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bf3083c376
https://pylint.pycqa.org/en/latest/user_guide/messages/convention/unnecessary-lambda-assignment.html: > Used when a lambda expression is assigned to variable rather than defining a standard function with the "def" keyword. https://peps.python.org/pep-0008/#programming-recommendations: > Always use a def statement instead of an assignment statement that binds a lambda expression directly to an identifier: def f(x): return 2*x f = lambda x: 2*x The first form means that the name of the resulting function object is specifically ‘f’ instead of the generic ‘<lambda>’. This is more useful for tracebacks and string representations in general. The use of the assignment statement eliminates the sole benefit a lambda expression can offer over an explicit def statement (i.e. that it can be embedded inside a larger expression) Fixes: https://pagure.io/freeipa/issue/9278 Signed-off-by: Stanislav Levin <slev@altlinux.org> Reviewed-By: Stanislav Levin <slev@altlinux.org>
1904 lines
66 KiB
Python
1904 lines
66 KiB
Python
# -*- coding: utf-8 -*-
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# Authors:
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# Jason Gerard DeRose <jderose@redhat.com>
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#
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# Copyright (C) 2008 Red Hat
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# see file 'COPYING' for use and warranty information
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#
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# This program is free software; you can redistribute it and/or modify
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# it under the terms of the GNU General Public License as published by
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# the Free Software Foundation, either version 3 of the License, or
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# (at your option) any later version.
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#
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# This program is distributed in the hope that it will be useful,
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# but WITHOUT ANY WARRANTY; without even the implied warranty of
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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# GNU General Public License for more details.
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#
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# You should have received a copy of the GNU General Public License
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# along with this program. If not, see <http://www.gnu.org/licenses/>.
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"""
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Test the `ipalib.parameters` module.
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"""
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# FIXME: Pylint errors
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# pylint: disable=no-member
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import base64
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import datetime
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import re
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import sys
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from decimal import Decimal
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from inspect import isclass
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from xmlrpc.client import MAXINT, MININT
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import pytest
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import six
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from cryptography import x509 as crypto_x509
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from cryptography.hazmat.backends import default_backend
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from ipatests.util import raises, ClassChecker, read_only
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from ipatests.util import dummy_ugettext, assert_equal
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from ipatests.data import binary_bytes, utf8_bytes, unicode_str
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from ipalib import parameters, text, errors, config, x509
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from ipalib.constants import TYPE_ERROR, CALLABLE_ERROR
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from ipalib.errors import ValidationError, ConversionError
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from ipalib import _
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from ipapython.dn import DN
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if six.PY3:
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unicode = str
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long = int
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NULLS = (None, b'', u'', tuple(), [])
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pytestmark = pytest.mark.tier0
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class test_DefaultFrom(ClassChecker):
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"""
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Test the `ipalib.parameters.DefaultFrom` class.
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"""
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_cls = parameters.DefaultFrom
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def test_init(self):
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"""
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Test the `ipalib.parameters.DefaultFrom.__init__` method.
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"""
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def callback(*args):
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return args
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keys = ('givenname', 'sn')
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o = self.cls(callback, *keys)
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assert read_only(o, 'callback') is callback
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assert read_only(o, 'keys') == keys
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o = self.cls(lambda first, last: first[0] + last)
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assert read_only(o, 'keys') == ('first', 'last')
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# Test that TypeError is raised when callback isn't callable:
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e = raises(TypeError, self.cls, 'whatever')
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assert str(e) == CALLABLE_ERROR % ('callback', 'whatever', str)
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# Test that TypeError is raised when a key isn't an str:
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e = raises(TypeError, self.cls, callback, 'givenname', 17)
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assert str(e) == TYPE_ERROR % ('keys', str, 17, int)
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# Test that ValueError is raised when inferring keys from a callback
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# which has *args:
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e = raises(ValueError, self.cls, lambda foo, *args: None)
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assert str(e) == "callback: variable-length argument list not allowed"
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# Test that ValueError is raised when inferring keys from a callback
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# which has **kwargs:
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e = raises(ValueError, self.cls, lambda foo, **kwargs: None)
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assert str(e) == "callback: variable-length argument list not allowed"
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def test_repr(self):
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"""
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Test the `ipalib.parameters.DefaultFrom.__repr__` method.
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"""
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def stuff(one, two):
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pass
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o = self.cls(stuff)
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assert repr(o) == "DefaultFrom('one', 'two')"
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o = self.cls(stuff, 'aye', 'bee', 'see')
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assert repr(o) == "DefaultFrom('aye', 'bee', 'see')"
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def cb(first, last):
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return first[0] + last
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o = self.cls(cb)
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assert repr(o) == "DefaultFrom('first', 'last')"
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o = self.cls(cb, 'aye', 'bee', 'see')
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assert repr(o) == "DefaultFrom('aye', 'bee', 'see')"
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def test_call(self):
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"""
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Test the `ipalib.parameters.DefaultFrom.__call__` method.
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"""
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def callback(givenname, sn):
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return givenname[0] + sn[0]
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keys = ('givenname', 'sn')
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o = self.cls(callback, *keys)
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kw = dict(
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givenname='John',
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sn='Public',
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hello='world',
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)
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assert o(**kw) == 'JP'
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assert o() is None
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for key in ('givenname', 'sn'):
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kw_copy = dict(kw)
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del kw_copy[key]
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assert o(**kw_copy) is None
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# Test using implied keys:
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o = self.cls(lambda first, last: first[0] + last)
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assert o(first='john', last='doe') == 'jdoe'
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assert o(first='', last='doe') is None
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assert o(one='john', two='doe') is None
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# Test that co_varnames slice is used:
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def callback2(first, last):
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letter = first[0]
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return letter + last
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o = self.cls(callback2)
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assert o.keys == ('first', 'last')
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assert o(first='john', last='doe') == 'jdoe'
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def test_parse_param_spec():
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"""
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Test the `ipalib.parameters.parse_param_spec` function.
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"""
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f = parameters.parse_param_spec
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assert f('name') == ('name', dict(required=True, multivalue=False))
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assert f('name?') == ('name', dict(required=False, multivalue=False))
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assert f('name*') == ('name', dict(required=False, multivalue=True))
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assert f('name+') == ('name', dict(required=True, multivalue=True))
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# Make sure other "funny" endings are *not* treated special:
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assert f('name^') == ('name^', dict(required=True, multivalue=False))
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# Test that TypeError is raised if spec isn't an str:
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if six.PY2:
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bad_value = u'name?'
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else:
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bad_value = b'name?'
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e = raises(TypeError, f, bad_value)
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assert str(e) == TYPE_ERROR % ('spec', str, bad_value, type(bad_value))
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class DummyRule:
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def __init__(self, error=None):
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assert error is None or type(error) is unicode
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self.error = error
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self.reset()
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def __call__(self, *args):
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self.calls.append(args)
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return self.error
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def reset(self):
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self.calls = []
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class test_Param(ClassChecker):
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"""
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Test the `ipalib.parameters.Param` class.
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"""
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_cls = parameters.Param
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def test_init(self):
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"""
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Test the `ipalib.parameters.Param.__init__` method.
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"""
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name = 'my_param'
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o = self.cls(name)
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assert o.param_spec is name
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assert o.name is name
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assert o.nice == "Param('my_param')"
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assert o.password is False
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assert o.__islocked__() is True
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# Test default rules:
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assert o.rules == tuple()
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assert o.class_rules == tuple()
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assert o.all_rules == tuple()
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# Test default kwarg values:
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assert o.cli_name is name
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assert o.label.msg == 'my_param'
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assert o.doc.msg == 'my_param'
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assert o.required is True
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assert o.multivalue is False
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assert o.primary_key is False
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assert o.normalizer is None
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assert o.default is None
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assert o.default_from is None
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assert o.autofill is False
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assert o.query is False
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assert o.attribute is False
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assert o.include is None
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assert o.exclude is None
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assert o.flags == frozenset()
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assert o.sortorder == 2
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# Test that doc defaults from label:
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o = self.cls('my_param', doc=_('Hello world'))
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assert o.label.msg == 'my_param'
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assert o.doc.msg == 'Hello world'
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o = self.cls('my_param', label='My Param')
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assert o.label == 'My Param'
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assert o.doc == 'My Param'
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# Test that ValueError is raised when a kwarg from a subclass
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# conflicts with an attribute:
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class Subclass1(self.cls):
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kwargs = self.cls.kwargs + (
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('convert', callable, None),
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)
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e = raises(ValueError, Subclass1, name)
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assert str(e) == "kwarg 'convert' conflicts with attribute on Subclass1"
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# Test type validation of keyword arguments:
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class Subclass(self.cls):
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kwargs = self.cls.kwargs + (
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('extra1', bool, True),
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('extra2', str, 'Hello'),
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('extra3', (int, float), 42),
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('extra4', callable, lambda whatever: whatever + 7),
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)
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o = Subclass('my_param') # Test with no **kw:
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for key, kind, _default in o.kwargs:
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# Test with a type invalid for all:
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value = object()
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kw = {key: value}
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e = raises(TypeError, Subclass, 'my_param', **kw)
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if kind is callable:
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assert str(e) == CALLABLE_ERROR % (key, value, type(value))
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else:
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assert str(e) == TYPE_ERROR % (key, kind, value, type(value))
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# Test with None:
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kw = {key: None}
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Subclass('my_param', **kw)
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# Test when using unknown kwargs:
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e = raises(TypeError, self.cls, 'my_param',
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flags=['hello', 'world'],
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whatever=u'Hooray!',
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)
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assert str(e) == \
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"Param('my_param'): takes no such kwargs: 'whatever'"
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e = raises(TypeError, self.cls, 'my_param', great='Yes', ape='he is!')
