#! /usr/bin/env vpython3 # # Copyright 2020 The ANGLE Project Authors. All rights reserved. # Use of this source code is governed by a BSD-style license that can be # found in the LICENSE file. # """ Script testing capture_replay with angle_end2end_tests """ # Automation script will: # 1. Build all tests in angle_end2end with frame capture enabled # 2. Run each test with frame capture # 3. Build CaptureReplayTest with cpp trace files # 4. Run CaptureReplayTest # 5. Output the number of test successes and failures. A test succeeds if no error occurs during # its capture and replay, and the GL states at the end of two runs match. Any unexpected failure # will return non-zero exit code # Run this script with Python to test capture replay on angle_end2end tests # python path/to/capture_replay_tests.py # Command line arguments: run with --help for a full list. import argparse import difflib import distutils.util import fnmatch import json import logging import math import multiprocessing import os import psutil import queue import re import shutil import subprocess import sys import time import traceback PIPE_STDOUT = True DEFAULT_OUT_DIR = "out/CaptureReplayTest" # relative to angle folder DEFAULT_FILTER = "*/ES2_Vulkan_SwiftShader" DEFAULT_TEST_SUITE = "angle_end2end_tests" REPLAY_SAMPLE_FOLDER = "src/tests/capture_replay_tests" # relative to angle folder DEFAULT_BATCH_COUNT = 8 # number of tests batched together TRACE_FILE_SUFFIX = "_context" # because we only deal with 1 context right now RESULT_TAG = "*RESULT" STATUS_MESSAGE_PERIOD = 20 # in seconds SUBPROCESS_TIMEOUT = 600 # in seconds DEFAULT_RESULT_FILE = "results.txt" DEFAULT_LOG_LEVEL = "info" DEFAULT_MAX_JOBS = 8 DEFAULT_MAX_NINJA_JOBS = 3 REPLAY_BINARY = "capture_replay_tests" if sys.platform == "win32": REPLAY_BINARY += ".exe" TRACE_FOLDER = "traces" EXIT_SUCCESS = 0 EXIT_FAILURE = 1 switch_case_without_return_template = """\ case {case}: {namespace}::{call}({params}); break; """ switch_case_with_return_template = """\ case {case}: return {namespace}::{call}({params}); """ default_case_without_return_template = """\ default: break;""" default_case_with_return_template = """\ default: return {default_val};""" def winext(name, ext): return ("%s.%s" % (name, ext)) if sys.platform == "win32" else name def AutodetectGoma(): return winext('compiler_proxy', 'exe') in (p.name() for p in psutil.process_iter()) class SubProcess(): def __init__(self, command, logger, env=os.environ, pipe_stdout=PIPE_STDOUT): # shell=False so that only 1 subprocess is spawned. # if shell=True, a shell process is spawned, which in turn spawns the process running # the command. Since we do not have a handle to the 2nd process, we cannot terminate it. if pipe_stdout: self.proc_handle = subprocess.Popen( command, env=env, stdout=subprocess.PIPE, stderr=subprocess.STDOUT, shell=False) else: self.proc_handle = subprocess.Popen(command, env=env, shell=False) self._logger = logger def Join(self, timeout): self._logger.debug('Joining with subprocess %d, timeout %s' % (self.Pid(), str(timeout))) output = self.proc_handle.communicate(timeout=timeout)[0] if output: output = output.decode('utf-8') else: output = '' return self.proc_handle.returncode, output def Pid(self): return self.proc_handle.pid def Kill(self): self.proc_handle.terminate() self.proc_handle.wait() # class that manages all child processes of a process. Any process thats spawns subprocesses # should have this. This object is created inside the main process, and each worker process. class ChildProcessesManager(): @classmethod def _GetGnAndNinjaAbsolutePaths(self): path = os.path.join('third_party', 'depot_tools') return os.path.join(path, winext('gn', 'bat')), os.path.join(path, winext('ninja', 'exe')) def __init__(self, args, logger, ninja_lock): # a dictionary of Subprocess, with pid as key self.subprocesses = {} # list of Python multiprocess.Process handles self.workers = [] self._gn_path, self._ninja_path = self._GetGnAndNinjaAbsolutePaths() self._use_goma = AutodetectGoma() self._logger = logger self._ninja_lock = ninja_lock self.runtimes = {} self._args = args def RunSubprocess(self, command, env=None, pipe_stdout=True, timeout=None): proc = SubProcess(command, self._logger, env, pipe_stdout) self._logger.debug('Created subprocess: %s with pid %d' % (' '.join(command), proc.Pid())) self.subprocesses[proc.Pid()] = proc