OpenDataPlane

The OpenDataPlane (ODP) is an open-source project which defines application programming interfaces (APIs) for portable high performance networking data plane applications.[1] ODP API design enables various implementation strategies without exposing the application to implementation details. This allows the same application (source code or binary) to run efficiently on various hardware platforms with different levels of HW acceleration. For example, the same application source code may be re-compiled to run on a standard server system or a specialized networking System on a Chip (SoC) device.

OpenDataPlane
Original author(s)Open Source Project bootstrapping under Linaro’s Networking Group
Repositorygithub.com/OpenDataPlane/odp
Written inC
LicenseBSD-3
Websiteopendataplane.org

Networking data plane refers software and hardware that forwards packets/frames from one interface to another, and usually performs various operations (check errors, add/remove/modify protocol headers, etc) on packet data. Commonly, data plane software utilizes hardware acceleration (e.g. protocol checksum calculation) to reach high packet and bit rates. Networking control plane and management plane refer to softwares that control and monitor data plane software and hardware operation.

History

On October 29, 2013 Linaro announced that it was collaborating with members of the Linaro Networking interest Group to develop and host an open standard application programming interface for data plane applications.[2] Initially defined by members of the Linaro Networking Group, this project is open to contributions from all individuals and companies who share an interest in promoting a standard set of APIs to be used across the full range of network processor architectures available.

Technology Overview

The OpenDataPlane project is an open-source, cross-platform set of application programming interfaces (APIs) for the networking data plane.

ODP consists of an API specification and a set of reference implementations that realize these APIs on different platforms.[3] Implementations range from pure software to those that deeply exploit the various hardware acceleration and offload features found on modern networking System-on-Chip (SoC) processors.

ODP's goal is to allow implementers of the API great flexibility to exploit and optimize the implementation. This is intended to enable easy platform portability such that an application written to the API can pick up performance gains without needing significant platform knowledge when ported.

ODP is currently being used to develop reference platform implementations of Open Platform for NFV (OPNFV) [4] and is being promoted [5][6] by companies as part of their data plane support initiatives.

Products were announced by companies such as Kalray with many acronyms.[7] The OpenDataPlane run to completion execution models and framework are also being used by FastPath applications to leverage OpenFastPath functionality. DPDK is supported in the OpenFastPath release through the ODP-DPDK layer. The intent of OpenFastPath is to enable accelerated routing/forwarding for IPv4 and IPv6, tunneling and termination for a variety of protocols.[8]

Implementations

There is a Linux based reference software implementation of the ODP API, intended to be a functional model to establish the API behavior. In conjunction with a validation suite, this gives a base for accelerated implementations to extend. Current ODP implementations exist for several processors, with varying degrees of hardware offload:

Current ODP Implementations

Name Owner/Maintainer Target Platform Architecture
odp-linux Open contribution Pure software implementation, runs on any Linux system. Not a performance target but can utilize DPDK and Netmap. Any
odp-dpdk Open contribution Intel x86 and ARMv8 servers using DPDK as a software acceleration layer Intel x86, ARMv8
odp-keystone2 Texas Instruments TI Keystone II SoCs ARM Cortex-A-15
linux-qoriq NXP NXP QorIQ SoCs[9] Power & ARMv8
OCTEON Cavium Networks Cavium Octeon™ SoCs MIPS64
THUNDER[10] Cavium Networks Cavium ThunderX™ SoC ARMv8
Kalray[11] Kalray MPPA platform MPPA
odp-hisilicon[12] Hisilicon Hisilicon platform ARMv8

Releases

The following lists the different OpenDatePlane releases:

Release NameRelease Date
OpenDataPlane v1.0.0February 27, 2015
OpenDataPlane v1.0.1March 17, 2015
OpenDataPlane v1.0.2March 27, 2015
OpenDataPlane v1.0.3April 17, 2015
OpenDataPlane v1.0.4April 30, 2015
OpenDataPlane v1.1May 13, 2015
OpenDataPlane v1.2July 22, 2015
OpenDataPlane v1.3August 31, 2015
OpenDataPlane v1.4September 30, 2015
OpenDataPlane v1.4.1November 13, 2015
OpenDataPlane v1.5December 1, 2015
OpenDataPlane v1.6December 31, 2015
OpenDataPlane v1.7February 8, 2016
OpenDataPlane v1.8March 4, 2016
OpenDataPlane v1.9April 15, 2016
OpenDataPlane v1.10April 29, 2016
OpenDataPlane v1.10.1June 14, 2016
OpenDataPlane v1.11August 18, 2016
OpenDataPlane v1.12December 2, 2016
OpenDataPlane v1.13January 18, 2017
OpenDataPlane v1.14March 1, 2017
OpenDataPlane v1.15June 19, 2017
OpenDataPlane v1.16November 10, 2017
OpenDataPlane v1.17December 30, 2017
OpenDataPlane v1.18March 5, 2018
OpenDataPlane v1.18.0.1March 16, 2018
OpenDataPlane v1.19April 19, 2018
OpenDataPlane v1.19.0.1May 10, 2018
OpenDataPlane v1.19.0.2July 4, 2018
OpenDataPlane v1.20.0.0December 3, 2018
OpenDataPlane v1.21.0.0January 28, 2019
OpenDataPlane v1.22.0.0August 22, 2019
OpenDataPlane v1.23.0.0November 21, 2019

Ecosystem

The following organizations currently sponsor the development of ODP.

Projects

The following open source projects use ODP API as the abstraction layer towards data plane hardware.

References

  1. ARM Connected Community (2013-10-29). "Linaro Networking Group launches new open-source initiative around data plane programming APIs". ARM.com. Retrieved 2013-10-29.
  2. Linaro Limited (2013-10-29). "Linaro launches OpenDataPlane™ (ODP) project to deliver open-source, cross-platform interoperability for networking platforms". Linaro.org. Retrieved 2013-10-29.
  3. https://www.ietf.org/proceedings/90/slides/slides-90-forces-6.pdf
  4. Enea (2015-05-05). "Enea AB: ARM and Enea Demonstrate Reference Platform of Open Platform for Network Function Virtualization". Businesswire.com. Retrieved 2015-05-05.
  5. ARM Connected Community (2015-05-18). "The Emergence of the OpenDataPlane Standard". ARM.com. Retrieved 2015-05-18.
  6. Marvell (2016-02-23). "Marvell Expands its 32-bit and 64-bit ARMADA SoC Family of Embedded Processors with Robust Ecosystem of Software Solutions and Partners for a Variety of Applications". Marvell.com. Retrieved 2016-02-23.
  7. Kalrayinc (2016-02-09). "Kalray To Launch High Speed I/O Processors". kalrayinc.com. Retrieved 2016-02-09.
  8. OpenFastPath (2016-03-15). "OpenFastPath-An Open Source Accelerated IP Fast Path". openfastpath.org. Retrieved 2016-03-15.
  9. Freescale (currently NXP) (2015-03-03). "Freescale Supports OpenDataPlane for Software-Defined Networking Based on QorIQ Processing Platforms". NXP.com. Retrieved 2015-08-12.
  10. Cavium (2015-03-02). "Cavium Breaks 100Gbps IPsec Throughput Barrier using OpenDataPlane™ at Mobile World Congress 2015". Cavium.com. Retrieved 2015-03-02.
  11. Kalray (2017-10-11). "OpenDataPlane port for the MPPA platform".
  12. HiSilicon (2017-03-25). "OpenDataPlane port for the Hisilicon platform".
  13. Broadcom (2014-02-20). "Broadcom Announces Open Network Function Virtualization Platform". broadcom.com. Retrieved 2014-02-20.
  14. Cavium (2016-08-19). "Linaro Announces First LTS Monarch Release of OpenDataPlane". cavium.com. Retrieved 2016-08-19.
  15. Enea (2015-02-13). "Enea Demonstrates Open Event Machine Implementation on Broadcom XLP Architecture at MWC". enea.com. Retrieved 2015-02-13.
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