Dell PowerSwitch S5212F-ON OS10 Enterprise Edition User Guide Release 10.4.3.0 - Page 725
among EVIs. Each EVI is, VXLAN network ID VNI.
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Control plane functions include: • Initiate BGP peering with all neighbor leaf nodes. • Advertise BGP routes to all BGP peers. • Initiate and maintain routing adjacencies with all leaf and spine nodes in the underlay network. Data plane functions include: • Perform only underlay route processing based on the outer header in VXLAN encapsulated packets. • Does not perform VXLAN encapsulation or decapsulation. The BGP EVPN running on each VTEP listens to the exchange of route information in the local overlay, encodes the learned routes as BGP EVPN routes, and injects them into BGP to advertise to the peers. Tunnel endpoints advertise as Type 3 EVPN routes. MAC/IP addresses advertise as Type 2 EVPN routes. EVPN instance An EVPN instance (EVI) spans across the VTEPs that participate in an Ethernet VPN. Each virtual network, tenant segment, that is advertised using EVPN must associate with an EVI. In OS10, configure EVIs in auto-EVI or manual configuration mode. • Auto-EVI - After you configure a virtual network on a VTEP, auto-EVI mode automatically creates an EVPN instance. The route distinguisher (RD) and route target (RT) values automatically generate: - The EVI ID auto-generates with the same value as the virtual-network ID (VNID) configured on the VTEP and associates with the VXLAN network ID (VNI). - A Route Distinguisher auto-generates for each EVI ID. A Route Distinguisher maintains the uniqueness of an EVPN route between different EVPN instances. - A Route Target import and export value auto-generates for each EVI ID. A Route Target determines how EVPN routes distribute among EVPN instances. • Manual EVI configuration - To specify the RD and RT values, manually configure EVPN instances and associate each EVI with the overlay virtual network using the VXLAN VNI. The EVI activates only when you configure the virtual network, RD, and RT values. In manual EVI configuration, you can either manually configure the RD and RT or have them auto-configured. Route distinguisher The RD is an 8-byte identifier that uniquely identifies an EVI. Each EVPN route is prefixed with a unique RD and exchanged between BGP peers, making the tenant route unique across the network. In this way, overlapping address spaces among tenants are supported. You can auto-generate or manually configure a RD for each EVI. In auto-EVI mode, the RD is auto-generated. In manual EVI configuration mode, you can auto-generate or manually configure the RD. As specified in RFC 7432, a manually configured RD is encoded in the format: 4-octet-ipv4-address:2-octet-number. An autogenerated RD has the format: vtep-ip-address:evi. Route target While a RD maintains the uniqueness of an EVPN route among different EVIs, a RT controls the way the EVPN routes are distributed among EVIs. Each EVI is configured with an import and export RT value. BGP EVPN routes advertise for an EVI carry the export RT associated with the EVI. A receiving VTEP downloads information in the BGP EVPN route to EVIs that have a matching import RT value. You can auto-generate or manually configure the RT import and export for each EVI. In auto-EVI mode, RT auto-generates. In manual EVI configuration mode, you can auto-generate or manually configure the RT. The RT consists of a 2-octet type and a 6-octet value. If you auto-configure a RT, the encoding format is different for a 2-byte and 4-byte AS number (ASN): • For a 2-byte ASN, the RT type is set to 0200 (Type 0 in RFC 4364). The RT value is encoded in the format described in section 5.1.2.1 of RFC 8365: 2-octet-ASN: 4-octet-number, where the following values are used in the 4-octet-number field: VXLAN 725