import difflib import json import posixpath import sys import threading import unittest from collections import Counter from contextlib import contextmanager from copy import copy from functools import wraps from unittest.util import safe_repr from urllib.parse import unquote, urljoin, urlparse, urlsplit from urllib.request import url2pathname from django.apps import apps from django.conf import settings from django.core import mail from django.core.exceptions import ValidationError from django.core.files import locks from django.core.handlers.wsgi import WSGIHandler, get_path_info from django.core.management import call_command from django.core.management.color import no_style from django.core.management.sql import emit_post_migrate_signal from django.core.servers.basehttp import ThreadedWSGIServer, WSGIRequestHandler from django.db import DEFAULT_DB_ALIAS, connection, connections, transaction from django.forms.fields import CharField from django.http import QueryDict from django.http.request import split_domain_port, validate_host from django.test.client import Client from django.test.html import HTMLParseError, parse_html from django.test.signals import setting_changed, template_rendered from django.test.utils import ( CaptureQueriesContext, ContextList, compare_xml, modify_settings, override_settings, ) from django.utils.decorators import classproperty from django.views.static import serve __all__ = ('TestCase', 'TransactionTestCase', 'SimpleTestCase', 'skipIfDBFeature', 'skipUnlessDBFeature') def to_list(value): """ Put value into a list if it's not already one. Return an empty list if value is None. """ if value is None: value = [] elif not isinstance(value, list): value = [value] return value def assert_and_parse_html(self, html, user_msg, msg): try: dom = parse_html(html) except HTMLParseError as e: standardMsg = '%s\n%s' % (msg, e) self.fail(self._formatMessage(user_msg, standardMsg)) return dom class _AssertNumQueriesContext(CaptureQueriesContext): def __init__(self, test_case, num, connection): self.test_case = test_case self.num = num super().__init__(connection) def __exit__(self, exc_type, exc_value, traceback): super().__exit__(exc_type, exc_value, traceback) if exc_type is not None: return executed = len(self) self.test_case.assertEqual( executed, self.num, "%d queries executed, %d expected\nCaptured queries were:\n%s" % ( executed, self.num, '\n'.join( '%d. %s' % (i, query['sql']) for i, query in enumerate(self.captured_queries, start=1) ) ) ) class _AssertTemplateUsedContext: def __init__(self, test_case, template_name): self.test_case = test_case self.template_name = template_name self.rendered_templates = [] self.rendered_template_names = [] self.context = ContextList() def on_template_render(self, sender, signal, template, context, **kwargs): self.rendered_templates.append(template) self.rendered_template_names.append(template.name) self.context.append(copy(context)) def test(self): return self.template_name in self.rendered_template_names def message(self): return '%s was not rendered.' % self.template_name def __enter__(self): template_rendered.connect(self.on_template_render) return self def __exit__(self, exc_type, exc_value, traceback): template_rendered.disconnect(self.on_template_render) if exc_type is not None: return if not self.test(): message = self.message() if self.rendered_templates: message += ' Following templates were rendered: %s' % ( ', '.join(self.rendered_template_names) ) else: message += ' No template was rendered.' self.test_case.fail(message) class _AssertTemplateNotUsedContext(_AssertTemplateUsedContext): def test(self): return self.template_name not in self.rendered_template_names def message(self): return '%s was rendered.' % self.template_name class _CursorFailure: def __init__(self, cls_name, wrapped): self.cls_name = cls_name self.wrapped = wrapped def __call__(self): raise AssertionError( "Database queries aren't allowed in SimpleTestCase. " "Either use TestCase or TransactionTestCase to ensure proper test isolation or " "set %s.allow_database_queries to True to silence this failure." % self.cls_name ) class SimpleTestCase(unittest.TestCase): # The class we'll use for the test client self.client. # Can be overridden in derived classes. client_class = Client _overridden_settings = None _modified_settings = None # Tests shouldn't be allowed to query the database since # this base class doesn't enforce any isolation. allow_database_queries = False @classmethod def setUpClass(cls): super().setUpClass() if cls._overridden_settings: cls._cls_overridden_context = override_settings(**cls._overridden_settings) cls._cls_overridden_context.enable() if cls._modified_settings: cls._cls_modified_context = modify_settings(cls._modified_settings) cls._cls_modified_context.enable() if not cls.allow_database_queries: for alias in connections: connection = connections[alias] connection.cursor = _CursorFailure(cls.__name__, connection.cursor) connection.chunked_cursor = _CursorFailure(cls.