.. index:: test writer use cases

.. _test_writer_use_cases:

Test Writer use cases
#####################

.. index:: writing pipeline submission

.. _writing_pipeline_submission:

Writing a pipeline job submission
*********************************

Numerous changes have been made compared with the previous JSON submission
format. There is no compatibility between the old JSON files and the new
pipeline job submissions. There is no conversion tool and none will be
supported. Each test job needs to be understood and redesigned. Compatibility
has only been preserved inside the Lava Test Shell Definitions.

.. _general_pipeline_principles:

General principles
==================

API
---

#. The API here is still in development and changes may still be required.
   `Sample jobs are available
   <https://git.linaro.org/lava-team/refactoring.git>`_ from the LAVA team and
   are updated regularly.

#. Only certain deployment types, boot types and device types are currently
   supportable. These guidelines will be enlarged as support grows.

#. The pipeline does not make assumptions and the only defaults are
   constrictive and only provided for admin reasons.

Validity checks
---------------

#. Decisions about the validity of a test job submission are made as early
   as possible.
#. Some validity checks will be done before a job submission is accepted
#. Most will be completed before the job submission is scheduled.
#. An invalid job submission will result in an Incomplete test job.
#. Some validity checks can only be done after the test job has started,
   e.g. checks relating to downloaded files. These checks will result in
   a JobError.

Results
-------

#. All pipeline test jobs report results, whether a test shell is used or not.

#. Visibility of test job results is determined solely by the job submission.

#. Results are part of the test job and cannot be manully created.

#. Result analysis is primarily a task for other engines, results can be
   exported in full but the principle emphasis is on data generation.

#. Results are posted in real time, while the job is still running. This means
   that a later failure in the test job cannot cause a loss of results.

Job submission data
-------------------

#. There are three actions for all test jobs: **deploy**, **boot** and **test**.

#. All scheduled submissions may only specify a :term:`device type`, **not** a
   target. The device type is only for use by the scheduler and is ignored by
   the dispatcher. Locally, dispatchers only have configuration for the devices
   currently running test jobs.

#. Default timeouts can be specified at the top of the file.

   .. seealso:: :ref:`timeouts`

#. priority can be specified, the default is medium.

#. **Always** `check your YAML syntax
   <http://yaml-online-parser.appspot.com/?yaml=>`_

#. The **actions** element in a pipeline job submission is a list of
   dictionaries - ensure that the line ends with a colon ``:``, the next line
   needs to be indented and needs to start with a hyphen ``-``.

#. YAML supports comments using ``#``, please use them liberally. Comments
   are not preserved in the database after submission.

#. The new result views know about the deployment type and boot type, so the
   ``job_name`` can concentrate on the objective of the test, not the methods
   used in it. The job name will still need to exist as a file in the test
   shell and as a URL in the results, so underscores and hyphens need to be
   used in place of spaces.

.. note:: :ref:`timeouts` are specified in human readable units, days, hours,
    minutes or seconds. Avoid specifying timeouts in smaller units when a
    larger unit is available: i.e. you should **never** use 120 seconds, always
    2 minutes. Schema rules may be introduced to enforce this and your jobs
    could be rejected. The requested timeout and the actual duration of each
    action class within a test job is logged and excessive timeouts can be
    identified.

Writing a new TestJob
=====================

See :ref:`dispatcher_actions` for details of the available actions and use the
`sample jobs <https://git.linaro.org/lava-team/refactoring.git>`_ as examples.

Understanding available support
===============================

Devices to run pipeline jobs must be set as a pipeline device by the admin of
the LAVA instance. Check for a tick mark in the Pipeline Device column of the
device type overview. The instance itself must be enabled for pipeline usage -
one indicator is that an updated instance has a **Results** section in the top
level menu.

Understanding a TestJob
=======================

To convert an existing job to the pipeline, there are steps to be covered:

#. Be explicit about the type of deployment and the type of boot
#. Be explicit about the operating system inside any rootfs
#. Start with an already working device type or job submission.
#. Start with singlenode jobs, use of the multinode protocol can follow later.
#. Drop details of submitting results

Instead of calling a "deploy_kernel" or "deploy_image" command and passing
parameters, a pipeline job submission requires that the type of deployment and
the type of boot is specified as part of a single deploy action which covers
all devices and all jobs.

Equally, a pipeline job submission requires that assumptions are removed in
favour of explicit settings. Just because a URL ends in ``.gz`` does not mean
that the dispatcher will assume that ``gz`` decompression can be used - this
must be specified or no decompression is done at all.

The pipeline will not assume anything about the operating system of a rootfs
specified in a URL - the job submission will simply fail to validate and will
be rejected.

Booting beaglebone-black with an nfsrootfs requires knowledge of how
that device can use NFS - in this case, using tftp.

.. code-block:: yaml

 actions:
  - deploy:
      to: tftp
      kernel:
        url: https://images.validation.linaro.org/functional-test-images/bbb/zImage
      # nfsrootfs: file:///home/linaro/lava/nfsrootfs/jessie-rootfs.tar.gz
      nfsrootfs:
        url: https://images.validation.linaro.org/pipeline/debian-jessie-rootfs.tar.gz
        compression: gz
      os: debian
      dtb:
        url: https://images.validation.linaro.org/functional-test-images/bbb/am335x-bone.dtb

.. note:: the use of comments here allows the writer to flip between a remote
   image and a local test version of that image - this would be suitable for
   running directly on a local dispatcher.

The same deployment stanza can be used for any device which supports NFS using
tftp, just changing the URLs.

To change this deployment to a ramdisk without NFS, still using TFTP, simply
provide a ramdisk instead of an nfsrootfs:

.. code-block:: yaml

 actions:

  - deploy:
     to: tftp
     kernel:
       url: https://images.validation.linaro.org/functional-test-images/bbb/zImage
     ramdisk:
       url: https://images.validation.linaro.org/functional-test-images/common/linaro-image-minimal-initramfs-genericarmv7a.cpio.gz.u-boot
       compression: gz
       add-header: u-boot
     os: oe
     dtb:
       url: https://images.validation.linaro.org/functional-test-images/bbb/am335x-bone.dtb

.. note:: **ramdisk-type** must be explicitly set, despite the URL in this case
   happening to have a ``u-boot`` extension. This is not assumed. Without the
   ``ramdisk-type`` being set to ``u-boot`` in the job submission, the U-Boot
   header on the ramdisk would be mangled when the test definitions are
   applied, resulting in an invalid ramdisk.


