tree: 6d696aa6f4c786cc23ecb5b0d370277b3c780339 [path history] [tgz]
  1. README.md
  2. __init__.py
  3. docutests/
  4. ofagent/
  5. run_as_root/
  6. voltha/
tests/itests/README.md

VOLTHA TESTS

There are two set of test cases in Voltha:

  • Unit Tests
    • These tests exercise the smallest testable parts of the code. They are designed to be fully automated and can be executed by a build machine (e.g. Jenkins).
  • Integration Tests
    • These tests exercise a set of modules when combined together

For now, this document focuses on running the integration tests only.

Running the Integration Tests

This section provides the high level details on how to execute the Voltha integration tests when running inside a Vagrant box. They may need to be adjusted when run in a different environment.

  • Build_md_test: This tests the instructions in the voltha/BUILD.md file. Note that this test takes a while to run (more than 40 mins).
cd /cord/incubator/voltha
. ./env.sh
nosetests -s tests/itests/docutests/build_md_test.py
  • Ofagent_multicontroller_failover: This tests the OFAgent capability to work seamlessly with multiple ONOS controllers. Note that no dockers containers should be running(to avoid host side port usage conflicts). Also note this test takes a while to run (close to 5 mins). The steps it follows are
    • Spawns three ONOS controllers and clusters them.
    • Spawns required Voltha components.
    • OFagent establishes connection with the three spawned controllers.
    • Adds simulated OLT and enables it.
    • Identifies the ONOS controller having the Mastership role for the above added OLT and kills it.
    • Tests if new master is chosen among the remaining two ONOS controllers.
cd /cord/incubator/voltha
. ./env.sh
nosetests -s tests/itests/ofagent/test_ofagent_multicontroller_failover.py
  • Ofagent_recovery: This tests the OFAgent capability to recover the connectivity with Voltha after a component failure. Also note this test takes a while to run (approximately 6 mins). The steps it follows are
    • Spawns three ONOS controllers and clusters them.
    • Spawns required Voltha components.
    • OFagent establishes connection with the three spawned controllers.
    • Adds simulated OLT and enables it.
    • Stop/start OFAgent and VOLTHA processes (2 separate tests)
    • Ensure that the OLT created prior to stopping process is still present
    • Adds another simulated OLT to ensure connectivity
cd /cord/incubator/voltha
. ./env.sh
nosetests -s tests/itests/ofagent/test_ofagent_recovery.py
  • Frameio: This tests the packet send/receive/filter capabilities of the FrameIOManager. This test needs to run as root.
cd /cord/incubator/voltha
. ./env.sh
make run-as-root-tests
  • Cold_activation_sequence: This test creates the simulated_olt devices and run through a cold activation sequence. It exercises the following areas:
    • Chameleon REST interface
    • Voltha GRPC interface
    • Voltha data model and business logic
    • Simulated Adapter
cd /cord/incubator/voltha
. ./env.sh
docker-compose -f compose/docker-compose-system-test.yml up -d
nosetests -s tests/itests/voltha/test_cold_activation_sequence.py
  • Device_state_changes: This tests uses the ponsim OLT and ONUs to exercise the device state changes (preprovisioning, enabled, disabled, reboot). It exercises the following areas:
    • Envoy REST interface
    • Voltha GRPC interface
    • Voltha data model and business logic
    • Ponsim_olt and Ponsim_onu adapters
    • Ponsim

First start the Voltha ensemble:

cd /cord/incubator/voltha
. ./env.sh
docker-compose -f compose/docker-compose-system-test.yml up -d

Then start PONSIM in a separate window:

sudo -s
. ./env.sh
./ponsim/main.py -v -o 4

Run the test:

cd /cord/incubator/voltha
. ./env.sh
nosetests -s tests/itests/voltha/test_device_state_changes.py
  • Persistence: This test goes through several voltha restarts along with variations of configurations in between to ensure data integrity is preserved.

