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community.general/test/units/module_utils/test_basic.py

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# -*- coding: utf-8 -*-
# (c) 2012-2014, Michael DeHaan <michael.dehaan@gmail.com>
# (c) 2016 Toshio Kuratomi <tkuratomi@ansible.com>
#
# This file is part of Ansible
#
# Ansible is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# Ansible is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with Ansible. If not, see <http://www.gnu.org/licenses/>.
# Make coding more python3-ish
from __future__ import (absolute_import, division)
__metaclass__ = type
import errno
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import json
import os
import sys
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from io import BytesIO, StringIO
from units.mock.procenv import ModuleTestCase, swap_stdin_and_argv
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from ansible.compat.tests import unittest
from ansible.compat.tests.mock import patch, MagicMock, mock_open, Mock, call
from ansible.module_utils.six.moves import builtins
realimport = builtins.__import__
class TestModuleUtilsBasic(ModuleTestCase):
def clear_modules(self, mods):
for mod in mods:
if mod in sys.modules:
del sys.modules[mod]
@patch.object(builtins, '__import__')
def test_module_utils_basic_import_syslog(self, mock_import):
def _mock_import(name, *args, **kwargs):
if name == 'syslog':
raise ImportError
return realimport(name, *args, **kwargs)
self.clear_modules(['syslog', 'ansible.module_utils.basic'])
mod = builtins.__import__('ansible.module_utils.basic')
self.assertTrue(mod.module_utils.basic.HAS_SYSLOG)
self.clear_modules(['syslog', 'ansible.module_utils.basic'])
mock_import.side_effect = _mock_import
mod = builtins.__import__('ansible.module_utils.basic')
self.assertFalse(mod.module_utils.basic.HAS_SYSLOG)
@patch.object(builtins, '__import__')
def test_module_utils_basic_import_selinux(self, mock_import):
def _mock_import(name, *args, **kwargs):
if name == 'selinux':
raise ImportError
return realimport(name, *args, **kwargs)
try:
self.clear_modules(['selinux', 'ansible.module_utils.basic'])
mod = builtins.__import__('ansible.module_utils.basic')
self.assertTrue(mod.module_utils.basic.HAVE_SELINUX)
except ImportError:
# no selinux on test system, so skip
pass
self.clear_modules(['selinux', 'ansible.module_utils.basic'])
mock_import.side_effect = _mock_import
mod = builtins.__import__('ansible.module_utils.basic')
self.assertFalse(mod.module_utils.basic.HAVE_SELINUX)
@patch.object(builtins, '__import__')
def test_module_utils_basic_import_json(self, mock_import):
def _mock_import(name, *args, **kwargs):
if name == 'json':
raise ImportError
elif name == 'simplejson':
sj = MagicMock()
sj.__version__ = '3.10.0'
return sj
return realimport(name, *args, **kwargs)
self.clear_modules(['json', 'ansible.module_utils.basic'])
mod = builtins.__import__('ansible.module_utils.basic')
self.clear_modules(['json', 'ansible.module_utils.basic'])
mock_import.side_effect = _mock_import
mod = builtins.__import__('ansible.module_utils.basic')
# FIXME: doesn't work yet
# @patch.object(builtins, 'bytes')
# def test_module_utils_basic_bytes(self, mock_bytes):
# mock_bytes.side_effect = NameError()
# from ansible.module_utils import basic
@patch.object(builtins, '__import__')
@unittest.skipIf(sys.version_info[0] >= 3, "literal_eval is available in every version of Python3")
def test_module_utils_basic_import_literal_eval(self, mock_import):
def _mock_import(name, *args, **kwargs):
try:
fromlist = kwargs.get('fromlist', args[2])
except IndexError:
fromlist = []
if name == 'ast' and 'literal_eval' in fromlist:
raise ImportError
return realimport(name, *args, **kwargs)
mock_import.side_effect = _mock_import
self.clear_modules(['ast', 'ansible.module_utils.basic'])
mod = builtins.__import__('ansible.module_utils.basic')
self.assertEqual(mod.module_utils.basic.literal_eval("'1'"), "1")
self.assertEqual(mod.module_utils.basic.literal_eval("1"), 1)
self.assertEqual(mod.module_utils.basic.literal_eval("-1"), -1)
self.assertEqual(mod.module_utils.basic.literal_eval("(1,2,3)"), (1, 2, 3))
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self.assertEqual(mod.module_utils.basic.literal_eval("[1]"), [1])
self.assertEqual(mod.module_utils.basic.literal_eval("True"), True)
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self.assertEqual(mod.module_utils.basic.literal_eval("False"), False)
self.assertEqual(mod.module_utils.basic.literal_eval("None"), None)
# self.assertEqual(mod.module_utils.basic.literal_eval('{"a": 1}'), dict(a=1))
self.assertRaises(ValueError, mod.module_utils.basic.literal_eval, "asdfasdfasdf")
@patch.object(builtins, '__import__')
def test_module_utils_basic_import_systemd_journal(self, mock_import):
def _mock_import(name, *args, **kwargs):
try:
fromlist = kwargs.get('fromlist', args[2])
except IndexError:
fromlist = []
if name == 'systemd' and 'journal' in fromlist:
raise ImportError
return realimport(name, *args, **kwargs)
self.clear_modules(['systemd', 'ansible.module_utils.basic'])
mod = builtins.__import__('ansible.module_utils.basic')
self.assertTrue(mod.module_utils.basic.has_journal)
self.clear_modules(['systemd', 'ansible.module_utils.basic'])
mock_import.side_effect = _mock_import
mod = builtins.__import__('ansible.module_utils.basic')
self.assertFalse(mod.module_utils.basic.has_journal)
def test_module_utils_basic_get_platform(self):
with patch('platform.system', return_value='foo'):
from ansible.module_utils.basic import get_platform
self.assertEqual(get_platform(), 'foo')
def test_module_utils_basic_get_distribution(self):
from ansible.module_utils.basic import get_distribution
with patch('platform.system', return_value='Foo'):
self.assertEqual(get_distribution(), None)
with patch('platform.system', return_value='Linux'):
with patch('platform.linux_distribution', return_value=["foo"]):
self.assertEqual(get_distribution(), "Foo")
with patch('os.path.isfile', return_value=True):
with patch('platform.linux_distribution', side_effect=[("AmazonFooBar", )]):
self.assertEqual(get_distribution(), "Amazonfoobar")
with patch('platform.linux_distribution', side_effect=(("", ), ("AmazonFooBam",))):
self.assertEqual(get_distribution(), "Amazon")
with patch('platform.linux_distribution', side_effect=[("", ), ("", )]):
self.assertEqual(get_distribution(), "OtherLinux")
def _dist(distname='', version='', id='', supported_dists=(), full_distribution_name=1):
if supported_dists != ():
return ("Bar", "2", "Two")
else:
return ("", "", "")
with patch('platform.linux_distribution', side_effect=_dist):
self.assertEqual(get_distribution(), "Bar")
with patch('platform.linux_distribution', side_effect=Exception("boo")):
with patch('platform.dist', return_value=("bar", "2", "Two")):
self.assertEqual(get_distribution(), "Bar")
def test_module_utils_basic_get_distribution_version(self):
from ansible.module_utils.basic import get_distribution_version
with patch('platform.system', return_value='Foo'):
self.assertEqual(get_distribution_version(), None)
with patch('platform.system', return_value='Linux'):
with patch('platform.linux_distribution', return_value=("foo", "1", "One")):
self.assertEqual(get_distribution_version(), "1")
with patch('os.path.isfile', return_value=True):
def _dist(distname='', version='', id='', supported_dists=(), full_distribution_name=1):
if supported_dists != ():
return ("AmazonFooBar", "2", "")
else:
return ("", "", "")
with patch('platform.linux_distribution', side_effect=_dist):
self.assertEqual(get_distribution_version(), "2")
with patch('platform.linux_distribution', side_effect=Exception("boo")):
with patch('platform.dist', return_value=("bar", "3", "Three")):
self.assertEqual(get_distribution_version(), "3")
def test_module_utils_basic_load_platform_subclass(self):
class LinuxTest:
pass
class Foo(LinuxTest):
platform = "Linux"
distribution = None
class Bar(LinuxTest):
platform = "Linux"
distribution = "Bar"
from ansible.module_utils.basic import load_platform_subclass
# match just the platform class, not a specific distribution
with patch('ansible.module_utils.basic.get_platform', return_value="Linux"):
with patch('ansible.module_utils.basic.get_distribution', return_value=None):
self.assertIs(type(load_platform_subclass(LinuxTest)), Foo)
# match both the distribution and platform class
with patch('ansible.module_utils.basic.get_platform', return_value="Linux"):
with patch('ansible.module_utils.basic.get_distribution', return_value="Bar"):
self.assertIs(type(load_platform_subclass(LinuxTest)), Bar)
# if neither match, the fallback should be the top-level class
with patch('ansible.module_utils.basic.get_platform', return_value="Foo"):
with patch('ansible.module_utils.basic.get_distribution', return_value=None):
self.assertIs(type(load_platform_subclass(LinuxTest)), LinuxTest)
def test_module_utils_basic_json_dict_converters(self):
from ansible.module_utils.basic import json_dict_unicode_to_bytes, json_dict_bytes_to_unicode
test_data = dict(
item1=u"Fóo",
item2=[u"Bár", u"Bam"],
item3=dict(sub1=u"Súb"),
item4=(u"föo", u"bär", u"©"),
item5=42,
)
res = json_dict_unicode_to_bytes(test_data)
res2 = json_dict_bytes_to_unicode(res)
self.assertEqual(test_data, res2)
def test_module_utils_basic_get_module_path(self):
from ansible.module_utils.basic import get_module_path
