# -*- coding: utf-8 -*- # This program is free software; you can redistribute it and/or modify it under # the terms of the (LGPL) GNU Lesser General Public License as published by the # Free Software Foundation; either version 3 of the License, or (at your # option) any later version. # # This program 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 Library Lesser General Public License # for more details at ( http://www.gnu.org/licenses/lgpl.html ). # # You should have received a copy of the GNU Lesser General Public License # along with this program; if not, write to the Free Software Foundation, Inc., # 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. # written by: Jurko Gospodnetić ( jurko.gospodnetic@pke.hr ) """ Suds Python library document caching unit tests. Implemented using the 'pytest' testing framework. """ import testutils if __name__ == "__main__": testutils.run_using_pytest(globals()) import suds import suds.cache import suds.sax.parser import pytest import datetime import os import os.path import sys class MyException(Exception): """Local exception class used in the tests in this module.""" pass class InvisibleMan: """Dummy class used for pickling related tests.""" def __init__(self, x): self.x = x class MockDateTime(datetime.datetime): """ MockDateTime class monkeypatched to replace datetime.datetime. Allows us to control the exact built-in datetime.datetime.now() return value. Note that Python does not allow us to monkeypatch datetime.datetime.now() directly as it is a built-in function. """ mock_counter = 0 @staticmethod def now(*args, **kwargs): MockDateTime.mock_counter += 1 return MockDateTime.mock_value class MockFile: """ Wrapper around a regular file object allowing controlled file operation failures. """ def __init__(self, opener, file, fail_read): self.__opener = opener self.__file = file self.__fail_read = fail_read def __getattr__(self, *args, **kwargs): return getattr(self.__file, *args, **kwargs) def read(self, *args, **kwargs): self.__opener.read_counter += 1 if self.__fail_read: raise MyException return self.__file.read(*args, **kwargs) class MockFileOpener: """ Mock open() function for the suds.cache module. May cause such calls to fail or to return our MockFile objects prepared so some of their functions fail in a controlled manner. """ def __init__(self, fail_open=False, fail_read=False): self.__previous = None self.__fail_open = fail_open self.__fail_read = fail_read self.counter = 0 self.read_counter = 0 def __call__(self, *args, **kwargs): self.counter += 1 if self.__fail_open: raise MyException file = self.__previous(*args, **kwargs) return MockFile(self, file, fail_read=self.__fail_read) def apply(self, monkeypatch): """Monkeypatch suds.cache module's open() global.""" try: self.__previous = suds.cache.open except AttributeError: self.__previous = open monkeypatch.setitem(suds.cache.__dict__, "open", self) def reset(self): self.counter = 0 self.read_counter = 0 class MockParse: """Mock object causing suds.sax.parser.Parser.parse() failures.""" def __init__(self): self.counter = 0 def __call__(self, *args, **kwargs): self.counter += 1 raise MyException def apply(self, monkeypatch): """Monkeypatch suds SAX Parser's parse() method.""" monkeypatch.setattr(suds.sax.parser.Parser, "parse", self) def reset(self): self.counter = 0 class MockPickleLoad: """Mock object causing suds.cache module's pickle load failures.""" def __init__(self): self.counter = 0 def __call__(self, *args, **kwargs): self.counter += 1 raise MyException def apply(self, monkeypatch): """Monkeypatch suds.cache module's pickle.load().""" monkeypatch.setattr(suds.cache.pickle, "load", self) def reset(self): self.counter = 0 # Hardcoded values used in different caching test cases. value_empty = b"" value_f2 = b"fifi2" value_f22 = b"fifi22" value_f3 = b"fifi3" value_p1 = b"pero1" value_p11 = b"pero11" value_p111 = b"pero111" value_p2 = b"pero2" value_p22 = b"pero22" value_unicode = ("\u20AC \u7684 " "\u010D\u0107\u017E\u0161\u0111" "\u010C\u0106\u017D\u0160\u0110").encode() # FileCache