zulip/zerver/lib/test_runner.py

548 lines
21 KiB
Python

from functools import partial
import random
from typing import Any, Callable, Dict, Iterable, List, Optional, Set, Tuple, \
Text, Type, cast, Union, TypeVar
from unittest import loader, runner # type: ignore # Mypy cannot pick these up.
from unittest.result import TestResult
from django.conf import settings
from django.db import connections, ProgrammingError
from django.urls.resolvers import RegexURLPattern
from django.test import TestCase
from django.test import runner as django_runner
from django.test.runner import DiscoverRunner
from django.test.signals import template_rendered
from zerver.lib import test_classes, test_helpers
from zerver.lib.cache import bounce_key_prefix_for_testing
from zerver.lib.rate_limiter import bounce_redis_key_prefix_for_testing
from zerver.lib.test_classes import flush_caches_for_testing
from zerver.lib.sqlalchemy_utils import get_sqlalchemy_connection
from zerver.lib.test_helpers import (
get_all_templates, write_instrumentation_reports,
append_instrumentation_data
)
import os
import subprocess
import sys
import time
import traceback
import unittest
if False:
# Only needed by mypy.
from multiprocessing.sharedctypes import Synchronized
_worker_id = 0 # Used to identify the worker process.
ReturnT = TypeVar('ReturnT') # Constrain return type to match
def slow(slowness_reason):
# type: (str) -> Callable[[Callable[..., ReturnT]], Callable[..., ReturnT]]
'''
This is a decorate that annotates a test as being "known
to be slow." The decorator will set expected_run_time and slowness_reason
as attributes of the function. Other code can use this annotation
as needed, e.g. to exclude these tests in "fast" mode.
'''
def decorator(f):
# type: (Any) -> ReturnT
f.slowness_reason = slowness_reason
return f
return decorator
def is_known_slow_test(test_method):
# type: (Any) -> bool
return hasattr(test_method, 'slowness_reason')
def full_test_name(test):
# type: (TestCase) -> str
test_module = test.__module__
test_class = test.__class__.__name__
test_method = test._testMethodName
return '%s.%s.%s' % (test_module, test_class, test_method)
def get_test_method(test):
# type: (TestCase) -> Callable[[], None]
return getattr(test, test._testMethodName)
# Each tuple is delay, test_name, slowness_reason
TEST_TIMINGS = [] # type: List[Tuple[float, str, str]]
def report_slow_tests():
# type: () -> None
timings = sorted(TEST_TIMINGS, reverse=True)
print('SLOWNESS REPORT')
print(' delay test')
print(' ---- ----')
for delay, test_name, slowness_reason in timings[:15]:
if not slowness_reason:
slowness_reason = 'UNKNOWN WHY SLOW, please investigate'
print(' %0.3f %s\n %s\n' % (delay, test_name, slowness_reason))
print('...')
for delay, test_name, slowness_reason in timings[100:]:
if slowness_reason:
print(' %.3f %s is not that slow' % (delay, test_name))
print(' consider removing @slow decorator')
print(' This may no longer be true: %s' % (slowness_reason,))
def enforce_timely_test_completion(test_method, test_name, delay, result):
# type: (Any, str, float, TestResult) -> None
if hasattr(test_method, 'slowness_reason'):
max_delay = 2.0 # seconds
else:
max_delay = 0.4 # seconds
if delay > max_delay:
msg = '** Test is TOO slow: %s (%.3f s)\n' % (test_name, delay)
result.addInfo(test_method, msg)
def fast_tests_only():
# type: () -> bool
return "FAST_TESTS_ONLY" in os.environ
def run_test(test, result):
# type: (TestCase, TestResult) -> bool
failed = False
test_method = get_test_method(test)
if fast_tests_only() and is_known_slow_test(test_method):
return failed
test_name = full_test_name(test)
bounce_key_prefix_for_testing(test_name)
bounce_redis_key_prefix_for_testing(test_name)
flush_caches_for_testing()
if not hasattr(test, "_pre_setup"):
# test_name is likely of the form unittest.loader.ModuleImportFailure.zerver.tests.test_upload
import_failure_prefix = 'unittest.loader.ModuleImportFailure.'
