Tag :: TOI

As of EOS 4.15.0F, VRRP is supported in a VRF context. Virtual IP addresses can be reused in different VRF contexts,

IPv6 access lists can be used to filter IPv6 network traffic. Starting EOS 4.15.0F release, we have added support

This feature enables IPv6 access control list (ACLs) on cloudEOS and Caravan devices, providing access control on incoming traffic (ingress direction). ACLs use packet classification to mark certain packets going through the packet processor pipeline and then take configured action against them. Rules are defined based on various fields of packets.

This feature provides an IPv6 address provisioning mechanism which is driven by tenant authentication results and offers inter-tenant traffic isolation. The generated IPv6 connected route subnets can also be summarized into aggregate routes dynamically for advertising out to BGP peers.

IPv6 egress ACLs applied to routed interfaces across the same chip on the DCS 7500E and the DCS 7280E series can be

Arista switches use the hashing algorithm to load balance traffic among LAG (Link Aggregation Group) members

This solution allows delivery of both IPv4 and IPv6 multicast traffic in an IP-VRF using an IPv6 multicast in the underlay network. The protocol used to build multicast trees in the underlay network is IPv6 PIM-SSM.

The IPv6 Neighbor Discovery protocol performs Neighbor Unreachability Detection (NUD) in order to determine if two

With this feature, IPv4 and IPv6 packets matching a static nexthop-group route can be encapsulated within an IP-in-IP tunnel and forwarded

Policy-Based Routing (PBR) provides the flexibility of routing according to custom-defined policies

With this, IPv6 routes can be configured pointing to a static Nexthop group of 2 types:. Type

IPv6 Router Advertisement Consistency Logging, when enabled, allows for notification through syslogging of

The document describes an extension of the decap group feature, that allows IPv6 addresses to be configured and used as part of a group. IP-in-IP packets with v6 destination matching a configured decap group IP will be decapsulated and forwarded based on the inner header. That will allow any IP-to-IP packet type to be decapsulated, i.e. IPv4 in IPv4, IPv4 in IPv6, IPv6 in IPv4 and IPv6 in IPv6.

This feature adds IPv6 VRF support to Open Shortest Path First(OSPF) Protocol version 3. It allows for OSPFv3

EOS 4.15.0F is introducing support of IPv6 management capabilities inside a VRF. This means existing management

This feature adds the support for IPv6 unicast in a VRF context in EOS. This entails static routing and dynamic

IS IS adjacency uptime describes the uptime or downtime of neighbors since the last state change.

Bidirectional Forwarding Detection(BFD) is a low overhead protocol designed to provide rapid detection of

This feature introduces a way for IS-IS to advertise its IP reachability and SID for loopback interfaces only when routes matching an RCF function are present. One example use-case is to use IS-IS Segment Routing to attract traffic to a router only when routes towards the ultimate destination are present. The RCF function is matched against winning routes in the Unicast RIB (seen with 'show rib route …').

IS-IS flexible algorithm (FlexAlgo) provides a lightweight, simplified mechanism for performing basic traffic engineering functions within a single IS-IS area. FlexAlgo requires the cooperation of all nodes within the IS-IS area but does not require an external controller. Paths are computed by each node within the area, resulting in an MPLS switched forwarding path to nodes that are advertising a node Segment Identifier (SID) for the algorithm. The results of the path computation are placed in the colored tunnel RIB or system tunnel RIB, which simplifies route resolution.

The difference between the two forms of authentication is in the level of security provided. In case of clear text authentication, the password is specified as text in the authentication TLV, making it possible for an attacker to break the authentication by sniffing and capturing IS-IS PDUs on the network.

IS IS Graceful Restart adds support for Restart Signaling for IS IS, IETF RFC 5306. When IS IS is used

By default if there's a hostname configured on the switch, it is used as the IS IS hostname. It is also possible to

An IS IS router can be configured as Level 1 2 which can form adjacencies and exchange routing information with both

IS IS Multi Topology support enables an IS IS router to compute a separate topology for IPv4 and IPv6 links in the

This feature enables an Arista switch to run the IS IS routing protocol over a tunnel interface to another IS IS

Segment Routing provides mechanism to define end-to-end paths within a topology by encoding paths as sequences of sub-paths or instructions. These sub-paths or instructions are referred to as “segments”. IS-IS Segment Routing (henceforth referred to as IS-IS SR) provides means to advertise such segments through IS-IS protocol.

