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import os
import sys
import unittest
from mock import patch, MagicMock, _patch, DEFAULT
try:
from functools import wraps
except ImportError:
def wraps(wrapped):
return lambda f: f
datastore = "/"
XI_NAMESPACE = "http://www.w3.org/2001/XInclude"
XI = "{%s}" % XI_NAMESPACE
if sys.hexversion >= 0x03000000:
inPy3k = True
else:
inPy3k = False
try:
from django.core.management import setup_environ
has_django = True
os.environ['DJANGO_SETTINGS_MODULE'] = "Bcfg2.settings"
import Bcfg2.settings
Bcfg2.settings.DATABASE_NAME = \
os.path.join(os.path.dirname(os.path.abspath(__file__)), "test.sqlite")
Bcfg2.settings.DATABASES['default']['NAME'] = Bcfg2.settings.DATABASE_NAME
except ImportError:
has_django = False
try:
from mock import call
except ImportError:
def call(*args, **kwargs):
""" the Mock call object is a fairly recent addition, but it's
very very useful, so we create our own function to create Mock
calls """
return (args, kwargs)
if inPy3k:
builtins = "builtins"
def u(x):
return x
else:
builtins = "__builtin__"
import codecs
def u(x):
return codecs.unicode_escape_decode(x)[0]
if hasattr(unittest, "skip"):
can_skip = True
skip = unittest.skip
skipIf = unittest.skipIf
skipUnless = unittest.skipUnless
else:
# we can't actually skip tests, we just make them pass
can_skip = False
def skip(msg):
def decorator(func):
return lambda *args, **kwargs: None
return decorator
def skipIf(condition, msg):
if not condition:
return lambda f: f
else:
return skip(msg)
def skipUnless(condition, msg):
if condition:
return lambda f: f
else:
return skip(msg)
needs_assertItemsEqual = False
needs_others = False
if not hasattr(unittest.TestCase, "assertItemsEqual"):
# TestCase in Py3k lacks assertItemsEqual, but has the other
# convenience methods. this code is (mostly) cribbed from the
# py2.7 unittest library
needs_assertItemsEqual = True
def _count_diff_all_purpose(actual, expected):
'''Returns list of (cnt_act, cnt_exp, elem) triples where the
counts differ'''
# elements need not be hashable
s, t = list(actual), list(expected)
m, n = len(s), len(t)
NULL = object()
result = []
for i, elem in enumerate(s):
if elem is NULL:
continue
cnt_s = cnt_t = 0
for j in range(i, m):
if s[j] == elem:
cnt_s += 1
s[j] = NULL
for j, other_elem in enumerate(t):
if other_elem == elem:
cnt_t += 1
t[j] = NULL
if cnt_s != cnt_t:
diff = (cnt_s, cnt_t, elem)
result.append(diff)
for i, elem in enumerate(t):
if elem is NULL:
continue
cnt_t = 0
for j in range(i, n):
if t[j] == elem:
cnt_t += 1
t[j] = NULL
diff = (0, cnt_t, elem)
result.append(diff)
return result
if True or not hasattr(unittest.TestCase, "assertIn"):
