# This Source Code Form is subject to the terms of the Mozilla Public # License, v. 2.0. If a copy of the MPL was not distributed with this # file, You can obtain one at http://mozilla.org/MPL/2.0/. """ Runs the reftest test harness. """ import json import multiprocessing import os import platform import posixpath import re import shutil import signal import subprocess import sys import tempfile import threading from collections import defaultdict from datetime import datetime, timedelta SCRIPT_DIRECTORY = os.path.abspath(os.path.realpath(os.path.dirname(__file__))) if SCRIPT_DIRECTORY not in sys.path: sys.path.insert(0, SCRIPT_DIRECTORY) import mozcrash import mozdebug import mozfile import mozinfo import mozleak import mozlog import mozprocess import mozprofile import mozrunner from manifestparser import TestManifest from manifestparser import filters as mpf from mozrunner.utils import get_stack_fixer_function, test_environment from mozscreenshot import dump_screen, printstatus from six import reraise, string_types from six.moves import range try: from marionette_driver.addons import Addons from marionette_driver.marionette import Marionette except ImportError as e: # noqa # Defer ImportError until attempt to use Marionette. # Python 3 deletes the exception once the except block # is exited. Save a version to raise later. e_save = ImportError(str(e)) def reraise_(*args, **kwargs): raise (e_save) # noqa Marionette = reraise_ import reftestcommandline from output import OutputHandler, ReftestFormatter here = os.path.abspath(os.path.dirname(__file__)) try: from mozbuild.base import MozbuildObject build_obj = MozbuildObject.from_environment(cwd=here) except ImportError: build_obj = None def categoriesToRegex(categoryList): return "\\(" + ", ".join(["(?P<%s>\\d+) %s" % c for c in categoryList]) + "\\)" summaryLines = [ ("Successful", [("pass", "pass"), ("loadOnly", "load only")]), ( "Unexpected", [ ("fail", "unexpected fail"), ("pass", "unexpected pass"), ("asserts", "unexpected asserts"), ("fixedAsserts", "unexpected fixed asserts"), ("failedLoad", "failed load"), ("exception", "exception"), ], ), ( "Known problems", [ ("knownFail", "known fail"), ("knownAsserts", "known asserts"), ("random", "random"), ("skipped", "skipped"), ("slow", "slow"), ], ), ] if sys.version_info[0] == 3: def reraise_(tp_, value_, tb_=None): if value_ is None: value_ = tp_() if value_.__traceback__ is not tb_: raise value_.with_traceback(tb_) raise value_ else: exec("def reraise_(tp_, value_, tb_=None):\n raise tp_, value_, tb_\n") def update_mozinfo(): """walk up directories to find mozinfo.json update the info""" # TODO: This should go in a more generic place, e.g. mozinfo path = SCRIPT_DIRECTORY dirs = set() while path != os.path.expanduser("~"): if path in dirs: break dirs.add(path) path = os.path.split(path)[0] mozinfo.find_and_update_from_json(*dirs) # Python's print is not threadsafe. printLock = threading.Lock() class ReftestThread(threading.Thread): def __init__(self, cmdargs): threading.Thread.__init__(self) self.cmdargs = cmdargs self.summaryMatches = {} self.retcode = -1 for text, _ in summaryLines: self.summaryMatches[text] = None def run(self): with printLock: print("Starting thread with", self.cmdargs) sys.stdout.flush() process = subprocess.Popen(self.cmdargs, stdout=subprocess.PIPE) for chunk in self.chunkForMergedOutput(process.stdout): with printLock: print(chunk, end=" ") sys.stdout.flush() self.retcode = process.wait() def chunkForMergedOutput(self, logsource): """Gather lines together that should be printed as one atomic unit. Individual test results--anything between 'REFTEST TEST-START' and 'REFTEST TEST-END' lines--are an atomic unit. Lines with data from summaries are parsed and the data stored for later aggregation. Other lines are considered their own atomic units and are permitted to intermix freely.""" testStartRegex = re.compile("^REFTEST TEST-START") testEndRegex = re.compile("^REFTEST TEST-END") summaryHeadRegex = re.compile("^REFTEST INFO \\| Result summary:") summaryRegexFormatString = ( "^REFTEST INFO \\| (?P{text}): (?P\\d+) {regex}" ) summaryRegexStrings = [ summaryRegexFormatString.format( text=text, regex=categoriesToRegex(categories) ) for (text, categories) in summaryLines ] summaryRegexes = [re.compile(regex) for regex in summaryRegexStrings] for line in logsource: if testStartRegex.search(line) is not None: chunkedLines = [line] for lineToBeChunked in logsource: chunkedLines.append(lineToBeChunked) if testEndRegex.search(lineToBeChunked) is not None: break yield "".join(chunkedLines) continue haveSuppressedSummaryLine = False for regex in summaryRegexes: match = regex.search(line) if match is not None: self.summaryMatches[match.group("message")] = match haveSuppressedSummaryLine = True break if haveSuppressedSummaryLine: continue if summaryHeadRegex.search(line) is None: yield line class ReftestResolver(object): def defaultManifest(self, suite): return { "reftest": "reftest.list", "crashtest": "crashtests.list", "jstestbrowser": "jstests.list", }[suite] def directoryManifest(self, suite, path): return os.path.join(path, self.defaultManifest(suite)) def findManifest(self, suite, test_file, subdirs=True): """Return a tuple of (manifest-path, filter-string) for running test_file. test_file is a path to a test or a manifest file """ rv = [] default_manifest = self.defaultManifest(suite) relative_path = None if not os.path.isabs(test_file): relative_path = test_file test_file = self.absManifestPath(test_file) if os.path.isdir(test_file): for dirpath, dirnames, filenames in os.walk(test_file): if default_manifest in filenames: rv.append((os.path.join(dirpath, default_manifest), None)) # We keep recursing into subdirectories which means that in the case # of include directives we get the same manifest multiple times. # However reftest.js will only read each manifest once if ( len(rv) == 0 and relative_path and suite == "jstestbrowser" and build_obj ): # The relative path can be from staging area. staged_js_dir = os.path.join( build_obj.topobjdir, "dist", "test-stage", "jsreftest" ) staged_file = os.path.join(staged_js_dir, "tests", relative_path) return self.findManifest(suite, staged_file, subdirs) elif test_file.endswith(".list"): if os.path.exists(test_file): rv = [(test_file, None)] else: dirname, pathname = os.path.split(test_file) found = True while not os.path.exists(os.path.join(dirname, default_manifest)): dirname, suffix = os.path.split(dirname) pathname = posixpath.join(suffix, pathname) if os.path.dirname(dirname) == dirname: found = False break if found: rv = [ ( os.path.join(dirname, default_manifest), r".*%s(?:[#?].*)?$" % pathname.replace("?", r"\?"), ) ] return rv def absManifestPath(self, path): return os.path.normpath(os.path.abspath(path)) def manifestURL(self, options, path): return "file://%s" % path def resolveManifests(self, options, tests): suite = options.suite manifests = {} for testPath in tests: for manifest, filter_str in self.findManifest(suite, testPath): if manifest not in manifests: manifests[manifest] = set() manifests[manifest].add(filter_str) manifests_by_url = {} for key in manifests.keys(): id = os.path.relpath( os.path.abspath(os.path.dirname(key)), options.topsrcdir ) id = id.replace(os.sep, posixpath.sep) if None in manifests[key]: manifests[key] = (None, id) else: manifests[key] = ("|".join(list(manifests[key])), id) url = self.manifestURL(options, key) manifests_by_url[url] = manifests[key] return manifests_by_url class RefTest(object): oldcwd = os.getcwd() resolver_cls = ReftestResolver use_marionette = True def __init__(self, suite): update_mozinfo() self.lastTestSeen = None self.lastTest = None self.haveDumpedScreen = False self.resolver = self.resolver_cls() self.log = None self.outputHandler = None self.testDumpFile = os.path.join(tempfile.gettempdir(), "reftests.json") self.currentManifest = "No test started" self.run_by_manifest = True if suite in ("crashtest", "jstestbrowser"): self.run_by_manifest = False def _populate_logger(self, options): if self.log: return self.log = getattr(options, "log", None) if self.log: return mozlog.commandline.log_formatters["tbpl"] = ( ReftestFormatter, "Reftest