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assert str(e) == \
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"Param('my_param'): takes no such kwargs: 'ape', 'great'"
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# Test that ValueError is raised if you provide both include and
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# exclude:
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e = raises(ValueError, self.cls, 'my_param',
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include=['server', 'foo'],
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exclude=['client', 'bar'],
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)
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assert str(e) == '%s: cannot have both %s=%r and %s=%r' % (
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"Param('my_param')",
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'include', frozenset(['server', 'foo']),
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'exclude', frozenset(['client', 'bar']),
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)
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# Test that default_from gets set:
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def call(first, last):
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return first[0] + last
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o = self.cls('my_param', default_from=call)
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assert type(o.default_from) is parameters.DefaultFrom
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assert o.default_from.callback is call
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def test_repr(self):
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"""
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Test the `ipalib.parameters.Param.__repr__` method.
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"""
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for name in ['name', 'name?', 'name*', 'name+']:
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o = self.cls(name)
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assert repr(o) == 'Param(%r)' % name
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o = self.cls('name', required=False)
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assert repr(o) == "Param('name?')"
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o = self.cls('name', multivalue=True)
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assert repr(o) == "Param('name+')"
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def test_use_in_context(self):
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"""
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Test the `ipalib.parameters.Param.use_in_context` method.
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"""
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set1 = ('one', 'two', 'three')
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set2 = ('four', 'five', 'six')
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param1 = self.cls('param1')
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param2 = self.cls('param2', include=set1)
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param3 = self.cls('param3', exclude=set2)
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for context in set1:
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env = config.Env()
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env.context = context
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assert param1.use_in_context(env) is True, context
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assert param2.use_in_context(env) is True, context
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assert param3.use_in_context(env) is True, context
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for context in set2:
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env = config.Env()
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env.context = context
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assert param1.use_in_context(env) is True, context
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assert param2.use_in_context(env) is False, context
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assert param3.use_in_context(env) is False, context
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def test_safe_value(self):
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"""
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Test the `ipalib.parameters.Param.safe_value` method.
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"""
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values = (unicode_str, binary_bytes, utf8_bytes)
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o = self.cls('my_param')
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for value in values:
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assert o.safe_value(value) is value
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assert o.safe_value(None) is None
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p = parameters.Password('my_passwd')
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for value in values:
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assert_equal(p.safe_value(value), u'********')
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assert p.safe_value(None) is None
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def test_password_whitespaces(self):
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values = ('Secret123', ' Secret123', 'Secret123 ', ' Secret123 ',)
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p = parameters.Password('my_passwd')
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for value in values:
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assert(p.validate(value)) is None
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def test_clone(self):
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"""
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Test the `ipalib.parameters.Param.clone` method.
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"""
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# Test with the defaults
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orig = self.cls('my_param')
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clone = orig.clone()
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assert clone is not orig
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assert type(clone) is self.cls
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assert clone.name is orig.name
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for key, _kind, _default in self.cls.kwargs:
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assert getattr(clone, key) == getattr(orig, key)
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# Test with a param spec:
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orig = self.cls('my_param*')
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assert orig.param_spec == 'my_param*'
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clone = orig.clone()
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assert clone.param_spec == 'my_param*'
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assert clone is not orig
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assert type(clone) is self.cls
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for key, _kind, _default in self.cls.kwargs:
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assert getattr(clone, key) == getattr(orig, key)
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# Test with overrides:
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orig = self.cls('my_param*')
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assert orig.required is False
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assert orig.multivalue is True
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clone = orig.clone(required=True)
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assert clone is not orig
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assert type(clone) is self.cls
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assert clone.required is True
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assert clone.multivalue is True
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assert clone.param_spec == 'my_param+'
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assert clone.name == 'my_param'
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def test_clone_rename(self):
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"""
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Test the `ipalib.parameters.Param.clone` method.
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"""
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new_name = 'my_new_param'
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# Test with the defaults
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orig = self.cls('my_param')
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clone = orig.clone_rename(new_name)
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assert clone is not orig
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assert type(clone) is self.cls
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assert clone.name == new_name
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for key, _kind, _default in self.cls.kwargs:
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if key in ('cli_name', 'label', 'doc', 'cli_metavar'):
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continue
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assert getattr(clone, key) is getattr(orig, key)
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# Test with overrides:
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orig = self.cls('my_param*')
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assert orig.required is False
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assert orig.multivalue is True
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clone = orig.clone_rename(new_name, required=True)
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assert clone is not orig
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assert type(clone) is self.cls
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assert clone.required is True
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assert clone.multivalue is True
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assert clone.param_spec == "{0}+".format(new_name)
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assert clone.name == new_name
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def test_convert(self):
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"""
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Test the `ipalib.parameters.Param.convert` method.
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"""
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okay = ('Hello', u'Hello', 0, 4.2, True, False, unicode_str)
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class Subclass(self.cls):
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def _convert_scalar(self, value, index=None):
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return value
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# Test when multivalue=False:
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o = Subclass('my_param')
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for value in NULLS:
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assert o.convert(value) is None
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assert o.convert(None) is None
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for value in okay:
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assert o.convert(value) is value
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# Test when multivalue=True:
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o = Subclass('my_param', multivalue=True)
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for value in NULLS:
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assert o.convert(value) is None
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assert o.convert(okay) == okay
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assert o.convert(NULLS) is None
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assert o.convert(okay + NULLS) == okay
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assert o.convert(NULLS + okay) == okay
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for value in okay:
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assert o.convert(value) == (value,)
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assert o.convert([None, value]) == (value,)
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assert o.convert([value, None]) == (value,)
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def test_convert_scalar(self):
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"""
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Test the `ipalib.parameters.Param._convert_scalar` method.
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"""
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dummy = dummy_ugettext()
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# Test with correct type:
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o = self.cls('my_param')
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assert o._convert_scalar(None) is None
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assert dummy.called() is False
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# Test with incorrect type
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raises(errors.ConversionError, o._convert_scalar, 'hello')
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def test_validate(self):
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"""
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Test the `ipalib.parameters.Param.validate` method.
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"""
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# Test in default state (with no rules, no kwarg):
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o = self.cls('my_param')
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e = raises(errors.RequirementError, o.validate, None)
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assert e.name == 'my_param'
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# Test with required=False
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o = self.cls('my_param', required=False)
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assert o.required is False
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assert o.validate(None) is None
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# Test with query=True:
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o = self.cls('my_param', query=True)
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assert o.query is True
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e = raises(errors.RequirementError, o.validate, None)
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assert_equal(e.name, u'my_param')
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# Test with multivalue=True:
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o = self.cls('my_param', multivalue=True)
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e = raises(TypeError, o.validate, [])
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assert str(e) == TYPE_ERROR % ('value', tuple, [], list)
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e = raises(ValueError, o.validate, tuple())
|
|
assert str(e) == 'value: empty tuple must be converted to None'
|
|
|
|
# Test with wrong (scalar) type:
|
|
e = raises(TypeError, o.validate, (None, None, 42, None))
|
|
assert str(e) == TYPE_ERROR % ('my_param', type(None), 42, int)
|
|
o = self.cls('my_param')
|
|
e = raises(TypeError, o.validate, 'Hello')
|
|
assert str(e) == TYPE_ERROR % ('my_param', type(None), 'Hello', str)
|
|
|
|
class Example(self.cls):
|
|
type = int
|
|
|
|
# Test with some rules and multivalue=False
|
|
pass1 = DummyRule()
|
|
pass2 = DummyRule()
|
|
fail = DummyRule(u'no good')
|
|
o = Example('example', pass1, pass2)
|
|
assert o.multivalue is False
|
|
assert o.validate(11) is None
|
|
assert pass1.calls == [(text.ugettext, 11)]
|
|
assert pass2.calls == [(text.ugettext, 11)]
|
|
pass1.reset()
|
|
pass2.reset()
|
|
o = Example('example', pass1, pass2, fail)
|
|
e = raises(errors.ValidationError, o.validate, 42)
|
|
assert e.name == 'example'
|
|
assert e.error == u'no good'
|
|
assert pass1.calls == [(text.ugettext, 42)]
|
|
assert pass2.calls == [(text.ugettext, 42)]
|
|
assert fail.calls == [(text.ugettext, 42)]
|
|
|
|
# Test with some rules and multivalue=True
|
|
pass1 = DummyRule()
|
|
pass2 = DummyRule()
|
|
fail = DummyRule(u'this one is not good')
|
|
o = Example('example', pass1, pass2, multivalue=True)
|
|
assert o.multivalue is True
|
|
assert o.validate((3, 9)) is None
|
|
assert pass1.calls == [
|
|
(text.ugettext, 3),
|
|
(text.ugettext, 9),
|
|
]
|
|
assert pass2.calls == [
|
|
(text.ugettext, 3),
|
|
(text.ugettext, 9),
|
|
]
|
|
pass1.reset()
|
|
pass2.reset()
|
|
o = Example('multi_example', pass1, pass2, fail, multivalue=True)
|
|
assert o.multivalue is True
|
|
e = raises(errors.ValidationError, o.validate, (3, 9))
|
|
assert e.name == 'multi_example'
|
|
assert e.error == u'this one is not good'
|
|
assert pass1.calls == [(text.ugettext, 3)]
|
|
assert pass2.calls == [(text.ugettext, 3)]
|
|
assert fail.calls == [(text.ugettext, 3)]
|
|
|
|
def test_validate_scalar(self):
|
|
"""
|
|
Test the `ipalib.parameters.Param._validate_scalar` method.
