# -*- coding: utf-8 -*- ''' :codeauthor: :email:`Mike Place ` ''' # Import python libs from __future__ import absolute_import # Import Salt Testing libs from salttesting import TestCase, skipIf from salttesting.helpers import ensure_in_syspath from salttesting.mock import ( patch, DEFAULT, create_autospec, NO_MOCK, NO_MOCK_REASON ) ensure_in_syspath('../../') # Import Salt libs from salt.utils import args from salt.utils.odict import OrderedDict from salt.exceptions import (SaltInvocationError, SaltSystemExit, CommandNotFoundError) from salt import utils # Import Python libraries import os import datetime import yaml import zmq from collections import namedtuple # Import 3rd-party libs import salt.ext.six as six from salt.ext.six.moves import range try: import timelib # pylint: disable=import-error,unused-import HAS_TIMELIB = True except ImportError: HAS_TIMELIB = False LORUM_IPSUM = 'Lorem ipsum dolor sit amet, consectetur adipiscing elit. Quisque eget urna a arcu lacinia sagittis. \n' \ 'Sed scelerisque, lacus eget malesuada vestibulum, justo diam facilisis tortor, in sodales dolor \n' \ 'nibh eu urna. Aliquam iaculis massa risus, sed elementum risus accumsan id. Suspendisse mattis, \n' \ 'metus sed lacinia dictum, leo orci dapibus sapien, at porttitor sapien nulla ac velit. \n' \ 'Duis ac cursus leo, non varius metus. Sed laoreet felis magna, vel tempor diam malesuada nec. \n' \ 'Quisque cursus odio tortor. In consequat augue nisl, eget lacinia odio vestibulum eget. \n' \ 'Donec venenatis elementum arcu at rhoncus. Nunc pharetra erat in lacinia convallis. Ut condimentum \n' \ 'eu mauris sit amet convallis. Morbi vulputate vel odio non laoreet. Nullam in suscipit tellus. \n' \ 'Sed quis posuere urna.' class UtilsTestCase(TestCase): def test_get_context(self): expected_context = '---\nLorem ipsum dolor sit amet, consectetur adipiscing elit. Quisque eget urna a arcu ' \ 'lacinia sagittis. \n' \ 'Sed scelerisque, lacus eget malesuada vestibulum, justo diam facilisis tortor, in sodales' \ ' dolor \n' \ '[...]\n' \ '---' ret = utils.get_context(LORUM_IPSUM, 1, num_lines=1) self.assertEqual(ret, expected_context) def test_jid_to_time(self): test_jid = 20131219110700123489 expected_jid = '2013, Dec 19 11:07:00.123489' self.assertEqual(utils.jid.jid_to_time(test_jid), expected_jid) # Test incorrect lengths incorrect_jid_length = 2012 self.assertEqual(utils.jid.jid_to_time(incorrect_jid_length), '') @skipIf(NO_MOCK, NO_MOCK_REASON) @patch('random.randint', return_value=1) def test_gen_mac(self, random_mock): self.assertEqual(random_mock.return_value, 1) ret = utils.gen_mac('00:16:3E') expected_mac = '00:16:3E:01:01:01' self.assertEqual(ret, expected_mac) def test_mac_str_to_bytes(self): self.assertRaises(ValueError, utils.mac_str_to_bytes, '31337') self.assertRaises(ValueError, utils.mac_str_to_bytes, '0001020304056') self.assertRaises(ValueError, utils.mac_str_to_bytes, '00:01:02:03:04:056') self.assertRaises(ValueError, utils.mac_str_to_bytes, 'a0:b0:c0:d0:e0:fg') self.assertEqual(b'\x10\x08\x06\x04\x02\x00', utils.mac_str_to_bytes('100806040200')) self.assertEqual(b'\xf8\xe7\xd6\xc5\xb4\xa3', utils.mac_str_to_bytes('f8e7d6c5b4a3')) def test_ip_bracket(self): test_ipv4 = '127.0.0.1' test_ipv6 = '::1' self.assertEqual(test_ipv4, utils.ip_bracket(test_ipv4)) self.assertEqual('[{0}]'.format(test_ipv6), utils.ip_bracket(test_ipv6)) def