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Glossary

Michael Miele edited this page Jun 14, 2022 · 49 revisions

A B C D E F G H I J K L M N O P Q R S T U V W X Y Z


A

ACL

Access Control List

Appliance

Server with SmartNics installed (for CPS performance increase) to accept traffic redirected from the destination host.

ARP

Address Resolution Protocol

ASN

Autonomous System Number

AZ

Availability Zones are unique physical locations within a cloud region, designed to provide a software and networking solution to protect against datacenter failures, and to provide increased high availability (HA) to customers.

B

BGP

Border Gateway Protocol (BGP) is a standardized exterior gateway protocol designed to exchange routing and reachability information among autonomous systems on the Internet. BGP is classified as a path-vector routing protocol and it makes routing decisions based on paths, network policies, or rulesets configured by a network administrator. For more information, see Border Gateway Protocol.

Baremetal

Entire node not running any custom SDN software (connected to SDN/VNET via intelligent router/appliance)

Bump in the wire

Bump = processing engine 2 bidirectional ethernet interfaces (1 for each side of processing engine) Each direction provides 1/2 the capacity of the NIC. Ex: 400G provides 200G bump-in-the-wire

C

Cluster

Collection of Nodes across different Racks

Connection

Control plane communication between sender and receiver (usually involves handshake); any packet that does not hit the 'flow'

Connection Tracking

A feature in dataplane used to keep track of individual flows and allow for stateful operation of the flows

Customer Address (CA)

Address visible inside Customer VM (a virtual address, with the host performing the translation to the PA - platform/physical/provider address)

D

DC

Data Center

DHCP

Dynamic Host Configuration Protocol (IPv4)

DHCPv6

Dynamic Host Configuration Protocol (IPv6)

DMAC_FAKE

A hardcoded MAC address (ex: 12:34:56:78:9a:bc). It is not a MAC of an actual VM, it is simply a MAC address to "satisfy" the TCP/IP stack of windows/linux. When the packet is constructed it will have the source IP and destination IP addresses. In order to send this packet, the TCP/IP stack must construct the packet, which needs a destination MAC address. As an example, our internal service will return either a destination MAC of either a default GW MAC (in case IP is outside of subnet that VM is in), or a a MAC retrieved via ARP (in case IP is inside same subnet that VM is in). When the VM queries ARP and sends an ARP REQUEST, our internal service replies with this FAKE MAC. This is then overwritten later to correct the destination MAC address.

DSR

Direct Server Return

DSR VIP

Virtual IP used for Direct Server Return

E

ELB

External Load Balancer

ENI

Elastic Network Interface. Eni, Vnic, VPort are used interchangeably. They all in the general sense mean a VM's NIC.

F

Flow

Single transposition - Data plane stream of packets between sender and receiver that shares key IP header information. TCP conversation entered into device flow table as defined by Tuple (SrcIP, DestIP, Src Port, Dst Port, Protocol) between source and destination. May also have modified Tuple attributes in future. Flow describes a specific conversation between two hosts (SRC/DST IP, SRC/DST Port). When a flow is processed and policy is applied to it and then routed, the DPU (SmartNIC) records the outcomes of all those decisions in a transform and places them in the flow table which resides locally on the card itself.

[!NOTE] This is why sometimes the terms transform and flow are used interchangeably.

Flow State Replication (Milestone)

In case of DPU failure, one appliance in passive/ one in active, traffic will switch and 2nd appliance will take over

Flow Table

Flow table is view into memory space of a device capturing established TCP connections, tuple information, and current TCP state. A global table on a DPU that contains the transforms for all of the per-FNI flows that have been processed through the data path pipeline.

G

gNMI

Google Network Management Interface. A model-based management API which sits on top of the gRPC messaging protocol. It supports traditional GET/SET/CAPABILITIES semantics as well as subscription-based streaming telemetry. See https://github.com/openconfig/gnmi.

gRPC

Google Remote Procedure Call - A high performance, open source universal RPC framework with many language bindings. Supports synchronous as well as streaming operations. Message and RPC semantics are defined using Google Protobufs. See https://grpc.io/

GW

Gateway

H

HA

High Availability

I

IPSec

IPSec tunnel or IPSec device

ILB

Internal Load Balancer

IPv4

IP protocol Version 4 (ex. 10.1.2.3)

IPv6

IP protocol Version 6 (ex. 2001:1234:abcd::1)

J

JSON

JavaScript Script Object Notation

K

L

LB

Load Balancer

LPM

Longest-Prefix-Match (LPM) is an algorithm used by routers in Internet Protocol (IP) networking to select an entry from a routing table. Because each entry in a forwarding table may specify a sub-network, one destination address may match more than one table entry. The most specific of the matching table entries — the one with the longest subnet mask — is called the longest prefix match. It is called this because it is also the entry where the largest number of leading address bits of the destination address match those in the table entry.

