blob: 4499ffd6e1d7e2ee5873b24d0074a76cbc6343cc [file] [log] [blame]
#!/usr/bin/env python3
#
# [VPYTHON:BEGIN]
# python_version: "3.8"
# [VPYTHON:END]
#
# Copyright 2017, The Android Open Source Project
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
"""ART Run-Test TestRunner
The testrunner runs the ART run-tests by simply invoking the script.
It fetches the list of eligible tests from art/test directory, and list of
disabled tests from art/test/knownfailures.json. It runs the tests by
invoking art/test/run-test script and checks the exit value to decide if the
test passed or failed.
Before invoking the script, first build all the tests dependencies.
There are two major build targets for building target and host tests
dependencies:
1) test-art-host-run-test
2) test-art-target-run-test
There are various options to invoke the script which are:
-t: Either the test name as in art/test or the test name including the variant
information. Eg, "-t 001-HelloWorld",
"-t test-art-host-run-test-debug-prebuild-optimizing-relocate-ntrace-cms-checkjni-picimage-ndebuggable-001-HelloWorld32"
-j: Number of thread workers to be used. Eg - "-j64"
--dry-run: Instead of running the test name, just print its name.
--verbose
-b / --build-dependencies: to build the dependencies before running the test
To specify any specific variants for the test, use --<<variant-name>>.
For eg, for compiler type as optimizing, use --optimizing.
In the end, the script will print the failed and skipped tests if any.
"""
import argparse
import collections
# b/140161314 diagnostics.
try:
import concurrent.futures
except Exception:
import sys
sys.stdout.write("\n\n" + sys.executable + " " + sys.version + "\n\n")
sys.stdout.flush()
raise
import contextlib
import csv
import datetime
import fnmatch
import itertools
import json
import multiprocessing
import os
import re
import shlex
import shutil
import signal
import subprocess
import sys
import tempfile
import threading
import time
import env
from target_config import target_config
from device_config import device_config
# TODO: make it adjustable per tests and for buildbots
#
# Note: this needs to be larger than run-test timeouts, as long as this script
# does not push the value to run-test. run-test is somewhat complicated:
# base: 25m (large for ASAN)
# + timeout handling: 2m
# + gcstress extra: 20m
# -----------------------
# 47m
timeout = 3600 # 60 minutes
if env.ART_TEST_RUN_ON_ARM_FVP:
# Increase timeout to 600 minutes due to the emulation overhead on FVP.
timeout = 36000
# DISABLED_TEST_CONTAINER holds information about the disabled tests. It is a map
# that has key as the test name (like 001-HelloWorld), and value as set of
# variants that the test is disabled for.
DISABLED_TEST_CONTAINER = {}
# The Dict contains the list of all possible variants for a given type. For example,
# for key TARGET, the value would be target and host. The list is used to parse
# the test name given as the argument to run.
VARIANT_TYPE_DICT = {}
# The set of all variant sets that are incompatible and will always be skipped.
NONFUNCTIONAL_VARIANT_SETS = set()
# The set contains all the variants of each time.
TOTAL_VARIANTS_SET = set()
# The colors are used in the output. When a test passes, COLOR_PASS is used,
# and so on.
COLOR_ERROR = '\033[91m'
COLOR_PASS = '\033[92m'
COLOR_SKIP = '\033[93m'
COLOR_NORMAL = '\033[0m'
# The set contains the list of all the possible run tests that are in art/test
# directory.
RUN_TEST_SET = set()
failed_tests = []
skipped_tests = []
# Flags
n_thread = 0
total_test_count = 0
verbose = False
dry_run = False
ignore_skips = False
build = False
dist = False
gdb = False
gdb_arg = ''
dump_cfg = ''
gdb_dex2oat = False
gdb_dex2oat_args = ''
csv_result = None
csv_writer = None
runtime_option = ''
with_agent = []
zipapex_loc = None
run_test_option = []
dex2oat_jobs = -1 # -1 corresponds to default threads for dex2oat
run_all_configs = False
# Dict containing extra arguments
extra_arguments = { "host" : [], "target" : [] }
# Dict to store user requested test variants.
# key: variant_type.
# value: set of variants user wants to run of type <key>.
_user_input_variants = collections.defaultdict(set)
class ChildProcessTracker(object):
"""Keeps track of forked child processes to be able to kill them."""
def __init__(self):
self.procs = {} # dict from pid to subprocess.Popen object
self.mutex = threading.Lock()
def wait(self, proc, timeout):
"""Waits on the given subprocess and makes it available to kill_all meanwhile.
Args:
proc: The subprocess.Popen object to wait on.
timeout: Timeout passed on to proc.communicate.
Returns: A tuple of the process stdout output and its return value.
"""
with self.mutex:
if self.procs is not None:
self.procs[proc.pid] = proc
else:
os.killpg(proc.pid, signal.SIGKILL) # kill_all has already been called.
try:
output = proc.communicate(timeout=timeout)[0]
return_value = proc.wait()
return output, return_value
finally:
with self.mutex:
if self.procs is not None:
del self.procs[proc.pid]
def kill_all(self):
"""Kills all currently running processes and any future ones."""
with self.mutex:
for pid in self.procs:
os.killpg(pid, signal.SIGKILL)
self.procs = None # Make future wait() calls kill their processes immediately.
child_process_tracker = ChildProcessTracker()
def setup_csv_result():
"""Set up the CSV output if required."""
global csv_writer
csv_writer = csv.writer(csv_result)
# Write the header.
csv_writer.writerow(['target', 'run', 'prebuild', 'compiler', 'relocate', 'trace', 'gc',
'jni', 'image', 'debuggable', 'jvmti', 'cdex_level', 'test', 'address_size', 'result'])
def send_csv_result(test, result):
"""
Write a line into the CSV results file if one is available.