|
|
"""
|
|
class MyParam(self.cls):
|
|
type = bool
|
|
okay = DummyRule()
|
|
o = MyParam('my_param', okay)
|
|
|
|
# Test that TypeError is appropriately raised:
|
|
e = raises(TypeError, o._validate_scalar, 0)
|
|
assert str(e) == TYPE_ERROR % ('my_param', bool, 0, int)
|
|
|
|
# Test with passing rule:
|
|
assert o._validate_scalar(True) is None
|
|
assert o._validate_scalar(False) is None
|
|
assert okay.calls == [
|
|
(text.ugettext, True),
|
|
(text.ugettext, False),
|
|
]
|
|
|
|
# Test with a failing rule:
|
|
okay = DummyRule()
|
|
fail = DummyRule(u'this describes the error')
|
|
o = MyParam('my_param', okay, fail)
|
|
e = raises(errors.ValidationError, o._validate_scalar, True)
|
|
assert e.name == 'my_param'
|
|
assert e.error == u'this describes the error'
|
|
e = raises(errors.ValidationError, o._validate_scalar, False)
|
|
assert e.name == 'my_param'
|
|
assert e.error == u'this describes the error'
|
|
assert okay.calls == [
|
|
(text.ugettext, True),
|
|
(text.ugettext, False),
|
|
]
|
|
assert fail.calls == [
|
|
(text.ugettext, True),
|
|
(text.ugettext, False),
|
|
]
|
|
|
|
def test_get_default(self):
|
|
"""
|
|
Test the `ipalib.parameters.Param.get_default` method.
|
|
"""
|
|
class PassThrough:
|
|
value = None
|
|
|
|
def __call__(self, value):
|
|
assert self.value is None
|
|
assert value is not None
|
|
self.value = value
|
|
return value
|
|
|
|
def reset(self):
|
|
assert self.value is not None
|
|
self.value = None
|
|
|
|
class Str(self.cls):
|
|
type = unicode
|
|
|
|
def __init__(self, name, **kw):
|
|
# (Pylint complains because the superclass is unknowm)
|
|
# pylint: disable=super-on-old-class
|
|
self._convert_scalar = PassThrough()
|
|
super(Str, self).__init__(name, **kw)
|
|
|
|
# Test with only a static default:
|
|
o = Str('my_str',
|
|
normalizer=PassThrough(),
|
|
default=u'Static Default',
|
|
)
|
|
assert_equal(o.get_default(), u'Static Default')
|
|
assert o._convert_scalar.value is None
|
|
assert o.normalizer.value is None
|
|
|
|
# Test with default_from:
|
|
o = Str('my_str',
|
|
normalizer=PassThrough(),
|
|
default=u'Static Default',
|
|
default_from=lambda first, last: first[0] + last,
|
|
)
|
|
assert_equal(o.get_default(), u'Static Default')
|
|
assert o._convert_scalar.value is None
|
|
assert o.normalizer.value is None
|
|
default = o.get_default(first=u'john', last='doe')
|
|
assert_equal(default, u'jdoe')
|
|
assert o._convert_scalar.value is default
|
|
assert o.normalizer.value is default
|
|
|
|
|
|
class test_Flag(ClassChecker):
|
|
"""
|
|
Test the `ipalib.parameters.Flag` class.
|
|
"""
|
|
_cls = parameters.Flag
|
|
|
|
def test_init(self):
|
|
"""
|
|
Test the `ipalib.parameters.Flag.__init__` method.
|
|
"""
|
|
# Test with no kwargs:
|
|
o = self.cls('my_flag')
|
|
assert o.type is bool
|
|
assert isinstance(o, parameters.Bool)
|
|
assert o.autofill is True
|
|
assert o.default is False
|
|
|
|
# Test that TypeError is raise if default is not a bool:
|
|
e = raises(TypeError, self.cls, 'my_flag', default=None)
|
|
assert str(e) == TYPE_ERROR % ('default', bool, None, type(None))
|
|
|
|
# Test with autofill=False, default=True
|
|
o = self.cls('my_flag', autofill=False, default=True)
|
|
assert o.autofill is True
|
|
assert o.default is True
|
|
|
|
# Test when cloning:
|
|
orig = self.cls('my_flag')
|
|
for clone in [orig.clone(), orig.clone(autofill=False)]:
|
|
assert clone.autofill is True
|
|
assert clone.default is False
|
|
assert clone is not orig
|
|
assert type(clone) is self.cls
|
|
|
|
# Test when cloning with default=True/False
|
|
orig = self.cls('my_flag')
|
|
assert orig.clone().default is False
|
|
assert orig.clone(default=True).default is True
|
|
orig = self.cls('my_flag', default=True)
|
|
assert orig.clone().default is True
|
|
assert orig.clone(default=False).default is False
|
|
|
|
|
|
class test_Data(ClassChecker):
|
|
"""
|
|
Test the `ipalib.parameters.Data` class.
|
|
"""
|
|
_cls = parameters.Data
|
|
|
|
def test_init(self):
|
|
"""
|
|
Test the `ipalib.parameters.Data.__init__` method.
|
|
"""
|
|
o = self.cls('my_data')
|
|
assert o.type is type(None) # noqa
|
|
assert o.password is False
|
|
assert o.rules == tuple()
|
|
assert o.class_rules == tuple()
|
|
assert o.all_rules == tuple()
|
|
assert o.minlength is None
|
|
assert o.maxlength is None
|
|
assert o.length is None
|
|
|
|
# Test mixing length with minlength or maxlength:
|
|
o = self.cls('my_data', length=5)
|
|
assert o.length == 5
|
|
permutations = [
|
|
dict(minlength=3),
|
|
dict(maxlength=7),
|
|
dict(minlength=3, maxlength=7),
|
|
]
|
|
for kw in permutations:
|
|
o = self.cls('my_data', **kw)
|
|
for (key, value) in kw.items():
|
|
assert getattr(o, key) == value
|
|
e = raises(ValueError, self.cls, 'my_data', length=5, **kw)
|
|
assert str(e) == \
|
|
"Data('my_data'): cannot mix length with minlength or maxlength"
|
|
|
|
# Test when minlength or maxlength are less than 1:
|
|
e = raises(ValueError, self.cls, 'my_data', minlength=0)
|
|
assert str(e) == "Data('my_data'): minlength must be >= 1; got 0"
|
|
e = raises(ValueError, self.cls, 'my_data', maxlength=0)
|
|
assert str(e) == "Data('my_data'): maxlength must be >= 1; got 0"
|
|
|
|
# Test when minlength > maxlength:
|
|
e = raises(ValueError, self.cls, 'my_data', minlength=22, maxlength=15)
|
|
assert str(e) == \
|
|
"Data('my_data'): minlength > maxlength (minlength=22, maxlength=15)"
|
|
|
|
# Test when minlength == maxlength
|
|
e = raises(ValueError, self.cls, 'my_data', minlength=7, maxlength=7)
|
|
assert str(e) == \
|
|
"Data('my_data'): minlength == maxlength; use length=7 instead"
|
|
|
|
|
|
class test_Bytes(ClassChecker):
|
|
"""
|
|
Test the `ipalib.parameters.Bytes` class.
|
|
"""
|
|
_cls = parameters.Bytes
|
|
|
|
def test_init(self):
|
|
"""
|
|
Test the `ipalib.parameters.Bytes.__init__` method.
|
|
"""
|
|
o = self.cls('my_bytes')
|
|
assert o.type is bytes
|
|
assert o.password is False
|
|
assert o.rules == tuple()
|
|
assert o.class_rules == tuple()
|
|
assert o.all_rules == tuple()
|
|
assert o.minlength is None
|
|
assert o.maxlength is None
|
|
assert o.length is None
|
|
assert o.pattern is None
|
|
assert o.re is None
|
|
|
|
# Test mixing length with minlength or maxlength:
|
|
o = self.cls('my_bytes', length=5)
|
|
assert o.length == 5
|
|
assert len(o.class_rules) == 1
|
|
assert len(o.rules) == 0
|
|
assert len(o.all_rules) == 1
|
|
permutations = [
|
|
dict(minlength=3),
|
|
dict(maxlength=7),
|
|
dict(minlength=3, maxlength=7),
|
|
]
|
|
for kw in permutations:
|
|
o = self.cls('my_bytes', **kw)
|
|
assert len(o.class_rules) == len(kw)
|
|
assert len(o.rules) == 0
|
|
assert len(o.all_rules) == len(kw)
|
|
for (key, value) in kw.items():
|
|
assert getattr(o, key) == value
|
|
e = raises(ValueError, self.cls, 'my_bytes', length=5, **kw)
|
|
assert str(e) == \
|
|
"Bytes('my_bytes'): cannot mix length with minlength or maxlength"
|
|
|
|
# Test when minlength or maxlength are less than 1:
|
|
e = raises(ValueError, self.cls, 'my_bytes', minlength=0)
|
|
assert str(e) == "Bytes('my_bytes'): minlength must be >= 1; got 0"
|
|
e = raises(ValueError, self.cls, 'my_bytes', maxlength=0)
|
|
assert str(e) == "Bytes('my_bytes'): maxlength must be >= 1; got 0"
|
|
|
|
# Test when minlength > maxlength:
|
|
e = raises(ValueError, self.cls, 'my_bytes', minlength=22, maxlength=15)
|
|
assert str(e) == \
|
|
"Bytes('my_bytes'): minlength > maxlength (minlength=22, maxlength=15)"
|
|
|
|
# Test when minlength == maxlength
|
|
e = raises(ValueError, self.cls, 'my_bytes', minlength=7, maxlength=7)
|
|
assert str(e) == \
|
|
"Bytes('my_bytes'): minlength == maxlength; use length=7 instead"
|
|
|
|
def test_rule_minlength(self):
|
|
"""
|
|
Test the `ipalib.parameters.Bytes._rule_minlength` method.