test_is_jid(self): self.assertTrue(utils.jid.is_jid('20131219110700123489')) # Valid JID self.assertFalse(utils.jid.is_jid(20131219110700123489)) # int self.assertFalse(utils.jid.is_jid('2013121911070012348911111')) # Wrong length @skipIf(NO_MOCK, NO_MOCK_REASON) @patch('salt.utils.is_windows', return_value=False) def test_path_join(self, is_windows_mock): self.assertFalse(is_windows_mock.return_value) expected_path = '/a/b/c/d' ret = utils.path_join('/a/b/c', 'd') self.assertEqual(ret, expected_path) def test_build_whitespace_split_regex(self): expected_regex = '(?m)^(?:[\\s]+)?Lorem(?:[\\s]+)?ipsum(?:[\\s]+)?dolor(?:[\\s]+)?sit(?:[\\s]+)?amet\\,' \ '(?:[\\s]+)?$' ret = utils.build_whitespace_split_regex(' '.join(LORUM_IPSUM.split()[:5])) self.assertEqual(ret, expected_regex) def test_get_function_argspec(self): def dummy_func(first, second, third, fourth='fifth'): pass expected_argspec = namedtuple('ArgSpec', 'args varargs keywords defaults')( args=['first', 'second', 'third', 'fourth'], varargs=None, keywords=None, defaults=('fifth',)) ret = utils.args.get_function_argspec(dummy_func) self.assertEqual(ret, expected_argspec) def test_arg_lookup(self): def dummy_func(first, second, third, fourth='fifth'): pass expected_dict = {'args': ['first', 'second', 'third'], 'kwargs': {'fourth': 'fifth'}} ret = utils.arg_lookup(dummy_func) self.assertEqual(expected_dict, ret) @skipIf(NO_MOCK, NO_MOCK_REASON) @patch('os.remove') def test_safe_rm(self, os_remove_mock): utils.safe_rm('dummy_tgt') self.assertTrue(os_remove_mock.called) @skipIf(os.path.exists('/tmp/no_way_this_is_a_file_nope.sh'), 'Test file exists! Skipping safe_rm_exceptions test!') def test_safe_rm_exceptions(self): error = False try: utils.safe_rm('/tmp/no_way_this_is_a_file_nope.sh') except (IOError, OSError): error = True self.assertFalse(error, 'utils.safe_rm raised exception when it should not have') @skipIf(NO_MOCK, NO_MOCK_REASON) @patch('salt.utils.arg_lookup') def test_format_call(self, arg_lookup): def dummy_func(first=None, second=None, third=None): pass arg_lookup.return_value = {'args': ['first', 'second', 'third'], 'kwargs': {}} get_function_argspec = DEFAULT get_function_argspec.return_value = namedtuple('ArgSpec', 'args varargs keywords defaults')( args=['first', 'second', 'third', 'fourth'], varargs=None, keywords=None, defaults=('fifth',)) # Make sure we raise an error if we don't pass in the requisite number of arguments self.assertRaises(SaltInvocationError, utils.format_call, dummy_func, {'1': 2}) # Make sure we warn on invalid kwargs ret = utils.format_call(dummy_func, {'first': 2, 'second': 2, 'third': 3}) self.assertGreaterEqual(len(ret['warnings']), 1) ret = utils.format_call(dummy_func, {'first': 2, 'second': 2, 'third': 3}, expected_extra_kws=('first', 'second', 'third')) self.assertDictEqual(ret, {'args': [], 'kwargs': {}}) def test_isorted(self): test_list = ['foo', 'Foo', 'bar', 'Bar'] expected_list = ['bar', 'Bar', 'foo', 'Foo'] self.assertEqual(utils.isorted(test_list), expected_list) def test_mysql_to_dict(self): test_mysql_output = ['+----+------+-----------+------+---------+------+-------+------------------+', '| Id | User | Host | db | Command | Time | State | Info |', '+----+------+-----------+------+---------+------+-------+------------------+', '| 7 | root | localhost | NULL | Query | 0 | init | show processlist |', '+----+------+-----------+------+---------+------+-------+------------------+'] ret = utils.mysql_to_dict(test_mysql_output, 'Info') expected_dict = { 'show processlist': {'Info': 'show processlist', 'db': 'NULL', 'State': 'init', 'Host': 'localhost', 'Command': 'Query', 'User': 'root', 'Time': 0, 'Id': 7}} self.assertDictEqual(ret, expected_dict) def test_contains_whitespace(self): does_contain_whitespace = 'A brown fox jumped over the red hen.' does_not_contain_whitespace = 'Abrownfoxjumpedovertheredhen.' self.assertTrue(utils.contains_whitespace(does_contain_whitespace)) self.assertFalse(utils.contains_whitespace(does_not_contain_whitespace)) def test_str_to_num(self): self.assertEqual(7, utils.str_to_num('7')) self.assertIsInstance(utils.str_to_num('7'), int) self.assertEqual(7, utils.str_to_num('7.0')) self.assertIsInstance(utils.str_to_num('7.0'), float) self.assertEqual(utils.str_to_num('Seven'), 'Seven') self.assertIsInstance(utils.str_to_num('Seven'), str) def test_subdict_match(self): test_two_level_dict = {'foo': {'bar': 'baz'}} test_two_level_comb_dict = {'foo': {'bar': 'baz:woz'}} test_two_level_dict_and_list = { 'abc': ['def', 'ghi', {'lorem': {'ipsum': [{'dolor': 'sit'}]}}], } test_three_level_dict = {'a': {'b': {'c': 'v'}}} self.assertTrue( utils.subdict_match( test_two_level_dict, 'foo:bar:baz' ) ) # In test_two_level_comb_dict, 'foo:bar' corresponds to 'baz:woz', not # 'baz'. This match should return False. self.assertFalse( utils.subdict_match( test_two_level_comb_dict, 'foo:bar:baz' ) ) # This tests matching with the delimiter in the value part (in other # words, that the path 'foo:bar' corresponds to the string 'baz:woz'). self.assertTrue( utils.subdict_match( test_two_level_comb_dict, 'foo:bar:baz:woz' ) ) # This would match if test_two_level_comb_dict['foo']['bar'] was equal # to 'baz:woz:wiz', or if there was more deep nesting. But it does not, # so this should return False. self.assertFalse( utils.subdict_match( test_two_level_comb_dict, 'foo:bar:baz:woz:wiz' ) ) # This tests for cases when a key path corresponds to a list. The # value part 'ghi' should be successfully matched as it is a member of # the list corresponding to key path 'abc'. It is somewhat a # duplication of a test within test_traverse_dict_and_list, but # salt.utils.subdict_match() does more than just invoke # salt.utils.traverse_list_and_dict() so this particular assertion is a # sanity check. self.assertTrue( utils.subdict_match( test_two_level_dict_and_list, 'abc:ghi' ) ) # This tests the use case of a dict embedded in a list, embedded in a # list, embedded in a dict. This is a rather absurd case, but it # confirms that match recursion works properly. self.assertTrue( utils.subdict_match( test_two_level_dict_and_list, 'abc:lorem:ipsum:dolor:sit' ) ) # Test four level dict match for reference self.assertTrue( utils.subdict_match( test_three_level_dict, 'a:b:c:v' ) ) self.assertFalse( # Test regression in 2015.8 where 'a:c:v' would match 'a:b:c:v' utils.subdict_match( test_three_level_dict, 'a:c:v' ) ) # Test wildcard match self.assertTrue( utils.subdict_match( test_three_level_dict, 'a:*:c:v' ) ) def test_traverse_dict(self): test_two_level_dict = {'foo': {'bar': 'baz'}} self.assertDictEqual( {'not_found': 'nope'}, utils.traverse_dict( test_two_level_dict, 'foo:bar:baz', {'not_found': 'nope'} ) ) self.assertEqual( 'baz', utils.traverse_dict( test_two_level_dict, 