"""
if csv_writer is not None:
csv_writer.writerow(extract_test_name(test) + [result])
def close_csv_file():
global csv_result
global csv_writer
if csv_result is not None:
csv_writer = None
csv_result.flush()
csv_result.close()
csv_result = None
def gather_test_info():
"""The method gathers test information about the test to be run which includes
generating the list of total tests from the art/test directory and the list
of disabled test. It also maps various variants to types.
"""
global TOTAL_VARIANTS_SET
# TODO: Avoid duplication of the variant names in different lists.
VARIANT_TYPE_DICT['run'] = {'ndebug', 'debug'}
VARIANT_TYPE_DICT['target'] = {'target', 'host', 'jvm'}
VARIANT_TYPE_DICT['trace'] = {'trace', 'ntrace', 'stream'}
VARIANT_TYPE_DICT['image'] = {'picimage', 'no-image'}
VARIANT_TYPE_DICT['debuggable'] = {'ndebuggable', 'debuggable'}
VARIANT_TYPE_DICT['gc'] = {'gcstress', 'gcverify', 'cms'}
VARIANT_TYPE_DICT['prebuild'] = {'no-prebuild', 'prebuild'}
VARIANT_TYPE_DICT['cdex_level'] = {'cdex-none', 'cdex-fast'}
VARIANT_TYPE_DICT['relocate'] = {'relocate', 'no-relocate'}
VARIANT_TYPE_DICT['jni'] = {'jni', 'forcecopy', 'checkjni'}
VARIANT_TYPE_DICT['address_sizes'] = {'64', '32'}
VARIANT_TYPE_DICT['jvmti'] = {'no-jvmti', 'jvmti-stress', 'redefine-stress', 'trace-stress',
'field-stress', 'step-stress'}
VARIANT_TYPE_DICT['compiler'] = {'interp-ac', 'interpreter', 'jit', 'jit-on-first-use',
'optimizing', 'regalloc_gc',
'speed-profile', 'baseline'}
# Regalloc_GC cannot work with prebuild.
NONFUNCTIONAL_VARIANT_SETS.add(frozenset({'regalloc_gc', 'prebuild'}))
for v_type in VARIANT_TYPE_DICT:
TOTAL_VARIANTS_SET = TOTAL_VARIANTS_SET.union(VARIANT_TYPE_DICT.get(v_type))
test_dir = env.ANDROID_BUILD_TOP + '/art/test'
for f in os.listdir(test_dir):
if fnmatch.fnmatch(f, '[0-9]*'):
RUN_TEST_SET.add(f)
def setup_test_env():
"""The method sets default value for the various variants of the tests if they
are already not set.
"""
if env.ART_TEST_BISECTION:
env.ART_TEST_RUN_TEST_NO_PREBUILD = True
env.ART_TEST_RUN_TEST_PREBUILD = False
# Bisection search writes to standard output.
env.ART_TEST_QUIET = False
global _user_input_variants
global run_all_configs
# These are the default variant-options we will use if nothing in the group is specified.
default_variants = {
'target': {'host', 'target'},
'prebuild': {'prebuild'},
'cdex_level': {'cdex-fast'},
'jvmti': { 'no-jvmti'},
'compiler': {'optimizing',
'jit',
'interpreter',
'interp-ac',
'speed-profile'},
'relocate': {'no-relocate'},
'trace': {'ntrace'},
'gc': {'cms'},
'jni': {'checkjni'},
'image': {'picimage'},
'debuggable': {'ndebuggable'},
'run': {'debug'},
# address_sizes_target depends on the target so it is dealt with below.
}
# We want to pull these early since the full VARIANT_TYPE_DICT has a few additional ones we don't
# want to pick up if we pass --all.
default_variants_keys = default_variants.keys()
if run_all_configs:
default_variants = VARIANT_TYPE_DICT
for key in default_variants_keys:
if not _user_input_variants[key]:
_user_input_variants[key] = default_variants[key]
_user_input_variants['address_sizes_target'] = collections.defaultdict(set)
if not _user_input_variants['address_sizes']:
_user_input_variants['address_sizes_target']['target'].add(
env.ART_PHONY_TEST_TARGET_SUFFIX)
_user_input_variants['address_sizes_target']['host'].add(
env.ART_PHONY_TEST_HOST_SUFFIX)
if env.ART_TEST_RUN_TEST_2ND_ARCH:
_user_input_variants['address_sizes_target']['host'].add(
env.ART_2ND_PHONY_TEST_HOST_SUFFIX)
_user_input_variants['address_sizes_target']['target'].add(
env.ART_2ND_PHONY_TEST_TARGET_SUFFIX)
else:
_user_input_variants['address_sizes_target']['host'] = _user_input_variants['address_sizes']
_user_input_variants['address_sizes_target']['target'] = _user_input_variants['address_sizes']
global n_thread
if 'target' in _user_input_variants['target']:
device_name = get_device_name()
if n_thread == 0:
# Use only part of the cores since fully loading the device tends to lead to timeouts.
n_thread = max(1, int(get_target_cpu_count() * 0.75))
if device_name == 'fugu':
n_thread = 1
else:
device_name = "host"
if n_thread == 0:
n_thread = get_host_cpu_count()
print_text("Concurrency: {} ({})\n".format(n_thread, device_name))
global extra_arguments
for target in _user_input_variants['target']:
extra_arguments[target] = find_extra_device_arguments(target)
if not sys.stdout.isatty():
global COLOR_ERROR
global COLOR_PASS
global COLOR_SKIP
global COLOR_NORMAL
COLOR_ERROR = ''
COLOR_PASS = ''
COLOR_SKIP = ''
COLOR_NORMAL = ''
def find_extra_device_arguments(target):
"""
Gets any extra arguments from the device_config.