__name__, connection.chunked_cursor) @classmethod def tearDownClass(cls): if not cls.allow_database_queries: for alias in connections: connection = connections[alias] connection.cursor = connection.cursor.wrapped connection.chunked_cursor = connection.chunked_cursor.wrapped if hasattr(cls, '_cls_modified_context'): cls._cls_modified_context.disable() delattr(cls, '_cls_modified_context') if hasattr(cls, '_cls_overridden_context'): cls._cls_overridden_context.disable() delattr(cls, '_cls_overridden_context') super().tearDownClass() def __call__(self, result=None): """ Wrapper around default __call__ method to perform common Django test set up. This means that user-defined Test Cases aren't required to include a call to super().setUp(). """ testMethod = getattr(self, self._testMethodName) skipped = ( getattr(self.__class__, "__unittest_skip__", False) or getattr(testMethod, "__unittest_skip__", False) ) if not skipped: try: self._pre_setup() except Exception: result.addError(self, sys.exc_info()) return super().__call__(result) if not skipped: try: self._post_teardown() except Exception: result.addError(self, sys.exc_info()) return def _pre_setup(self): """ Perform pre-test setup: * Create a test client. * Clear the mail test outbox. """ self.client = self.client_class() mail.outbox = [] def _post_teardown(self): """Perform post-test things.""" pass def settings(self, **kwargs): """ A context manager that temporarily sets a setting and reverts to the original value when exiting the context. """ return override_settings(**kwargs) def modify_settings(self, **kwargs): """ A context manager that temporarily applies changes a list setting and reverts back to the original value when exiting the context. """ return modify_settings(**kwargs) def assertRedirects(self, response, expected_url, status_code=302, target_status_code=200, msg_prefix='', fetch_redirect_response=True): """ Assert that a response redirected to a specific URL and that the redirect URL can be loaded. Won't work for external links since it uses the test client to do a request (use fetch_redirect_response=False to check such links without fetching them). """ if msg_prefix: msg_prefix += ": " if hasattr(response, 'redirect_chain'): # The request was a followed redirect self.assertTrue( response.redirect_chain, msg_prefix + "Response didn't redirect as expected: Response code was %d (expected %d)" % (response.status_code, status_code) ) self.assertEqual( response.redirect_chain[0][1], status_code, msg_prefix + "Initial response didn't redirect as expected: Response code was %d (expected %d)" % (response.redirect_chain[0][1], status_code) ) url, status_code = response.redirect_chain[-1] scheme, netloc, path, query, fragment = urlsplit(url) self.assertEqual( response.status_code, target_status_code, msg_prefix + "Response didn't redirect as expected: Final Response code was %d (expected %d)" % (response.status_code, target_status_code) ) else: # Not a followed redirect self.assertEqual( response.status_code, status_code, msg_prefix + "Response didn't redirect as expected: Response code was %d (expected %d)" % (response.status_code, status_code) ) url = response.url scheme, netloc, path, query, fragment = urlsplit(url) # Prepend the request path to handle relative path redirects. if not path.startswith('/'): url = urljoin(response.request['PATH_INFO'], url) path = urljoin(response.request['PATH_INFO'], path) if fetch_redirect_response: # netloc might be empty, or in cases where Django tests the # HTTP scheme, the convention is for netloc to be 'testserver'. # Trust both as "internal" URLs here. domain, port = split_domain_port(netloc) if domain and not validate_host(domain, settings.ALLOWED_HOSTS): raise ValueError( "The test client is unable to fetch remote URLs (got %s). " "If the host is served by Django, add '%s' to ALLOWED_HOSTS. " "Otherwise, use assertRedirects(..., fetch_redirect_response=False)." % (url, domain) ) redirect_response = response.client.get(path, QueryDict(query), secure=(scheme == 'https')) # Get the redirection page, using the same client that was used # to obtain the original response. self.assertEqual( redirect_response.status_code, target_status_code, msg_prefix + "Couldn't retrieve redirection page '%s': response code was %d (expected %d)" % (path, redirect_response.status_code, target_status_code) ) self.assertEqual( url, expected_url, msg_prefix + "Response redirected to '%s', expected '%s'" % (url, expected_url) ) def _assert_contains(self, response, text, status_code, msg_prefix, html): # If the response supports deferred rendering and hasn't been rendered # yet, then ensure that it does get rendered before proceeding further. if hasattr(response, 'render') and callable(response.render) and not response.is_rendered: response.render() if msg_prefix: msg_prefix += ": " self.assertEqual( response.status_code, status_code, msg_prefix + "Couldn't retrieve content: Response code was %d" " (expected %d)" % (response.status_code, status_code) ) if response.streaming: content = b''.join(response.streaming_content) else: content = response.content if not isinstance(text, bytes) or html: text = str(text) content = content.decode(response.charset) text_repr = "'%s'" % text else: text_repr = repr(text) if html: content = assert_and_parse_html(self, content, None, "Response's content is not valid HTML:") text = assert_and_parse_html(self, text, None, "Second argument is not valid HTML:") real_count = content.count(text) return (text_repr, real_count, msg_prefix) def assertContains(self, response, text, count=None, status_code=200, msg_prefix='', html=False): """ Assert that a response indicates that some content was retrieved successfully, (i.e., the HTTP status code was as expected) and that ``text`` occurs ``count`` times in the content