def start_control_server(self): self.control_server = RaptorControlServer(self.results_handler, self.debug_mode) self.control_server.user_profile = self.profile self.control_server.start() if self.config["enable_control_server_wait"]: self.control_server_wait_set("webext_shutdownBrowser")
def start_control_server(self): self.control_server = RaptorControlServer(self.results_handler, self.debug_mode) self.control_server.start() if self.config['enable_control_server_wait']: self.control_server_wait_set( 'webext_status/__raptor_shutdownBrowser')
def start_control_server(self): self.control_server = RaptorControlServer(self.results_handler) self.control_server.start() # for android we must make the control server available to the device if self.config['app'] == "geckoview": self.log.info("making the raptor control server port available to device") _tcp_port = "tcp:%s" % self.control_server.port self.device.create_socket_connection('reverse', _tcp_port, _tcp_port)
def start_control_server(self): self.control_server = RaptorControlServer(self.results_handler, self.debug_mode) self.control_server.start() # for android we must make the control server available to the device if self.config['app'] in self.firefox_android_apps and \ self.config['host'] in ('localhost', '127.0.0.1'): self.log.info("making the raptor control server port available to device") _tcp_port = "tcp:%s" % self.control_server.port self.device.create_socket_connection('reverse', _tcp_port, _tcp_port)
def start_control_server(self): self.control_server = RaptorControlServer(self.results_handler) self.control_server.start() # for android we must make the control server available to the device if self.config['app'] == "geckoview": self.log.info("making the raptor control server port available to device") _tcp_port = "tcp:%s" % self.control_server.port _cmd = ["reverse", _tcp_port, _tcp_port] self.device.command_output(_cmd)
class Raptor(object): """Container class for Raptor""" def __init__(self, app, binary, run_local=False, obj_path=None): self.config = {} self.config['app'] = app self.config['binary'] = binary self.config['platform'] = mozinfo.os self.config['processor'] = mozinfo.processor self.config['run_local'] = run_local self.config['obj_path'] = obj_path self.raptor_venv = os.path.join(os.getcwd(), 'raptor-venv') self.log = get_default_logger(component='raptor-main') self.control_server = None self.playback = None self.benchmark = None # Create the profile; for geckoview we want a firefox profile type if self.config['app'] == 'geckoview': self.profile = create_profile('firefox') else: self.profile = create_profile(self.config['app']) # Merge in base profiles with open(os.path.join(self.profile_data_dir, 'profiles.json'), 'r') as fh: base_profiles = json.load(fh)['raptor'] for name in base_profiles: path = os.path.join(self.profile_data_dir, name) self.log.info("Merging profile: {}".format(path)) self.profile.merge(path) # create results holder self.results_handler = RaptorResultsHandler() # when testing desktop browsers we use mozrunner to start the browser; when # testing on android (i.e. geckoview) we use mozdevice to control the device app if self.config['app'] == "geckoview": # create the android device handler; it gets initiated and sets up adb etc self.log.info("creating android device handler using mozdevice") self.device = ADBAndroid(verbose=True) self.device.clear_logcat() else: # create the desktop browser runner self.log.info("creating browser runner using mozrunner") self.output_handler = OutputHandler() process_args = { 'processOutputLine': [self.output_handler], } runner_cls = runners[app] self.runner = runner_cls(binary, profile=self.profile, process_args=process_args) self.log.info("raptor config: %s" % str(self.config)) @property def profile_data_dir(self): if 'MOZ_DEVELOPER_REPO_DIR' in os.environ: return os.path.join(os.environ['MOZ_DEVELOPER_REPO_DIR'], 'testing', 'profiles') if build: return os.path.join(build.topsrcdir, 'testing', 'profiles') return os.path.join(here, 'profile_data') def start_control_server(self): self.control_server = RaptorControlServer(self.results_handler) self.control_server.start() # for android we must make the control server available to the device if self.config['app'] == "geckoview": self.log.info( "making the raptor control server port available to device") _tcp_port = "tcp:%s" % self.control_server.port self.device.create_socket_connection('reverse', _tcp_port, _tcp_port) def get_playback_config(self, test): self.config['playback_tool'] = test.get('playback') self.log.info("test uses playback tool: %s " % self.config['playback_tool']) self.config['playback_binary_manifest'] = test.get( 'playback_binary_manifest', None) _key = 'playback_binary_zip_%s' % self.config['platform'] self.config['playback_binary_zip'] = test.get(_key, None) self.config['playback_pageset_manifest'] = test.get( 'playback_pageset_manifest', None) _key = 'playback_pageset_zip_%s' % self.config['platform'] self.config['playback_pageset_zip'] = test.get(_key, None) self.config['playback_recordings'] = test.get('playback_recordings', None) self.config['python3_win_manifest'] = test.get('python3_win_manifest', None) def run_test(self, test, timeout=None): self.log.info("starting raptor test: %s" % test['name']) self.log.info("test settings: %s" % str(test)) self.log.info("raptor config: %s" % str(self.config)) # benchmark-type tests require the benchmark test to be served out if test.get('type') == "benchmark": self.benchmark = Benchmark(self.config, test) benchmark_port = int(self.benchmark.port) else: benchmark_port = 0 gen_test_config(self.config['app'], test['name'], self.control_server.port, benchmark_port) # for android we must make the benchmarks server available to the device if self.config['app'] == "geckoview": self.log.info( "making the raptor benchmarks server port available to device") _tcp_port = "tcp:%s" % benchmark_port self.device.create_socket_connection('reverse', _tcp_port, _tcp_port) # must intall raptor addon each time because we dynamically update some content raptor_webext = os.path.join(webext_dir, 'raptor') self.log.info("installing webext %s" % raptor_webext) self.profile.addons.install(raptor_webext) # add test specific preferences if test.get("preferences", None) is not None: if self.config['app'] == "firefox": self.profile.set_preferences(json.loads(test['preferences'])) else: self.log.info("preferences were configured for the test, \ but we do not install them on non Firefox browsers." ) # on firefox we can get an addon id; chrome addon actually is just cmd line arg if self.config['app'] in ["firefox", "geckoview"]: webext_id = self.profile.addons.addon_details(raptor_webext)['id'] # some tests require tools to playback the test pages if test.get('playback', None) is not None: self.get_playback_config(test) # startup the playback tool self.playback = get_playback(self.config) # for geckoview we must copy the profile onto the device and set perms if self.config['app'] == "geckoview": if not self.device.is_app_installed(self.config['binary']): raise Exception('%s is not installed' % self.config['binary']) self.log.info("copying firefox profile onto the android device") self.device_profile = "/sdcard/raptor-profile" if self.device.is_dir(self.device_profile): self.device.rm(self.device_profile, recursive=True) self.device.mkdir(self.device_profile) self.device.push(self.profile.profile, self.device_profile) self.log.info("setting permisions to profile dir on the device") self.device.chmod(self.device_profile, recursive=True) # now start the geckoview app self.log.info("starting %s" % self.config['app']) extra_args = [ "-profile", self.device_profile, "--es", "env0", "LOG_VERBOSE=1", "--es", "env1", "R_LOG_LEVEL=6" ] try: # make sure the geckoview app is not running before # attempting to