"""
device_name = target
if target == 'target':
device_name = get_device_name()
return device_config.get(device_name, { 'run-test-args' : [] })['run-test-args']
def get_device_name():
"""
Gets the value of ro.product.name from remote device (unless running on a VM).
"""
if env.ART_TEST_ON_VM:
return subprocess.Popen(f"{env.ART_SSH_CMD} uname -a".split(),
stdout = subprocess.PIPE,
universal_newlines=True).stdout.read().strip()
proc = subprocess.Popen(['adb', 'shell', 'getprop', 'ro.product.name'],
stderr=subprocess.STDOUT,
stdout = subprocess.PIPE,
universal_newlines=True)
# only wait 2 seconds.
timeout_val = 2
if env.ART_TEST_RUN_ON_ARM_FVP:
# Increase timeout to 200 seconds due to the emulation overhead on FVP.
timeout_val = 200
output = proc.communicate(timeout = timeout_val)[0]
success = not proc.wait()
if success:
return output.strip()
else:
print_text("Unable to determine device type!\n")
print_text("Continuing anyway.\n")
return "UNKNOWN_TARGET"
def run_tests(tests):
"""This method generates variants of the tests to be run and executes them.
Args:
tests: The set of tests to be run.
"""
options_all = ''
# jvm does not run with all these combinations,
# or at least it doesn't make sense for most of them.
# TODO: support some jvm variants like jvmti ?
target_input_variants = _user_input_variants['target']
uncombinated_target_input_variants = []
if 'jvm' in target_input_variants:
_user_input_variants['target'].remove('jvm')
uncombinated_target_input_variants.append('jvm')
global total_test_count
total_test_count = len(tests)
if target_input_variants:
for variant_type in VARIANT_TYPE_DICT:
if not (variant_type == 'target' or 'address_sizes' in variant_type):
total_test_count *= len(_user_input_variants[variant_type])
target_address_combinations = 0
for target in target_input_variants:
for address_size in _user_input_variants['address_sizes_target'][target]:
target_address_combinations += 1
target_address_combinations += len(uncombinated_target_input_variants)
total_test_count *= target_address_combinations
if env.ART_TEST_WITH_STRACE:
options_all += ' --strace'
if env.ART_TEST_RUN_TEST_ALWAYS_CLEAN:
options_all += ' --always-clean'
if env.ART_TEST_BISECTION:
options_all += ' --bisection-search'
if gdb:
options_all += ' --gdb'
if gdb_arg:
options_all += ' --gdb-arg ' + gdb_arg
if dump_cfg:
options_all += ' --dump-cfg ' + dump_cfg
if gdb_dex2oat:
options_all += ' --gdb-dex2oat'
if gdb_dex2oat_args:
options_all += ' --gdb-dex2oat-args ' + gdb_dex2oat_args
options_all += ' ' + ' '.join(run_test_option)
if runtime_option:
for opt in runtime_option:
options_all += ' --runtime-option ' + opt
if with_agent:
for opt in with_agent:
options_all += ' --with-agent ' + opt
if dex2oat_jobs != -1:
options_all += ' --dex2oat-jobs ' + str(dex2oat_jobs)
def iter_config(tests, input_variants, user_input_variants):
config = itertools.product(tests, input_variants, user_input_variants['run'],
user_input_variants['prebuild'], user_input_variants['compiler'],
user_input_variants['relocate'], user_input_variants['trace'],
user_input_variants['gc'], user_input_variants['jni'],
user_input_variants['image'],
user_input_variants['debuggable'], user_input_variants['jvmti'],
user_input_variants['cdex_level'])
return config
# [--host, --target] combines with all the other user input variants.
config = iter_config(tests, target_input_variants, _user_input_variants)
# [--jvm] currently combines with nothing else. most of the extra flags we'd insert
# would be unrecognizable by the 'java' binary, so avoid inserting any extra flags for now.
uncombinated_config = iter_config(tests, uncombinated_target_input_variants, { 'run': [''],
'prebuild': [''], 'compiler': [''],
'relocate': [''], 'trace': [''],
'gc': [''], 'jni': [''],
'image': [''],
'debuggable': [''], 'jvmti': [''],
'cdex_level': ['']})
def start_combination(executor, config_tuple, global_options, address_size):
test, target, run, prebuild, compiler, relocate, trace, gc, \
jni, image, debuggable, jvmti, cdex_level = config_tuple
# NB The order of components here should match the order of
# components in the regex parser in parse_test_name.
test_name = 'test-art-'
test_name += target + '-run-test-'
test_name += run + '-'
test_name += prebuild + '-'
test_name += compiler + '-'
test_name += relocate + '-'
test_name += trace + '-'
test_name += gc + '-'
test_name += jni + '-'
test_name += image + '-'
test_name += debuggable + '-'
test_name += jvmti + '-'
test_name += cdex_level + '-'
test_name += test
test_name += address_size
variant_set = {target, run, prebuild, compiler, relocate, trace, gc, jni,
image, debuggable, jvmti, cdex_level, address_size}
options_test = global_options
if target == 'host':
options_test += ' --host'
elif target == 'jvm':
options_test += ' --jvm'
