doc/book/en/devrepo/testing.rst
author Aurelien Campeas <aurelien.campeas@logilab.fr>
Fri, 23 Apr 2010 17:31:46 +0200
branchstable
changeset 5394 105011657405
parent 5266 doc/book/en/development/testing.rst@84f285d96363
child 6065 eae118a84cc6
permissions -rw-r--r--
[doc/book] move devweb up from development, turn development into devrepo (much better structure)

.. -*- coding: utf-8 -*-

Tests
=====

Unit tests
----------

The *CubicWeb* framework provides the `CubicWebTC` test base class in
the module `cubicweb.devtools.testlib`.

Tests shall be put into the mycube/test directory. Additional test
data shall go into mycube/test/data.

It is much advised to write tests concerning entities methods, hooks
and operations, security. The CubicWebTC base class has convenience
methods to help test all of this.

.. note::

  In the realm of views, there is not much to do but check that the
  views are valid XHTML.  See :ref:`automatic_views_tests` for
  details. Integration of CubicWeb tests with UI testing tools such as
  `selenium`_ are currently under invesitgation.

.. _selenium: http://seleniumhq.org/projects/ide/

Most unit tests need a live database to work against. This is achieved
by CubicWeb using automatically sqlite (bundled with Python, see
http://docs.python.org/library/sqlite3.html) as a backend.

The database is stored in the mycube/test/tmpdb,
mycube/test/tmpdb-template files. If it does not (yet) exists, it will
be built automatically when the test suit starts.

.. warning::

  Whenever the schema changes (new entities, attributes, relations)
  one must delete these two files. Changes concerned only with entity
  or relation type properties (constraints, cardinalities,
  permissions) and generally dealt with using the
  `sync_schema_props_perms()` fonction of the migration environment
  need not a database regeneration step.

