Feature profiles defines 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 includes a suite of Ondatra tests for validating the network device behavior for each defined feature. If you are new to Ondatra, please start by reading the Ondata README and taking the Ondatra tour.
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.
Warning: Though we are trying to use RFC defined non-globally routable space in tests, there might be tests (e.g. scaling tests) that are still using public routable ranges. Users who run the tests own the responsibility of not leaking test traffic to internet.
Tests may be run on virtual devices using the Kubernetes Network Emulation binding.
First, follow the steps for deploying a KNE cluster. Then follow the per-vendor instructions below for creating a KNE topology and running a test on it.
Arista cEOS images can be obtained by contacting Arista.
kne create topologies/kne/arista/ceos/topology.textproto
go test ./feature/example/tests/... -kne-topo $PWD/topologies/kne/arista/ceos/topology.textproto -vendor_creds ARISTA/admin/admin
kne delete topologies/kne/arista/ceos/topology.textproto
NOTE:
8000e
images require the host supports nested virtualization.
Cisco 8000e
images can be obtained by contacting Cisco.
kne create topologies/kne/cisco/8000e/topology.textproto
go test ./feature/example/tests/... -kne-topo $PWD/topologies/kne/cisco/8000e/topology.textproto -vendor_creds CISCO/cisco/cisco123
kne delete topologies/kne/cisco/8000e/topology.textproto
Cisco XRD
images can be obtained by contacting Cisco.
kne create topologies/kne/cisco/xrd/topology.textproto
go test ./feature/example/tests/... -kne-topo $PWD/topologies/kne/cisco/xrd/topology.textproto -vendor_creds CISCO/cisco/cisco123
kne delete topologies/kne/cisco/xrd/topology.textproto
Juniper ncPTX
images can be obtained by contacting Juniper.
kne create topologies/kne/juniper/ncptx/topology.textproto
go test ./feature/example/tests/... -kne-topo $PWD/topologies/kne/juniper/ncptx/topology.textproto -vendor_creds JUNIPER/root/Google123
kne delete topologies/kne/juniper/ncptx/topology.textproto
SR Linux images can be found here.
kne create topologies/kne/nokia/srlinux/topology.textproto
go test ./feature/example/tests/... -kne-topo $PWD/topologies/kne/nokia/srlinux/topology.textproto -vendor_creds NOKIA/admin/admin
kne delete topologies/kne/nokia/srlinux/topology.textproto
Tests may be run on real hardware devices using the static binding.
The static binding supports the testbeds in the topologies/*.testbed
files.
The mapping between the IDs in the testbed file and the physical devices are
provided by the corresponding topologies/*.binding
files. To try it out, edit
otgdut_4.binding
to specify the mapping from testbed IDs to actual hardware
devices, as well as the desired protocol dial options. Then test it by running:
go test ./feature/example/tests/topology_test -binding $PWD/topologies/otgdut_4.binding
The make validate_paths
target will clone the public OpenConfig definitions
and report Feature Profiles that have invalid OpenConfig paths.