specific formatter for the" "benefit of legacy log parsers and" "tools such as the reftest analyzer", ) fmt_options = {} if not options.log_tbpl_level and os.environ.get("MOZ_REFTEST_VERBOSE"): options.log_tbpl_level = fmt_options["level"] = "debug" self.log = mozlog.commandline.setup_logging( "reftest harness", options, {"tbpl": sys.stdout}, fmt_options ) def getFullPath(self, path): "Get an absolute path relative to self.oldcwd." return os.path.normpath(os.path.join(self.oldcwd, os.path.expanduser(path))) def createReftestProfile( self, options, tests=None, manifests=None, server="localhost", port=0, profile_to_clone=None, prefs=None, ): """Sets up a profile for reftest. :param options: Object containing command line options :param tests: List of test objects to run :param manifests: List of manifest files to parse (only takes effect if tests were not passed in) :param server: Server name to use for http tests :param profile_to_clone: Path to a profile to use as the basis for the test profile :param prefs: Extra preferences to set in the profile """ locations = mozprofile.permissions.ServerLocations() locations.add_host(server, scheme="http", port=port) locations.add_host(server, scheme="https", port=port) sandbox_whitelist_paths = options.sandboxReadWhitelist if platform.system() == "Linux" or platform.system() in ( "Windows", "Microsoft", ): # Trailing slashes are needed to indicate directories on Linux and Windows sandbox_whitelist_paths = map( lambda p: os.path.join(p, ""), sandbox_whitelist_paths ) addons = [] if not self.use_marionette: addons.append(options.reftestExtensionPath) if options.specialPowersExtensionPath is not None: if not self.use_marionette: addons.append(options.specialPowersExtensionPath) # Install distributed extensions, if application has any. distExtDir = os.path.join( options.app[: options.app.rfind(os.sep)], "distribution", "extensions" ) if os.path.isdir(distExtDir): for f in os.listdir(distExtDir): addons.append(os.path.join(distExtDir, f)) # Install custom extensions. for f in options.extensionsToInstall: addons.append(self.getFullPath(f)) kwargs = { "addons": addons, "locations": locations, "whitelistpaths": sandbox_whitelist_paths, } if profile_to_clone: profile = mozprofile.Profile.clone(profile_to_clone, **kwargs) else: profile = mozprofile.Profile(**kwargs) # First set prefs from the base profiles under testing/profiles. # In test packages used in CI, the profile_data directory is installed # in the SCRIPT_DIRECTORY. profile_data_dir = os.path.join(SCRIPT_DIRECTORY, "profile_data") # If possible, read profile data from topsrcdir. This prevents us from # requiring a re-build to pick up newly added extensions in the # /extensions directory. if build_obj: path = os.path.join(build_obj.topsrcdir, "testing", "profiles") if os.path.isdir(path): profile_data_dir = path # Still not found? Look for testing/profiles relative to layout/tools/reftest. if not os.path.isdir(profile_data_dir): path = os.path.abspath( os.path.join(SCRIPT_DIRECTORY, "..", "..", "..", "testing", "profiles") ) if os.path.isdir(path): profile_data_dir = path with open(os.path.join(profile_data_dir, "profiles.json"), "r") as fh: base_profiles = json.load(fh)["reftest"] for name in base_profiles: path = os.path.join(profile_data_dir, name) profile.merge(path) # Second set preferences for communication between our command line # arguments and the reftest harness. Preferences that are required for # reftest to work should instead be set under srcdir/testing/profiles. prefs = prefs or {} prefs["reftest.timeout"] = options.timeout * 1000 if options.logFile: prefs["reftest.logFile"] = options.logFile if options.ignoreWindowSize: prefs["reftest.ignoreWindowSize"] = True if options.shuffle: prefs["reftest.shuffle"] = True if options.repeat: prefs["reftest.repeat"] = options.repeat if options.runUntilFailure: prefs["reftest.runUntilFailure"] = True if not options.repeat: prefs["reftest.repeat"] = 30 if options.verify: prefs["reftest.verify"] = True if options.cleanupCrashes: prefs["reftest.cleanupPendingCrashes"] = True prefs["reftest.focusFilterMode"] = options.focusFilterMode prefs["reftest.logLevel"] = options.log_tbpl_level or "info" prefs["reftest.suite"] = options.suite prefs["gfx.font_rendering.ahem_antialias_none"] = True # Run the "deferred" font-loader immediately, because if it finishes # mid-test, the extra reflow that is triggered can disrupt the test. prefs["gfx.font_loader.delay"] = 0 # Ensure bundled fonts are activated, even if not enabled by default # on the platform, so that tests can rely on them. prefs["gfx.bundled-fonts.activate"] = 1 # Disable dark scrollbars because it's semi-transparent. prefs["widget.disable-dark-scrollbar"] = True prefs["reftest.isCoverageBuild"] = mozinfo.info.get("ccov", False) # config specific flags prefs["sandbox.apple_silicon"] = mozinfo.info.get("apple_silicon", False) prefs["sandbox.mozinfo"] = json.dumps(mozinfo.info) prefs["sandbox.os_version"] = mozinfo.info.get("os_version", "") # Set tests to run or manifests to parse. if tests: testlist = os.path.join(profile.profile, "reftests.json") with open(testlist, "w") as fh: json.dump(tests, fh) prefs["reftest.tests"] = testlist elif manifests: prefs["reftest.manifests"] = json.dumps(manifests) # default fission to True prefs["fission.autostart"] = True if options.disableFission: prefs["fission.autostart"] = False if not self.run_by_manifest: if options.totalChunks: prefs["reftest.totalChunks"] = options.totalChunks if options.thisChunk: prefs["reftest.thisChunk"] = options.thisChunk if options.marionette: # options.marionette can specify host:port port = options.marionette.split(":")[1] prefs["marionette.port"] = int(port) # Enable tracing output for detailed failures in case of # failing connection attempts, and hangs (bug 1397201) prefs["remote.log.level"] = "Trace" # Third, set preferences passed in via the command line. for v in options.extraPrefs: thispref = v.split("=") if len(thispref) < 2: print("Error: syntax error in --setpref=" + v) sys.exit(1) prefs[thispref[0]] = thispref[1].strip() for pref in prefs: prefs[pref] = mozprofile.Preferences.cast(prefs[pref]) profile.set_preferences(prefs) if os.path.join(here, "chrome") not in options.extraProfileFiles: options.extraProfileFiles.append(os.path.join(here, "chrome")) self.copyExtraFilesToProfile(options, profile) self.log.info("Running with e10s: {}".format(options.e10s)) self.log.info("Running with fission: {}".format(prefs["fission.autostart"])) return profile def environment(self, **kwargs): kwargs["log"] = self.log return test_environment(**kwargs) def buildBrowserEnv(self, options, profileDir): browserEnv = self.environment( xrePath=options.xrePath, debugger=options.debugger ) browserEnv["XPCOM_DEBUG_BREAK"] = "stack" if mozinfo.info["asan"]: # Disable leak checking for reftests for now if "ASAN_OPTIONS" in browserEnv: browserEnv["ASAN_OPTIONS"] += ":detect_leaks=0" else: browserEnv["ASAN_OPTIONS"] = "detect_leaks=0" # Set environment defaults for jstestbrowser. Keep in sync with the # defaults used in js/src/tests/lib/tests.py. if options.suite == "jstestbrowser": browserEnv["TZ"] = "PST8PDT" browserEnv["LC_ALL"] = "en_US.UTF-8" for v in options.environment: ix = v.find("=") if ix <= 0: print("Error: syntax error in --setenv=" + v) return None browserEnv[v[:ix]] = v[ix + 1 :] # Enable leaks detection to its own log file. self.leakLogFile = os.path.join(profileDir, "runreftest_leaks.log") browserEnv["XPCOM_MEM_BLOAT_LOG"] = self.leakLogFile # TODO: this is always defined (as part of --enable-webrender which is default) # can we make this default in the browser? browserEnv["MOZ_ACCELERATED"] = "1" if options.headless: browserEnv["MOZ_HEADLESS"] = "1" if not options.e10s: browserEnv["MOZ_FORCE_DISABLE_E10S"] = "1" return browserEnv def cleanup(self, profileDir): if profileDir: shutil.rmtree(profileDir, True) def verifyTests(self, tests, options): """ Support --verify mode: Run test(s) many times in a variety of configurations/environments in an effort to find intermittent failures. """ self._populate_logger(options) # Number of times