|
|
"""
|
|
o = self.cls('my_bytes', minlength=3)
|
|
assert o.minlength == 3
|
|
rule = o._rule_minlength
|
|
translation = u'minlength=%(minlength)r'
|
|
dummy = dummy_ugettext(translation)
|
|
assert dummy.translation is translation
|
|
|
|
# Test with passing values:
|
|
for value in (b'abc', b'four', b'12345'):
|
|
assert rule(dummy, value) is None
|
|
assert dummy.called() is False
|
|
|
|
# Test with failing values:
|
|
for value in (b'', b'a', b'12'):
|
|
assert_equal(
|
|
rule(dummy, value),
|
|
translation % dict(minlength=3)
|
|
)
|
|
assert dummy.message == 'must be at least %(minlength)d bytes'
|
|
assert dummy.called() is True
|
|
dummy.reset()
|
|
|
|
def test_rule_maxlength(self):
|
|
"""
|
|
Test the `ipalib.parameters.Bytes._rule_maxlength` method.
|
|
"""
|
|
o = self.cls('my_bytes', maxlength=4)
|
|
assert o.maxlength == 4
|
|
rule = o._rule_maxlength
|
|
translation = u'maxlength=%(maxlength)r'
|
|
dummy = dummy_ugettext(translation)
|
|
assert dummy.translation is translation
|
|
|
|
# Test with passing values:
|
|
for value in (b'ab', b'123', b'four'):
|
|
assert rule(dummy, value) is None
|
|
assert dummy.called() is False
|
|
|
|
# Test with failing values:
|
|
for value in (b'12345', b'sixsix'):
|
|
assert_equal(
|
|
rule(dummy, value),
|
|
translation % dict(maxlength=4)
|
|
)
|
|
assert dummy.message == 'can be at most %(maxlength)d bytes'
|
|
assert dummy.called() is True
|
|
dummy.reset()
|
|
|
|
def test_rule_length(self):
|
|
"""
|
|
Test the `ipalib.parameters.Bytes._rule_length` method.
|
|
"""
|
|
o = self.cls('my_bytes', length=4)
|
|
assert o.length == 4
|
|
rule = o._rule_length
|
|
translation = u'length=%(length)r'
|
|
dummy = dummy_ugettext(translation)
|
|
assert dummy.translation is translation
|
|
|
|
# Test with passing values:
|
|
for value in (b'1234', b'four'):
|
|
assert rule(dummy, value) is None
|
|
assert dummy.called() is False
|
|
|
|
# Test with failing values:
|
|
for value in (b'ab', b'123', b'12345', b'sixsix'):
|
|
assert_equal(
|
|
rule(dummy, value),
|
|
translation % dict(length=4),
|
|
)
|
|
assert dummy.message == 'must be exactly %(length)d bytes'
|
|
assert dummy.called() is True
|
|
dummy.reset()
|
|
|
|
def test_rule_pattern(self):
|
|
"""
|
|
Test the `ipalib.parameters.Bytes._rule_pattern` method.
|
|
"""
|
|
# Test our assumptions about Python re module and Unicode:
|
|
pat = br'\w+$'
|
|
r = re.compile(pat)
|
|
assert r.match(b'Hello_World') is not None
|
|
assert r.match(utf8_bytes) is None
|
|
assert r.match(binary_bytes) is None
|
|
|
|
# Create instance:
|
|
o = self.cls('my_bytes', pattern=pat)
|
|
assert o.pattern is pat
|
|
rule = o._rule_pattern
|
|
translation = u'pattern=%(pattern)r'
|
|
dummy = dummy_ugettext(translation)
|
|
|
|
# Test with passing values:
|
|
for value in (b'HELLO', b'hello', b'Hello_World'):
|
|
assert rule(dummy, value) is None
|
|
assert dummy.called() is False
|
|
|
|
# Test with failing values:
|
|
for value in (b'Hello!', b'Hello World', utf8_bytes, binary_bytes):
|
|
assert_equal(
|
|
rule(dummy, value),
|
|
translation % dict(pattern=pat),
|
|
)
|
|
assert_equal(dummy.message, 'must match pattern "%(pattern)s"')
|
|
assert dummy.called() is True
|
|
dummy.reset()
|
|
|
|
|
|
class test_Str(ClassChecker):
|
|
"""
|
|
Test the `ipalib.parameters.Str` class.
|
|
"""
|
|
_cls = parameters.Str
|
|
|
|
def test_init(self):
|
|
"""
|
|
Test the `ipalib.parameters.Str.__init__` method.
|
|
"""
|
|
o = self.cls('my_str')
|
|
assert o.type is unicode
|
|
assert o.password is False
|
|
assert o.minlength is None
|
|
assert o.maxlength is None
|
|
assert o.length is None
|
|
assert o.pattern is None
|
|
|
|
def test_convert_scalar(self):
|
|
"""
|
|
Test the `ipalib.parameters.Str._convert_scalar` method.
|
|
"""
|
|
o = self.cls('my_str')
|
|
mthd = o._convert_scalar
|
|
for value in (u'Hello', 42, 1.2, unicode_str):
|
|
assert mthd(value) == unicode(value)
|
|
bad = [True, b'Hello', dict(one=1), utf8_bytes]
|
|
for value in bad:
|
|
e = raises(errors.ConversionError, mthd, value)
|
|
assert e.name == 'my_str'
|
|
assert_equal(unicode(e.error), u'must be Unicode text')
|
|
bad = [(u'Hello',), [42.3]]
|
|
for value in bad:
|
|
e = raises(errors.ConversionError, mthd, value)
|
|
assert e.name == 'my_str'
|
|
assert_equal(unicode(e.error), u'Only one value is allowed')
|
|
assert o.convert(None) is None
|
|
|
|
def test_rule_minlength(self):
|
|
"""
|
|
Test the `ipalib.parameters.Str._rule_minlength` method.
|
|
"""
|
|
o = self.cls('my_str', minlength=3)
|
|
assert o.minlength == 3
|
|
rule = o._rule_minlength
|
|
translation = u'minlength=%(minlength)r'
|
|
dummy = dummy_ugettext(translation)
|
|
assert dummy.translation is translation
|
|
|
|
# Test with passing values:
|
|
for value in (u'abc', u'four', u'12345'):
|
|
assert rule(dummy, value) is None
|
|
assert dummy.called() is False
|
|
|
|
# Test with failing values:
|
|
for value in (u'', u'a', u'12'):
|
|
assert_equal(
|
|
rule(dummy, value),
|
|
translation % dict(minlength=3)
|
|
)
|
|
assert dummy.message == 'must be at least %(minlength)d characters'
|
|
assert dummy.called() is True
|
|
dummy.reset()
|
|
|
|
def test_rule_maxlength(self):
|
|
"""
|
|
Test the `ipalib.parameters.Str._rule_maxlength` method.
|
|
"""
|
|
o = self.cls('my_str', maxlength=4)
|
|
assert o.maxlength == 4
|
|
rule = o._rule_maxlength
|
|
translation = u'maxlength=%(maxlength)r'
|
|
dummy = dummy_ugettext(translation)
|
|
assert dummy.translation is translation
|
|
|
|
# Test with passing values:
|
|
for value in (u'ab', u'123', u'four'):
|
|
assert rule(dummy, value) is None
|
|
assert dummy.called() is False
|
|
|
|
# Test with failing values:
|
|
for value in (u'12345', u'sixsix'):
|
|
assert_equal(
|
|
rule(dummy, value),
|
|
translation % dict(maxlength=4)
|
|
)
|
|
assert dummy.message == 'can be at most %(maxlength)d characters'
|
|
assert dummy.called() is True
|
|
dummy.reset()
|
|
|
|
def test_rule_length(self):
|
|
"""
|
|
Test the `ipalib.parameters.Str._rule_length` method.
|
|
"""
|
|
o = self.cls('my_str', length=4)
|
|
assert o.length == 4
|
|
rule = o._rule_length
|
|
translation = u'length=%(length)r'
|
|
dummy = dummy_ugettext(translation)
|
|
assert dummy.translation is translation
|
|
|
|
# Test with passing values:
|
|
for value in (u'1234', u'four'):
|
|
assert rule(dummy, value) is None
|
|
assert dummy.called() is False
|
|
|
|
# Test with failing values:
|
|
for value in (u'ab', u'123', u'12345', u'sixsix'):
|
|
assert_equal(
|
|
rule(dummy, value),
|
|
translation % dict(length=4),
|
|
)
|
|
assert dummy.message == 'must be exactly %(length)d characters'
|
|
assert dummy.called() is True
|
|
dummy.reset()
|
|
|
|
def test_rule_pattern(self):
|
|
"""
|
|
Test the `ipalib.parameters.Str._rule_pattern` method.
|
|
"""
|
|
# Test our assumptions about Python re module and Unicode:
|
|
pat = r'\w{5}$'
|
|
r1 = re.compile(pat)
|
|
r2 = re.compile(pat, re.UNICODE)
|
|
if six.PY2:
|
|
assert r1.match(unicode_str) is None
|
|
else:
|
|
assert r1.match(unicode_str) is not None
|
|
assert r2.match(unicode_str) is not None
|
|
|
|
# Create instance:
|
|
o = self.cls('my_str', pattern=pat)
|
|
assert o.pattern is pat
|
|
rule = o._rule_pattern
|
|
translation = u'pattern=%(pattern)r'
|
|
dummy = dummy_ugettext(translation)
|
|
|
|
# Test with passing values:
|
|
for value in (u'HELLO', u'hello', unicode_str):
|
|
assert rule(dummy, value) is None
|
|
assert dummy.called() is False
|
|
|
|
# Test with failing values:
|
|
for value in (u'H LLO', u'***lo', unicode_str + unicode_str):
|
|
assert_equal(
|
|
rule(dummy, value),
|
|
translation % dict(pattern=pat),
|
|
)
|
|
assert_equal(dummy.message, 'must match pattern "%(pattern)s"')
|
|
assert dummy.called() is True
|
|
dummy.reset()
|
|
|
|
|
|
class test_Password(ClassChecker):
|
|
"""
|
|
Test the `ipalib.parameters.Password` class.
