This feature introduces support for ACL configuration on VXLAN decapsulated packets. The configured ACL rules will

VXLAN UDP ESP support allows the customer to encrypt traffic between two VXLAN VTEPs. The frame

The sFlow VXLAN extension adds support for providing VXLAN-related information to sFlow packet samples, for VXLAN forwarded traffic. Specifically, for customer traffic ingressing on a CE-facing PE interface and forwarded into a VXLAN tunnel, the IP address of the source VTEP, the IP address of the destination VTEP and the VNI will be included in the sFlow datagram.

Prior to 4.25.2F, support for BGP PIC was restricted to locally identifiable failures such as link failures. If a

The VLAN interface (SVI) counter feature allows the device to count packets received and sent by the device on a per SVI basis. By default, in a VXLAN routing scenario, packets are not counted on the "overlay" SVI. The platform CLI command described below allows for counting on the overlay SVI. When enabled, this feature still permits counting on underlay network SVIs

Prior to this feature, we supported a maximum of two levels of Forward Equivalence Class (FEC) hierarchies for vxlan routing tunnels in hardware.

Overlay IPv6 routing over VXLAN tunnel using an anycast gateway (direct routing) has been previously supported using the “ipv6 virtual-router” configuration for both the data-plane and EVPN (or CVX) control-plane learning environments. 

Several customers have expressed interest in using IPv6 addresses for VxLAN underlay in their Data Centers (DC). Prior to 4.27.2F, only IPv4 addresses are supported for VxLAN underlay, i.e VTEPs are reachable via IPv4 addresses only. This feature enables a VTEP to send VxLAN Encapsulated packets using IPv6 underlay.

This feature expands Multi Domain EVPN VXLAN to support an Anycast Gateway model as the mechanism for gateway

This feature enables support for migrating from only using VCS as the control plane to only using EVPN as a control

VCS EVPN VXLAN 4.23.1F

VXLAN flood lists are typically configured via CLI or learned via control plane sources such as EVPN. The

Current VXLAN decapsulation logic requires the following hits on affected switches listed in the following

VRF VXLAN 4.26.2F

This feature allows selecting Differentiated Services Code Point (DSCP) and Traffic Class (TC) values for packets at VTEPs along VXLAN encapsulation and decapsulation directions respectively. DSCP is a field in IP Header and TC is a tag associated with a packet within the switch, both influence the Quality of Service the packet receives. This feature can be enabled via configuration as explained later in this document.

In EOS 4.18.0F, VXLAN direct routing was introduced on the 7500R and 7280E/R series platforms. VXLAN routing

VXLAN ARP and IPv6 Neighbor Discovery (NDP) packet headend replication capability via VxlanSwFwd matches the COPP rate limit for these packets for the supported platforms regardless of the size of the VXLAN flood VTEP list. However, there still remains a case where the handling capacity is limited by CPU: the handling of ARP broadcast and NS multicast that result from Glean traffic (post routing).

Configuration of VXLAN overlay using EVPN allows for extension of Layer 2 (L2) or Layer 3 (L3) networks across

VXLAN 4.21.3F

The VXLAN VNI counters feature allows the device to count VXLAN packets received and sent by the device on a per VNI basis. Specifically, it enables the device to count bytes and packets that are encapsulated and decapsulated as they are passing through.

The VxLAN VTEP and VNI counters feature allows the device to count VxLAN packets received and sent by the device on a per

The VxLAN VTEP counters feature allows the device to count VxLAN packets received and sent by the device on a per

The VxLAN VTEP counters feature allows the device to count VxLAN packets received and sent by the device on a per VTEP

The VxLAN VTEP counters feature allows the device to count VxLAN packets received and sent by the device on a per VTEP

The “vxlan bridging vtep to vtep” feature allows VXLAN encapsulated packets ingressed at an Arista switch from a