'foo:bar', {'not_found': 'not_found'} ) ) def test_traverse_dict_and_list(self): test_two_level_dict = {'foo': {'bar': 'baz'}} test_two_level_dict_and_list = { 'foo': ['bar', 'baz', {'lorem': {'ipsum': [{'dolor': 'sit'}]}}] } # Check traversing too far: salt.utils.traverse_dict_and_list() returns # the value corresponding to a given key path, and baz is a value # corresponding to the key path foo:bar. self.assertDictEqual( {'not_found': 'nope'}, utils.traverse_dict_and_list( test_two_level_dict, 'foo:bar:baz', {'not_found': 'nope'} ) ) # Now check to ensure that foo:bar corresponds to baz self.assertEqual( 'baz', utils.traverse_dict_and_list( test_two_level_dict, 'foo:bar', {'not_found': 'not_found'} ) ) # Check traversing too far self.assertDictEqual( {'not_found': 'nope'}, utils.traverse_dict_and_list( test_two_level_dict_and_list, 'foo:bar', {'not_found': 'nope'} ) ) # Check index 1 (2nd element) of list corresponding to path 'foo' self.assertEqual( 'baz', utils.traverse_dict_and_list( test_two_level_dict_and_list, 'foo:1', {'not_found': 'not_found'} ) ) # Traverse a couple times into dicts embedded in lists self.assertEqual( 'sit', utils.traverse_dict_and_list( test_two_level_dict_and_list, 'foo:lorem:ipsum:dolor', {'not_found': 'not_found'} ) ) def test_clean_kwargs(self): self.assertDictEqual(utils.clean_kwargs(foo='bar'), {'foo': 'bar'}) self.assertDictEqual(utils.clean_kwargs(__pub_foo='bar'), {}) self.assertDictEqual(utils.clean_kwargs(__foo_bar='gwar'), {}) self.assertDictEqual(utils.clean_kwargs(foo_bar='gwar'), {'foo_bar': 'gwar'}) def test_sanitize_win_path_string(self): p = '\\windows\\system' self.assertEqual(utils.sanitize_win_path_string('\\windows\\system'), '\\windows\\system') self.assertEqual(utils.sanitize_win_path_string('\\bo:g|us\\p?at*h>'), '\\bo_g_us\\p_at_h_') def test_check_state_result(self): self.assertFalse(utils.check_state_result(None), "Failed to handle None as an invalid data type.") self.assertFalse(utils.check_state_result([]), "Failed to handle an invalid data type.") self.assertFalse(utils.check_state_result({}), "Failed to handle an empty dictionary.") self.assertFalse(utils.check_state_result({'host1': []}), "Failed to handle an invalid host data structure.") test_valid_state = {'host1': {'test_state': {'result': 'We have liftoff!'}}} self.assertTrue(utils.check_state_result(test_valid_state)) test_valid_false_states = { 'test1': OrderedDict([ ('host1', OrderedDict([ ('test_state0', {'result': True}), ('test_state', {'result': False}), ])), ]), 'test2': OrderedDict([ ('host1', OrderedDict([ ('test_state0', {'result': True}), ('test_state', {'result': True}), ])), ('host2', OrderedDict([ ('test_state0', {'result': True}), ('test_state', {'result': False}), ])), ]), 'test3': ['a'], 'test4': OrderedDict([ ('asup', OrderedDict([ ('host1', OrderedDict([ ('test_state0', {'result': True}), ('test_state', {'result': True}), ])), ('host2', OrderedDict([ ('test_state0', {'result': True}), ('test_state', {'result': False}), ])) ])) ]), 'test5': OrderedDict([ ('asup', OrderedDict([ ('host1', OrderedDict([ ('test_state0', {'result': True}), ('test_state', {'result': True}), ])), ('host2', OrderedDict([])) ])) ]) } for test, data in six.iteritems(test_valid_false_states): self.assertFalse( utils.check_state_result(data), msg='{0} failed'.format(test)) test_valid_true_states = { 'test1': OrderedDict([ ('host1', OrderedDict([ ('test_state0', {'result': True}), ('test_state', {'result': True}), ])), ]), 'test3': OrderedDict([ ('host1', OrderedDict([ ('test_state0', {'result': True}), ('test_state', {'result': True}), ])), ('host2', OrderedDict([ ('test_state0', {'result': True}), ('test_state', {'result': True}), ])), ]), 'test4': OrderedDict([ ('asup', OrderedDict([ ('host1', OrderedDict([ ('test_state0', {'result': True}), ('test_state', {'result': True}), ])), ('host2', OrderedDict([ ('test_state0', {'result': True}), ('test_state', {'result': True}), ])) ])) ]), 'test2': OrderedDict([ ('host1', OrderedDict([ ('test_state0', {'result': None}), ('test_state', {'result': True}), ])), ('host2', OrderedDict([ ('test_state0', {'result': True}), ('test_state', {'result': 'abc'}), ])) ]) } for test, data in six.iteritems(test_valid_true_states): self.assertTrue( utils.check_state_result(data), msg='{0} failed'.format(test)) test_valid_false_state = {'host1': {'test_state': {'result': False}}} self.assertFalse(utils.check_state_result(test_valid_false_state)) @skipIf(NO_MOCK, NO_MOCK_REASON) @skipIf(not hasattr(zmq, 'IPC_PATH_MAX_LEN'), "ZMQ does not have max length support.") def test_check_ipc_length(self): ''' Ensure we throw an exception if we have a too-long IPC URI ''' with patch('zmq.IPC_PATH_MAX_LEN', 1): self.assertRaises(SaltSystemExit, utils.zeromq.check_ipc_path_max_len, '1' * 1024) def test_test_mode(self): self.assertTrue(utils.test_mode(test=True)) self.assertTrue(utils.test_mode(Test=True)) self.assertTrue(utils.test_mode(tEsT=True)) def test_option(self): test_two_level_dict = {'foo': {'bar': 'baz'}} self.assertDictEqual({'not_found': 'nope'}, utils.option('foo:bar', {'not_found': 'nope'})) self.assertEqual('baz', utils.option('foo:bar', {'not_found': 'nope'}, opts=test_two_level_dict)) self.assertEqual('baz', utils.option('foo:bar', {'not_found': 'nope'}, pillar={'master': test_two_level_dict})) self.assertEqual('baz', utils.option('foo:bar', {'not_found': 'nope'}, pillar=test_two_level_dict)) def test_parse_docstring(self): test_keystone_str = '''Management of Keystone users ============================ :depends: - keystoneclient Python module :configuration: See :py:mod:`salt.modules.keystone` for setup instructions. ''' ret = utils.parse_docstring(test_keystone_str) expected_dict = {'deps': ['keystoneclient'], 'full': 'Management of Keystone users\n ' '============================\n\n ' ':depends: - keystoneclient Python module\n ' ':configuration: See :py:mod:`salt.modules.keystone` for setup instructions.\n'} self.assertDictEqual(ret, expected_dict) def test_get_hash_exception(self): self.assertRaises(ValueError, utils.get_hash, '/tmp/foo/', form='INVALID') def test_parse_kwarg(self): ret = args.parse_kwarg('foo=bar') self.assertEqual(ret, ('foo', 'bar')) ret = args.parse_kwarg('foobar') self.assertEqual(ret, (None, None)) @skipIf(NO_MOCK, NO_MOCK_REASON) def test_date_cast(self): now = datetime.datetime.now() with patch('datetime.datetime'): datetime.datetime.now.return_value = now self.assertEqual(now, utils.date_cast(None)) self.assertEqual(now, utils.date_cast(now)) try: ret = utils.date_cast('Mon Dec 23 10:19:15 MST 2013') expected_ret = datetime.datetime(2013, 12, 23, 10, 19, 15) self.assertEqual(ret, expected_ret) except RuntimeError: # Unparseable without timelib installed self.skipTest('\'timelib\' is