|
|
"""
|
|
_cls = parameters.Password
|
|
|
|
def test_init(self):
|
|
"""
|
|
Test the `ipalib.parameters.Password.__init__` method.
|
|
"""
|
|
o = self.cls('my_password')
|
|
assert o.type is unicode
|
|
assert o.minlength is None
|
|
assert o.maxlength is None
|
|
assert o.length is None
|
|
assert o.pattern is None
|
|
assert o.password is True
|
|
|
|
def test_convert_scalar(self):
|
|
"""
|
|
Test the `ipalib.parameters.Password._convert_scalar` method.
|
|
"""
|
|
o = self.cls('my_password')
|
|
e = raises(errors.PasswordMismatch, o._convert_scalar, [u'one', u'two'])
|
|
assert e.name == 'my_password'
|
|
assert o._convert_scalar([u'one', u'one']) == u'one'
|
|
assert o._convert_scalar(u'one') == u'one'
|
|
|
|
|
|
class EnumChecker(ClassChecker):
|
|
"""
|
|
Test *Enum classes.
|
|
"""
|
|
_cls = parameters.StrEnum
|
|
|
|
def test_init(self):
|
|
"""Test the `__init__` method"""
|
|
values = self._test_values
|
|
o = self.cls(self._name, values=values)
|
|
assert o.type is self._datatype
|
|
assert o.values is values
|
|
assert o.class_rules == (o._rule_values,)
|
|
assert o.rules == tuple()
|
|
assert o.all_rules == (o._rule_values,)
|
|
|
|
def test_bad_types(self):
|
|
"""Test failure with incorrect types"""
|
|
badvalues = self._bad_type_values
|
|
e = raises(TypeError, self.cls, 'my_enum', values=badvalues)
|
|
assert str(e) == TYPE_ERROR % (
|
|
"%s('my_enum') values[1]" % self._cls.__name__,
|
|
self._datatype, badvalues[1], self._bad_type)
|
|
|
|
def test_empty(self):
|
|
"""Test that ValueError is raised when list of values is empty"""
|
|
badvalues = tuple()
|
|
e = raises(ValueError, self.cls, 'empty_enum', values=badvalues)
|
|
assert_equal(str(e), "%s('empty_enum'): list of values must not "
|
|
"be empty" % self._cls.__name__)
|
|
|
|
def test_rules_values(self):
|
|
"""Test the `_rule_values` method"""
|
|
|
|
def test_rules_with_passing_rules(self):
|
|
"""Test with passing values"""
|
|
o = self.cls('my_enum', values=self._test_values)
|
|
rule = o._rule_values
|
|
dummy = dummy_ugettext(self._translation)
|
|
for v in self._test_values:
|
|
assert rule(dummy, v) is None
|
|
assert dummy.called() is False
|
|
|
|
def test_rules_with_failing_rules(self):
|
|
"""Test with failing values"""
|
|
o = self.cls('my_enum', values=self._test_values)
|
|
rule = o._rule_values
|
|
dummy = dummy_ugettext(self._translation)
|
|
for val in self._bad_values:
|
|
assert_equal(
|
|
rule(dummy, val),
|
|
self._translation % dict(values=self._test_values),
|
|
)
|
|
assert_equal(dummy.message, "must be one of %(values)s")
|
|
dummy.reset()
|
|
|
|
def test_one_value(self):
|
|
"""test a special case when we have just one allowed value"""
|
|
values = (self._test_values[0], )
|
|
o = self.cls('my_enum', values=values)
|
|
rule = o._rule_values
|
|
dummy = dummy_ugettext(self._single_value_translation)
|
|
|
|
for val in self._bad_values:
|
|
assert_equal(
|
|
rule(dummy, val),
|
|
self._single_value_translation % dict(values=values),
|
|
)
|
|
assert_equal(dummy.message, "must be '%(value)s'")
|
|
dummy.reset()
|
|
|
|
|
|
class test_StrEnum(EnumChecker):
|
|
"""
|
|
Test the `ipalib.parameters.StrEnum` class.
|
|
"""
|
|
_cls = parameters.StrEnum
|
|
_name = 'my_strenum'
|
|
_datatype = unicode
|
|
_test_values = u'Hello', u'tall', u'nurse!'
|
|
_bad_type_values = u'Hello', 1, u'nurse!'
|
|
_bad_type = int
|
|
_translation = u"values='Hello', 'tall', 'nurse!'"
|
|
_bad_values = u'Howdy', u'quiet', u'library!'
|
|
_single_value_translation = u"value='Hello'"
|
|
|
|
|
|
def check_int_scalar_conversions(o):
|
|
"""
|
|
Assure radix prefixes work, str objects fail,
|
|
floats (native & string) are truncated,
|
|
large magnitude values are promoted to long,
|
|
empty strings & invalid numerical representations fail
|
|
"""
|
|
# Assure invalid inputs raise error
|
|
for bad in ['hello', u'hello', True, None, u'', u'.', 8j, ()]:
|
|
e = raises(errors.ConversionError, o._convert_scalar, bad)
|
|
assert e.name == 'my_number'
|
|
# Assure large magnitude values are handled correctly
|
|
assert type(o._convert_scalar(sys.maxsize * 2)) == long
|
|
assert o._convert_scalar(sys.maxsize * 2) == sys.maxsize * 2
|
|
assert o._convert_scalar(unicode(sys.maxsize * 2)) == sys.maxsize * 2
|
|
assert o._convert_scalar(long(16)) == 16
|
|
# Assure normal conversions produce expected result
|
|
assert o._convert_scalar(u'16.99') == 16
|
|
assert o._convert_scalar(16.99) == 16
|
|
assert o._convert_scalar(u'16') == 16
|
|
assert o._convert_scalar(u'0x10') == 16
|
|
assert o._convert_scalar(u'020') == 16
|
|
assert o._convert_scalar(u'0o20') == 16
|
|
|
|
|
|
class test_IntEnum(EnumChecker):
|
|
"""
|
|
Test the `ipalib.parameters.IntEnum` class.
|
|
"""
|
|
_cls = parameters.IntEnum
|
|
_name = 'my_intenum'
|
|
_datatype = int
|
|
_test_values = 1, 2, -3
|
|
_bad_type_values = 1, 2.0, -3
|
|
_bad_type = float
|
|
_translation = u"values=1, 2, 3"
|
|
_bad_values = 4, 5, -6
|
|
_single_value_translation = u"value=1"
|
|
|
|
def test_convert_scalar(self):
|
|
"""
|
|
Test the `ipalib.parameters.IntEnum._convert_scalar` method.
|
|
"""
|
|
param = self.cls('my_number', values=(1, 2, 3, 4, 5))
|
|
check_int_scalar_conversions(param)
|
|
|
|
|
|
class test_Number(ClassChecker):
|
|
"""
|
|
Test the `ipalib.parameters.Number` class.
|
|
"""
|
|
_cls = parameters.Number
|
|
|
|
def test_init(self):
|
|
"""
|
|
Test the `ipalib.parameters.Number.__init__` method.
|
|
"""
|
|
o = self.cls('my_number')
|
|
assert o.type is type(None) # noqa
|
|
assert o.password is False
|
|
assert o.rules == tuple()
|
|
assert o.class_rules == tuple()
|
|
assert o.all_rules == tuple()
|
|
|
|
|
|
|
|
class test_Int(ClassChecker):
|
|
"""
|
|
Test the `ipalib.parameters.Int` class.
|
|
"""
|
|
_cls = parameters.Int
|
|
|
|
def test_init(self):
|
|
"""
|
|
Test the `ipalib.parameters.Int.__init__` method.
|
|
"""
|
|
# Test with no kwargs:
|
|
o = self.cls('my_number')
|
|
assert o.type == int
|
|
assert o.allowed_types == (int,)
|
|
assert isinstance(o, parameters.Int)
|
|
assert o.minvalue == int(MININT)
|
|
assert o.maxvalue == int(MAXINT)
|
|
|
|
# Test when min > max:
|
|
e = raises(ValueError, self.cls, 'my_number', minvalue=22, maxvalue=15)
|
|
assert str(e) == \
|
|
"Int('my_number'): minvalue > maxvalue (minvalue=22, maxvalue=15)"
|
|
|
|
def test_rule_minvalue(self):
|
|
"""
|
|
Test the `ipalib.parameters.Int._rule_minvalue` method.
|
|
"""
|
|
o = self.cls('my_number', minvalue=3)
|
|
assert o.minvalue == 3
|
|
rule = o._rule_minvalue
|
|
translation = u'minvalue=%(minvalue)r'
|
|
dummy = dummy_ugettext(translation)
|
|
assert dummy.translation is translation
|
|
|
|
# Test with passing values:
|
|
for value in (4, 99, 1001):
|
|
assert rule(dummy, value) is None
|
|
assert dummy.called() is False
|
|
|
|
# Test with failing values:
|
|
for value in (-1, 0, 2):
|
|
assert_equal(
|
|
rule(dummy, value),
|
|
translation % dict(minvalue=3)
|
|
)
|
|
assert dummy.message == 'must be at least %(minvalue)d'
|
|
assert dummy.called() is True
|
|
dummy.reset()
|
|
|
|
def test_rule_maxvalue(self):
|
|
"""
|
|
Test the `ipalib.parameters.Int._rule_maxvalue` method.