with patch('os.path.realpath', return_value='/path/to/foo/'):
self.assertEqual(get_module_path(), '/path/to/foo')
def test_module_utils_basic_ansible_module_creation(self):
from ansible.module_utils import basic
from ansible.module_utils.parsing.convert_bool import BOOLEANS
am = basic.AnsibleModule(
argument_spec=dict(),
)
arg_spec = dict(
foo=dict(required=True),
bar=dict(),
bam=dict(),
baz=dict(fallback=(basic.env_fallback, ['BAZ'])),
bar1=dict(type='bool', choices=BOOLEANS)
)
mut_ex = (('bar', 'bam'),)
req_to = (('bam', 'baz'),)
# should test ok
args = json.dumps(dict(ANSIBLE_MODULE_ARGS={"foo": "hello"}))
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with swap_stdin_and_argv(stdin_data=args):
basic._ANSIBLE_ARGS = None
am = basic.AnsibleModule(
argument_spec=arg_spec,
mutually_exclusive=mut_ex,
required_together=req_to,
no_log=True,
check_invalid_arguments=False,
add_file_common_args=True,
supports_check_mode=True,
)
# FIXME: add asserts here to verify the basic config
# fail, because a required param was not specified
args = json.dumps(dict(ANSIBLE_MODULE_ARGS={}))
with swap_stdin_and_argv(stdin_data=args):
basic._ANSIBLE_ARGS = None
self.assertRaises(
SystemExit,
basic.AnsibleModule,
argument_spec=arg_spec,
mutually_exclusive=mut_ex,
required_together=req_to,
no_log=True,
check_invalid_arguments=False,
add_file_common_args=True,
supports_check_mode=True,
)
# fail because of mutually exclusive parameters
args = json.dumps(dict(ANSIBLE_MODULE_ARGS={"foo": "hello", "bar": "bad", "bam": "bad"}))
with swap_stdin_and_argv(stdin_data=args):
basic._ANSIBLE_ARGS = None
self.assertRaises(
SystemExit,
basic.AnsibleModule,
argument_spec=arg_spec,
mutually_exclusive=mut_ex,
required_together=req_to,
no_log=True,
check_invalid_arguments=False,
add_file_common_args=True,
supports_check_mode=True,
)
# fail because a param required due to another param was not specified
args = json.dumps(dict(ANSIBLE_MODULE_ARGS={"bam": "bad"}))
with swap_stdin_and_argv(stdin_data=args):
basic._ANSIBLE_ARGS = None
self.assertRaises(
SystemExit,
basic.AnsibleModule,
argument_spec=arg_spec,
mutually_exclusive=mut_ex,
required_together=req_to,
no_log=True,
check_invalid_arguments=False,
add_file_common_args=True,
supports_check_mode=True,
)
# test fallback, should test ok as value of param required due to another param
# is set by environment variable
os.environ['BAZ'] = 'bad'
args = json.dumps(dict(ANSIBLE_MODULE_ARGS={"foo": "hello", "bam": "bad"}))
with swap_stdin_and_argv(stdin_data=args):
basic._ANSIBLE_ARGS = None
am = basic.AnsibleModule(
argument_spec=arg_spec,
mutually_exclusive=mut_ex,
required_together=req_to,
no_log=True,
check_invalid_arguments=False,
add_file_common_args=True,
supports_check_mode=True,
)
os.environ.pop('BAZ', None)
# should test ok, check for boolean values
args = json.dumps(dict(ANSIBLE_MODULE_ARGS={"foo": "hello", "bar1": "yes"}))
with swap_stdin_and_argv(stdin_data=args):
basic._ANSIBLE_ARGS = None
am = basic.AnsibleModule(
argument_spec=arg_spec,
mutually_exclusive=mut_ex,
required_together=req_to,
no_log=True,
check_invalid_arguments=False,
add_file_common_args=True,
supports_check_mode=True,
)
Add options sub spec validation (#27119) * Add aggregate parameter validation aggregate parameter validation will support checking each individual dict to resolve conditions for aliases, no_log, mutually_exclusive, required, type check, values, required_together, required_one_of and required_if conditions in argspec. It will also set default values. eg: tasks: - name: Configure interface attribute with aggregate net_interface: aggregate: - {name: ge-0/0/1, description: test-interface-1, duplex: full, state: present} - {name: ge-0/0/2, description: test-interface-2, active: False} register: response purge: Yes Usage: ``` from ansible.module_utils.network_common import AggregateCollection transform = AggregateCollection(module) param = transform(module.params.get('aggregate')) ``` Aggregate allows supports for `purge` parameter, it will instruct the module to remove resources from remote device that hasn’t been explicitly defined in aggregate. This is not supported by with_* iterators Also, it improves performace as compared to with_* iterator for network device that has seperate candidate and running datastore. For with_* iteration the sequence of operartion is load-config-1 (candidate db) -> commit (running db) -> load_config-2 (candidate db) -> commit (running db) ... With aggregate the sequence of operation is load-config-1 (candidate db) -> load-config-2 (candidate db) -> commit (running db) As commit is executed only once per task for aggregate it has huge perfomance benefit for large configurations. * Fix CI issues * Fix review comments * Add support for options validation for aliases, no_log, mutually_exclusive, required, type check, value check, required_together, required_one_of and required_if conditions in sub-argspec. * Add unit test for options in argspec. * Reverted aggregate implementaion. * Minor change * Add multi-level argspec support * Multi-level argspec support with module's top most conditionals options. * Fix unit test failure * Add parent context in errors for sub options * Resolve merge conflict * Fix CI issue
2017-08-01 18:32:18 +02:00
def test_module_utils_basic_ansible_module_with_options_creation(self):
from ansible.module_utils import basic
from ansible.module_utils.parsing.convert_bool import BOOLEANS
Add options sub spec validation (#27119) * Add aggregate parameter validation aggregate parameter validation will support checking each individual dict to resolve conditions for aliases, no_log, mutually_exclusive, required, type check, values, required_together, required_one_of and required_if conditions in argspec. It will also set default values. eg: tasks: - name: Configure interface attribute with aggregate net_interface: aggregate: - {name: ge-0/0/1, description: test-interface-1, duplex: full, state: present} - {name: ge-0/0/2, description: test-interface-2, active: False} register: response purge: Yes Usage: ``` from ansible.module_utils.network_common import AggregateCollection transform = AggregateCollection(module) param = transform(module.params.get('aggregate')) ``` Aggregate allows supports for `purge` parameter, it will instruct the module to remove resources from remote device that hasn’t been explicitly defined in aggregate. This is not supported by with_* iterators Also, it improves performace as compared to with_* iterator for network device that has seperate candidate and running datastore. For with_* iteration the sequence of operartion is load-config-1 (candidate db) -> commit (running db) -> load_config-2 (candidate db) -> commit (running db) ... With aggregate the sequence of operation is load-config-1 (candidate db) -> load-config-2 (candidate db) -> commit (running db) As commit is executed only once per task for aggregate it has huge perfomance benefit for large configurations. * Fix CI issues * Fix review comments * Add support for options validation for aliases, no_log, mutually_exclusive, required, type check, value check, required_together, required_one_of and required_if conditions in sub-argspec. * Add unit test for options in argspec. * Reverted aggregate implementaion. * Minor change * Add multi-level argspec support * Multi-level argspec support with module's top most conditionals options. * Fix unit test failure * Add parent context in errors for sub options * Resolve merge conflict * Fix CI issue
2017-08-01 18:32:18 +02:00
options_spec = dict(
foo=dict(required=True, aliases=['dup']),
bar=dict(),
bam=dict(),
baz=dict(fallback=(basic.env_fallback, ['BAZ'])),
bam1=dict(),
bam2=dict(default='test'),
bam3=dict(type='bool', choices=BOOLEANS)
)
arg_spec = dict(
foobar=dict(
type='list',
elements='dict',
options=options_spec,
mutually_exclusive=[
['bam', 'bam1']
],
required_if=[
['foo', 'hello', ['bam']],
['foo', 'bam2', ['bam2']]
],
required_one_of=[
['bar', 'bam']
],
required_together=[
['bam1', 'baz']
]
)
Add options sub spec validation (#27119) * Add aggregate parameter validation aggregate parameter validation will support checking each individual dict to resolve conditions for aliases, no_log, mutually_exclusive, required, type check, values, required_together, required_one_of and required_if conditions in argspec. It will also set default values. eg: tasks: - name: Configure interface attribute with aggregate net_interface: aggregate: - {name: ge-0/0/1, description: test-interface-1, duplex: full, state: present} - {name: ge-0/0/2, description: test-interface-2, active: False} register: response purge: Yes Usage: ``` from ansible.module_utils.network_common import AggregateCollection transform = AggregateCollection(module) param = transform(module.params.get('aggregate')) ``` Aggregate allows supports for `purge` parameter, it will instruct the module to remove resources from remote device that hasn’t been explicitly defined in aggregate. This is not supported by with_* iterators Also, it improves performace as compared to with_* iterator for network device that has seperate candidate and running datastore. For with_* iteration the sequence of operartion is load-config-1 (candidate db) -> commit (running db) -> load_config-2 (candidate db) -> commit (running db) ... With aggregate the sequence of operation is load-config-1 (candidate db) -> load-config-2 (candidate db) -> commit (running db) As commit is executed only once per task for aggregate it has huge perfomance benefit for large configurations. * Fix CI issues * Fix review comments * Add support for options validation for aliases, no_log, mutually_exclusive, required, type check, value check, required_together, required_one_of and required_if conditions in sub-argspec. * Add unit test for options in argspec. * Reverted aggregate implementaion. * Minor change * Add multi-level argspec support * Multi-level argspec support with module's top most conditionals options. * Fix unit test failure * Add parent context in errors for sub options * Resolve merge conflict * Fix CI issue
