vpn1
Interface : Vsi-interface1
IP address Move count Moved from Flags Suppressed at
192.168.156.120 5 XGE1/0/1 S 17:24:33 2018/04/01
192.168.56.20 - - N -
Public instance
Interface : Vsi-interface2
IP address Move count Moved from Flags Suppressed at
192.168.156.120 5 XGE1/0/2 S 17:24:33 2018/04/01
192.168.56.20 5 2.2.2.2 S 17:24:33 2018/04/01
Table 27 Command output
|
Field |
Description |
|
Suppression threshold |
ARP mobility suppression threshold, which is the number of ARP moves from the local site to a remote site. If ARP mobility suppression is disabled, this field displays a hyphen (-). |
|
Detection cycle |
ARP mobility detection cycle in seconds. If ARP mobility suppression is disabled, this field displays a hyphen (-). |
|
Suppression time |
Suppression time in seconds. If this field displays Permanent, ARP moves are suppressed permanently. If ARP mobility suppression is disabled, this field displays a hyphen (-). |
|
Move count |
Number of ARP moves from the interface to other interfaces. |
|
Moved from |
Source interface or source VTEP/PE IP address for the ARP move. |
|
Flags |
Whether the ARP move was suppressed: · S—Suppressed. · N—Not suppressed. |
|
Suppressed at |
Time when the ARP move was suppressed. |
Related commands
evpn route arp-mobility suppression
display evpn route { igmp-js | igmp-ls | smet }
Use display evpn route { igmp-js | igmp-ls | smet } to display EVPN multicast routes.
Syntax
display evpn route { igmp-js | igmp-ls | smet } [ local | remote ] [ vsi vsi-name ] [ count ]
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
igmp-js: Specifies IGMP join synch routes.
igmp-ls: Specifies IGMP leave synch routes.
smet: Specifies SMET routes.
local: Specifies local multicast routes.
remote: Specifies remote multicast routes.
vsi vsi-name: Specifies a VSI by its name, a case-sensitive string of 1 to 31 characters. If you do not specify this option, the command displays multicast routes for all VSIs.
count: Displays the number of multicast routes. If you do not specify this keyword, the command displays detailed information about multicast routes.
Usage guidelines
If you do not specify the local or remote keyword, this command displays both local and remote multicast routes.
Examples
# Display all SMET routes.
<Sysname> display evpn route smet
R: re-originate to other vsi
VSI name: bbb
Source address : 192.164.1.1
Group address : 226.1.1.1
Local version : v3(I)
Re-originate : From vsi 1 to vsi 2
Peers :
Nexthop Tunnel name Link ID Remote version ReOrig flag
1.1.1.1 Tunnel0 0x5000000 v3(E) R
ACs :
AC Link ID Flags
XGE1/0/1 srv1 0 Sync
Table 28 Command output
|
Field |
Description |
|
Source address |
Multicast source IP address. |
|
Group address |
Multicast group IP address. |
|
Local version |
Local IGMP version. IGMPv3 includes the v3(I) and v3(E) subversions. |
|
Re-originate |
Reoriginated local SMET route from VSI vsi-index1 to VSI vsi-index2. |
|
Peers |
Remote peers in SMET routes. |
|
Nexthop |
Remote VTEP IP address. |
|
Tunnel name |
Remote tunnel interface name. |
|
Link ID |
Link ID of the VXLAN tunnel. |
|
Remote version |
Remote IGMP version. IGMPv3 includes the v3(I) and v3(E) subversions. |
|
ReOrig flag |
Reoriginated remote SMET route flag: · R—The remote SMET route is reoriginated. · -—The remote SMET route is not reoriginated. |
|
ACs |
Local ACs. |
|
AC |
AC name. This field displays a Layer 3 interface name or a Layer 2 interface name and an Ethernet service instance name. |
|
Link ID |
The AC's link ID. |
|
Flags |
Flags: · Local—Local AC. · Sync—AC synchronized from another VTEP. |
# Display all local and remote IGMP join synch routes.
<Sysname> display evpn route igmp-js
VSI name: aaa
Source address : 192.164.1.1
Group address : 227.1.1.1
Remote version : v3(I)
ESI : 0000.0002.0003.0004.0005
Ethernet tag ID : 20
AC : XGE1/0/1 srv2
Peers : 156.1.1.2, 156.1.1.3, 156.1.1.4
VSI name: bbb
Source address : 192.164.1.3
Group address : 227.1.1.2
Local version : v2
Remote version : v3(I)
ESI : 0000.0002.0003.0004.0005
Ethernet tag ID : 20
AC : XGE1/0/1 srv2
Peers : 156.1.1.2, 156.1.1.3, 156.1.1.4
Table 29 Command output
|
Field |
Description |
|
Source address |
Multicast source IP address. |
|
Group address |
Multicast group IP address. |
|
Local version |
Local IGMP version. IGMPv3 includes the v3(I) and v3(E) subversions. |
|
Remote version |
Remote IGMP version. IGMPv3 includes the v3(I) and v3(E) subversions. |
|
Remote VTEP IP addresses. |
# Display all local and remote IGMP leave synch routes.
<Sysname> display evpn route igmp-ls
VSI name: aaa
Source address : 192.164.1.1
Group address : 228.1.1.1
Local version : -
Remote version : v3(I)
ESI : 0000.0002.0003.0004.0003
Ethernet tag ID : 10
AC : XGE1/0/1 srv3
Peers : 156.1.1.6, 156.1.1.3, 156.1.1.2
Table 30 Command output
|
Field |
Description |
|
Source address |
Multicast source IP address. |
|
Group address |
Multicast group IP address. |
|
Local version |
Local IGMP version. IGMPv3 includes the v3(I) and v3(E) subversions. |
|
Remote version |
Remote IGMP version. IGMPv3 includes the v3(I) and v3(E) subversions. |
|
Peers |
Remote VTEP IP addresses. |
# Display the total number of IGMP join synch routes.
<Sysname> display evpn route igmp-js count
Total number of entries: 2
display evpn route mac
Use display evpn route mac to display IPv4 EVPN MAC address entries.
Syntax
display evpn route mac [ local | remote ] [ vsi vsi-name ] [ count ]
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
local: Specifies local MAC address entries.
remote: Specifies remote MAC address entries.
vsi vsi-name: Specifies a VSI by its name, a case-sensitive string of 1 to 31 characters. If you do not specify this option, the command displays MAC address entries for all VSIs.
count: Displays the number of MAC address entries. If you do not specify this keyword, the command displays detailed information about MAC address entries.
Usage guidelines
If you do not specify the mpls or vxlan keyword, this command displays IPv4 EVPN MAC address entries for both EVPN VPLS and EVPN VXLAN.
If you do not specify the local or remote keyword, this command displays both local and remote IPv4 EVPN MAC address entries.
Examples
# Display all IPv4 EVPN MAC address entries.
<Sysname> display evpn route mac
Flags: D - Dynamic B - BGP L - Local active
G - Gateway S - Static M - Mapping I - Invalid
A - MAC-authentication P – Multiport/Multicast
VSI name: bbb
EVPN instance: -
MAC address Link ID/Name Flags Encap Next hop
0000-0000-000a 1 DL VXLAN -
0000-0000-0009 Tunnel1 B VXLAN 2.2.2.2
0001-2000-4000 - BI VXLAN 3.3.3.3
# Display the total number of IPv4 EVPN MAC address entries.
<Sysname> display evpn route mac count
Total number of entries: 3
Table 31 Command output
|
Field |
Description |
|
EVPN instance |
EVPN instance name. If the EVPN instance is created on a VSI, this field displays a hyphen (-). This field is supported only by EVPN VXLAN. |
|
Link ID/Name |
For a local MAC address, this field displays the AC's link ID on the VSI. For a remote MAC address, this field displays the tunnel interface name. |
|
Flags |
MAC address entry type: · D—The entry is dynamically learned. · B—The entry is learned from BGP EVPN routes. · L—The local entry is active. If this flag is not set and the B flag is set, the entry learned from BGP EVPN routes is active. · G—The entry for the gateway is active. · S—The static entry is active. · M—The entry from a remote VXLAN mapped to a local VXLAN is active. · I—The entry is invalid. Possible reasons: ¡ The VSI has been administratively shut down by using the shutdown command. ¡ The outgoing tunnel interface does not exist. · A—The entry was learned by MAC authentication. · P—The entry is a multiport MAC address entry or multicast MAC address entry. |
|
Encap |
Packet encapsulation type: · MPLS. · VXLAN. |
|
Next hop |
IP address of the remote VTEP or PE. If the MAC address entry is a local entry, a hyphen (-) is displayed. |
display evpn route mac-mobility
Use display evpn route mac-mobility to display EVPN MAC mobility information.
Syntax
display evpn [ ipv6 ] route mac-mobility [ vsi vsi-name ] [ mac-address mac-address ]
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
ipv6: Specifies IPv6 EVPN MAC mobility information. If you do not specify this keyword, the command displays IPv4 EVPN MAC mobility information.
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 displays MAC mobility information about all VSIs.
mac-address mac-address: Specifies a MAC address in the format of H-H-H. You can omit the consecutive zeros at the beginning of each segment. For example, you can enter f-e2-1 for 000f-00e2-0001. If you do not specify a MAC address, this command displays MAC mobility information about all MAC addresses in the specified VSI or all VSIs.
Usage guidelines
If you do not specify any parameters, this command displays IPv4 EVPN MAC mobility information about all VSIs.
Examples
# Display IPv4 EVPN MAC mobility information about all VSIs.
<Sysname> display evpn route mac-mobility
Flags: S - Suppressed, N - Not suppressed
Suppression threshold: 5
Detection cycle : 180s
Suppression time : Permanent
VSI name : vsia
EVPN instance : -
MAC address Move count Moved from Flags Suppressed at
1000-0000-0000 10 XGE1/0/1 S 15:30:30 2018/03/30
1000-0000-0001 - - N -
VSI name : vsib
EVPN instance : -
MAC address Move count Moved from Flags Suppressed at
1000-0000-0003 2 XGE1/0/2 N -
1000-0000-0005 10 5.5.5.5 S 17:24:33 2018/04/01
# Display IPv6 EVPN MAC mobility information about all VSIs.
<Sysname> display evpn ipv6 route mac-mobility
Flags: S - Suppressed, N - Not suppressed
Suppression threshold: 5
Detection cycle : 180s
Suppression time : Permanent
VSI name : vpna
EVPN instance : -
MAC address : 1000-1000-1000
Move count : 5
Moved from : XGE1/0/1
Flags : S
Suppressed at : 15:30:30 2018/03/30
VSI name : vpnb
EVPN instance : -
MAC address : 1000-1000-1001
Move count : 5
Moved from : 1::1
Flags : S
Suppressed at : 15:30:30 2018/03/30
Table 32 Command output
|
Field |
Description |
|
Suppression threshold |
MAC mobility suppression threshold, which is the number of MAC moves from the local site to a remote site. If MAC mobility suppression is disabled, this field displays a hyphen (-). |
|
Detection cycle |
MAC mobility detection cycle in seconds. If MAC mobility suppression is disabled, this field displays a hyphen (-). |
|
Suppression time |
Suppression time in seconds. If this field displays Permanent, MAC moves are suppressed permanently. If MAC mobility suppression is disabled, this field displays a hyphen (-). |
|
EVPN instance |
EVPN instance name. If the EVPN instance is created on a VSI, this field displays a hyphen (-). This field is supported only by EVPN VXLAN. |
|
Move count |
Number of MAC moves from the interface to other interfaces. |
|
Moved from |
Source interface or source VTEP/PE IP address for the MAC move. |
|
Flags |
Whether the MAC move was suppressed: · S—Suppressed. · N—Not suppressed. |
|
Suppressed at |
Time when the MAC move was suppressed. |
Related commands
evpn route mac-mobility suppression
display evpn route nd
Use display evpn route nd to display EVPN ND entries.
Syntax
display evpn route nd [ local | remote ] [ public-instance | vpn-instance vpn-instance-name ] [ count ]
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
local: Specifies local ND entries.
remote: Specifies remote ND entries.
public-instance: Specifies the public instance.
vpn-instance vpn-instance-name: Specifies an MPLS L3VPN instance by its name, a case-sensitive string of 1 to 31 characters.
count: Displays the number of ND entries. If you do not specify this keyword, the command displays detailed information about ND entries.
Usage guidelines
If you do not specify the local or remote keyword, this command displays both local and remote EVPN ND entries.
If you do not specify the public-instance keyword or the vpn-instance vpn-instance-name option, this command displays EVPN ND entries for the public instance and all VPN instances.
Examples
# Display all EVPN ND entries.
<Sysname> display evpn route nd
Flags: D - Dynamic B - BGP L - Local active
G - Gateway S - Static M - Mapping I - Invalid
VPN instance: vpn1 Interface: Vsi-interface1
IPv6 address : AD80:0300:1000:0050:0200:0300:0100:0012
MAC address : 0001-0001-0001 Router MAC : a0ce-7e40-0400
VSI index : 0 Flags : GL
IPv6 address : AD10:0300:1000:0020:0200:0300:0100:0022
MAC address : 0001-0001-0002 Router MAC : a0ce-7e40-0411
VSI index : 0 Flags : GL
Public instance Interface: Vsi-interface1
IPv6 address : BC80:0300:1000:0050:0200:0300:0100:0033
MAC address : 0002-0002-0001 Router MAC : a0ce-7e40-0422
VSI index : 0 Flags : GL
IPv6 address : BC10:0300:1000:0020:0200:0300:0100:0034
MAC address : 0002-0002-0002 Router MAC : a0ce-7e40-0433
VSI index : 0 Flags : GL
# Display the total number of EVPN ND entries.
<Sysname>display evpn route nd count
Total number of entries: 2
Table 33 Command output
|
Field |
Description |
|
Interface |
VSI interface. |
|
Flags |
ND entry type: · D—The entry is dynamically learned. · B—The entry is learned from BGP EVPN routes. · L—The local entry is active. If this flag is not set and the B flag is set, the entry learned from BGP EVPN routes is active. · G—The entry for the gateway is active. · S—The static entry is active. This type is not supported in the current software version. · M—The entry from a remote VXLAN mapped to a local VXLAN is active. · I—The entry is invalid. Possible reasons: ¡ The VSI has been administratively shut down by using the shutdown command. ¡ The outgoing tunnel interface does not exist. |
display evpn route nd suppression
Use display evpn route nd suppression to display EVPN ND flood suppression entries.