if test_name.startswith(import_failure_prefix):
actual_test_name = test_name[len(import_failure_prefix):]
error_msg = ("\nActual test to be run is %s, but import failed.\n"
"Importing test module directly to generate clearer "
"traceback:\n") % (actual_test_name,)
result.addInfo(test, error_msg)
try:
command = [sys.executable, "-c", "import %s" % (actual_test_name,)]
msg = "Import test command: `%s`" % (' '.join(command),)
result.addInfo(test, msg)
subprocess.check_call(command)
except subprocess.CalledProcessError:
msg = ("If that traceback is confusing, try doing the "
"import inside `./manage.py shell`")
result.addInfo(test, msg)
result.addError(test, sys.exc_info())
return True
msg = ("Import unexpectedly succeeded! Something is wrong. Try "
"running `import %s` inside `./manage.py shell`.\n"
"If that works, you may have introduced an import "
"cycle.") % (actual_test_name,)
import_error = (Exception, Exception(msg), None) # type: Tuple[Any, Any, Any]
result.addError(test, import_error)
return True
else:
msg = "Test doesn't have _pre_setup; something is wrong."
error_pre_setup = (Exception, Exception(msg), None) # type: Tuple[Any, Any, Any]
result.addError(test, error_pre_setup)
return True
test._pre_setup()
start_time = time.time()
test(result) # unittest will handle skipping, error, failure and success.
delay = time.time() - start_time
enforce_timely_test_completion(test_method, test_name, delay, result)
slowness_reason = getattr(test_method, 'slowness_reason', '')
TEST_TIMINGS.append((delay, test_name, slowness_reason))
test._post_teardown()
return failed
class TextTestResult(runner.TextTestResult):
"""
This class has unpythonic function names because base class follows
this style.
"""
def __init__(self, *args, **kwargs):
# type: (*Any, **Any) -> None
super().__init__(*args, **kwargs)
self.failed_tests = [] # type: List[str]
def addInfo(self, test, msg):
# type: (TestCase, Text) -> None
self.stream.write(msg)
self.stream.flush()
def addInstrumentation(self, test, data):
# type: (TestCase, Dict[str, Any]) -> None
append_instrumentation_data(data)
def startTest(self, test):
# type: (TestCase) -> None
TestResult.startTest(self, test)
self.stream.writeln("Running {}".format(full_test_name(test)))
self.stream.flush()
def addSuccess(self, *args, **kwargs):
# type: (*Any, **Any) -> None
TestResult.addSuccess(self, *args, **kwargs)
def addError(self, *args, **kwargs):
# type: (*Any, **Any) -> None
TestResult.addError(self, *args, **kwargs)
test_name = full_test_name(args[0])
self.failed_tests.append(test_name)
def addFailure(self, *args, **kwargs):
# type: (*Any, **Any) -> None
TestResult.addFailure(self, *args, **kwargs)
test_name = full_test_name(args[0])
self.failed_tests.append(test_name)
def addSkip(self, test, reason):
# type: (TestCase, Text) -> None
TestResult.addSkip(self, test, reason)
self.stream.writeln("** Skipping {}: {}".format(full_test_name(test),
reason))
self.stream.flush()
class RemoteTestResult(django_runner.RemoteTestResult):
"""
The class follows the unpythonic style of function names of the
base class.
"""
def addInfo(self, test, msg):
# type: (TestCase, Text) -> None
self.events.append(('addInfo', self.test_index, msg))
def addInstrumentation(self, test, data):
# type: (TestCase, Dict[str, Any]) -> None
# Some elements of data['info'] cannot be serialized.
if 'info' in data:
del data['info']
self.events.append(('addInstrumentation', self.test_index, data))
def process_instrumented_calls(func):
# type: (Callable[[Dict[str, Any]], None]) -> None
for call in test_helpers.INSTRUMENTED_CALLS:
func(call)
SerializedSubsuite = Tuple[Type['TestSuite'], List[str]]
SubsuiteArgs = Tuple[Type['RemoteTestRunner'], int, SerializedSubsuite, bool]
def run_subsuite(args):
# type: (SubsuiteArgs) -> Tuple[int, Any]
# Reset the accumulated INSTRUMENTED_CALLS before running this subsuite.
test_helpers.INSTRUMENTED_CALLS = []
# The first argument is the test runner class but we don't need it
# because we run our own version of the runner class.
_, subsuite_index, subsuite, failfast = args
runner = RemoteTestRunner(failfast=failfast)
result = runner.run(deserialize_suite(subsuite))
# Now we send instrumentation related events. This data will be
# appended to the data structure in the main thread. For Mypy,
# type of Partial is different from Callable. All the methods of
# TestResult are passed TestCase as the first argument but
# addInstrumentation does not need it.
process_instrumented_calls(partial(result.addInstrumentation, None))
return subsuite_index, result.events
# Monkey-patch database creation to fix unnecessary sleep(1)
from django.db.backends.postgresql.creation import DatabaseCreation
def _replacement_destroy_test_db(self, test_database_name, verbosity):
# type: (Any, str, Any) -> None
"""Replacement for Django's _destroy_test_db that removes the
unnecessary sleep(1)."""
with self.connection._nodb_connection.cursor() as cursor:
cursor.execute("DROP DATABASE %s"
% self.connection.ops.quote_name(test_database_name))
DatabaseCreation._destroy_test_db = _replacement_destroy_test_db
def destroy_test_databases(database_id=None):
# type: (Optional[int]) -> None
"""
When database_id is None, the name of the databases is picked up
by the database settings.