of the response. If ``count`` is None, the count doesn't matter - the assertion is true if the text occurs at least once in the response. """ text_repr, real_count, msg_prefix = self._assert_contains( response, text, status_code, msg_prefix, html) if count is not None: self.assertEqual( real_count, count, msg_prefix + "Found %d instances of %s in response (expected %d)" % (real_count, text_repr, count) ) else: self.assertTrue(real_count != 0, msg_prefix + "Couldn't find %s in response" % text_repr) def assertNotContains(self, response, text, status_code=200, msg_prefix='', html=False): """ Assert that a response indicates that some content was retrieved successfully, (i.e., the HTTP status code was as expected) and that ``text`` doesn't occurs in the content of the response. """ text_repr, real_count, msg_prefix = self._assert_contains( response, text, status_code, msg_prefix, html) self.assertEqual(real_count, 0, msg_prefix + "Response should not contain %s" % text_repr) def assertFormError(self, response, form, field, errors, msg_prefix=''): """ Assert that a form used to render the response has a specific field error. """ if msg_prefix: msg_prefix += ": " # Put context(s) into a list to simplify processing. contexts = to_list(response.context) if not contexts: self.fail(msg_prefix + "Response did not use any contexts to render the response") # Put error(s) into a list to simplify processing. errors = to_list(errors) # Search all contexts for the error. found_form = False for i, context in enumerate(contexts): if form not in context: continue found_form = True for err in errors: if field: if field in context[form].errors: field_errors = context[form].errors[field] self.assertTrue( err in field_errors, msg_prefix + "The field '%s' on form '%s' in" " context %d does not contain the error '%s'" " (actual errors: %s)" % (field, form, i, err, repr(field_errors)) ) elif field in context[form].fields: self.fail( msg_prefix + "The field '%s' on form '%s' in context %d contains no errors" % (field, form, i) ) else: self.fail( msg_prefix + "The form '%s' in context %d does not contain the field '%s'" % (form, i, field) ) else: non_field_errors = context[form].non_field_errors() self.assertTrue( err in non_field_errors, msg_prefix + "The form '%s' in context %d does not" " contain the non-field error '%s'" " (actual errors: %s)" % (form, i, err, non_field_errors or 'none') ) if not found_form: self.fail(msg_prefix + "The form '%s' was not used to render the response" % form) def assertFormsetError(self, response, formset, form_index, field, errors, msg_prefix=''): """ Assert that a formset used to render the response has a specific error. For field errors, specify the ``form_index`` and the ``field``. For non-field errors, specify the ``form_index`` and the ``field`` as None. For non-form errors, specify ``form_index`` as None and the ``field`` as None. """ # Add punctuation to msg_prefix if msg_prefix: msg_prefix += ": " # Put context(s) into a list to simplify processing. contexts = to_list(response.context) if not contexts: self.fail(msg_prefix + 'Response did not use any contexts to ' 'render the response') # Put error(s) into a list to simplify processing. errors = to_list(errors) # Search all contexts for the error. found_formset = False for i, context in enumerate(contexts): if formset not in context: continue found_formset = True for err in errors: if field is not None: if field in context[formset].forms[form_index].errors: field_errors = context[formset].forms[form_index].errors[field] self.assertTrue( err in field_errors, msg_prefix + "The field '%s' on formset '%s', " "form %d in context %d does not contain the " "error '%s' (actual errors: %s)" % (field, formset, form_index, i, err, repr(field_errors)) ) elif field in context[formset].forms[form_index].fields: self.fail( msg_prefix + "The field '%s' on formset '%s', form %d in context %d contains no errors" % (field, formset, form_index, i) ) else: self.fail( msg_prefix + "The formset '%s', form %d in context %d does not contain the field '%s'" % (formset, form_index, i, field) ) elif form_index is not None: non_field_errors = context[formset].forms[form_index].non_field_errors() self.assertFalse( not non_field_errors, msg_prefix + "The formset '%s', form %d in context %d " "does not contain any non-field errors." % (formset, form_index, i) ) self.assertTrue( err in non_field_errors, msg_prefix + "The formset '%s', form %d in context %d " "does not contain the non-field error '%s' (actual errors: %s)" % (formset, form_index, i, err, repr(non_field_errors)) ) else: non_form_errors = context[formset].non_form_errors() self.assertFalse( not non_form_errors, msg_prefix + "The formset '%s' in context %d does not " "contain any non-form errors." % (formset, i) ) self.assertTrue( err in non_form_errors, msg_prefix + "The formset '%s' in context %d does not " "contain the non-form error '%s' (actual errors: %s)" % (formset, i, err, repr(non_form_errors)) ) if not found_formset: self.fail(msg_prefix + "The formset '%s' was not used to render the response" % formset) def _assert_template_used(self, response, template_name, msg_prefix): if response is None and template_name is None: raise TypeError('response and/or template_name argument must be provided') if msg_prefix: msg_prefix += ": " if template_name is not None and response is not None and not hasattr(response, 