.. This work is licensed under a Creative Commons Attribution 4.0 International License. .. http://creativecommons.org/licenses/by/4.0 Developer-Guide =============== .. contents:: :depth: 3 :local: Tech Stack ---------- - OpenAPI3 - Connexion - Flask with Gevent serving - Python3.7 Version bumping --------------- This project follows semver. When changes are made, the versions are in: 1) ``docs/release-notes.rst`` 2) ``setup.py`` 3) ``container-tag.yaml`` 4) ``integration_tests/a1mediator/Chart.yaml`` 6) ``a1/openapi.yaml`` (this is an API version, not a software version; no need to bump on patch changes) 7) in the it/dep repo that contains a1 helm chart, ``values.yaml``, ``Chart.yml`` Version bumping rmr -------------------- rmr is a critical dependency of A1. Bumping the rmr version dependency requires changes in: 1) ``Dockerfile`` 2) ``Dockerfile-Unit-Test`` 3) ``integration_tests/Dockerfile`` rmr-python is the python binding to rmr . Installing rmr per the above does not install it. Bumping the rmr python version dependency requires changes in: 1) ``setup.py`` 2) ``integration_tests/Dockerfile`` Run the integration tests after attempting this. Unit Testing ------------ Note, before this will work, for the first time on the machine running the tests, run ``./install_deps.sh``. This is only needed once on the machine. Also, this requires the python packages ``tox`` and ``pytest``. :: tox open htmlcov/index.html Alternatively, you can run the unit tests in Docker (this is somewhat less nice because you don't get the pretty HTML) :: docker build --no-cache -t a1test:latest -f Dockerfile-Unit-Test Integration testing ------------------- This tests A1’s external API with two test receivers. This depends on helm+k8s, meaning you cannot run this if this is not installed. Unlike the unit tests, however, this does not require rmr to be installed on the base system, as everything runs in Docker, and the Dockerfiles provide/install rmr. First, build the latest A1 you are testing (from the root): :: docker build --no-cache -t a1:latest . Note that this step also runs the unit tests, since running the unit tests are part of the Dockerfile for A1. If you've never run the integration tests before, build the test receiver, which is referenced in the helm chart: :: cd integration_tests docker build --no-cache -t testreceiver:latest . Finally, run all the tests from the root (this requires the python packages ``tox``, ``pytest``, and ``tavern``). :: tox -c tox-integration.ini This script: 1. Deploys 3 helm charts into a local kubernetes installation 2. Port forwards a pod ClusterIP to localhost 3. Uses “tavern” to run some tests against the server 4. Barrages the server with apache bench 5. Tears everything down Unless you're a core A1 developer, you should probably stop here. The below instructions are for running A1 locally, without docker, and is much more involved (however useful when developing a1). Running locally --------------- 1. Before this will work, for the first time on that machine, run ``./install_deps.sh`` 2. It also requires rmr-python installed. (The dockerfile does this) 3. Create a ``local.rt`` file and copy it into ``/opt/route/local.rt``. Note, the example one in ``integration_tests`` will need to be modified for your scenario and machine. 4. Copy a ric manifest into ``/opt/ricmanifest.json`` and an rmr mapping table into ``/opt/rmr_string_int_mapping.txt``. You can use the test ones packaged if you want: :: cp tests/fixtures/ricmanifest.json /opt/ricmanifest.json cp tests/fixtures/rmr_string_int_mapping.txt /opt/rmr_string_int_mapping.txt 5. Then: :: sudo pip install -e . set -x LD_LIBRARY_PATH /usr/local/lib/; set -x RMR_SEED_RT /opt/route/local.rt ; set -x RMR_RCV_RETRY_INTERVAL 500; set -x RMR_RETRY_TIMES 10; /usr/bin/run.py There are also two test receivers in ``integration_tests`` you can run locally. The first is meant to be used with the ``control_admission`` policy (that comes in test fixture ric manifest): :: set -x LD_LIBRARY_PATH /usr/local/lib/; set -x RMR_SEED_RT /opt/route/local.rt ; python receiver.py The second can be used against the ``test_policy`` policy to test the async nature of A1, and to test race conditions. You can start it with several env variables as follows: :: set -x LD_LIBRARY_PATH /usr/local/lib/; set -x RMR_SEED_RT /opt/route/local.rt ; set -x TEST_RCV_PORT 4563; set -x TEST_RCV_RETURN_MINT 10001; set -x TEST_RCV_SEC_DELAY 5; set -x TEST_RCV_RETURN_PAYLOAD '{"ACK_FROM": "DELAYED_TEST", "status": "SUCCESS"}' ; python receiver.py To test the async nature of A1, trigger a call to ``test_policy``, which will target the delayed receiver, then immediately call ``control_admission``. The ``control_admission`` policy return should be returned immediately, whereas the ``test_policy`` should return after about ``TEST_RCV_SEC_DELAY 5``. The ``test_policy`` should not block A1 while it is sleeping, and both responses should be correct. :: curl -v -X PUT -H "Content-Type: application/json" -d '{}' localhost:10000/ric/policies/test_policy curl -v -X PUT -H "Content-Type: application/json" -d '{ "enforce":true, "window_length":10, "blocking_rate":20, "trigger_threshold":10 }' localhost:10000/ric/policies/admission_control_policy curl -v localhost:10000/ric/policies/admission_control_policy curl -v localhost:10000/a1-p/healthcheck