start_time = time.time() try: returncode, output = self.subprocesses[proc.Pid()].Join(timeout) elapsed_time = time.time() - start_time cmd_name = os.path.basename(command[0]) self.runtimes.setdefault(cmd_name, 0.0) self.runtimes[cmd_name] += elapsed_time self.RemoveSubprocess(proc.Pid()) if returncode != 0: return -1, output return returncode, output except KeyboardInterrupt: raise except subprocess.TimeoutExpired as e: self.RemoveSubprocess(proc.Pid()) return -2, str(e) except Exception as e: self.RemoveSubprocess(proc.Pid()) return -1, str(e) def RemoveSubprocess(self, subprocess_id): assert subprocess_id in self.subprocesses self.subprocesses[subprocess_id].Kill() del self.subprocesses[subprocess_id] def AddWorker(self, worker): self.workers.append(worker) def KillAll(self): for subprocess_id in self.subprocesses: self.subprocesses[subprocess_id].Kill() for worker in self.workers: worker.terminate() worker.join() worker.close() # to release file descriptors immediately self.subprocesses = {} self.workers = [] def JoinWorkers(self): for worker in self.workers: worker.join() worker.close() self.workers = [] def IsAnyWorkerAlive(self): return any([worker.is_alive() for worker in self.workers]) def GetRemainingWorkers(self): count = 0 for worker in self.workers: if worker.is_alive(): count += 1 return count def RunGNGen(self, build_dir, pipe_stdout, extra_gn_args=[]): gn_args = [('angle_with_capture_by_default', 'true')] + extra_gn_args if self._use_goma: gn_args.append(('use_goma', 'true')) if self._args.goma_dir: gn_args.append(('goma_dir', '"%s"' % self._args.goma_dir)) if not self._args.debug: gn_args.append(('is_debug', 'false')) gn_args.append(('symbol_level', '1')) gn_args.append(('angle_assert_always_on', 'true')) if self._args.asan: gn_args.append(('is_asan', 'true')) args_str = ' '.join(['%s=%s' % (k, v) for (k, v) in gn_args]) cmd = [self._gn_path, 'gen', '--args=%s' % args_str, build_dir] self._logger.info(' '.join(cmd)) return self.RunSubprocess(cmd, pipe_stdout=pipe_stdout) def RunNinja(self, build_dir, target, pipe_stdout): cmd = [self._ninja_path] # This code is taken from depot_tools/autoninja.py if self._use_goma: num_cores = multiprocessing.cpu_count() cmd.append('-j') core_multiplier = 40 j_value = num_cores * core_multiplier if sys.platform.startswith('win'): # On windows, j value higher than 1000 does not improve build performance. j_value = min(j_value, 1000) elif sys.platform == 'darwin': # On Mac, j value higher than 500 causes 'Too many open files' error # (crbug.com/936864). j_value = min(j_value, 500) cmd.append('%d' % j_value) else: cmd.append('-l') cmd.append('%d' % os.cpu_count()) cmd += ['-C', build_dir, target] with self._ninja_lock: self._logger.info(' '.join(cmd)) return self.RunSubprocess(cmd, pipe_stdout=pipe_stdout) def GetTestsListForFilter(args, test_path, filter, logger): cmd = GetRunCommand(args, test_path) + ["--list-tests", "--gtest_filter=%s" % filter] logger.info('Getting test list from "%s"' % " ".join(cmd)) return subprocess.check_output(cmd, text=True) def ParseTestNamesFromTestList(output, test_expectation, also_run_skipped_for_capture_tests, logger): output_lines = output.splitlines() tests = [] seen_start_of_tests = False disabled = 0 for line in output_lines: l = line.strip() if l == 'Tests list:': seen_start_of_tests = True elif l == 'End tests list.': break elif not seen_start_of_tests: pass elif not test_expectation.TestIsSkippedForCapture(l) or also_run_skipped_for_capture_tests: tests.append(l) else: disabled += 1 logger.info('Found %s tests and %d disabled tests.' % (len(tests), disabled)) return tests def GetRunCommand(args, command): if args.xvfb: return ['vpython', 'testing/xvfb.py', command] else: return [command] class GroupedResult(): Passed = "Pass" Failed = "Fail" TimedOut = "Timeout" Crashed = "Crashed" CompileFailed = "CompileFailed" Skipped = "Skipped" ResultTypes = [Passed, Failed, TimedOut, Crashed, CompileFailed, Skipped] def __init__(self, resultcode, message, output, tests): self.resultcode = resultcode self.message = message self.output = output self.tests = [] for test in tests: self.tests.append(test) class TestBatchResult(): display_output_lines = 20 def __init__(self, grouped_results, verbose): self.results = {} for result_type in GroupedResult.ResultTypes: self.results[result_type] = [] for