2017-08-01 18:32:18 +02:00
)
# should test ok, tests basic foo requirement and required_if
args = json.dumps(dict(ANSIBLE_MODULE_ARGS={'foobar': [{"foo": "hello", "bam": "good"}, {"foo": "test", "bar": "good"}]}))
Add options sub spec validation (#27119) * Add aggregate parameter validation aggregate parameter validation will support checking each individual dict to resolve conditions for aliases, no_log, mutually_exclusive, required, type check, values, required_together, required_one_of and required_if conditions in argspec. It will also set default values. eg: tasks: - name: Configure interface attribute with aggregate net_interface: aggregate: - {name: ge-0/0/1, description: test-interface-1, duplex: full, state: present} - {name: ge-0/0/2, description: test-interface-2, active: False} register: response purge: Yes Usage: ``` from ansible.module_utils.network_common import AggregateCollection transform = AggregateCollection(module) param = transform(module.params.get('aggregate')) ``` Aggregate allows supports for `purge` parameter, it will instruct the module to remove resources from remote device that hasn’t been explicitly defined in aggregate. This is not supported by with_* iterators Also, it improves performace as compared to with_* iterator for network device that has seperate candidate and running datastore. For with_* iteration the sequence of operartion is load-config-1 (candidate db) -> commit (running db) -> load_config-2 (candidate db) -> commit (running db) ... With aggregate the sequence of operation is load-config-1 (candidate db) -> load-config-2 (candidate db) -> commit (running db) As commit is executed only once per task for aggregate it has huge perfomance benefit for large configurations. * Fix CI issues * Fix review comments * Add support for options validation for aliases, no_log, mutually_exclusive, required, type check, value check, required_together, required_one_of and required_if conditions in sub-argspec. * Add unit test for options in argspec. * Reverted aggregate implementaion. * Minor change * Add multi-level argspec support * Multi-level argspec support with module's top most conditionals options. * Fix unit test failure * Add parent context in errors for sub options * Resolve merge conflict * Fix CI issue
2017-08-01 18:32:18 +02:00
with swap_stdin_and_argv(stdin_data=args):
basic._ANSIBLE_ARGS = None
am = basic.AnsibleModule(
argument_spec=arg_spec,
no_log=True,
check_invalid_arguments=False,
add_file_common_args=True,
supports_check_mode=True
)
# should test ok, handles aliases
args = json.dumps(dict(ANSIBLE_MODULE_ARGS={'foobar': [{"dup": "test", "bar": "good"}]}))
Add options sub spec validation (#27119) * Add aggregate parameter validation aggregate parameter validation will support checking each individual dict to resolve conditions for aliases, no_log, mutually_exclusive, required, type check, values, required_together, required_one_of and required_if conditions in argspec. It will also set default values. eg: tasks: - name: Configure interface attribute with aggregate net_interface: aggregate: - {name: ge-0/0/1, description: test-interface-1, duplex: full, state: present} - {name: ge-0/0/2, description: test-interface-2, active: False} register: response purge: Yes Usage: ``` from ansible.module_utils.network_common import AggregateCollection transform = AggregateCollection(module) param = transform(module.params.get('aggregate')) ``` Aggregate allows supports for `purge` parameter, it will instruct the module to remove resources from remote device that hasn’t been explicitly defined in aggregate. This is not supported by with_* iterators Also, it improves performace as compared to with_* iterator for network device that has seperate candidate and running datastore. For with_* iteration the sequence of operartion is load-config-1 (candidate db) -> commit (running db) -> load_config-2 (candidate db) -> commit (running db) ... With aggregate the sequence of operation is load-config-1 (candidate db) -> load-config-2 (candidate db) -> commit (running db) As commit is executed only once per task for aggregate it has huge perfomance benefit for large configurations. * Fix CI issues * Fix review comments * Add support for options validation for aliases, no_log, mutually_exclusive, required, type check, value check, required_together, required_one_of and required_if conditions in sub-argspec. * Add unit test for options in argspec. * Reverted aggregate implementaion. * Minor change * Add multi-level argspec support * Multi-level argspec support with module's top most conditionals options. * Fix unit test failure * Add parent context in errors for sub options * Resolve merge conflict * Fix CI issue
2017-08-01 18:32:18 +02:00
with swap_stdin_and_argv(stdin_data=args):
basic._ANSIBLE_ARGS = None
am = basic.AnsibleModule(
argument_spec=arg_spec,
no_log=True,
check_invalid_arguments=False,
add_file_common_args=True,
supports_check_mode=True
)
# fail, because a required param was not specified
args = json.dumps(dict(ANSIBLE_MODULE_ARGS={'foobar': [{}]}))
with swap_stdin_and_argv(stdin_data=args):
basic._ANSIBLE_ARGS = None
self.assertRaises(
SystemExit,
basic.AnsibleModule,
argument_spec=arg_spec,
no_log=True,
check_invalid_arguments=False,
add_file_common_args=True,
supports_check_mode=True
)
# fail because of mutually exclusive parameters (mutually_exclusive, baz is added as it is required_together with bam1)
args = json.dumps(dict(ANSIBLE_MODULE_ARGS={'foobar': [{"foo": "test", "bam": "bad", "bam1": "bad", "baz": "req_to"}]}))
Add options sub spec validation (#27119) * Add aggregate parameter validation aggregate parameter validation will support checking each individual dict to resolve conditions for aliases, no_log, mutually_exclusive, required, type check, values, required_together, required_one_of and required_if conditions in argspec. It will also set default values. eg: tasks: - name: Configure interface attribute with aggregate net_interface: aggregate: - {name: ge-0/0/1, description: test-interface-1, duplex: full, state: present} - {name: ge-0/0/2, description: test-interface-2, active: False} register: response purge: Yes Usage: ``` from ansible.module_utils.network_common import AggregateCollection transform = AggregateCollection(module) param = transform(module.params.get('aggregate')) ``` Aggregate allows supports for `purge` parameter, it will instruct the module to remove resources from remote device that hasn’t been explicitly defined in aggregate. This is not supported by with_* iterators Also, it improves performace as compared to with_* iterator for network device that has seperate candidate and running datastore. For with_* iteration the sequence of operartion is load-config-1 (candidate db) -> commit (running db) -> load_config-2 (candidate db) -> commit (running db) ... With aggregate the sequence of operation is load-config-1 (candidate db) -> load-config-2 (candidate db) -> commit (running db) As commit is executed only once per task for aggregate it has huge perfomance benefit for large configurations. * Fix CI issues * Fix review comments * Add support for options validation for aliases, no_log, mutually_exclusive, required, type check, value check, required_together, required_one_of and required_if conditions in sub-argspec. * Add unit test for options in argspec. * Reverted aggregate implementaion. * Minor change * Add multi-level argspec support * Multi-level argspec support with module's top most conditionals options. * Fix unit test failure * Add parent context in errors for sub options * Resolve merge conflict * Fix CI issue
2017-08-01 18:32:18 +02:00
with swap_stdin_and_argv(stdin_data=args):
basic._ANSIBLE_ARGS = None
self.assertRaises(
SystemExit,
basic.AnsibleModule,
argument_spec=arg_spec,
no_log=True,
check_invalid_arguments=False,
add_file_common_args=True,
supports_check_mode=True
)
# fail because a param required if for foo=hello is missing (required_if)
args = json.dumps(dict(ANSIBLE_MODULE_ARGS={'foobar': [{"foo": "hello", "bar": "bad"}]}))