start. self.device.stop_application(self.config['binary']) self.device.launch_activity(self.config['binary'], "GeckoViewActivity", extra_args=extra_args, url='about:blank', fail_if_running=False) except Exception: self.log.error("Exception launching %s" % self.config['binary']) raise self.control_server.device = self.device self.control_server.app_name = self.config['binary'] else: # now start the desktop browser self.log.info("starting %s" % self.config['app']) self.runner.start() proc = self.runner.process_handler self.output_handler.proc = proc self.control_server.browser_proc = proc # set our cs flag to indicate we are running the browser/app self.control_server._finished = False # convert to seconds and account for page cycles timeout = int(timeout / 1000) * int(test['page_cycles']) try: elapsed_time = 0 while not self.control_server._finished: time.sleep(1) elapsed_time += 1 if elapsed_time > (timeout) - 5: # stop 5 seconds early self.log.info( "application timed out after {} seconds".format( timeout)) self.control_server.wait_for_quit() break finally: if self.config['app'] != "geckoview": try: self.runner.check_for_crashes() except NotImplementedError: # not implemented for Chrome pass # TODO: if on geckoview is there some cleanup here i.e. check for crashes? if self.playback is not None: self.playback.stop() # remove the raptor webext; as it must be reloaded with each subtest anyway # applies to firefox only; chrome the addon is actually just cmd line arg if self.config['app'] in ["firefox", "geckoview"]: self.log.info("removing webext %s" % raptor_webext) self.profile.addons.remove_addon(webext_id) if self.config['app'] != "geckoview": if self.runner.is_running(): self.runner.stop() # TODO the geckoview app should have been shutdown by this point by the # control server, but we can double-check here to make sure def process_results(self): # when running locally output results in build/raptor.json; when running # in production output to a local.json to be turned into tc job artifact if self.config.get('run_local', False): if 'MOZ_DEVELOPER_REPO_DIR' in os.environ: raptor_json_path = os.path.join( os.environ['MOZ_DEVELOPER_REPO_DIR'], 'testing', 'mozharness', 'build', 'raptor.json') else: raptor_json_path = os.path.join(here, 'raptor.json') else: raptor_json_path = os.path.join(os.getcwd(), 'local.json') self.config['raptor_json_path'] = raptor_json_path return self.results_handler.summarize_and_output(self.config) def clean_up(self): self.control_server.stop() if self.config['app'] != "geckoview": self.runner.stop() elif self.config['app'] == 'geckoview': self.log.info('removing reverse socket connections') self.device.remove_socket_connections('reverse') else: pass self.log.info("finished")
class WebExtension(Perftest): """Container class for WebExtension.""" def __init__(self, *args, **kwargs): self.raptor_webext = None self.control_server = None self.cpu_profiler = None super(WebExtension, self).__init__(*args, **kwargs) # set up the results handler self.results_handler = RaptorResultsHandler(**self.config) browser_name, browser_version = self.get_browser_meta() self.results_handler.add_browser_meta(self.config["app"], browser_version) self.start_control_server() def run_test_setup(self, test): super(WebExtension, self).run_test_setup(test) LOG.info("starting web extension test: %s" % test["name"]) LOG.info("test settings: %s" % str(test)) LOG.info("web extension config: %s" % str(self.config)) if test.get("type") == "benchmark": self.serve_benchmark_source(test) gen_test_config( test["name"], self.control_server.port, self.post_startup_delay, host=self.config["host"], b_port=int(self.benchmark.port) if self.benchmark else 0, debug_mode=1 if self.debug_mode else 0, browser_cycle=test.get("browser_cycle", 1), ) self.install_raptor_webext() def wait_for_test_finish(self, test, timeout, process_exists_callback=None): # this is a 'back-stop' i.e. if for some reason Raptor doesn't finish for some # serious problem; i.e. the test was unable to send a 'page-timeout' to the control # server, etc. Therefore since this is a 'back-stop' we want to be generous here; # we don't want this timeout occurring unless abosultely necessary # convert timeout to seconds and account for page cycles # pylint --py3k W1619 timeout = int(timeout / 1000) * int(test.get("page_cycles", 1)) # account for the pause the raptor webext runner takes after browser startup # and the time an exception is propagated through the framework # pylint --py3k W1619 timeout += int(self.post_startup_delay / 1000) + 10 # for page-load tests we don't start the page-timeout timer until the pageload.js content # is successfully injected and invoked; which differs per site being tested; therefore we # need to be generous here - let's add 10 seconds extra per page-cycle if test.get("type") == "pageload": timeout += 10 * int(test.get("page_cycles", 1)) # if geckoProfile enabled, give browser more time for profiling if self.config["gecko_profile"] is True: timeout += 5 * 60 # we also need to give time for results processing, not just page/browser cycles! timeout += 60 # stop 5 seconds early end_time = time.time() + timeout - 5 while not self.control_server._finished: # Ignore check if the control server shutdown the app if not self.control_server._is_shutting_down: # If the application is no longer running immediately bail out if callable(process_exists_callback) and not process_exists_callback(): raise RuntimeError("Process has been unexpectedly closed") if self.config["enable_control_server_wait"]: response = self.control_server_wait_get() if response == "webext_shutdownBrowser": if self.config["memory_test"]: generate_android_memory_profile(self, test["name"]) if self.cpu_profiler: self.cpu_profiler.generate_android_cpu_profile(test["name"]) self.control_server_wait_continue() # Sleep for a moment to not check the process too often time.sleep(1) # we only want to force browser-shutdown on timeout if not in debug mode; # in debug-mode we leave the browser running (require manual shutdown) if not self.debug_mode and end_time < time.time(): self.control_server.wait_for_quit() if not self.control_server.is_webextension_loaded: raise RuntimeError("Connection to Raptor webextension failed!") raise RuntimeError( "Test failed to finish. " "Application timed out after {} seconds".format(timeout) ) if self.control_server._runtime_error: raise RuntimeError( "Failed to run {}: {}\nStack:\n{}".format( test["name"], self.control_server._runtime_error["error"], self.control_server._runtime_error["stack"], ) ) def run_test_teardown(self, test): super(WebExtension, self).run_test_teardown(test) if self.playback is not None: self.playback.stop() self.playback = None self.remove_raptor_webext() def set_browser_test_prefs(self, raw_prefs): # add test specific preferences LOG.info("setting test-specific Firefox preferences") self.profile.set_preferences(json.loads(raw_prefs)) def build_browser_profile(self): super(WebExtension, self).build_browser_profile() if self.control_server: # The control server and the browser profile are not well factored # at this time, so the start-up process overlaps. Accommodate. self.control_server.user_profile = self.profile def start_control_server(self): self.control_server = RaptorControlServer(self.results_handler, self.debug_mode) self.control_server.user_profile = self.profile self.control_server.start() if self.config["enable_control_server_wait"]: self.control_server_wait_set("webext_shutdownBrowser") def serve_benchmark_source(self, test): # benchmark-type tests require the benchmark test to be served out self.benchmark = Benchmark(self.config, test) def install_raptor_webext(self): # must intall raptor addon each time because we dynamically update some content # the webext is installed into the browser profile # note: for chrome the addon is just a list of paths