Syntax
display evpn route nd suppression [ local | remote ] [ vsi vsi-name ] [ count ]
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
local: Specifies local ND flood suppression entries.
remote: Specifies remote ND flood suppression entries.
vsi vsi-name: Specifies a VSI by its name, a case-sensitive string of 1 to 31 characters. If you do not specify this option, the command displays ND flood suppression entries for all VSIs.
count: Displays the number of ND flood suppression entries. If you do not specify this keyword, the command displays detailed information about ND flood suppression entries.
Usage guidelines
If you do not specify the local or remote keyword, this command displays both local and remote EVPN ND flood suppression entries.
Examples
# Display all EVPN ND flood suppression entries.
<Sysname> display evpn route nd suppression
Flags: D - Dynamic B - BGP L - Local active
G - Gateway S - Static M - Mapping I - Invalid
VSI name: vpna
IPv6 address MAC address Flags
11::8 72cb-ce9b-0a06 DL
11::9 0001-0001-0001 B
# Display the total number of ND flood suppression entries.
<Sysname> display evpn route nd suppression count
Total number of entries: 2
Table 34 Command output
|
Field |
Description |
|
Flags |
ARP flood suppression entry type: · D—The entry is dynamically learned. · B—The entry is learned from BGP EVPN routes. · L—The local entry is active. If this flag is not set and the B flag is set, the entry learned from BGP EVPN routes is active. · G—The entry for the gateway is active. · S—The static entry is active. · M—The entry from a remote VXLAN mapped to a local VXLAN is active. · I—The entry is invalid. Possible reasons: ¡ The VSI has been administratively shut down by using the shutdown command. ¡ The outgoing tunnel interface does not exist. |
display evpn route nd-mobility
Use display evpn route nd-mobility to display EVPN ND mobility information.
Syntax
display evpn route nd-mobility [ public-instance | vpn-instance vpn-instance-name ] [ ipv6 ipv6-address ]
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
public-instance: Specifies the public instance.
vpn-instance vpn-instance-name: Specifies an MPLS L3VPN instance by its name, a case-sensitive string of 1 to 31 characters.
ipv6 ipv6-address: Specifies an IPv6 address. If you do not specify an IPv6 address, this command displays ND mobility information about all IPv6 addresses of the public instance or MPLS L3VPN instance.
Usage guidelines
If you do not specify any parameters, this command displays ND mobility information about the public instance and all VPN instances.
Examples
# Display EVPN ND mobility information about the public instance and all VPN instances.
<Sysname> display evpn route nd-mobility
Flags: S - Suppressed, N - Not suppressed
Suppression threshold: 5
Detection cycle : 180s
Suppression time : Permanent
VPN instance : vpn1
Interface : Vsi-interface1
IPv6 address : 1::1
Move count : 5
Moved from : XGE1/0/1
Flags : S
Suppressed at : 15:30:30 2020/03/30
Public instance
Interface : Vsi-interface2
IPv6 address : 2::2
Move count : 5
Moved from : 20::20
Flags : S
Suppressed at : 17:24:33 2020/04/01
Table 35 Command output
|
Field |
Description |
|
Suppression threshold |
ND mobility suppression threshold, which is the number of ND moves from the local site to a remote site. If ND mobility suppression is disabled, this field displays a hyphen (-). |
|
Detection cycle |
ND mobility detection cycle in seconds. If ND mobility suppression is disabled, this field displays a hyphen (-). |
|
Suppression time |
Suppression time in seconds. If this field displays Permanent, ND moves are suppressed permanently. If ND mobility suppression is disabled, this field displays a hyphen (-). |
|
Move count |
Number of ND moves from the interface to other interfaces. |
|
Moved from |
Source interface or source VTEP/PE IP address for the ND move. |
|
Flags |
Whether the ND move was suppressed: · S—Suppressed. · N—Not suppressed. |
|
Suppressed at |
Time when the ND move was suppressed. |
Related commands
evpn route nd-mobility suppression
display evpn routing-table
Use display evpn routing-table to display the EVPN routing table for a VPN instance.
Syntax
display evpn routing-table [ ipv6 ] { public-instance | vpn-instance vpn-instance-name } [ count ]
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
ipv6: Specifies IPv6 information. If you do not specify this keyword, the command displays IPv4 information.
public-instance: Specifies the public instance.
vpn-instance vpn-instance-name: Specifies an MPLS L3VPN instance by its name, a case-sensitive string of 1 to 31 characters.
count: Displays the number of entries in the routing table. If you do not specify this keyword, the command displays detailed information about the routing table.
Examples
# Display the EVPN IPv4 routing table for VPN instance vpn1.
<Sysname> display evpn routing-table vpn-instance vpn1
Flags: E - with valid ESI A – A-D ready L - Local ES exists
VPN instance name: vpn1 Local L3VNI: 7
IP address Nexthop Outgoing interface NibID Flags
10.1.1.11 1.1.1.1 Vsi-interface3 0x18000000 EAL
10.1.1.12 2.2.2.2 Vsi-interface3 0x18000001 EA
# Display the EVPN IPv4 routing table for the public instance.
<Sysname> display evpn routing-table public-instance
Flags: E - with valid ESI A – A-D ready L - Local ES exists
Public instance Local L3VNI: 3900
IP address Nexthop Outgoing interface NibID Flags
10.1.1.11 1.1.1.1 Vsi-interface3 0x18000000 EAL
10.1.1.12 2.2.2.2 Vsi-interface3 0x18000001 EA
# Display the number of EVPN route entries in the IPv4 routing table for VPN instance vpn1.
<Sysname> display evpn routing-table vpn-instance vpn1 count
Total number of entries: 2
# Display the EVPN IPv6 routing table for VPN instance vpna.
<Sysname> display evpn routing-table ipv6 vpn-instance vpna
VPN instance: vpna Local L3VNI: 7
IPv6 address : BC10:0300:1000:0020:0200:0300:0100:0034
Next hop : 1.1.1.1
Outgoing interface : Vsi-interface3
NibID : 0x18000000
IPv6 address : BC10:0300:1000:0020:0200:0300:0100:0035
Next hop : 2.2.2.2
Outgoing interface : Vsi-interface3
NibID : 0x18000001
Table 36 Command output
|
Field |
Description |
|
Local L3VNI |
L3 VXLAN ID associated with the VPN instance or the public instance. |
|
NibID |
Next hop ID. |
|
Flags |
Flags of the route: · E—The route carries a valid ESI. · A—All Ethernet auto-discovery routes are received. The ECMP routes for the next hop can be issued. · L—An active local ESI exists. Remote routes are not issued. · -—The MAC/IP advertisement route does not have a valid ESI. ECMP routes are not supported. |
display l2vpn forwarding evpn split-horizon
Use display l2vpn forwarding evpn split-horizon to display site-facing interfaces excluded from traffic forwarding by split horizon.
Syntax
display l2vpn forwarding evpn split-horizon tunnel tunnel-number slot slot-number
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
ac interface interface-type interface-number: Specifies a Layer 3 interface by its type and number. These parameters apply to EVPN VPLS.
tunnel tunnel-number: Specifies an existing VXLAN tunnel interface number. If you do not specify this option, the command displays all site-facing interfaces excluded from traffic forwarding by split horizon. This option applies to EVPN VXLAN.
slot slot-number: Specifies an IRF member device by its member ID.
Examples
# Display site-facing interfaces excluded from traffic forwarding for Tunnel 0.
<Sysname> display l2vpn forwarding evpn split-horizon tunnel 0
Tunnel name: 0
Total number of filtered interfaces: 2
Filtered interfaces:
XGE1/0/1
XGE1/0/2
Table 37 Command output
|
Field |
Description |
|
Tunnel name |
VXLAN tunnel interface name. |
|
Filtered interfaces |
Site-facing interfaces that do not forward the flood traffic received from the VXLAN tunnel. |
esi
Use esi to assign an ESI to an interface.
Use undo esi to restore the default.
Syntax
esi esi-id
undo esi
Default
No ESI is assigned to an interface.
Views
Interface view
Predefined user roles
network-admin
Parameters
esi-id: Specifies an ES by its ESI in XXXX.XXXX.XXXX.XXXX.XXXX format. Each X represents a hexadecimal digit. The ESI must begin with 00 and cannot be all zeros.
Usage guidelines
An ESI uniquely identifies an ES. The links on interfaces with the same ESI belong to the same ES. Traffic of the ES can be distributed among the links for load sharing.
To modify the ESI of an interface, first use the undo esi command to delete the original ESI.
Examples
# Assign ESI 0000.0001.0002.0003.0004 to Ten-GigabitEthernet 1/0/1.
<Sysname> system-view
[Sysname] interface ten-gigabitethernet 1/0/1
[Sysname-Ten-GigabitEthernet1/0/1] esi 0000.0001.0002.0003.0004
evpn m-lag group
Use evpn m-lag group to enable EVPN M-LAG and specify the virtual VTEP address.
Use undo evpn m-lag group to restore the default.
Syntax
evpn m-lag group { virtual-vtep-ipv4 | virtual-vtep-ipv6 }
undo evpn m-lag group
Default
EVPN M-LAG is disabled.
Views
System view
Predefined user roles
network-admin
Parameters
virtual-vtep-ipv4: Specifies the virtual IPv4 VTEP address.
virtual-vtep-ipv6: Specifies the virtual IPv6 VTEP address.
Usage guidelines
EVPN M-LAG virtualizes two VTEPs, EDs, or EVPN gateways into one M-LAG system to avoid single points of failure. The VTEPs, EDs, or EVPN gateways use a virtual VTEP address to establish VXLAN or VXLAN-DCI tunnels to remote devices.
For the device to re-establish VXLAN tunnels, you must execute the address-family l2vpn evpn command in BGP instance view after you enable or disable EVPN M-LAG.
To modify the virtual VTEP address, you must first delete the original virtual VTEP address.
EVPN M-LAG is mutually exclusive with EVPN-DCI dual-homing. Do not use the evpn edge group and evpn m-lag group commands together.
The evpn m-lag group and evpn m-lag local commands must specify three IPv4 or IPv6 addresses. Mixed use of IPv4 and IPv6 addresses is not allowed.
Examples
# Enable EVPN M-LAG and specify the virtual VTEP address as 1.1.1.1.
<Sysname> system-view
[Sysname] evpn m-lag group 1.1.1.1
Related commands
evpn edge group
evpn m-lag local
Use evpn m-lag local to specify the IP addresses of the VTEPs in an M-LAG system.
Use undo evpn m-lag local to restore the default.
Syntax
evpn m-lag local { local-ipv4-address remote remote-ipv4-address | local-ipv6-address remote remote-ipv6-address }
undo evpn m-lag local
Default
The IP addresses of the VTEPs in an M-LAG system are not specified.
Views
System view
Predefined user roles
network-admin
Parameters
local-ipv4-address: Specifies the IPv4 address of the local VTEP.
local-ipv6-address: Specifies the IPv6 address of the local VTEP.
remote remote-ip: Specifies the IP address of the peer VTEP.
remote-ipv4-address: Specifies the IPv4 address of the peer VTEP.
remote-ipv6-address: Specifies the IPv6 address of the peer VTEP.
Usage guidelines
An AC that is attached to only one of the VTEPs in an M-LAG system is called a single-armed AC. After you configure this command, each VTEP in an M-LAG system changes the next hop of the routes for single-armed ACs to its local VTEP IP address when advertising the routes. This ensures that the traffic of a single-armed AC is forwarded to its attached VTEP. When a VTEP receives BGP EVPN routes from the peer VTEP IP address specified by using this command, it does not set up a VXLAN tunnel to the peer VTEP.
You must execute this command if single-armed ACs are attached to an M-LAG system that uses a direct peer link. You do not need to execute this command on an M-LAG system that uses a VXLAN tunnel as the peer link. In such an M-LAG system, a VTEP uses the source IP address of the peer link as the next hop of routes for single-armed ACs to ensure correct traffic forwarding.
When you execute this command, make sure the IP address of the local VTEP belongs to a local interface. Make sure the local VTEP IP address and peer VTEP IP address are reversed on the VTEPs in an M-LAG system.
Do not use this command on EDs.
The evpn m-lag group and evpn m-lag local commands must specify three IPv4 or IPv6 addresses. Mixed use of IPv4 and IPv6 addresses is not allowed.
Examples
# Specify the IP addresses of the local and peer VTEPs in the M-LAG system as 2.2.2.2 and 3.3.3.3, respectively.
<Sysname> system-view
[Sysname] evpn m-lag local 2.2.2.2 remote 3.3.3.3
evpn edge group
Use evpn edge group to configure a virtual ED address.
Use undo evpn edge group to restore the default.
Syntax
evpn edge group group-ip group-ipv4
undo evpn edge group
Default
No virtual ED address is configured.
Views
System view
Predefined user roles
network-admin
Parameters
group-ipv4: Specifies the IPv4 virtual ED address.
Usage guidelines
For high availability and load sharing, you can deploy two EDs at a data center. To virtualize the redundant EDs into one device, you must configure the same virtual ED address on them. The redundant EDs use the virtual ED address to establish tunnels with VTEPs and remote EDs.
