# -*- coding: utf-8 -*- ''' :codeauthor: :email:`Pedro Algarvio (pedro@algarvio.me)` ============= Class Mix-Ins ============= Some reusable class Mixins ''' # pylint: disable=repr-flag-used-in-string # Import python libs from __future__ import absolute_import, print_function import os import sys import time import types import atexit import pprint import logging import tempfile import functools import subprocess import multiprocessing # Import Salt Testing Libs from tests.support.mock import NO_MOCK, NO_MOCK_REASON, patch from tests.support.runtests import RUNTIME_VARS from tests.support.paths import CODE_DIR # Import salt libs #import salt.config import salt.utils import salt.version import salt.exceptions from salt.utils.verify import verify_env from salt.utils.immutabletypes import freeze from salt._compat import ElementTree as etree # Import 3rd-party libs import yaml import salt.ext.six as six from salt.ext.six.moves import zip # pylint: disable=import-error,redefined-builtin log = logging.getLogger(__name__) class CheckShellBinaryNameAndVersionMixin(object): ''' Simple class mix-in to subclass in companion to :class:`ShellTestCase` which adds a test case to verify proper version report from Salt's CLI tools. ''' _call_binary_ = None _call_binary_expected_version_ = None def test_version_includes_binary_name(self): if getattr(self, '_call_binary_', None) is None: self.skipTest('\'_call_binary_\' not defined.') if self._call_binary_expected_version_ is None: # Late import self._call_binary_expected_version_ = salt.version.__version__ out = '\n'.join(self.run_script(self._call_binary_, '--version')) self.assertIn(self._call_binary_, out) self.assertIn(self._call_binary_expected_version_, out) class AdaptedConfigurationTestCaseMixin(object): __slots__ = () @staticmethod def get_temp_config(config_for, **config_overrides): rootdir = tempfile.mkdtemp(dir=RUNTIME_VARS.TMP) conf_dir = os.path.join(rootdir, 'conf') for key in ('cachedir', 'pki_dir', 'sock_dir'): if key not in config_overrides: config_overrides[key] = key if 'log_file' not in config_overrides: config_overrides['log_file'] = 'logs/{}.log'.format(config_for) if 'user' not in config_overrides: config_overrides['user'] = RUNTIME_VARS.RUNNING_TESTS_USER config_overrides['root_dir'] = rootdir cdict = AdaptedConfigurationTestCaseMixin.get_config(config_for, from_scratch=True) if config_for in ('master', 'client_config'): rdict = salt.config.apply_master_config(config_overrides, cdict) if config_for == 'minion': rdict = salt.config.apply_minion_config(config_overrides, cdict) verify_env([os.path.join(rdict['pki_dir'], 'minions'), os.path.join(rdict['pki_dir'], 'minions_pre'), os.path.join(rdict['pki_dir'], 'minions_rejected'), os.path.join(rdict['pki_dir'], 'minions_denied'), os.path.join(rdict['cachedir'], 'jobs'), os.path.join(rdict['cachedir'], 'raet'), os.path.join(rdict['cachedir'], 'tokens'), os.path.join(rdict['root_dir'], 'cache', 'tokens'), os.path.join(rdict['pki_dir'], 'accepted'), os.path.join(rdict['pki_dir'], 'rejected'), os.path.join(rdict['pki_dir'], 'pending'), os.path.dirname(rdict['log_file']), rdict['sock_dir'], conf_dir ], RUNTIME_VARS.RUNNING_TESTS_USER) rdict['config_dir'] = conf_dir rdict['conf_file'] = os.path.join(conf_dir, config_for) with salt.utils.fopen(rdict['conf_file'], 'w') as wfh: wfh.write(yaml.dump(rdict, default_flow_style=False)) return rdict @staticmethod def get_config(config_for, from_scratch=False): if from_scratch: if config_for in ('master', 'syndic_master'): return salt.config.master_config( AdaptedConfigurationTestCaseMixin.get_config_file_path(config_for) ) elif config_for in ('minion', 'sub_minion'): return salt.config.minion_config( AdaptedConfigurationTestCaseMixin.get_config_file_path(config_for) ) elif config_for in ('syndic',): return salt.config.syndic_config( AdaptedConfigurationTestCaseMixin.get_config_file_path(config_for), AdaptedConfigurationTestCaseMixin.get_config_file_path('minion') ) elif config_for == 'client_config': return