to repeat test(s) when running with --repeat VERIFY_REPEAT = 10 # Number of times to repeat test(s) when running test in separate browser VERIFY_REPEAT_SINGLE_BROWSER = 5 def step1(): options.repeat = VERIFY_REPEAT options.runUntilFailure = True result = self.runTests(tests, options) return result def step2(): options.repeat = 0 options.runUntilFailure = False for i in range(VERIFY_REPEAT_SINGLE_BROWSER): result = self.runTests(tests, options) if result != 0: break return result def step3(): options.repeat = VERIFY_REPEAT options.runUntilFailure = True options.environment.append("MOZ_CHAOSMODE=0xfb") result = self.runTests(tests, options) options.environment.remove("MOZ_CHAOSMODE=0xfb") return result def step4(): options.repeat = 0 options.runUntilFailure = False options.environment.append("MOZ_CHAOSMODE=0xfb") for i in range(VERIFY_REPEAT_SINGLE_BROWSER): result = self.runTests(tests, options) if result != 0: break options.environment.remove("MOZ_CHAOSMODE=0xfb") return result steps = [ ("1. Run each test %d times in one browser." % VERIFY_REPEAT, step1), ( "2. Run each test %d times in a new browser each time." % VERIFY_REPEAT_SINGLE_BROWSER, step2, ), ( "3. Run each test %d times in one browser, in chaos mode." % VERIFY_REPEAT, step3, ), ( "4. Run each test %d times in a new browser each time, in chaos mode." % VERIFY_REPEAT_SINGLE_BROWSER, step4, ), ] stepResults = {} for descr, step in steps: stepResults[descr] = "not run / incomplete" startTime = datetime.now() maxTime = timedelta(seconds=options.verify_max_time) finalResult = "PASSED" for descr, step in steps: if (datetime.now() - startTime) > maxTime: self.log.info("::: Test verification is taking too long: Giving up!") self.log.info( "::: So far, all checks passed, but not all checks were run." ) break self.log.info(":::") self.log.info('::: Running test verification step "%s"...' % descr) self.log.info(":::") result = step() if result != 0: stepResults[descr] = "FAIL" finalResult = "FAILED!" break stepResults[descr] = "Pass" self.log.info(":::") self.log.info("::: Test verification summary for:") self.log.info(":::") for test in tests: self.log.info("::: " + test) self.log.info(":::") for descr in sorted(stepResults.keys()): self.log.info("::: %s : %s" % (descr, stepResults[descr])) self.log.info(":::") self.log.info("::: Test verification %s" % finalResult) self.log.info(":::") return result def runTests(self, tests, options, cmdargs=None): cmdargs = cmdargs or [] self._populate_logger(options) self.outputHandler = OutputHandler( self.log, options.utilityPath, options.symbolsPath ) if options.cleanupCrashes: mozcrash.cleanup_pending_crash_reports() manifests = self.resolver.resolveManifests(options, tests) if options.filter: manifests[""] = (options.filter, None) if not getattr(options, "runTestsInParallel", False): return self.runSerialTests(manifests, options, cmdargs) cpuCount = multiprocessing.cpu_count() # We have the directive, technology, and machine to run multiple test instances. # Experimentation says that reftests are not overly CPU-intensive, so we can run # multiple jobs per CPU core. # # Our Windows machines in automation seem to get upset when we run a lot of # simultaneous tests on them, so tone things down there. if sys.platform == "win32": jobsWithoutFocus = cpuCount else: jobsWithoutFocus = 2 * cpuCount totalJobs = jobsWithoutFocus + 1 perProcessArgs = [sys.argv[:] for i in range(0, totalJobs)] host = "localhost" port = 2828 if options.marionette: host, port = options.marionette.split(":") # First job is only needs-focus tests. Remaining jobs are # non-needs-focus and chunked. perProcessArgs[0].insert(-1, "--focus-filter-mode=needs-focus") for chunkNumber, jobArgs in enumerate(perProcessArgs[1:], start=1): jobArgs[-1:-1] = [ "--focus-filter-mode=non-needs-focus", "--total-chunks=%d" % jobsWithoutFocus, "--this-chunk=%d" % chunkNumber, "--marionette=%s:%d" % (host, port), ] port += 1 for jobArgs in perProcessArgs: try: jobArgs.remove("--run-tests-in-parallel") except Exception: pass jobArgs[0:0] = [sys.executable, "-u"] threads = [ReftestThread(args) for args in perProcessArgs[1:]] for t in threads: t.start() while True: # The test harness in each individual thread will be doing timeout # handling on its own, so we shouldn't need to worry about any of # the threads hanging for arbitrarily long. for t in threads: t.join(10) if not any(t.is_alive() for t in threads): break # Run the needs-focus tests serially after the other ones, so we don't # have to worry about races between the needs-focus tests *actually* # needing focus and the dummy windows in the non-needs-focus tests # trying to focus themselves. focusThread = ReftestThread(perProcessArgs[0]) focusThread.start() focusThread.join() # Output the summaries that the ReftestThread filters suppressed. summaryObjects = [defaultdict(int) for s in summaryLines] for t in threads: for summaryObj, (text, categories) in zip(summaryObjects, summaryLines): threadMatches = t.summaryMatches[text] for attribute, description in categories: amount = int(threadMatches.group(attribute) if threadMatches else 0) summaryObj[attribute] += amount amount = int(threadMatches.group("total") if threadMatches else 0) summaryObj["total"] += amount print("REFTEST INFO | Result summary:") for summaryObj, (text, categories) in zip(summaryObjects, summaryLines): details = ", ".join( [ "%d %s" % (summaryObj[attribute], description) for (attribute, description) in categories ] ) print( "REFTEST INFO | " + text + ": " + str(summaryObj["total"]) + " (" + details + ")" ) return int(any(t.retcode != 0 for t in threads)) def handleTimeout(self, timeout, proc, utilityPath, debuggerInfo): """handle process output timeout""" # TODO: bug 913975 : _processOutput should call self.processOutputLine # one more time one timeout (I think) self.log.error( "%s | application timed out after %d seconds with no output" % (self.lastTestSeen, int(timeout)) ) self.log.warning("Force-terminating active process(es).") self.killAndGetStack( proc, utilityPath, debuggerInfo, dump_screen=not debuggerInfo ) def dumpScreen(self, utilityPath): if self.haveDumpedScreen: self.log.info( "Not taking screenshot here: see the one that was previously logged" ) return self.haveDumpedScreen = True dump_screen(utilityPath, self.log) def killAndGetStack(self, process, utilityPath, debuggerInfo, dump_screen=False): """ Kill the process, preferrably in a way that gets us a stack trace. Also attempts to obtain a screenshot before killing the process if specified. """ if dump_screen: self.dumpScreen(utilityPath) if mozinfo.info.get("crashreporter", True) and not debuggerInfo: if mozinfo.isWin: # We should have a "crashinject" program in our utility path crashinject = os.path.normpath( os.path.join(utilityPath, "crashinject.exe") ) if os.path.exists(crashinject): status = subprocess.Popen([crashinject, str(process.pid)]).wait() printstatus("crashinject", status) if status == 0: return else: try: process.kill(sig=signal.SIGABRT) except OSError: # https://bugzilla.mozilla.org/show_bug.cgi?id=921509 self.log.info("Can't trigger Breakpad, process no longer exists") return self.log.info("Can't trigger Breakpad, just killing process") process.kill() def runApp( self, options, cmdargs=None, timeout=None, debuggerInfo=None, symbolsPath=None, valgrindPath=None, valgrindArgs=None, valgrindSuppFiles=None, **profileArgs ): if cmdargs is None: cmdargs = [] cmdargs = cmdargs[:] if self.use_marionette: cmdargs.append("-marionette") binary = options.app profile = self.createReftestProfile(options, **profileArgs) # browser environment env = self.buildBrowserEnv(options, profile.profile) def timeoutHandler(): self.handleTimeout(timeout, proc, options.utilityPath, debuggerInfo) interactive = False debug_args = None if debuggerInfo: interactive = debuggerInfo.interactive debug_args = [debuggerInfo.path] + debuggerInfo.args def record_last_test(message): """Records the last test seen by this harness for the benefit of crash logging.""" def testid(test): if " " in test: return test.split(" ")[0] return test if message["action"] == "test_start": self.lastTestSeen = testid(message["test"]) elif