Redundant EDs cannot provide access service for local VMs. They can act only as EDs. For correct communication, do not redistribute external routes on only one of the redundant EDs. However, you can redistribute the same external routes on both EDs.
On a redundant ED, the virtual ED address must be the IP address of a loopback interface, and it cannot be the BGP peer IP address of the ED.
EVPN-DCI dual-homing is mutually exclusive with EVPN M-LAG. Do not use the evpn edge group and evpn m-lag group commands together.
If you execute the undo bgp command to disable the BGP instance of the EVPN address family, the evpn edge group setting will also be deleted. Make sure you are fully aware of the impact of the undo bgp command when you use it on a live network.
Examples
# Configure 1.2.3.4 as the virtual ED address.
<Sysname> system-view
[Sysname] evpn edge group 1.2.3.4
Related commands
evpn m-lag group
evpn encapsulation
Use evpn encapsulation to create an EVPN instance on a VSI or cross-connect group and enter its view, or enter the view of the existing EVPN instance on a VSI or cross-connect group.
Use undo evpn encapsulation to restore the default.
Syntax
evpn encapsulation vxlan
undo evpn encapsulation
Default
No EVPN instance exists.
Views
VSI view
Predefined user roles
network-admin
Parameters
vxlan: Specifies VXLAN encapsulation.
Usage guidelines
Before you can configure EVPN settings, you must create an EVPN instance.
This command is mutually exclusive with the evpn encapsulation vxlan binding instance command. You cannot use them together on the same VSI.
Examples
# Create an EVPN instance on VSI aaa and enter its view.
<Sysname> system-view
[Sysname] vsi aaa
[Sysname-vsi-aaa] evpn encapsulation vxlan
[Sysname-vsi-aaa-evpn-vxlan]
Related commands
evpn encapsulation vxlan binding instance
evpn encapsulation vxlan binding instance
Use evpn encapsulation vxlan binding instance to bind a VSI to an EVPN instance.
Use undo evpn encapsulation vxlan binding instance to restore the default.
Syntax
evpn encapsulation vxlan binding instance instance-name vsi-tag { tag-id | auto-vxlan }
undo evpn encapsulation vxlan binding instance instance-name
Views
VSI view
Default
A VSI is not bound to any EVPN instance.
Predefined user roles
network-admin
Parameters
instance-name: Specifies an EVPN instance by its name, a case-sensitive string of 1 to 31 characters.
vsi-tag: Specifies a VSI tag ID. An EVPN instance uses tag IDs to identify VSIs when it is bound to multiple VSIs.
tag-id: Specifies a tag ID in the range of 1 to 16777215.
auto-vxlan: Automatically generates a tag ID based on the VXLAN ID of the VSI.
Usage guidelines
This command is applicable only to EVPN VXLAN.
You can bind a VSI only to one EVPN instance.
This command is mutually exclusive with the evpn encapsulation command. You cannot use them together on the same VSI.
Examples
# Bind VSI vpna to EVPN instance evpna.
<Sysname> system-view
[Sysname] vsi vpna
[Sysname-vsi-vpna] evpn encapsulation vxlan binding instance evpna vsi-tag auto-vxlan
Related commands
evpn encapsulation
evpn instance
evpn global-mac
Use evpn global-mac to configure the EVPN global MAC address.
Use undo evpn global-mac to restore the default.
Syntax
evpn global-mac mac-address
undo evpn global-mac
Default
No EVPN global MAC address is configured.
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, broadcast MAC address, or all-zeros MAC address.
Usage guidelines
The EVPN global MAC address is used only by VSI interfaces associated with an L3 VXLAN ID.
For a VSI interface associated with an L3 VXLAN ID, the MAC address assigned to it by using the mac-address command takes precedence over the EVPN global MAC address.
Do not use a reserved MAC address as the EVPN global MAC address.
Examples
# Configure the EVPN global MAC address as 0001-0001-0001.
<Sysname> system-view
[Sysname] evpn global-mac 1-1-1
evpn instance
Use evpn instance to create an EVPN instance and enter its view, or enter the view of an existing EVPN instance.
Use undo evpn instance to delete an EVPN instance.
Syntax
evpn instance instance-name
undo evpn instance instance-name
Views
System view
Default
No EVPN instance exists.
Predefined user roles
network-admin
Parameters
instance-name: Specifies an EVPN instance name, a case-sensitive string of 1 to 31 characters.
Usage guidelines
You must create an EVPN instance before you can configure EVPN on it.
You can bind an EVPN instance created in system view to multiple VSIs to simplify configuration.
Examples
# Create EVPN instance evpn1 and enter its view.
<Sysname> system-view
[Sysname] evpn instance evpn1
[Sysname-evpn-instance-evpn1]
evpn irb asymmetric
Use evpn irb asymmetric to enable asymmetric IRB for EVPN VXLAN.
Use undo evpn irb asymmetric to restore the default.
Syntax
evpn irb asymmetric [ route-policy route-policy-name ]
undo evpn irb asymmetric
Default
Symmetric IRB is enabled for EVPN VXLAN.
Views
System view
Predefined user roles
network-admin
Parameters
route-policy route-policy-name: Specifies a routing policy by its name, a case-sensitive string of 1 to 63 characters. The device will perform asymmetric IRB forwarding for the traffic that matches the routing policy. If you do not specify a routing policy or the specified routing policy does not exist, the device performs asymmetric IRB forwarding for all traffic.
Usage guidelines
Use this command to set the IRB mode for EVPN VXLAN.
Examples
# Enable asymmetric IRB for EVPN VXLAN.
<Sysname> system-view
[Sysname] evpn irb asymmetric
evpn mac-ip advertise distributed-gateway
Use evpn mac-ip advertise distributed-gateway to enable the device to advertise ARP information for the distributed EVPN gateway interfaces through MAC/IP advertisement routes.
Use undo evpn mac-ip advertise distributed-gateway to disable the device from advertising ARP information for the distributed EVPN gateway interfaces through MAC/IP advertisement routes.
Syntax
evpn mac-ip advertise distributed-gateway
undo evpn mac-ip advertise distributed-gateway
Default
By default, the device does not advertise ARP information for the distributed EVPN gateway interfaces through MAC/IP advertisement routes.
Views
System view
Predefined user roles
network-admin
Usage guidelines
If a distributed EVPN gateway has downstream VTEPs attached, the gateway advertises ARP information for gateway interfaces through IP prefix advertisement routes. Because the VTEPs do not have gateway configuration, they cannot learn the ARP information for the gateway interfaces or forward traffic to the gateway. For the VTEPs to learn ARP information for the gateway interfaces, enable the distributed EVPN gateway to advertise ARP information for the gateway interfaces through MAC/IP advertisement routes.
Examples
# Enable the device to advertise ARP information for the distributed EVPN gateway interfaces through MAC/IP advertisement routes.
<Sysname> system-view
[Sysname] evpn mac-ip advertise distributed-gateway
evpn multihoming advertise disable
Use evpn multihoming advertise disable to disable advertisement of EVPN multihoming routes and withdraw the EVPN multihoming routes that have been advertised to remote sites.
Use undo evpn multihoming advertise disable to restore the default.
Syntax
evpn multihoming advertise disable
undo evpn multihoming advertise disable
Default
The device advertises EVPN multihoming routes.
Views
System view
Predefined user roles
network-admin
Usage guidelines
Do not use this command on VTEPs at a multihomed EVPN VXLAN site if EVPN forwards multicast traffic based on SMET, IGMP join sync, and IGMP leave sync routes. Violation of this restriction might cause multicast forwarding errors.
EVPN multihoming routes include Ethernet auto-discovery routes and Ethernet segment routes.
In a multihomed EVPN network, execute this command on a redundant VTEP or PE before you reboot it. This operation allows other VTEPs or PEs to refresh their EVPN routing table to prevent traffic interruption caused by the reboot.
Examples
# Disable advertisement of EVPN multihoming routes and withdraw the EVPN multihoming routes that have been advertised to remote sites.
<Sysname> system-view
[Sysname] evpn multihoming advertise disable
evpn multihoming timer df-delay
Use evpn multihoming timer df-delay to set the DF election delay.
Use undo evpn multihoming timer df-delay to restore the default.
Syntax
evpn multihoming timer df-delay delay-value
undo evpn multihoming timer df-delay
Default
The DF election delay is 3 seconds.
Views
System view
Predefined user roles
network-admin
Parameters
delay-value: Specifies the DF election delay, in the range of 1 to 1200 seconds.
Usage guidelines
DF election delay defines the minimum interval allowed between two DF elections.
The DF election can be triggered by site-facing interface status changes, redundant VTEP or PE membership changes, and interface ESI changes. To prevent frequent DF elections from degrading network performance, set the DF election delay.
To fast elect a DF and avoid traffic interruption upon DF failure, set the DF election delay to 0 seconds.
Examples
# Set the DF election delay to 5 seconds.
<Sysname> system-view
[Sysname] evpn multihoming timer df-delay 5
evpn multihoming vxlan-frr local
Use evpn multihoming vxlan-frr local to enable local FRR globally for EVPN VXLAN.
Use undo evpn multihoming vxlan-frr local to disable local FRR globally for EVPN VXLAN.
Syntax
evpn multihoming vxlan-frr local
undo evpn multihoming vxlan-frr local
Default
Local FRR is disabled globally for EVPN VXLAN.
Views
System view
Predefined user roles
network-admin
Usage guidelines
Local FRR enables two VTEPs at a multihomed EVPN VXLAN network site to set up a bypass VXLAN tunnel between them. This feature helps reduce the traffic loss caused by AC failure.
At a multihomed EVPN VXLAN network site, VM 1 is dualhomed to VTEP 1 and VTEP 2, and VTEP 1 is the DF. When the AC on VTEP 1 fails, VTEP 1 deletes the related MAC address entries and advertises the local unreachable event to VTEP 2 and remote VTEPs. Then, the remote VTEPs will switch traffic to the tunnels to VTEP 2. In this situation, VTEP 1 drops the packets that the remote VTEPs send before they are notified of the local unreachable event as the AC's MAC address entries have been deleted. To resolve this issue, enable local FRR on VTEP 1. If an AC fails, VTEP 1 changes the outgoing interface of the AC's MAC address entries to the index of the VXLAN tunnel between VTEP 1 and VTEP 2. When receiving packets from remote VTEPs after its AC fails, VTEP 1 forwards the packets to VTEP 2 over the VXLAN tunnel to prevent traffic loss.
Examples
# Enable local FRR globally for EVPN VXLAN.
<Sysname> system-view
[Sysname] evpn multihoming vxlan-frr local
Related commands
evpn frr local (VSI EVPN instance view)
evpn route arp-mobility suppression
Use evpn route arp-mobility suppression to enable ARP mobility event suppression.
Use undo evpn route arp-mobility suppression to disable ARP mobility event suppression.
Syntax
evpn route arp-mobility suppression [ detect-cycle detect-time | detect-threshold move-times | suppression-time [ suppression-time | permanent ] ] *
undo evpn route arp-mobility suppression
Default
ARP mobility event suppression is disabled.
Views
System view
Predefined user roles
network-admin
Parameters
detect-cycle detect-time: Specifies the ARP mobility detection cycle in seconds. The value range for the detect-time argument is 60 to 900, and the default is 180.
detect-threshold move-times: Specifies the ARP mobility suppression threshold, which is the number of ARP moves from the local site to a remote site. The value range for the move-times argument is 3 to 10, and the default is 5.
suppression-time: Specifies the length of time that an ARP entry is suppressed. After the suppression time expires, the ARP entry can move again. The default suppression time is permanent.
suppression-time: Specifies the suppression time in seconds. The value range for this argument is 120 to 3600.
permanent: Suppresses ARP moves permanently.
Usage guidelines
On an EVPN VXLAN network, misconfiguration of IP addresses might cause two sites to contain the same IP address. In this condition, VTEPs at the two sites constantly synchronize and update EVPN ARP entries and determine that ARP mobility events occur. As a result, an inter-site loop might occur, and the bandwidth is occupied by ARP entry synchronization traffic. To eliminate loops and suppress those ARP mobility events, enable ARP mobility event suppression on the VTEPs. This feature allows an IP address to move a specified number of times (the ARP mobility suppression threshold) from a site within an ARP mobility detection cycle. If an IP address moves more than the ARP mobility suppression threshold, the VTEP at the site will suppress the last ARP move to the local site and will not advertise ARP information for the IP address.
After you execute the undo evpn route arp-mobility suppression command or the suppression time expires, a VTEP acts as follows:
· Advertises ARP information immediately for the suppressed ARP entries that have not aged out.
· Relearns ARP information for the suppressed ARP entries that have aged out and advertises the ARP information.
ARP mobility event suppression takes effect only on an EVPN VXLAN network configured with distributed VXLAN IP gateways.
Examples
# Enable ARP mobility event suppression.
<Sysname> system-view
[Sysname] evpn route arp-mobility suppression
Related commands
display evpn route arp-mobility
evpn route gateway-mac unmovable
Use evpn route gateway-mac unmovable to set the static flag for the MAC addresses of centralized gateway interfaces.
Use undo evpn route gateway-mac unmovable to restore the default.
Syntax
evpn route gateway-mac unmovable
undo evpn route gateway-mac unmovable
Default
The static flag is not set for the MAC addresses of centralized gateway interfaces.
Views
System view
Predefined user roles
network-admin
Usage guidelines
In a network with a centralized EVPN gateway deployed, a VTEP considers a MAC address move occurs if an endpoint uses a MAC address identical to that of a centralized gateway interface. As a result, the VTEP overwrites the MAC address entry created for the centralized gateway interface with that created for the endpoint, and errors will occur in traffic forwarding.
