Virtual Extensible LAN
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Virtual eXtensible LAN (VXLAN) is a network virtualization technology that uses a VLAN-like encapsulation technique to encapsulate OSI layer 2 Ethernet frames within layer 4 UDP datagrams, using 4789 as the default IANA-assigned destination UDP port number, although many implementations that predate the IANA assignment use port 8472. VXLAN attempts to address the scalability problems associated with large cloud computing deployments. VXLAN endpoints, which terminate VXLAN tunnels and may be either virtual or physical switch ports, are known as VXLAN tunnel endpoints (VTEPs).
History
VXLAN is an evolution of efforts to standardize on an overlay encapsulation protocol. Compared to single-tagged IEEE 802.1Q VLANs which provide a limited number of layer-2 VLANs (4094, using a 12-bit VLAN ID), VXLAN increases scalability up to about 16 million logical networks (using a 24-bit VNID) and allows for layer-2 adjacency across IP networks. Multicast or unicast with head-end replication (HER) is used to flood Broadcast, unknown-unicast and multicast traffic.
The VXLAN specification was originally created by VMware, Arista Networks and Cisco.
Implementations
VXLAN is widely, but not universally, implemented in commercial networking equipment. Several open-source implementations of VXLAN also exist.
Commercial
Arista, Cisco, and VMware were the originators of VXLAN and support it in various products.
Other backers of the VXLAN technology include Adtran, Arrcus, Big Switch Networks, Broadcom, Citrix, Cumulus Networks, Dell EMC, Ericsson, Huawei, Joyent, Juniper Networks, Mellanox, MikroTik, Netgate, Netgear, Pica8, and Red Hat.
Open source
- FreeBSD,
- OpenBSD,
- Linux,
- Open vSwitch is an example of a software-based virtual network switch that supports VXLAN overlay networks.
Standards specifications
VXLAN is officially documented by the IETF in RFC 7348. VXLAN encapsulates a MAC frame in a UDP datagram for transport across an IP network, creating an overlay network or tunnel.
Alternative technologies
Alternative technologies addressing the same or similar operational concerns include:
- IEEE 802.1ad ("Q-in-Q"), which greatly increases the number of VLANs supported by standard IEEE 802 Ethernet beyond 4K.
- IEEE 802.1ah ("MAC-in-MAC"), which supports tunneling Ethernet in a way that greatly increases the number of VLANs supported while avoiding a large increase in the size of the MAC Address table in a Carrier Ethernet deployment.
- Network Virtualization using Generic Route Encapsulation (NVGRE), which uses different framing but has similar goals to VxLAN.
See also
- Distributed Overlay Virtual Ethernet (DOVE)
- Ethernet VPN (EVPN)
- GENEVE, an industry effort to unify both VXLAN and NVGRE technologies
- Generic routing encapsulation (GRE)
- IEEE 802.1ad, an Ethernet networking standard, also known as provider bridging, Stacked VLANs, or simply Q-in-Q.
- IEEE 802.1ah, an IEEE Ethernet networking standard, also known as Provider Backbone Bridging (PBB) or MAC-in-MAC.
- NVGRE, Network Virtualization using GRE, which is a similar competing specification to VxLAN.
- Overlay Transport Virtualization (OTV)
- Virtual LAN (VLAN)
- Layer 2 Tunneling Protocol (L2TP)
External links
- and , November 2012, by Joe Onisick