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gerrit.onosproject.org / onos / 96c146bde5166cea3c74a1c0ef5d23499f20b9c3
commit96c146bde5166cea3c74a1c0ef5d23499f20b9c3[log] [tgz]
authorJonathan Hart <jono@onlab.us>Fri Feb 24 16:32:00 2017 -0800
committerJonathan Hart <jono@onlab.us>Wed Mar 22 20:15:07 2017 +0000
tree8d2adf1ff9bdab1bbfbca33375a928eaa9ff5c88
parent59d24eb00bbe7b524fc3143a1e9d9de9e5a40adb [diff]
Refactor route subsystem to support multiple routes for each prefix.

This resulted in a substantial refatoring of the route subsystem, including
some minor external API changes. The interface between the manager and the
store has been changed to deal with multiple routes per prefix. The distributed
route store has been updated to be able to distribute route table information.
The route subsystem no longer stores next hop information in the route store.
This information is already available from the host store so the routes system
simply fetches it from there.

Change-Id: I7657b3efb6dcb76afa6f17c931f154a970a16528
20 files changed
tree: 8d2adf1ff9bdab1bbfbca33375a928eaa9ff5c88
  1. .buckconfig
  2. .dockerignore
  3. .gitignore
  4. .gitreview
  5. BUCK
  6. Dockerfile
  7. Jenkinsfile
  8. LICENSE.txt
  9. README.md
  10. apps/
  11. buck-tools/
  12. bucklets/
  13. cli/
  14. core/
  15. docs/
  16. drivers/
  17. features/
  18. incubator/
  19. lib/
  20. modules.defs
  21. onos.defs
  22. pom.xml
  23. protocols/
  24. providers/
  25. tools/
  26. utils/
  27. web/
README.md

ONOS : Open Network Operating System

What is ONOS?

ONOS is a new SDN network operating system designed for high availability, performance, scale-out.

Top-Level Features

  • High availability through clustering and distributed state management.
  • Scalability through clustering and sharding of network device control.
  • Performance that is good for a first release, and which has an architecture that will continue to support improvements.
  • Northbound abstractions for a global network view, network graph, and application intents.
  • Pluggable southbound for support of OpenFlow and new or legacy protocols.
  • Graphical user interface to view multi-layer topologies and inspect elements of the topology.
  • REST API for access to Northbound abstractions as well as CLI commands.
  • CLI for debugging.
  • Support for both proactive and reactive flow setup.
  • SDN-IP application to support interworking with traditional IP networks controlled by distributed routing protocols such as BGP.
  • IP-Optical use case demonstration.

Checkout our website and our tools