salt.config.client_config( AdaptedConfigurationTestCaseMixin.get_config_file_path('master') ) if config_for not in RUNTIME_VARS.RUNTIME_CONFIGS: if config_for in ('master', 'syndic_master'): RUNTIME_VARS.RUNTIME_CONFIGS[config_for] = freeze( salt.config.master_config( AdaptedConfigurationTestCaseMixin.get_config_file_path(config_for) ) ) elif config_for in ('minion', 'sub_minion'): RUNTIME_VARS.RUNTIME_CONFIGS[config_for] = freeze( salt.config.minion_config( AdaptedConfigurationTestCaseMixin.get_config_file_path(config_for) ) ) elif config_for in ('syndic',): RUNTIME_VARS.RUNTIME_CONFIGS[config_for] = freeze( salt.config.syndic_config( AdaptedConfigurationTestCaseMixin.get_config_file_path(config_for), AdaptedConfigurationTestCaseMixin.get_config_file_path('minion') ) ) elif config_for == 'client_config': RUNTIME_VARS.RUNTIME_CONFIGS[config_for] = freeze( salt.config.client_config( AdaptedConfigurationTestCaseMixin.get_config_file_path('master') ) ) return RUNTIME_VARS.RUNTIME_CONFIGS[config_for] @staticmethod def get_config_dir(): return RUNTIME_VARS.TMP_CONF_DIR @staticmethod def get_config_file_path(filename): if filename == 'syndic_master': return os.path.join(RUNTIME_VARS.TMP_SYNDIC_MASTER_CONF_DIR, 'master') if filename == 'syndic': return os.path.join(RUNTIME_VARS.TMP_SYNDIC_MINION_CONF_DIR, 'minion') if filename == 'sub_minion': return os.path.join(RUNTIME_VARS.TMP_SUB_MINION_CONF_DIR, 'minion') return os.path.join(RUNTIME_VARS.TMP_CONF_DIR, filename) @property def master_opts(self): ''' Return the options used for the master ''' return self.get_config('master') @property def minion_opts(self): ''' Return the options used for the minion ''' return self.get_config('minion') @property def sub_minion_opts(self): ''' Return the options used for the sub_minion ''' return self.get_config('sub_minion') class SaltClientTestCaseMixin(AdaptedConfigurationTestCaseMixin): ''' Mix-in class that provides a ``client`` attribute which returns a Salt :class:`LocalClient`. .. code-block:: python class LocalClientTestCase(TestCase, SaltClientTestCaseMixin): def test_check_pub_data(self): just_minions = {'minions': ['m1', 'm2']} jid_no_minions = {'jid': '1234', 'minions': []} valid_pub_data = {'minions': ['m1', 'm2'], 'jid': '1234'} self.assertRaises(EauthAuthenticationError, self.client._check_pub_data, None) self.assertDictEqual({}, self.client._check_pub_data(just_minions), 'Did not handle lack of jid correctly') self.assertDictEqual( {}, self.client._check_pub_data({'jid': '0'}), 'Passing JID of zero is not handled gracefully') ''' _salt_client_config_file_name_ = 'master' @property def client(self): # Late import import salt.client if 'runtime_client' not in RUNTIME_VARS.RUNTIME_CONFIGS: mopts = self.get_config(self._salt_client_config_file_name_, from_scratch=True) RUNTIME_VARS.RUNTIME_CONFIGS['runtime_client'] = salt.client.get_local_client(mopts=mopts) return RUNTIME_VARS.RUNTIME_CONFIGS['runtime_client'] class ShellCaseCommonTestsMixin(CheckShellBinaryNameAndVersionMixin): _call_binary_expected_version_ = salt.version.__version__ def test_salt_with_git_version(self): if getattr(self, '_call_binary_', None) is None: self.skipTest('\'_call_binary_\' not defined.') from salt.utils import which from salt.version import __version_info__, SaltStackVersion git = which('git') if not git: self.skipTest('The git binary is not available') # Let's get the output of git describe process = subprocess.Popen( [git, 'describe', '--tags', '--first-parent', '--match', 'v[0-9]*'], stdout=subprocess.PIPE, stderr=subprocess.PIPE, close_fds=True, cwd=CODE_DIR ) out, err = process.communicate() if process.returncode != 0: process = subprocess.Popen( [git, 'describe', '--tags', '--match', 'v[0-9]*'], stdout=subprocess.PIPE, stderr=subprocess.PIPE, close_fds=True, cwd=CODE_DIR ) out, err = process.communicate() if not out: self.skipTest( 'Failed to get the output of \'git describe\'. ' 'Error: \'{0}\''.format( salt.utils.to_str(err) ) ) parsed_version = SaltStackVersion.parse(out) if parsed_version.info < __version_info__: self.skipTest( 'We\'re likely about to release a new version. This test ' 'would fail. Parsed(\'{0}\') < Expected(\'{1}\')'.format( parsed_version.info, __version_info__ ) ) elif parsed_version.info != __version_info__: self.skipTest( 'In order to get the proper salt version with the ' 'git hash you need to update salt\'s local git ' 'tags. Something like: \'git fetch --tags\' or ' '\'git fetch --tags upstream\' if you followed ' 'salt\'s contribute documentation. The version ' 'string WILL NOT include the git hash.' ) out = '\n'.join(self.run_script(self._call_binary_, '--version')) self.assertIn(parsed_version.string, out) class _FixLoaderModuleMockMixinMroOrder(type): ''' This metaclass will make sure that LoaderModuleMockMixin will always come as the first base class in order for LoaderModuleMockMixin.setUp to actually run ''' def __new__(mcs, cls_name, cls_bases, cls_dict): if cls_name == 'LoaderModuleMockMixin': return super(_FixLoaderModuleMockMixinMroOrder, mcs).__new__(mcs, cls_name, cls_bases, cls_dict) bases = list(cls_bases) for idx, base in enumerate(bases): if base.__name__ == 'LoaderModuleMockMixin': bases.insert(0, bases.pop(idx)) break # Create the class instance instance = super(_FixLoaderModuleMockMixinMroOrder, mcs).__new__(mcs, cls_name, tuple(bases), cls_dict) # Apply our setUp function decorator instance.setUp = LoaderModuleMockMixin.__setup_loader_modules_mocks__(instance.setUp) return instance class LoaderModuleMockMixin(six.with_metaclass(_FixLoaderModuleMockMixinMroOrder, object)): ''' This class will setup salt loader dunders. Please check `set_up_loader_mocks` above ''' # Define our setUp function decorator @staticmethod def __setup_loader_modules_mocks__(setup_func): @functools.wraps(setup_func) def wrapper(self): if NO_MOCK: self.skipTest(NO_MOCK_REASON) loader_modules_configs = self.setup_loader_modules() if not isinstance(loader_modules_configs, dict): raise RuntimeError( '{}.setup_loader_modules() must return a dictionary where the keys are the ' 'modules that require loader mocking setup and the values, the global module ' 'variables for each of the module being mocked. For example \'__salt__\', ' '\'__opts__\', etc.'.format(self.__class__.__name__) ) salt_dunders = ( '__opts__', '__salt__', '__runner__', '__context__', '__utils__', '__ext_pillar__', '__thorium__', '__states__', '__serializers__', '__ret__', '__grains__', '__pillar__', '__sdb__', # Proxy is commented out on purpose since some code in salt expects a NameError # and is most of the time not a required dunder # '__proxy__' ) for module, module_globals in six.iteritems(loader_modules_configs): if not isinstance(module, types.ModuleType): raise RuntimeError( 'The dictionary keys returned by {}.setup_loader_modules() ' 'must be an imported module, not {}'.format( self.__class__.__name__, type(module) ) ) if not isinstance(module_globals, dict): raise RuntimeError( 'The dictionary values returned by {}.setup_loader_modules() ' 'must be a dictionary, not {}'.format( self.__class__.__name__, type(module_globals) ) ) module_blacklisted_dunders = module_globals.pop('blacklisted_dunders', ()) minion_funcs = {} if '__salt__' in module_globals and module_globals['__salt__'] == 'autoload': if '__opts__' not in module_globals: raise RuntimeError( 'You must provide \'__opts__\' on the {} module globals dictionary ' 'to auto load the minion functions'.format(module.