'templates'): raise ValueError( "assertTemplateUsed() and assertTemplateNotUsed() are only " "usable on responses fetched using the Django test Client." ) if not hasattr(response, 'templates') or (response is None and template_name): if response: template_name = response response = None # use this template with context manager return template_name, None, msg_prefix template_names = [t.name for t in response.templates if t.name is not None] return None, template_names, msg_prefix def assertTemplateUsed(self, response=None, template_name=None, msg_prefix='', count=None): """ Assert that the template with the provided name was used in rendering the response. Also usable as context manager. """ context_mgr_template, template_names, msg_prefix = self._assert_template_used( response, template_name, msg_prefix) if context_mgr_template: # Use assertTemplateUsed as context manager. return _AssertTemplateUsedContext(self, context_mgr_template) if not template_names: self.fail(msg_prefix + "No templates used to render the response") self.assertTrue( template_name in template_names, msg_prefix + "Template '%s' was not a template used to render" " the response. Actual template(s) used: %s" % (template_name, ', '.join(template_names)) ) if count is not None: self.assertEqual( template_names.count(template_name), count, msg_prefix + "Template '%s' was expected to be rendered %d " "time(s) but was actually rendered %d time(s)." % (template_name, count, template_names.count(template_name)) ) def assertTemplateNotUsed(self, response=None, template_name=None, msg_prefix=''): """ Assert that the template with the provided name was NOT used in rendering the response. Also usable as context manager. """ context_mgr_template, template_names, msg_prefix = self._assert_template_used( response, template_name, msg_prefix ) if context_mgr_template: # Use assertTemplateNotUsed as context manager. return _AssertTemplateNotUsedContext(self, context_mgr_template) self.assertFalse( template_name in template_names, msg_prefix + "Template '%s' was used unexpectedly in rendering the response" % template_name ) @contextmanager def _assert_raises_or_warns_cm(self, func, cm_attr, expected_exception, expected_message): with func(expected_exception) as cm: yield cm self.assertIn(expected_message, str(getattr(cm, cm_attr))) def _assertFooMessage(self, func, cm_attr, expected_exception, expected_message, *args, **kwargs): callable_obj = None if args: callable_obj = args[0] args = args[1:] cm = self._assert_raises_or_warns_cm(func, cm_attr, expected_exception, expected_message) # Assertion used in context manager fashion. if callable_obj is None: return cm # Assertion was passed a callable. with cm: callable_obj(*args, **kwargs) def assertRaisesMessage(self, expected_exception, expected_message, *args, **kwargs): """ Assert that expected_message is found in the message of a raised exception. Args: expected_exception: Exception class expected to be raised. expected_message: expected error message string value. args: Function to be called and extra positional args. kwargs: Extra kwargs. """ return self._assertFooMessage( self.assertRaises, 'exception', expected_exception, expected_message, *args, **kwargs ) def assertWarnsMessage(self, expected_warning, expected_message, *args, **kwargs): """ Same as assertRaisesMessage but for assertWarns() instead of assertRaises(). """ return self._assertFooMessage( self.assertWarns, 'warning', expected_warning, expected_message, *args, **kwargs ) def assertFieldOutput(self, fieldclass, valid, invalid, field_args=None, field_kwargs=None, empty_value=''): """ Assert that a form field behaves correctly with various inputs. Args: fieldclass: the class of the field to be tested. valid: a dictionary mapping valid inputs to their expected cleaned values. invalid: a dictionary mapping invalid inputs to one or more raised error messages. field_args: the args passed to instantiate the field field_kwargs: the kwargs passed to instantiate the field empty_value: the expected clean output for inputs in empty_values """ if field_args is None: field_args = [] if field_kwargs is None: field_kwargs = {} required = fieldclass(*field_args, **field_kwargs) optional = fieldclass(*field_args, **{**field_kwargs, 'required': False}) # test valid inputs for input, output in valid.items(): self.assertEqual(required.clean(input), output) self.assertEqual(optional.clean(input), output) # test invalid inputs for input, errors in invalid.items(): with self.assertRaises(ValidationError) as context_manager: required.clean(input) self.assertEqual(context_manager.exception.messages, errors) with self.assertRaises(ValidationError) as context_manager: optional.clean(input) self.assertEqual(context_manager.exception.messages, errors) # test required inputs error_required = [required.error_messages['required']] for e in required.empty_values: with self.assertRaises(ValidationError) as context_manager: required.clean(e) self.assertEqual(context_manager.exception.messages, error_required) self.assertEqual(optional.clean(e), empty_value) # test that max_length and min_length are always accepted if issubclass(fieldclass, CharField): field_kwargs.update({'min_length': 2, 'max_length': 20}) self.assertIsInstance(fieldclass(*field_args, **field_kwargs), fieldclass) def assertHTMLEqual(self, html1, html2, msg=None): """ Assert that two HTML snippets are semantically the