# Honor ART_TEST_CHROOT, ART_TEST_ANDROID_ROOT, ART_TEST_ANDROID_ART_ROOT,
# ART_TEST_ANDROID_I18N_ROOT, and ART_TEST_ANDROID_TZDATA_ROOT but only
# for target tests.
if target == 'target':
if env.ART_TEST_CHROOT:
options_test += ' --chroot ' + env.ART_TEST_CHROOT
if env.ART_TEST_ANDROID_ROOT:
options_test += ' --android-root ' + env.ART_TEST_ANDROID_ROOT
if env.ART_TEST_ANDROID_I18N_ROOT:
options_test += ' --android-i18n-root ' + env.ART_TEST_ANDROID_I18N_ROOT
if env.ART_TEST_ANDROID_ART_ROOT:
options_test += ' --android-art-root ' + env.ART_TEST_ANDROID_ART_ROOT
if env.ART_TEST_ANDROID_TZDATA_ROOT:
options_test += ' --android-tzdata-root ' + env.ART_TEST_ANDROID_TZDATA_ROOT
if run == 'ndebug':
options_test += ' -O'
if prebuild == 'prebuild':
options_test += ' --prebuild'
elif prebuild == 'no-prebuild':
options_test += ' --no-prebuild'
if cdex_level:
# Add option and remove the cdex- prefix.
options_test += ' --compact-dex-level ' + cdex_level.replace('cdex-','')
if compiler == 'optimizing':
options_test += ' --optimizing'
elif compiler == 'regalloc_gc':
options_test += ' --optimizing -Xcompiler-option --register-allocation-strategy=graph-color'
elif compiler == 'interpreter':
options_test += ' --interpreter'
elif compiler == 'interp-ac':
options_test += ' --interpreter --verify-soft-fail'
elif compiler == 'jit':
options_test += ' --jit'
elif compiler == 'jit-on-first-use':
options_test += ' --jit --runtime-option -Xjitthreshold:0'
elif compiler == 'speed-profile':
options_test += ' --random-profile'
elif compiler == 'baseline':
options_test += ' --baseline'
if relocate == 'relocate':
options_test += ' --relocate'
elif relocate == 'no-relocate':
options_test += ' --no-relocate'
if trace == 'trace':
options_test += ' --trace'
elif trace == 'stream':
options_test += ' --trace --stream'
if gc == 'gcverify':
options_test += ' --gcverify'
elif gc == 'gcstress':
options_test += ' --gcstress'
if jni == 'forcecopy':
options_test += ' --runtime-option -Xjniopts:forcecopy'
elif jni == 'checkjni':
options_test += ' --runtime-option -Xcheck:jni'
if image == 'no-image':
options_test += ' --no-image'
if debuggable == 'debuggable':
options_test += ' --debuggable --runtime-option -Xopaque-jni-ids:true'
if jvmti == 'jvmti-stress':
options_test += ' --jvmti-trace-stress --jvmti-redefine-stress --jvmti-field-stress'
elif jvmti == 'field-stress':
options_test += ' --jvmti-field-stress'
elif jvmti == 'trace-stress':
options_test += ' --jvmti-trace-stress'
elif jvmti == 'redefine-stress':
options_test += ' --jvmti-redefine-stress'
elif jvmti == 'step-stress':
options_test += ' --jvmti-step-stress'
if address_size == '64':
options_test += ' --64'
# b/36039166: Note that the path lengths must kept reasonably short.
temp_path = tempfile.mkdtemp(dir=env.ART_HOST_TEST_DIR)
options_test = '--temp-path {} '.format(temp_path) + options_test
# Run the run-test script using the prebuilt python.
python3_bin = env.ANDROID_BUILD_TOP + "/prebuilts/build-tools/path/linux-x86/python3"
run_test_sh = python3_bin + ' ' + env.ANDROID_BUILD_TOP + '/art/test/run-test'
command = ' '.join((run_test_sh, options_test, ' '.join(extra_arguments[target]), test))
return executor.submit(run_test, command, test, variant_set, test_name)
# Use a context-manager to handle cleaning up the extracted zipapex if needed.
with handle_zipapex(zipapex_loc) as zipapex_opt:
options_all += zipapex_opt
global n_thread
with concurrent.futures.ThreadPoolExecutor(max_workers=n_thread) as executor:
test_futures = []
for config_tuple in config:
target = config_tuple[1]
for address_size in _user_input_variants['address_sizes_target'][target]:
test_futures.append(start_combination(executor, config_tuple, options_all, address_size))
for config_tuple in uncombinated_config:
test_futures.append(
start_combination(executor, config_tuple, options_all, "")) # no address size
try:
tests_done = 0
for test_future in concurrent.futures.as_completed(f for f in test_futures if f):
(test, status, failure_info, test_time) = test_future.result()
tests_done += 1
print_test_info(tests_done, test, status, failure_info, test_time)
if failure_info and not env.ART_TEST_KEEP_GOING:
for f in test_futures:
f.cancel()
break
except KeyboardInterrupt:
for f in test_futures:
f.cancel()
child_process_tracker.kill_all()
executor.shutdown(True)
@contextlib.contextmanager
def handle_zipapex(ziploc):
"""Extracts the zipapex (if present) and handles cleanup.
If we are running out of a zipapex we want to unzip it once and have all the tests use the same
extracted contents. This extracts the files and handles cleanup if needed. It returns the
required extra arguments to pass to the run-test.
"""
if ziploc is not None:
with tempfile.TemporaryDirectory() as tmpdir:
subprocess.check_call(["unzip", "-qq", ziploc, "apex_payload.zip", "-d", tmpdir])
subprocess.check_call(
["unzip", "-qq", os.path.join(tmpdir, "apex_payload.zip"), "-d", tmpdir])
yield " --runtime-extracted-zipapex " + tmpdir
else:
yield ""
def _popen(**kwargs):
if sys.version_info.major == 3 and sys.version_info.minor >= 6:
return subprocess.Popen(encoding=sys.stdout.encoding, **kwargs)
return subprocess.Popen(**kwargs)
def run_test(command, test, test_variant, test_name):
"""Runs the test.
It invokes art/test/run-test script to run the test. The output of the script
is checked, and if it ends with "Succeeded!", it assumes that the tests
passed, otherwise, put it in the list of failed test. Before actually running
the test, it also checks if the test is placed in the list of disabled tests,
and if yes, it skips running it, and adds the test in the list of skipped
tests.
