Skip to content

Feature Profiles are groups of OpenConfig paths and tests which verify their behavior

License

Notifications You must be signed in to change notification settings

open-traffic-generator/featureprofiles-1

 
 

Repository files navigation

Feature Profiles

Feature profiles define groups of OpenConfig paths that can be invoked on network devices. A feature profile may contain configuration, telemetry, operational or any other paths that a device exposes. Example management plane device APIs are gNMI, and gNOI. Example control plane APIs are gRIBI, and protocols such as BGP, IS-IS.

Feature profiles also include a suite of tests for validating the network device behavior for each defined feature.

Contributing

For information about how to contribute to OpenConfig Feature Profiles, please see Contributing to OpenConfig Feature Profiles.

Feedback and suggestions to improve OpenConfig Feature Profiles is welcomed on the public mailing list, or by opening a GitHub issue.

Examples

Tests below are implemented using the ONDATRA test framework with the Kubernetes Network Emulation binding.

Before creating a topology, follow the steps for deploying a cluster.

Arista cEOS

Arista cEOS images can be obtained by contacting Arista.

  1. Create the topology:
kne create topologies/kne/arista/ceos/topology.textproto
  1. Run a sample test:
go test ./feature/system/tests/... -kne-topo $PWD/topologies/kne/arista/ceos/topology.textproto -vendor_creds ARISTA/admin/admin
  1. Cleanup:
kne delete topologies/kne/arista/ceos/topology.textproto

Cisco 8000e

NOTE: 8000e images require the host supports nested virtualization.

Cisco 8000e images can be obtained by contacting Cisco.

  1. Create the topology:
kne create topologies/kne/cisco/8000e/topology.textproto
  1. Run a sample test:
go test ./feature/system/tests/... -kne-topo $PWD/topologies/kne/cisco/8000e/topology.textproto -vendor_creds CISCO/cisco/cisco123
  1. Cleanup:
kne delete topologies/kne/cisco/8000e/topology.textproto

Cisco XRD

Cisco XRD images can be obtained by contacting Cisco.

  1. Create the topology:
kne create topologies/kne/cisco/xrd/topology.textproto
  1. Run a sample test:
go test ./feature/system/tests/... -kne-topo $PWD/topologies/kne/cisco/xrd/topology.textproto -vendor_creds CISCO/cisco/cisco123
  1. Cleanup:
kne delete topologies/kne/cisco/xrd/topology.textproto

Juniper CPTX

NOTE: CPTX images require the host supports nested virtualization.

Juniper CPTX images can be obtained by contacting Juniper.

  1. Create the topology:
kne create topologies/kne/juniper/cptx/topology.textproto
  1. Run a sample test:
go test ./feature/system/tests/... -kne-topo $PWD/topologies/kne/juniper/cptx/topology.textproto -vendor_creds JUNIPER/root/Google123
  1. Cleanup:
kne delete topologies/kne/juniper/cptx/topology.textproto

Nokia SR Linux

SR Linux images can be found here.

  1. Create the topology:
kne create topologies/kne/nokia/srlinux/topology.textproto
  1. Run a sample test:
go test ./feature/system/tests/... -kne-topo $PWD/topologies/kne/nokia/srlinux/topology.textproto -vendor_creds NOKIA/admin/NokiaSrl1!
  1. Cleanup:
kne delete topologies/kne/nokia/srlinux/topology.textproto

Static Binding (Experimental)

The static binding supports ATE based testing with a real hardware device. It assumes that there is one ATE hooked up to one DUT in the testbed, and their ports are connected pairwise. They are defined in topologies/atedut_*.testbed with three variants: 2 ports, 4 ports, and 12 ports.

  • The 2 port variant is able to run the vast majority of the control plane tests.
  • The 4 port variant is required by some VRF based or data plane tests.
  • The 12 port variant is required by the aggregate interface (static LAG and LACP) tests.

Setup: edit topologies/atedut_12.binding to specify the mapping from testbed topology to the actual hardware as well as the dial options.

Testing:

cd ./topologies/ate_tests/topology_test
go test . -testbed ../../atedut_12.testbed -binding ../../atedut_12.binding

NOTE: when go test runs a test, the current working directory is set to the path of the test package, so the testbed and binding files are relative to the test package and not to the source root. It is recommended to just cd to the test package to be consistent.

⚠️ WARNING: the topology_test is derived from a similar test used at Google. The test code compiles but is not tested because we have not hooked up Google's testing environment to the open-sourced static binding. This is an early preview meant to demonstrate Ondatra API usage.

Path validation

The make validate_paths target will clone the public OpenConfig definitions and report Feature Profiles that have invalid OpenConfig paths.

About

Feature Profiles are groups of OpenConfig paths and tests which verify their behavior

Resources

License

Stars

Watchers

Forks

Releases

No releases published

Packages

No packages published

Languages

  • Go 99.5%
  • Other 0.5%