To resolve this issue, set the static flag for the MAC addresses of centralized gateway interfaces on the centralized EVPN gateway. When advertising those MAC addresses through MAC/IP advertisement routes, the centralized EVPN gateway will set the static flag bit to 1 in the MAC mobility extended community. If an endpoint accesses the network with a MAC address identical to that of a centralized gateway interface, the endpoint's MAC address entry will not overwrite the entry for the centralized gateway interface.
Examples
# Set the static flag for the MAC addresses of centralized gateway interfaces.
<Sysname> system-view
[Sysname] evpn route gateway-mac unmovable
evpn route mac-mobility suppression
Use evpn route mac-mobility suppression to enable MAC mobility event suppression.
Use undo evpn route mac-mobility suppression to disable MAC mobility event suppression.
Syntax
evpn route mac-mobility suppression [ detect-cycle detect-time | detect-threshold move-times | suppression-time [ suppression-time | permanent ] ] *
undo evpn route mac-mobility suppression
Default
MAC mobility event suppression is disabled.
Views
System view
Predefined user roles
network-admin
Parameters
detect-cycle detect-time: Specifies the MAC mobility detection cycle in seconds. The value range for the detect-time argument is 60 to 900, and the default is 180.
detect-threshold move-times: Specifies the MAC mobility suppression threshold, which is the number of MAC moves from the local site to a remote site. The value range for the move-times argument is 3 to 10, and the default is 5.
suppression-time: Specifies the length of time that a MAC address entry is suppressed. After the suppression time expires, the MAC address entry can move again. The default suppression time is permanent.
suppression-time: Specifies the suppression time in seconds. The value range for this argument is 120 to 3600.
permanent: Suppresses MAC moves permanently.
Usage guidelines
On an EVPN VXLAN network, misconfiguration of MAC addresses might cause two sites to contain the same MAC address. In this condition, VTEPs at the two sites constantly synchronize and update EVPN MAC entries and determine that MAC mobility events occur. As a result, an inter-site loop might occur, and the bandwidth is occupied by MAC entry synchronization traffic. To eliminate loops and suppress those MAC mobility events, enable MAC mobility event suppression on the VTEPs. This feature allows a MAC address to move a specified number of times (the MAC mobility suppression threshold) from a site within a MAC mobility detection cycle. If a MAC address moves more than the MAC mobility suppression threshold, the VTEP at the site will suppress the last MAC move to the local site and will not advertise information about the MAC address.
After you execute the undo evpn route mac-mobility suppression command or the suppression time expires, a VTEP acts as follows:
· Advertises MAC address entries immediately for the suppressed MAC address entries that have not aged out.
· Relearns the MAC addresses for the suppressed MAC address entries that have aged out and advertises the MAC address entries.
Examples
# Enable MAC mobility event suppression.
<Sysname> system-view
[Sysname] evpn route mac-mobility suppression
Related commands
display evpn route mac-mobility
evpn route nd-mobility suppression
Use evpn route nd-mobility suppression to enable ND mobility event suppression.
Use undo evpn route nd-mobility suppression to disable ND mobility event suppression.
Syntax
evpn route nd-mobility suppression [ detect-cycle detect-time | detect-threshold move-times | suppression-time [ suppression-time | permanent ] ] *
undo evpn route nd-mobility suppression
Default
ND mobility event suppression is disabled.
Views
System view
Predefined user roles
network-admin
Parameters
detect-cycle detect-time: Specifies the ND mobility detection cycle in seconds. The value range for the detect-time argument is 60 to 900, and the default is 180.
detect-threshold move-times: Specifies the ND mobility suppression threshold, which is the number of ND moves from the local site to a remote site. The value range for the move-times argument is 3 to 10, and the default is 5.
suppression-time: Specifies the length of time that an ND entry is suppressed. After the suppression time expires, the ND entry can move again. The default suppression time is permanent.
suppression-time: Specifies the suppression time in seconds. The value range for this argument is 120 to 3600.
permanent: Suppresses ND moves permanently.
Usage guidelines
On an EVPN VXLAN network, misconfiguration of IP addresses might cause two sites to contain the same IP address. In this condition, VTEPs at the two sites constantly synchronize and update EVPN ND entries and determine that ND mobility events occur. As a result, an inter-site loop might occur, and the bandwidth is occupied by ND entry synchronization traffic. To eliminate loops and suppress those ND mobility events, enable ND mobility event suppression on the VTEPs. This feature allows an IP address to move a specified number of times (the ND mobility suppression threshold) from a site within an ND mobility detection cycle. If an IP address moves more than the ND mobility suppression threshold, the VTEP at the site will suppress the last ND move to the local site and will not advertise ND information for the IP address.
After you execute the undo evpn route nd-mobility suppression command or the suppression time expires, a VTEP acts as follows:
· Advertises ND information immediately for the suppressed ND entries that have not aged out.
· Relearns ND information for the suppressed ND entries that have aged out and advertises the ND information.
ND mobility event suppression takes effect only on the following networks:
· EVPN VXLAN network enabled with ND flood suppression.
· EVPN VXLAN network configured with distributed VXLAN IP gateways.
Examples
# Enable ND mobility event suppression.
<Sysname> system-view
[Sysname] evpn route nd-mobility suppression
Related commands
display evpn route nd-mobility
evpn span-segment disable
Use evpn span-segment disable to disable a VSI interface from learning ARP or ND information that does not belong to its subnet from MAC/IP advertisement routes.
Use undo evpn span-segment disable to restore the default.
Syntax
evpn span-segment { arp-learning | nd-learning } disable
undo evpn span-segment { arp-learning | nd-learning } disable
Default
On a centralized EVPN gateway, a VSI interface can learn the ARP or ND information that does not belong to its subnet from MAC/IP advertisement routes.
Views
VSI interface view
Predefined user roles
network-admin
Parameters
arp-learning: Disables ARP learning.
nd-learning: Disables ND learning.
Usage guidelines
On an EVPN VXLAN network deployed with a centralized EVPN gateway, VM 1 and VM 2 belong to the same VXLAN in subnet 10.1.1.0/24. The gateway interface is VSI-interface 1 and the gateway is connected to external Layer 3 network 10.1.2.0/24. The VTEP to which VM 2 is attached is configured with ARP or ND flood suppression. The IP address of VM 2 is mistakenly configured as an IP address in subnet 10.1.2.0/24 (for example, 10.1.2.2). In this situation, the VTEP connected to VM 2 advertises MAC/IP advertisement routes that contain ARP or ND information to the gateway. The IP address and MAC address in the routes are the IP address and MAC address of VM 2, respectively. The gateway learns the ARP or ND information and issues the information to the forwarding table. When VM 1 visits 10.1.2.2 in the external network, the gateway will forward the traffic to VM 2. As a result, VM 1 cannot visit 10.1.2.2.
To resolve the above issue, perform this task on the VSI interface to disable the VSI interface from learning ARP or ND information across subnets from MAC/IP advertisement routes.
Examples
# Disable a VSI-interface 1 from learning ARP or ND information that does not belong to its subnet from MAC/IP advertisement routes.
<Sysname> system-view
[Sysname] interface vsi-interface 1
[Sysname-Vsi-interface1] evpn span-segment arp-learning disable
export route-policy
Use export route-policy to apply an export routing policy to EVPN on a VPN instance.
Use undo export route-policy to restore the default.
Syntax
export route-policy route-policy
undo export route-policy
Default
No export routing policy is applied to EVPN on a VPN instance.
Views
VPN instance EVPN view
Predefined user roles
network-admin
Parameters
route-policy: Specifies a routing policy by its name, a case-sensitive string of 1 to 63 characters.
Usage guidelines
You can specify an export routing policy to filter advertised BGP EVPN routes or modify their route attributes for a VPN instance.
If you execute this command multiple times, the most recent configuration takes effect.
EVPN can use an export routing policy specified in VPN instance view or in VPN instance EVPN view. Export routing policy configuration in VPN instance EVPN view takes precedence over that in VPN instance view.
Examples
# Apply export routing policy poly-1 to EVPN on VPN instance vpn1.
<Sysname> system-view
[Sysname] ip vpn-instance vpn1
[Sysname-vpn-instance-vpn1] address-family evpn
[Sysname-vpn-evpn-vpn1] export route-policy poly-1
Related commands
route-policy (Layer 3—IP Routing Command Reference)
igp-metric inherit
Use igp-metric inherit to set the metric of a BGP EVPN route added to a VPN instance's routing table to the metric of the IGP route pointing to the next hop in the original BGP EVPN route.
Use undo igp-metric inherit to restore the default.
Syntax
igp-metric inherit
undo igp-metric inherit
Default
The device sets the metric to 0 when adding BGP EVPN routes a VPN instance's routing table.
Views
BGP EVPN address family view
Predefined user roles
network-admin
Usage guidelines
After you execute this command, the device sets the metric of a BGP EVPN route added to a VPN instance's routing table to the metric of the IGP route pointing to the next hop in the original BGP EVPN route.
Examples
# Set the metric of a BGP EVPN route added to a VPN instance's routing table to the metric of the IGP route pointing to the next hop in the original BGP EVPN route.
<Sysname> system-view
[Sysname] bgp 100
[Sysname-bgp-default] address-family l2vpn evpn
[Sysname-bgp-default-evpn] igp-metric inherit
import evpn mac-ip
Use import evpn mac-ip to enable the device to redistribute received MAC/IP advertisement routes that contain ARP or ND information into a BGP unicast routing table.
Use undo import evpn mac-ip to disable the device from redistributing received MAC/IP advertisement routes that contain ARP or ND information into a BGP unicast routing table.
Syntax
import evpn mac-ip
undo import evpn mac-ip
Default
MAC/IP advertisement routes that contain ARP or ND information are not redistributed into any BGP unicast routing table.
Views
BGP IPv4 unicast address family view
BGP IPv6 unicast address family view
BGP-VPN IPv4 unicast address family view
BGP-VPN IPv6 unicast address family view
Predefined user roles
network-admin
Usage guidelines
This command enables the device to redistribute received MAC/IP advertisement routes that contain ARP or ND information into a BGP unicast routing table.
· If you use this command in BGP IPv4 or IPv6 unicast address family view, the device will redistribute the routes into the BGP IPv4 or IPv6 unicast routing table. In addition, the device will advertise the routes to the local site.
· If you use this command in BGP-VPN IPv4 or IPv6 unicast address family view, the device will redistribute the routes into the BGP-VPN IPv4 or IPv6 unicast routing table of the corresponding VPN instance. To advertise the routes to the local site, you must configure the advertise l2vpn evpn command.
Examples
# Redistribute received MAC/IP advertisement routes into the BGP-VPN IPv4 unicast routing table of VPN instance vpna.
<Sysname> system-view
[Sysname] bgp 100
[Sysname-bgp-default] ip vpn-instance vpna
[Sysname-bgp-default-vpna] address-family ipv4
[Sysname-bgp-default-ipv4-vpna] import evpn mac-ip
Related commands
advertise l2vpn evpn
import route-policy
Use import route-policy to apply an import routing policy to EVPN on a VPN instance.
Use undo import route-policy to restore the default.
Syntax
import route-policy route-policy
undo import route-policy
Default
No import routing policy is applied to EVPN on a VPN instance. The VPN instance accepts a route when the export route targets of the route match local import route targets.
Views
VPN instance EVPN view
Predefined user roles
network-admin
Parameters
route-policy: Specifies a routing policy by its name, a case-sensitive string of 1 to 63 characters.
Usage guidelines
You can specify an import routing policy to filter redistributed BGP EVPN routes or modify their route attributes for a VPN instance.
If you execute this command multiple times, the most recent configuration takes effect.
EVPN can use an import routing policy specified in VPN instance view or in VPN instance EVPN view. Import routing policy configuration in VPN instance EVPN view takes precedence over that in VPN instance view.
Examples
# Apply import routing policy poly-1 to EVPN on VPN instance vpn1.
<Sysname> system-view
[Sysname] ip vpn-instance vpn1
[Sysname-vpn-instance-vpn1] address-family evpn
[Sysname-vpn-evpn-vpn1] import route-policy poly-1
Related commands
route-policy (Layer 3—IP Routing Command Reference)
ip forwarding-conversational-learning
Use ip forwarding-conversational-learning to enable conversational learning for host route FIB entries.
Use undo ip forwarding-conversational-learning to disable conversational learning for host route FIB entries.
Syntax
ip forwarding-conversational-learning [ aging aging-time ]
undo ip forwarding-conversational-learning
Default
Conversational learning is disabled for host route FIB entries.
Views
System view
Predefined user roles
network-admin
Parameters
aging aging-time: Specifies an aging timer in minutes for host route FIB entries, in the range of 60 to 1440. The default value is 60.
Usage guidelines
Use this command only on an EVPN network.
By default, the device issues a host route FIB entry to the hardware after the entry is generated. This feature enables the device to issue a host route FIB entry to the hardware only when the entry is required for packet forwarding. This feature saves hardware resources on the device.
Set an appropriate aging timer for host route FIB entries according to your network. A much longer or shorter aging timer will degrade the device performance.
· If the aging timer is too long, the device will save many outdated host route FIB entries and fail to accommodate the most recent network changes. These entries cannot be used for correct packet forwarding and exhaust FIB resources.
· If the aging timer is too short, the device will delete the valid host route FIB entries that can still be effective for packet forwarding. As a result, FIB entry flapping will occur, and the device performance will be affected.
Examples
# Enable conversational learning for host route FIB entries.
<Sysname> system-view
[Sysname] ip forwarding-conversational-learning
ip-prefix-route generate disable
Use ip-prefix-route generate disable to disable generation of IP prefix advertisement routes for the subnets of a VSI interface.
Use undo ip-prefix-route generate disable to enable generation of IP prefix advertisement routes for the subnets of a VSI interface.