M

MAC

MAC Address (Media Access Control)

Mapping

Mapping transformation between CA:PA:MAC. Integration point between Overlay and Underlay. Mappings can be shared; mappings will likely be a set of different global objects, which different policies can potentially refer to. For example multiple high CPS VMs in the same VNET are sharing the same VNET address space so they can use 1 mapping table, and multiple policies can refer to the same mapping table.

Mapping table

A mapping table is tied to the V-Port, and contains the CA:PA (IPv4, IPv6) mapping, along with the FNI value of the CA for Inner Destination MAC re-write and VNID to use for VXLAN encapsulation.

[!NOTE] The Flexible Network Interface (FNI) is a 48-bit value which easily maps to MAC values. The MAC address of a VNIC (VM NIC or BareMetal NIC) is synonymous with FNI. It is one of the values used to identify a V-Port container ID.

N

NA

Neighbor Advertisement

NDP

NMAgent

Used to translate APIs to SAI

Node/Blade

Single Physical Machine in a Rack

Northbound interfaces

Define the way the SDN controller interact with the application plane. Applications and services are components like load-balancers, firewalls, security services and cloud resources. The idea is to abstract the network, so that application developers can connect to the network and make changes to accommodate the needs of the applications without having to understand exactly what that means for the network.

See also Southbound interfaces

NS

Neighbor Solicitation

NVA

Network Virtual Appliance (VM that might have forwarding or filtering functionality – ex. router or firewall deployed as Linux/Windows VM/baremetal appliance).

NVGRE/GRE

Generic Routing Encapsulation (GRE) is a CISCO developed tunneling protocol. It is a simple IP packet encapsulation protocol used when IP packets need to be transported from one network to another network, without being notified as IP packets by any intermediate routers.

O

Overlay

The overlay network is a virtual network that is built on top of the underlay network infrastructure. In DASH, the overlay is generated automatically: it = the SDN pipeline tunneling, decapsulation, ST, and overlay ACLs (for example). The overlay folder is designated for the DASH APIs. (Please note, the overlay router is not the same as the SONiC router). The DASH overlay API will be exposed for flexibility (and to refrain from introducing customer attributes into the SAI community). There will be no overlap between the SAI/DASH APIs and DASH APIs. For now, we consider the DASH API to be 'NB', SAI is 'SB'. The Overlay is visible and configured by the end-customers.

P

P4

Programming Protocol-independent Packet Processors (P4, in other words PPPP that is P4) is a domain-specific language for network devices, specifying how data plane devices (switches, NICs, routers, filters, etc.) process packets. For more information, see P4 Open-Source Programming Language.

(PA) Platform Address, Physical Address, Provider Address (used interchangeably, however try to use 'Provider')

A platform address is tied to a physical device (with the host performing the translation to the CA - customer address)

Provider Address (internal data center address used for routing)

Peering

Network relationship between two entities (usually between two VNETs – ex. VNET Peering

Policies

ACLs + Routes

Prefix

For IPv4: (0-32) – example 10.0.0.0/8 For IPv6: (0-128) – example: 2001:1234:abcd::/48

Private Link outbound (Milestone)

Before we Encap, we Transpose the packet; we transform and uplevel to become IPv6 to IPv6

Private Link service (Milestone)

Destination side of Private Link; packet generated in Private Link arrives at destination - transposed and NAT'd

Q

R

RA

Router Advertisement

Rack

Standard size DC rack – a physical unit of containment for DC equipment, dependent upon Rack SKU. Contains varying equipment including such as blades, switches (T0, MGMT, Console), PDUs, Rack Managers, etc…

Region

A set of datacenters deployed within a latency-defined perimeter and connected through a dedicated regional low-latency network.

Routing

Routing is the process of sending a packet of information from one network to another network. Routers build routing tables that contain information like:

  • Destination network and subnet mask.
  • Next hop to get to the destination network.
  • Routing metrics.

Routing table

It is a match/action table, specifically a longest prefix match (LPM) table that once matched on destination specifies the action to perform VXLAN encapsulation based on variables already provided, VXLAN encap using a mapping table or Overlay Tunnel lookup for variables, or L3/L4 NAT. Routing tables are mapped to the V-Port.

RS

Router Solicitation

S

SDN

Software Defined Networking (high level name for the Virtual Network and its elements)

SONIC

Software for Open Networking in the Cloud. See SONiC.