same. Whitespace in most cases is ignored, and attribute ordering is not significant. The arguments must be valid HTML. """ dom1 = assert_and_parse_html(self, html1, msg, 'First argument is not valid HTML:') dom2 = assert_and_parse_html(self, html2, msg, 'Second argument is not valid HTML:') if dom1 != dom2: standardMsg = '%s != %s' % ( safe_repr(dom1, True), safe_repr(dom2, True)) diff = ('\n' + '\n'.join(difflib.ndiff( str(dom1).splitlines(), str(dom2).splitlines(), ))) standardMsg = self._truncateMessage(standardMsg, diff) self.fail(self._formatMessage(msg, standardMsg)) def assertHTMLNotEqual(self, html1, html2, msg=None): """Assert that two HTML snippets are not semantically equivalent.""" dom1 = assert_and_parse_html(self, html1, msg, 'First argument is not valid HTML:') dom2 = assert_and_parse_html(self, html2, msg, 'Second argument is not valid HTML:') if dom1 == dom2: standardMsg = '%s == %s' % ( safe_repr(dom1, True), safe_repr(dom2, True)) self.fail(self._formatMessage(msg, standardMsg)) def assertInHTML(self, needle, haystack, count=None, msg_prefix=''): needle = assert_and_parse_html(self, needle, None, 'First argument is not valid HTML:') haystack = assert_and_parse_html(self, haystack, None, 'Second argument is not valid HTML:') real_count = haystack.count(needle) if count is not None: self.assertEqual( real_count, count, msg_prefix + "Found %d instances of '%s' in response (expected %d)" % (real_count, needle, count) ) else: self.assertTrue(real_count != 0, msg_prefix + "Couldn't find '%s' in response" % needle) def assertJSONEqual(self, raw, expected_data, msg=None): """ Assert that the JSON fragments raw and expected_data are equal. Usual JSON non-significant whitespace rules apply as the heavyweight is delegated to the json library. """ try: data = json.loads(raw) except json.JSONDecodeError: self.fail("First argument is not valid JSON: %r" % raw) if isinstance(expected_data, str): try: expected_data = json.loads(expected_data) except ValueError: self.fail("Second argument is not valid JSON: %r" % expected_data) self.assertEqual(data, expected_data, msg=msg) def assertJSONNotEqual(self, raw, expected_data, msg=None): """ Assert that the JSON fragments raw and expected_data are not equal. Usual JSON non-significant whitespace rules apply as the heavyweight is delegated to the json library. """ try: data = json.loads(raw) except json.JSONDecodeError: self.fail("First argument is not valid JSON: %r" % raw) if isinstance(expected_data, str): try: expected_data = json.loads(expected_data) except json.JSONDecodeError: self.fail("Second argument is not valid JSON: %r" % expected_data) self.assertNotEqual(data, expected_data, msg=msg) def assertXMLEqual(self, xml1, xml2, msg=None): """ Assert that two XML snippets are semantically the same. Whitespace in most cases is ignored and attribute ordering is not significant. The arguments must be valid XML. """ try: result = compare_xml(xml1, xml2) except Exception as e: standardMsg = 'First or second argument is not valid XML\n%s' % e self.fail(self._formatMessage(msg, standardMsg)) else: if not result: standardMsg = '%s != %s' % (safe_repr(xml1, True), safe_repr(xml2, True)) diff = ('\n' + '\n'.join( difflib.ndiff(xml1.splitlines(), xml2.splitlines()) )) standardMsg = self._truncateMessage(standardMsg, diff) self.fail(self._formatMessage(msg, standardMsg)) def assertXMLNotEqual(self, xml1, xml2, msg=None): """ Assert that two XML snippets are not semantically equivalent. Whitespace in most cases is ignored and attribute ordering is not significant. The arguments must be valid XML. """ try: result = compare_xml(xml1, xml2) except Exception as e: standardMsg = 'First or second argument is not valid XML\n%s' % e self.fail(self._formatMessage(msg, standardMsg)) else: if result: standardMsg = '%s == %s' % (safe_repr(xml1, True), safe_repr(xml2, True)) self.fail(self._formatMessage(msg, standardMsg)) class TransactionTestCase(SimpleTestCase): # Subclasses can ask for resetting of auto increment sequence before each # test case reset_sequences = False # Subclasses can enable only a subset of apps for faster tests available_apps = None # Subclasses can define fixtures which will be automatically installed. fixtures = None # Do the tests in this class query non-default databases? multi_db = False # If transactions aren't available, Django will serialize the database # contents into a fixture during setup and flush and reload them # during teardown (as flush does not restore data from migrations). # This can be slow; this flag allows enabling on a per-case basis. serialized_rollback = False # Since tests will be wrapped in a transaction, or serialized if they # are not available, we allow queries to be run. allow_database_queries = True def _pre_setup(self): """ Perform pre-test setup: * If the class has an 'available_apps' attribute, restrict the app registry to these applications, then fire the post_migrate signal -- it must run with the correct set of applications for the test case. * If the class has a 'fixtures' attribute, install those fixtures. """ super()._pre_setup() if self.available_apps is not None: apps.set_available_apps(self.available_apps) setting_changed.send( sender=settings._wrapped.