grouped_result in grouped_results: for test in grouped_result.tests: self.results[grouped_result.resultcode].append(test.full_test_name) self.repr_str = "" self.GenerateRepresentationString(grouped_results, verbose) def __str__(self): return self.repr_str def GenerateRepresentationString(self, grouped_results, verbose): for grouped_result in grouped_results: self.repr_str += grouped_result.resultcode + ": " + grouped_result.message + "\n" for test in grouped_result.tests: self.repr_str += "\t" + test.full_test_name + "\n" if verbose: self.repr_str += grouped_result.output else: if grouped_result.resultcode == GroupedResult.CompileFailed: self.repr_str += TestBatchResult.ExtractErrors(grouped_result.output) elif grouped_result.resultcode != GroupedResult.Passed: self.repr_str += TestBatchResult.GetAbbreviatedOutput(grouped_result.output) def ExtractErrors(output): lines = output.splitlines() error_lines = [] for i in range(len(lines)): if ": error:" in lines[i]: error_lines.append(lines[i] + "\n") if i + 1 < len(lines): error_lines.append(lines[i + 1] + "\n") return "".join(error_lines) def GetAbbreviatedOutput(output): # Get all lines after and including the last occurance of "Run". lines = output.splitlines() line_count = 0 for line_index in reversed(range(len(lines))): line_count += 1 if "[ RUN ]" in lines[line_index]: break return '\n' + '\n'.join(lines[-line_count:]) + '\n' class Test(): def __init__(self, test_name): self.full_test_name = test_name self.params = test_name.split('/')[1] self.context_id = 0 self.test_index = -1 # index of test within a test batch self._label = self.full_test_name.replace(".", "_").replace("/", "_") def __str__(self): return self.full_test_name + " Params: " + self.params def GetLabel(self): return self._label def CanRunReplay(self, trace_folder_path): test_files = [] label = self.GetLabel() assert (self.context_id == 0) for f in os.listdir(trace_folder_path): if os.path.isfile(os.path.join(trace_folder_path, f)) and f.startswith(label): test_files.append(f) frame_files_count = 0 context_header_count = 0 context_source_count = 0 source_json_count = 0 context_id = 0 for f in test_files: if "_001.cpp" in f: frame_files_count += 1 elif f.endswith(".json"): source_json_count += 1 elif f.endswith(".h"): context_header_count += 1 if TRACE_FILE_SUFFIX in f: context = f.split(TRACE_FILE_SUFFIX)[1][:-2] context_id = int(context) elif f.endswith(".cpp"): context_source_count += 1 can_run_replay = frame_files_count >= 1 and context_header_count >= 1 \ and context_source_count >= 1 and source_json_count == 1 if not can_run_replay: return False self.context_id = context_id return True def _FormatEnv(env): return ' '.join(['%s=%s' % (k, v) for (k, v) in env.items()]) class TestBatch(): CAPTURE_FRAME_END = 100 def __init__(self, args, logger): self.args = args self.tests = [] self.results = [] self.logger = logger def SetWorkerId(self, worker_id): self.trace_dir = "%s%d" % (TRACE_FOLDER, worker_id) self.trace_folder_path = os.path.join(REPLAY_SAMPLE_FOLDER, self.trace_dir) def RunWithCapture(self, args, child_processes_manager): test_exe_path = os.path.join(args.out_dir, 'Capture', args.test_suite) extra_env = { 'ANGLE_CAPTURE_FRAME_END': '{}'.format(self.CAPTURE_FRAME_END), 'ANGLE_CAPTURE_SERIALIZE_STATE': '1', 'ANGLE_FEATURE_OVERRIDES_ENABLED': 'forceRobustResourceInit:forceInitShaderVariables', 'ANGLE_CAPTURE_ENABLED': '1', 'ANGLE_CAPTURE_OUT_DIR': self.trace_folder_path, } if args.expose_nonconformant_features: extra_env[ 'ANGLE_FEATURE_OVERRIDES_ENABLED'] += ':exposeNonConformantExtensionsAndVersions' env = {**os.environ.copy(), **extra_env} if not self.args.keep_temp_files: ClearFolderContent(self.trace_folder_path) filt = ':'.join([test.full_test_name for test in self.tests]) cmd = GetRunCommand(args, test_exe_path) cmd += ['--gtest_filter=%s' % filt, '--angle-per-test-capture-label'] self.logger.info('%s %s' % (_FormatEnv(extra_env), ' '.join(cmd))) returncode, output = child_processes_manager.RunSubprocess( cmd, env, timeout=SUBPROCESS_TIMEOUT) if args.show_capture_stdout: self.logger.info("Capture stdout: %s" % output) if returncode == -1: self.results.append(GroupedResult(GroupedResult.Crashed, "", output, self.tests)) return False elif returncode == -2: self.results.append(GroupedResult(GroupedResult.TimedOut, "", "", self.tests)) return False return True def