Spoof Guard

Rule put in place to prevent VM from spoofing traffic

SAI

The Switch Abstraction Interface (SAI) is a hardware abstraction model for switching silicon (ASICs). It is an open-source framework that allows ASICs to be represented in software. This means you can use a Broadcom ASIC the same way as one from Mellanox or Cavium XPliant. This framework let developers target switching platforms in an agnostic way; as long as you have the necessary ASIC driver, you’re good to go. SAI locates the abstraction in the user space, while other frameworks, such as switchdev, locate the abstraction in the kernel space. Microsoft open-sourced SAI in 2015.

SDN

The Software-defined networking (SDN) technology is an approach to network management that enables dynamic, programmatically efficient network configuration in order to improve network performance and monitoring, making it more like cloud computing than traditional network management. SDN is meant to address the fact that the static architecture of traditional networks is decentralized and complex while current networks require more flexibility and easy troubleshooting. SDN attempts to centralize network intelligence in one network component by disassociating the forwarding process of network packets (data plane) from the routing process (control plane).

The control plane consists of one or more controllers, which are considered the brain of the SDN network where the whole intelligence is incorporated. However, the intelligent centralization has its own drawbacks when it comes to security, scalability and elasticity and this is the main issue of SDN.

SDN was commonly associated with the OpenFlow protocol (for remote communication with network plane elements for the purpose of determining the path of network packets across network switches) since the latter's emergence in 2011. However, since 2012 OpenFlow for many companies is no longer an exclusive solution, they added proprietary techniques. These include Cisco Systems' Open Network Environment and Nicira's network virtualization platform. For more information, see Software-defined networking.

Smart ToR

SmartToR (Smart Top-of-Rack), provides fully programmable switching, routing, and L4-L7 services.
Merchant silicon has evolved from basic L2 switching to highest performance switching and routing solutions. SmartToR supports high-performance, advanced network services. For example, Trident SmartToR by BroadCom enables a 100x performance increase with massive capacity: tracking 3 million connections with 3 million connection-level policies, as well as 1 million tunnels and over 1 million stateful counters for metering and telemetry.

See also ToR.

SNAT

Source Network Address Translation (SNAT) is typically used when an internal/private host needs to initiate a connection to an external/public host. The device performing NAT changes the private IP address of the source host to public IP address. It may also change the source port in the TCP/UDP headers.

Southbound interfaces

Define the way the SDN controller interact with the data plane (aka forwarding plane) to make adjustments to the network, so it can better adapt to changing requirements.

See also Northbound interfaces

T

TCP

Transmission Control Protocol

ToR

Top of the Rack Switch (aka ToR or T0).

A Data Center has racks, each contains several computing devices. The Top of Rack (ToR) allows for network switches to be placed on every rack and the computing devices in the rack to be connected to them. Then these network switches are connected to aggregation switches using fewer cables.

ToR switches also handle operations such as Layer 2 and Layer 3 frame and packet forwarding, data center bridging and the transport of Fiber Channel over Ethernet for the racks of servers connected to them.

The following figure shows a simplified TOR network layout.

TOR network layout

Transform

It is represented either by iflow (initiator) or rflow (responder) in the flow table. It contains everything the DPU needs to route a packet to its destination without first having to apply a policy. Whenever the DPU receives a packet, it checks the local flow table to see if the preparatory work has been done for this flow. The following can happen:

  • When a transform or flow doesn’t exist in the flow table, a slow path is executed and policy applied.
  • When a transform or flow does exist in the flow table, a fast path is executed and the values in the transform are used to forward the packet to its destination without having to apply a policy first.

U

Underlay

The underlay network is the physical infrastructure upon which the overlay network is built. It is the underlying network responsible for delivery of packets across networks. In our implementation, it is controlled by SONiC via SAI. The underlay deals with (for example) packet forwarding, setup of DEST MAC correctly, setup initializations (in a switch) such as 'how many ports available, port speed, FEC settings,', router interfaces, default route, etc... these underlay header files are NOT automatically generated.

V

VFP

Virtual Filtering Platform

VIP

Virtual IP (IP exposed on Load Balancer). It is a public IP address that may be shared by multiple devices connected to the Internet.

VM

Virtual Machine

VNET

Virtual Network

VNI

VNI (Vnet Identifier) = VXLANID or GRE key

VPort

Eni, Vnic, VPort are being used interchangeably. They all in the general sense mean a VM's NIC.

VXLAN

Virtual Extensive Local Area Network (Protocol)

W

X

XML

Extensible Markup Language (Format)

Y

Z

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