not installed') @skipIf(not HAS_TIMELIB, '\'timelib\' is not installed') def test_date_format(self): # Taken from doctests expected_ret = '2002-12-25' src = datetime.datetime(2002, 12, 25, 12, 00, 00, 00) ret = utils.date_format(src) self.assertEqual(ret, expected_ret) src = '2002/12/25' ret = utils.date_format(src) self.assertEqual(ret, expected_ret) src = 1040814000 ret = utils.date_format(src) self.assertEqual(ret, expected_ret) src = '1040814000' ret = utils.date_format(src) self.assertEqual(ret, expected_ret) def test_yaml_dquote(self): for teststr in (r'"\ []{}"',): self.assertEqual(teststr, yaml.safe_load(utils.yamlencoding.yaml_dquote(teststr))) def test_yaml_dquote_doesNotAddNewLines(self): teststr = '"' * 100 self.assertNotIn('\n', utils.yamlencoding.yaml_dquote(teststr)) def test_yaml_squote(self): ret = utils.yamlencoding.yaml_squote(r'"') self.assertEqual(ret, r"""'"'""") def test_yaml_squote_doesNotAddNewLines(self): teststr = "'" * 100 self.assertNotIn('\n', utils.yamlencoding.yaml_squote(teststr)) def test_yaml_encode(self): for testobj in (None, True, False, '[7, 5]', '"monkey"', 5, 7.5, "2014-06-02 15:30:29.7"): self.assertEqual(testobj, yaml.safe_load(utils.yamlencoding.yaml_encode(testobj))) for testobj in ({}, [], set()): self.assertRaises(TypeError, utils.yamlencoding.yaml_encode, testobj) def test_compare_dicts(self): ret = utils.compare_dicts(old={'foo': 'bar'}, new={'foo': 'bar'}) self.assertEqual(ret, {}) ret = utils.compare_dicts(old={'foo': 'bar'}, new={'foo': 'woz'}) expected_ret = {'foo': {'new': 'woz', 'old': 'bar'}} self.assertDictEqual(ret, expected_ret) @skipIf(NO_MOCK, NO_MOCK_REASON) def test_argspec_report(self): def _test_spec(arg1, arg2, kwarg1=None): pass sys_mock = create_autospec(_test_spec) test_functions = {'test_module.test_spec': sys_mock} ret = utils.argspec_report(test_functions, 'test_module.test_spec') self.assertDictEqual(ret, {'test_module.test_spec': {'kwargs': True, 'args': None, 'defaults': None, 'varargs': True}}) def test_decode_list(self): test_data = [u'unicode_str', [u'unicode_item_in_list', 'second_item_in_list'], {'dict_key': u'dict_val'}] expected_ret = ['unicode_str', ['unicode_item_in_list', 'second_item_in_list'], {'dict_key': 'dict_val'}] ret = utils.decode_list(test_data) self.assertEqual(ret, expected_ret) def test_decode_dict(self): test_data = {u'test_unicode_key': u'test_unicode_val', 'test_list_key': ['list_1', u'unicode_list_two'], u'test_dict_key': {'test_sub_dict_key': 'test_sub_dict_val'}} expected_ret = {'test_unicode_key': 'test_unicode_val', 'test_list_key': ['list_1', 'unicode_list_two'], 'test_dict_key': {'test_sub_dict_key': 'test_sub_dict_val'}} ret = utils.decode_dict(test_data) self.assertDictEqual(ret, expected_ret) def test_find_json(self): test_sample_json = ''' { "glossary": { "title": "example glossary", "GlossDiv": { "title": "S", "GlossList": { "GlossEntry": { "ID": "SGML", "SortAs": "SGML", "GlossTerm": "Standard Generalized Markup Language", "Acronym": "SGML", "Abbrev": "ISO 8879:1986", "GlossDef": { "para": "A meta-markup language, used to create markup languages such as DocBook.", "GlossSeeAlso": ["GML", "XML"] }, "GlossSee": "markup" } } } } } ''' expected_ret = {'glossary': {'GlossDiv': {'GlossList': {'GlossEntry': { 'GlossDef': {'GlossSeeAlso': ['GML', 'XML'], 'para': 'A meta-markup language, used to create markup languages such as DocBook.'