that ultimately are added # to the chromium command line '--load-extension' argument self.raptor_webext = os.path.join(webext_dir, "raptor") LOG.info("installing webext %s" % self.raptor_webext) self.profile.addons.install(self.raptor_webext) # on firefox we can get an addon id; chrome addon actually is just cmd line arg try: self.webext_id = self.profile.addons.addon_details(self.raptor_webext)["id"] except AttributeError: self.webext_id = None self.control_server.startup_handler(False) def remove_raptor_webext(self): # remove the raptor webext; as it must be reloaded with each subtest anyway if not self.raptor_webext: LOG.info("raptor webext not installed - not attempting removal") return LOG.info("removing webext %s" % self.raptor_webext) if self.config["app"] in ["firefox", "geckoview", "refbrow", "fenix"]: self.profile.addons.remove_addon(self.webext_id) # for chrome the addon is just a list (appended to cmd line) chrome_apps = CHROMIUM_DISTROS + ["chrome-android", "chromium-android"] if self.config["app"] in chrome_apps: self.profile.addons.remove(self.raptor_webext) self.raptor_webext = None def clean_up(self): super(WebExtension, self).clean_up() if self.config["enable_control_server_wait"]: self.control_server_wait_clear("all") self.control_server.stop() LOG.info("finished") def control_server_wait_set(self, state): response = requests.post( "http://127.0.0.1:%s/" % self.control_server.port, json={"type": "wait-set", "data": state}, ) return response.text def control_server_wait_timeout(self, timeout): response = requests.post( "http://127.0.0.1:%s/" % self.control_server.port, json={"type": "wait-timeout", "data": timeout}, ) return response.text def control_server_wait_get(self): response = requests.post( "http://127.0.0.1:%s/" % self.control_server.port, json={"type": "wait-get", "data": ""}, ) return response.text def control_server_wait_continue(self): response = requests.post( "http://127.0.0.1:%s/" % self.control_server.port, json={"type": "wait-continue", "data": ""}, ) return response.text def control_server_wait_clear(self, state): response = requests.post( "http://127.0.0.1:%s/" % self.control_server.port, json={"type": "wait-clear", "data": state}, ) return response.text
class Raptor(object): """Container class for Raptor""" def __init__(self, app, binary, run_local=False, obj_path=None, gecko_profile=False, gecko_profile_interval=None, gecko_profile_entries=None, symbols_path=None, host=None, power_test=False, is_release_build=False, debug_mode=False, activity=None): # Override the magic --host HOST_IP with the value of the environment variable. if host == 'HOST_IP': host = os.environ['HOST_IP'] self.config = {} self.config['app'] = app self.config['binary'] = binary self.config['platform'] = mozinfo.os self.config['processor'] = mozinfo.processor self.config['run_local'] = run_local self.config['obj_path'] = obj_path self.config['gecko_profile'] = gecko_profile self.config['gecko_profile_interval'] = gecko_profile_interval self.config['gecko_profile_entries'] = gecko_profile_entries self.config['symbols_path'] = symbols_path self.config['host'] = host self.config['power_test'] = power_test self.config['is_release_build'] = is_release_build self.raptor_venv = os.path.join(os.getcwd(), 'raptor-venv') self.log = get_default_logger(component='raptor-main') self.control_server = None self.playback = None self.benchmark = None self.benchmark_port = 0 self.gecko_profiler = None self.post_startup_delay = 30000 self.device = None self.profile_class = app self.firefox_android_apps = ['fennec', 'geckoview', 'refbrow', 'fenix'] # debug mode is currently only supported when running locally self.debug_mode = debug_mode if self.config['run_local'] else False # if running debug-mode reduce the pause after browser startup if self.debug_mode: self.post_startup_delay = 3000 self.log.info("debug-mode enabled, reducing post-browser startup pause to %d ms" % self.post_startup_delay) self.log.info("main raptor init, config is: %s" % str(self.config)) # create results holder self.results_handler = RaptorResultsHandler() @property def profile_data_dir(self): if 'MOZ_DEVELOPER_REPO_DIR' in os.environ: return os.path.join(os.environ['MOZ_DEVELOPER_REPO_DIR'], 'testing', 'profiles') if build: return os.path.join(build.topsrcdir, 'testing', 'profiles') return os.path.join(here, 'profile_data') def run_test_setup(self, test): self.log.info("starting raptor test: %s" % test['name']) self.log.info("test settings: %s" % str(test)) self.log.info("raptor config: %s" % str(self.config)) if test.get('type') == "benchmark": self.serve_benchmark_source(test) gen_test_config(self.config['app'], test['name'], self.control_server.port, self.post_startup_delay, host=self.config['host'], b_port=self.benchmark_port, debug_mode=1 if self.debug_mode else 0) self.install_raptor_webext() if test.get("preferences", None) is not None: self.set_browser_test_prefs(test['preferences']) # if 'alert_on' was provided in the test INI, add to our config for results/output self.config['subtest_alert_on'] = test.get('alert_on', None) def set_browser_test_prefs(self, raw_prefs): # add test specific preferences if self.config['app'] == "firefox": self.log.info("setting test-specific browser preferences") self.profile.set_preferences(json.loads(raw_prefs)) else: self.log.info("preferences were configured for the test, however \ we currently do not install them on non Firefox browsers.") def run_test_teardown(self): self.check_for_crashes() if self.playback is not None: self.playback.stop() self.remove_raptor_webext() # gecko profiling symbolication if self.config['gecko_profile'] is True: self.gecko_profiler.symbolicate() # clean up the temp gecko profiling folders self.log.info("cleaning up after gecko profiling") self.gecko_profiler.clean() def create_browser_profile(self): self.profile = create_profile(self.profile_class) # Merge in base profiles with open(os.path.join(self.profile_data_dir, 'profiles.json'), 'r') as fh: base_profiles = json.load(fh)['raptor'] for name in base_profiles: path = os.path.join(self.profile_data_dir, name) self.log.info("Merging profile: {}".format(path)) self.profile.merge(path) # add profile dir to our config self.config['local_profile_dir'] = self.profile.profile def start_control_server(self): self.control_server = RaptorControlServer(self.results_handler, self.debug_mode) self.control_server.start() # for android we must make the control server available to the device if self.config['app'] in self.firefox_android_apps and \ self.config['host'] in ('localhost', '127.0.0.1'): self.log.info("making the raptor control server port available to device") _tcp_port = "tcp:%s" % self.control_server.port self.device.create_socket_connection('reverse', _tcp_port, _tcp_port) def get_playback_config(self, test): self.config['playback_tool'] = test.get('playback') self.log.info("test uses playback tool: %s " % self.config['playback_tool']) self.config['playback_binary_manifest'] = test.get('playback_binary_manifest', None) _key = 'playback_binary_zip_%s' % self.config['platform'] self.config['playback_binary_zip'] = test.get(_key, None) self.config['playback_pageset_manifest'] = test.get('playback_pageset_manifest', None) _key = 'playback_pageset_zip_%s' % self.config['platform'] self.config['playback_pageset_zip'] = test.get(_key, None) self.config['playback_recordings'] = test.get('playback_recordings', None) playback_dir = os.path.join(here, 'playback') for key in ('playback_pageset_manifest', 'playback_pageset_zip'): if self.config.get(key) is None: continue self.config[key] = os.path.join(playback_dir, self.config[key]) self.config['custom_script'] = os.path.join(playback_dir, 'alternate-server-replay.py') def serve_benchmark_source(self, test): # benchmark-type tests require the benchmark test to be served out self.benchmark = Benchmark(self.config, test) self.benchmark_port = int(self.benchmark.port) # for android we must make the benchmarks server available to the device if self.config['app'] in self.firefox_android_apps and \ self.config['host'] in ('localhost', '127.0.0.1'): self.log.info("making the raptor benchmarks server port available to device") _tcp_port = "tcp:%s" % self.benchmark_port self.device.create_socket_connection('reverse', _tcp_port, _tcp_port) def install_raptor_webext(self): # must intall raptor addon each time because we dynamically update some content # the webext is installed into the browser profile # note: for chrome the addon is just a list of paths that ultimately are added # to the chromium command line '--load-extension' argument self.raptor_webext = os.path.join(webext_dir, 'raptor') self.log.info("installing webext %s" % self.raptor_webext) self.profile.addons.install(self.raptor_webext) # on firefox we can get an addon id; chrome addon actually is just cmd line arg try: self.webext_id = self.profile.addons.addon_details(self.raptor_webext)['id'] except AttributeError: self.webext_id = None def remove_raptor_webext(self): # remove the raptor webext; as it must be reloaded with each subtest anyway self.log.info("removing webext %s" % self.raptor_webext) if self.config['app'] in ['firefox', 'geckoview', 'fennec', 'refbrow', 'fenix']: self.profile.addons.remove_addon(self.webext_id) # for chrome the addon is just a list (appended to cmd line) if self.config['app'] in ["chrome", "chrome-android"]: self.profile.addons.remove(self.raptor_webext) def set_test_browser_prefs(self, test_prefs): # if the test has any specific browser prefs specified, set those in browser profiile if self.config['app'] == "firefox": self.profile.set_preferences(json.loads(test_prefs)) else: self.log.info("preferences were configured for the test, \ but we do not install them on non Firefox browsers.") def start_playback(self, test): # startup the playback tool self.get_playback_config(test) self.playback = get_playback(self.config, self.device) # for android we must make the playback server available to the device if self.config['app'] in self.firefox_android_apps and self.config['host'] \ in ('localhost', '127.0.0.1'): self.log.info("making the raptor playback server port available to device") _tcp_port = "tcp:8080" self.device.create_socket_connection('reverse', _tcp_port, _tcp_port) def delete_proxy_settings_from_profile(self): # Must delete the proxy settings from the profile if running # the test with a host different from localhost. userjspath = os.path.join(self.profile.profile, 'user.js') with open(userjspath) as userjsfile: prefs = userjsfile.readlines() prefs = [pref for pref in prefs if 'network.proxy' not in pref] with open(userjspath, 'w') as userjsfile: userjsfile.writelines(prefs) def _init_gecko_profiling(self, test): self.log.info("initializing gecko profiler") upload_dir = os.getenv('MOZ_UPLOAD_DIR') if not upload_dir: self.log.critical("Profiling ignored because MOZ_UPLOAD_DIR was not set") else: self.gecko_profiler = GeckoProfile(upload_dir, self.config, test) def wait_for_test_finish(self, test, timeout): # convert timeout to seconds and account for page cycles timeout = int(timeout / 1000) * int(test['page_cycles']) # account for the pause the raptor webext runner takes after browser startup timeout += (int(self.post_startup_delay / 1000) + 3) # if geckoProfile enabled, give browser more time for profiling if self.config['gecko_profile'] is True: timeout += 5 * 60 elapsed_time = 0 while not self.control_server._finished: time.sleep(1) # we only want to force browser-shutdown on timeout if not in debug mode; # in debug-mode we leave the browser running (require manual shutdown) if not self.debug_mode: elapsed_time += 1 if elapsed_time > (timeout) - 5: # stop 5 seconds early self.log.info("application timed out after {} seconds".format(timeout)) self.control_server.wait_for_quit() break def process_results(self, test_names): # when running locally output results in build/raptor.json; when running # in production output to a local.json to be turned into tc job artifact if self.config.get('run_local', False): if 'MOZ_DEVELOPER_REPO_DIR' in os.environ: raptor_json_path = os.path.join(os.environ['MOZ_DEVELOPER_REPO_DIR'], 'testing', 'mozharness', 'build', 'raptor.json') else: raptor_json_path = os.path.join(here, 'raptor.json') else: raptor_json_path = os.path.join(os.getcwd(), 'local.json') self.config['raptor_json_path'] = raptor_json_path return self.results_handler.summarize_and_output(self.config, test_names) def get_page_timeout_list(self): return self.results_handler.page_timeout_list def clean_up(self): self.control_server.stop() if self.config['app'] not in self.firefox_android_apps: self.runner.stop() elif self.config['app'] in self.firefox_android_apps: self.log.info('removing reverse socket connections') self.device.remove_socket_connections('reverse') else: pass self.log.info("finished")
def start_control_server(self): self.control_server = RaptorControlServer(self.results_handler) self.control_server.start()
class Raptor(object): """Container class for Raptor""" def __init__(self, app, binary, run_local=False, obj_path=None): self.config = {} self.config['app'] = app self.config['binary'] = binary self.config['platform'] = mozinfo.os self.config['processor'] = mozinfo.processor self.config['run_local'] = run_local self.config['obj_path'] = obj_path self.raptor_venv = os.path.join(os.getcwd(), 'raptor-venv') self.log = get_default_logger(component='raptor-main') self.control_server = None self.playback = None self.benchmark = None # Create the profile self.profile = create_profile(self.config['app']) # Merge in base profiles with open(os.path.join(self.profile_data_dir, 'profiles.json'), 'r') as fh: base_profiles = json.load(fh)['raptor'] for name in base_profiles: path = os.path.join(self.profile_data_dir, name) self.log.info("Merging profile: {}".format(path)) self.profile.merge(path) # create results holder self.results_handler = RaptorResultsHandler() # Create the runner self.output_handler = OutputHandler() process_args = { 'processOutputLine': [self.output_handler], } runner_cls = runners[app] self.runner = runner_cls(binary, profile=self.profile, process_args=process_args) self.log.info("raptor config: %s" % str(self.config)) @property def profile_data_dir(self): if 'MOZ_DEVELOPER_REPO_DIR' in os.environ: return os.path.join(os.environ['MOZ_DEVELOPER_REPO_DIR'], 'testing', 'profiles') if build: return os.path.join(build.topsrcdir, 'testing', 'profiles') return os.path.join(here, 'profile_data') def start_control_server(self): self.control_server = RaptorControlServer(self.results_handler) self.control_server.start() def get_playback_config(self, test): self.config['playback_tool'] = test.get('playback') self.log.info("test uses playback tool: %s " % self.config['playback_tool']) self.config['playback_binary_manifest'] = test.get( 'playback_binary_manifest', None) _key = 'playback_binary_zip_%s' % self.config['platform'] self.config['playback_binary_zip'] = test.get(_key, None) self.config['playback_pageset_manifest'] = test.get( 'playback_pageset_manifest', None) _key = 'playback_pageset_zip_%s' % self.config['platform'] self.config['playback_pageset_zip'] = test.get(_key, None) self.config['playback_recordings'] = test.get('playback_recordings', None) self.config['python3_win_manifest'] = test.get('python3_win_manifest', None) def run_test(self, test, timeout=None): self.log.info("starting raptor test: %s" % test['name']) self.log.info("test settings: %s" % str(test)) self.log.info("raptor config: %s" % str(self.config)) # benchmark-type tests require the benchmark test to be served out if test.get('type') == "benchmark": self.benchmark = Benchmark(self.config, test) benchmark_port = int(self.benchmark.port) else: benchmark_port = 0 gen_test_config(self.config['app'], test['name'], self.control_server.port, benchmark_port) # must intall raptor addon each time because we dynamically update some content raptor_webext = os.path.join(webext_dir, 'raptor') self.log.info("installing webext %s" % raptor_webext) self.profile.addons.install(raptor_webext) # on firefox we can get an addon id; chrome addon actually is just cmd line arg if self.config['app'] == "firefox": webext_id = self.profile.addons.addon_details(raptor_webext)['id'] # some tests require tools to playback the test pages if test.get('playback', None) is not None: self.get_playback_config(test) # startup the playback tool self.playback = get_playback(self.config) self.runner.start() proc = self.runner.process_handler self.output_handler.proc = proc self.control_server.browser_proc = proc self.control_server._finished = False # convert to seconds and account for page cycles timeout = int(timeout / 1000) * int(test['page_cycles']) try: elapsed_time = 0 while not self.control_server._finished: time.sleep(1) elapsed_time += 1 if elapsed_time > (timeout) - 5: # stop 5 seconds early self.control_server.wait_for_quit() break finally: try: self.runner.check_for_crashes() except NotImplementedError: # not implemented for Chrome pass if self.playback is not None: self.playback.stop() # remove the raptor webext; as it must be reloaded with each subtest anyway # applies to firefox only; chrome the addon is actually just cmd line arg if self.config['app'] == "firefox": self.log.info("removing webext %s" % raptor_webext) self.profile.addons.remove_addon(webext_id) if self.runner.is_running(): self.log.info( "Application timed out after {} seconds".format(timeout)) self.runner.stop() def process_results(self): # when running locally output results in build/raptor.json; when running # in production output to a local.json to be turned into tc job artifact if self.config.get('run_local', False): if 'MOZ_DEVELOPER_REPO_DIR' in os.environ: raptor_json_path = os.path.join( os.environ['MOZ_DEVELOPER_REPO_DIR'], 'testing', 'mozharness', 'build', 'raptor.json') else: raptor_json_path = os.path.join(here, 'raptor.json') else: raptor_json_path = os.path.join(os.getcwd(), 'local.json') self.config['raptor_json_path'] = raptor_json_path return self.results_handler.summarize_and_output(self.config) def clean_up(self): self.control_server.stop() self.runner.stop() self.log.info("finished")
class Raptor(object): """Container class for Raptor""" def __init__(self, app, binary, run_local=False, obj_path=None, gecko_profile=False, gecko_profile_interval=None, gecko_profile_entries=None, symbols_path=None, host=None, is_release_build=False, debug_mode=False): self.config = {} self.config['app'] = app self.config['binary'] = binary self.config['platform'] = mozinfo.os self.config['processor'] = mozinfo.processor self.config['run_local'] = run_local self.config['obj_path'] = obj_path self.config['gecko_profile'] = gecko_profile self.config['gecko_profile_interval'] = gecko_profile_interval self.config['gecko_profile_entries'] = gecko_profile_entries self.config['symbols_path'] = symbols_path self.config['host'] = host self.config['is_release_build'] = is_release_build self.raptor_venv = os.path.join(os.getcwd(), 'raptor-venv') self.log = get_default_logger(component='raptor-main') self.control_server = None self.playback = None self.benchmark = None self.gecko_profiler = None self.post_startup_delay = 30000 self.device = None # debug mode is currently only supported when running locally self.debug_mode = debug_mode if self.config['run_local'] else False # if running debug-mode reduce the pause after browser startup if self.debug_mode: self.post_startup_delay = 3000 self.log.info( "debug-mode enabled, reducing post-browser startup pause to %d ms" % self.post_startup_delay) # Create the profile; for geckoview we want a firefox profile type if self.config['app'] == 'geckoview': self.profile = create_profile('firefox') else: self.profile = create_profile(self.config['app']) # Merge in base profiles with open(os.path.join(self.profile_data_dir, 'profiles.json'), 'r') as fh: base_profiles = json.load(fh)['raptor'] for name in base_profiles: path = os.path.join(self.profile_data_dir, name) self.log.info("Merging profile: {}".format(path)) self.profile.merge(path) # add profile dir to our config self.config['local_profile_dir'] = self.profile.profile # create results holder self.results_handler = RaptorResultsHandler() # when testing desktop browsers we use mozrunner to start the browser; when # testing on android (i.e. geckoview) we use mozdevice to control the device app if self.config['app'] == "geckoview": # create the android device handler; it gets initiated and sets up adb etc self.log.info("creating android device handler using mozdevice") self.device = ADBAndroid(verbose=True) self.device.clear_logcat() else: # create the desktop browser runner self.log.info("creating browser runner using mozrunner") self.output_handler = OutputHandler() process_args = { 'processOutputLine': [self.output_handler], } runner_cls = runners[app] self.runner = runner_cls(binary, profile=self.profile, process_args=process_args) self.log.info("raptor config: %s" % str(self.config)) @property def profile_data_dir(self): if 'MOZ_DEVELOPER_REPO_DIR' in os.environ: return os.path.join(os.environ['MOZ_DEVELOPER_REPO_DIR'], 'testing', 'profiles') if build: return os.path.join(build.topsrcdir, 'testing', 'profiles') return os.path.join(here, 'profile_data') def start_control_server(self): self.control_server = RaptorControlServer(self.results_handler, self.debug_mode) self.control_server.start() # for android we must make the control server available to the device if self.config['app'] == "geckoview" and self.config['host'] in ( 'localhost', '127.0.0.1'): self.log.info( "making the raptor control server port available to device") _tcp_port = "tcp:%s" % self.control_server.port self.device.create_socket_connection('reverse', _tcp_port, _tcp_port) def get_playback_config(self, test): self.config['playback_tool'] = test.get('playback') self.log.info("test uses playback tool: %s " % self.config['playback_tool']) self.config['playback_binary_manifest'] = test.get( 'playback_binary_manifest', None) _key = 'playback_binary_zip_%s' % self.config['platform'] self.config['playback_binary_zip'] = test.get(_key, None) self.config['playback_pageset_manifest'] = test.get( 'playback_pageset_manifest', None) _key = 'playback_pageset_zip_%s' % self.config['platform'] self.config['playback_pageset_zip'] = test.get(_key, None) self.config['playback_recordings'] = test.get('playback_recordings', None) self.config['python3_win_manifest'] = test.get('python3_win_manifest', None) def run_test(self, test, timeout=None): self.log.info("starting raptor test: %s" % test['name']) self.log.info("test settings: %s" % str(test)) self.log.info("raptor config: %s" % str(self.config)) # benchmark-type tests require the benchmark test to be served out if test.get('type') == "benchmark": self.benchmark = Benchmark(self.config, test) benchmark_port = int(self.benchmark.port) # for android we must make the benchmarks server available to the device if self.config['app'] == "geckoview" and self.config['host'] \ in ('localhost', '127.0.0.1'): self.log.info( "making the raptor benchmarks server port available to device" ) _tcp_port = "tcp:%s" % benchmark_port self.device.create_socket_connection('reverse', _tcp_port, _tcp_port) else: benchmark_port = 0 gen_test_config(self.config['app'], test['name'], self.control_server.port, self.post_startup_delay, host=self.config['host'], b_port=benchmark_port, debug_mode=1 if self.debug_mode else 0) # must intall raptor addon each time because we dynamically update some content # note: for chrome the addon is just a list of paths that