Level 1 2 routers set attached bit in their Level 1 LSPs to indicate their reachability to the rest of the network. A

SPF Timers can be used in IS-IS to throttle the frequency of shortest-path-first (SPF) computations. In networks with a lot of churn, using these timers will help in containing the effect of network disruptions arising out of frequent SPF runs.

The default behavior of a level 1 router running IS IS is to install a default route to a level 1 2 router present in a

This feature adds Intermediate System to Intermediate System (IS IS) support for IP version 6 (IPv6) address family

This feature provides a way to export non ISIS routes into level 1, level 2 or both by using route map's set clause. The

This feature extends the IS IS set overload bit command to support wait for BGP option. In scenarios

At a high level, L1 profiles are a set of configurations which allow EOS users to change the numbering scheme and default L1 configurations of all front panel interfaces across their network switch. On Arista network switches, front panel transceiver cages are exposed as ports which are numbered sequentially: 1, 2, 3, 4, etc. These identifiers are usually marked on the front panel to allow for easier identification.

Arista’s 7135 Connect Series of Layer 1+ switches are powerful network devices that allow for dynamic connections between various layer 1 components on the system, such as the front panel and FPGA. These connections are driven by an underlying CLOS network of crossbar switches. The following commands provide the ability to configure middle stage crossbar switches within the system to create dynamic layer 1 connections.

This feature allows transport of multicast frames to an endpoint across an IP network by tunneling them through MPLSoGRE or MPLSoGUE. The tunneling of multicast frames is achieved with a traffic policy applied on the ingress interface which will match on all packets destined to a multicast IP address and redirect that traffic to a MoG nexthop group. The traffic policy will also specify “forced routing” in order to set the fwd_layer_index to 1 so that the L2 header is removed before encapsulation.

Normally, a switch traps L2 protocol frames to the CPU. However, certain use-cases may require these frames to be forwarded or dropped. In cases where the L2 protocol frames are forwarded (eg: Pseudowire), we may require the frames to be trapped to the CPU or dropped. The L2 Protocol Forwarding feature provides a mechanism to control the behavior of L2 protocol frames received on a port or subinterface.

L2 protocol packets - LLDP, LACP and STP are trapped to the CPU by default. This feature allows for disabling the per protocol trap on a given set of interfaces.

In our current implementation, on a switch with default startup config or no config, all ports come up in access

This feature is used to connect a Layer 3 EVPN VXLAN network to an Adaptive Virtual Topology (AVT) WAN network using dynamic path selection (DPS) tunnels. One or a pair of WAN routers are configured to serve as the VXLAN gateway. On the control plane, the configured VXLAN gateway handles EVPN IP-PREFIX route exchanges between the VXLAN network and the WAN network. On the data plane, the configured VXLAN gateway decapsulates the VXLAN packets received from the VXLAN network and encapsulates them into the DPS tunnels and sends them to the AVT WAN network. 

This feature is available when configuring BGP in the multi agent routing protocol model. Ethernet

L3 interface ingress counters can be used to count routable traffic coming into the box on sub interfaces and vlan

LACP on Loopback Interfaces allows for Active Port Channels on one or more interfaces whose link endpoints terminate

LACP State Transition Event Monitoring on Arista switches allows for quick and filterable viewing of LACP state

Introduced in EOS-4.20.1F, “selectable hashing fields” feature controls whether a certain header’s field is used in the hash calculation for LAG and ECMP.

LAGs are allocated hardware resources on transition from one member (software LAG) to two members (hardware LAG) and

This document addresses LAG hashing improvements across different platforms. In DANZ Monitoring Fabric (DMF) 8.7, the Controller applies the default hash configuration if no hash fields are configured or the configuration contains an error. If the Controller detects any hash error, DMF reports it as a fabric error.

Switches can now use two LAG partitions (A and B) to support double the number of available Port Channels dictated by the chosen LAG mode. This is useful if the selected LAG mode does not allow the creation of the desired number of Port Channels on a single partition.

Arista switches use the hashing algorithm to load balance traffic among LAG (Link Aggregation Group) members

This document describes the current status of LANZ on DCS 7500R, DCS 7280R and DCS 7020R, for both polling and