__class__, setting='INSTALLED_APPS', value=self.available_apps, enter=True, ) for db_name in self._databases_names(include_mirrors=False): emit_post_migrate_signal(verbosity=0, interactive=False, db=db_name) try: self._fixture_setup() except Exception: if self.available_apps is not None: apps.unset_available_apps() setting_changed.send( sender=settings._wrapped.__class__, setting='INSTALLED_APPS', value=settings.INSTALLED_APPS, enter=False, ) raise # Clear the queries_log so that it's less likely to overflow (a single # test probably won't execute 9K queries). If queries_log overflows, # then assertNumQueries() doesn't work. for db_name in self._databases_names(include_mirrors=False): connections[db_name].queries_log.clear() @classmethod def _databases_names(cls, include_mirrors=True): # If the test case has a multi_db=True flag, act on all databases, # including mirrors or not. Otherwise, just on the default DB. if cls.multi_db: return [ alias for alias in connections if include_mirrors or not connections[alias].settings_dict['TEST']['MIRROR'] ] else: return [DEFAULT_DB_ALIAS] def _reset_sequences(self, db_name): conn = connections[db_name] if conn.features.supports_sequence_reset: sql_list = conn.ops.sequence_reset_by_name_sql( no_style(), conn.introspection.sequence_list()) if sql_list: with transaction.atomic(using=db_name): with conn.cursor() as cursor: for sql in sql_list: cursor.execute(sql) def _fixture_setup(self): for db_name in self._databases_names(include_mirrors=False): # Reset sequences if self.reset_sequences: self._reset_sequences(db_name) # If we need to provide replica initial data from migrated apps, # then do so. if self.serialized_rollback and hasattr(connections[db_name], "_test_serialized_contents"): if self.available_apps is not None: apps.unset_available_apps() connections[db_name].creation.deserialize_db_from_string( connections[db_name]._test_serialized_contents ) if self.available_apps is not None: apps.set_available_apps(self.available_apps) if self.fixtures: # We have to use this slightly awkward syntax due to the fact # that we're using *args and **kwargs together. call_command('loaddata', *self.fixtures, **{'verbosity': 0, 'database': db_name}) def _should_reload_connections(self): return True def _post_teardown(self): """ Perform post-test things: * Flush the contents of the database to leave a clean slate. If the class has an 'available_apps' attribute, don't fire post_migrate. * Force-close the connection so the next test gets a clean cursor. """ try: self._fixture_teardown() super()._post_teardown() if self._should_reload_connections(): # Some DB cursors include SQL statements as part of cursor # creation. If you have a test that does a rollback, the effect # of these statements is lost, which can affect the operation of # tests (e.g., losing a timezone setting causing objects to be # created with the wrong time). To make sure this doesn't # happen, get a clean connection at the start of every test. for conn in connections.all(): conn.close() finally: if self.available_apps is not None: apps.unset_available_apps() setting_changed.send(sender=settings._wrapped.__class__, setting='INSTALLED_APPS', value=settings.INSTALLED_APPS, enter=False) def _fixture_teardown(self): # Allow TRUNCATE ... CASCADE and don't emit the post_migrate signal # when flushing only a subset of the apps for db_name in self._databases_names(include_mirrors=False): # Flush the database inhibit_post_migrate = ( self.available_apps is not None or ( # Inhibit the post_migrate signal when using serialized # rollback to avoid trying to recreate the serialized data. self.serialized_rollback and hasattr(connections[db_name], '_test_serialized_contents') ) ) call_command('flush', verbosity=0, interactive=False, database=db_name, reset_sequences=False, allow_cascade=self.available_apps is not None, inhibit_post_migrate=inhibit_post_migrate) def assertQuerysetEqual(self, qs, values, transform=repr, ordered=True, msg=None): items = map(transform, qs) if not ordered: return self.assertEqual(Counter(items), Counter(values), msg=msg) values = list(values) # For example qs.iterator() could be passed as qs, but it does not # have 'ordered' attribute. if len(values) > 1 and hasattr(qs, 'ordered') and not qs.ordered: raise ValueError("Trying to compare non-ordered queryset " "against more than one ordered values") return self.assertEqual(list(items), values, msg=msg) def assertNumQueries(self, num, func=None, *args, using=DEFAULT_DB_ALIAS, **kwargs): conn = connections[using] context = _AssertNumQueriesContext(self, num, conn) if func is None: return context with context: func(*args, **kwargs) def connections_support_transactions(): """Return True if all connections support transactions.""" return all(conn.features.supports_transactions for conn in connections.all()) class TestCase(TransactionTestCase): """ Similar to TransactionTestCase, but use `transaction.atomic()` to achieve test isolation. In most situations, TestCase should be preferred to TransactionTestCase as it allows faster execution. However, there are some situations where using TransactionTestCase might be necessary (e.g. testing some transactional behavior). On database backends with no transaction support, TestCase behaves as TransactionTestCase. """ @classmethod def _enter_atomics(cls): """Open atomic blocks for multiple databases.""" atomics = {} for db_name in cls._databases_names(): atomics[db_name] = transaction.atomic(using=db_name) atomics[db_name].