Add options sub spec validation (#27119) * Add aggregate parameter validation aggregate parameter validation will support checking each individual dict to resolve conditions for aliases, no_log, mutually_exclusive, required, type check, values, required_together, required_one_of and required_if conditions in argspec. It will also set default values. eg: tasks: - name: Configure interface attribute with aggregate net_interface: aggregate: - {name: ge-0/0/1, description: test-interface-1, duplex: full, state: present} - {name: ge-0/0/2, description: test-interface-2, active: False} register: response purge: Yes Usage: ``` from ansible.module_utils.network_common import AggregateCollection transform = AggregateCollection(module) param = transform(module.params.get('aggregate')) ``` Aggregate allows supports for `purge` parameter, it will instruct the module to remove resources from remote device that hasn’t been explicitly defined in aggregate. This is not supported by with_* iterators Also, it improves performace as compared to with_* iterator for network device that has seperate candidate and running datastore. For with_* iteration the sequence of operartion is load-config-1 (candidate db) -> commit (running db) -> load_config-2 (candidate db) -> commit (running db) ... With aggregate the sequence of operation is load-config-1 (candidate db) -> load-config-2 (candidate db) -> commit (running db) As commit is executed only once per task for aggregate it has huge perfomance benefit for large configurations. * Fix CI issues * Fix review comments * Add support for options validation for aliases, no_log, mutually_exclusive, required, type check, value check, required_together, required_one_of and required_if conditions in sub-argspec. * Add unit test for options in argspec. * Reverted aggregate implementaion. * Minor change * Add multi-level argspec support * Multi-level argspec support with module's top most conditionals options. * Fix unit test failure * Add parent context in errors for sub options * Resolve merge conflict * Fix CI issue
2017-08-01 18:32:18 +02:00
with swap_stdin_and_argv(stdin_data=args):
basic._ANSIBLE_ARGS = None
self.assertRaises(
SystemExit,
basic.AnsibleModule,
argument_spec=arg_spec,
no_log=True,
check_invalid_arguments=False,
add_file_common_args=True,
supports_check_mode=True
)
# fail because one of param is required (required_one_of)
args = json.dumps(dict(ANSIBLE_MODULE_ARGS={'foobar': [{"foo": "test"}]}))
Add options sub spec validation (#27119) * Add aggregate parameter validation aggregate parameter validation will support checking each individual dict to resolve conditions for aliases, no_log, mutually_exclusive, required, type check, values, required_together, required_one_of and required_if conditions in argspec. It will also set default values. eg: tasks: - name: Configure interface attribute with aggregate net_interface: aggregate: - {name: ge-0/0/1, description: test-interface-1, duplex: full, state: present} - {name: ge-0/0/2, description: test-interface-2, active: False} register: response purge: Yes Usage: ``` from ansible.module_utils.network_common import AggregateCollection transform = AggregateCollection(module) param = transform(module.params.get('aggregate')) ``` Aggregate allows supports for `purge` parameter, it will instruct the module to remove resources from remote device that hasn’t been explicitly defined in aggregate. This is not supported by with_* iterators Also, it improves performace as compared to with_* iterator for network device that has seperate candidate and running datastore. For with_* iteration the sequence of operartion is load-config-1 (candidate db) -> commit (running db) -> load_config-2 (candidate db) -> commit (running db) ... With aggregate the sequence of operation is load-config-1 (candidate db) -> load-config-2 (candidate db) -> commit (running db) As commit is executed only once per task for aggregate it has huge perfomance benefit for large configurations. * Fix CI issues * Fix review comments * Add support for options validation for aliases, no_log, mutually_exclusive, required, type check, value check, required_together, required_one_of and required_if conditions in sub-argspec. * Add unit test for options in argspec. * Reverted aggregate implementaion. * Minor change * Add multi-level argspec support * Multi-level argspec support with module's top most conditionals options. * Fix unit test failure * Add parent context in errors for sub options * Resolve merge conflict * Fix CI issue
2017-08-01 18:32:18 +02:00
with swap_stdin_and_argv(stdin_data=args):
basic._ANSIBLE_ARGS = None
self.assertRaises(
SystemExit,
basic.AnsibleModule,
argument_spec=arg_spec,
no_log=True,
check_invalid_arguments=False,
add_file_common_args=True,
supports_check_mode=True
)
# fail because one parameter requires another (required_together, bar is added for the required_one_of field)
args = json.dumps(dict(ANSIBLE_MODULE_ARGS={'foobar': [{"foo": "test", "bar": "required_one_of", "bam1": "bad"}]}))
Add options sub spec validation (#27119) * Add aggregate parameter validation aggregate parameter validation will support checking each individual dict to resolve conditions for aliases, no_log, mutually_exclusive, required, type check, values, required_together, required_one_of and required_if conditions in argspec. It will also set default values. eg: tasks: - name: Configure interface attribute with aggregate net_interface: aggregate: - {name: ge-0/0/1, description: test-interface-1, duplex: full, state: present} - {name: ge-0/0/2, description: test-interface-2, active: False} register: response purge: Yes Usage: ``` from ansible.module_utils.network_common import AggregateCollection transform = AggregateCollection(module) param = transform(module.params.get('aggregate')) ``` Aggregate allows supports for `purge` parameter, it will instruct the module to remove resources from remote device that hasn’t been explicitly defined in aggregate. This is not supported by with_* iterators Also, it improves performace as compared to with_* iterator for network device that has seperate candidate and running datastore. For with_* iteration the sequence of operartion is load-config-1 (candidate db) -> commit (running db) -> load_config-2 (candidate db) -> commit (running db) ... With aggregate the sequence of operation is load-config-1 (candidate db) -> load-config-2 (candidate db) -> commit (running db) As commit is executed only once per task for aggregate it has huge perfomance benefit for large configurations. * Fix CI issues * Fix review comments * Add support for options validation for aliases, no_log, mutually_exclusive, required, type check, value check, required_together, required_one_of and required_if conditions in sub-argspec. * Add unit test for options in argspec. * Reverted aggregate implementaion. * Minor change * Add multi-level argspec support * Multi-level argspec support with module's top most conditionals options. * Fix unit test failure * Add parent context in errors for sub options * Resolve merge conflict * Fix CI issue
2017-08-01 18:32:18 +02:00
with swap_stdin_and_argv(stdin_data=args):
basic._ANSIBLE_ARGS = None
self.assertRaises(
SystemExit,
basic.AnsibleModule,
argument_spec=arg_spec,
no_log=True,
check_invalid_arguments=False,
add_file_common_args=True,
supports_check_mode=True
)
# should test ok, the required param is set by default from spec (required_if together with default value, bar added for required_one_of
args = json.dumps(dict(ANSIBLE_MODULE_ARGS={'foobar': [{"foo": "bam2", "bar": "required_one_of"}]}))
Add options sub spec validation (#27119) * Add aggregate parameter validation aggregate parameter validation will support checking each individual dict to resolve conditions for aliases, no_log, mutually_exclusive, required, type check, values, required_together, required_one_of and required_if conditions in argspec. It will also set default values. eg: tasks: - name: Configure interface attribute with aggregate net_interface: aggregate: - {name: ge-0/0/1, description: test-interface-1, duplex: full, state: present} - {name: ge-0/0/2, description: test-interface-2, active: False} register: response purge: Yes Usage: ``` from ansible.module_utils.network_common import AggregateCollection transform = AggregateCollection(module) param = transform(module.params.get('aggregate')) ``` Aggregate allows supports for `purge` parameter, it will instruct the module to remove resources from remote device that hasn’t been explicitly defined in aggregate. This is not supported by with_* iterators Also, it improves performace as compared to with_* iterator for network device that has seperate candidate and running datastore. For with_* iteration the sequence of operartion is load-config-1 (candidate db) -> commit (running db) -> load_config-2 (candidate db) -> commit (running db) ... With aggregate the sequence of operation is load-config-1 (candidate db) -> load-config-2 (candidate db) -> commit (running db) As commit is executed only once per task for aggregate it has huge perfomance benefit for large configurations. * Fix CI issues * Fix review comments * Add support for options validation for aliases, no_log, mutually_exclusive, required, type check, value check, required_together, required_one_of and required_if conditions in sub-argspec. * Add unit test for options in argspec. * Reverted aggregate implementaion. * Minor change * Add multi-level argspec support * Multi-level argspec support with module's top most conditionals options. * Fix unit test failure * Add parent context in errors for sub options * Resolve merge conflict * Fix CI issue
2017-08-01 18:32:18 +02:00
with swap_stdin_and_argv(stdin_data=args):
basic._ANSIBLE_ARGS = None
am = basic.AnsibleModule(
argument_spec=arg_spec,
no_log=True,
check_invalid_arguments=False,
add_file_common_args=True,
supports_check_mode=True
)
