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import datetime
import faulthandler
import locale
import os
import platform
import random
import re
import sys
import sysconfig
import tempfile
import time
import unittest
from test.libregrtest.cmdline import _parse_args
from test.libregrtest.runtest import (
findtests, runtest, get_abs_module,
STDTESTS, NOTTESTS, PASSED, FAILED, ENV_CHANGED, SKIPPED, RESOURCE_DENIED,
INTERRUPTED, CHILD_ERROR, TEST_DID_NOT_RUN, TIMEOUT,
PROGRESS_MIN_TIME, format_test_result, is_failed)
from test.libregrtest.setup import setup_tests
from test.libregrtest.pgo import setup_pgo_tests
from test.libregrtest.utils import removepy, count, format_duration, printlist
from test import support
# bpo-38203: Maximum delay in seconds to exit Python (call Py_Finalize()).
# Used to protect against threading._shutdown() hang.
# Must be smaller than buildbot "1200 seconds without output" limit.
EXIT_TIMEOUT = 120.0
class Regrtest:
"""Execute a test suite.
This also parses command-line options and modifies its behavior
accordingly.
tests -- a list of strings containing test names (optional)
testdir -- the directory in which to look for tests (optional)
Users other than the Python test suite will certainly want to
specify testdir; if it's omitted, the directory containing the
Python test suite is searched for.
If the tests argument is omitted, the tests listed on the
command-line will be used. If that's empty, too, then all *.py
files beginning with test_ will be used.
The other default arguments (verbose, quiet, exclude,
single, randomize, findleaks, use_resources, trace, coverdir,
print_slow, and random_seed) allow programmers calling main()
directly to set the values that would normally be set by flags
on the command line.
"""
def __init__(self):
# Namespace of command line options
self.ns = None
# tests
self.tests = []
self.selected = []
# test results
self.good = []
self.bad = []
self.skipped = []
self.resource_denieds = []
self.environment_changed = []
self.run_no_tests = []
self.rerun = []
self.first_result = None
self.interrupted = False
# used by --slow
self.test_times = []
# used by --coverage, trace.Trace instance
self.tracer = None
# used to display the progress bar "[ 3/100]"
self.start_time = time.monotonic()
self.test_count = ''
self.test_count_width = 1
# used by --single
self.next_single_test = None
self.next_single_filename = None
# used by --junit-xml
self.testsuite_xml = None
# misc
self.win_load_tracker = None
self.tmp_dir = None
self.worker_test_name = None
def get_executed(self):
return (set(self.good) | set(self.bad) | set(self.skipped)
| set(self.resource_denieds) | set(self.environment_changed)
| set(self.run_no_tests))
def accumulate_result(self, result, rerun=False):
test_name = result.test_name
ok = result.result
if ok not in (CHILD_ERROR, INTERRUPTED) and not rerun:
self.test_times.append((result.test_time, test_name))
if ok == PASSED:
self.good.append(test_name)
elif ok in (FAILED, CHILD_ERROR):
if not rerun:
self.bad.append(test_name)
elif ok == ENV_CHANGED:
self.environment_changed.append(test_name)
elif ok == SKIPPED:
self.skipped.append(test_name)
elif ok == RESOURCE_DENIED:
self.skipped.append(test_name)
self.resource_denieds.append(test_name)
elif ok == TEST_DID_NOT_RUN:
self.run_no_tests.append(test_name)
elif ok == INTERRUPTED:
self.interrupted = True
elif ok == TIMEOUT:
self.bad.append(test_name)
else:
raise ValueError("invalid test result: %r" % ok)
if rerun and ok not in {FAILED, CHILD_ERROR, INTERRUPTED}:
self.bad.remove(test_name)
xml_data = result.xml_data
if xml_data:
import xml.etree.ElementTree as ET
for e in xml_data:
try:
self.testsuite_xml.append(ET.fromstring(e))
except ET.ParseError:
print(xml_data, file=sys.__stderr__)
raise
def log(self, line=''):
empty = not line
# add the system load prefix: "load avg: 1.80 "
load_avg = self.getloadavg()
if load_avg is not None:
line = f"load avg: {load_avg:.2f} {line}"
# add the timestamp prefix: "0:01:05 "
test_time = time.monotonic() - self.start_time
test_time = datetime.timedelta(seconds=int(test_time))
line = f"{test_time} {line}"
if empty:
line = line[:-1]
print(line, flush=True)
def display_progress(self, test_index, text):
if self.ns.quiet:
return
# "[ 51/405/1] test_tcl passed"
line = f"{test_index:{self.test_count_width}}{self.test_count}"
fails = len(self.bad) + len(self.environment_changed)
if fails and not self.ns.pgo:
line = f"{line}/{fails}"
self.log(f"[{line}] {text}")
def parse_args(self, kwargs):
ns = _parse_args(sys.argv[1:], **kwargs)
if ns.xmlpath:
support.junit_xml_list = self.testsuite_xml = []
worker_args = ns.worker_args
if worker_args is not None:
from test.libregrtest.runtest_mp import parse_worker_args
ns, test_name = parse_worker_args(ns.worker_args)