|
|
"""
|
|
o = self.cls('my_number', maxvalue=4)
|
|
assert o.maxvalue == 4
|
|
rule = o._rule_maxvalue
|
|
translation = u'maxvalue=%(maxvalue)r'
|
|
dummy = dummy_ugettext(translation)
|
|
assert dummy.translation is translation
|
|
|
|
# Test with passing values:
|
|
for value in (-1, 0, 4):
|
|
assert rule(dummy, value) is None
|
|
assert dummy.called() is False
|
|
|
|
# Test with failing values:
|
|
for value in (5, 99, 1009):
|
|
assert_equal(
|
|
rule(dummy, value),
|
|
translation % dict(maxvalue=4)
|
|
)
|
|
assert dummy.message == 'can be at most %(maxvalue)d'
|
|
assert dummy.called() is True
|
|
dummy.reset()
|
|
|
|
def test_convert_scalar(self):
|
|
"""
|
|
Test the `ipalib.parameters.Int._convert_scalar` method.
|
|
"""
|
|
param = self.cls('my_number')
|
|
check_int_scalar_conversions(param)
|
|
|
|
def test_safe_json(self):
|
|
param = self.cls(
|
|
"large",
|
|
minvalue=self.cls.MIN_SAFE_INTEGER,
|
|
maxvalue=self.cls.MAX_SAFE_INTEGER
|
|
)
|
|
for value in (-((2 ** 53) - 1), 0, (2 ** 53) - 1):
|
|
param.validate(value)
|
|
for value in (-2 ** 53, 2 ** 53):
|
|
with pytest.raises(errors.ValidationError):
|
|
param.validate(value)
|
|
|
|
with pytest.raises(ValueError):
|
|
self.cls("toolarge", maxvalue=2**53)
|
|
with pytest.raises(ValueError):
|
|
self.cls("toosmall", minvalue=-2**53)
|
|
|
|
|
|
class test_Decimal(ClassChecker):
|
|
"""
|
|
Test the `ipalib.parameters.Decimal` class.
|
|
"""
|
|
_cls = parameters.Decimal
|
|
|
|
def test_init(self):
|
|
"""
|
|
Test the `ipalib.parameters.Decimal.__init__` method.
|
|
"""
|
|
# Test with no kwargs:
|
|
o = self.cls('my_number')
|
|
assert o.type is Decimal
|
|
assert isinstance(o, parameters.Decimal)
|
|
assert o.minvalue is None
|
|
assert o.maxvalue is None
|
|
|
|
# Test when min > max:
|
|
e = raises(ValueError, self.cls, 'my_number', minvalue=Decimal('22.5'), maxvalue=Decimal('15.1'))
|
|
assert str(e) == \
|
|
"Decimal('my_number'): minvalue > maxvalue (minvalue=22.5, maxvalue=15.1)"
|
|
|
|
def test_rule_minvalue(self):
|
|
"""
|
|
Test the `ipalib.parameters.Decimal._rule_minvalue` method.
|
|
"""
|
|
o = self.cls('my_number', minvalue='3.1')
|
|
assert o.minvalue == Decimal('3.1')
|
|
rule = o._rule_minvalue
|
|
translation = u'minvalue=%(minvalue)s'
|
|
dummy = dummy_ugettext(translation)
|
|
assert dummy.translation is translation
|
|
|
|
# Test with passing values:
|
|
for value in (Decimal('3.2'), Decimal('99.0')):
|
|
assert rule(dummy, value) is None
|
|
assert dummy.called() is False
|
|
|
|
# Test with failing values:
|
|
for value in (Decimal('-1.2'), Decimal('0.0'), Decimal('3.0')):
|
|
assert_equal(
|
|
rule(dummy, value),
|
|
translation % dict(minvalue=Decimal('3.1'))
|
|
)
|
|
assert dummy.message == 'must be at least %(minvalue)s'
|
|
assert dummy.called() is True
|
|
dummy.reset()
|
|
|
|
def test_rule_maxvalue(self):
|
|
"""
|
|
Test the `ipalib.parameters.Decimal._rule_maxvalue` method.
|
|
"""
|
|
o = self.cls('my_number', maxvalue='4.7')
|
|
assert o.maxvalue == Decimal('4.7')
|
|
rule = o._rule_maxvalue
|
|
translation = u'maxvalue=%(maxvalue)r'
|
|
dummy = dummy_ugettext(translation)
|
|
assert dummy.translation is translation
|
|
|
|
# Test with passing values:
|
|
for value in (Decimal('-1.0'), Decimal('0.1'), Decimal('4.2')):
|
|
assert rule(dummy, value) is None
|
|
assert dummy.called() is False
|
|
|
|
# Test with failing values:
|
|
for value in (Decimal('5.3'), Decimal('99.9')):
|
|
assert_equal(
|
|
rule(dummy, value),
|
|
translation % dict(maxvalue=Decimal('4.7'))
|
|
)
|
|
assert dummy.message == 'can be at most %(maxvalue)s'
|
|
assert dummy.called() is True
|
|
dummy.reset()
|
|
|
|
def test_precision(self):
|
|
"""
|
|
Test the `ipalib.parameters.Decimal` precision attribute
|
|
"""
|
|
# precission is None
|
|
param = self.cls('my_number')
|
|
|
|
for value in (Decimal('0'), Decimal('4.4'), Decimal('4.67')):
|
|
assert_equal(
|
|
param(value),
|
|
value)
|
|
|
|
# precision is 0
|
|
param = self.cls('my_number', precision=0)
|
|
for original,expected in ((Decimal('0'), '0'),
|
|
(Decimal('1.1'), '1'),
|
|
(Decimal('4.67'), '5')):
|
|
assert_equal(
|
|
str(param(original)),
|
|
expected)
|
|
|
|
# precision is 1
|
|
param = self.cls('my_number', precision=1)
|
|
for original,expected in ((Decimal('0'), '0.0'),
|
|
(Decimal('1.1'), '1.1'),
|
|
(Decimal('4.67'), '4.7')):
|
|
assert_equal(
|
|
str(param(original)),
|
|
expected)
|
|
|
|
# value has too many digits
|
|
param = self.cls('my_number', precision=1)
|
|
e = raises(ConversionError, param, '123456789012345678901234567890')
|
|
|
|
assert str(e).startswith("invalid 'my_number': ")
|
|
|
|
def test_exponential(self):
|
|
"""
|
|
Test the `ipalib.parameters.Decimal` exponential attribute
|
|
"""
|
|
param = self.cls('my_number', exponential=True)
|
|
for original,expected in ((Decimal('0'), '0'),
|
|
(Decimal('1E3'), '1E+3'),
|
|
(Decimal('3.4E2'), '3.4E+2')):
|
|
assert_equal(
|
|
str(param(original)),
|
|
expected)
|
|
|
|
|
|
param = self.cls('my_number', exponential=False)
|
|
for original,expected in ((Decimal('0'), '0'),
|
|
(Decimal('1E3'), '1000'),
|
|
(Decimal('3.4E2'), '340')):
|
|
assert_equal(
|
|
str(param(original)),
|
|
expected)
|
|
|
|
def test_numberclass(self):
|
|
"""
|
|
Test the `ipalib.parameters.Decimal` numberclass attribute
|
|
"""
|
|
# test default value: '-Normal', '+Zero', '+Normal'
|
|
param = self.cls('my_number')
|
|
for value,raises_verror in ((Decimal('0'), False),
|
|
(Decimal('-0'), True),
|
|
(Decimal('1E8'), False),
|
|
(Decimal('-1.1'), False),
|
|
(Decimal('-Infinity'), True),
|
|
(Decimal('+Infinity'), True),
|
|
(Decimal('NaN'), True)):
|
|
if raises_verror:
|
|
raises(ValidationError, param, value)
|
|
else:
|
|
param(value)
|
|
|
|
|
|
param = self.cls('my_number', exponential=True,
|
|
numberclass=('-Normal', '+Zero', '+Infinity'))
|
|
for value,raises_verror in ((Decimal('0'), False),
|
|
(Decimal('-0'), True),
|
|
(Decimal('1E8'), True),
|
|
(Decimal('-1.1'), False),
|
|
(Decimal('-Infinity'), True),
|
|
(Decimal('+Infinity'), False),
|
|
(Decimal('NaN'), True)):
|
|
if raises_verror:
|
|
raises(ValidationError, param, value)
|
|
else:
|
|
param(value)
|
|
|
|
class test_AccessTime(ClassChecker):
|
|
"""
|
|
Test the `ipalib.parameters.AccessTime` class.
|
|
"""
|
|
_cls = parameters.AccessTime
|
|
|
|
def test_init(self):
|
|
"""
|
|
Test the `ipalib.parameters.AccessTime.__init__` method.
|
|
"""
|
|
# Test with no kwargs:
|
|
o = self.cls('my_time')
|
|
assert o.type is unicode
|
|
assert isinstance(o, parameters.AccessTime)
|
|
assert o.multivalue is False
|
|
translation = u'length=%(length)r'
|
|
dummy = dummy_ugettext(translation)
|
|
assert dummy.translation is translation
|
|
rule = o._rule_required
|
|
|
|
# Check some good rules
|
|
for value in (u'absolute 201012161032 ~ 201012161033',
|
|
u'periodic monthly week 2 day Sat,Sun 0900-1300',
|
|
u'periodic yearly month 4 day 1-31 0800-1400',
|
|
u'periodic weekly day 7 0800-1400',
|
|
u'periodic daily 0800-1400',
|
|
):
|
|
assert rule(dummy, value) is None
|
|
assert dummy.called() is False
|
|
|
|
# And some bad ones
|
|
for value in (u'absolute 201012161032 - 201012161033',
|
|
u'absolute 201012161032 ~',
|
|
u'periodic monthly day Sat,Sun 0900-1300',
|
|
u'periodical yearly month 4 day 1-31 0800-1400',
|
|
u'periodic weekly day 8 0800-1400',
|
|
):
|
|
raises(ValidationError, o._rule_required, None, value)
|
|
|
|
def test_create_param():
|
|
"""
|
|
Test the `ipalib.parameters.create_param` function.