Args:
command: The command to be used to invoke the script
test: The name of the test without the variant information.
test_variant: The set of variant for the test.
test_name: The name of the test along with the variants.
Returns: a tuple of testname, status, optional failure info, and test time.
"""
try:
if is_test_disabled(test, test_variant):
test_skipped = True
test_time = datetime.timedelta()
else:
test_skipped = False
test_start_time = time.monotonic()
if verbose:
print_text("Starting %s at %s\n" % (test_name, test_start_time))
env = dict(os.environ)
env["FULL_TEST_NAME"] = test_name
if gdb or gdb_dex2oat:
proc = _popen(
args=command.split(),
env=env,
stderr=subprocess.STDOUT,
universal_newlines=True,
start_new_session=True
)
else:
proc = _popen(
args=command.split(),
env=env,
stderr=subprocess.STDOUT,
stdout = subprocess.PIPE,
universal_newlines=True,
start_new_session=True,
)
script_output, return_value = child_process_tracker.wait(proc, timeout)
test_passed = not return_value
test_time_seconds = time.monotonic() - test_start_time
test_time = datetime.timedelta(seconds=test_time_seconds)
if not test_skipped:
if test_passed:
return (test_name, 'PASS', None, test_time)
else:
failed_tests.append((test_name, str(command) + "\n" + script_output))
return (test_name, 'FAIL', ('%s\n%s') % (command, script_output), test_time)
elif not dry_run:
skipped_tests.append(test_name)
return (test_name, 'SKIP', None, test_time)
else:
return (test_name, 'PASS', None, test_time)
except subprocess.TimeoutExpired as e:
if verbose:
print_text("Timeout of %s at %s\n" % (test_name, time.monotonic()))
test_time_seconds = time.monotonic() - test_start_time
test_time = datetime.timedelta(seconds=test_time_seconds)
failed_tests.append((test_name, 'Timed out in %d seconds' % timeout))
# HACK(b/142039427): Print extra backtraces on timeout.
if "-target-" in test_name and not env.ART_TEST_ON_VM:
for i in range(8):
proc_name = "dalvikvm" + test_name[-2:]
pidof = subprocess.run(["adb", "shell", "pidof", proc_name], stdout=subprocess.PIPE)
for pid in pidof.stdout.decode("ascii").split():
if i >= 4:
print_text("Backtrace of %s at %s\n" % (pid, time.monotonic()))
subprocess.run(["adb", "shell", "debuggerd", pid])
time.sleep(10)
task_dir = "/proc/%s/task" % pid
tids = subprocess.run(["adb", "shell", "ls", task_dir], stdout=subprocess.PIPE)
for tid in tids.stdout.decode("ascii").split():
for status in ["stat", "status"]:
filename = "%s/%s/%s" % (task_dir, tid, status)
print_text("Content of %s\n" % (filename))
subprocess.run(["adb", "shell", "cat", filename])
time.sleep(60)
# The python documentation states that it is necessary to actually kill the process.
os.killpg(proc.pid, signal.SIGKILL)
script_output = proc.communicate()
return (test_name, 'TIMEOUT', 'Timed out in %d seconds\n%s' % (timeout, command), test_time)
except Exception as e:
failed_tests.append((test_name, str(e)))
return (test_name, 'FAIL', ('%s\n%s\n\n') % (command, str(e)), datetime.timedelta())
def print_test_info(test_count, test_name, result, failed_test_info="",
test_time=datetime.timedelta()):
"""Print the continous test information
If verbose is set to True, it continuously prints test status information
on a new line.
If verbose is set to False, it keeps on erasing test
information by overriding it with the latest test information. Also,
in this case it stictly makes sure that the information length doesn't
exceed the console width. It does so by shortening the test_name.
When a test fails, it prints the output of the run-test script and
command used to invoke the script. It doesn't override the failing
test information in either of the cases.
"""
info = ''
if not verbose:
# Without --verbose, the testrunner erases passing test info. It
# does that by overriding the printed text with white spaces all across
# the console width.
console_width = int(os.popen('stty size', 'r').read().split()[1])
info = '\r' + ' ' * console_width + '\r'
try:
percent = (test_count * 100) / total_test_count
progress_info = ('[ %d%% %d/%d ]') % (
percent,
test_count,
total_test_count)
if test_time.total_seconds() != 0 and verbose:
info += '(%s)' % str(test_time)
if result == 'FAIL' or result == 'TIMEOUT':
if not verbose:
info += ('%s %s %s\n') % (
progress_info,
test_name,
COLOR_ERROR + result + COLOR_NORMAL)
else:
info += ('%s %s %s\n%s\n') % (
progress_info,
test_name,
COLOR_ERROR + result + COLOR_NORMAL,
failed_test_info)
else:
result_text = ''
if result == 'PASS':
result_text += COLOR_PASS + 'PASS' + COLOR_NORMAL
elif result == 'SKIP':
result_text += COLOR_SKIP + 'SKIP' + COLOR_NORMAL
if verbose:
info += ('%s %s %s\n') % (
progress_info,
test_name,
result_text)
else:
total_output_length = 2 # Two spaces
total_output_length += len(progress_info)
total_output_length += len(result)
allowed_test_length = console_width - total_output_length
test_name_len = len(test_name)
if allowed_test_length < test_name_len:
test_name = ('...%s') % (
test_name[-(allowed_test_length - 3):])
info += ('%s %s %s') % (
progress_info,
test_name,
result_text)
send_csv_result(test_name, result)
print_text(info)
except Exception as e:
print_text(('%s\n%s\n') % (test_name, str(e)))
failed_tests.append(test_name)
def verify_knownfailure_entry(entry):
supported_field = {
'tests' : (list, str),
'test_patterns' : (list,),
'description' : (list, str),
'bug' : (str,),
'variant' : (str,),
'devices': (list, str),
'env_vars' : (dict,),
'zipapex' : (bool,),
}
for field in entry:
field_type = type(entry[field])
if field_type not in supported_field[field]:
raise ValueError('%s is not supported type for %s\n%s' % (
str(field_type),
field,
str(entry)))
def get_disabled_test_info(device_name):
"""Generate set of known failures.