Unit test by example
````````````````````

We start with an example extracted from the keyword cube (available
from http://www.cubicweb.org/project/cubicweb-keyword).

.. sourcecode:: python

    from cubicweb.devtools.testlib import CubicWebTC
    from cubicweb import ValidationError

    class ClassificationHooksTC(CubicWebTC):

        def setup_database(self):
            req = self.request()
            group_etype = req.execute('Any X WHERE X name "CWGroup"').get_entity(0,0)
            c1 = req.create_entity('Classification', name=u'classif1',
                                   classifies=group_etype)
            user_etype = req.execute('Any X WHERE X name "CWUser"').get_entity(0,0)
            c2 = req.create_entity('Classification', name=u'classif2',
                                   classifies=user_etype)
            self.kw1 = req.create_entity('Keyword', name=u'kwgroup', included_in=c1)
            self.kw2 = req.create_entity('Keyword', name=u'kwuser', included_in=c2)

        def test_cannot_create_cycles(self):
            # direct obvious cycle
            self.assertRaises(ValidationError, self.kw1.set_relations,
                              subkeyword_of=self.kw1)
            # testing indirect cycles
            kw3 = self.execute('INSERT Keyword SK: SK name "kwgroup2", SK included_in C, '
                               'SK subkeyword_of K WHERE C name "classif1", K eid %s'
                               % self.kw1.eid).get_entity(0,0)
            self.kw1.set_relations(subkeyword_of=kw3)
            self.assertRaises(ValidationError, self.commit)

The test class defines a `setup_database` method which populates the
database with initial data. Each test of the class runs with this
pre-populated database.

The test case itself checks that an Operation does it job of
preventing cycles amongst Keyword entities.

You can see an example of security tests in the
:ref:`adv_tuto_security`.

It is possible to have these tests run continuously using `apycot`_.

.. _apycot: http://www.logilab.org/project/apycot

Managing connections or users
+++++++++++++++++++++++++++++

Since unit tests are done with the SQLITE backend and this does not
support multiple connections at a time, you must be careful when
simulating security, changing users.

By default, tests run with a user with admin privileges. This
user/connection must never be closed.

Before a self.login, one has to release the connection pool in use
with a self.commit, self.rollback or self.close.

The `login` method returns a connection object that can be used as a
context manager:

.. sourcecode:: python

   with self.login('user1') as user:
       req = user.req
       req.execute(...)

On exit of the context manager, either a commit or rollback is issued,
which releases the connection.

When one is logged in as a normal user and wants to switch back to the
admin user without committing, one has to use
self.restore_connection().

Usage with restore_connection:

.. sourcecode:: python

    # execute using default admin connection
    self.execute(...)
    # I want to login with another user, ensure to free admin connection pool
    # (could have used rollback but not close here
    # we should never close defaut admin connection)
    self.commit()
    cnx = self.login('user')
    # execute using user connection
    self.execute(...)
    # I want to login with another user or with admin user
    self.commit();  cnx.close()
    # restore admin connection, never use cnx = self.login('admin'), it will return
    # the default admin connection and one may be tempted to close it
    self.restore_connection()

.. warning::

   Do not use the references kept to the entities created with a
   connection from another !

Email notifications tests
-------------------------

When running tests potentially generated e-mails are not really sent
but is found in the list `MAILBOX` of module
`cubicweb.devtools.testlib`.

You can test your notifications by analyzing the contents of this list, which
contains objects with two attributes:

* `recipients`, the list of recipients
* `msg`, object email.Message

Let us look at simple example from the ``blog`` cube.

.. sourcecode:: python

    from cubicweb.devtools.testlib import CubicWebTC, MAILBOX

    class BlogTestsCubicWebTC(CubicWebTC):
        """test blog specific behaviours"""

        def test_notifications(self):
            req = self.request()
            cubicweb_blog = req.create_entity('Blog', title=u'cubicweb',
                                description=u'cubicweb is beautiful')
            blog_entry_1 = req.create_entity('BlogEntry', title=u'hop',
                                             content=u'cubicweb hop')
            blog_entry_1.set_relations(entry_of=cubicweb_blog)
            blog_entry_2 = req.create_entity('BlogEntry', title=u'yes',
                                             content=u'cubicweb yes')
            blog_entry_2.set_relations(entry_of=cubicweb_blog)
            self.assertEquals(len(MAILBOX), 0)
            self.commit()
            self.assertEquals(len(MAILBOX), 2)
            mail = MAILBOX[0]
            self.assertEquals(mail.subject, '[data] hop')
            mail = MAILBOX[1]
            self.assertEquals(mail.subject, '[data] yes')

.. _automatic_views_tests:

Automatic views testing
-----------------------

This is done automatically with the AutomaticWebTest class. At cube
creation time, the mycube/test/test_mycube.py file contains such a
test. The code here has to be uncommented to be usable, without
further modification.

The ``auto_populate`` method uses a smart algorithm to create
pseudo-random data in the database, thus enabling the views to be
invoked and tested.

Depending on the schema, hooks and operations constraints, it is not
always possible for the automatic auto_populate to proceed.

It is possible of course to completely redefine auto_populate. A
lighter solution is to give hints (fill some class attributes) about
what entities and relations have to be skipped by the auto_populate
mechanism. These are:

* `no_auto_populate`, may contain a list of entity types to skip
* `ignored_relations`, may contain a list of relation types to skip
* `application_rql`, may contain a list of rql expressions that
  auto_populate cannot guess by itself; these must yield resultsets
  against which views may be selected.


Test APIS
---------

Using Pytest
````````````

The `pytest` utility (shipping with `logilab-common`_, which is a
mandatory dependency of CubicWeb) extends the Python unittest
functionality and is the preferred way to run the CubicWeb test
suites. Bare unittests also work the usual way.

.. _logilab-common: http://www.logilab.org/project/logilab-common

To use it, you may:

* just launch `pytest` in your cube to execute all tests (it will
  discover them automatically)
* launch `pytest unittest_foo.py` to execute one test file
* launch `pytest unittest_foo.py bar` to execute all test methods and
  all test cases whose name contain `bar`

Additionally, the `-x` option tells pytest to exit at the first error
or failure. The `-i` option tells pytest to drop into pdb whenever an
exception occurs in a test.

When the `-x` option has been used and the run stopped on a test, it
is possible, after having fixed the test, to relaunch pytest with the
`-R` option to tell it to start testing again from where it previously
failed.

Using the `TestCase` base class
```````````````````````````````

The base class of CubicWebTC is logilab.common.testlib.TestCase, which
provides a lot of convenient assertion methods.

.. autoclass:: logilab.common.testlib.TestCase
   :members:

CubicWebTC API
``````````````
.. autoclass:: cubicweb.devtools.testlib.CubicWebTC
   :members: