Source code for testsuite.common

""" In order to make testing easier and more consistent, we provide a
number of convenience functions, variables, and classes, for a wide
variety of reasons. To import this module, first set up
:ref:`development-unit-testing-relative-imports` and then simply do:

.. code-block:: python

    from common import *

import os
import re
import sys
import codecs
import lxml.etree
import Bcfg2.Options
from mock import patch, MagicMock, _patch, DEFAULT
    from unittest import skip, skipIf, skipUnless, TestCase
except ImportError:
    from unittest2 import skip, skipIf, skipUnless, TestCase

#: The XInclude namespace name

#: The XInclude namespace in a format suitable for use in XPath
#: expressions
XI = "{%s}" % XI_NAMESPACE

#: Whether or not the tests are being run on Python 3.
inPy3k = False
if sys.hexversion >= 0x03000000:
    inPy3k = True

#: A function to set a default config option if it's not already set
def set_setup_default(option, value=None):
    if not hasattr(Bcfg2.Options.setup, option):
        setattr(Bcfg2.Options.setup, option, value)

Bcfg2.Options.Parser.unit_test = True

    import django.conf
    has_django = True

    set_setup_default("db_engine", "sqlite3")
    set_setup_default("db_opts", dict())
    set_setup_default("web_debug", False)

    import Bcfg2.DBSettings
except ImportError:
    has_django = False

#: The path to the Bcfg2 specification root for the tests.  Using the
#: root directory exposes a lot of potential problems with building
#: paths.
datastore = "/"

set_setup_default("repository", datastore)

    from mock import call
except ImportError:
    def call(*args, **kwargs):
        """ Analog to the Mock call object, which is a fairly recent
        addition, but it's very very useful, so we create our own
        function to create Mock calls"""
        return (args, kwargs)

#: The name of the builtin module, for mocking Python builtins.  In
#: Python 2, this is ``__builtin__``, in Python 3 ``builtins``.  To
#: patch a builtin, you must do something like:
#: .. code-block:: python
#:     @patch("" % open)
#:     def test_something(self, mock_open):
#:         ...
builtins = "__builtin__"

if inPy3k:
    builtins = "builtins"

    def u(s):
        """ Get a unicode string, whatever that means.  In Python 2,
        returns a unicode object; in Python 3, returns a str object.

        :param s: The string to unicode-ify.
        :type s: str
        :returns: str or unicode """
        return s
[docs] def u(s): """ Get a unicode string, whatever that means. In Python 2, returns a unicode object; in Python 3, returns a str object. :param s: The string to unicode-ify. :type s: str :returns: str or unicode """ return codecs.unicode_escape_decode(s)[0]
[docs]class Bcfg2TestCase(TestCase): """ Base TestCase class that inherits from :class:`unittest.TestCase`. This class adds :func:`assertXMLEqual`, a useful assertion method given all the XML used by Bcfg2. """
[docs] def assertXMLEqual(self, el1, el2, msg=None): """ Test that the two XML trees given are equal. """ if msg is None: msg = "XML trees are not equal: %s" else: msg += ": %s" fullmsg = msg + "\nFirst: %s" % lxml.etree.tostring(el1) + \ "\nSecond: %s" % lxml.etree.tostring(el2) self.assertEqual(el1.tag, el2.tag, msg=fullmsg % "Tags differ") if el1.text is not None and el2.text is not None: self.assertEqual(el1.text.strip(), el2.text.strip(), msg=fullmsg % "Text content differs") else: self.assertEqual(el1.text, el2.text, msg=fullmsg % "Text content differs") self.assertItemsEqual(el1.attrib.items(), el2.attrib.items(), msg=fullmsg % "Attributes differ") self.assertEqual(len(el1.getchildren()), len(el2.getchildren()), msg=fullmsg % "Different numbers of children") matched = [] for child1 in el1.getchildren(): for child2 in el2.xpath(child1.tag): if child2 in matched: continue try: self.assertXMLEqual(child1, child2) matched.append(child2) break except AssertionError: continue else: assert False, \ fullmsg % ("Element %s is missing from second" % lxml.etree.tostring(child1)) self.assertItemsEqual(el2.getchildren(), matched, msg=fullmsg % "Second has extra element(s)")
[docs]class DBModelTestCase(Bcfg2TestCase): """ Test case class for Django database models """ models = [] __test__ = False @skipUnless(has_django, "Django not found, skipping")
[docs] def test_syncdb(self): """ Create the test database and sync the schema """ if self.models: import"syncdb", interactive=False, verbosity=0) self.assertTrue( os.path.exists( django.conf.settings.DATABASES['default']['NAME']))
@skipUnless(has_django, "Django not found, skipping")
[docs] def test_cleandb(self): """ Ensure that we a) can connect to the database; b) start with a clean database """ for model in self.models: model.objects.all().delete() self.assertItemsEqual(list(model.objects.all()), [])
[docs]def syncdb(modeltest): """ Given an instance of a :class:`DBModelTestCase` object, sync and clean the database """ inst = modeltest(methodName='test_syncdb') inst.test_syncdb() inst.test_cleandb() # in order for patchIf() to decorate a function in the same way as # patch(), we override the default behavior of __enter__ and __exit__ # on the _patch() object to basically be noops.
class _noop_patch(_patch): def __enter__(self): return MagicMock(name=self.attribute) def __exit__(self, *args): pass
[docs]class patchIf(object): """ Decorator class to perform conditional patching. This is necessary because some libraries might not be installed (e.g., selinux, pylibacl), and patching will barf on that. Other workarounds are not available to us; e.g., context managers aren't in python 2.4, and using inner functions doesn't work because python 2.6 parses all decorators at compile-time, not at run-time, so decorating inner functions does not prevent the decorators from being run. """ def __init__(self, condition, target, new=DEFAULT, spec=None, create=False, spec_set=None): """ :param condition: The condition to evaluate to decide if the patch will be applied. :type condition: bool :param target: The name of the target object to patch :type target: str :param new: The new object to replace the target with. If this is omitted, a new :class:`mock.MagicMock` is created and passed as an extra argument to the decorated function. :type new: any :param spec: Spec passed to the MagicMock object if ``patchIf`` is creating one for you. :type spec: List of strings or existing object :param create: Tell patch to create attributes on the fly. See the documentation for :func:`mock.patch` for more details on this. :type create: bool :param spec_set: Spec set passed to the MagicMock object if ``patchIf`` is creating one for you. :type spec_set: List of strings or existing object """ self.condition = condition = target self.patch_args = dict(new=new, spec=spec, create=create, spec_set=spec_set) def __call__(self, func): if self.condition: return patch(, **self.patch_args)(func) else: args = [lambda: True,'.', 1)[-1], self.patch_args['new'], self.patch_args['spec'], self.patch_args['create'], None, self.patch_args['spec_set']] try: # in older versions of mock, _patch() takes 8 args return _noop_patch(*args)(func) except TypeError: # in some intermediate versions of mock, _patch # takes 11 args args.extend([None, None, None]) try: return _noop_patch(*args)(func) except TypeError: # in the latest versions of mock, _patch() takes # 10 args -- mocksignature has been removed args.pop(5) return _noop_patch(*args)(func) #: The type of compiled regular expression objects
re_type = None try: re_type = re._pattern_type except AttributeError: re_type = type(re.compile(""))