}, 'GlossSee': 'markup', 'Acronym': 'SGML', 'GlossTerm': 'Standard Generalized Markup Language', 'SortAs': 'SGML', 'Abbrev': 'ISO 8879:1986', 'ID': 'SGML'}}, 'title': 'S'}, 'title': 'example glossary'}} # First test the valid JSON ret = utils.find_json(test_sample_json) self.assertDictEqual(ret, expected_ret) # Now pre-pend some garbage and re-test garbage_prepend_json = '{0}{1}'.format(LORUM_IPSUM, test_sample_json) ret = utils.find_json(garbage_prepend_json) self.assertDictEqual(ret, expected_ret) # Test to see if a ValueError is raised if no JSON is passed in self.assertRaises(ValueError, utils.find_json, LORUM_IPSUM) def test_is_bin_str(self): self.assertFalse(utils.is_bin_str(LORUM_IPSUM)) zero_str = '{0}{1}'.format(LORUM_IPSUM, '\0') self.assertTrue(utils.is_bin_str(zero_str)) # To to ensure safe exit if str passed doesn't evaluate to True self.assertFalse(utils.is_bin_str('')) nontext = 3 * (''.join([chr(x) for x in range(1, 32) if x not in (8, 9, 10, 12, 13)])) almost_bin_str = '{0}{1}'.format(LORUM_IPSUM[:100], nontext[:42]) self.assertFalse(utils.is_bin_str(almost_bin_str)) bin_str = almost_bin_str + '\x01' self.assertTrue(utils.is_bin_str(bin_str)) def test_repack_dict(self): list_of_one_element_dicts = [{'dict_key_1': 'dict_val_1'}, {'dict_key_2': 'dict_val_2'}, {'dict_key_3': 'dict_val_3'}] expected_ret = {'dict_key_1': 'dict_val_1', 'dict_key_2': 'dict_val_2', 'dict_key_3': 'dict_val_3'} ret = utils.repack_dictlist(list_of_one_element_dicts) self.assertDictEqual(ret, expected_ret) # Try with yaml yaml_key_val_pair = '- key1: val1' ret = utils.repack_dictlist(yaml_key_val_pair) self.assertDictEqual(ret, {'key1': 'val1'}) # Make sure we handle non-yaml junk data ret = utils.repack_dictlist(LORUM_IPSUM) self.assertDictEqual(ret, {}) def test_get_colors(self): ret = utils.get_colors() self.assertEqual('\x1b[0;37m', str(ret['LIGHT_GRAY'])) ret = utils.get_colors(use=False) self.assertDictContainsSubset({'LIGHT_GRAY': ''}, ret) ret = utils.get_colors(use='LIGHT_GRAY') # LIGHT_YELLOW now == LIGHT_GRAY self.assertEqual(str(ret['LIGHT_YELLOW']), str(ret['LIGHT_GRAY'])) @skipIf(NO_MOCK, NO_MOCK_REASON) def test_daemonize_if(self): # pylint: disable=assignment-from-none with patch('sys.argv', ['salt-call']): ret = utils.daemonize_if({}) self.assertEqual(None, ret) ret = utils.daemonize_if({'multiprocessing': False}) self.assertEqual(None, ret) with patch('sys.platform', 'win'): ret = utils.daemonize_if({}) self.assertEqual(None, ret) with patch('salt.utils.daemonize'): utils.daemonize_if({}) self.assertTrue(utils.daemonize.called) # pylint: enable=assignment-from-none @skipIf(NO_MOCK, NO_MOCK_REASON) def test_which_bin(self): ret = utils.which_bin('str') self.assertIs(None, ret) test_exes = ['ls', 'echo'] with patch('salt.utils.which', return_value='/tmp/dummy_path'): ret = utils.which_bin(test_exes) self.assertEqual(ret, '/tmp/dummy_path') ret = utils.which_bin([]) self.assertIs(None, ret) with patch('salt.utils.which', return_value=''): ret = utils.which_bin(test_exes) self.assertIs(None, ret) @skipIf(NO_MOCK, NO_MOCK_REASON) def test_gen_jid(self): now = datetime.datetime(2002, 12, 25, 12, 00, 00, 00) with patch('datetime.datetime'): datetime.datetime.now.return_value = now ret = utils.jid.gen_jid() self.assertEqual(ret, '20021225120000000000') @skipIf(NO_MOCK, NO_MOCK_REASON) def test_check_or_die(self): self.assertRaises(CommandNotFoundError, utils.check_or_die, None) with patch('salt.utils.which', return_value=False): self.assertRaises(CommandNotFoundError, utils.check_or_die, 'FAKE COMMAND') @skipIf(NO_MOCK, NO_MOCK_REASON) def test_compare_versions(self): ret = utils.compare_versions('1.0', '==', '1.0') self.assertTrue(ret) ret = utils.compare_versions('1.0', '!