It parses the art/test/knownfailures.json file to generate the list of
disabled tests.
Returns:
The method returns a dict of tests mapped to the variants list
for which the test should not be run.
"""
known_failures_file = env.ANDROID_BUILD_TOP + '/art/test/knownfailures.json'
with open(known_failures_file) as known_failures_json:
known_failures_info = json.loads(known_failures_json.read())
disabled_test_info = {}
for failure in known_failures_info:
verify_knownfailure_entry(failure)
tests = failure.get('tests', [])
if isinstance(tests, str):
tests = [tests]
patterns = failure.get("test_patterns", [])
if (not isinstance(patterns, list)):
raise ValueError("test_patterns is not a list in %s" % failure)
tests += [f for f in RUN_TEST_SET if any(re.match(pat, f) is not None for pat in patterns)]
variants = parse_variants(failure.get('variant'))
# Treat a '"devices": "<foo>"' equivalent to 'target' variant if
# "foo" is present in "devices".
device_names = failure.get('devices', [])
if isinstance(device_names, str):
device_names = [device_names]
if len(device_names) != 0:
if device_name in device_names:
variants.add('target')
else:
# Skip adding test info as device_name is not present in "devices" entry.
continue
env_vars = failure.get('env_vars')
if check_env_vars(env_vars):
for test in tests:
if test not in RUN_TEST_SET:
raise ValueError('%s is not a valid run-test' % (
test))
if test in disabled_test_info:
disabled_test_info[test] = disabled_test_info[test].union(variants)
else:
disabled_test_info[test] = variants
zipapex_disable = failure.get("zipapex", False)
if zipapex_disable and zipapex_loc is not None:
for test in tests:
if test not in RUN_TEST_SET:
raise ValueError('%s is not a valid run-test' % (test))
if test in disabled_test_info:
disabled_test_info[test] = disabled_test_info[test].union(variants)
else:
disabled_test_info[test] = variants
return disabled_test_info
def gather_disabled_test_info():
global DISABLED_TEST_CONTAINER
device_name = get_device_name() if 'target' in _user_input_variants['target'] else None
DISABLED_TEST_CONTAINER = get_disabled_test_info(device_name)
def check_env_vars(env_vars):
"""Checks if the env variables are set as required to run the test.
Returns:
True if all the env variables are set as required, otherwise False.
"""
if not env_vars:
return True
for key in env_vars:
if env.get_env(key) != env_vars.get(key):
return False
return True
def is_test_disabled(test, variant_set):
"""Checks if the test along with the variant_set is disabled.
Args:
test: The name of the test as in art/test directory.
variant_set: Variants to be used for the test.
Returns:
True, if the test is disabled.
"""
if dry_run:
return True
if test in env.EXTRA_DISABLED_TESTS:
return True
if ignore_skips:
return False
variants_list = DISABLED_TEST_CONTAINER.get(test, {})
for variants in variants_list:
variants_present = True
for variant in variants:
if variant not in variant_set:
variants_present = False
break
if variants_present:
return True
for bad_combo in NONFUNCTIONAL_VARIANT_SETS:
if bad_combo.issubset(variant_set):
return True
return False
def parse_variants(variants):
"""Parse variants fetched from art/test/knownfailures.json.
"""
if not variants:
variants = ''
for variant in TOTAL_VARIANTS_SET:
variants += variant
variants += '|'
variants = variants[:-1]
variant_list = set()
or_variants = variants.split('|')
for or_variant in or_variants:
and_variants = or_variant.split('&')
variant = set()
for and_variant in and_variants:
and_variant = and_variant.strip()
if and_variant not in TOTAL_VARIANTS_SET:
raise ValueError('%s is not a valid variant' % (
and_variant))
variant.add(and_variant)
variant_list.add(frozenset(variant))
return variant_list
def print_text(output):
sys.stdout.write(output)
sys.stdout.flush()
def print_analysis():
if not verbose:
# Without --verbose, the testrunner erases passing test info. It
# does that by overriding the printed text with white spaces all across
# the console width.
console_width = int(os.popen('stty size', 'r').read().split()[1])
eraser_text = '\r' + ' ' * console_width + '\r'
print_text(eraser_text)
# Prints information about the total tests run.
# E.g., "2/38 (5%) tests passed".
passed_test_count = total_test_count - len(skipped_tests) - len(failed_tests)
passed_test_information = ('%d/%d (%d%%) %s passed.\n') % (
passed_test_count,
total_test_count,
(passed_test_count*100)/total_test_count,
'tests' if passed_test_count > 1 else 'test')
print_text(passed_test_information)
# Prints the list of skipped tests, if any.
if skipped_tests:
print_text(COLOR_SKIP + 'SKIPPED TESTS: ' + COLOR_NORMAL + '\n')
for test in skipped_tests:
print_text(test + '\n')
print_text('\n')
