Tag :: TOI

LANZ on 7160S 32CQ, 7160 48YC6 and 7160 48TC6 adds support for monitoring congestion on front panel ports with Start,

Loop protection is a loop detection and prevention method which is independent of Spanning Tree Protocol (STP) and is not disabled when the switch is in switchport backup mode or port is in discarding state. The LoopProtect agent has a method to detect loops and take action based on the configuration by the user. In order to find loops in the system, a loop detection frame is sent out periodically on each interface that loop protection is enabled on. The frame carries broadcast destination MAC address, bridge MAC source address, OUI Extended EtherType 0x88b7 as well as information to specify the origins of the packet.

The Label Distribution Protocol (LDP) is a protocol in the Multiprotocol Label Switching (MPLS) context that allows label switch routers (LSRs) to exchange label mapping information. It is a distributed protocol without a central controller. Instead, each LSR generates local label mappings for Forward Equivalence Classes (FECs) and propagates this information to adjacent LSRs which it maintains LDP sessions with.

The LDP pseudowire feature provides support for emulating Ethernet connections over a Multiprotocol Label

The LDP pseudowire feature provides support for emulating Ethernet connections over a Multiprotocol Label Switching (MPLS) network using the extension of the MPLS Label Distribution Protocol (LDP)

Leaf Smart System Upgrade (SSU) provides the ability to upgrade the EOS image with minimal traffic disruption.Note: It is possible that SSU shutdown and bootup are not supported in the same image. If a product has shutdown support in image A and bootup support in a later image B, then SSU upgrade cannot be performed from image A to any images earlier than image B, including image A itself. However, upgrading from image A to image B onwards is allowed.

At a transit router when multiple LSP are available for a given destination from different protocols EOS does stitching based on hard coded preferences. LFIB stitching preferences give a provision to stitch together different LSPs based on configurable preferences. For each protocol(destination) preference can be configured for a given source protocol.

Line system commands are used to apply configuration and query the status of line system modules in EOS. The supported line system modules are the OSFP-AMP-ZR and the QSFP-AMP-ZR.

Link Fault Signalling (LFS) is a mechanism by which remote link faults are asserted over a link experiencing

This feature adds support for Layer1-only front panel Ethernet ports on 7130 devices (containing a layer1 crosspoint chip) to participate in LLDP. As of 4.33.1F only internal Switch interfaces on ASICs/FPGAs participate in the LLDP protocol. The neighbor also only sees these internal ports from the switch. Customers who really care about/rely on LLDP information of  the front panel Ethernet ports, especially for making cabling changes, would need to translate the internal interface to the appropriate Ethernet port using the show l1 path output.

Local Authentication (also known as authentication survivability) is the ability of access points (AP) to authenticate and onboard clients to the network using root CA certificates through the integrated EAP server of the AP. Use Local Authentication when the RADIUS servers are not reachable to authenticate the clients. It is typically a temporary authentication mechanism; avoid using it as a primary authentication. If there are certificate chains, you must upload the root CA certificate along with the certificate chain.

With the 14.0 release, CloudVision Cognitive Unified Edge (CV-CUE) removes the Wireless Manager(WM) UI dependency for login and for applying the service license. You will no longer be redirected to WM and can now directly login to CV-CUE from the UI. 

The low latency tx-queue scheduler profile feature aims to provide an alternative operating mode for the queue that is fine-tuned for reduced latency. This involves a tradeoff between achieving lower latency and being able to sustain full throughput over a large number of flows.

This TOI introduces a new global CLI configuration command to transition CMIS compliant transceivers to the low-power mode when all interfaces associated with the transceiver are shut down. Conversely, the transceivers will transition into high power mode when any interface associated with the transceiver is enabled.

Support for Media Access Control Security (MACsec) with static keys was added in EOS 4.15.4. This feature brings

Media Access Control Security (MACsec) is an industry standard encryption mechanism that protects all traffic flowing on the Ethernet links. MACsec is based on IEEE 802.1X and IEEE 802.1AE standards.

DMF 8.7.0 supports Media Access Control Security (MACsec) as an Early Field Trial (EFT) feature. MACsec is a global configuration option for the entire fabric, with the option to enable it on intracore traffic only. MACsec only encrypts traffic between core switches, ignoring all other ancillary traffic (e.g., tap to filter, delivery to tool). MACsec is a licensed feature. Verify a MACsec license is installed on all switches participating in MACsec before using this feature.

By default, the only visibility a user has into packets that are dropped due to errors with the MACsec/IPsec protocols is a set of counters, such as with show mac security counters detail. This feature enables redirecting such packets to the CPU for manual inspection; it is intended to assist with debugging unexpected packet drops.

Maintenance mode is a framework to allow for the easy removal of elements of a switch or the entire switch from

EVPN VXLAN all-active multihoming (AA-MH) provides redundancy to reduce or eliminate the impact of outages and maintenance. The objective of Maintenance Mode on AA-MH is to gracefully drain away the traffic from the EVPN core flowing through a switch that is part of multihoming while the switch is put into maintenance, and to gracefully add it back into the network and attract traffic again once the switch is out of maintenance. During the maintenance cycle any customer edge Ethernet or Port-Channel interfaces, whether they are participating as ethernet segments or not, can also be put into maintenance mode. Doing so eliminates the northbound traffic from the customer edge from flowing through the switch under maintenance. The traffic will instead take a path through other available multi-homing peers.

Maintenance mode with sub interfaces is an extension to the maintenance mode feature released in EOS 4 15 2F. With this

This document describes managing certificates and private keys in DMF.

A server cluster or a cluster is a group of Wireless Manager (WM) servers. A cluster comprises a parent WM server and one or more child WM servers.  A cluster is created to manage multiple servers using a single server. 

The Management Connectivity Studio is used to configure out-of-band (OOB) management interfaces. You’ll create a profile of configured attributes for management interfaces, which can be assigned to multiple devices at once using tags.

MapReduce Tracer is an existing feature that monitors MapReduce nodes that are directly connected to Arista

In DMF 8.7.0,  the redesigned integration configuration now masks the password field and improves the configuration management. Use the Edit icon to Add, Modify, or Delete the Integration configuration.

Classification of MPLS packets based on traffic class bits in MPLS header for QoS Policy Maps. DCS

This feature allows classification of packets on QoS policy-maps based on the Class of Service (CoS), VLAN, Drop Eligible Indicator (DEI) in the 802.1q header of the packet. CoS (Class of Service) corresponds to the Priority code point (PCP) bits in the 802.1q header.

This feature allows setting the desired maximum VOQ latency. Drop probabilities are adjusted in hardware to meet this limit.

Currently, the 'maximum routes' knob allows one to set an upper bound on the number of routes that can be received from a

Previously, the maximum valid port channel ID was equal to the maximum number of port channels configurable on the

Measured boot is an anti-tamper mechanism. It calculates the cryptographic signatures for software system components and extends the signatures into the Trusted Platform Module (TPM) security chip. Upon startup, with the feature turned on, the Aboot bootloader and EOS calculate the hash of various system components and extend the hashes into the Platform Configuration Registers (PCRs), which is one of the resources of the Trusted Platform Module (TPM) security chip. The calculation and extension event is called the measured boot event, and the event is associated with a revision number to help the user identify changes to the event.

Media Access Control Security (MACSec) is an industry standard encryption mechanism to protect all traffic flowing

MetaMux is an FPGA-based feature available on Arista’s 7130 platforms. It performs ultra-low latency Ethernet packet multiplexing with or without packet contention queuing. The port to port latency is a function of the selected MetaMux profile, front panel ingress port, front panel egress port, FPGA connector ingress port, and platform being used.

MetaWatch is an FPGA-based feature available for Arista 7130 Series platforms. It provides precise timestamping of packets, aggregation and deep buffering for Ethernet links. Timestamp information and other metadata such as device and port identifiers are appended to the end of the packet as a trailer.

CloudVision provides support for microperimeter segmentation and enforcement as part of Arista’s Multi-Domain Segmentation Service (MSS) for Zero Trust Networking (ZTN).

ZTN works to reduce lateral movement into increasingly smaller areas where workloads are granularly identified and only approved connections are permitted.

Mirror on drop is a network visibility feature which allows monitoring of MPLS or IP flow drops occurring in the ingress pipeline. When such a drop is detected, it is sent to the control plane where it is processed and then sent to configured collectors. Additionally, CLI show commands provide general and detailed statistics and status.

This feature allows a user to configure a mirror session with subinterface sources from the CLI. This feature is only available with ingress mirroring (rx direction)

Port mirroring allows you to duplicate ethernet packets or frames on a source interface to send to a remote host, like DANZ Monitoring Fabric (DMF). The mirrored packets or frames can be sent via a SPAN interface dedicated for communication with the host or over an L2 Generic Routing Encapsulation (L2GRE) tunnel.

Arista switches provide several mirroring features. Filtered mirroring to CPU adds a special destination to the mirroring features that allows the mirrored traffic to be sent to the switch supervisor. The traffic can then be monitored and analyzed locally without the need of a remote port analyzer. Use case of this feature is for debugging and troubleshooting purposes.

DMF 8.7.0 introduces an updated dashboard for viewing sFlow drops. The DMF analytics Node (AN) displays reasons for dropped packets as a Mirror on Drop (MOD) drop Flow sFlow collector by analyzing overall drops and drops by flow.

In an MLAG setup, routing on a switch (MLAG peer) is possible using its own bridge/system MAC, VARP MAC or VRRP MAC. When a peer receives an IP packet with destination MAC set to one of the aforementioned MACs, the packet gets routed if the hardware has enough information to route the packet. Before introducing this feature, if the destination MAC is peer’s bridge MAC, the packet is L2 bridged on the peer-link and the routing takes place on the peer. This behavior to use the peer-link to bridge the L3 traffic to the peer is undesirable especially when the MLAG peers can route the packets themselves.

MLAG currently checks for basic MLAG configuration to be consistent (e.g. domain id) before formation with the peer.

When MLAG peer link goes down, the secondary peer assumes the primary peer is down/dead, and takes over the primary

In an MLAG setup, periodic TCP/UDP heartbeats are sent over peer link to ensure IP connectivity between peers. Prior

This feature allows users to configure L2 subinterfaces on MLAG interfaces. L2 subinterfaces are not supported on the MLAG peer-link.

MLAG Smart System Upgrade (SSU) provides the ability to upgrade the EOS image of an MLAG switch with minimal traffic disruption.

MLAG will support the following features Bridging, Routing, STP, VARP

If an MLAG flaps on one peer, then we may have to remap the MAC addresses learned, such that the reachability is via the

For packets sent and received on the front-panel interfaces, this feature allows creation of a profile to configure buffer reservations in the MMU (MMU = Memory Management Unit which manages how the on-chip packet buffers are organized). The profile can contain configurations for ingress and egress. On the ingress, configuration is supported at both a port level as well as a priority-group level.