Syntax
ip-prefix-route generate disable
undo ip-prefix-route generate disable
Default
The device only generates MAC/IP advertisement routes for a VSI interface that provides centralized VXLAN IP gateway service. The device generates IP prefix advertisement routes for the subnets of a VSI interface that provides distributed VXLAN IP gateway service.
Views
VSI interface view
Predefined user roles
network-admin
Usage guidelines
This command takes effect only on a VSI interface that provides distributed VXLAN IP gateway service (configured by using the distributed-gateway local command). It does not take effect on VSI interfaces that provide centralized VXLAN IP gateway service.
Examples
# Disable generation of IP prefix advertisement routes for the subnets of VSI-interface 1.
<Sysname> system-view
[Sysname] interface vsi-interface 1
[Sysname-Vsi-interface1] ip-prefix-route generate disable
ipv6 nd proxy-send enable
Use ipv6 nd proxy-send enable to enable ND request proxy.
Use undo ipv6 nd proxy-send enable to disable ND request proxy.
Syntax
ipv6 nd proxy-send enable
undo ipv6 nd proxy-send enable
Default
ND request proxy is disabled on VSI interfaces.
Views
VSI interface view
Predefined user roles
network-admin
Usage guidelines
ND request proxy allows a VSI interface to send an ND request sourced from itself when the VTEP forwards an ND request. This feature helps resolve certain communication issues.
In an EVPN VXLAN network, VM 1 and VM 2 are attached to VTEP 1 and VTEP 2, respectively, and the VMs are in the same subnet. The gateway interfaces of VM 1 and VM 2 are VSI-interface 1 on VTEP 1 and VSI-interface 2 on VTEP 2, respectively. The following conditions exist on the VTEPs:
· The VTEPs have established BGP EVPN neighbor relationships.
· EVPN is disabled from learning MAC addresses from ND information.
· MAC address advertisement is disabled, and advertised MAC addresses are withdrawn.
· Remote-MAC address learning is disabled.
· Local proxy ND is enabled on the VSI interfaces.
· The VSI interfaces use different IP addresses and MAC addresses.
In this network, when VM 1 attempts to communicate with VM 2, the following process occurs:
1. VM 1 sends an NS packet.
2. VTEP 1 learns the MAC address of VM 1 from the NS packet, replies to VM 1 on behalf of VM 2, and sends an NS packet to obtain the MAC address of VM 2.
3. VTEP 2 forwards the NS packet, and VM 2 replies to VTEP 1.
4. VTEP 2 forwards the NA packet sent by VM 2 without learning the MAC address of VM 2 because EVPN is disabled from learning MAC addresses from ND information.
5. VTEP 1 does not learn the MAC address of VM 2 because remote-MAC address learning is disabled.
As a result, VM 1 fails to communicate with VM 2.
For VM 1 to communicate with VM 2, enable NS packet proxy on VSI-interface 2 of VTEP 2. When receiving the NS packet sent by VTEP 1, VTEP 2 forwards it and sends an NS packet sourced from VSI-interface 2 simultaneously, and VM 2 replies to both NS packets. Then, VTEP 2 learns the MAC address of VM 2 from the NA packet sent to VSI-interface 2 and advertises the MAC address to VTEP 1 through BGP EVPN routes. In this way, VTEP 1 obtains the MAC address of VM 2, and VM 1 and VM 2 can communicate.
Examples
# Enable ND request proxy on VSI-interface 100.
<Sysname> system-view
[Sysname] interface vsi-interface 100
[Sysname-vsi-interface100] ipv6 nd proxy-send enable
Related commands
local-proxy-nd enable (Layer 3—IP Services Command Reference)
ipv6 nd ra tunnel-broadcast enable
Use ipv6 nd ra tunnel-broadcast enable to enable a VSI interface to send RA messages over VXLAN tunnels.
Use undo ipv6 nd ra tunnel-broadcast enable to disable a VSI interface from sending RA messages over VXLAN tunnels.
Syntax
ipv6 nd ra tunnel-broadcast enable
undo ipv6 nd ra tunnel-broadcast enable
Default
A VSI interface uses the global RA message tunneling configuration.
Views
VSI interface view
Predefined user roles
network-admin
Usage guidelines
By default, a distributed EVPN gateway drops the RS messages received from VXLAN tunnels and periodically advertises RA messages only to the local site. As a result, a distributed EVPN gateway does not send RA messages over VXLAN tunnels, and remote gateways cannot update information about the gateway based on RA messages. To resolve the issue, use this command to enable distributed EVPN gateways to reply to remote RS messages with RA messages and periodically advertise RA messages over VXLAN tunnels.
Examples
# Enable VSI-interface 100 to send RA messages over VXLAN tunnels.
<Sysname> system-view
[Sysname] interface vsi-interface 100
[Sysname-Vsi-interface100] ipv6 nd ra tunnel-broadcast enable
Related commands
ipv6 nd ra interval
ipv6 nd ra tunnel-broadcast global enable
ipv6 nd ra tunnel-broadcast global enable
Use ipv6 nd ra tunnel-broadcast global enable to globally enable VSI interfaces to send RA messages over VXLAN tunnels.
Use undo ipv6 nd ra tunnel-broadcast global enable to globally disable VSI interfaces from sending RA messages over VXLAN tunnels.
Syntax
ipv6 nd ra tunnel-broadcast global enable
undo ipv6 nd ra tunnel-broadcast global enable
Default
VSI interfaces do not send RA messages over VXLAN tunnels.
Views
System view
Predefined user roles
network-admin
Usage guidelines
By default, a distributed EVPN gateway drops the RS messages received from VXLAN tunnels and periodically advertises RA messages only to the local site. As a result, a distributed EVPN gateway does not send RA messages over VXLAN tunnels, and remote gateways cannot update information about the gateway based on RA messages. To resolve the issue, use this command to enable distributed EVPN gateways to reply to remote RS messages with RA messages and periodically advertise RA messages over VXLAN tunnels.
You can configure RA message tunneling for VSI interfaces globally or on a per-VSI interface basis. The global configuration takes effect on all VSI interfaces. The interface-specific configuration takes precedence over the global configuration on a VSI interface.
Examples
# Globally enable VSI interfaces to send RA messages over VXLAN tunnels.
<Sysname> system-view
[Sysname] ipv6 nd ra tunnel-broadcast global enable
Related commands
ipv6 nd ra interval
ipv6 nd ra tunnel-broadcast enable
l2vpn m-lag peer-link ac-match-rule vxlan-mapping
Use l2vpn m-lag peer-link ac-match-rule vxlan-mapping to enable the device to create frame match criteria based on VXLAN IDs for the dynamic ACs on the direct peer link.
Use undo l2vpn m-lag peer-link ac-match-rule vxlan-mapping to restore the default.
Syntax
l2vpn m-lag peer-link ac-match-rule vxlan-mapping
undo l2vpn m-lag peer-link ac-match-rule vxlan-mapping
Default
On an M-LAG system that uses a direct peer link, dynamic ACs on the peer link use frame match criteria that are identical to those of site-facing ACs.
Views
System view
Predefined user roles
network-admin
Usage guidelines
By default, if an M-LAG system uses a direct peer link, each M-LAG member device creates a dynamic AC on the peer link when an AC is configured on a site-facing interface. The dynamic AC and the site-facing AC have the same frame match criteria and VSI mapping. If two site-facing ACs on different interfaces have the same frame match criteria but different VSI mappings, the dynamic ACs created for the site-facing ACs will conflict with each other. To prevent this issue, enable the M-LAG member devices to create frame match criteria based on VXLAN IDs for the dynamic ACs on the peer link.
With this command configured, an M-LAG member device creates dynamic ACs on the peer link and maps them to the VSIs of VXLANs after the VXLANs are created. The matching VLAN IDs in frame match criteria are calculated for the dynamic ACs according to the following rules:
· Outer VLAN ID = VXLAN ID / 4094 + 1.
· Inner VLAN ID = VXLAN ID % 4094 + 1.
· If the calculated outer VLAN ID of a dynamic AC is the PVID of the peer-link interface, the device uses the calculated inner VLAN ID as the outer VLAN ID. The device does not add a matching inner VLAN ID to the frame match criterion of the dynamic AC.
After you execute this command, do not create VXLANs with IDs larger than 16000000.
This command deletes existing dynamic ACs from peer-link interfaces and takes effect on all VXLANs.
As a best practice, set the PVID to 4094 on the peer-link interfaces. If you fail to do so, an M-LAG member device might set the outer VLAN ID matched by an AC to the PVID of its peer-link interface. This error will affect forwarding of the underlay traffic whose VLAN ID is VXLAN ID%4094 + 1.
Examples
# Enable the device to create frame match criteria based on VXLAN IDs for the dynamic ACs on the Ethernet aggregate link peer link.
<Sysname> system-view
[Sysname] l2vpn m-lag peer-link ac-match-rule vxlan-mapping
l2vpn statistics vsi l3-vni
Use l2vpn statistics vsi l3-vni to enable traffic statistics for the VSIs that are automatically created for L3 VXLAN IDs.
Use undo l2vpn l3-vni vsi statistics to disable traffic statistics for the VSIs that are automatically created for L3 VXLAN IDs.
Syntax
l2vpn statistics vsi l3-vni
undo l2vpn statistics vsi l3-vni
Default
The traffic statistics feature is disabled for the VSIs that are automatically created for L3 VXLAN IDs.
Views
System view
Predefined user roles
network-admin
Usage guidelines
If you configure an L3 VXLAN ID on a distributed EVPN gateway, the gateway automatically creates a VSI for the L3 VXLAN ID. You cannot enter the view of such a VSI to configure settings on it.
This command enables the device to collect incoming and outgoing traffic statistics for the automatically created VSIs. You can use the display l2vpn vsi verbose command to view the traffic statistics and use the reset l2vpn statistics vsi command to clear the traffic statistics.
Examples
# Enable traffic statistics for the VSIs that are automatically created for L3 VXLAN IDs.
<Sysname> system-view
[Sysname] l2vpn statistics vsi l3-vni
Related commands
display l2vpn vsi verbose (VXLAN Command Reference)
reset l2vpn statistics vsi (VXLAN Command Reference)
l3-vni
Use l3-vni to configure an L3 VXLAN ID for a VSI interface or for the public instance.
Use undo l3-vni to remove the L3 VXLAN ID for a VSI interface or for the public instance.
Syntax
l3-vni vxlan-id
undo l3-vni
Default
No L3 VXLAN ID is configured for a VSI interface or for the public instance.
Views
VSI interface view
Public instance view
Predefined user roles
network-admin
Parameters
vxlan-id: Specifies a VXLAN ID. The value range for this argument is 0 to 16777215.
Usage guidelines
On distributed EVPN gateways, you must configure L3 VXLAN IDs for the gateways to differentiate traffic of different VPN instances.
To forward Layer 3 traffic of a VPN instance, you must assign an L3 VXLAN ID to the VSI interface of the VPN instance. To forward Layer 3 traffic of the public network, you must assign the same L3 VXLAN ID to the public instance and the VSI interface of the public instance.
To modify the L3 VXLAN ID for the public instance, you must first delete the original L3 VXLAN ID.
The L3 VXLAN ID specified by using this command cannot be the same as any VXLAN ID specified by using the mapping vni command.
Examples
# Configure the L3 VXLAN ID as 1000 for VSI-interface 100.
<Sysname> system-view
[Sysname] interface vsi-interface 100
[Sysname-Vsi-interface100] l3-vni 1000
mac-address forwarding-conversational-learning
Use mac-address forwarding-conversational-learning to enable conversational learning for remote MAC address entries.
Use undo mac-address forwarding-conversational-learning to disable conversational learning for remote MAC address entries.
Syntax
mac-address forwarding-conversational-learning
undo mac-address forwarding-conversational-learning
Default
Conversational learning is disabled for remote MAC address entries.
Views
System view
Predefined user roles
network-admin
Usage guidelines
Use this command only on an EVPN network.
By default, the device issues a remote MAC address entry to the hardware after the remote MAC address is advertised to the local site by BGP EVPN routes. This feature enables the device to issue a remote MAC address entry to the hardware only when the entry is required for packet forwarding. This feature saves hardware resources on the device.
With this feature enabled, the device generates a blackhole MAC address entry for an unknown MAC address if receiving 50 frames destined for that MAC address within the MAC aging time. Those blackhole MAC address entries age out when the MAC aging timer expires. After a blackhole MAC address entry ages out, the device can forward the traffic destined for the MAC address. For more information about the MAC aging time and blackhole MAC address entries, see MAC address table configuration in Layer 2—LAN Switching Configuration Guide.
Examples
# Enable conversational learning for remote MAC address entries.
<Sysname> system-view
[Sysname] mac-address forwarding-conversational-learning
mac-advertising disable
Use mac-advertising disable to disable MAC address advertisement and withdraw advertised MAC addresses.
Use undo mac-advertising disable to restore the default.
Syntax
mac-advertising disable
undo mac-advertising disable
Default
MAC address advertisement is enabled.
Views
EVPN instance view
VSI EVPN instance view
Predefined user roles
network-admin
Usage guidelines
The MAC information and ARP information advertised by the VTEP overlap. To avoid duplication, use this command to disable MAC address advertisement and withdraw the MAC addresses advertised to remote VTEPs.
Examples
# Disable MAC address advertisement and withdraw advertised MAC addresses for a VSI EVPN instance.
<Sysname> system-view
[Sysname] vsi aaa
[Sysname-vsi-aaa] evpn encapsulation vxlan
[Sysname-vsi-aaa-evpn-vxlan] mac-advertising disable
mapping vni
Use mapping vni to map a local VXLAN to a remote VXLAN.
Use undo mapping vni to restore the default.
Syntax
mapping vni vxlan-id
undo mapping vni
Default
A local VXLAN is not mapped to any remote VXLAN.
