Overview

RARE (Router for Academia, Research & Education) is an ongoing effort under the G√ČANT 3rd programme which focus on determining if a routing software platform solution can fit R&E use cases. The project aims to integrate different pieces of software related to these building blocks:

  • control plane: RARE uses FreerTr under the hood used as the control plane component
  • data plane: P4 is used to describe the behavioral model of RARE data plane
  • and communication interface between the control plane and data plane: Interface compliant to P4Runtime specification ensure this function

A key part of the work consists in enabling a control plane software to pilot a data plane via a programmatic interface.

P4 is such a language proposing an interface that allows data plane programmability.

Note

P4 core language attempts to be as much as possible independent from the target or NPU processor architecture. However architecture dependance is still prominent. Code adjustments followed by a target specific compilation is necessary if you want to run your p4 program on a specific architecture.

You'll find in this page various guides that will help you deploy and use RARE/FreerTr router.

Guides

Each guide is IPv4/IPv6 compliant and falls under one category listed below:

Network management

  • features related to the network management plane
    • Management
      • SSH, TELNET client/server
    • AAA security model
      • TACACS, RADIUS client/server
    • Accounting
      • Streaming telemetry

Routing

  • features related to the control plane
    • IGP
      • OSPF, integrated IS-IS, LSRP (FreerTr own IGP)
    • Label transport distribution
      • LDP, IS-IS & OSPF Segment Routing extension
    • Internet protocol
      • BGP

Network service

  • features belonging to the sevice plane
    • MPLS L3VPN
      • VPNv4
      • 6VPE
    • MPLS L2VPN
      • Point to point L2VPN
      • VPLS
      • EVPN
    • SRv6 (on-going)
      • L3VPN function
      • L2VPN function

Dataplane

  • FreerTr is a versatile control plane that supports various dataplane such as:
    • UNIX raw socket:
      • multiple FreerTr instance can run on the same host in order to simulate a complete lab
    • regular network UNIX device:
      • You can bind FreerTr interfaces to UNIX network devices.
      • A typical use case is to run FreerTr as pure BGP route reflector control plane in a Service Provider backbone
      • An other use case is to run FreerTr as a pure BGP route reflector control plane in order to ensure pod to pod communication in a Kubernetes cluster
    • OpenFlow
    • Supported P4 dataplane