item expiration test data - duration, current_time, expect_remove. # Reused for different testing different FileCache derived classes. file_cache_item_expiration_test_data = ([ # Infinite cache entry durations. ({}, datetime.datetime.min, False), ({}, datetime.timedelta(days=-21), False), ({}, -datetime.datetime.resolution, False), ({}, datetime.timedelta(), False), ({}, datetime.datetime.resolution, False), ({}, datetime.timedelta(days=7), False), ({}, datetime.datetime.max, False)] + # Finite cache entry durations. [(duration, current_time, expect_remove) for duration in ( {"minutes": 7}, {"microseconds": 1}, {"microseconds": -1}, {"hours": -7}) for current_time, expect_remove in ( (datetime.datetime.min, False), (datetime.timedelta(days=-21), False), (-datetime.datetime.resolution, False), (datetime.timedelta(), False), (datetime.datetime.resolution, True), (datetime.timedelta(days=7), True), (datetime.datetime.max, True))]) @pytest.mark.parametrize(("method_name", "params"), ( ("clear", []), ("get", ["id"]), ("purge", ["id"]), ("put", ["id", "object"]))) def test_Cache_methods_abstract(monkeypatch, method_name, params): monkeypatch.delitem(locals(), "e", False) cache = suds.cache.Cache() f = getattr(cache, method_name) e = pytest.raises(Exception, f, *params).value try: assert e.__class__ is Exception assert str(e) == "not-implemented" finally: del e # explicitly break circular reference chain in Python 3 class TestDefaultFileCacheLocation: """Default FileCache cache location handling tests.""" @pytest.mark.parametrize("cache_class", ( suds.cache.DocumentCache, suds.cache.FileCache, suds.cache.ObjectCache)) def test_basic(self, tmpdir, cache_class): """ Test default FileCache folder usage. Initial DocumentCache/FileCache/ObjectCache instantiation with no explicitly specified location in a process should use tempfile.mkdtemp() and that folder should be used as its location. After a single DocumentCache/FileCache/ObjectCache instantiation with no explicitly specified location, all later DocumentCache/FileCache/ ObjectCache instantiations with no explicitly specified location in the same process should use that same location folder without additional tempfile.mkdtemp() calls. Both initial & non-initial DocumentCache/FileCache/ObjectCache instantiation with an explicitly specified location should use that folder as its default location and not make any tempfile.mkdtemp() calls. """ cache_folder_name = "my test cache-%s" % (cache_class.__name__,) cache_folder = tmpdir.join(cache_folder_name).strpath fake_cache_folder_name = "my fake cache-%s" % (cache_class.__name__,) fake_cache_folder = tmpdir.join(fake_cache_folder_name).strpath test_file = tmpdir.join("test_file.py") test_file.write("""\ import os.path import tempfile original_mkdtemp = tempfile.mkdtemp mock_mkdtemp_counter = 0 def mock_mkdtemp(*args, **kwargs): global mock_mkdtemp_counter mock_mkdtemp_counter += 1 return cache_folder tempfile.mkdtemp = mock_mkdtemp def check_cache_folder(expected_exists, expected_mkdtemp_counter, comment): if os.path.exists(cache_folder) != expected_exists: if expected_exists: message = "does not exist when expected" else: message = "exists when not expected" print("Cache folder %%s (%%s)." %% (message, comment)) sys.exit(-2) if mock_mkdtemp_counter != expected_mkdtemp_counter: if mock_mkdtemp_counter < expected_mkdtemp_counter: message = "less" else: message = "more" print("tempfile.mkdtemp() called %%s times then expected (%%s)" %% (message, comment,)) cache_folder = %(cache_folder)r fake_cache_folder = %(fake_cache_folder)r def fake_cache(n): return fake_cache_folder + str(n) from suds.cache import DocumentCache, FileCache, ObjectCache check_cache_folder(False, 0, "import") assert DocumentCache(fake_cache(1)).location == fake_cache(1) assert FileCache(fake_cache(2)).location == fake_cache(2) assert ObjectCache(fake_cache(3)).location == fake_cache(3) check_cache_folder(False, 0, "initial caches with non-default location") assert %(cache_class_name)s().location == cache_folder check_cache_folder(True, 1, "initial cache with default location") assert DocumentCache().location == cache_folder assert FileCache().location == cache_folder assert ObjectCache().location == cache_folder check_cache_folder(True, 1, "non-initial caches with default location") assert DocumentCache(fake_cache(4)).location == fake_cache(4) assert FileCache(fake_cache(5)).location == fake_cache(5) assert ObjectCache(fake_cache(6)).location == fake_cache(6) check_cache_folder(True, 1, "non-initial caches with non-default location") assert DocumentCache().location == cache_folder assert FileCache().location == cache_folder assert ObjectCache().location == cache_folder check_cache_folder(True, 1, "final caches with default location") """ % {"cache_class_name": cache_class.__name__, "cache_folder": cache_folder, "fake_cache_folder": fake_cache_folder}) assert not os.path.exists(cache_folder) testutils.run_test_process(test_file) @pytest.mark.parametrize("removal_enabled", (True, False)) def test_remove_on_exit(self, tmpdir, removal_enabled): """ Test removing the default cache folder on process exit. The folder should be removed by default on process exit, but this behaviour may be disabled by the user. """ cache_folder_name = "my test cache-%s" % (removal_enabled,) cache_folder = tmpdir.join(cache_folder_name).strpath test_file = tmpdir.join("test_file.py") test_file.write("""\ import os.path import tempfile original_mkdtemp = tempfile.mkdtemp mock_mkdtemp_counter = 0 def mock_mkdtemp(*args, **kwargs): global mock_mkdtemp_counter mock_mkdtemp_counter += 1 return cache_folder tempfile.mkdtemp = mock_mkdtemp import suds.cache if not suds.cache.FileCache.remove_default_location_on_exit: print("Default FileCache folder removal not enabled by default.") sys.exit(-2) suds.cache.FileCache.remove_default_location_on_exit = %(removal_enabled)s cache_folder = %(cache_folder)r if os.path.exists(cache_folder): print("Cache folder exists too early.") sys.exit(-2) suds.cache.FileCache() if not mock_mkdtemp_counter == 1: print("tempfile.mkdtemp() not called as expected (%%d)." %% (mock_mkdtemp_counter,)) sys.exit(-2) if not os.path.isdir(cache_folder): print("Cache folder not created when expected.") sys.exit(-2) """ % {"cache_folder": cache_folder, "removal_enabled": removal_enabled}) assert not os.path.exists(cache_folder) testutils.run_test_process(test_file) if removal_enabled: assert not os.path.exists(cache_folder) else: assert os.path.isdir(cache_folder) class TestDocumentCache: def compare_document_to_content(self, document, content): """Assert that the given XML document and content match.""" assert document.__class__ is suds.sax.document.Document elements = document.getChildren() assert len(elements) == 1 element = elements[0] assert element.__class__ is suds.sax.element.Element assert suds.byte_str(str(element)) == content @staticmethod def construct_XML(element_name="Elemento"): """ Construct XML content and a Document wrapping it. The XML contains a single Element (may be parametrized with the given element name) and possibly additional sub-elements under it. """ #TODO: Update the tests in this group to no longer depend on the exact # input XML data formatting. They currently expect it to be formatted # exactly as what gets read back from their DocumentCache. content = suds.byte_str("""\ """ % (element_name,)) xml = suds.sax.parser.Parser().parse(suds.BytesIO(content)) assert xml.