__enter__() return atomics @classmethod def _rollback_atomics(cls, atomics): """Rollback atomic blocks opened by the previous method.""" for db_name in reversed(cls._databases_names()): transaction.set_rollback(True, using=db_name) atomics[db_name].__exit__(None, None, None) @classmethod def setUpClass(cls): super().setUpClass() if not connections_support_transactions(): return cls.cls_atomics = cls._enter_atomics() if cls.fixtures: for db_name in cls._databases_names(include_mirrors=False): try: call_command('loaddata', *cls.fixtures, **{'verbosity': 0, 'database': db_name}) except Exception: cls._rollback_atomics(cls.cls_atomics) raise try: cls.setUpTestData() except Exception: cls._rollback_atomics(cls.cls_atomics) raise @classmethod def tearDownClass(cls): if connections_support_transactions(): cls._rollback_atomics(cls.cls_atomics) for conn in connections.all(): conn.close() super().tearDownClass() @classmethod def setUpTestData(cls): """Load initial data for the TestCase.""" pass def _should_reload_connections(self): if connections_support_transactions(): return False return super()._should_reload_connections() def _fixture_setup(self): if not connections_support_transactions(): # If the backend does not support transactions, we should reload # class data before each test self.setUpTestData() return super()._fixture_setup() assert not self.reset_sequences, 'reset_sequences cannot be used on TestCase instances' self.atomics = self._enter_atomics() def _fixture_teardown(self): if not connections_support_transactions(): return super()._fixture_teardown() try: for db_name in reversed(self._databases_names()): if self._should_check_constraints(connections[db_name]): connections[db_name].check_constraints() finally: self._rollback_atomics(self.atomics) def _should_check_constraints(self, connection): return ( connection.features.can_defer_constraint_checks and not connection.needs_rollback and connection.is_usable() ) class CheckCondition: """Descriptor class for deferred condition checking.""" def __init__(self, *conditions): self.conditions = conditions def add_condition(self, condition, reason): return self.__class__(*self.conditions, (condition, reason)) def __get__(self, instance, cls=None): # Trigger access for all bases. if any(getattr(base, '__unittest_skip__', False) for base in cls.__bases__): return True for condition, reason in self.conditions: if condition(): # Override this descriptor's value and set the skip reason. cls.__unittest_skip__ = True cls.__unittest_skip_why__ = reason return True return False def _deferredSkip(condition, reason): def decorator(test_func): if not (isinstance(test_func, type) and issubclass(test_func, unittest.TestCase)): @wraps(test_func) def skip_wrapper(*args, **kwargs): if condition(): raise unittest.SkipTest(reason) return test_func(*args, **kwargs) test_item = skip_wrapper else: # Assume a class is decorated test_item = test_func # Retrieve the possibly existing value from the class's dict to # avoid triggering the descriptor. skip = test_func.__dict__.get('__unittest_skip__') if isinstance(skip, CheckCondition): test_item.__unittest_skip__ = skip.add_condition(condition, reason) elif skip is not True: test_item.__unittest_skip__ = CheckCondition((condition, reason)) return test_item return decorator def skipIfDBFeature(*features): """Skip a test if a database has at least one of the named features.""" return _deferredSkip( lambda: any(getattr(connection.features, feature, False) for feature in features), "Database has feature(s) %s" % ", ".join(features) ) def skipUnlessDBFeature(*features): """Skip a test unless a database has all the named features.""" return _deferredSkip( lambda: not all(getattr(connection.features, feature, False) for feature in features), "Database doesn't support feature(s): %s" % ", ".join(features) ) def skipUnlessAnyDBFeature(*features): """Skip a test unless a database has any of the named features.""" return _deferredSkip( lambda: not any(getattr(connection.features, feature, False) for feature in features), "Database doesn't support any of the feature(s): %s" % ", ".join(features) ) class QuietWSGIRequestHandler(WSGIRequestHandler): """ A WSGIRequestHandler that doesn't log to standard output any of the requests received, so as to not clutter the test result output. """ def log_message(*args): pass class FSFilesHandler(WSGIHandler): """ WSGI middleware that intercepts calls to a directory, as defined by one of the *_ROOT settings, and serves those files, publishing them under *_URL. """ def __init__(self, application): self.application = application self.base_url = urlparse(self.get_base_url()) super().__init__() def _should_handle(self, path): """ Check if the path should be handled. Ignore the path if: * the host is provided as part of the base_url * the request's path isn't under the media path (or equal) """ return path.startswith(self.base_url[2]) and not self.base_url[1] def file_path(self, url): """Return the relative path to the file on disk for the given URL.""" relative_url = url[len(self.base_url[2]):] return url2pathname(relative_url) def get_response(self, request): from django.http import Http404 if self._should_handle(request.path): try: return self.serve(request) except Http404: pass return super().get_response(request) def serve(self, request): os_rel_path = self.file_path(request.path) os_rel_path = posixpath.normpath(unquote(os_rel_path)) # Emulate behavior of django.contrib.staticfiles.views.serve() when it # invokes staticfiles' finders functionality. # TODO: Modify if/when that internal API is refactored final_rel_path = os_rel_path.replace('\\', '/').lstrip('/') return serve(request, final_rel_path, document_root=self.get_base_dir()) def __call__(self, environ, start_response): if not self._should_handle(get_path_info(environ)): return self.application(environ, start_response) return super().