|
|
"""
|
|
f = parameters.create_param
|
|
|
|
# Test that Param instances are returned unchanged:
|
|
params = (
|
|
parameters.Param('one?'),
|
|
parameters.Int('two+'),
|
|
parameters.Str('three*'),
|
|
parameters.Bytes('four'),
|
|
)
|
|
for p in params:
|
|
assert f(p) is p
|
|
|
|
# Test that the spec creates an Str instance:
|
|
for spec in ('one?', 'two+', 'three*', 'four'):
|
|
(name, kw) = parameters.parse_param_spec(spec)
|
|
p = f(spec)
|
|
assert p.param_spec == spec
|
|
assert p.name == name
|
|
assert p.required is kw['required']
|
|
assert p.multivalue is kw['multivalue']
|
|
|
|
# Test that TypeError is raised when spec is neither a Param nor a str:
|
|
if six.PY2:
|
|
bad_value = u'one'
|
|
else:
|
|
bad_value = b'one'
|
|
for spec in (bad_value, 42, parameters.Param, parameters.Str):
|
|
e = raises(TypeError, f, spec)
|
|
assert str(e) == \
|
|
TYPE_ERROR % ('spec', (str, parameters.Param), spec, type(spec))
|
|
|
|
|
|
def test_messages():
|
|
"""
|
|
Test module level message in `ipalib.parameters`.
|
|
"""
|
|
for name in dir(parameters):
|
|
if name.startswith('_'):
|
|
continue
|
|
attr = getattr(parameters, name)
|
|
if not (isclass(attr) and issubclass(attr, parameters.Param)):
|
|
continue
|
|
assert type(attr.type_error) is str
|
|
assert attr.type_error in parameters.__messages
|
|
|
|
|
|
class test_IA5Str(ClassChecker):
|
|
"""
|
|
Test the `ipalib.parameters.IA5Str` class.
|
|
"""
|
|
_cls = parameters.IA5Str
|
|
|
|
def test_convert_scalar(self):
|
|
"""
|
|
Test the `ipalib.parameters.IA5Str._convert_scalar` method.
|
|
"""
|
|
o = self.cls('my_str')
|
|
mthd = o._convert_scalar
|
|
for value in (u'Hello', 42, 1.2):
|
|
assert mthd(value) == unicode(value)
|
|
bad = ['Helloá']
|
|
for value in bad:
|
|
e = raises(errors.ConversionError, mthd, value)
|
|
assert e.name == 'my_str'
|
|
if six.PY2:
|
|
assert_equal(e.error, u"The character '\\xc3' is not allowed.")
|
|
else:
|
|
assert_equal(e.error, u"The character 'á' is not allowed.")
|
|
|
|
|
|
class test_DateTime(ClassChecker):
|
|
"""
|
|
Test the `ipalib.parameters.DateTime` class.
|
|
"""
|
|
_cls = parameters.DateTime
|
|
|
|
def test_init(self):
|
|
"""
|
|
Test the `ipalib.parameters.DateTime.__init__` method.
|
|
"""
|
|
|
|
# Test with no kwargs:
|
|
o = self.cls('my_datetime')
|
|
assert o.type is datetime.datetime
|
|
assert isinstance(o, parameters.DateTime)
|
|
assert o.multivalue is False
|
|
|
|
# Check full time formats
|
|
date = datetime.datetime(1991, 12, 7, 6, 30, 5)
|
|
assert date == o.convert(u'19911207063005Z')
|
|
assert date == o.convert(u'1991-12-07T06:30:05Z')
|
|
assert date == o.convert(u'1991-12-07 06:30:05Z')
|
|
|
|
# Check time formats without seconds
|
|
date = datetime.datetime(1991, 12, 7, 6, 30)
|
|
assert date == o.convert(u'1991-12-07T06:30Z')
|
|
assert date == o.convert(u'1991-12-07 06:30Z')
|
|
|
|
# Check date formats
|
|
date = datetime.datetime(1991, 12, 7)
|
|
assert date == o.convert(u'1991-12-07Z')
|
|
|
|
# Check some wrong formats
|
|
for value in (u'19911207063005',
|
|
u'1991-12-07T06:30:05',
|
|
u'1991-12-07 06:30:05',
|
|
u'1991-12-07T06:30',
|
|
u'1991-12-07 06:30',
|
|
u'1991-12-07',
|
|
u'1991-31-12Z',
|
|
u'1991-12-07T25:30:05Z',
|
|
):
|
|
raises(ConversionError, o.convert, value)
|
|
|
|
|
|
class test_CertificateSigningRequest(ClassChecker):
|
|
"""
|
|
Test the `ipalib.parameters.CertificateSigningRequest` class
|
|
"""
|
|
_cls = parameters.CertificateSigningRequest
|
|
|
|
sample_csr = (
|
|
b'-----BEGIN CERTIFICATE REQUEST-----\n'
|
|
b'MIIBjjCB+AIBADBPMQswCQYDVQQGEwJVUzETMBEGA1UECBMKQ2FsaWZvcm5pYTEQ\n'
|
|
b'MA4GA1UEChMHRXhhbXBsZTEZMBcGA1UEAxMQdGVzdC5leGFtcGxlLmNvbTCBnzAN\n'
|
|
b'BgkqhkiG9w0BAQEFAAOBjQAwgYkCgYEAyxsN5dmvyKiw+5nyrcO3a61sivZRg+ja\n'
|
|
b'kyNIyUo+tIUiYwTdpPESAHTWRlk0XhydauAkWfOIN7pR3a5Z+kQw8W7F+DuZze2M\n'
|
|
b'6wRNmN+NTrTlqnKOiMHBXhIM0Qxrx68GDctYqtnKTVT94FvvLl9XYVdUEi2ePTc2\n'
|
|
b'Nyfr1z66+W0CAwEAAaAAMA0GCSqGSIb3DQEBBQUAA4GBAIf3r+Y6WHrFnttUqDow\n'
|
|
b'9/UCHtCeQlQoJqjjxi5wcjbkGwTgHbx/BPOd/8OVaHElboMXLGaZx+L/eFO6E9Yg\n'
|
|
b'mDOYv3OsibDFGaEhJrU8EnfuFZKnbrGeSC9Hkqrq+3OjqacaPla5N7MHKbfLY377\n'
|
|
b'ddbOHKzR0sURZ+ro4z3fATW2\n'
|
|
b'-----END CERTIFICATE REQUEST-----\n'
|
|
)
|
|
# certmonger <= 0.79.5 (most probably in higher versions, too) will be
|
|
# sending us just base64-encoded DER certs without the information it's
|
|
# base64-encoded bytes (__base64__: in the JSON request), we need to
|
|
# support that too, unfortunately
|
|
sample_base64 = (
|
|
"MIICETCCAXoCAQAwTzELMAkGA1UEBhMCVVMxEzARBgNVBAgTCkNhbGlmb3JuaWEx"
|
|
"EDAOBgNVBAoTB0V4YW1wbGUxGTAXBgNVBAMTEHRlc3QuZXhhbXBsZS5jb20wgZ8w"
|
|
"DQYJKoZIhvcNAQEBBQADgY0AMIGJAoGBAOXfP8LeiU7g6wLCclgkT1lVskK+Lxm1"
|
|
"6ijE4LmEQBk5nn2P46im+E/UOgTddbDo5cdJlkoCnqXkO4RkqJckXYDxfI34KL3C"
|
|
"CRFPvOa5Sg02m1x5Rg3boZfS6NciP62lRp0SI+0TCt3F16wYZxMahVIOXjbJ6Lu5"
|
|
"mGjNn7XaWJhFAgMBAAGggYEwfwYJKoZIhvcNAQkOMXIwcDAeBgNVHREEFzAVghN0"
|
|
"ZXN0bG93LmV4YW1wbGUuY29tME4GA1UdHwRHMEUwQ6BBoD+GHGh0dHA6Ly9jYS5l"
|
|
"eGFtcGxlLmNvbS9teS5jcmyGH2h0dHA6Ly9vdGhlci5leGFtcGxlLmNvbS9teS5j"
|
|
"cmwwDQYJKoZIhvcNAQEFBQADgYEAkv8pppcgGhX7erJmvg9r2UHrRriuKaOYgKZQ"
|
|
"lf/eBt2N0L2mV4QvCY82H7HWuE+7T3mra9ikfvz0nYkPJQe2gntjZzECE0Jt5LWR"
|
|
"UZOFwX8N6wrX11U2xu0NlvsbjU6siWd6OZjZ1p5/V330lzut/q3CNzaAcW1Fx3wL"
|
|
"sV5SXSw="
|
|
)
|
|
sample_der_csr = (
|
|
b'0\x82\x02\x110\x82\x01z\x02\x01\x000O1\x0b0\t\x06\x03U\x04\x06\x13'
|
|
b'\x02US1\x130\x11\x06\x03U\x04\x08\x13\nCalifornia1\x100\x0e\x06\x03U'
|
|
b'\x04\n\x13\x07Example1\x190\x17\x06\x03U\x04\x03\x13\x10test.example'
|
|
b'.com0\x81\x9f0\r\x06\t*\x86H\x86\xf7\r\x01\x01\x01\x05\x00\x03\x81'
|
|
b'\x8d\x000\x81\x89\x02\x81\x81\x00\xe5\xdf?\xc2\xde\x89N\xe0\xeb\x02'
|
|
b'\xc2rX$OYU\xb2B\xbe/\x19\xb5\xea(\xc4\xe0\xb9\x84@\x199\x9e}\x8f\xe3'
|
|
b'\xa8\xa6\xf8O\xd4:\x04\xddu\xb0\xe8\xe5\xc7I\x96J\x02\x9e\xa5\xe4;'
|
|
b'\x84d\xa8\x97$]\x80\xf1|\x8d\xf8(\xbd\xc2\t\x11O\xbc\xe6\xb9J\r6\x9b'
|
|
b'\\yF\r\xdb\xa1\x97\xd2\xe8\xd7"?\xad\xa5F\x9d\x12#\xed\x13\n\xdd\xc5'
|
|
b'\xd7\xac\x18g\x13\x1a\x85R\x0e^6\xc9\xe8\xbb\xb9\x98h\xcd\x9f\xb5'
|
|
b'\xdaX\x98E\x02\x03\x01\x00\x01\xa0\x81\x810\x7f\x06\t*\x86H\x86\xf7'
|
|
b'\r\x01\t\x0e1r0p0\x1e\x06\x03U\x1d\x11\x04\x170\x15\x82\x13'