RemoveTestsThatDoNotProduceAppropriateTraceFiles(self): continued_tests = [] skipped_tests = [] for test in self.tests: if not test.CanRunReplay(self.trace_folder_path): skipped_tests.append(test) else: continued_tests.append(test) if len(skipped_tests) > 0: self.results.append( GroupedResult( GroupedResult.Skipped, "Skipping replay since capture didn't produce necessary trace files", "", skipped_tests)) return continued_tests def BuildReplay(self, replay_build_dir, composite_file_id, tests, child_processes_manager): # write gni file that holds all the traces files in a list self.CreateTestNamesFile(composite_file_id, tests) gn_args = [('angle_build_capture_replay_tests', 'true'), ('angle_capture_replay_test_trace_dir', '"%s"' % self.trace_dir), ('angle_capture_replay_composite_file_id', str(composite_file_id))] returncode, output = child_processes_manager.RunGNGen(replay_build_dir, True, gn_args) if returncode != 0: self.logger.warning('GN failure output: %s' % output) self.results.append( GroupedResult(GroupedResult.CompileFailed, "Build replay failed at gn generation", output, tests)) return False returncode, output = child_processes_manager.RunNinja(replay_build_dir, REPLAY_BINARY, True) if returncode != 0: self.logger.warning('Ninja failure output: %s' % output) self.results.append( GroupedResult(GroupedResult.CompileFailed, "Build replay failed at ninja", output, tests)) return False return True def RunReplay(self, replay_build_dir, replay_exe_path, child_processes_manager, tests, expose_nonconformant_features): extra_env = { 'ANGLE_CAPTURE_ENABLED': '0', 'ANGLE_FEATURE_OVERRIDES_ENABLED': 'enable_capture_limits', } if expose_nonconformant_features: extra_env[ 'ANGLE_FEATURE_OVERRIDES_ENABLED'] += ':exposeNonConformantExtensionsAndVersions' env = {**os.environ.copy(), **extra_env} run_cmd = GetRunCommand(self.args, replay_exe_path) self.logger.info('%s %s' % (_FormatEnv(extra_env), ' '.join(run_cmd))) returncode, output = child_processes_manager.RunSubprocess( run_cmd, env, timeout=SUBPROCESS_TIMEOUT) if returncode == -1: cmd = replay_exe_path self.results.append( GroupedResult(GroupedResult.Crashed, "Replay run crashed (%s)" % cmd, output, tests)) return elif returncode == -2: self.results.append( GroupedResult(GroupedResult.TimedOut, "Replay run timed out", output, tests)) return output_lines = output.splitlines() passes = [] fails = [] count = 0 for output_line in output_lines: words = output_line.split(" ") if len(words) == 3 and words[0] == RESULT_TAG: if int(words[2]) == 0: passes.append(self.FindTestByLabel(words[1])) else: fails.append(self.FindTestByLabel(words[1])) self.logger.info("Context comparison failed: {}".format( self.FindTestByLabel(words[1]))) self.PrintContextDiff(replay_build_dir, words[1]) count += 1 if len(passes) > 0: self.results.append(GroupedResult(GroupedResult.Passed, "", output, passes)) if len(fails) > 0: self.results.append(GroupedResult(GroupedResult.Failed, "", output, fails)) def PrintContextDiff(self, replay_build_dir, test_name): frame = 1 while True: capture_file = "{}/{}_ContextCaptured{}.json".format(replay_build_dir, test_name, frame) replay_file = "{}/{}_ContextReplayed{}.json".format(replay_build_dir, test_name, frame) if os.path.exists(capture_file) and os.path.exists(replay_file): captured_context = open(capture_file, "r").readlines() replayed_context = open(replay_file, "r").readlines() for line in difflib.unified_diff( captured_context, replayed_context, fromfile=capture_file, tofile=replay_file): print(line, end="") else: if frame > self.CAPTURE_FRAME_END: break frame = frame + 1 def FindTestByLabel(self, label): for test in self.tests: if test.GetLabel() == label: return test return None def AddTest(self, test): assert len(self.tests) <= self.args.batch_count test.index = len(self.tests) self.tests.append(test) def CreateTestNamesFile(self, composite_file_id, tests): data = {'traces': [test.GetLabel() for test in tests]} names_path = os.path.join(self.trace_folder_path, 'test_names_%d.json' % composite_file_id) with open(names_path, 'w') as f: f.write(json.dumps(data)) def __str__(self): repr_str = "TestBatch:\n" for test in self.tests: repr_str += ("\t" + str(test) + "\n") return repr_str def __getitem__(self, index): assert index < len(self.tests) return self.tests[index] def __iter__(self): return iter(self.tests) def GetResults(self): return