# should test ok, for options in dict format.
arg_spec = dict(foobar=dict(type='dict', options=options_spec))
# should test ok
args = json.dumps(dict(ANSIBLE_MODULE_ARGS={'foobar': {"foo": "hello"}}))
with swap_stdin_and_argv(stdin_data=args):
basic._ANSIBLE_ARGS = None
am = basic.AnsibleModule(
argument_spec=arg_spec,
no_log=True,
check_invalid_arguments=False,
add_file_common_args=True,
supports_check_mode=True
)
# should fail, check for invalid agrument
args = json.dumps(dict(ANSIBLE_MODULE_ARGS={'foobar': {"foo1": "hello"}}))
with swap_stdin_and_argv(stdin_data=args):
basic._ANSIBLE_ARGS = None
self.assertRaises(
SystemExit,
basic.AnsibleModule,
argument_spec=arg_spec,
no_log=True,
check_invalid_arguments=True,
add_file_common_args=True,
supports_check_mode=True
)
# test fallback, should test ok as value of param required due to another param
# is set by environment variable
os.environ['BAZ'] = 'bad'
args = json.dumps(dict(ANSIBLE_MODULE_ARGS={"foo": "hello", "bam": "bad"}))
with swap_stdin_and_argv(stdin_data=args):
basic._ANSIBLE_ARGS = None
am = basic.AnsibleModule(
argument_spec=arg_spec,
no_log=True,
check_invalid_arguments=False,
add_file_common_args=True,
supports_check_mode=True,
)
os.environ.pop('BAZ', None)
# should test ok, check for boolean values
args = json.dumps(dict(ANSIBLE_MODULE_ARGS={"foo": "hello", "bam3": "yes"}))
with swap_stdin_and_argv(stdin_data=args):
basic._ANSIBLE_ARGS = None
am = basic.AnsibleModule(
argument_spec=arg_spec,
no_log=True,
check_invalid_arguments=False,
add_file_common_args=True,
supports_check_mode=True,
)
def test_module_utils_basic_ansible_module_type_check(self):
from ansible.module_utils import basic
arg_spec = dict(
foo=dict(type='float'),
foo2=dict(type='float'),
foo3=dict(type='float'),
bar=dict(type='int'),
bar2=dict(type='int'),
)
# should test ok
args = json.dumps(dict(ANSIBLE_MODULE_ARGS={
"foo": 123.0, # float
"foo2": 123, # int
"foo3": "123", # string
"bar": 123, # int
"bar2": "123", # string
}))
with swap_stdin_and_argv(stdin_data=args):
basic._ANSIBLE_ARGS = None
am = basic.AnsibleModule(
argument_spec=arg_spec,
no_log=True,
check_invalid_arguments=False,
add_file_common_args=True,
supports_check_mode=True,
)
# fail, because bar does not accept floating point numbers
args = json.dumps(dict(ANSIBLE_MODULE_ARGS={"bar": 123.0}))
with swap_stdin_and_argv(stdin_data=args):
basic._ANSIBLE_ARGS = None
self.assertRaises(
SystemExit,
basic.AnsibleModule,
argument_spec=arg_spec,
no_log=True,
check_invalid_arguments=False,
add_file_common_args=True,
supports_check_mode=True,
)
Add options sub spec validation (#27119) * Add aggregate parameter validation aggregate parameter validation will support checking each individual dict to resolve conditions for aliases, no_log, mutually_exclusive, required, type check, values, required_together, required_one_of and required_if conditions in argspec. It will also set default values. eg: tasks: - name: Configure interface attribute with aggregate net_interface: aggregate: - {name: ge-0/0/1, description: test-interface-1, duplex: full, state: present} - {name: ge-0/0/2, description: test-interface-2, active: False} register: response purge: Yes Usage: ``` from ansible.module_utils.network_common import AggregateCollection transform = AggregateCollection(module) param = transform(module.params.get('aggregate')) ``` Aggregate allows supports for `purge` parameter, it will instruct the module to remove resources from remote device that hasn’t been explicitly defined in aggregate. This is not supported by with_* iterators Also, it improves performace as compared to with_* iterator for network device that has seperate candidate and running datastore. For with_* iteration the sequence of operartion is load-config-1 (candidate db) -> commit (running db) -> load_config-2 (candidate db) -> commit (running db) ... With aggregate the sequence of operation is load-config-1 (candidate db) -> load-config-2 (candidate db) -> commit (running db) As commit is executed only once per task for aggregate it has huge perfomance benefit for large configurations. * Fix CI issues * Fix review comments * Add support for options validation for aliases, no_log, mutually_exclusive, required, type check, value check, required_together, required_one_of and required_if conditions in sub-argspec. * Add unit test for options in argspec. * Reverted aggregate implementaion. * Minor change * Add multi-level argspec support * Multi-level argspec support with module's top most conditionals options. * Fix unit test failure * Add parent context in errors for sub options * Resolve merge conflict * Fix CI issue
2017-08-01 18:32:18 +02:00
def test_module_utils_basic_ansible_module_options_type_check(self):
from ansible.module_utils import basic
options_spec = dict(
foo=dict(type='float'),
foo2=dict(type='float'),
foo3=dict(type='float'),
bar=dict(type='int'),
bar2=dict(type='int'),
)
arg_spec = dict(foobar=dict(type='list', elements='dict', options=options_spec))
# should test ok
args = json.dumps(dict(ANSIBLE_MODULE_ARGS={'foobar': [{
"foo": 123.0, # float
"foo2": 123, # int
"foo3": "123", # string
"bar": 123, # int
"bar2": "123", # string
}]}))
with swap_stdin_and_argv(stdin_data=args):
basic._ANSIBLE_ARGS = None
am = basic.AnsibleModule(
argument_spec=arg_spec,
no_log=True,
check_invalid_arguments=False,
add_file_common_args=True,
supports_check_mode=True,
)
# fail, because bar does not accept floating point numbers
args = json.dumps(dict(ANSIBLE_MODULE_ARGS={'foobar': [{"bar": 123.0}]}))
with swap_stdin_and_argv(stdin_data=args):
basic._ANSIBLE_ARGS = None
self.assertRaises(
SystemExit,
basic.AnsibleModule,
argument_spec=arg_spec,
no_log=True,
check_invalid_arguments=False,
add_file_common_args=True,
supports_check_mode=True,
)
def test_module_utils_basic_ansible_module_load_file_common_arguments(self):
from ansible.module_utils import basic
basic._ANSIBLE_ARGS = None
am = basic.AnsibleModule(
argument_spec=dict(),
)
am.selinux_mls_enabled = MagicMock()
am.selinux_mls_enabled.return_value = True
am.selinux_default_context = MagicMock()
am.selinux_default_context.return_value = 'unconfined_u:object_r:default_t:s0'.split(':', 3)
# with no params, the result should be an empty dict
res = am.load_file_common_arguments(params=dict())
self.assertEqual(res, dict())
base_params = dict(
path='/path/to/file',
mode=0o600,
owner='root',
group='root',
seuser='_default',
serole='_default',
setype='_default',
selevel='_default',
)
extended_params = base_params.copy()
extended_params.update(dict(
follow=True,
foo='bar',
))
final_params = base_params.copy()
final_params.update(dict(
path='/path/to/real_file',
secontext=['unconfined_u', 'object_r', 'default_t', 's0'],
attributes=None,
))