__name__) ) import salt.loader ctx = {} if '__utils__' not in module_globals: utils = salt.loader.utils(module_globals['__opts__'], context=module_globals.get('__context__') or ctx) module_globals['__utils__'] = utils minion_funcs = salt.loader.minion_mods( module_globals['__opts__'], context=module_globals.get('__context__') or ctx, utils=module_globals.get('__utils__'), ) module_globals['__salt__'] = minion_funcs for dunder_name in salt_dunders: if dunder_name not in module_globals: if dunder_name in module_blacklisted_dunders: continue module_globals[dunder_name] = {} sys_modules = module_globals.pop('sys.modules', None) if sys_modules is not None: if not isinstance(sys_modules, dict): raise RuntimeError( '\'sys.modules\' must be a dictionary not: {}'.format( type(sys_modules) ) ) patcher = patch.dict(sys.modules, sys_modules) patcher.start() def cleanup_sys_modules(patcher, sys_modules): patcher.stop() del patcher del sys_modules self.addCleanup(cleanup_sys_modules, patcher, sys_modules) for key in module_globals: if not hasattr(module, key): if key in salt_dunders: setattr(module, key, {}) else: setattr(module, key, None) if module_globals: patcher = patch.multiple(module, **module_globals) patcher.start() def cleanup_module_globals(patcher, module_globals): patcher.stop() del patcher del module_globals self.addCleanup(cleanup_module_globals, patcher, module_globals) if minion_funcs: # Since we autoloaded the minion_funcs, let's namespace the functions with the globals # used to patch above import salt.utils for func in minion_funcs: minion_funcs[func] = salt.utils.namespaced_function( minion_funcs[func], module_globals, preserve_context=True ) return setup_func(self) return wrapper def setup_loader_modules(self): raise NotImplementedError( '\'{}.setup_loader_modules()\' must be implemented'.format(self.__class__.__name__) ) class XMLEqualityMixin(object): def assertEqualXML(self, e1, e2): if six.PY3 and isinstance(e1, bytes): e1 = e1.decode('utf-8') if six.PY3 and isinstance(e2, bytes): e2 = e2.decode('utf-8') if isinstance(e1, six.string_types): e1 = etree.XML(e1) if isinstance(e2, six.string_types): e2 = etree.XML(e2) if e1.tag != e2.tag: return False if e1.text != e2.text: return False if e1.tail != e2.tail: return False if e1.attrib != e2.attrib: return False if len(e1) != len(e2): return False return all(self.assertEqualXML(c1, c2) for c1, c2 in zip(e1, e2)) class SaltReturnAssertsMixin(object): def assertReturnSaltType(self, ret): try: self.assertTrue(isinstance(ret, dict)) except AssertionError: raise AssertionError( '{0} is not dict. Salt returned: {1}'.format( type(ret).__name__, ret ) ) def assertReturnNonEmptySaltType(self, ret): self.assertReturnSaltType(ret) try: self.assertNotEqual(ret, {}) except AssertionError: raise AssertionError( '{} is equal to {}. Salt returned an empty dictionary.' ) def __return_valid_keys(self, keys): if isinstance(keys, tuple): # If it's a tuple, turn it into a list keys = list(keys) elif isinstance(keys, six.string_types): # If it's a string, make it a one item list keys = [keys] elif not isinstance(keys, list): # If we've reached here, it's a bad type passed to keys raise RuntimeError('The passed keys need to be a list') return keys def __getWithinSaltReturn(self, ret, keys): self.assertReturnNonEmptySaltType(ret) ret_data = [] for part in six.itervalues(ret): keys = self.__return_valid_keys(keys) okeys = keys[:] try: ret_item = part[okeys.pop(0)] except (KeyError, TypeError): raise AssertionError( 'Could not get ret{0} from salt\'s return: {1}'.format( ''.join(['[\'{0}\']'.format(k) for k in keys]), part ) ) while okeys: try: ret_item = ret_item[okeys.pop(0)] except (KeyError, TypeError): raise AssertionError( 'Could not get ret{0} from salt\'s return: {1}'.format( ''.join(['[\'{0}\']'.format(k) for k in keys]), part ) ) ret_data.append(ret_item) return ret_data def assertSaltTrueReturn(self, ret): try: for saltret in self.__getWithinSaltReturn(ret, 'result'): self.assertTrue(saltret) except AssertionError: log.info('Salt Full Return:\n{0}'.format(pprint.pformat(ret))) try: raise AssertionError( '{result} is not True. Salt Comment:\n{comment}'.format( **(next(six.itervalues(ret))) ) ) except (AttributeError, IndexError): raise AssertionError( 'Failed to get result. Salt Returned:\n{0}'.format( pprint.pformat(ret) ) ) def assertSaltFalseReturn(self, ret): try: for saltret in self.