__call__(environ, start_response) class _StaticFilesHandler(FSFilesHandler): """ Handler for serving static files. A private class that is meant to be used solely as a convenience by LiveServerThread. """ def get_base_dir(self): return settings.STATIC_ROOT def get_base_url(self): return settings.STATIC_URL class _MediaFilesHandler(FSFilesHandler): """ Handler for serving the media files. A private class that is meant to be used solely as a convenience by LiveServerThread. """ def get_base_dir(self): return settings.MEDIA_ROOT def get_base_url(self): return settings.MEDIA_URL class LiveServerThread(threading.Thread): """Thread for running a live http server while the tests are running.""" def __init__(self, host, static_handler, connections_override=None, port=0): self.host = host self.port = port self.is_ready = threading.Event() self.error = None self.static_handler = static_handler self.connections_override = connections_override super().__init__() def run(self): """ Set up the live server and databases, and then loop over handling HTTP requests. """ if self.connections_override: # Override this thread's database connections with the ones # provided by the main thread. for alias, conn in self.connections_override.items(): connections[alias] = conn try: # Create the handler for serving static and media files handler = self.static_handler(_MediaFilesHandler(WSGIHandler())) self.httpd = self._create_server() # If binding to port zero, assign the port allocated by the OS. if self.port == 0: self.port = self.httpd.server_address[1] self.httpd.set_app(handler) self.is_ready.set() self.httpd.serve_forever() except Exception as e: self.error = e self.is_ready.set() finally: connections.close_all() def _create_server(self): return ThreadedWSGIServer((self.host, self.port), QuietWSGIRequestHandler, allow_reuse_address=False) def terminate(self): if hasattr(self, 'httpd'): # Stop the WSGI server self.httpd.shutdown() self.httpd.server_close() self.join() class LiveServerTestCase(TransactionTestCase): """ Do basically the same as TransactionTestCase but also launch a live HTTP server in a separate thread so that the tests may use another testing framework, such as Selenium for example, instead of the built-in dummy client. It inherits from TransactionTestCase instead of TestCase because the threads don't share the same transactions (unless if using in-memory sqlite) and each thread needs to commit all their transactions so that the other thread can see the changes. """ host = 'localhost' port = 0 server_thread_class = LiveServerThread static_handler = _StaticFilesHandler @classproperty def live_server_url(cls): return 'http://%s:%s' % (cls.host, cls.server_thread.port) @classmethod def setUpClass(cls): super().setUpClass() connections_override = {} for conn in connections.all(): # If using in-memory sqlite databases, pass the connections to # the server thread. if conn.vendor == 'sqlite' and conn.is_in_memory_db(): # Explicitly enable thread-shareability for this connection conn.allow_thread_sharing = True connections_override[conn.alias] = conn cls._live_server_modified_settings = modify_settings( ALLOWED_HOSTS={'append': cls.host}, ) cls._live_server_modified_settings.enable() cls.server_thread = cls._create_server_thread(connections_override) cls.server_thread.daemon = True cls.server_thread.start() # Wait for the live server to be ready cls.server_thread.is_ready.wait() if cls.server_thread.error: # Clean up behind ourselves, since tearDownClass won't get called in # case of errors. cls._tearDownClassInternal() raise cls.server_thread.error @classmethod def _create_server_thread(cls, connections_override): return cls.server_thread_class( cls.host, cls.static_handler, connections_override=connections_override, port=cls.port, ) @classmethod def _tearDownClassInternal(cls): # There may not be a 'server_thread' attribute if setUpClass() for some # reasons has raised an exception. if hasattr(cls, 'server_thread'): # Terminate the live server's thread cls.server_thread.terminate() # Restore sqlite in-memory database connections' non-shareability for conn in connections.all(): if conn.vendor == 'sqlite' and conn.is_in_memory_db(): conn.allow_thread_sharing = False @classmethod def tearDownClass(cls): cls._tearDownClassInternal() cls._live_server_modified_settings.disable() super().tearDownClass() class SerializeMixin: """ Enforce serialization of TestCases that share a common resource. Define a common 'lockfile' for each set of TestCases to serialize. This file must exist on the filesystem. Place it early in the MRO in order to isolate setUpClass()/tearDownClass(). """ lockfile = None @classmethod def setUpClass(cls): if cls.lockfile is None: raise ValueError( "{}.lockfile isn't set. Set it to a unique value " "in the base class.".format(cls.__name__)) cls._lockfile = open(cls.lockfile) locks.lock(cls._lockfile, locks.LOCK_EX) super().setUpClass() @classmethod def tearDownClass(cls): super().tearDownClass() cls._lockfile.close()