Views
VSI EVPN instance view
Predefined user roles
network-admin
Parameters
vxlan-id: Specifies a remote VXLAN ID. The value range for this argument is 0 to 16777215.
Usage guidelines
This command is supported only by EVPN instances that use VXLAN encapsulation.
The VXLAN mapping feature provides Layer 2 connectivity for a tenant subnet that uses different VXLAN IDs in multiple data centers.
VXLAN mapping includes the following types:
· Non-intermediate VXLAN mapping—When two data centers use different VXLAN IDs for a subnet, map the local VXLAN to the remote VXLAN on the ED of one data center. For example, for VXLAN 10 of data center 1 to communicate with VXLAN 20 of data center 2, map VXLAN 10 to VXLAN 20 on the ED of data center 1.
· Intermediate VXLAN mapping—When multiple data centers use different VXLAN IDs for a subnet, map the VXLANs to an intermediate VXLAN on all EDs. For example, data center 1 uses VXLAN 10, data center 2 uses VXLAN 20, and data center 3 uses VXLAN 30. To provide connectivity for the VXLANs, map them to intermediate VXLAN 500 on EDs of the data centers. You must use intermediate VXLAN mapping if more than two data centers use different VXLAN IDs. The intermediate VXLAN can be used only for VXLAN mapping, and it cannot be used for common VXLAN services.
You must create mapped remote VXLANs on the device, create an EVPN instance for each remote VXLAN, and configure RD and route target settings for the EVPN instances.
The mapped remote VXLAN ID cannot be any L3 VXLAN ID specified by using the l3-vni command or the reserved VXLAN ID specified by using the reserved vxlan command.
Examples
# Map local VXLAN 100 to remote VXLAN 200.
<Sysname> system-view
[Sysname] vsi aaa
[Sysname-vsi-aaa] vxlan 100
[Sysname-vsi-aaa-vxlan-100] quit
[Sysname-vsi-aaa] evpn encapsulation vxlan
[Sysname-vsi-aaa-evpn-vxlan] mapping vni 200
Related commands
reserved vxlan (VXLAN Command Reference)
mapping-vni-based smet
mapping-vni remove vpn-target
Use mapping-vni remove vpn-target to remove the route targets of VPN instances from BGP EVPN routes for mapped remote VXLANs.
Use undo mapping-vni remove vpn-target to restore the default.
Syntax
mapping-vni remove vpn-target
undo mapping-vni remove vpn-target
Default
The device does not remove the route targets of VPN instances from BGP EVPN routes for mapped remote VXLANs.
Views
BGP EVPN address family view
Predefined user roles
network-admin
Usage guidelines
This command enables an EVPN-DCI ED to remove the route targets of the VPN instances with L3 VXLAN IDs associated from BGP EVPN routes when the ED performs VXLAN mapping. It prevents remote EDs from adding the BGP EVPN routes for mapped remote VXLANs to the routing tables of VPN instances. If only Layer 2 connectivity is required between data centers, use this command on the EDs of the data centers to disable Layer 3 forwarding.
If the peer re-originated and mapping vni commands are used together on an ED, the ED advertises both original and reoriginated BGP EVPN routes that carry different VXLAN IDs. To avoid forwarding failure, use the mapping-vni remove vpn-target command to remove the route targets of VPN instances from the original BGP EVPN routes. This allows remote EDs to add only the reoriginated BGP EVPN routes to the routing tables of VPN instances.
Examples
# Remove the route targets of VPN instances from BGP EVPN routes for mapped remote VXLANs.
<Sysname> system-view
[Sysname] bgp 100
[Sysname-bgp-default] address-family l2vpn evpn
[Sysname-bgp-default-evpn] mapping-vni remove vpn-target
Related commands
mapping vni
peer re-originated
mapping-vni-based smet
Use mapping-vni-based smet to enable SMET route reorigination based on the remote VXLAN IDs in VXLAN mappings.
Use undo mapping-vni-based smet to restore the default.
Syntax
mapping-vni-based smet
undo mapping-vni-based smet
Default
The device does not reoriginate SMET routes based on mapped remote VXLAN IDs.
Views
VSI EVPN instance view
Predefined user roles
network-admin
Usage guidelines
This command enables Layer 2 multicast between two data centers that use different VXLAN IDs.
After you execute this command and the mapping vni command on an ED in an EVPN-DCI network, the ED performs the following operations:
1. Verifies that the route targets in a SMET route received from a remote ED or local VTEP match the import route targets of the local EVPN instance.
2. Replaces the route targets in the SMET route with those of the EVPN instance that uses the remote VXLAN ID mapped to the local VXLAN ID.
3. Advertises the SMET route to remote EDs or local VTEPs.
Examples
# Map local VXLAN 100 to remote VXLAN 200, and enable SMET route reorigination based on the remote VXLAN ID.
<Sysname> system-view
[Sysname] vsi aaa
[Sysname-vsi-aaa] vxlan 100
[Sysname-vsi-aaa-vxlan-100] quit
[Sysname-vsi-aaa] evpn encapsulation vxlan
[Sysname-vsi-aaa-evpn-vxlan] mapping vni 200
[Sysname-vsi-aaa-evpn-vxlan] mapping-vni-based smet
Related commands
mapping vni
nd-advertising enable
Use nd-advertising enable to enable ND information advertisement.
Use undo nd-advertising enable to disable ND information advertisement and withdraw advertised ND information.
Syntax
nd-advertising enable
undo nd-advertising enable
Default
ND information advertisement is enabled.
Views
EVPN instance view
VSI EVPN instance view
Predefined user roles
network-admin
Usage guidelines
In an EVPN network with distributed gateways, you can disable ND information advertisement for a VXLAN to save resources if all its user terminals use the same EVPN gateway device. The EVPN instance of the VXLAN will stop advertising ND information through MAC/IP advertisement routes and withdraw advertised ND information. When ND information advertisement is disabled, user terminals in other VXLANs still can communicate with that VXLAN through IP prefix advertisement routes.
Examples
# Disable ND information advertisement for a VSI EVPN instance.
<Sysname> system-view
[Sysname] vsi aaa
[Sysname-vsi-aaa] evpn encapsulation vxlan
[Sysname-vsi-aaa-evpn-vxlan] undo nd-advertising enable
nd mac-learning disable
Use nd mac-learning disable to disable a VSI EVPN instance from learning MAC addresses from ND information.
Use undo nd mac-learning disable to restore the default.
Syntax
nd mac-learning disable
undo nd mac-learning disable
Default
A VSI EVPN instance learns MAC addresses from ND information.
Views
EVPN instance view
VSI EVPN instance view
Predefined user roles
network-admin
Usage guidelines
The MAC information and ND information advertised by a remote VTEP overlap. To avoid duplication, use this command to disable the learning of MAC addresses from ND information. EVPN will learn remote MAC addresses only from the MAC information advertised from remote sites.
Examples
# Disable a VSI EVPN instance from learning MAC addresses from ND information.
<Sysname> system-view
[Sysname] vsi aaa
[Sysname-vsi-aaa] evpn encapsulation vxlan
[Sysname-vsi-aaa-evpn-vxlan] nd mac-learning disable
nexthop evpn-m-lag group-address
Use nexthop evpn-m-lag group-address to enable the device to replace the next hop in advertised BGP EVPN routes with the virtual VTEP address.
Use nexthop evpn-m-lag group-address to restore the default.
Syntax
nexthop evpn-m-lag group-address
undo nexthop evpn-m-lag group-address
Default
When advertising BGP EVPN routes to an EBGP peer or peer group, the device replaces the next hop with the IP address of the source interface used to establish BGP sessions. When advertising EBGP routes to an IBGP peer or peer group, the device does not modify the next hop.
Views
BGP EVPN address family view
Predefined user roles
network-admin
Usage guidelines
When you use M-LAG on EDs in an EVPN-DCI network, you must enable the EDs to replace the next hop in advertised BGP EVPN routes with the virtual VTEP address.
Examples
# Enable the device to replace the next hop in advertised BGP EVPN routes with the virtual VTEP address.
<Sysname> system-view
[Sysname] bgp 100
[Sysname-bgp-default] address-family l2vpn evpn
[Sysname-bgp-default-evpn] nexthop evpn-m-lag group-address
nexthop recursive-lookup default-route ignore
Use nexthop recursive-lookup default-route ignore to enable the device to ignore default routes in route recursion.
Use undo nexthop recursive-lookup default-route ignore to restore the default.
Syntax
nexthop recursive-lookup default-route ignore [ route-policy route-policy-name ]
undo nexthop recursive-lookup default-route ignore
Default
The device can select a default route for forwarding after performing route recursion.
Views
BGP EVPN address family view
Predefined user roles
network-admin
Parameters
route-policy route-policy-name: Specifies a routing policy by its name, a case-sensitive string of 1 to 63 characters. The device will ignore default routes when performing route recursion for the routes that match the if-match interface criterion in the routing policy. If you do not specify a routing policy or the specified routing policy does not exist, the device ignores default routes when performing route recursion for all received BGP routes.
Usage guidelines
|
|
CAUTION: After you execute this command, VXLAN tunnels might be reestablished, and transient VXLAN traffic loss might occur. As a best practice, enable BGP EVPN route reception and advertisement again after you execute this command. |
By default, the device selects a default route to forward traffic if only the default route is obtained after BGP route recursion. If the default route does not point to the desired next hop, traffic forwarding will fail.
To resolve this issue, enable the device to ignore default routes in route recursion. If only the default route is obtained after route recursion is performed for a BGP route, that BGP route becomes invalid, and other BGP routes with the same prefix are selected for forwarding.
Enable this feature if multiple links exist between the device and a destination IP address. If one of the links fail, traffic will be switched to the other available links instead of being incorrectly forwarded based on a default route.
Examples
# Enable the device to ignore default routes when it performs route recursion for the BGP EVPN routes that match routing policy policy1.
<Sysname> system-view
[Sysname] bgp 100
[Sysname-bgp-default] address-family l2vpn evpn
[Sysname-bgp-default-evpn] nexthop recursive-lookup default-route ignore route-policy policy1
Related commands
if-match interface (Layer 3—IP Routing Command Reference)
peer advertise evpn-route suppress
Use peer advertise evpn-route suppress to suppress the advertisement of specific BGP EVPN routes to a peer or peer group.
Use undo peer advertise evpn-route suppress to restore the default.
Syntax
peer { group-name | ipv4-address [ mask-length ] } advertise evpn-route suppress { ip-prefix | mac-ip }
undo peer { group-name | ipv4-address [ mask-length ] } advertise evpn-route suppress { ip-prefix | mac-ip }
Default
Advertisement of BGP EVPN routes is not suppressed.
Views
BGP EVPN address family view
Predefined user roles
network-admin
Parameters
group-name: Specifies a peer group by its name, a case-sensitive string of 1 to 47 characters. The peer group must exist.
ipv4-address: Specifies a peer by its IPv4 address. The peer must exist.
mask-length: Specifies a mask length in the range of 0 to 32. To specify a subnet, you must specify both the ipv4-address and mask-length arguments.
ip-prefix: Suppresses IP prefix advertisement routes.
mac-ip: Suppresses MAC/IP advertisement routes.
Usage guidelines
To reduce the number of BGP EVPN routes on EDs of an EVPN-DCI network, suppress the advertisement of specific BGP EVPN routes on the EDs.
If two VSI interfaces on EVPN gateways of different data centers use the same IP address, do not suppress the advertisement of MAC/IP advertisement routes on the EDs of the data centers. If you suppress the advertisement of these routes, the EDs cannot communicate with each other.
Examples
# Suppress the IP prefix advertisement routes advertised to peer 1.1.1.1.
<Sysname> system-view
[Sysname] bgp 100
[Sysname-bgp-default] address-family l2vpn evpn
[Sysname-bgp-default-evpn] peer 1.1.1.1 advertise evpn-route suppress ip-prefix
peer advertise original-route
Use peer advertise original-route to enable the device to advertise original BGP EVPN routes to a peer or peer group.
Use undo peer advertise original-route to disable the device from advertising original BGP EVPN routes to a peer or peer group.
Syntax
peer { group-name | ipv4-address [ mask-length ] | ipv6-address [ prefix-length ] } advertise original-route
undo peer { group-name | ipv4-address [ mask-length ] | ipv6-address [ prefix-length ] } advertise original-route
Default
The device advertises only reoriginated BGP EVPN routes to peers and peer groups after the peer re-originated command is executed.
Views
BGP EVPN address family view
Predefined user roles
network-admin
Parameters
group-name: Specifies a peer group by its name, a case-sensitive string of 1 to 47 characters. The peer group must exist.
ipv4-address: Specifies a peer by its IPv4 address. The peer must exist.
mask-length: Specifies a mask length in the range of 0 to 32. To specify a subnet, you must specify both the ipv4-address and mask-length arguments.
ipv6-address: Specifies a peer by its IPv6 address. The peer must exist.
prefix-length: Specifies a prefix length in the range of 0 to 128. To specify a subnet, you must specify both the ipv6-address and prefix-length arguments.
Usage guidelines
For this command to take effect on an ED, first execute the peer re-originated command.
In an EVPN-DCI network, an ED configured with the peer re-originated command advertises only reoriginated BGP EVPN routes. For the ED to advertise both original and reoriginated BGP EVPN routes to a peer or peer group, execute the peer advertise original-route command on the ED.
Examples
# Enable the device to advertise original BGP EVPN routes to peer 1.1.1.1.
<Sysname> system-view
[Sysname] bgp 100
[Sysname-bgp-default] address-family l2vpn evpn
[Sysname-bgp-default-evpn] peer 1.1.1.1 advertise original-route
Related commands
peer re-originated
peer suppress re-originated
peer advertise vpn-reoriginate ibgp
Use peer advertise vpn-reoriginate ibgp to enable advertising the IP prefix advertisement routes reoriginated for a VPN instance to an IBGP peer or peer group.