TestBatchResult(self.results, self.args.verbose) class TestExpectation(): # tests that must not be run as list skipped_for_capture_tests = {} skipped_for_capture_tests_re = {} # test expectations for tests that do not pass non_pass_results = {} # tests that must run in a one-test batch run_single = {} run_single_re = {} flaky_tests = [] non_pass_re = {} # yapf: disable # we want each pair on one line result_map = { "FAIL" : GroupedResult.Failed, "TIMEOUT" : GroupedResult.TimedOut, "CRASH" : GroupedResult.Crashed, "COMPILE_FAIL" : GroupedResult.CompileFailed, "NOT_RUN" : GroupedResult.Skipped, "SKIP_FOR_CAPTURE" : GroupedResult.Skipped, "PASS" : GroupedResult.Passed} # yapf: enable def __init__(self, args): expected_results_filename = "capture_replay_expectations.txt" expected_results_path = os.path.join(REPLAY_SAMPLE_FOLDER, expected_results_filename) self._asan = args.asan with open(expected_results_path, "rt") as f: for line in f: l = line.strip() if l != "" and not l.startswith("#"): self.ReadOneExpectation(l, args.debug) def _CheckTagsWithConfig(self, tags, config_tags): for tag in tags: if tag not in config_tags: return False return True def ReadOneExpectation(self, line, is_debug): (testpattern, result) = line.split('=') (test_info_string, test_name_string) = testpattern.split(':') test_name = test_name_string.strip() test_info = test_info_string.strip().split() result_stripped = result.strip() tags = [] if len(test_info) > 1: tags = test_info[1:] config_tags = [GetPlatformForSkip()] if self._asan: config_tags += ['ASAN'] if is_debug: config_tags += ['DEBUG'] if self._CheckTagsWithConfig(tags, config_tags): test_name_regex = re.compile('^' + test_name.replace('*', '.*') + '$') if result_stripped == 'CRASH' or result_stripped == 'COMPILE_FAIL': self.run_single[test_name] = self.result_map[result_stripped] self.run_single_re[test_name] = test_name_regex if result_stripped == 'SKIP_FOR_CAPTURE' or result_stripped == 'TIMEOUT': self.skipped_for_capture_tests[test_name] = self.result_map[result_stripped] self.skipped_for_capture_tests_re[test_name] = test_name_regex elif result_stripped == 'FLAKY': self.flaky_tests.append(test_name_regex) else: self.non_pass_results[test_name] = self.result_map[result_stripped] self.non_pass_re[test_name] = test_name_regex def TestIsSkippedForCapture(self, test_name): for p in self.skipped_for_capture_tests_re.values(): m = p.match(test_name) if m is not None: return True return False def TestNeedsToRunSingle(self, test_name): for p in self.run_single_re.values(): m = p.match(test_name) if m is not None: return True for p in self.skipped_for_capture_tests_re.values(): m = p.match(test_name) if m is not None: return True return False def Filter(self, test_list, run_all_tests): result = {} for t in test_list: for key in self.non_pass_results.keys(): if self.non_pass_re[key].match(t) is not None: result[t] = self.non_pass_results[key] for key in self.run_single.keys(): if self.run_single_re[key].match(t) is not None: result[t] = self.run_single[key] if run_all_tests: for [key, r] in self.skipped_for_capture_tests.items(): if self.skipped_for_capture_tests_re[key].match(t) is not None: result[t] = r return result def IsFlaky(self, test_name): for flaky in self.flaky_tests: if flaky.match(test_name) is not None: return True return False def ClearFolderContent(path): all_files = [] for f in os.listdir(path): if os.path.isfile(os.path.join(path, f)): os.remove(os.path.join(path, f)) def SetCWDToAngleFolder(): cwd = os.path.abspath(os.path.join(os.path.dirname(__file__), "..", "..")) os.chdir(cwd) return cwd def RunTests(args, worker_id, job_queue, result_list, message_queue, logger, ninja_lock): replay_build_dir = os.path.join(args.out_dir, 'Replay%d' % worker_id) replay_exec_path = os.path.join(replay_build_dir, REPLAY_BINARY) child_processes_manager = ChildProcessesManager(args, logger, ninja_lock) # used to differentiate between multiple composite files when there are multiple test batchs # running on the same worker and --deleted_trace is set to False composite_file_id = 1 while not job_queue.empty(): try: test_batch = job_queue.get() logger.info('Starting {} tests on worker {}. Unstarted jobs: {}'.format( len(test_batch.tests), worker_id, job_queue.qsize())) test_batch.SetWorkerId(worker_id) success = test_batch.RunWithCapture(args, child_processes_manager) if