ultimately are added # to the chromium command line '--load-extension' argument raptor_webext = os.path.join(webext_dir, 'raptor') self.log.info("installing webext %s" % raptor_webext) self.profile.addons.install(raptor_webext) # add test specific preferences if test.get("preferences", None) is not None: if self.config['app'] == "firefox": self.profile.set_preferences(json.loads(test['preferences'])) else: self.log.info("preferences were configured for the test, \ but we do not install them on non Firefox browsers." ) # on firefox we can get an addon id; chrome addon actually is just cmd line arg if self.config['app'] in ["firefox", "geckoview"]: webext_id = self.profile.addons.addon_details(raptor_webext)['id'] # for android/geckoview, create a top-level raptor folder on the device # sdcard; if it already exists remove it so we start fresh each time if self.config['app'] == "geckoview": self.device_raptor_dir = "/sdcard/raptor" self.config['device_raptor_dir'] = self.device_raptor_dir if self.device.is_dir(self.device_raptor_dir): self.log.info("deleting existing device raptor dir: %s" % self.device_raptor_dir) self.device.rm(self.device_raptor_dir, recursive=True) self.log.info("creating raptor folder on sdcard: %s" % self.device_raptor_dir) self.device.mkdir(self.device_raptor_dir) self.device.chmod(self.device_raptor_dir, recursive=True) # some tests require tools to playback the test pages if test.get('playback', None) is not None: self.get_playback_config(test) # startup the playback tool self.playback = get_playback(self.config, self.device) # for android we must make the playback server available to the device if self.config['app'] == "geckoview" and self.config['host'] \ in ('localhost', '127.0.0.1'): self.log.info( "making the raptor playback server port available to device" ) _tcp_port = "tcp:8080" self.device.create_socket_connection('reverse', _tcp_port, _tcp_port) if self.config['app'] in ("geckoview", "firefox") and \ self.config['host'] not in ('localhost', '127.0.0.1'): # Must delete the proxy settings from the profile if running # the test with a host different from localhost. userjspath = os.path.join(self.profile.profile, 'user.js') with open(userjspath) as userjsfile: prefs = userjsfile.readlines() prefs = [pref for pref in prefs if 'network.proxy' not in pref] with open(userjspath, 'w') as userjsfile: userjsfile.writelines(prefs) # for geckoview/android pageload playback we can't use a policy to turn on the # proxy; we need to set prefs instead; note that the 'host' may be different # than '127.0.0.1' so we must set the prefs accordingly if self.config['app'] == "geckoview" and test.get('playback', None) is not None: self.log.info( "setting profile prefs to turn on the geckoview browser proxy") no_proxies_on = "localhost, 127.0.0.1, %s" % self.config['host'] proxy_prefs = {} proxy_prefs["network.proxy.type"] = 1 proxy_prefs["network.proxy.http"] = self.config['host'] proxy_prefs["network.proxy.http_port"] = 8080 proxy_prefs["network.proxy.ssl"] = self.config['host'] proxy_prefs["network.proxy.ssl_port"] = 8080 proxy_prefs["network.proxy.no_proxies_on"] = no_proxies_on self.profile.set_preferences(proxy_prefs) # now some final settings, and then startup of the browser under test if self.config['app'] == "geckoview": # for android/geckoview we must copy the profile onto the device and set perms if not self.device.is_app_installed(self.config['binary']): raise Exception('%s is not installed' % self.config['binary']) self.device_profile = os.path.join(self.device_raptor_dir, "profile") if self.device.is_dir(self.device_profile): self.log.info("deleting existing device profile folder: %s" % self.device_profile) self.device.rm(self.device_profile, recursive=True) self.log.info("creating profile folder on device: %s" % self.device_profile) self.device.mkdir(self.device_profile) self.log.info("copying firefox profile onto the device") self.log.info("note: the profile folder being copied is: %s" % self.profile.profile) self.log.info( 'the adb push cmd copies that profile dir to a new temp dir before copy' ) self.device.push(self.profile.profile, self.device_profile) self.device.chmod(self.device_profile, recursive=True) # now start the geckoview app self.log.info("starting %s" % self.config['app']) extra_args = [ "-profile", self.device_profile, "--es", "env0", "LOG_VERBOSE=1", "--es", "env1", "R_LOG_LEVEL=6" ] try: # make sure the geckoview app is not running before # attempting to start. self.device.stop_application(self.config['binary']) self.device.launch_activity(self.config['binary'], "GeckoViewActivity", extra_args=extra_args, url='about:blank', e10s=True, fail_if_running=False) except Exception: self.log.error("Exception launching %s" % self.config['binary']) raise self.control_server.device = self.device self.control_server.app_name = self.config['binary'] else: # For Firefox we need to set # MOZ_DISABLE_NONLOCAL_CONNECTIONS=1 env var before # startup when testing release builds from mozilla-beta or # mozilla-release. This is because of restrictions on # release builds that require webextensions to be signed # unless MOZ_DISABLE_NONLOCAL_CONNECTIONS is set to '1'. if self.config['app'] == "firefox" and self.config[ 'is_release_build']: self.log.info("setting MOZ_DISABLE_NONLOCAL_CONNECTIONS=1") os.environ['MOZ_DISABLE_NONLOCAL_CONNECTIONS'] = "1" # if running debug-mode, tell Firefox to open the browser console on startup # for google chrome, open the devtools on the raptor test tab if self.debug_mode: if self.config['app'] == "firefox": self.runner.cmdargs.extend(['-jsconsole']) if self.config['app'] == "chrome": self.runner.cmdargs.extend( ['--auto-open-devtools-for-tabs']) # now start the desktop browser self.log.info("starting %s" % self.config['app']) # if running a pageload test on google chrome, add the cmd line options # to turn on the proxy and ignore security certificate errors # if using host localhost, 127.0.0.1. if self.config['app'] == "chrome" and test.get('playback', None) is not None: chrome_args = [ '--proxy-server="http=127.0.0.1:8080;' + 'https=127.0.0.1:8080;ssl=127.0.0.1:8080"', '--ignore-certificate-errors' ] if self.config['host'] not in ('localhost', '127.0.0.1'): chrome_args[0] = chrome_args[0].replace( '127.0.0.1', self.config['host']) if ' '.join(chrome_args) not in ' '.join(self.runner.cmdargs): self.runner.cmdargs.extend(chrome_args) self.runner.start() proc = self.runner.process_handler self.output_handler.proc = proc self.control_server.browser_proc = proc # pageload tests need to be able to access non-local connections via mitmproxy if self.config['app'] == "firefox" and self.config['is_release_build'] and \ test.get('playback', None) is not None: self.log.info("setting MOZ_DISABLE_NONLOCAL_CONNECTIONS=0") os.environ['MOZ_DISABLE_NONLOCAL_CONNECTIONS'] = "0" # if geckoProfile is enabled, initialize it if self.config['gecko_profile'] is True: self._init_gecko_profiling(test) # tell the control server the gecko_profile dir; the control server will # receive the actual gecko profiles from the web ext and will write them # to disk; then profiles are picked up by gecko_profile.symbolicate self.control_server.gecko_profile_dir = self.gecko_profiler.gecko_profile_dir # set our cs flag to indicate we are running the browser/app self.control_server._finished = False # convert to seconds and account for page cycles timeout = int(timeout / 1000) * int(test['page_cycles']) # account for the pause the raptor webext runner takes after browser startup timeout += int(self.post_startup_delay / 1000) # if geckoProfile enabled, give browser more time for profiling if self.config['gecko_profile'] is True: timeout += 5 * 60 try: elapsed_time = 0 while not self.control_server._finished: time.sleep(1) # we only want to force browser-shutdown on timeout if not in debug mode; # in debug-mode we