Various pseudowire fixes and improvements.

- Co-ordination when creating - removing pseudowires from
  different instances with a use of a DistributedLock.
- Fixed REST API To return json with specific error for
  the single pw instantiation.
- Fixed REST API to return specific error also for pseudowires
  that could not be decoded.
- Minor bug fix to return appropriate error when instantiating
  a pw from the command line that could not be decoded.
- Fixed bug when creating spine-leaf-leaf pseudowire where we observed flows in pending state.
- Improved logging.

Change-Id: I60dd0ebf8af63ca74d18cfe4801d01846641fb7b
6 files changed
tree: 43791fe270a837d24c2883dd2d9b57ba91fbfc68
  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. models/
  21. modules.defs
  22. onos.defs
  23. pipelines/
  24. pom.xml
  25. protocols/
  26. providers/
  27. tools/
  28. utils/
  29. 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