"""
for alias in connections:
connection = connections[alias]
try:
connection.creation.destroy_test_db(number=database_id)
except ProgrammingError:
# DB doesn't exist. No need to do anything.
pass
def create_test_databases(database_id):
# type: (int) -> None
for alias in connections:
connection = connections[alias]
connection.creation.clone_test_db(
number=database_id,
keepdb=True,
)
settings_dict = connection.creation.get_test_db_clone_settings(database_id)
# connection.settings_dict must be updated in place for changes to be
# reflected in django.db.connections. If the following line assigned
# connection.settings_dict = settings_dict, new threads would connect
# to the default database instead of the appropriate clone.
connection.settings_dict.update(settings_dict)
connection.close()
def init_worker(counter):
# type: (Synchronized) -> None
"""
This function runs only under parallel mode. It initializes the
individual processes which are also called workers.
"""
global _worker_id
with counter.get_lock():
counter.value += 1
_worker_id = counter.value
"""
You can now use _worker_id.
"""
test_classes.API_KEYS = {}
# Clear the cache
from zerver.lib.cache import get_cache_backend
cache = get_cache_backend(None)
cache.clear()
# Close all connections
connections.close_all()
destroy_test_databases(_worker_id)
create_test_databases(_worker_id)
# Every process should upload to a separate directory so that
# race conditions can be avoided.
settings.LOCAL_UPLOADS_DIR = '{}_{}'.format(settings.LOCAL_UPLOADS_DIR,
_worker_id)
def is_upload_avatar_url(url):
# type: (RegexURLPattern) -> bool
if url.regex.pattern == r'^user_avatars/(?P<path>.*)$':
return True
return False
# We manually update the upload directory path in the url regex.
from zproject import dev_urls
found = False
for url in dev_urls.urls:
if is_upload_avatar_url(url):
found = True
new_root = os.path.join(settings.LOCAL_UPLOADS_DIR, "avatars")
url.default_args['document_root'] = new_root
if not found:
print("*** Upload directory not found.")
class TestSuite(unittest.TestSuite):
def run(self, result, debug=False):
# type: (TestResult, Optional[bool]) -> TestResult
"""
This function mostly contains the code from
unittest.TestSuite.run. The need to override this function
occurred because we use run_test to run the testcase.
"""
topLevel = False
if getattr(result, '_testRunEntered', False) is False:
result._testRunEntered = topLevel = True
for test in self:
# but this is correct. Taken from unittest.
if result.shouldStop:
break
if isinstance(test, TestSuite):
test.run(result, debug=debug)
else:
self._tearDownPreviousClass(test, result) # type: ignore
self._handleModuleFixture(test, result) # type: ignore
self._handleClassSetUp(test, result) # type: ignore
result._previousTestClass = test.__class__
if (getattr(test.__class__, '_classSetupFailed', False) or
getattr(result, '_moduleSetUpFailed', False)):
continue
failed = run_test(test, result)
if failed or result.shouldStop:
result.shouldStop = True
break
if topLevel:
self._tearDownPreviousClass(None, result) # type: ignore
self._handleModuleTearDown(result) # type: ignore
result._testRunEntered = False
return result
class TestLoader(loader.TestLoader):
suiteClass = TestSuite
class ParallelTestSuite(django_runner.ParallelTestSuite):
run_subsuite = run_subsuite
init_worker = init_worker
def __init__(self, suite, processes, failfast):
# type: (TestSuite, int, bool) -> None
super().__init__(suite, processes, failfast)
# We can't specify a consistent type for self.subsuites, since
# the whole idea here is to monkey-patch that so we can use
# most of django_runner.ParallelTestSuite with our own suite
# definitions.
self.subsuites = SubSuiteList(self.subsuites) # type: ignore # Type of self.subsuites changes.