# with the proper params specified, the returned dictionary should represent
# only those params which have something to do with the file arguments, excluding
# other params and updated as required with proper values which may have been
# massaged by the method
with patch('os.path.islink', return_value=True):
with patch('os.path.realpath', return_value='/path/to/real_file'):
res = am.load_file_common_arguments(params=extended_params)
self.assertEqual(res, final_params)
def test_module_utils_basic_ansible_module_selinux_mls_enabled(self):
from ansible.module_utils import basic
basic._ANSIBLE_ARGS = None
am = basic.AnsibleModule(
argument_spec=dict(),
)
basic.HAVE_SELINUX = False
self.assertEqual(am.selinux_mls_enabled(), False)
basic.HAVE_SELINUX = True
basic.selinux = Mock()
with patch.dict('sys.modules', {'selinux': basic.selinux}):
with patch('selinux.is_selinux_mls_enabled', return_value=0):
self.assertEqual(am.selinux_mls_enabled(), False)
with patch('selinux.is_selinux_mls_enabled', return_value=1):
self.assertEqual(am.selinux_mls_enabled(), True)
delattr(basic, 'selinux')
def test_module_utils_basic_ansible_module_selinux_initial_context(self):
from ansible.module_utils import basic
basic._ANSIBLE_ARGS = None
am = basic.AnsibleModule(
argument_spec=dict(),
)
am.selinux_mls_enabled = MagicMock()
am.selinux_mls_enabled.return_value = False
self.assertEqual(am.selinux_initial_context(), [None, None, None])
am.selinux_mls_enabled.return_value = True
self.assertEqual(am.selinux_initial_context(), [None, None, None, None])
def test_module_utils_basic_ansible_module_selinux_enabled(self):
from ansible.module_utils import basic
basic._ANSIBLE_ARGS = None
am = basic.AnsibleModule(
argument_spec=dict(),
)
# we first test the cases where the python selinux lib is
# not installed, which has two paths: one in which the system
# does have selinux installed (and the selinuxenabled command
# is present and returns 0 when run), or selinux is not installed
basic.HAVE_SELINUX = False
am.get_bin_path = MagicMock()
am.get_bin_path.return_value = '/path/to/selinuxenabled'
am.run_command = MagicMock()
am.run_command.return_value = (0, '', '')
self.assertRaises(SystemExit, am.selinux_enabled)
am.get_bin_path.return_value = None
self.assertEqual(am.selinux_enabled(), False)
# finally we test the case where the python selinux lib is installed,
# and both possibilities there (enabled vs. disabled)
basic.HAVE_SELINUX = True
basic.selinux = Mock()
with patch.dict('sys.modules', {'selinux': basic.selinux}):
with patch('selinux.is_selinux_enabled', return_value=0):
self.assertEqual(am.selinux_enabled(), False)
with patch('selinux.is_selinux_enabled', return_value=1):
self.assertEqual(am.selinux_enabled(), True)
delattr(basic, 'selinux')
def test_module_utils_basic_ansible_module_selinux_default_context(self):
from ansible.module_utils import basic
basic._ANSIBLE_ARGS = None
am = basic.AnsibleModule(
argument_spec=dict(),
)
am.selinux_initial_context = MagicMock(return_value=[None, None, None, None])
am.selinux_enabled = MagicMock(return_value=True)
# we first test the cases where the python selinux lib is not installed
basic.HAVE_SELINUX = False
self.assertEqual(am.selinux_default_context(path='/foo/bar'), [None, None, None, None])
# all following tests assume the python selinux bindings are installed
basic.HAVE_SELINUX = True
basic.selinux = Mock()
with patch.dict('sys.modules', {'selinux': basic.selinux}):
# next, we test with a mocked implementation of selinux.matchpathcon to simulate
# an actual context being found
with patch('selinux.matchpathcon', return_value=[0, 'unconfined_u:object_r:default_t:s0']):
self.assertEqual(am.selinux_default_context(path='/foo/bar'), ['unconfined_u', 'object_r', 'default_t', 's0'])
# we also test the case where matchpathcon returned a failure
with patch('selinux.matchpathcon', return_value=[-1, '']):
self.assertEqual(am.selinux_default_context(path='/foo/bar'), [None, None, None, None])
# finally, we test where an OSError occurred during matchpathcon's call
with patch('selinux.matchpathcon', side_effect=OSError):
self.assertEqual(am.selinux_default_context(path='/foo/bar'), [None, None, None, None])
delattr(basic, 'selinux')
def test_module_utils_basic_ansible_module_selinux_context(self):
from ansible.module_utils import basic
basic._ANSIBLE_ARGS = None
am = basic.AnsibleModule(
argument_spec=dict(),
)
am.selinux_initial_context = MagicMock(return_value=[None, None, None, None])
am.selinux_enabled = MagicMock(return_value=True)
# we first test the cases where the python selinux lib is not installed
basic.HAVE_SELINUX = False
self.assertEqual(am.selinux_context(path='/foo/bar'), [None, None, None, None])
# all following tests assume the python selinux bindings are installed
basic.HAVE_SELINUX = True
basic.selinux = Mock()
with patch.dict('sys.modules', {'selinux': basic.selinux}):
# next, we test with a mocked implementation of selinux.lgetfilecon_raw to simulate
# an actual context being found
with patch('selinux.lgetfilecon_raw', return_value=[0, 'unconfined_u:object_r:default_t:s0']):
self.assertEqual(am.selinux_context(path='/foo/bar'), ['unconfined_u', 'object_r', 'default_t', 's0'])
# we also test the case where matchpathcon returned a failure
with patch('selinux.lgetfilecon_raw', return_value=[-1, '']):
self.assertEqual(am.selinux_context(path='/foo/bar'), [None, None, None, None])
# finally, we test where an OSError occurred during matchpathcon's call
e = OSError()
e.errno = errno.ENOENT
with patch('selinux.lgetfilecon_raw', side_effect=e):
self.assertRaises(SystemExit, am.selinux_context, path='/foo/bar')
e = OSError()
with patch('selinux.lgetfilecon_raw', side_effect=e):
self.assertRaises(SystemExit, am.selinux_context, path='/foo/bar')
delattr(basic, 'selinux')
def test_module_utils_basic_ansible_module_is_special_selinux_path(self):
from ansible.module_utils import basic
args = json.dumps(dict(ANSIBLE_MODULE_ARGS={'_ansible_selinux_special_fs': "nfs,nfsd,foos"}))
2016-04-12 16:10:45 +02:00
with swap_stdin_and_argv(stdin_data=args):
basic._ANSIBLE_ARGS = None
am = basic.AnsibleModule(
argument_spec=dict(),
)
def _mock_find_mount_point(path):
if path.startswith('/some/path'):
return '/some/path'
elif path.startswith('/weird/random/fstype'):
return '/weird/random/fstype'
return '/'
am.find_mount_point = MagicMock(side_effect=_mock_find_mount_point)
am.selinux_context = MagicMock(return_value=['foo_u', 'foo_r', 'foo_t', 's0'])
m = mock_open()
m.side_effect = OSError
with patch.object(builtins, 'open', m, create=True):
self.assertEqual(am.is_special_selinux_path('/some/path/that/should/be/nfs'), (False, None))
mount_data = [
'/dev/disk1 / ext4 rw,seclabel,relatime,data=ordered 0 0\n',
'1.1.1.1:/path/to/nfs /some/path nfs ro 0 0\n',
'whatever /weird/random/fstype foos rw 0 0\n',
]