__class__ is suds.sax.document.Document return content, xml def test_cache_document(self, tmpdir): cache_item_id = "unga1" cache = suds.cache.DocumentCache(tmpdir.strpath) assert isinstance(cache, suds.cache.FileCache) assert cache.get(cache_item_id) is None content, document = self.construct_XML() cache.put(cache_item_id, document) self.compare_document_to_content(cache.get(cache_item_id), content) def test_cache_element(self, tmpdir): cache_item_id = "unga1" cache = suds.cache.DocumentCache(tmpdir.strpath) assert isinstance(cache, suds.cache.FileCache) assert cache.get(cache_item_id) is None content, document = self.construct_XML() cache.put(cache_item_id, document.root()) self.compare_document_to_content(cache.get(cache_item_id), content) def test_file_open_failure(self, tmpdir, monkeypatch): """ File open failure should cause no cached object to be found, but any existing underlying cache file should be kept around. """ mock_open = MockFileOpener(fail_open=True) cache_folder = tmpdir.strpath cache = suds.cache.DocumentCache(cache_folder) content1, document1 = self.construct_XML("One") content2, document2 = self.construct_XML("Two") assert content1 != content2 cache.put("unga1", document1) mock_open.apply(monkeypatch) assert cache.get("unga1") is None monkeypatch.undo() assert mock_open.counter == 1 _assert_empty_cache_folder(cache_folder, expected=False) self.compare_document_to_content(cache.get("unga1"), content1) mock_open.apply(monkeypatch) assert cache.get("unga2") is None monkeypatch.undo() assert mock_open.counter == 2 _assert_empty_cache_folder(cache_folder, expected=False) self.compare_document_to_content(cache.get("unga1"), content1) assert cache.get("unga2") is None cache.put("unga2", document2) assert mock_open.counter == 2 mock_open.apply(monkeypatch) assert cache.get("unga1") is None monkeypatch.undo() assert mock_open.counter == 3 _assert_empty_cache_folder(cache_folder, expected=False) self.compare_document_to_content(cache.get("unga1"), content1) self.compare_document_to_content(cache.get("unga2"), content2) assert mock_open.counter == 3 @pytest.mark.parametrize(("mock", "extra_checks"), ( (MockParse(), [lambda x: True] * 4), (MockFileOpener(fail_read=True), [ lambda x: x.read_counter != 0, lambda x: x.read_counter == 0, lambda x: x.read_counter != 0, lambda x: x.read_counter == 0]))) def test_file_operation_failure(self, tmpdir, monkeypatch, mock, extra_checks): """ File operation failures such as reading failures or failing to parse data read from such a file should cause no cached object to be found and the related cache file to be removed. """ cache_folder = tmpdir.strpath cache = suds.cache.DocumentCache(cache_folder) content1, document1 = self.construct_XML("Eins") content2, document2 = self.construct_XML("Zwei") cache.put("unga1", document1) mock.apply(monkeypatch) assert cache.get("unga1") is None monkeypatch.undo() assert mock.counter == 1 assert extra_checks[0](mock) _assert_empty_cache_folder(cache_folder) mock.reset() assert cache.get("unga1") is None cache.put("unga1", document1) cache.put("unga2", document2) assert mock.counter == 0 assert extra_checks[1](mock) mock.reset() mock.apply(monkeypatch) assert cache.get("unga1") is None monkeypatch.undo() assert mock.counter == 1 assert extra_checks[2](mock) _assert_empty_cache_folder(cache_folder, expected=False) mock.reset() assert cache.get("unga1") is None self.compare_document_to_content(cache.get("unga2"), content2) assert mock.counter == 0 assert extra_checks[3](mock) @pytest.mark.parametrize(("duration", "current_time", "expect_remove"), file_cache_item_expiration_test_data) def test_item_expiration(self, tmpdir, monkeypatch, duration, current_time, expect_remove): """See TestFileCache.item_expiration_test_worker() for more info.""" cache = suds.cache.DocumentCache(tmpdir.strpath, **duration) content, document = self.construct_XML() cache.put("willy", document) TestFileCache.item_expiration_test_worker(cache, "willy", monkeypatch, current_time, expect_remove) def test_repeated_reads(self, tmpdir): cache = suds.cache.DocumentCache(tmpdir.strpath) content, document = self.construct_XML() cache.put("unga1", document) read_XML = cache.get("unga1").str() assert read_XML == cache.get("unga1").str() assert cache.get(None) is None assert cache.get("") is None assert cache.get("unga2") is None assert read_XML == cache.get("unga1").str() class TestFileCache: @staticmethod def item_expiration_test_worker(cache, id, monkeypatch, current_time, expect_remove): """ Test how a FileCache & its derived classes expire their item entries. Facts tested: * 0 duration should cause cache items never to expire. * Expired item files should be automatically removed from the cache folder. * Negative durations should be treated the same as positive ones. Requirements on the passed cache object: * Configures with the correct duration for this test. * Contains a valid cached item with the given id and its ctime timestamp + cache.duration must fall into the valid datetime.datetime value range. * Must use only public & protected FileCache interfaces to access its cache item data files. 