=', '1.0') self.assertFalse(ret) with patch('salt.utils.log') as log_mock: ret = utils.compare_versions('1.0', 'HAH I AM NOT A COMP OPERATOR! I AM YOUR FATHER!', '1.0') self.assertTrue(log_mock.error.called) def test_kwargs_warn_until(self): # Test invalid version arg self.assertRaises(RuntimeError, utils.kwargs_warn_until, {}, []) def test_to_str(self): for x in (123, (1, 2, 3), [1, 2, 3], {1: 23}, None): self.assertRaises(TypeError, utils.to_str, x) if six.PY3: self.assertEqual(utils.to_str('plugh'), 'plugh') self.assertEqual(utils.to_str('áéíóúý', 'utf-8'), 'áéíóúý') un = '\u4e2d\u56fd\u8a9e (\u7e41\u4f53)' # pylint: disable=anomalous-unicode-escape-in-string ut = bytes((0xe4, 0xb8, 0xad, 0xe5, 0x9b, 0xbd, 0xe8, 0xaa, 0x9e, 0x20, 0x28, 0xe7, 0xb9, 0x81, 0xe4, 0xbd, 0x93, 0x29)) self.assertEqual(utils.to_str(ut, 'utf-8'), un) self.assertEqual(utils.to_str(bytearray(ut), 'utf-8'), un) else: self.assertEqual(utils.to_str('plugh'), 'plugh') self.assertEqual(utils.to_str(u'áéíóúý', 'utf-8'), 'áéíóúý') un = u'\u4e2d\u56fd\u8a9e (\u7e41\u4f53)' ut = '\xe4\xb8\xad\xe5\x9b\xbd\xe8\xaa\x9e (\xe7\xb9\x81\xe4\xbd\x93)' self.assertEqual(utils.to_str(un, 'utf-8'), ut) self.assertEqual(utils.to_str(bytearray(ut), 'utf-8'), ut) def test_to_bytes(self): for x in (123, (1, 2, 3), [1, 2, 3], {1: 23}, None): self.assertRaises(TypeError, utils.to_bytes, x) if six.PY3: self.assertEqual(utils.to_bytes('xyzzy'), b'xyzzy') ut = bytes((0xe4, 0xb8, 0xad, 0xe5, 0x9b, 0xbd, 0xe8, 0xaa, 0x9e, 0x20, 0x28, 0xe7, 0xb9, 0x81, 0xe4, 0xbd, 0x93, 0x29)) un = '\u4e2d\u56fd\u8a9e (\u7e41\u4f53)' # pylint: disable=anomalous-unicode-escape-in-string self.assertEqual(utils.to_bytes(ut), ut) self.assertEqual(utils.to_bytes(bytearray(ut)), ut) self.assertEqual(utils.to_bytes(un, 'utf-8'), ut) else: self.assertEqual(utils.to_bytes('xyzzy'), 'xyzzy') ut = ''.join([chr(x) for x in (0xe4, 0xb8, 0xad, 0xe5, 0x9b, 0xbd, 0xe8, 0xaa, 0x9e, 0x20, 0x28, 0xe7, 0xb9, 0x81, 0xe4, 0xbd, 0x93, 0x29)]) un = u'\u4e2d\u56fd\u8a9e (\u7e41\u4f53)' # pylint: disable=anomalous-unicode-escape-in-string self.assertEqual(utils.to_bytes(ut), ut) self.assertEqual(utils.to_bytes(bytearray(ut)), ut) self.assertEqual(utils.to_bytes(un, 'utf-8'), ut) def test_to_unicode(self): if six.PY3: self.assertEqual(utils.to_unicode('plugh'), 'plugh') self.assertEqual(utils.to_unicode('áéíóúý'), 'áéíóúý') un = '\u4e2d\u56fd\u8a9e (\u7e41\u4f53)' # pylint: disable=anomalous-unicode-escape-in-string ut = bytes((0xe4, 0xb8, 0xad, 0xe5, 0x9b, 0xbd, 0xe8, 0xaa, 0x9e, 0x20, 0x28, 0xe7, 0xb9, 0x81, 0xe4, 0xbd, 0x93, 0x29)) self.assertEqual(utils.to_unicode(ut, 'utf-8'), un) self.assertEqual(utils.to_unicode(bytearray(ut), 'utf-8'), un) else: self.assertEqual(utils.to_unicode('xyzzy', 'utf-8'), u'xyzzy') ut = '\xe4\xb8\xad\xe5\x9b\xbd\xe8\xaa\x9e (\xe7\xb9\x81\xe4\xbd\x93)' un = u'\u4e2d\u56fd\u8a9e (\u7e41\u4f53)' self.assertEqual(utils.to_unicode(ut, 'utf-8'), un) if __name__ == '__main__': from integration import run_tests run_tests(UtilsTestCase, needs_daemon=False)