# mock_open has a broken readlines() implementation apparently...
# this should work by default but doesn't, so we fix it
m = mock_open(read_data=''.join(mount_data))
m.return_value.readlines.return_value = mount_data
with patch.object(builtins, 'open', m, create=True):
self.assertEqual(am.is_special_selinux_path('/some/random/path'), (False, None))
self.assertEqual(am.is_special_selinux_path('/some/path/that/should/be/nfs'), (True, ['foo_u', 'foo_r', 'foo_t', 's0']))
self.assertEqual(am.is_special_selinux_path('/weird/random/fstype/path'), (True, ['foo_u', 'foo_r', 'foo_t', 's0']))
def test_module_utils_basic_ansible_module_user_and_group(self):
from ansible.module_utils import basic
basic._ANSIBLE_ARGS = None
am = basic.AnsibleModule(
argument_spec=dict(),
)
mock_stat = MagicMock()
mock_stat.st_uid = 0
mock_stat.st_gid = 0
with patch('os.lstat', return_value=mock_stat):
self.assertEqual(am.user_and_group('/path/to/file'), (0, 0))
def test_module_utils_basic_ansible_module_find_mount_point(self):
from ansible.module_utils import basic
basic._ANSIBLE_ARGS = None
am = basic.AnsibleModule(
argument_spec=dict(),
)
def _mock_ismount(path):
if path == b'/':
return True
return False
with patch('os.path.ismount', side_effect=_mock_ismount):
self.assertEqual(am.find_mount_point('/root/fs/../mounted/path/to/whatever'), '/')
def _mock_ismount(path):
if path == b'/subdir/mount':
return True
if path == b'/':
return True
return False
with patch('os.path.ismount', side_effect=_mock_ismount):
self.assertEqual(am.find_mount_point('/subdir/mount/path/to/whatever'), '/subdir/mount')
def test_module_utils_basic_ansible_module_set_context_if_different(self):
from ansible.module_utils import basic
basic._ANSIBLE_ARGS = None
am = basic.AnsibleModule(
argument_spec=dict(),
)
basic.HAVE_SELINUX = False
am.selinux_enabled = MagicMock(return_value=False)
self.assertEqual(am.set_context_if_different('/path/to/file', ['foo_u', 'foo_r', 'foo_t', 's0'], True), True)
self.assertEqual(am.set_context_if_different('/path/to/file', ['foo_u', 'foo_r', 'foo_t', 's0'], False), False)
basic.HAVE_SELINUX = True
am.selinux_enabled = MagicMock(return_value=True)
am.selinux_context = MagicMock(return_value=['bar_u', 'bar_r', None, None])
am.is_special_selinux_path = MagicMock(return_value=(False, None))
basic.selinux = Mock()
with patch.dict('sys.modules', {'selinux': basic.selinux}):
with patch('selinux.lsetfilecon', return_value=0) as m:
self.assertEqual(am.set_context_if_different('/path/to/file', ['foo_u', 'foo_r', 'foo_t', 's0'], False), True)
m.assert_called_with('/path/to/file', 'foo_u:foo_r:foo_t:s0')
m.reset_mock()
am.check_mode = True
self.assertEqual(am.set_context_if_different('/path/to/file', ['foo_u', 'foo_r', 'foo_t', 's0'], False), True)
self.assertEqual(m.called, False)
am.check_mode = False
with patch('selinux.lsetfilecon', return_value=1) as m:
self.assertRaises(SystemExit, am.set_context_if_different, '/path/to/file', ['foo_u', 'foo_r', 'foo_t', 's0'], True)
with patch('selinux.lsetfilecon', side_effect=OSError) as m:
self.assertRaises(SystemExit, am.set_context_if_different, '/path/to/file', ['foo_u', 'foo_r', 'foo_t', 's0'], True)
am.is_special_selinux_path = MagicMock(return_value=(True, ['sp_u', 'sp_r', 'sp_t', 's0']))
with patch('selinux.lsetfilecon', return_value=0) as m:
self.assertEqual(am.set_context_if_different('/path/to/file', ['foo_u', 'foo_r', 'foo_t', 's0'], False), True)
m.assert_called_with('/path/to/file', 'sp_u:sp_r:sp_t:s0')
delattr(basic, 'selinux')
def test_module_utils_basic_ansible_module_set_owner_if_different(self):
from ansible.module_utils import basic
basic._ANSIBLE_ARGS = None
am = basic.AnsibleModule(
argument_spec=dict(),
)
self.assertEqual(am.set_owner_if_different('/path/to/file', None, True), True)
self.assertEqual(am.set_owner_if_different('/path/to/file', None, False), False)
am.user_and_group = MagicMock(return_value=(500, 500))
with patch('os.lchown', return_value=None) as m:
self.assertEqual(am.set_owner_if_different('/path/to/file', 0, False), True)
m.assert_called_with(b'/path/to/file', 0, -1)
def _mock_getpwnam(*args, **kwargs):
mock_pw = MagicMock()
mock_pw.pw_uid = 0
return mock_pw
m.reset_mock()
with patch('pwd.getpwnam', side_effect=_mock_getpwnam):
self.assertEqual(am.set_owner_if_different('/path/to/file', 'root', False), True)
m.assert_called_with(b'/path/to/file', 0, -1)
with patch('pwd.getpwnam', side_effect=KeyError):
self.assertRaises(SystemExit, am.set_owner_if_different, '/path/to/file', 'root', False)
m.reset_mock()
am.check_mode = True
self.assertEqual(am.set_owner_if_different('/path/to/file', 0, False), True)
self.assertEqual(m.called, False)
am.check_mode = False
with patch('os.lchown', side_effect=OSError) as m:
self.assertRaises(SystemExit, am.set_owner_if_different, '/path/to/file', 'root', False)
def test_module_utils_basic_ansible_module_set_group_if_different(self):
from ansible.module_utils import basic
basic._ANSIBLE_ARGS = None
am = basic.AnsibleModule(
argument_spec=dict(),
)
self.assertEqual(am.set_group_if_different('/path/to/file', None, True), True)
self.assertEqual(am.set_group_if_different('/path/to/file', None, False), False)
am.user_and_group = MagicMock(return_value=(500, 500))
with patch('os.lchown', return_value=None) as m:
self.assertEqual(am.set_group_if_different('/path/to/file', 0, False), True)
m.assert_called_with(b'/path/to/file', -1, 0)
def _mock_getgrnam(*args, **kwargs):
mock_gr = MagicMock()
mock_gr.gr_gid = 0
return mock_gr
m.reset_mock()
with patch('grp.getgrnam', side_effect=_mock_getgrnam):
self.assertEqual(am.set_group_if_different('/path/to/file', 'root', False), True)
m.assert_called_with(b'/path/to/file', -1, 0)
with patch('grp.getgrnam', side_effect=KeyError):
self.assertRaises(SystemExit, am.set_group_if_different, '/path/to/file', 'root', False)
m.reset_mock()
am.check_mode = True
self.assertEqual(am.set_group_if_different('/path/to/file', 0, False), True)
self.assertEqual(m.called, False)
am.check_mode = False
with patch('os.lchown', side_effect=OSError) as m:
self.assertRaises(SystemExit, am.set_group_if_different, '/path/to/file', 'root', False)
@patch('tempfile.mkstemp')
@patch('os.umask')
@patch('shutil.copyfileobj')
@patch('shutil.move')
@patch('shutil.copy2')
@patch('os.rename')
@patch('pwd.getpwuid')
@patch('os.getuid')
@patch('os.environ')
@patch('os.getlogin')
@patch('os.chown')
@patch('os.chmod')
@patch('os.stat')
@patch('os.path.exists')
@patch('os.close')
def test_module_utils_basic_ansible_module_atomic_move(
self,
_os_close,
_os_path_exists,
_os_stat,
_os_chmod,
_os_chown,
_os_getlogin,
_os_environ,
_os_getuid,
_pwd_getpwuid,
_os_rename,
_shutil_copy2,
_shutil_move,
_shutil_copyfileobj,
_os_umask,
_tempfile_mkstemp):
from ansible.module_utils import basic