'current_time' values are expected to be either datetime.datetime or datetime.timedelta instances with the latter interpreted relative to the test file's expected expiration time. """ assert isinstance(cache, suds.cache.FileCache) filepath = cache._FileCache__filename(id) assert os.path.isfile(filepath) file_timestamp = os.path.getctime(filepath) file_time = datetime.datetime.fromtimestamp(file_timestamp) MockDateTime.mock_counter = 0 if isinstance(current_time, datetime.timedelta): expire_time = file_time + cache.duration MockDateTime.mock_value = expire_time + current_time else: MockDateTime.mock_value = current_time monkeypatch.setattr(datetime, "datetime", MockDateTime) fp = cache._getf(id) assert (fp is None) == expect_remove if fp: fp.close() monkeypatch.undo() if cache.duration: assert MockDateTime.mock_counter == 1 else: assert MockDateTime.mock_counter == 0 assert os.path.isfile(filepath) == (not expect_remove) def test_basic_construction(self): cache = suds.cache.FileCache() assert isinstance(cache, suds.cache.Cache) assert cache.duration.__class__ is datetime.timedelta def test_cached_content_empty(self, tmpdir): cache_folder = tmpdir.strpath cache = suds.cache.FileCache(cache_folder) cache.put("unga1", value_empty) assert cache.get("unga1") == value_empty _assert_empty_cache_folder(cache_folder, expected=False) def test_cached_content_unicode(self, tmpdir): cache_folder = tmpdir.strpath cache = suds.cache.FileCache(cache_folder) cache.put("unga1", value_unicode) assert cache.get("unga1") == value_unicode _assert_empty_cache_folder(cache_folder, expected=False) def test_clear(self, tmpdir): cache_folder1 = tmpdir.join("fungus").strpath cache1 = suds.cache.FileCache(cache_folder1) cache1.put("unga1", value_p1) _assert_empty_cache_folder(cache_folder1, expected=False) cache1.put("unga2", value_p2) _assert_empty_cache_folder(cache_folder1, expected=False) assert cache1.get("unga1") == value_p1 assert cache1.get("unga2") == value_p2 _assert_empty_cache_folder(cache_folder1, expected=False) cache1.clear() _assert_empty_cache_folder(cache_folder1) assert cache1.get("unga1") is None assert cache1.get("unga2") is None _assert_empty_cache_folder(cache_folder1) cache1.put("unga1", value_p11) cache1.put("unga2", value_p2) _assert_empty_cache_folder(cache_folder1, expected=False) assert cache1.get("unga1") == value_p11 assert cache1.get("unga2") == value_p2 _assert_empty_cache_folder(cache_folder1, expected=False) cache_folder2 = tmpdir.join("broccoli").strpath cache2 = suds.cache.FileCache(cache_folder2) cache2.put("unga2", value_f2) assert cache2.get("unga2") == value_f2 assert cache1.get("unga2") == value_p2 cache2.clear() _assert_empty_cache_folder(cache_folder1, expected=False) _assert_empty_cache_folder(cache_folder2) assert cache2.get("unga2") is None assert cache1.get("unga1") == value_p11 assert cache1.get("unga2") == value_p2 cache2.put("unga2", value_p22) assert cache2.get("unga2") == value_p22 def test_close_leaves_cached_files_behind(self, tmpdir): cache_folder1 = tmpdir.join("ana").strpath cache1 = suds.cache.FileCache(cache_folder1) cache1.put("unga1", value_p1) cache1.put("unga2", value_p2) cache_folder2 = tmpdir.join("nan").strpath cache2 = suds.cache.FileCache(cache_folder2) cache2.put("unga2", value_f2) cache2.put("unga3", value_f3) del cache1 cache11 = suds.cache.FileCache(cache_folder1) assert cache11.get("unga1") == value_p1 assert cache11.get("unga2") == value_p2 assert cache2.get("unga2") == value_f2 assert cache2.get("unga3") == value_f3 