message["action"] == "test_end": if self.lastTest and message["test"] == self.lastTest: self.lastTestSeen = self.currentManifest else: self.lastTestSeen = "{} (finished)".format(testid(message["test"])) self.log.add_handler(record_last_test) kp_kwargs = { "kill_on_timeout": False, "cwd": SCRIPT_DIRECTORY, "onTimeout": [timeoutHandler], "processOutputLine": [self.outputHandler], } if mozinfo.isWin or mozinfo.isMac: # Prevents log interleaving on Windows at the expense of losing # true log order. See bug 798300 and bug 1324961 for more details. kp_kwargs["processStderrLine"] = [self.outputHandler] if interactive: # If an interactive debugger is attached, # don't use timeouts, and don't capture ctrl-c. timeout = None signal.signal(signal.SIGINT, lambda sigid, frame: None) runner_cls = mozrunner.runners.get( mozinfo.info.get("appname", "firefox"), mozrunner.Runner ) runner = runner_cls( profile=profile, binary=binary, process_class=mozprocess.ProcessHandlerMixin, cmdargs=cmdargs, env=env, process_args=kp_kwargs, ) runner.start( debug_args=debug_args, interactive=interactive, outputTimeout=timeout ) proc = runner.process_handler self.outputHandler.proc_name = "GECKO({})".format(proc.pid) # Used to defer a possible IOError exception from Marionette marionette_exception = None if self.use_marionette: marionette_args = { "socket_timeout": options.marionette_socket_timeout, "startup_timeout": options.marionette_startup_timeout, "symbols_path": options.symbolsPath, } if options.marionette: host, port = options.marionette.split(":") marionette_args["host"] = host marionette_args["port"] = int(port) try: marionette = Marionette(**marionette_args) marionette.start_session() addons = Addons(marionette) if options.specialPowersExtensionPath: addons.install(options.specialPowersExtensionPath, temp=True) addons.install(options.reftestExtensionPath, temp=True) marionette.delete_session() except IOError: # Any IOError as thrown by Marionette means that something is # wrong with the process, like a crash or the socket is no # longer open. We defer raising this specific error so that # post-test checks for leaks and crashes are performed and # reported first. marionette_exception = sys.exc_info() status = runner.wait() runner.process_handler = None self.outputHandler.proc_name = None crashed = mozcrash.log_crashes( self.log, os.path.join(profile.profile, "minidumps"), options.symbolsPath, test=self.lastTestSeen, ) if crashed: # log suite_end to wrap up, this is usually done with in in-browser harness if not self.outputHandler.results: # TODO: while .results is a defaultdict(int), it is proxied via log_actions as data, not type self.outputHandler.results = { "Pass": 0, "LoadOnly": 0, "Exception": 0, "FailedLoad": 0, "UnexpectedFail": 1, "UnexpectedPass": 0, "AssertionUnexpected": 0, "AssertionUnexpectedFixed": 0, "KnownFail": 0, "AssertionKnown": 0, "Random": 0, "Skip": 0, "Slow": 0, } self.log.suite_end(extra={"results": self.outputHandler.results}) if not status and crashed: status = 1 if status and not crashed: msg = "application terminated with exit code %s" % (status) self.log.shutdown_failure(group=self.lastTestSeen, message=msg) runner.cleanup() self.cleanup(profile.profile) if marionette_exception is not None: exc, value, tb = marionette_exception raise reraise(exc, value, tb) self.log.info("Process mode: {}".format("e10s" if options.e10s else "non-e10s")) return status def getActiveTests(self, manifests, options, testDumpFile=None): # These prefs will cause reftest.sys.mjs to parse the manifests, # dump the resulting tests to a file, and exit. prefs = { "reftest.manifests": json.dumps(manifests), "reftest.manifests.dumpTests": testDumpFile or self.testDumpFile, } cmdargs = [] self.runApp(options, cmdargs=cmdargs, prefs=prefs) if not os.path.isfile(self.testDumpFile): print("Error: parsing manifests failed!") sys.exit(1) with open(self.testDumpFile, "r") as fh: tests = json.load(fh) if os.path.isfile(self.testDumpFile): mozfile.remove(self.testDumpFile) for test in tests: # Name and path are expected by manifestparser, but