During this test, the user will be prompted to start ponsim. Use these commands to run ponsim with 1 OLT and 4 ONUs. This will also enable alarm at a frequency of 5 seconds:

sudo -s
. ./env.sh
./ponsim/main.py -v -o 4 -a -f 5

The user will also be prompted to enable port forwarding on ponmgmt bridge. Use these commands:

sudo -s
echo 8 > /sys/class/net/ponmgmt/bridge/group_fwd_mask            

Run the test:

cd /cord/incubator/voltha
. ./env.sh
nosetests -s tests/itests/voltha/test_persistence.py
  • Voltha_rest_apis: This test exercises the Envoy REST interface and indirectly the Voltha GPRC interface as well. It tests both the Local and the Global interfaces.
cd /cord/incubator/voltha
. ./env.sh
docker-compose -f compose/docker-compose-system-test.yml up -d
nosetests -s tests/itests/voltha/test_voltha_rest_apis.py
  • Voltha_alarm_events: This test exercises the creation and clearing of alarm events

The test will first verify that the kafka alarm topic exists. It will then create a simulated_olt device and verify that alarms are generated by the device.

First start the Voltha ensemble:

cd /cord/incubator/voltha
. ./env.sh
docker-compose -f compose/docker-compose-system-test.yml up -d

Then start PONSIM in a separate window:

sudo -s
. ./env.sh
./ponsim/main.py -v -o 4 -a -f 5

Enable port forwarding

sudo -s
echo 8 > /sys/class/net/ponmgmt/bridge/group_fwd_mask            

Run the test:

cd /cord/incubator/voltha
. ./env.sh
nosetests -s tests/itests/voltha/test_voltha_alarm_events.py
  • Voltha_alarm_filters: This test exercises the alarm event filtering mechanism

The test will first verify that the kafka alarm topic exists. It will then create two devices along with a filter against one of the devices. The test will validate that alarms are received for the unfiltered device and alarms will be suppressed for the filtered device.

First start the Voltha ensemble:

cd /cord/incubator/voltha
. ./env.sh
docker-compose -f compose/docker-compose-system-test.yml up -d

Then start PONSIM in a separate window:

sudo -s
. ./env.sh
./ponsim/main.py -v -o 4 -a -f 5

Enable port forwarding

sudo -s
echo 8 > /sys/class/net/ponmgmt/bridge/group_fwd_mask            

Run the test:

cd /cord/incubator/voltha
. ./env.sh
nosetests -s tests/itests/voltha/test_voltha_alarm_filters.py
  • Dispatcher: This test exercises the requests forwarding via the Global handler.

Before running the test, start a voltha ensemble. The first command is to ensure we will be running cleanly:

cd /cord/incubator/voltha
. ./env.sh
docker-compose -f compose/docker-compose-system-test-dispatcher.yml down
docker-compose -f compose/docker-compose-system-test-dispatcher.yml up -d

During this test, the user will be prompted to start ponsim. Use these commands to run ponsim with 1 OLT and 4 ONUs.

sudo -s
. ./env.sh
./ponsim/main.py -v -o 4 

The user will also be prompted to enable port forwarding on ponmgmt bridge. Use these commands:

sudo -s
echo 8 > /sys/class/net/ponmgmt/bridge/group_fwd_mask            

Run the test:

cd /cord/incubator/voltha
. ./env.sh
nosetests -s tests/itests/voltha/test_dispatcher.py
  • Voltha_Xpon: This test uses the ponsim-OLT to verfiy addition, modification and deletion of channelgroups, channelpartition, channelpair, channeltermination, VOntani, Ontani, VEnet for xpon

First start the Voltha ensemble:

cd /cord/incubator/voltha
. ./env.sh
docker-compose -f compose/docker-compose-system-test.yml up -d

Then start PONSIM in a separate window:

sudo -s
cd /cord/incubator/voltha
. ./env.sh
./ponsim/main.py -v

Now Run the test in the first window:

nosetests -s tests/itests/voltha/test_voltha_xpon.py