basic._ANSIBLE_ARGS = None
am = basic.AnsibleModule(
argument_spec=dict(),
)
environ = dict()
_os_environ.__getitem__ = environ.__getitem__
_os_environ.__setitem__ = environ.__setitem__
am.selinux_enabled = MagicMock()
am.selinux_context = MagicMock()
am.selinux_default_context = MagicMock()
am.set_context_if_different = MagicMock()
# test destination does not exist, no selinux, login name = 'root',
# no environment, os.rename() succeeds
_os_path_exists.side_effect = [False, False]
_os_getlogin.return_value = 'root'
_os_getuid.return_value = 0
_pwd_getpwuid.return_value = ('root', '', 0, 0, '', '', '')
_os_rename.return_value = None
_os_umask.side_effect = [18, 0]
am.selinux_enabled.return_value = False
_os_chmod.reset_mock()
_os_chown.reset_mock()
am.set_context_if_different.reset_mock()
am.atomic_move('/path/to/src', '/path/to/dest')
_os_rename.assert_called_with(b'/path/to/src', b'/path/to/dest')
self.assertEqual(_os_chmod.call_args_list, [call(b'/path/to/dest', basic.DEFAULT_PERM & ~18)])
# same as above, except selinux_enabled
_os_path_exists.side_effect = [False, False]
_os_getlogin.return_value = 'root'
_os_getuid.return_value = 0
_pwd_getpwuid.return_value = ('root', '', 0, 0, '', '', '')
_os_rename.return_value = None
_os_umask.side_effect = [18, 0]
mock_context = MagicMock()
am.selinux_default_context.return_value = mock_context
am.selinux_enabled.return_value = True
_os_chmod.reset_mock()
_os_chown.reset_mock()
am.set_context_if_different.reset_mock()
am.selinux_default_context.reset_mock()
am.atomic_move('/path/to/src', '/path/to/dest')
_os_rename.assert_called_with(b'/path/to/src', b'/path/to/dest')
self.assertEqual(_os_chmod.call_args_list, [call(b'/path/to/dest', basic.DEFAULT_PERM & ~18)])
self.assertEqual(am.selinux_default_context.call_args_list, [call('/path/to/dest')])
self.assertEqual(am.set_context_if_different.call_args_list, [call('/path/to/dest', mock_context, False)])
# now with dest present, no selinux, also raise OSError when using
# os.getlogin() to test corner case with no tty
_os_path_exists.side_effect = [True, True]
_os_getlogin.side_effect = OSError()
_os_getuid.return_value = 0
_pwd_getpwuid.return_value = ('root', '', 0, 0, '', '', '')
_os_rename.return_value = None
_os_umask.side_effect = [18, 0]
environ['LOGNAME'] = 'root'
stat1 = MagicMock()
stat1.st_mode = 0o0644
stat1.st_uid = 0
stat1.st_gid = 0
_os_stat.side_effect = [stat1, ]
am.selinux_enabled.return_value = False
_os_chmod.reset_mock()
_os_chown.reset_mock()
am.set_context_if_different.reset_mock()
am.atomic_move('/path/to/src', '/path/to/dest')
_os_rename.assert_called_with(b'/path/to/src', b'/path/to/dest')
# dest missing, selinux enabled
_os_path_exists.side_effect = [True, True]
_os_getlogin.return_value = 'root'
_os_getuid.return_value = 0
_pwd_getpwuid.return_value = ('root', '', 0, 0, '', '', '')
_os_rename.return_value = None
_os_umask.side_effect = [18, 0]
stat1 = MagicMock()
stat1.st_mode = 0o0644
stat1.st_uid = 0
stat1.st_gid = 0
_os_stat.side_effect = [stat1, ]
mock_context = MagicMock()
am.selinux_context.return_value = mock_context
am.selinux_enabled.return_value = True
_os_chmod.reset_mock()
_os_chown.reset_mock()
am.set_context_if_different.reset_mock()
am.selinux_default_context.reset_mock()
am.atomic_move('/path/to/src', '/path/to/dest')
_os_rename.assert_called_with(b'/path/to/src', b'/path/to/dest')
self.assertEqual(am.selinux_context.call_args_list, [call('/path/to/dest')])
self.assertEqual(am.set_context_if_different.call_args_list, [call('/path/to/dest', mock_context, False)])
# now testing with exceptions raised
# have os.stat raise OSError which is not EPERM
_os_stat.side_effect = OSError()
_os_path_exists.side_effect = [True, True]
_os_getlogin.return_value = 'root'
_os_getuid.return_value = 0
_pwd_getpwuid.return_value = ('root', '', 0, 0, '', '', '')
_os_rename.return_value = None
_os_umask.side_effect = [18, 0]
self.assertRaises(OSError, am.atomic_move, '/path/to/src', '/path/to/dest')
# and now have os.stat return EPERM, which should not fail
_os_stat.side_effect = OSError(errno.EPERM, 'testing os stat with EPERM')
_os_path_exists.side_effect = [True, True]
_os_getlogin.return_value = 'root'
_os_getuid.return_value = 0
_pwd_getpwuid.return_value = ('root', '', 0, 0, '', '', '')
_os_rename.return_value = None
_os_umask.side_effect = [18, 0]
# FIXME: we don't assert anything here yet
am.atomic_move('/path/to/src', '/path/to/dest')
# now we test os.rename() raising errors...
# first we test with a bad errno to verify it bombs out
_os_path_exists.side_effect = [False, False]
_os_getlogin.return_value = 'root'
_os_getuid.return_value = 0
_pwd_getpwuid.return_value = ('root', '', 0, 0, '', '', '')
_os_umask.side_effect = [18, 0]
_os_rename.side_effect = OSError(errno.EIO, 'failing with EIO')
self.assertRaises(SystemExit, am.atomic_move, '/path/to/src', '/path/to/dest')
# next we test with EPERM so it continues to the alternate code for moving
# test with mkstemp raising an error first
_os_path_exists.side_effect = [False, False]
_os_getlogin.return_value = 'root'
_os_getuid.return_value = 0
_os_close.return_value = None
_pwd_getpwuid.return_value = ('root', '', 0, 0, '', '', '')
_os_umask.side_effect = [18, 0]
_os_rename.side_effect = [OSError(errno.EPERM, 'failing with EPERM'), None]
_tempfile_mkstemp.return_value = None
_tempfile_mkstemp.side_effect = OSError()
am.selinux_enabled.return_value = False
self.assertRaises(SystemExit, am.atomic_move, '/path/to/src', '/path/to/dest')
# then test with it creating a temp file
_os_path_exists.side_effect = [False, False, False]
_os_getlogin.return_value = 'root'
_os_getuid.return_value = 0
_pwd_getpwuid.return_value = ('root', '', 0, 0, '', '', '')
_os_umask.side_effect = [18, 0]
_os_rename.side_effect = [OSError(errno.EPERM, 'failing with EPERM'), None]
mock_stat1 = MagicMock()
mock_stat2 = MagicMock()
mock_stat3 = MagicMock()
_os_stat.return_value = [mock_stat1, mock_stat2, mock_stat3]
_os_stat.side_effect = None
_tempfile_mkstemp.return_value = (None, '/path/to/tempfile')
_tempfile_mkstemp.side_effect = None
am.selinux_enabled.return_value = False
# FIXME: we don't assert anything here yet
am.atomic_move('/path/to/src', '/path/to/dest')
# same as above, but with selinux enabled
_os_path_exists.side_effect = [False, False, False]
_os_getlogin.return_value = 'root'
_os_getuid.return_value = 0
_pwd_getpwuid.return_value = ('root', '', 0, 0, '', '', '')
_os_umask.side_effect = [18, 0]
_os_rename.side_effect = [OSError(errno.EPERM, 'failing with EPERM'), None]
_tempfile_mkstemp.return_value = (None, None)
mock_context = MagicMock()
am.selinux_default_context.return_value = mock_context
am.selinux_enabled.return_value = True
am.atomic_move('/path/to/src', '/path/to/dest')