not success: result_list.append(test_batch.GetResults()) logger.info(str(test_batch.GetResults())) continue continued_tests = test_batch.RemoveTestsThatDoNotProduceAppropriateTraceFiles() if len(continued_tests) == 0: result_list.append(test_batch.GetResults()) logger.info(str(test_batch.GetResults())) continue success = test_batch.BuildReplay(replay_build_dir, composite_file_id, continued_tests, child_processes_manager) if args.keep_temp_files: composite_file_id += 1 if not success: result_list.append(test_batch.GetResults()) logger.info(str(test_batch.GetResults())) continue test_batch.RunReplay(replay_build_dir, replay_exec_path, child_processes_manager, continued_tests, args.expose_nonconformant_features) result_list.append(test_batch.GetResults()) logger.info(str(test_batch.GetResults())) except KeyboardInterrupt: child_processes_manager.KillAll() raise except queue.Empty: child_processes_manager.KillAll() break except Exception as e: logger.error('RunTestsException: %s\n%s' % (repr(e), traceback.format_exc())) child_processes_manager.KillAll() pass message_queue.put(child_processes_manager.runtimes) child_processes_manager.KillAll() def SafeDeleteFolder(folder_name): while os.path.isdir(folder_name): try: shutil.rmtree(folder_name) except KeyboardInterrupt: raise except PermissionError: pass def DeleteReplayBuildFolders(folder_num, replay_build_dir, trace_folder): for i in range(folder_num): folder_name = replay_build_dir + str(i) if os.path.isdir(folder_name): SafeDeleteFolder(folder_name) def CreateTraceFolders(folder_num): for i in range(folder_num): folder_name = TRACE_FOLDER + str(i) folder_path = os.path.join(REPLAY_SAMPLE_FOLDER, folder_name) if os.path.isdir(folder_path): shutil.rmtree(folder_path) os.makedirs(folder_path) def DeleteTraceFolders(folder_num): for i in range(folder_num): folder_name = TRACE_FOLDER + str(i) folder_path = os.path.join(REPLAY_SAMPLE_FOLDER, folder_name) if os.path.isdir(folder_path): SafeDeleteFolder(folder_path) def GetPlatformForSkip(): # yapf: disable # we want each pair on one line platform_map = { 'win32' : 'WIN', 'linux' : 'LINUX' } # yapf: enable return platform_map.get(sys.platform, 'UNKNOWN') def main(args): logger = multiprocessing.log_to_stderr() logger.setLevel(level=args.log.upper()) ninja_lock = multiprocessing.Semaphore(args.max_ninja_jobs) child_processes_manager = ChildProcessesManager(args, logger, ninja_lock) try: start_time = time.time() # set the number of workers to be cpu_count - 1 (since the main process already takes up a # CPU core). Whenever a worker is available, it grabs the next job from the job queue and # runs it. The worker closes down when there is no more job. worker_count = min(multiprocessing.cpu_count() - 1, args.max_jobs) cwd = SetCWDToAngleFolder() CreateTraceFolders(worker_count) capture_build_dir = os.path.normpath(r'%s/Capture' % args.out_dir) returncode, output = child_processes_manager.RunGNGen(capture_build_dir, False) if returncode != 0: logger.error(output) child_processes_manager.KillAll() return EXIT_FAILURE # run ninja to build all tests returncode, output = child_processes_manager.RunNinja(capture_build_dir, args.test_suite, False) if returncode != 0: logger.error(output) child_processes_manager.KillAll() return EXIT_FAILURE # get a list of tests test_path = os.path.join(capture_build_dir, args.test_suite) test_list = GetTestsListForFilter(args, test_path, args.filter, logger) test_expectation = TestExpectation(args) test_names = ParseTestNamesFromTestList(test_list, test_expectation, args.also_run_skipped_for_capture_tests, logger) test_expectation_for_list = test_expectation.Filter( test_names, args.also_run_skipped_for_capture_tests) # objects created by manager can be shared by multiple processes. We use it to create # collections that are shared by multiple processes such as job queue or result list. manager = multiprocessing.Manager() job_queue = manager.Queue() test_batch_num = 0 num_tests = len(test_names) test_index = 0 # Put the tests into batches and these into the job queue; jobs that areexpected to crash, # timeout, or fail compilation will be run in batches of size one, because a crash or # failing to compile brings down the whole batch, so that we would give false negatives if # such a batch contains jobs that would otherwise poss or fail differently. while test_index < num_tests: batch = TestBatch(args, logger) while test_index < num_tests and len(batch.tests) < args.batch_count: test_name = test_names[test_index] test_obj = Test(test_name) if test_expectation.TestNeedsToRunSingle(test_name): single_batch = TestBatch(args, logger) single_batch.AddTest(test_obj) job_queue.put(single_batch) test_batch_num += 1 else: batch.AddTest(test_obj) test_index += 1 if len(batch.tests) > 0: job_queue.put(batch) test_batch_num += 1 passed_count = 0 failed_count = 0 timedout_count = 0 crashed_count = 0 compile_failed_count = 0 skipped_count = 0 unexpected_count = {} unexpected_test_results = {} for type in GroupedResult.ResultTypes: unexpected_count[type] = 0 unexpected_test_results[type] = [] # result list is created by manager and can be shared by multiple processes. Each # subprocess populates the result list with the results of its test runs. After all # subprocesses finish, the main process processes the results in the result list. # An item in the result list is a tuple with 3 values (testname, result, output). # The "result" can take 3 values "Passed", "Failed", "Skipped". The output is the # stdout and the stderr of the test appended together. result_list = manager.list() message_queue = manager.Queue() # so that we do not spawn more processes than we actually need worker_count = min(worker_count, test_batch_num) # spawning and starting up workers for worker_id in range(worker_count): proc = multiprocessing.Process( target=RunTests, args=(args, worker_id, job_queue, result_list, message_queue, logger, ninja_lock)) child_processes_manager.AddWorker(proc) proc.start() # print out periodic status messages while child_processes_manager.IsAnyWorkerAlive(): logger.info('%d workers running, %d jobs left.' % (child_processes_manager.GetRemainingWorkers(), (job_queue.qsize()))) # If only a few tests are run it is likely that the workers are finished before # the STATUS_MESSAGE_PERIOD has passed, and the tests script sits idle for the # reminder of the wait time. Therefore, limit waiting by the number of # unfinished jobs. unfinished_jobs = job_queue.qsize() + child_processes_manager.GetRemainingWorkers() time.sleep(min(STATUS_MESSAGE_PERIOD, unfinished_jobs)) child_processes_manager.JoinWorkers() end_time = time.time() summed_runtimes = child_processes_manager.runtimes while not message_queue.empty(): runtimes = message_queue.get() for k, v in runtimes.items(): summed_runtimes.setdefault(k, 0.0) summed_runtimes[k] += v # print out results logger.info('') logger.info('Results:') flaky_results = [] regression_error_log = [] for test_batch in result_list: test_batch_result = test_batch.results logger.debug(str(test_batch_result)) batch_has_regression = False passed_count += len(test_batch_result[GroupedResult.Passed]) failed_count += len(test_batch_result[GroupedResult.Failed]) timedout_count += len(test_batch_result[GroupedResult.TimedOut]) crashed_count += len(test_batch_result[GroupedResult.Crashed]) compile_failed_count += len(test_batch_result[GroupedResult.CompileFailed]) skipped_count += len(test_batch_result[GroupedResult.Skipped]) for real_result, test_list in test_batch_result.items(): for test in test_list: if test_expectation.IsFlaky(test): flaky_results.append('{} ({})'.format(test, real_result)) continue # Passing tests are not in the list if test not in test_expectation_for_list.keys(): if real_result != GroupedResult.Passed: batch_has_regression = True unexpected_count[real_result] += 1 unexpected_test_results[real_result].append( '{} {} (expected Pass or is new test)'.format(test, real_result)) else: expected_result = test_expectation_for_list[test] if real_result != expected_result: if real_result != GroupedResult.Passed: batch_has_regression = True unexpected_count[real_result] += 1 unexpected_test_results[real_result].append( '{} {} (expected {})'.format(test, real_result, expected_result)) if batch_has_regression: regression_error_log.append(str(test_batch)) if len(regression_error_log) > 0: logger.info('Logging output of test batches with regressions') logger.info( '===================================================================================================' ) for log in regression_error_log: logger.info(log) logger.info( '---------------------------------------------------------------------------------------------------' ) logger.info('') logger.info('') logger.info('Elapsed