# Prints the list of failed tests, if any.
if failed_tests:
print_text(COLOR_ERROR + 'FAILED: ' + COLOR_NORMAL + '\n')
for test_info in failed_tests:
print_text(('%s\n%s\n' % (test_info[0], test_info[1])))
print_text(COLOR_ERROR + '----------' + COLOR_NORMAL + '\n')
for failed_test in sorted([test_info[0] for test_info in failed_tests]):
print_text(('%s\n' % (failed_test)))
test_name_matcher = None
def extract_test_name(test_name):
"""Parses the test name and returns all the parts"""
global test_name_matcher
if test_name_matcher is None:
regex = '^test-art-'
regex += '(' + '|'.join(VARIANT_TYPE_DICT['target']) + ')-'
regex += 'run-test-'
regex += '(' + '|'.join(VARIANT_TYPE_DICT['run']) + ')-'
regex += '(' + '|'.join(VARIANT_TYPE_DICT['prebuild']) + ')-'
regex += '(' + '|'.join(VARIANT_TYPE_DICT['compiler']) + ')-'
regex += '(' + '|'.join(VARIANT_TYPE_DICT['relocate']) + ')-'
regex += '(' + '|'.join(VARIANT_TYPE_DICT['trace']) + ')-'
regex += '(' + '|'.join(VARIANT_TYPE_DICT['gc']) + ')-'
regex += '(' + '|'.join(VARIANT_TYPE_DICT['jni']) + ')-'
regex += '(' + '|'.join(VARIANT_TYPE_DICT['image']) + ')-'
regex += '(' + '|'.join(VARIANT_TYPE_DICT['debuggable']) + ')-'
regex += '(' + '|'.join(VARIANT_TYPE_DICT['jvmti']) + ')-'
regex += '(' + '|'.join(VARIANT_TYPE_DICT['cdex_level']) + ')-'
regex += '(' + '|'.join(RUN_TEST_SET) + ')'
regex += '(' + '|'.join(VARIANT_TYPE_DICT['address_sizes']) + ')$'
test_name_matcher = re.compile(regex)
match = test_name_matcher.match(test_name)
if match:
return list(match.group(i) for i in range(1,15))
raise ValueError(test_name + " is not a valid test")
def parse_test_name(test_name):
"""Parses the testname provided by the user.
It supports two types of test_name:
1) Like 001-HelloWorld. In this case, it will just verify if the test actually
exists and if it does, it returns the testname.
2) Like test-art-host-run-test-debug-prebuild-interpreter-no-relocate-ntrace-cms-checkjni-pointer-ids-picimage-ndebuggable-001-HelloWorld32
In this case, it will parse all the variants and check if they are placed
correctly. If yes, it will set the various VARIANT_TYPES to use the
variants required to run the test. Again, it returns the test_name
without the variant information like 001-HelloWorld.
"""
test_set = set()
for test in RUN_TEST_SET:
if test.startswith(test_name):
test_set.add(test)
if test_set:
return test_set
parsed = extract_test_name(test_name)
_user_input_variants['target'].add(parsed[0])
_user_input_variants['run'].add(parsed[1])
_user_input_variants['prebuild'].add(parsed[2])
_user_input_variants['compiler'].add(parsed[3])
_user_input_variants['relocate'].add(parsed[4])
_user_input_variants['trace'].add(parsed[5])
_user_input_variants['gc'].add(parsed[6])
_user_input_variants['jni'].add(parsed[7])
_user_input_variants['image'].add(parsed[8])
_user_input_variants['debuggable'].add(parsed[9])
_user_input_variants['jvmti'].add(parsed[10])
_user_input_variants['cdex_level'].add(parsed[11])
_user_input_variants['address_sizes'].add(parsed[13])
return {parsed[12]}
def get_target_cpu_count():
if env.ART_TEST_ON_VM:
command = f"{env.ART_SSH_CMD} cat /sys/devices/system/cpu/present"
else:
command = 'adb shell cat /sys/devices/system/cpu/present'
cpu_info_proc = subprocess.Popen(command.split(), stdout=subprocess.PIPE)
cpu_info = cpu_info_proc.stdout.read()
if type(cpu_info) is bytes:
cpu_info = cpu_info.decode('utf-8')
cpu_info_regex = r'\d*-(\d*)'
match = re.match(cpu_info_regex, cpu_info)
if match:
return int(match.group(1)) + 1 # Add one to convert from "last-index" to "count"
else:
raise ValueError('Unable to predict the concurrency for the target. '
'Is device connected?')
def get_host_cpu_count():
return multiprocessing.cpu_count()
def parse_option():
global verbose
global dry_run
global ignore_skips
global n_thread
global build
global dist
global gdb
global gdb_arg
global dump_cfg
global gdb_dex2oat
global gdb_dex2oat_args
global runtime_option
global run_test_option
global timeout
global dex2oat_jobs
global run_all_configs
global with_agent
global zipapex_loc
global csv_result
parser = argparse.ArgumentParser(description="Runs all or a subset of the ART test suite.")
parser.add_argument('tests', action='extend', nargs="*", help='name(s) of the test(s)')
parser.add_argument('-t', '--test', action='append', dest='tests', help='name(s) of the test(s)'
' (deprecated: use positional arguments at the end without any option instead)')
global_group = parser.add_argument_group('Global options',
'Options that affect all tests being run')
global_group.add_argument('-j', type=int, dest='n_thread', help="""Number of CPUs to use.
Defaults to half of CPUs on target and all CPUs on host.""")
global_group.add_argument('--timeout', default=timeout, type=int, dest='timeout')
global_group.add_argument('--verbose', '-v', action='store_true', dest='verbose')
global_group.add_argument('--dry-run', action='store_true', dest='dry_run')
global_group.add_argument("--skip", action='append', dest="skips", default=[],
help="Skip the given test in all circumstances.")
global_group.add_argument("--no-skips", dest="ignore_skips", action='store_true', default=False,
help="""Don't skip any run-test configurations listed in
knownfailures.json.""")
global_group.add_argument('--no-build-dependencies',
action='store_false', dest='build',
help="""Don't build dependencies under any circumstances. This is the
behavior if ART_TEST_RUN_TEST_ALWAYS_BUILD is not set to 'true'.""")
global_group.add_argument('-b', '--build-dependencies',
action='store_true', dest='build',
help="""Build dependencies under all circumstances. By default we will
not build dependencies unless ART_TEST_RUN_TEST_BUILD=true.""")
global_group.add_argument('--dist',
action='store_true', dest='dist',
help="""If dependencies are to be built, pass `dist` to the build
command line. You may want to also set the DIST_DIR environment
variable when using this flag.""")
global_group.set_defaults(build = env.ART_TEST_RUN_TEST_BUILD)
global_group.add_argument('--gdb', action='store_true', dest='gdb')
global_group.add_argument('--gdb-arg', dest='gdb_arg')
global_group.add_argument('--dump-cfg', dest='dump_cfg',
help="""Dump the CFG to the specified host path.