# versions of TestCase before python 2.7 and python 3.1 lacked a
# lot of the really handy convenience methods, so we provide them
# -- at least the easy ones and the ones we use.
needs_others = True
def _assertion(predicate, default_msg=None):
@wraps(predicate)
def inner(self, *args, **kwargs):
if 'msg' in kwargs:
msg = kwargs['msg']
del kwargs['msg']
else:
msg = default_msg % args
assert predicate(*args, **kwargs), msg
return inner
def _regex_matches(val, regex):
if hasattr(regex, 'search'):
return regex.search(val)
else:
return re.search(regex, val)
class Bcfg2TestCase(unittest.TestCase):
if needs_assertItemsEqual:
def assertItemsEqual(self, expected_seq, actual_seq, msg=None):
first_seq, second_seq = list(actual_seq), list(expected_seq)
differences = _count_diff_all_purpose(first_seq, second_seq)
if differences:
standardMsg = 'Element counts were not equal:\n'
lines = ['First has %d, Second has %d: %r' % diff
for diff in differences]
diffMsg = '\n'.join(lines)
standardMsg = self._truncateMessage(standardMsg, diffMsg)
msg = self._formatMessage(msg, standardMsg)
self.fail(msg)
if needs_others:
assertIs = _assertion(lambda a, b: a is b, "%s is not %s")
assertIsNot = _assertion(lambda a, b: a is not b, "%s is %s")
assertIsNone = _assertion(lambda x: x is None, "%s is not None")
assertIsNotNone = _assertion(lambda x: x is not None, "%s is None")
assertIn = _assertion(lambda a, b: a in b, "%s is not in %s")
assertNotIn = _assertion(lambda a, b: a not in b, "%s is in %s")
assertIsInstance = _assertion(isinstance, "%s is not instance of %s")
assertNotIsInstance = _assertion(lambda a, b: not isinstance(a, b),
"%s is instance of %s")
assertGreater = _assertion(lambda a, b: a > b,
"%s is not greater than %s")
assertGreaterEqual = _assertion(lambda a, b: a >= b,
"%s is not greater than or equal to %s")
assertLess = _assertion(lambda a, b: a < b, "%s is not less than %s")
assertLessEqual = _assertion(lambda a, b: a <= b,
"%s is not less than or equal to %s")
assertRegexpMatches = _assertion(lambda s, r: _regex_matches(s, r),
"%s does not contain /%s/")
assertNotRegexpMatches = \
_assertion(lambda s, r: not _regex_matches(s, r),
"%s contains /%s/")
def assertXMLEqual(self, el1, el2, msg=None):
self.assertEqual(el1.tag, el2.tag, msg=msg)
self.assertEqual(el1.text, el2.text, msg=msg)
self.assertItemsEqual(el1.attrib, el2.attrib, msg=msg)
self.assertEqual(len(el1.getchildren()),
len(el2.getchildren()))
for child1 in el1.getchildren():
cname = child1.get("name")
self.assertIsNotNone(cname,
msg="Element %s has no 'name' attribute" %
child1.tag)
children2 = el2.xpath("*[@name='%s']" % cname)
self.assertEqual(len(children2), 1,
msg="More than one element named %s" % cname)
self.assertXMLEqual(child1, children2[0], msg=msg)
class DBModelTestCase(Bcfg2TestCase):
models = []
@skipUnless(has_django, "Django not found, skipping")
def test_syncdb(self):
# create the test database
setup_environ(Bcfg2.settings)
from django.core.management.commands import syncdb
cmd = syncdb.Command()
cmd.handle_noargs(interactive=False)
self.assertTrue(os.path.exists(Bcfg2.settings.DATABASE_NAME))
@skipUnless(has_django, "Django not found, skipping")
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()), [])
def syncdb(modeltest):
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
class patchIf(object):
""" 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 applies 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, autospec=None, new_callable=None, **kwargs):
self.condition = condition
self.target = target
self.patch_args = dict(new=new, spec=spec, create=create,
spec_set=spec_set)
self.extra_patch_args = dict(autospec=autospec,
new_callable=new_callable)
self.kwargs = kwargs
def __call__(self, func):
if self.condition:
try:
# in newer versions of mock, patch() takes arbitrary
# keyword arguments
args = dict(**self.patch_args)
args.update(self.extra_patch_args)
args.update(self.kwargs)
return patch(self.target, **args)(func)
except TypeError:
# in older versions of mock, patch() doesn't take
# autospec, new_callable or arbitrary keyword
# arguments
return patch(self.target, **self.patch_args)(func)
else:
try:
args = [lambda: True,
self.target.rsplit('.', 1)[-1],
self.patch_args['new'], self.patch_args['spec'],
self.patch_args['create'], None,
self.patch_args['spec_set']]
# in older versions of mock _patch() takes 8 args
return _noop_patch(*args)(func)
except TypeError:
# in new versions of mock _patch() takes 10 args
args = [lambda: True,
self.target.rsplit('.', 1)[-1],
self.patch_args['new'], self.patch_args['spec'],
self.patch_args['create'], self.patch_args['spec_set'],
self.extra_patch_args['autospec'],
self.extra_patch_args['new_callable'],
self.kwargs]
return _noop_patch(*args)(func)
|