|
|
b'testlow.example.com0N\x06\x03U\x1d\x1f\x04G0E0C\xa0A\xa0?\x86'
|
|
b'\x1chttp://ca.example.com/my.crl\x86\x1fhttp://other.example.com/'
|
|
b'my.crl0\r\x06\t*\x86H\x86\xf7\r\x01\x01\x05\x05\x00\x03\x81\x81\x00'
|
|
b'\x92\xff)\xa6\x97 \x1a\x15\xfbz\xb2f\xbe\x0fk\xd9A\xebF\xb8\xae)\xa3'
|
|
b'\x98\x80\xa6P\x95\xff\xde\x06\xdd\x8d\xd0\xbd\xa6W\x84/\t\x8f6\x1f'
|
|
b'\xb1\xd6\xb8O\xbbOy\xabk\xd8\xa4~\xfc\xf4\x9d\x89\x0f%\x07\xb6\x82'
|
|
b'{cg1\x02\x13Bm\xe4\xb5\x91Q\x93\x85\xc1\x7f\r\xeb\n\xd7\xd7U6\xc6'
|
|
b'\xed\r\x96\xfb\x1b\x8dN\xac\x89gz9\x98\xd9\xd6\x9e\x7fW}\xf4\x97;'
|
|
b'\xad\xfe\xad\xc276\x80qmE\xc7|\x0b\xb1^R],'
|
|
)
|
|
malformed_csr = (
|
|
b'-----BEGIN CERTIFICATE REQUEST-----\n'
|
|
b'VGhpcyBpcyBhbiBpbnZhbGlkIENTUg==\n'
|
|
b'-----END CERTIFICATE REQUEST-----\n'
|
|
)
|
|
|
|
def test_init(self):
|
|
# create the parameter
|
|
o = self.cls('csr')
|
|
assert o.type is crypto_x509.CertificateSigningRequest
|
|
assert isinstance(o, parameters.CertificateSigningRequest)
|
|
assert o.multivalue is False
|
|
|
|
def test_convert(self):
|
|
o = self.cls('csr')
|
|
|
|
# test that we're able to handle PEM CSR input equally as bytes, string
|
|
# and cryptography x509._CertificateSigningRequest object
|
|
for prep_input in (
|
|
lambda x: x,
|
|
lambda x: x.decode('utf-8'),
|
|
lambda x: crypto_x509.load_pem_x509_csr(x, default_backend())
|
|
):
|
|
# test that input is correctly converted to python-crytography
|
|
# object representation
|
|
csr_object = o.convert(prep_input(self.sample_csr))
|
|
assert isinstance(csr_object,
|
|
crypto_x509.CertificateSigningRequest)
|
|
assert (csr_object.public_bytes(x509.Encoding.PEM) ==
|
|
self.sample_csr)
|
|
|
|
# test that we fail the same with malformed CSR as bytes or str
|
|
for prep_input in (
|
|
lambda x: x,
|
|
lambda x: x.decode('utf-8'),
|
|
):
|
|
# test that malformed CSRs won't be accepted
|
|
raises(errors.CertificateOperationError,
|
|
o.convert,
|
|
prep_input(self.malformed_csr))
|
|
|
|
# test DER as an input to the convert method
|
|
csr_object = o.convert(self.sample_der_csr)
|
|
assert isinstance(csr_object, crypto_x509.CertificateSigningRequest)
|
|
assert (csr_object.public_bytes(x509.Encoding.DER) ==
|
|
self.sample_der_csr)
|
|
|
|
# test base64-encoded DER as an input to the convert method
|
|
csr_object = o.convert(self.sample_base64)
|
|
assert isinstance(csr_object, crypto_x509.CertificateSigningRequest)
|
|
assert (csr_object.public_bytes(x509.Encoding.DER) ==
|
|
base64.b64decode(self.sample_base64))
|
|
|
|
# test that wrong type will not be accepted
|
|
bad_value = datetime.date.today()
|
|
raises(ConversionError, o.convert, bad_value)
|
|
|
|
|
|
class test_DNParam(ClassChecker):
|
|
"""
|
|
Test the `ipalib.parameters.DN` class.
|
|
"""
|
|
_cls = parameters.DNParam
|
|
|
|
def test_init(self):
|
|
"""
|
|
Test the `ipalib.parameters.DN.__init__` method.
|
|
"""
|
|
o = self.cls('my_dn')
|
|
assert o.type is DN
|
|
assert o.password is False
|
|
|
|
def test_convert_scalar(self):
|
|
"""
|
|
Test the `ipalib.parameters.DNParam._convert_scalar` method.
|
|
"""
|
|
o = self.cls('my_dn')
|
|
mthd = o._convert_scalar
|
|
# param can be built from a string or from a DN
|
|
good = [
|
|
'cn=dn,cn=suffix',
|
|
DN('cn=dn,cn=suffix')
|
|
]
|
|
for value in good:
|
|
assert mthd(value) == DN(value)
|
|
# param cannot be built from a tuple or list if single-valued
|
|
bad = [
|
|
['cn=dn,cn=suffix'],
|
|
['cn=dn', 'cn=suffix'],
|
|
('cn=dn', 'cn=suffix'),
|
|
(('cn', 'dn'), ('cn', 'suffix'))
|
|
]
|
|
for value in bad:
|
|
e = raises(errors.ConversionError, mthd, value)
|
|
assert e.name == 'my_dn'
|
|
assert_equal(unicode(e.error), u'Only one value is allowed')
|
|
assert o.convert(None) is None
|
|
|
|
def test_convert_singlevalued(self):
|
|
"""
|
|
Test the `DNParam.convert` method with a single-valued param.
|
|
"""
|
|
o = self.cls('my_dn?')
|
|
mthd = o.convert
|
|
# param can be built from a string or from a DN
|
|
good = [
|
|
'cn=dn,cn=suffix',
|
|
DN('cn=dn,cn=suffix')
|
|
]
|
|
for value in good:
|
|
assert mthd(value) == DN(value)
|
|
# param cannot be built from a tuple or list if single-valued
|
|
bad = [
|
|
['cn=dn,cn=suffix'],
|
|
['cn=dn', 'cn=suffix'],
|
|
('cn=dn', 'cn=suffix'),
|
|
(('cn', 'dn'), ('cn', 'suffix'))
|
|
]
|
|
for value in bad:
|
|
e = raises(errors.ConversionError, mthd, value)
|
|
assert e.name == 'my_dn'
|
|
assert_equal(unicode(e.error), u'Only one value is allowed')
|
|
assert o.convert(None) is None
|
|
|
|
def test_convert_multivalued(self):
|
|
"""
|
|
Test the `DNParam.convert` method with a multivalued param.
|
|
"""
|
|
o = self.cls('my_dn*')
|
|
mthd = o.convert
|
|
# param can be built from a tuple/list
|
|
good = [
|
|
('cn=dn1,cn=suffix',),
|
|
('cn=dn1,cn=suffix', 'cn=dn2,cn=suffix'),
|
|
['cn=dn1,cn=suffix'],
|
|
['cn=dn1,cn=suffix', 'cn=dn2,cn=suffix'],
|
|
]
|
|
for value in good:
|
|
assert mthd(value) == tuple(DN(oneval) for oneval in value)
|
|
assert o.convert(None) is None
|
|
|
|
|
|
class test_SerialNumber(ClassChecker):
|
|
"""
|
|
Test the `ipalib.parameters.SerialNumber` class.
|
|
"""
|
|
_cls = parameters.SerialNumber
|
|
|
|
def test_init(self):
|
|
"""
|
|
Test the `ipalib.parameters.SerialNumber.__init__` method.
|
|
"""
|
|
o = self.cls('my_serial')
|
|
assert o.type is str
|
|
assert o.length is None
|
|
|
|
def test_validate_scalar(self):
|
|
"""
|
|
Test the `ipalib.parameters.SerialNumber._convert_scalar` method.
|
|
"""
|
|
o = self.cls('my_serial')
|
|
mthd = o._validate_scalar
|
|
for value in ('1234', '0xabcd', '0xABCD'):
|
|
assert mthd(value) is None
|
|
bad = ['Hello', '123A']
|
|
for value in bad:
|
|
e = raises(errors.ValidationError, mthd, value)
|
|
assert e.name == 'my_serial'
|
|
assert_equal(e.error, 'must be an integer')
|
|
bad = ['-1234', '-0xAFF']
|
|
for value in bad:
|
|
e = raises(errors.ValidationError, mthd, value)
|
|
assert e.name == 'my_serial'
|
|
assert_equal(e.error, 'must be at least 0')
|
|
bad = ['0xGAH', '0x',]
|
|
for value in bad:
|
|
e = raises(errors.ValidationError, mthd, value)
|
|
assert e.name == 'my_serial'
|
|
assert_equal(
|
|
e.error, 'invalid valid hex'
|
|
)
|