def test_get_put(self, tmpdir): cache_folder1 = tmpdir.join("firefly").strpath cache1 = suds.cache.FileCache(cache_folder1) _assert_empty_cache_folder(cache_folder1) assert cache1.get("unga1") is None cache1.put("unga1", value_p1) _assert_empty_cache_folder(cache_folder1, expected=False) assert cache1.get("unga1") == value_p1 assert cache1.get("unga2") is None cache1.put("unga1", value_p11) assert cache1.get("unga1") == value_p11 assert cache1.get("unga2") is None cache1.put("unga2", value_p2) assert cache1.get("unga1") == value_p11 assert cache1.get("unga2") == value_p2 cache_folder2 = tmpdir.join("semper fi").strpath cache2 = suds.cache.FileCache(cache_folder2) _assert_empty_cache_folder(cache_folder2) assert cache2.get("unga2") is None cache2.put("unga2", value_f2) _assert_empty_cache_folder(cache_folder2, expected=False) assert cache2.get("unga2") == value_f2 assert cache2.get("unga3") is None cache2.put("unga2", value_f22) assert cache2.get("unga2") == value_f22 assert cache2.get("unga3") is None cache2.put("unga3", value_f3) assert cache2.get("unga2") == value_f22 assert cache2.get("unga3") == value_f3 _assert_empty_cache_folder(cache_folder1, expected=False) _assert_empty_cache_folder(cache_folder2, expected=False) assert cache1.get("unga1") == value_p11 assert cache1.get("unga2") == value_p2 assert cache1.get("unga3") is None assert cache2.get("unga1") is None assert cache2.get("unga2") == value_f22 assert cache2.get("unga3") == value_f3 def test_independent_item_expirations(self, tmpdir, monkeypatch): cache = suds.cache.FileCache(tmpdir.strpath, days=1) cache.put("unga1", value_p1) cache.put("unga2", value_p2) cache.put("unga3", value_f2) filepath1 = cache._FileCache__filename("unga1") filepath2 = cache._FileCache__filename("unga2") filepath3 = cache._FileCache__filename("unga3") file_timestamp1 = os.path.getctime(filepath1) file_timestamp2 = file_timestamp1 + 10 * 60 # in seconds file_timestamp3 = file_timestamp1 + 20 * 60 # in seconds file_time1 = datetime.datetime.fromtimestamp(file_timestamp1) file_time1_expiration = file_time1 + cache.duration original_getctime = os.path.getctime def mock_getctime(path): if path == filepath2: return file_timestamp2 if path == filepath3: return file_timestamp3 return original_getctime(path) timedelta = datetime.timedelta monkeypatch.setattr(os.path, "getctime", mock_getctime) monkeypatch.setattr(datetime, "datetime", MockDateTime) MockDateTime.mock_value = file_time1_expiration + timedelta(minutes=15) assert cache._getf("unga2") is None assert os.path.isfile(filepath1) assert not os.path.isfile(filepath2) assert os.path.isfile(filepath3) cache._getf("unga3").close() assert os.path.isfile(filepath1) assert not os.path.isfile(filepath2) assert os.path.isfile(filepath3) MockDateTime.mock_value = file_time1_expiration + timedelta(minutes=25) assert cache._getf("unga1") is None assert not os.path.isfile(filepath1) assert not os.path.isfile(filepath2) assert os.path.isfile(filepath3) assert cache._getf("unga3") is None assert not os.path.isfile(filepath1) assert not os.path.isfile(filepath2) assert not os.path.isfile(filepath3) @pytest.mark.parametrize(("duration", "current_time", "expect_remove"), file_cache_item_expiration_test_data) def test_item_expiration(self, tmpdir, monkeypatch, duration, current_time, expect_remove): """See TestFileCache.item_expiration_test_worker() for more info.""" cache = suds.cache.FileCache(tmpdir.strpath, **duration) cache.put("unga1", value_p1) TestFileCache.item_expiration_test_worker(cache, "unga1", monkeypatch, current_time, expect_remove) def test_non_default_location(self, tmpdir): FileCache = suds.cache.FileCache cache_folder1 = tmpdir.join("flip-flop1").strpath assert not os.path.isdir(cache_folder1) assert FileCache(location=cache_folder1).location == cache_folder1 _assert_empty_cache_folder(cache_folder1) cache_folder2 = tmpdir.join("flip-flop2").strpath assert not os.path.isdir(cache_folder2) assert FileCache(cache_folder2).location == cache_folder2 _assert_empty_cache_folder(cache_folder2) def