not used in reftest. test["name"] = test["path"] = test["url1"] mp = TestManifest(strict=False) mp.tests = tests filters = [] if options.totalChunks: filters.append( mpf.chunk_by_manifest(options.thisChunk, options.totalChunks) ) tests = mp.active_tests(exists=False, filters=filters) return tests def runSerialTests(self, manifests, options, cmdargs=None): debuggerInfo = None if options.debugger: debuggerInfo = mozdebug.get_debugger_info( options.debugger, options.debuggerArgs, options.debuggerInteractive ) def run(**kwargs): if kwargs.get("tests"): self.lastTest = kwargs["tests"][-1]["identifier"] if not isinstance(self.lastTest, string_types): self.lastTest = " ".join(self.lastTest) status = self.runApp( options, manifests=manifests, cmdargs=cmdargs, # We generally want the JS harness or marionette # to handle timeouts if they can. # The default JS harness timeout is currently # 300 seconds (default options.timeout). # The default Marionette socket timeout is # currently 360 seconds. # Give the JS harness extra time to deal with # its own timeouts and try to usually exceed # the 360 second marionette socket timeout. # See bug 479518 and bug 1414063. timeout=options.timeout + 70.0, debuggerInfo=debuggerInfo, symbolsPath=options.symbolsPath, **kwargs ) # do not process leak log when we crash/assert if status == 0: mozleak.process_leak_log( self.leakLogFile, leak_thresholds=options.leakThresholds, stack_fixer=get_stack_fixer_function( options.utilityPath, options.symbolsPath ), ) return status if not self.run_by_manifest: return run() tests = self.getActiveTests(manifests, options) tests_by_manifest = defaultdict(list) ids_by_manifest = defaultdict(list) for t in tests: tests_by_manifest[t["manifest"]].append(t) test_id = t["identifier"] if not isinstance(test_id, string_types): test_id = " ".join(test_id) ids_by_manifest[t["manifestID"]].append(test_id) self.log.suite_start(ids_by_manifest, name=options.suite) overall = 0 status = -1 for manifest, tests in tests_by_manifest.items(): self.log.info("Running tests in {}".format(manifest)) self.currentManifest = manifest status = run(tests=tests) overall = overall or status if status == -1: # we didn't run anything overall = 1 self.log.suite_end(extra={"results": self.outputHandler.results}) return overall def copyExtraFilesToProfile(self, options, profile): "Copy extra files or dirs specified on the command line to the testing profile." profileDir = profile.profile for f in options.extraProfileFiles: abspath = self.getFullPath(f) if os.path.isfile(abspath): if os.path.basename(abspath) == "user.js": extra_prefs = mozprofile.Preferences.read_prefs(abspath) profile.set_preferences(extra_prefs) elif os.path.basename(abspath).endswith(".dic"): hyphDir = os.path.join(profileDir, "hyphenation") if not os.path.exists(hyphDir): os.makedirs(hyphDir) shutil.copy2(abspath, hyphDir) else: shutil.copy2(abspath, profileDir) elif os.path.isdir(abspath): dest = os.path.join(profileDir, os.path.basename(abspath)) shutil.copytree(abspath, dest) else: self.log.warning( "runreftest.py | Failed to copy %s to profile" % abspath ) continue def run_test_harness(parser, options): reftest = RefTest(options.suite) parser.validate(options, reftest) # We have to validate options.app here for the case when the mach # command is able to find it after argument parsing. This can happen # when running from a tests archive. if not options.app: parser.error("could not find the application path, --appname must be specified") options.app = reftest.getFullPath(options.app) if not os.path.exists(options.app): parser.error( "Error: Path %(app)s doesn't exist. Are you executing " "$objdir/_tests/reftest/runreftest.py?" % {"app": options.app} ) if options.xrePath is None: options.xrePath = os.path.dirname(options.app) if options.verify: result = reftest.verifyTests(options.tests, options) else: result = reftest.runTests(options.tests, options) return result if __name__ == "__main__": parser = reftestcommandline.DesktopArgumentsParser() options = parser.parse_args() sys.exit(run_test_harness(parser, options))