__getWithinSaltReturn(ret, 'result'): self.assertFalse(saltret) except AssertionError: log.info('Salt Full Return:\n{0}'.format(pprint.pformat(ret))) try: raise AssertionError( '{result} is not False. Salt Comment:\n{comment}'.format( **(next(six.itervalues(ret))) ) ) except (AttributeError, IndexError): raise AssertionError( 'Failed to get result. Salt Returned: {0}'.format(ret) ) def assertSaltNoneReturn(self, ret): try: for saltret in self.__getWithinSaltReturn(ret, 'result'): self.assertIsNone(saltret) except AssertionError: log.info('Salt Full Return:\n{0}'.format(pprint.pformat(ret))) try: raise AssertionError( '{result} is not None. Salt Comment:\n{comment}'.format( **(next(six.itervalues(ret))) ) ) except (AttributeError, IndexError): raise AssertionError( 'Failed to get result. Salt Returned: {0}'.format(ret) ) def assertInSaltComment(self, in_comment, ret): for saltret in self.__getWithinSaltReturn(ret, 'comment'): self.assertIn(in_comment, saltret) def assertNotInSaltComment(self, not_in_comment, ret): for saltret in self.__getWithinSaltReturn(ret, 'comment'): self.assertNotIn(not_in_comment, saltret) def assertSaltCommentRegexpMatches(self, ret, pattern): return self.assertInSaltReturnRegexpMatches(ret, pattern, 'comment') def assertInSaltStateWarning(self, in_comment, ret): for saltret in self.__getWithinSaltReturn(ret, 'warnings'): self.assertIn(in_comment, saltret) def assertNotInSaltStateWarning(self, not_in_comment, ret): for saltret in self.__getWithinSaltReturn(ret, 'warnings'): self.assertNotIn(not_in_comment, saltret) def assertInSaltReturn(self, item_to_check, ret, keys): for saltret in self.__getWithinSaltReturn(ret, keys): self.assertIn(item_to_check, saltret) def assertNotInSaltReturn(self, item_to_check, ret, keys): for saltret in self.__getWithinSaltReturn(ret, keys): self.assertNotIn(item_to_check, saltret) def assertInSaltReturnRegexpMatches(self, ret, pattern, keys=()): for saltret in self.__getWithinSaltReturn(ret, keys): self.assertRegex(saltret, pattern) def assertSaltStateChangesEqual(self, ret, comparison, keys=()): keys = ['changes'] + self.__return_valid_keys(keys) for saltret in self.__getWithinSaltReturn(ret, keys): self.assertEqual(saltret, comparison) def assertSaltStateChangesNotEqual(self, ret, comparison, keys=()): keys = ['changes'] + self.__return_valid_keys(keys) for saltret in self.__getWithinSaltReturn(ret, keys): self.assertNotEqual(saltret, comparison) class SaltMinionEventAssertsMixin(object): ''' Asserts to verify that a given event was seen ''' def __new__(cls, *args, **kwargs): # We have to cross-call to re-gen a config cls.q = multiprocessing.Queue() cls.fetch_proc = multiprocessing.Process(target=cls._fetch, args=(cls.q,)) cls.fetch_proc.start() return object.__new__(cls) def __exit__(self, *args, **kwargs): self.fetch_proc.join() @staticmethod def _fetch(q): ''' Collect events and store them ''' def _clean_queue(): print('Cleaning queue!') while not q.empty(): queue_item = q.get() queue_item.task_done() atexit.register(_clean_queue) a_config = AdaptedConfigurationTestCaseMixin() event = salt.utils.event.get_event('minion', sock_dir=a_config.get_config('minion')['sock_dir'], opts=a_config.get_config('minion')) while True: try: events = event.get_event(full=False) except Exception: # This is broad but we'll see all kinds of issues right now # if we drop the proc out from under the socket while we're reading pass q.put(events) def assertMinionEventFired(self, tag): #TODO raise salt.exceptions.NotImplemented('assertMinionEventFired() not implemented') def assertMinionEventReceived(self, desired_event): queue_wait = 5 # 2.5s while self.q.empty(): time.sleep(0.5) # Wait for events to be pushed into the queue queue_wait -= 1 if queue_wait <= 0: raise AssertionError('Queue wait timer expired') while not self.q.empty(): # This is not thread-safe and may be inaccurate event = self.q.get() if isinstance(event, dict): event.pop('_stamp') if desired_event == event: self.fetch_proc.terminate() return True self.fetch_proc.terminate() raise AssertionError('Event {0} was not received by minion'.format(desired_event))