ns.worker_args = worker_args
self.worker_test_name = test_name
# Strip .py extensions.
removepy(ns.args)
if ns.huntrleaks:
warmup, repetitions, _ = ns.huntrleaks
if warmup < 1 or repetitions < 1:
msg = ("Invalid values for the --huntrleaks/-R parameters. The "
"number of warmups and repetitions must be at least 1 "
"each (1:1).")
print(msg, file=sys.stderr, flush=True)
sys.exit(2)
if ns.tempdir:
ns.tempdir = os.path.expanduser(ns.tempdir)
self.ns = ns
def find_tests(self, tests):
self.tests = tests
if self.ns.single:
self.next_single_filename = os.path.join(self.tmp_dir, 'pynexttest')
try:
with open(self.next_single_filename, 'r') as fp:
next_test = fp.read().strip()
self.tests = [next_test]
except OSError:
pass
if self.ns.fromfile:
self.tests = []
# regex to match 'test_builtin' in line:
# '0:00:00 [ 4/400] test_builtin -- test_dict took 1 sec'
regex = re.compile(r'\btest_[a-zA-Z0-9_]+\b')
with open(os.path.join(support.SAVEDCWD, self.ns.fromfile)) as fp:
for line in fp:
line = line.split('#', 1)[0]
line = line.strip()
match = regex.search(line)
if match is not None:
self.tests.append(match.group())
removepy(self.tests)
if self.ns.pgo:
# add default PGO tests if no tests are specified
setup_pgo_tests(self.ns)
stdtests = STDTESTS[:]
nottests = NOTTESTS.copy()
if self.ns.exclude:
for arg in self.ns.args:
if arg in stdtests:
stdtests.remove(arg)
nottests.add(arg)
self.ns.args = []
# if testdir is set, then we are not running the python tests suite, so
# don't add default tests to be executed or skipped (pass empty values)
if self.ns.testdir:
alltests = findtests(self.ns.testdir, list(), set())
else:
alltests = findtests(self.ns.testdir, stdtests, nottests)
if not self.ns.fromfile:
self.selected = self.tests or self.ns.args or alltests
else:
self.selected = self.tests
if self.ns.single:
self.selected = self.selected[:1]
try:
pos = alltests.index(self.selected[0])
self.next_single_test = alltests[pos + 1]
except IndexError:
pass
# Remove all the selected tests that precede start if it's set.
if self.ns.start:
try:
del self.selected[:self.selected.index(self.ns.start)]
except ValueError:
print("Couldn't find starting test (%s), using all tests"
% self.ns.start, file=sys.stderr)
if self.ns.randomize:
if self.ns.random_seed is None:
self.ns.random_seed = random.randrange(10000000)
random.seed(self.ns.random_seed)
random.shuffle(self.selected)
def list_tests(self):
for name in self.selected:
print(name)
def _list_cases(self, suite):
for test in suite:
if isinstance(test, unittest.loader._FailedTest):
continue
if isinstance(test, unittest.TestSuite):
self._list_cases(test)
elif isinstance(test, unittest.TestCase):
if support.match_test(test):
print(test.id())
def list_cases(self):
support.verbose = False
support.set_match_tests(self.ns.match_tests, self.ns.ignore_tests)
for test_name in self.selected:
abstest = get_abs_module(self.ns, test_name)
try:
suite = unittest.defaultTestLoader.loadTestsFromName(abstest)
self._list_cases(suite)
except unittest.SkipTest:
self.skipped.append(test_name)
if self.skipped:
print(file=sys.stderr)
print(count(len(self.skipped), "test"), "skipped:", file=sys.stderr)
printlist(self.skipped, file=sys.stderr)
def rerun_failed_tests(self):
self.ns.verbose = True
self.ns.failfast = False
self.ns.verbose3 = False
self.first_result = self.get_tests_result()
self.log()
self.log("Re-running failed tests in verbose mode")
self.rerun = self.bad[:]
for test_name in self.rerun:
self.log(f"Re-running {test_name} in verbose mode")
self.ns.verbose = True
result = runtest(self.ns, test_name)
self.accumulate_result(result, rerun=True)
if result.result == INTERRUPTED:
break
if self.bad:
print(count(len(self.bad), 'test'), "failed again:")
printlist(self.bad)
self.display_result()
def display_result(self):
# If running the test suite for PGO then no one cares about results.
if self.ns.pgo:
return
print()
print("== Tests result: %s ==" % self.get_tests_result())
if self.interrupted:
print("Test suite interrupted by signal SIGINT.")
omitted = set(self.selected) - self.get_executed()
if omitted:
print()
print(count(len(omitted), "test"), "omitted:")
printlist(omitted)
if self.good and not self.ns.quiet:
print()
if (not self.bad
and not self.skipped
and not self.interrupted
and len(self.good) > 1):
print("All", end=' ')
print(count(len(self.good), "test"), "OK.")
if self.ns.print_slow:
self.test_times.sort(reverse=True)
print()
print("10 slowest tests:")
for test_time, test in self.test_times[:10]:
print("- %s: %s" % (test, format_duration(test_time)))
if self.bad:
print()
print(count(len(self.bad), "test"), "failed:")
printlist(self.bad)
if self.environment_changed:
print()
print("{} altered the execution environment:".format(
count(len(self.environment_changed), "test")))
printlist(self.environment_changed)
if self.skipped and not self.ns.quiet:
print()
print(count(len(self.skipped), "test"), "skipped:")
printlist(self.skipped)
if self.rerun:
print()
print("%s:" % count(len(self.rerun), "re-run test"))
printlist(self.rerun)
if self.run_no_tests:
print()
print(count(len(self.run_no_tests), "test"), "run no tests:")
printlist(self.run_no_tests)
def run_tests_sequential(self):
if self.ns.trace:
import trace
self.tracer = trace.Trace(trace=False, count=True)
save_modules = sys.modules.keys()
msg = "Run tests sequentially"
if self.ns.timeout:
msg += " (timeout: %s)" % format_duration(self.ns.timeout)
self.log(msg)
previous_test = None
for test_index, test_name in enumerate(self.tests, 1):
start_time = time.monotonic()
text = test_name
if previous_test:
text = '%s -- %s' % (text, previous_test)
self.display_progress(test_index, text)
if self.tracer:
# If we're tracing code coverage, then we don't exit with status
# if on a false return value from main.
cmd = ('result = runtest(self.ns, test_name); '
'self.accumulate_result(result)')
ns = dict(locals())
self.tracer.runctx(cmd, globals=globals(), locals=ns)
result = ns['result']
else:
result = runtest(self.ns, test_name)
self.accumulate_result(result)
if result.result == INTERRUPTED:
break
previous_test = format_test_result(result)
test_time = time.monotonic() - start_time
if test_time >= PROGRESS_MIN_TIME:
previous_test = "%s in %s" % (previous_test, format_duration(test_time))
elif result.result == PASSED:
# be quiet: say nothing if the test passed shortly
previous_test = None
# Unload the newly imported modules (best effort finalization)
for module in sys.modules.keys():
if module not in save_modules and module.startswith("test."):
support.unload(module)
if self.ns.failfast and is_failed(result, self.ns):
break
if previous_test:
print(previous_test)
def _test_forever(self, tests):
while True:
for test_name in tests:
yield test_name
if self.bad:
return
if self.ns.fail_env_changed and self.environment_changed:
return
def display_header(self):
# Print basic platform information
print("==", platform.python_implementation(), *sys.version.split())
print("==", platform.platform(aliased=True),
"%s-endian" % sys.byteorder)
print("== cwd:", os.getcwd())
cpu_count = os.cpu_count()
if cpu_count:
print("== CPU count:", cpu_count)
print("== encodings: locale=%s, FS=%s"
% (locale.getpreferredencoding(False),
sys.getfilesystemencoding()))
def get_tests_result(self):
result = []
if self.bad:
result.append("FAILURE")
elif self.ns.fail_env_changed and self.environment_changed:
result.append("ENV CHANGED")
elif not any((self.good, self.bad, self.skipped, self.interrupted,
self.environment_changed)):
result.append("NO TEST RUN")
if self.interrupted:
result.append("INTERRUPTED")
if not result:
result.append("SUCCESS")
result = ', '.join(result)
if self.first_result:
result = '%s then %s' % (self.first_result, result)
return result
def run_tests(self):
# For a partial run, we do not need to clutter the output.
if (self.ns.header
or not(self.ns.pgo or self.ns.quiet or self.ns.single
or self.tests or self.ns.args)):
self.display_header()
if self.ns.huntrleaks:
warmup, repetitions, _ = self.ns.huntrleaks
if warmup < 3:
msg = ("WARNING: Running tests with --huntrleaks/-R and less than "
"3 warmup repetitions can give false positives!")
print(msg, file=sys.stdout, flush=True)
if self.ns.randomize:
print("Using random seed", self.ns.random_seed)
if self.ns.forever:
self.tests = self._test_forever(list(self.selected))
self.test_count = ''
self.test_count_width = 3
else:
self.tests = iter(self.selected)
self.test_count = '/{}'.format(len(self.selected))
self.test_count_width = len(self.test_count) - 1
if self.ns.use_mp:
from test.libregrtest.runtest_mp import run_tests_multiprocess
run_tests_multiprocess(self)
else:
self.run_tests_sequential()
def finalize(self):
if self.next_single_filename:
if self.next_single_test:
with open(self.next_single_filename, 'w') as fp:
fp.write(self.next_single_test + '\n')
else:
os.unlink(self.next_single_filename)
if self.tracer:
r = self.tracer.results()
r.write_results(show_missing=True, summary=True,
coverdir=self.ns.coverdir)
print()
duration = time.monotonic() - self.start_time
print("Total duration: %s" % format_duration(duration))
print("Tests result: %s" % self.get_tests_result())
if self.ns.runleaks:
os.system("leaks %d" % os.getpid())
def save_xml_result(self):
if not self.ns.xmlpath and not self.testsuite_xml:
return
import xml.etree.ElementTree as ET
root = ET.Element("testsuites")
# Manually count the totals for the overall summary
totals = {'tests': 0, 'errors': 0, 'failures': 0}
for suite in self.testsuite_xml:
root.append(suite)
for k in totals:
try:
totals[k] += int(suite.get(k, 0))
except ValueError:
pass
for k, v in totals.items():
root.set(k, str(v))
xmlpath = os.path.join(support.SAVEDCWD, self.ns.xmlpath)
with open(xmlpath, 'wb') as f:
for s in ET.tostringlist(root):
f.write(s)
def set_temp_dir(self):
if self.ns.tempdir:
self.tmp_dir = self.ns.tempdir
if not self.tmp_dir:
# When tests are run from the Python build directory, it is best practice
# to keep the test files in a subfolder. This eases the cleanup of leftover
# files using the "make distclean" command.
if sysconfig.is_python_build():
self.tmp_dir = sysconfig.get_config_var('abs_builddir')
if self.tmp_dir is None:
# bpo-30284: On Windows, only srcdir is available. Using
# abs_builddir mostly matters on UNIX when building Python
# out of the source tree, especially when the source tree
# is read only.
self.tmp_dir = sysconfig.get_config_var('srcdir')
self.tmp_dir = os.path.join(self.tmp_dir, 'build')
else:
self.tmp_dir = tempfile.gettempdir()
self.tmp_dir = os.path.abspath(self.tmp_dir)
def create_temp_dir(self):
os.makedirs(self.tmp_dir, exist_ok=True)
# Define a writable temp dir that will be used as cwd while running
# the tests. The name of the dir includes the pid to allow parallel
# testing (see the -j option).
pid = os.getpid()
if self.worker_test_name is not None:
test_cwd = 'test_python_worker_{}'.format(pid)
else:
test_cwd = 'test_python_{}'.format(pid)
test_cwd = os.path.join(self.tmp_dir, test_cwd)
return test_cwd
def cleanup(self):
import glob
path = os.path.join(glob.escape(self.tmp_dir), 'test_python_*')
print("Cleanup %s directory" % self.tmp_dir)
for name in glob.glob(path):
if os.path.isdir(name):
print("Remove directory: %s" % name)
support.rmtree(name)
else:
print("Remove file: %s" % name)
support.unlink(name)
def main(self, tests=None, **kwargs):
self.parse_args(kwargs)
self.set_temp_dir()
if self.ns.cleanup:
self.cleanup()
sys.exit(0)
test_cwd = self.create_temp_dir()
try:
# Run the tests in a context manager that temporarily changes the CWD
# to a temporary and writable directory. If it's not possible to
# create or change the CWD, the original CWD will be used.
# The original CWD is available from support.SAVEDCWD.
with support.temp_cwd(test_cwd, quiet=True):
# When using multiprocessing, worker processes will use test_cwd
# as their parent temporary directory. So when the main process
# exit, it removes also subdirectories of worker processes.
self.ns.tempdir = test_cwd
self._main(tests, kwargs)
except SystemExit as exc:
# bpo-38203: Python can hang at exit in Py_Finalize(), especially
# on threading._shutdown() call: put a timeout
faulthandler.dump_traceback_later(EXIT_TIMEOUT, exit=True)
sys.exit(exc.code)
def getloadavg(self):
if self.win_load_tracker is not None:
return self.win_load_tracker.getloadavg()
if hasattr(os, 'getloadavg'):
return os.getloadavg()[0]
return None
def _main(self, tests, kwargs):
if self.worker_test_name is not None:
from test.libregrtest.runtest_mp import run_tests_worker
run_tests_worker(self.ns, self.worker_test_name)
if self.ns.wait:
input("Press any key to continue...")
support.PGO = self.ns.pgo
support.PGO_EXTENDED = self.ns.pgo_extended
setup_tests(self.ns)
self.find_tests(tests)
if self.ns.list_tests:
self.list_tests()
sys.exit(0)
if self.ns.list_cases:
self.list_cases()
sys.exit(0)
# If we're on windows and this is the parent runner (not a worker),
# track the load average.
if sys.platform == 'win32' and self.worker_test_name is None:
from test.libregrtest.win_utils import WindowsLoadTracker
try:
self.win_load_tracker = WindowsLoadTracker()
except FileNotFoundError as error:
# Windows IoT Core and Windows Nano Server do not provide
# typeperf.exe for x64, x86 or ARM
print(f'Failed to create WindowsLoadTracker: {error}')
try:
self.run_tests()
self.display_result()
if self.ns.verbose2 and self.bad:
self.rerun_failed_tests()
finally:
if self.win_load_tracker is not None:
self.win_load_tracker.close()
self.win_load_tracker = None
self.finalize()
self.save_xml_result()
if self.bad:
sys.exit(2)
if self.interrupted:
sys.exit(130)
if self.ns.fail_env_changed and self.environment_changed:
sys.exit(3)
sys.exit(0)
def main(tests=None, **kwargs):
"""Run the Python suite."""
Regrtest().main(tests=tests, **kwargs)
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