class Runner(DiscoverRunner):
test_suite = TestSuite
test_loader = TestLoader()
parallel_test_suite = ParallelTestSuite
def __init__(self, *args, **kwargs):
# type: (*Any, **Any) -> None
DiscoverRunner.__init__(self, *args, **kwargs)
# `templates_rendered` holds templates which were rendered
# in proper logical tests.
self.templates_rendered = set() # type: Set[str]
# `shallow_tested_templates` holds templates which were rendered
# in `zerver.tests.test_templates`.
self.shallow_tested_templates = set() # type: Set[str]
template_rendered.connect(self.on_template_rendered)
self.database_id = random.randint(1, 10000)
def get_resultclass(self):
# type: () -> Type[TestResult]
return TextTestResult
def on_template_rendered(self, sender, context, **kwargs):
# type: (Any, Dict[str, Any], **Any) -> None
if hasattr(sender, 'template'):
template_name = sender.template.name
if template_name not in self.templates_rendered:
if context.get('shallow_tested') and template_name not in self.templates_rendered:
self.shallow_tested_templates.add(template_name)
else:
self.templates_rendered.add(template_name)
self.shallow_tested_templates.discard(template_name)
def get_shallow_tested_templates(self):
# type: () -> Set[str]
return self.shallow_tested_templates
def setup_test_environment(self, *args, **kwargs):
# type: (*Any, **Any) -> Any
settings.DATABASES['default']['NAME'] = settings.BACKEND_DATABASE_TEMPLATE
# We create/destroy the test databases in run_tests to avoid
# duplicate work when running in parallel mode.
return super().setup_test_environment(*args, **kwargs)
def teardown_test_environment(self, *args, **kwargs):
# type: (*Any, **Any) -> Any
# No need to pass the database id now. It will be picked up
# automatically through settings.
if self.parallel == 1:
# In parallel mode (parallel > 1), destroy_test_databases will
# destroy settings.BACKEND_DATABASE_TEMPLATE; we don't want that.
# So run this only in serial mode.
destroy_test_databases()
return super().teardown_test_environment(*args, **kwargs)
def run_tests(self, test_labels, extra_tests=None,
full_suite=False, **kwargs):
# type: (List[str], Optional[List[TestCase]], bool, **Any) -> Tuple[bool, List[str]]
self.setup_test_environment()
try:
suite = self.build_suite(test_labels, extra_tests)
except AttributeError:
traceback.print_exc()
print()
print(" This is often caused by a test module/class/function that doesn't exist or ")
print(" import properly. You can usually debug in a `manage.py shell` via e.g. ")
print(" import zerver.tests.test_messages")
print(" from zerver.tests.test_messages import StreamMessagesTest")
print(" StreamMessagesTest.test_message_to_stream")
print()
sys.exit(1)
if self.parallel == 1:
# We are running in serial mode so create the databases here.
# For parallel mode, the databases are created in init_worker.
# We don't want to create and destroy DB in setup_test_environment
# because it will be called for both serial and parallel modes.
# However, at this point we know in which mode we would be running
# since that decision has already been made in build_suite().
destroy_test_databases(self.database_id)
create_test_databases(self.database_id)
# We have to do the next line to avoid flaky scenarios where we
# run a single test and getting an SA connection causes data from
# a Django connection to be rolled back mid-test.
get_sqlalchemy_connection()
result = self.run_suite(suite)
self.teardown_test_environment()
failed = self.suite_result(suite, result)
if not failed:
write_instrumentation_reports(full_suite=full_suite)
return failed, result.failed_tests
def get_test_names(suite):
# type: (TestSuite) -> List[str]
return [full_test_name(t) for t in get_tests_from_suite(suite)]
def get_tests_from_suite(suite):
# type: (TestSuite) -> TestCase
for test in suite:
if isinstance(test, TestSuite):
for child in get_tests_from_suite(test):
yield child
else:
yield test
def serialize_suite(suite):
# type: (TestSuite) -> Tuple[Type[TestSuite], List[str]]
return type(suite), get_test_names(suite)
def deserialize_suite(args):
# type: (Tuple[Type[TestSuite], List[str]]) -> TestSuite
suite_class, test_names = args
suite = suite_class()
tests = TestLoader().loadTestsFromNames(test_names)
for test in get_tests_from_suite(tests):
suite.addTest(test)
return suite
class RemoteTestRunner(django_runner.RemoteTestRunner):
resultclass = RemoteTestResult
class SubSuiteList(List[Tuple[Type[TestSuite], List[str]]]):
"""
This class allows us to avoid changing the main logic of
ParallelTestSuite and still make it serializable.
"""
def __init__(self, suites):
# type: (List[TestSuite]) -> None
serialized_suites = [serialize_suite(s) for s in suites]
super().__init__(serialized_suites)
def __getitem__(self, index):
# type: (Any) -> Any
suite = super().__getitem__(index)
return deserialize_suite(suite)