Use undo peer advertise vpn-reoriginate ibgp to restore the default.
Syntax
peer { group-name | ipv4-address [ mask-length ] } advertise vpn-reoriginate ibgp
undo { group-name | ipv4-address [ mask-length ] } peer advertise vpn-reoriginate ibgp
Default
The device does not advertise the IP prefix advertisement routes reoriginated for a VPN instance to IBGP peers or peer groups.
Views
BGP EVPN address family view
Predefined user roles
network-admin
Parameters
group-name: Specifies a peer group by its name, a case-sensitive string of 1 to 47 characters. The peer group must exist.
ipv4-address: Specifies a peer by its IPv4 address. The peer must exist.
mask-length: Specifies a mask length in the range of 0 to 32. To specify a subnet, you must specify both the ipv4-address and mask-length arguments.
Usage guidelines
For this command to take effect, you must also execute the advertise route-reoriginate command.
This command enables the device to advertise the IP prefix advertisement routes reoriginated for VPN instances to IBGP peers after the advertise route-reoriginate command is executed for the VPN instances.
Examples
# Enable advertising the IP prefix advertisement routes reoriginated for VPN instances to IBGP peer 1.1.1.1.
<Sysname> system-view
[Sysname] bgp 100
[Sysname-bgp-default] address-family l2vpn evpn
[Sysname-bgp-default-evpn] peer 1.1.1.1 advertise vpn-reoriginate ibgp
Related commands
advertise route-reoriginate (MPLS Command Reference)
peer default-gateway no-advertise
Use peer default-gateway no-advertise to remove the default-gateway extended community attribute from the EVPN gateway routes advertised to a peer or peer group.
Use undo peer default-gateway no-advertise to restore the default.
Syntax
peer { group-name | ipv4-address [ mask-length ] } default-gateway no-advertise
undo peer { group-name | ipv4-address [ mask-length ] } default-gateway no-advertise
Default
EVPN gateway routes advertised to peers and peer groups contain the default-gateway extended community attribute.
Views
BGP EVPN address family view
Predefined user roles
network-admin
Parameters
group-name: Specifies a peer group by its name, a case-sensitive string of 1 to 47 characters. The peer group must exist.
ipv4-address: Specifies a peer by its IPv4 address. The peer must exist.
mask-length: Specifies a mask length in the range of 0 to 32. To specify a subnet, you must specify both the ipv4-address and mask-length arguments.
Usage guidelines
An EVPN gateway route is the route for the IP address of a VSI interface on an EVPN gateway. By default, the EVPN gateway routes advertised by an EVPN gateway contain the default-gateway extended community attribute. The EVPN gateway routes with that attribute cannot be used as ECMP routes. You can use this command to remove the default-gateway extended community attribute from EVPN gateway routes for the routes to be used for load sharing.
Examples
# Remove the default-gateway extended community attribute from the EVPN gateway routes advertised to peer 1.1.1.1.
<Sysname> system-view
[Sysname] bgp 100
[Sysname-bgp-default] address-family l2vpn evpn
[Sysname-bgp-default-evpn] peer 1.1.1.1 default-gateway no-advertise
peer next-hop-invariable
Use peer next-hop-invariable to configure the device to not change the next hop of routes advertised to an EBGP peer or peer group.
Use undo peer next-hop-invariable to configure the device to use its address as the next hop of routes advertised to an EBGP peer or peer group.
Syntax
peer { group-name | ipv4-address [ mask-length ] } next-hop-invariable
undo peer { group-name | ipv4-address [ mask-length ] } next-hop-invariable
Default
The device uses its address as the next hop of routes advertised to EBGP peers or peer groups.
Views
BGP EVPN address family view
Predefined user roles
network-admin
Parameters
group-name: Specifies a peer group by its name, a case-sensitive string of 1 to 47 characters.
ipv4-address: Specifies a peer by its IPv4 address.
mask-length: Specifies a mask length in the range of 0 to 32. To specify a subnet, you must specify both the ipv4-address and mask-length arguments.
Usage guidelines
When you use this command and the peer next-hop-local command, follow these restrictions:
· The peer next-hop-invariable command is exclusive with the peer next-hop-local command. You can execute only one of these commands for a peer or peer group.
· If you have executed the peer next-hop-invariable command for a peer group, you cannot execute the peer next-hop-local command for any peer in the peer group.
· When you execute the peer next-hop-local command for a peer group whose members already have the peer next-hop-invariable setting, the peer next-hop-local command overwrites that setting.
The next hop in BGP EVPN routes is the IP address of the originating VTEP. By default, the device replaces the next hop of IBGP routes with its address when advertising the routes to an EBGP peer. If the device is a transport network device, it will modify the next hop of BGP EVPN routes. For VTEPs to learn one another's IP address, you must configure the device to not change the next hop of routes advertised to EBGP peers.
Examples
# Configure the device to not change the next hop of routes advertised to EBGP peer 1.1.1.1.
<Sysname> system-view
[Sysname] bgp 100
[Sysname-bgp-default] address-family l2vpn evpn
[Sysname-bgp-default-evpn] peer 1.1.1.1 next-hop-invariable
Related commands
peer next-hop-local (Layer 3—IP Routing Command Reference)
peer re-originated
Use peer re-originated to modify the information in received BGP EVPN routes.
Use undo peer re-originated to restore the default.
Syntax
peer { group-name | ipv4-address [ mask-length ] } re-originated [ imet | ip-prefix | mac-ip ] [ replace-rt ]
peer { group-name | ipv4-address [ mask-length ] } re-originated [ s-pmsi | smet ] [ replace-rt ]
undo peer { group-name | ipv4-address [ mask-length ] } re-originated [ imet | ip-prefix | mac-ip ]
undo peer { group-name | ipv4-address [ mask-length ] } re-originated [ s-pmsi | smet ] [ replace-rt ]
Default
The device does not modify the BGP EVPN routes that are received from peers or peer groups.
Views
BGP EVPN address family view
Predefined user roles
network-admin
Parameters
group-name: Specifies a peer group by its name, a case-sensitive string of 1 to 47 characters. The peer group must exist.
ipv4-address: Specifies a peer by its IPv4 address. The peer must exist.
mask-length: Specifies a mask length in the range of 0 to 32. To specify a subnet, you must specify both the ipv4-address and mask-length arguments.
imet: Specifies IMET routes.
ip-prefix: Specifies IP prefix advertisement routes.
mac-ip: Specifies MAC/IP advertisement routes.
s-pmsi: Specifies S-PMSI routes.
smet: Specifies SMET routes.
replace-rt: Replaces the L3 VXLAN ID, RD, and route targets of BGP EVPN routes with those of the matching local VPN instance. If you do not specify this keyword, only the L3 VXLAN ID and RD will be replaced.
Usage guidelines
In an EVPN-DCI network, use this command to hide the L3 VXLAN IDs of data centers or enable communication between data centers that use different L3 VXLAN IDs or route targets.
After you execute this command on an ED, the ED performs the following operations after receiving BGP EVPN routes:
1. Matches the route targets of the routes with the import route targets of local VPN instances.
2. Replaces the L3 VXLAN ID, RD, and route targets of the routes with those of the matching local VPN instance.
3. Advertises the routes to a VTEP or remote ED.
After you execute this command, an ED advertises only modified BGP EVPN routes. The original BGP EVPN routes are not advertised. To advertise the original BGP EVPN routes, use the peer advertise original-route command.
If the RD of a received BGP EVPN route is identical to the RD of the matching local VPN instance, an ED does not replace the L3 VXLAN ID and route targets of the route or regenerate the route. As a result, the ED does not advertise the route. As a best practice, assign unique RDs to VPN instances on different EVPN gateways and EDs if you use the peer re-originated command.
If you do not specify a route type, this command applies to IP prefix advertisement routes.
Examples
# Replace the L3 VXLAN ID, RD, and route targets of received IP prefix advertisement routes.
<Sysname> system-view
[Sysname] bgp 100
[Sysname-bgp-default] address-family l2vpn evpn
[Sysname-bgp-default-evpn] peer 1.1.1.1 re-originated replace-rt
Related commands
peer advertise original-route
peer suppress re-originated
peer router-mac-local
Use peer router-mac-local to enable route router MAC replacement for a peer or peer group.
Use undo peer router-mac-local to cancel route router MAC replacement configuration for a peer or peer group.
Syntax
peer { group-name | ipv4-address [ mask-length ] } router-mac-local [ dci ]
undo peer { group-name | ipv4-address [ mask-length ] } router-mac-local
Default
The device does not modify the router MAC address of routes before advertising the routes.
Views
BGP EVPN address family view
Predefined user roles
network-admin
Parameters
group-name: Specifies a peer group by its name, a case-sensitive string of 1 to 47 characters. The peer group must exist.
ipv4-address: Specifies a peer by its IPv4 address. The peer must exist.
mask-length: Specifies a mask length in the range of 0 to 32. To specify a subnet, you must specify both the ipv4-address and mask-length arguments
dci: Establishes VXLAN-DCI tunnels with the peer or peer group. If you do not specify this keyword, whether the device establishes VXLAN-DCI tunnels with the peer or peer group depends on the dci enable command configuration in interface view.
Usage guidelines
This command enables an ED to use its router MAC address to replace the router MAC address of routes received from and advertised to a peer or peer group in the local data center. The router MAC replacement process is as follows:
· For routes received from the peer or peer group, the ED performs router MAC replacement and advertises the routes to remote EDs.
· For routes received from a remote data center, the ED performs router MAC replacement and advertises the routes to the peer or peer group.
Examples
# In BGP EVPN address family view, enable route router MAC replacement for peer 1.1.1.1.
<Sysname> system-view
[Sysname] bgp 100
[Sysname-bgp-default] address-family l2vpn evpn
[Sysname-bgp-default-evpn] peer 1.1.1.1 router-mac-local
peer suppress re-originated
Use peer suppress re-originated to suppress advertisement of reoriginated BGP EVPN routes to a peer or peer group.
Use undo peer suppress re-originated to disable suppression of reoriginated BGP EVPN route advertisement to a peer or peer group.
Syntax
peer { group-name | ipv4-address [ mask-length ] | ipv6-address [ prefix-length ] } suppress re-originated { imet | ip-prefix | mac-ip }
undo peer { group-name | ipv4-address [ mask-length ] | ipv6-address [ prefix-length ] } suppress re-originated { imet | ip-prefix | mac-ip }
Default
The device advertises reoriginated BGP EVPN routes to peers and peer groups after the peer re-originated command is executed.
Views
BGP EVPN address family view
Predefined user roles
network-admin
Parameters
group-name: Specifies a peer group by its name, a case-sensitive string of 1 to 47 characters. The peer group must exist.
ipv4-address: Specifies a peer by its IPv4 address. The peer must exist.
mask-length: Specifies a mask length in the range of 0 to 32. To specify a subnet, you must specify both the ipv4-address and mask-length arguments.
ipv6-address: Specifies a peer by its IPv6 address. The peer must exist.
prefix-length: Specifies a prefix length in the range of 0 to 128. To specify a subnet, you must specify both the ipv6-address and prefix-length arguments.
imet: Specifies IMET routes.
ip-prefix: Specifies IP prefix advertisement routes.
mac-ip: Specifies MAC/IP advertisement routes.
Usage guidelines
An ED configured with the peer re-originated and peer advertise original-route commands advertises both original and reoriginated BGP EVPN routes. For the ED to advertise only original BGP EVPN routes to a peer or peer group, execute the peer suppress re-originated command on the ED.
Examples
# Suppress advertisement of reoriginated IP prefix advertisement routes to peer 1.1.1.1.
<Sysname> system-view
[Sysname] bgp 100
[Sysname-bgp-default] address-family l2vpn evpn
[Sysname-bgp-default-evpn] peer 1.1.1.1 suppress re-originated ip-prefix
Related commands
peer advertise original-route
peer re-originated
ping evpn
Use ping evpn to test the reachability of a remote PE in an EVPN VPLS network.
Syntax
ping evpn vsi vsi-name mac mac-address [ -a source-ip | -c count | -exp exp-value | -h ttl-value | -m wait-time | -r reply-mode | -rtos tos-value | -s packet-size | -t time-out | -v ] *
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.
mac mac-address: Specifies a VM attached to a remote PE by its MAC address in H-H-H format. Do not specify a broadcast MAC address, multicast MAC address, or all-zeros MAC address.
-a source-ip: Specifies the source IP address of EVPN MAC echo requests. If you do not specify a source IP address, the primary IP address of the traffic outgoing interface is used as the source IP address of EVPN MAC echo requests.
-c count: Specifies the number of EVPN MAC echo requests to be sent. The value range for the count argument is 1 to 4294967295, and the default value is 5.
-exp exp-value: Specifies the EXP value of EVPN MAC echo requests. The value range for the exp-value argument is 0 to 7, and the default value is 0.
-h ttl-value: Specifies the TTL value of EVPN MAC echo requests. The value range for the ttl-value argument is 1 to 255, and the default value is 255.
-m wait-time: Specifies the interval for sending EVPN MAC echo requests, in milliseconds. The value range for the wait-time argument is 1 to 10000, and the default value is 200.
-r reply-mode: Specifies the reply mode used by the receiver to reply to EVPN MAC echo requests. The value of the reply-mode argument can be 1 or 2, and the default value is 2. The value 1 represents no reply, and the value 2 represents replying with UDP packets.
-rtos tos-value: Specifies the ToS value in the IP header of EVPN MAC echo replies. The value range for the tos-value argument is 0 to 7, and the default value is 6.
-s packet-size: Specifies the length of EVPN MAC echo requests, in bytes. The value range for the packet-size argument is 81 to 8100, and the default value is 100. The specified packet length does not include the IP header and UDP header length.