time: %.2lf seconds' % (end_time - start_time)) logger.info('') logger.info('Runtimes by process:\n%s' % '\n'.join('%s: %.2lf seconds' % (k, v) for (k, v) in summed_runtimes.items())) if len(flaky_results): logger.info("Flaky test(s):") for line in flaky_results: logger.info(" {}".format(line)) logger.info("") logger.info( 'Summary: Passed: %d, Comparison Failed: %d, Crashed: %d, CompileFailed %d, Skipped: %d, Timeout: %d' % (passed_count, failed_count, crashed_count, compile_failed_count, skipped_count, timedout_count)) retval = EXIT_SUCCESS unexpected_test_results_count = 0 for count in unexpected_count.values(): unexpected_test_results_count += count if unexpected_test_results_count > 0: retval = EXIT_FAILURE logger.info('') logger.info('Failure: Obtained {} results that differ from expectation:'.format( unexpected_test_results_count)) logger.info('') for result, count in unexpected_count.items(): if count > 0: logger.info("Unexpected '{}' ({}):".format(result, count)) for test_result in unexpected_test_results[result]: logger.info(' {}'.format(test_result)) logger.info('') logger.info('') # delete generated folders if --keep-temp-files flag is set to false if args.purge: DeleteTraceFolders(worker_count) if os.path.isdir(args.out_dir): SafeDeleteFolder(args.out_dir) # Try hard to ensure output is finished before ending the test. logging.shutdown() sys.stdout.flush() time.sleep(2.0) return retval except KeyboardInterrupt: child_processes_manager.KillAll() return EXIT_FAILURE if __name__ == '__main__': parser = argparse.ArgumentParser() parser.add_argument( '--out-dir', default=DEFAULT_OUT_DIR, help='Where to build ANGLE for capture and replay. Relative to the ANGLE folder. Default is "%s".' % DEFAULT_OUT_DIR) parser.add_argument( '-f', '--filter', '--gtest_filter', default=DEFAULT_FILTER, help='Same as GoogleTest\'s filter argument. Default is "%s".' % DEFAULT_FILTER) parser.add_argument( '--test-suite', default=DEFAULT_TEST_SUITE, help='Test suite binary to execute. Default is "%s".' % DEFAULT_TEST_SUITE) parser.add_argument( '--batch-count', default=DEFAULT_BATCH_COUNT, type=int, help='Number of tests in a batch. Default is %d.' % DEFAULT_BATCH_COUNT) parser.add_argument( '--keep-temp-files', action='store_true', help='Whether to keep the temp files and folders. Off by default') parser.add_argument('--purge', help='Purge all build directories on exit.') parser.add_argument( '--goma-dir', default='', help='Set custom goma directory. Uses the goma in path by default.') parser.add_argument( '--output-to-file', action='store_true', help='Whether to write output to a result file. Off by default') parser.add_argument( '--result-file', default=DEFAULT_RESULT_FILE, help='Name of the result file in the capture_replay_tests folder. Default is "%s".' % DEFAULT_RESULT_FILE) parser.add_argument('-v', '--verbose', action='store_true', help='Shows full test output.') parser.add_argument( '-l', '--log', default=DEFAULT_LOG_LEVEL, help='Controls the logging level. Default is "%s".' % DEFAULT_LOG_LEVEL) parser.add_argument( '-j', '--max-jobs', default=DEFAULT_MAX_JOBS, type=int, help='Maximum number of test processes. Default is %d.' % DEFAULT_MAX_JOBS) parser.add_argument( '-a', '--also-run-skipped-for-capture-tests', action='store_true', help='Also run tests that are disabled in the expectations by SKIP_FOR_CAPTURE') parser.add_argument( '--max-ninja-jobs', type=int, default=DEFAULT_MAX_NINJA_JOBS, help='Maximum number of concurrent ninja jobs to run at once.') parser.add_argument('--xvfb', action='store_true', help='Run with xvfb.') parser.add_argument('--asan', action='store_true', help='Build with ASAN.') parser.add_argument( '-E', '--expose-nonconformant-features', action='store_true', help='Expose non-conformant features to advertise GLES 3.2') parser.add_argument( '--show-capture-stdout', action='store_true', help='Print test stdout during capture.') parser.add_argument('--debug', action='store_true', help='Debug builds (default is Release).') args = parser.parse_args() if args.debug and (args.out_dir == DEFAULT_OUT_DIR): args.out_dir = args.out_dir + "Debug" if sys.platform == "win32": args.test_suite += ".exe" if args.output_to_file: logging.basicConfig(level=args.log.upper(), filename=args.result_file) else: logging.basicConfig(level=args.log.upper()) sys.exit(main(args))