Example \"--dump-cfg <full-path>/graph.cfg\".""")
global_group.add_argument('--gdb-dex2oat', action='store_true', dest='gdb_dex2oat')
global_group.add_argument('--gdb-dex2oat-args', dest='gdb_dex2oat_args')
global_group.add_argument('--run-test-option', action='append', dest='run_test_option',
default=[],
help="""Pass an option, unaltered, to the run-test script.
This should be enclosed in single-quotes to allow for spaces. The option
will be split using shlex.split() prior to invoking run-test.
Example \"--run-test-option='--with-agent libtifast.so=MethodExit'\".""")
global_group.add_argument('--with-agent', action='append', dest='with_agent',
help="""Pass an agent to be attached to the runtime""")
global_group.add_argument('--runtime-option', action='append', dest='runtime_option',
help="""Pass an option to the runtime. Runtime options
starting with a '-' must be separated by a '=', for
example '--runtime-option=-Xjitthreshold:0'.""")
global_group.add_argument('--dex2oat-jobs', type=int, dest='dex2oat_jobs',
help='Number of dex2oat jobs')
global_group.add_argument('--runtime-zipapex', dest='runtime_zipapex', default=None,
help='Location for runtime zipapex.')
global_group.add_argument('-a', '--all', action='store_true', dest='run_all',
help="Run all the possible configurations for the input test set")
global_group.add_argument('--csv-results', action='store', dest='csv_result', default=None,
type=argparse.FileType('w'), help='Store a CSV record of all results.')
for variant_type, variant_set in VARIANT_TYPE_DICT.items():
var_group = parser.add_argument_group(
'{}-type Options'.format(variant_type),
"Options that control the '{}' variants.".format(variant_type))
var_group.add_argument('--all-' + variant_type,
action='store_true',
dest='all_' + variant_type,
help='Enable all variants of ' + variant_type)
for variant in variant_set:
flag = '--' + variant
var_group.add_argument(flag, action='store_true', dest=variant)
options = vars(parser.parse_args())
if options['csv_result'] is not None:
csv_result = options['csv_result']
setup_csv_result()
# Handle the --all-<type> meta-options
for variant_type, variant_set in VARIANT_TYPE_DICT.items():
if options['all_' + variant_type]:
for variant in variant_set:
options[variant] = True
tests = None
env.EXTRA_DISABLED_TESTS.update(set(options['skips']))
if options['tests']:
tests = set()
for test_name in options['tests']:
tests |= parse_test_name(test_name)
for variant_type in VARIANT_TYPE_DICT:
for variant in VARIANT_TYPE_DICT[variant_type]:
if options.get(variant):
_user_input_variants[variant_type].add(variant)
if options['verbose']:
verbose = True
if options['n_thread']:
n_thread = max(1, options['n_thread'])
ignore_skips = options['ignore_skips']
if options['dry_run']:
dry_run = True
verbose = True
build = options['build']
dist = options['dist']
if options['gdb']:
n_thread = 1
gdb = True
if options['gdb_arg']:
gdb_arg = options['gdb_arg']
if options['dump_cfg']:
dump_cfg = options['dump_cfg']
if options['gdb_dex2oat']:
n_thread = 1
gdb_dex2oat = True
if options['gdb_dex2oat_args']:
gdb_dex2oat_args = options['gdb_dex2oat_args']
runtime_option = options['runtime_option'];
with_agent = options['with_agent'];
run_test_option = sum(map(shlex.split, options['run_test_option']), [])
zipapex_loc = options['runtime_zipapex']
timeout = options['timeout']
if options['dex2oat_jobs']:
dex2oat_jobs = options['dex2oat_jobs']
if options['run_all']:
run_all_configs = True
return tests or RUN_TEST_SET
def main():
gather_test_info()
tests = parse_option()
setup_test_env()
gather_disabled_test_info()
if build:
build_targets = []
# Build only the needed shards (depending on the selected tests).
shards = set(re.search("(\d\d)-", t).group(1) for t in tests)
if any("hiddenapi" in t for t in tests):
shards.add("HiddenApi") # Include special HiddenApi shard.
for mode in ['host', 'target', 'jvm']:
if mode in _user_input_variants['target']:
build_targets += ['test-art-{}-run-test-dependencies'.format(mode)]
if len(shards) >= 100:
build_targets += ["art-run-test-{}-data".format(mode)] # Build all.
else:
build_targets += ["art-run-test-{}-data-shard{}".format(mode, s) for s in shards]
build_command = env.ANDROID_BUILD_TOP + '/build/soong/soong_ui.bash --make-mode'
build_command += ' D8='
if dist:
build_command += ' dist'
build_command += ' ' + ' '.join(build_targets)
print_text('Build command: %s\n' % build_command)
if subprocess.call(build_command.split()):
# Debugging for b/62653020
if env.DIST_DIR:
shutil.copyfile(env.SOONG_OUT_DIR + '/build.ninja', env.DIST_DIR + '/soong.ninja')
sys.exit(1)
run_tests(tests)
print_analysis()
close_csv_file()
exit_code = 0 if len(failed_tests) == 0 else 1
sys.exit(exit_code)
if __name__ == '__main__':
main()