-t time-out: Specifies the timeout time of EVPN MAC echo replies, in milliseconds. The value range for the time-out argument is 0 to 65535, and the default value is 2000. If the device does not receive an EVPN MAC echo reply within the timeout time after sending an EVPN MAC echo request, it determines the EVPN MAC echo reply times out.
-v: Displays detailed reply information. If you do not specify this keyword, the command displays brief reply information.
Usage guidelines
You can use this command to detect connectivity of the PWs to remote PEs when traffic loss or interruption occurs in an EVPN VPLS network.
After you execute this command, the device sends EVPN MAC echo requests encapsulated with the PW labels of the corresponding VSI to the specified destination. When receiving these requests, the remote PE looks up the routing table and replies to the source IP address of the requests with EVPN MAC echo replies. Then, the device outputs traffic statistics based on the EVPN MAC echo replies it receives.
Examples
# Ping the remote VM with MAC address 2-2-2 in an EVPN VPLS network.
<System> ping evpn vsi vpna mac 2-2-2
Ping remote PE with MAC 0002-0002-0002: 100 data bytes.
Press CTRL_C to break.
100 bytes from 50.1.1.12: Sequence=1 time=1 ms
100 bytes from 50.1.1.12: Sequence=2 time=2 ms
100 bytes from 50.1.1.12: Sequence=3 time=1 ms
100 bytes from 50.1.1.12: Sequence=4 time=2 ms
100 bytes from 50.1.1.12: Sequence=5 time=1 ms
--- Ping statistics for mac 0002-0002-0002 ---
5 packets transmitted, 5 packets received, 0.0% packet loss
Round-trip min/avg/max = 1/1/2 ms
policy vpn-target
Use policy vpn-target to enable route target filtering for BGP EVPN routes.
Use undo policy vpn-target to disable route target filtering for BGP EVPN routes.
Syntax
policy vpn-target
undo policy vpn-target
Default
Route target filtering is enabled for BGP EVPN routes.
Views
BGP EVPN address family view
Predefined user roles
network-admin
Usage guidelines
When route target filtering is enabled for BGP EVPN routes, the EVPN routing table accepts only BGP EVPN routes of which the export route targets match the local import route targets. If the device must save all BGP EVPN routes, use the undo policy vpn-target command to disable route target filtering for BGP EVPN routes.
Examples
# Disable route target filtering for BGP EVPN routes.
<Sysname> system-view
[Sysname] bgp 100
[Sysname-bgp-default] address-family l2vpn evpn
[Sysname-bgp-default-evpn] undo policy vpn-target
reset evpn route arp-mobility suppression
Use reset evpn route arp-mobility suppression to cancel ARP mobility event suppression.
Syntax
reset evpn route arp-mobility suppression [ public-instance | vpn-instance vpn-instance-name [ ip ip-address ] ]
Views
User view
Predefined user roles
network-admin
Parameters
public-instance: Specifies the public instance.
vpn-instance vpn-instance-name: Specifies an MPLS L3VPN instance by its name, a case-sensitive string of 1 to 31 characters.
ip ip-address: Specifies an IPv4 address in dotted decimal notation. If you do not specify an IPv4 address, this command cancels the suppression done on all ARP entries of the public instance or specified MPLS L3VPN instance.
Usage guidelines
Use this command to cancel the ARP mobility event suppression done on IPv4 addresses. After you cancel suppression for an IPv4 address, the IPv4 address can move between sites, and the device advertises ARP information for the IPv4 address. The device still suppresses the IPv4 address if the suppression criteria are met.
If you do not specify the public instance or an MPLS L3VPN instance, this command cancels ARP mobility event suppression for the public instance and all MPLS L3VPN instances.
Examples
# Cancel the ARP mobility event suppression done on 1.1.1.1 of VPN instance vpna.
<Sysname> reset evpn route arp-mobility suppression vpn-instance vpna ip 1.1.1.1
Related commands
display evpn route arp-mobility
reset evpn route mac-mobility suppression
Use reset evpn route mac-mobility suppression to cancel MAC mobility event suppression.
Syntax
reset evpn route mac-mobility suppression [ vsi vsi-name [ mac mac-address ] ]
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 this option, the command cancels suppression on MAC addresses for all VSIs.
mac mac-address: Specifies a MAC address in the format of H-H-H. You can omit the consecutive zeros at the beginning of each segment. For example, you can enter f-e2-1 for 000f-00e2-0001. If you do not specify a MAC address, this command cancels suppression all MAC addresses of the specified VSI.
Usage guidelines
Use this command to cancel the MAC mobility event suppression done on MAC addresses. After you cancel suppression for a MAC address, the MAC address can move between sites, and the device advertises the MAC address entry. The device still suppresses the MAC address if the suppression criteria are met.
Examples
# Cancel the MAC mobility event suppression done on 1-1-1 of VSI vpna.
<Sysname> reset evpn route mac-mobility suppression vsi vpna mac 1-1-1
Related commands
display evpn route mac-mobility
reset evpn route nd-mobility suppression
Use reset evpn route nd-mobility suppression to cancel ND mobility event suppression.
Syntax
reset evpn route nd-mobility suppression [ public-instance | vpn-instance vpn-instance-name [ ipv6 ipv6-address ] ]
Views
User view
Predefined user roles
network-admin
Parameters
public-instance: Specifies the public instance.
vpn-instance vpn-instance-name: Specifies an MPLS L3VPN instance by its name, a case-sensitive string of 1 to 31 characters.
ipv6 ipv6-address: Specifies an IPv6 address. If you do not specify an IPv6 address, this command cancels suppression on all ND entries of the public instance or specified MPLS L3VPN instance.
Usage guidelines
Use this command to cancel the ND mobility event suppression done on IPv6 addresses. After you cancel suppression for an IPv6 address, the IPv6 address can move between sites, and the device advertises ND information for the IPv6 address. The device still suppresses the IPv6 address if the suppression criteria are met.
If you do not specify the public instance or an MPLS L3VPN instance, this command cancels ND mobility event suppression for the public instance and all MPLS L3VPN instances.
Examples
# Cancel the ND mobility event suppression done on 1::1 of VPN instance vpna.
<Sysname> reset evpn route nd-mobility suppression vpn-instance vpna ip 1::1
Related commands
display evpn route nd-mobility
route-distinguisher
Use route-distinguisher to configure an RD for an EVPN instance or the public instance.
Use undo route-distinguisher to restore the default.
Syntax
In public instance view or EVPN instance view:
route-distinguisher route-distinguisher
undo route-distinguisher
In VSI EVPN instance view or cross-connect group EVPN instance view:
route-distinguisher { route-distinguisher | auto [ router-id ] }
undo route-distinguisher
Default
No RD is configured for an EVPN instance or the public instance.
Views
Public instance view
EVPN instance view
Cross-connect group EVPN instance view
VSI EVPN instance view
Predefined user roles
network-admin
Parameters
route-distinguisher: Specifies an RD, a string of 3 to 21 characters. The RD cannot be all zeros and can use one of the following formats:
· 16-bit AS number:32-bit user-defined number. For example, 101:3.
· 32-bit IP address:16-bit user-defined number. For example, 192.168.122.15:1.
· 32-bit AS number:16-bit user-defined number. For example, 65536:1. The AS number must be equal to or greater than 65536.
auto: Automatically generates an RD in the N:VXLAN ID format. The initial value of N is 1. If N:VXLAN ID is already in use, the system increases the value of N by 1 until the RD is available.
router-id: Automatically generates an RD based on the router ID in the Router ID:N format. The initial value of N is 1. If Router ID:N is already in use, the system increases the value of N by 1 until the RD is available. If you do not specify this keyword with the auto keyword, the system automatically generates an RD based on the VXLAN ID in the N:VXLAN ID format.
Usage guidelines
EVPN uses MP-BGP to advertise BGP EVPN routes for automatic VTEP or PE discovery, MAC reachability information advertisement, and host route advertisement. MP-BGP uses the RD to differentiate BGP EVPN routes of different EVPN instances.
To modify the RD of an EVPN instance or the public instance, first execute the undo route-distinguisher command to remove the original RD.
Examples
# Configure 22:1 as the RD of the EVPN instance on VSI aaa.
<Sysname> system-view
[Sysname] vsi aaa
[Sysname-vsi-aaa] evpn encapsulation vxlan
[Sysname-vsi-aaa-evpn-vxlan] route-distinguisher 22:1
rr-filter
Use rr-filter to create a route reflector (RR) reflection policy.
Use undo rr-filter to restore the default.
Syntax
rr-filter ext-comm-list-number
undo rr-filter
Default
An RR does not filter reflected BGP EVPN routes.
Views
BGP EVPN address family view
Predefined user roles
network-admin
Parameters
ext-comm-list-number: Specifies an extended community attribute list by its number in the range of 1 to 65535.
Usage guidelines
This command enables an RR to reflect only received BGP EVPN routes that match the attributes in the specified extended community attribute list.
If a cluster contains multiple RRs, you can configure different reflection policies on the RRs for load sharing among the RRs.
For more information about the extended community attribute list, see Layer 3—IP Routing Configuration Guide.
Examples
# Configure a reflection policy for the device to reflect BGP EVPN routes that match extended community attribute list 10.
<Sysname> system-view
[Sysname] bgp 100
[Sysname-bgp-default] address-family l2vpn evpn
[Sysname-bgp-default-evpn] rr-filter 10
Related commands
ip extcommunity-list (Layer 3—IP Routing Command Reference)
snmp-agent trap enable evpn
Use snmp-agent trap enable evpn to enable SNMP notifications for EVPN.
Syntax
snmp-agent trap enable evpn [ mac-mobility-suppression ]
undo snmp-agent trap enable evpn [ mac-mobility-suppression ]
Views
System view
Default
SNMP notifications are disabled for EVPN.
Predefined user roles
network-admin
Parameters
mac-mobility-suppression: Specifies the MAC mobility suppression notification.
Usage guidelines
If SNMP notifications are enabled for EVPN, a MAC mobility suppression notification is sent to SNMP module after the MAC mobility suppression threshold is reached. For SNMP notifications to be sent correctly, you must also configure SNMP on the device. For more information about SNMP configuration, see Network Management and Monitoring Configuration Guide.
If you do not specify any parameter, all EVPN notifications are enabled or disabled.
Examples
# Enable SNMP notifications for EVPN.
<Sysname> system-view
[Sysname] snmp-agent trap enable evpn
vpn-route cross multipath
Use vpn-route cross multipath to enable ECMP VPN route redistribution.
Use undo vpn-route cross multipath to disable ECMP VPN route redistribution.
Syntax
vpn-route cross multipath
undo vpn-route cross multipath
Default
ECMP VPN route redistribution is disabled. If multiple routes have the same prefix and RD, BGP only imports the optimal route into the EVPN routing table.
Views
BGP EVPN address family view
Predefined user roles
network-admin
Usage guidelines
ECMP VPN route redistribution enables BGP to import all routes that have the same prefix and RD into the EVPN routing table.
Examples
# Enable ECMP VPN route redistribution.
<Sysname> system-view
[Sysname] bgp 100
[Sysname-bgp-default] address-family l2vpn evpn
[Sysname-bgp-default-evpn] vpn-route cross multipath
vpn-target
Use vpn-target to configure route targets for EVPN.
Use undo vpn-target to delete route targets for EVPN.
Syntax
In VSI EVPN instance view:
vpn-target { vpn-target&<1-8> | auto } [ both | export-extcommunity | import-extcommunity ]
undo vpn-target { vpn-target&<1-8> | auto | all } [ both | export-extcommunity | import-extcommunity ]
VPN instance EVPN view, public instance view, public instance IPv4 address family view, public instance IPv6 address family view, EVPN instance view, or public instance EVPN view:
vpn-target vpn-target&<1-8> [ both | export-extcommunity | import-extcommunity ]
undo vpn-target { all | vpn-target&<1-8> [ both | export-extcommunity | import-extcommunity ] }
Default
EVPN does not have route targets.
Views
EVPN instance view
VSI EVPN instance view
VPN instance EVPN view
Public instance view
Public instance EVPN view
Public instance IPv4 address family view
Public instance IPv6 address family view
Predefined user roles
network-admin
Parameters
vpn-target&<1-8>: Specifies a space-separated list of up to eight route targets. Each route target is a string of 3 to 21 characters in one of the following formats:
· 16-bit AS number:32-bit user-defined number. For example, 101:3.
· 32-bit IP address:16-bit user-defined number. For example, 192.168.122.15:1.
· 32-bit AS number:16-bit user-defined number. For example, 65536:1. The AS number must be equal to or greater than 65536.
auto: Automatically generates a route target in the format of BGP AS number:VXLAN ID.
both: Uses the specified route targets as both import and export targets. If you do not specify the both, export-extcommunity, or import-extcommunity keyword, the both keyword applies.
export-extcommunity: Uses the specified route targets as export targets.
import-extcommunity: Uses the specified route targets as import targets.
all: Specifies all route targets.
Usage guidelines
EVPN uses MP-BGP to advertise BGP EVPN routes for automatic VTEP or PE discovery, MAC reachability information advertisement, and host route advertisement. MP-BGP uses route targets to control the advertisement and acceptance of BGP EVPN routes.
A VTEP or PE sets the export targets for BGP EVPN routes before advertising the routes to remote VTEPs or PEs. The VTEP or PE checks the export targets of BGP EVPN routes from remote VTEPs or PEs and imports only BGP EVPN routes of which the export targets match the local import targets.
If you execute this command multiple times, all configured route targets take effect.
Examples
# Configure import route targets 10:1, 100:1, and 1000:1 for the EVPN instance on VSI aaa.
<Sysname> system-view
[Sysname] vsi aaa
[Sysname-vsi-aaa] evpn encapsulation vxlan
[Sysname-vsi-aaa-evpn-vxlan] vpn-target 10:1 100:1 1000:1 import-extcommunity
