null device provider implementation along with directory structure
for the other device providers

initial null provider directory structure

Change-Id: Ib7a766a854ba1863564ce2dc950f597a41a4e545

better with files

Change-Id: I041ea7bb718748e5f72ccaf06836c322b4e411d6

no binaries needed

Change-Id: I0bc978dd5bf6d20968bd1a28c6165b9f49ba585b

start nulldeviceprovider

Change-Id: If75bced900c185ca58a9302130c4d4a3cc18f12d

null device provider trivial implementation

supports hardcoded number of devices and ports, this will ultimately be extented to cli/rest configuration.

Change-Id: Iaeffc5526526b90fb1ecbcc0bd8b88103bdb921a
14 files changed
tree: c81a2c2e19453a21ae3b8181eb4dd6a10de00401
  1. .gitignore
  2. .gitreview
  3. LICENSE.txt
  5. apps/
  6. cli/
  7. core/
  8. docs/
  9. features/
  10. openflow/
  11. pom.xml
  12. providers/
  13. tools/
  14. utils/
  15. web/

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 out our website and our tools