test_purge(self, tmpdir): cache_folder1 = tmpdir.join("flamenco").strpath cache1 = suds.cache.FileCache(cache_folder1) cache1.put("unga1", value_p1) assert cache1.get("unga1") == value_p1 cache1.purge("unga1") _assert_empty_cache_folder(cache_folder1) assert cache1.get("unga1") is None cache1.put("unga1", value_p11) cache1.put("unga2", value_p2) assert cache1.get("unga1") == value_p11 assert cache1.get("unga2") == value_p2 cache1.purge("unga1") assert cache1.get("unga1") is None assert cache1.get("unga2") == value_p2 cache1.put("unga1", value_p111) cache_folder2 = tmpdir.join("shadow").strpath cache2 = suds.cache.FileCache(cache_folder2) cache2.put("unga2", value_f2) cache2.purge("unga2") _assert_empty_cache_folder(cache_folder2) assert cache1.get("unga1") == value_p111 assert cache1.get("unga2") == value_p2 assert cache2.get("unga2") is None def test_reused_cache_folder(self, tmpdir): cache_folder = tmpdir.strpath cache1 = suds.cache.FileCache(cache_folder) _assert_empty_cache_folder(cache_folder) assert cache1.get("unga1") is None cache1.put("unga1", value_p1) assert cache1.get("unga1") == value_p1 assert cache1.get("unga2") is None cache1.put("unga1", value_p11) assert cache1.get("unga1") == value_p11 assert cache1.get("unga2") is None cache1.put("unga2", value_p2) assert cache1.get("unga1") == value_p11 assert cache1.get("unga2") == value_p2 cache2 = suds.cache.FileCache(cache_folder) assert cache2.get("unga1") == value_p11 assert cache2.get("unga2") == value_p2 cache2.put("unga2", value_f2) cache2.put("unga3", value_f3) assert cache1.get("unga2") == value_f2 assert cache1.get("unga3") == value_f3 cache1.purge("unga2") assert cache2.get("unga2") is None cache1.clear() assert cache2.get("unga1") is None assert cache2.get("unga3") is None @pytest.mark.parametrize("params", ( {}, {"microseconds": 1}, {"milliseconds": 1}, {"seconds": 1}, {"minutes": 1}, {"hours": 1}, {"days": 1}, {"weeks": 1}, {"microseconds": -1}, {"milliseconds": -1}, {"seconds": -1}, {"minutes": -1}, {"hours": -1}, {"days": -1}, {"weeks": -1}, {"weeks": 1, "days": 2, "hours": 7, "minutes": 0, "seconds": -712})) def test_set_durations(self, tmpdir, params): cache = suds.cache.FileCache(tmpdir.strpath, **params) assert cache.duration == datetime.timedelta(**params) def test_version(self, tmpdir): fake_version_info = "--- fake version info ---" assert suds.__version__ != fake_version_info version_file = tmpdir.join("version") cache_folder = tmpdir.strpath cache = suds.cache.FileCache(cache_folder) assert version_file.read() == suds.__version__ cache.put("unga1", value_p1) version_file.write(fake_version_info) assert cache.get("unga1") == value_p1 cache2 = suds.cache.FileCache(cache_folder) _assert_empty_cache_folder(cache_folder) assert cache.get("unga1") is None assert cache2.get("unga1") is None assert version_file.read() == suds.__version__ cache.put("unga1", value_p11) cache.put("unga2", value_p22) version_file.remove() assert cache.get("unga1") == value_p11 assert cache.get("unga2") == value_p22 cache3 = suds.cache.FileCache(cache_folder) _assert_empty_cache_folder(cache_folder) assert cache.get("unga1") is None assert cache.get("unga2") is None assert cache2.get("unga1") is None assert cache3.get("unga1") is None assert version_file.read() == suds.__version__ def test_NoCache(monkeypatch): cache = suds.cache.NoCache() assert isinstance(cache, suds.cache.Cache) assert cache.get("id") == None cache.put("id", "something") assert cache.get("id") == None #TODO: It should not be an error to call clear() or purge() on a NoCache # instance. monkeypatch.delitem(locals(), "e", False) e = pytest.raises(Exception, cache.purge, "id").value try: assert str(e) == "not-implemented" finally: del e # explicitly break circular reference chain in Python 3 e = pytest.raises(Exception, cache.clear).value try: assert str(e) == "not-implemented" finally: del e # explicitly break circular reference chain in Python 3 class TestObjectCache: def test_basic(self, tmpdir): cache = suds.cache.ObjectCache(tmpdir.strpath) assert isinstance(cache, suds.cache.FileCache) assert cache.get("unga1") is None assert cache.get("unga2") is None cache.put("unga1", InvisibleMan(1)) cache.put("unga2", InvisibleMan(2)) read1 = cache.get("unga1") read2 = cache.get("unga2") assert read1.