Deployment Guide
Table Of Contents
- VXLAN and BGP EVPN Configuration Guide for Dell EMC SmartFabric OS10 Release 10.5.0
- VXLAN
- VXLAN concepts
- VXLAN as NVO solution
- Configure VXLAN
- L3 VXLAN route scaling
- Overlay ECMP for L3 prefix routes
- DHCP relay on VTEPs
- View VXLAN configuration
- VXLAN MAC addresses
- VXLAN commands
- hardware overlay-ecmp-profile mode
- hardware overlay-routing-profile
- interface virtual-network
- ip virtual-router address
- ip virtual-router mac-address
- member-interface
- nve
- remote-vtep
- show hardware overlay-ecmp-profile mode
- show hardware overlay-routing-profile mode
- show interface virtual-network
- show nve remote-vtep
- show nve remote-vtep counters
- show nve vxlan-vni
- show virtual-network
- show virtual-network counters
- show virtual-network interface counters
- show virtual-network interface
- show virtual-network vlan
- show vlan (virtual network)
- source-interface loopback
- virtual-network
- virtual-network untagged-vlan
- vxlan-vni
- VXLAN MAC commands
- clear mac address-table dynamic nve remote-vtep
- clear mac address-table dynamic virtual-network
- show mac address-table count extended
- show mac address-table count nve
- show mac address-table count virtual-network
- show mac address-table extended
- show mac address-table nve
- show mac address-table virtual-network
- Example: VXLAN with static VTEP
- BGP EVPN for VXLAN
- BGP EVPN compared to static VXLAN
- VXLAN BGP EVPN operation
- Disable RT ASN in BGP EVPN
- Configure BGP EVPN for VXLAN
- VXLAN BGP EVPN routing
- BGP EVPN with VLT
- VXLAN BGP commands
- VXLAN EVPN commands
- Example: VXLAN with BGP EVPN
- Example: VXLAN BGP EVPN — Multiple AS topology
- Example: VXLAN BGP EVPN — Centralized L3 gateway
- Example: VXLAN BGP EVPN — Border leaf gateway with asymmetric IRB
- Example: VXLAN BGP EVPN—Symmetric IRB
- Controller-provisioned VXLAN
- Support resources
Controller-provisioned VXLAN
OS10 supports VXLAN provisioning using an Open vSwitch Database (OVSDB) controller. Currently, the only supported
OVSDB controller is the VMware NSX controller. In a controller-provisioned VXLAN, the controller manages VXLAN-related
configurations and other control-plane operations, such as MAC address propagation.
NOTE: Controller-provisioned VXLAN is not supported on S5148F-ON and S3048-ON switches. Also, controller-provisioned
VXLAN is not supported on VTEPs configured as peers in a VLT domain. Only VTEPs in standalone mode are supported.
Controller-provisioned VXLAN
The NSX controller communicates with an OS10 VTEP using the OVSDB management protocol over a Secure Sockets Layer
(SSL) connection. Establishing the communication between the controller and VTEP involves generating the SSL certificate at a
VTEP and copying the certificate to the NSX controller. After SSL authentication, a secure connection over SSL is established
between the controller and the VTEP. The VTEP then receives and processes the configuration data from the controller.
Controller-provisioned VXLAN: Manual configuration
You must manually configure the underlay network using the OS10 CLI:
● Configure the L3 protocol used for underlay routing. Underlay reachability to VTEP peers is learned using the configured
routing protocol.
● Configure the loopback interface in the default VRF that is used as the VTEP source IP address for controller-based
provisioning.
● Assign the VTEP interfaces to be managed by the controller.
Controller-provisioned VXLAN: Automatic provisioning
The controller automatically provisions:
● L2 overlay network
● VXLAN virtual networks, including remote VTEP source addresses
● Local access ports in a virtual network
An OS10 VTEP sends the addition or deletion of server MAC addresses at the VXLAN access port to the NSX controller
using the OVSDB protocol. The controller then propagates the information to VTEP peers. The VTEPs program their
forwarding tables accordingly.
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