__class__ is InvisibleMan assert read2.__class__ is InvisibleMan assert read1.x == 1 assert read2.x == 2 def test_file_open_failure(self, tmpdir, monkeypatch): """ File open failure should cause no cached object to be found, but any existing underlying cache file should be kept around. """ mock_open = MockFileOpener(fail_open=True) cache_folder = tmpdir.strpath cache = suds.cache.ObjectCache(cache_folder) cache.put("unga1", InvisibleMan(1)) mock_open.apply(monkeypatch) assert cache.get("unga1") is None monkeypatch.undo() assert mock_open.counter == 1 _assert_empty_cache_folder(cache_folder, expected=False) assert cache.get("unga1").x == 1 mock_open.apply(monkeypatch) assert cache.get("unga2") is None monkeypatch.undo() assert mock_open.counter == 2 _assert_empty_cache_folder(cache_folder, expected=False) assert cache.get("unga1").x == 1 assert cache.get("unga2") is None cache.put("unga2", InvisibleMan(2)) assert mock_open.counter == 2 mock_open.apply(monkeypatch) assert cache.get("unga1") is None monkeypatch.undo() assert mock_open.counter == 3 _assert_empty_cache_folder(cache_folder, expected=False) assert cache.get("unga1").x == 1 assert cache.get("unga2").x == 2 assert mock_open.counter == 3 @pytest.mark.parametrize(("mock", "extra_checks"), ( (MockPickleLoad(), [lambda x: True] * 4), (MockFileOpener(fail_read=True), [ lambda x: x.read_counter != 0, lambda x: x.read_counter == 0, lambda x: x.read_counter != 0, lambda x: x.read_counter == 0]))) def test_file_operation_failure(self, tmpdir, monkeypatch, mock, extra_checks): """ Open file operation failures such as reading failures or failing to unpickle the data read from such a file should cause no cached object to be found and the related cache file to be removed. """ cache_folder = tmpdir.strpath cache = suds.cache.ObjectCache(cache_folder) cache.put("unga1", InvisibleMan(1)) mock.apply(monkeypatch) assert cache.get("unga1") is None monkeypatch.undo() assert mock.counter == 1 assert extra_checks[0](mock) _assert_empty_cache_folder(cache_folder) mock.reset() assert cache.get("unga1") is None cache.put("unga1", InvisibleMan(1)) cache.put("unga2", InvisibleMan(2)) assert mock.counter == 0 assert extra_checks[1](mock) mock.reset() mock.apply(monkeypatch) assert cache.get("unga1") is None monkeypatch.undo() assert mock.counter == 1 assert extra_checks[2](mock) _assert_empty_cache_folder(cache_folder, expected=False) mock.reset() assert cache.get("unga1") is None assert cache.get("unga2").x == 2 assert mock.counter == 0 assert extra_checks[3](mock) @pytest.mark.parametrize(("duration", "current_time", "expect_remove"), file_cache_item_expiration_test_data) def test_item_expiration(self, tmpdir, monkeypatch, duration, current_time, expect_remove): """See TestFileCache.item_expiration_test_worker() for more info.""" cache = suds.cache.ObjectCache(tmpdir.strpath, **duration) cache.put("silly", InvisibleMan(666)) TestFileCache.item_expiration_test_worker(cache, "silly", monkeypatch, current_time, expect_remove) def _assert_empty_cache_folder(folder, expected=True): """Test utility asserting that a cache folder is or is not empty.""" if not _is_assert_enabled(): return assert os.path.isdir(folder) def walk_error(error): pytest.fail("Error walking through cache folder content.") root, folders, files = next(os.walk(folder, onerror=walk_error)) assert root == folder empty = len(folders) == 0 and len(files) == 1 and files[0] == 'version' if expected: assert len(folders) == 0 assert len(files) == 1 assert files[0] == 'version' assert empty, "bad test code" else: assert not empty, "unexpected empty cache folder" def _is_assert_enabled(): """Return whether Python assertions have been enabled in this module.""" try: assert False except AssertionError: return True return False