leave the browser running (require manual shutdown) if not self.debug_mode: elapsed_time += 1 if elapsed_time > (timeout) - 5: # stop 5 seconds early self.log.info( "application timed out after {} seconds".format( timeout)) self.control_server.wait_for_quit() break finally: if self.config['app'] != "geckoview": try: self.runner.check_for_crashes() except NotImplementedError: # not implemented for Chrome pass # TODO: if on geckoview is there some cleanup here i.e. check for crashes? if self.playback is not None: self.playback.stop() # remove the raptor webext; as it must be reloaded with each subtest anyway self.log.info("removing webext %s" % raptor_webext) if self.config['app'] in ["firefox", "geckoview"]: self.profile.addons.remove_addon(webext_id) # for chrome the addon is just a list (appended to cmd line) if self.config['app'] in ["chrome", "chrome-android"]: self.profile.addons.remove(raptor_webext) # gecko profiling symbolication if self.config['gecko_profile'] is True: self.gecko_profiler.symbolicate() # clean up the temp gecko profiling folders self.log.info("cleaning up after gecko profiling") self.gecko_profiler.clean() # browser should be closed by now but this is a backup-shutdown (if not in debug-mode) if not self.debug_mode: if self.config['app'] != "geckoview": if self.runner.is_running(): self.runner.stop() # TODO the geckoview app should have been shutdown by this point by the # control server, but we can double-check here to make sure else: # in debug mode, and running locally, leave the browser running if self.config['run_local']: self.log.info( "* debug-mode enabled - please shutdown the browser manually..." ) self.runner.wait(timeout=None) def _init_gecko_profiling(self, test): self.log.info("initializing gecko profiler") upload_dir = os.getenv('MOZ_UPLOAD_DIR') if not upload_dir: self.log.critical( "Profiling ignored because MOZ_UPLOAD_DIR was not set") else: self.gecko_profiler = GeckoProfile(upload_dir, self.config, test) def process_results(self): # when running locally output results in build/raptor.json; when running # in production output to a local.json to be turned into tc job artifact if self.config.get('run_local', False): if 'MOZ_DEVELOPER_REPO_DIR' in os.environ: raptor_json_path = os.path.join( os.environ['MOZ_DEVELOPER_REPO_DIR'], 'testing', 'mozharness', 'build', 'raptor.json') else: raptor_json_path = os.path.join(here, 'raptor.json') else: raptor_json_path = os.path.join(os.getcwd(), 'local.json') self.config['raptor_json_path'] = raptor_json_path return self.results_handler.summarize_and_output(self.config) def get_page_timeout_list(self): return self.results_handler.page_timeout_list def clean_up(self): self.control_server.stop() if self.config['app'] != "geckoview": self.runner.stop() elif self.config['app'] == 'geckoview': self.log.info('removing reverse socket connections') self.device.remove_socket_connections('reverse') else: pass self.log.info("finished")
class Raptor(object): """Container class for Raptor""" def __init__(self, app, binary): self.config = {} self.config['app'] = app self.config['binary'] = binary self.config['platform'] = mozinfo.os self.raptor_venv = os.path.join(os.getcwd(), 'raptor-venv') self.log = get_default_logger(component='raptor') self.addons_installed = False self.control_server = None self.playback = None # Create the profile self.profile = create_profile(self.config['app']) # Merge in base profiles with open(os.path.join(self.profile_data_dir, 'profiles.json'), 'r') as fh: base_profiles = json.load(fh)['raptor'] for name in base_profiles: path = os.path.join(self.profile_data_dir, name) self.log.info("Merging profile: {}".format(path)) self.profile.merge(path) # create results holder self.results_handler = RaptorResultsHandler() # Create the runner self.output_handler = OutputHandler() process_args = { 'processOutputLine': [self.output_handler], } runner_cls = runners[app] self.runner = runner_cls(binary, profile=self.profile, process_args=process_args) @property def profile_data_dir(self): if 'MOZ_DEVELOPER_REPO_DIR' in os.environ: return os.path.join(os.environ['MOZ_DEVELOPER_REPO_DIR'], 'testing', 'profiles') if build: return os.path.join(build.topsrcdir, 'testing', 'profiles') return os.path.join(here, 'profile_data') def start_control_server(self): self.control_server = RaptorControlServer(self.results_handler) self.control_server.start() def get_playback_config(self, test): self.config['playback_tool'] = test.get('playback') self.log.info("test uses playback tool: %s " % self.config['playback_tool']) self.config['playback_binary_manifest'] = test.get( 'playback_binary_manifest', None) _key = 'playback_binary_zip_%s' % self.config['platform'] self.config['playback_binary_zip'] = test.get(_key, None) self.config['playback_pageset_manifest'] = test.get( 'playback_pageset_manifest', None) _key = 'playback_pageset_zip_%s' % self.config['platform'] self.config['playback_pageset_zip'] = test.get(_key, None) self.config['playback_recordings'] = test.get('playback_recordings', None) def run_test(self, test, timeout=None): self.log.info("starting raptor test: %s" % test['name']) gen_test_config(self.config['app'], test['name'], self.control_server.port) # must intall raptor addon each time because we dynamically update some content raptor_webext = os.path.join(webext_dir, 'raptor') self.log.info("installing webext %s" % raptor_webext) self.profile.addons.install(raptor_webext) webext_id = self.profile.addons.addon_details(raptor_webext)['id'] # some tests require tools to playback the test pages if test.get('playback', None) is not None: self.get_playback_config(test) # startup the playback tool self.playback = get_playback(self.config) self.runner.start() proc = self.runner.process_handler self.output_handler.proc = proc self.control_server.browser_proc = proc try: self.runner.wait(timeout) finally: try: self.runner.check_for_crashes() except NotImplementedError: # not implemented for Chrome pass if self.playback is not None: self.playback.stop() # remove the raptor webext; as it must be reloaded with each subtest anyway self.log.info("removing webext %s" % raptor_webext) self.profile.addons.remove_addon(webext_id) if self.runner.is_running(): self.log("Application timed out after {} seconds".format(timeout)) self.runner.stop() def process_results(self): return self.results_handler.summarize_and_output(self.config) def clean_up(self): self.control_server.stop() self.runner.stop() self.log.info("finished")
class Raptor(object): """Container class for Raptor""" def __init__(self, app, binary, run_local=False, obj_path=None, gecko_profile=False, gecko_profile_interval=None, gecko_profile_entries=None, symbols_path=None, host=None, power_test=False, memory_test=False, is_release_build=False, debug_mode=False, post_startup_delay=None, interrupt_handler=None, **kwargs): # Override the magic --host HOST_IP with the value of the environment variable. if host == 'HOST_IP': host = os.environ['HOST_IP'] self.config = { 'app': app, 'binary': binary, 'platform': mozinfo.os, 'processor': mozinfo.processor, 'run_local': run_local, 'obj_path': obj_path, 'gecko_profile': gecko_profile, 'gecko_profile_interval': gecko_profile_interval, 'gecko_profile_entries': gecko_profile_entries, 'symbols_path': symbols_path, 'host': host, 'power_test': power_test, 'memory_test': memory_test, 'is_release_build': is_release_build, 'enable_control_server_wait': memory_test, } self.raptor_venv = os.path.join(os.getcwd(), 'raptor-venv') self.log = get_default_logger(component='raptor-main') self.control_server = None self.playback = None self.benchmark = None self.benchmark_port = 0 self.gecko_profiler = None self.post_startup_delay = post_startup_delay self.device = None self.profile_class = app self.firefox_android_apps = FIREFOX_ANDROID_APPS self.interrupt_handler = interrupt_handler # debug mode is currently only supported when running locally self.debug_mode = debug_mode if self.config['run_local'] else False # if running debug-mode reduce the pause after browser startup if self.debug_mode: self.post_startup_delay = min(self.post_startup_delay, 3000) self.log.info( "debug-mode enabled, reducing post-browser startup pause to %d ms" % self.post_startup_delay) self.log.info("main raptor init, config is: %s" % str(self.config)) # create results holder self.results_handler = RaptorResultsHandler() @property def profile_data_dir(self): if 'MOZ_DEVELOPER_REPO_DIR' in os.environ: return os.path.join(os.environ['MOZ_DEVELOPER_REPO_DIR'], 'testing', 'profiles') if build: return os.path.join(build.topsrcdir, 'testing', 'profiles') return os.path.join(here, 'profile_data') def check_for_crashes(self): raise NotImplementedError def run_test_setup(self, test): self.log.info("starting raptor test: %s" % test['name']) self.log.info("test settings: %s" % str(test)) self.log.info("raptor config: %s" % str(self.config)) if test.get('type') == "benchmark": self.serve_benchmark_source(test) gen_test_config( self.config['app'], test['name'], self.control_server.port, self.post_startup_delay, host=self.config['host'], b_port=self.benchmark_port, debug_mode=1 if self.debug_mode else 0, browser_cycle=test.get('browser_cycle', 1), ) self.install_raptor_webext() if test.get("preferences") is not None: self.set_browser_test_prefs(test['preferences']) # if 'alert_on' was provided in the test INI, add to our config for results/output self.config['subtest_alert_on'] = test.get('alert_on') def run_test_teardown(self): self.check_for_crashes() if self.playback is not None: self.playback.stop() self.remove_raptor_webext() # gecko profiling symbolication if self.config['gecko_profile'] is True: self.gecko_profiler.symbolicate() # clean up the temp gecko profiling folders self.log.info("cleaning up after gecko profiling") self.gecko_profiler.clean() def set_browser_test_prefs(self, raw_prefs): # add test specific preferences self.log.info("preferences were configured for the test, however \ we currently do not install them on non Firefox browsers." ) def create_browser_profile(self): self.profile = create_profile(self.profile_class) # Merge in base profiles with open(os.path.join(self.profile_data_dir, 'profiles.json'), 'r') as fh: base_profiles = json.load(fh)['raptor'] for name in base_profiles: path = os.path.join(self.profile_data_dir, name) self.log.info("Merging profile: {}".format(path)) self.profile.merge(path) # add profile dir to our config self.config['local_profile_dir'] = self.profile.profile def start_control_server(self): self.control_server = RaptorControlServer(self.results_handler, self.debug_mode) self.control_server.start() if self.config['enable_control_server_wait']: self.control_server_wait_set( 'webext_status/__raptor_shutdownBrowser') def get_playback_config(self, test): platform = self.config['platform'] playback_dir = os.path.join(here, 'playback') self.config.update({ 'playback_tool': test.get('playback'), 'playback_version': test.get('playback_version', "2.0.2"), 'playback_binary_zip': test.get('playback_binary_zip_%s' % platform), 'playback_pageset_zip': test.get('playback_pageset_zip_%s' % platform), 'playback_binary_manifest': test.get('playback_binary_manifest'), 'playback_pageset_manifest': test.get('playback_pageset_manifest'), }) for key in ('playback_pageset_manifest', 'playback_pageset_zip'): if self.config.get(key) is None: continue self.config[key] = os.path.join(playback_dir, self.config[key]) self.log.info("test uses playback tool: %s " % self.config['playback_tool']) def serve_benchmark_source(self, test): # benchmark-type tests require the benchmark test to be served out self.benchmark = Benchmark(self.config, test) self.benchmark_port = int(self.benchmark.port) def install_raptor_webext(self): # must intall raptor addon each time because we dynamically update some content # the webext is installed into the browser profile # note: for chrome the addon is just a list of paths that ultimately are added # to the chromium command line '--load-extension' argument self.raptor_webext = os.path.join(webext_dir, 'raptor') self.log.info("installing webext %s" % self.raptor_webext) self.profile.addons.install(self.raptor_webext) # on firefox we can get an addon id; chrome addon actually is just cmd line arg try: self.webext_id = self.profile.addons.addon_details( self.raptor_webext)['id'] except AttributeError: self.webext_id = None def remove_raptor_webext(self): # remove the raptor webext; as it must be reloaded with each subtest anyway self.log.info("removing webext %s" % self.raptor_webext) if self.config['app'] in [ 'firefox', 'geckoview', 'fennec', 'refbrow', 'fenix' ]: self.profile.addons.remove_addon(self.webext_id) # for chrome the addon is just a list (appended to cmd line) chrome_apps = CHROMIUM_DISTROS + ["chrome-android", "chromium-android"] if self.config['app'] in chrome_apps: self.profile.addons.remove(self.raptor_webext) def get_proxy_command_for_mitm(self, test, version): # Generate Mitmproxy playback args script = os.path.join(here, "playback", "alternate-server-replay-{}.py".format(version)) recordings = test.get("playback_recordings") if recordings: recording_paths = [] proxy_dir = self.playback.mozproxy_dir for recording in recordings.split(): if not recording: continue recording_paths.append(os.path.join(proxy_dir, recording)) # this part is platform-specific if mozinfo.os == "win": script = script.replace("\\", "\\\\\\") recording_paths = [ recording_path.replace("\\", "\\\\\\") for recording_path in recording_paths ] if version == "2.0.2": self.playback.config['playback_tool_args'] = [ "--replay-kill-extra", "--script", '""{} {}""'.format(script, " ".join(recording_paths)) ] elif version == "4.0.4": self.playback.config['playback_tool_args'] = [ "--scripts", script, "--set", "server_replay={}".format(" ".join(recording_paths)) ] else: raise Exception("Mitmproxy version is unknown!") def start_playback(self, test): # creating the playback tool self.get_playback_config(test) self.playback = get_playback(self.config, self.device) self.get_proxy_command_for_mitm(test, self.config['playback_version']) # let's start it! self.playback.start() def delete_proxy_settings_from_profile(self): # Must delete the proxy settings from the profile if running # the test with a host different from localhost. userjspath = os.path.join(self.profile.profile, 'user.js') with open(userjspath) as userjsfile: prefs = userjsfile.readlines() prefs = [pref for pref in prefs if 'network.proxy' not in pref] with open(userjspath, 'w') as userjsfile: userjsfile.writelines(prefs) def _init_gecko_profiling(self, test): self.log.info("initializing gecko profiler") upload_dir = os.getenv('MOZ_UPLOAD_DIR') if not upload_dir: self.log.critical( "Profiling ignored because MOZ_UPLOAD_DIR was not set") else: self.gecko_profiler = GeckoProfile(upload_dir, self.config, test) def wait_for_test_finish(self, test, timeout): # convert timeout to seconds and account for page cycles timeout = int(timeout / 1000) * int(test.get('page_cycles', 1)) # account for the pause the raptor webext runner takes after browser startup timeout += (int(self.post_startup_delay / 1000) + 3) # if geckoProfile enabled, give browser more time for profiling if self.config['gecko_profile'] is True: timeout += 5 * 60 elapsed_time = 0 while not self.control_server._finished: if self.config['enable_control_server_wait']: response = self.control_server_wait_get() if response == 'webext_status/__raptor_shutdownBrowser': if self.config['memory_test']: generate_android_memory_profile(self, test['name']) self.control_server_wait_continue() time.sleep(1) # we only want to force browser-shutdown on timeout if not in debug mode; # in debug-mode we leave the browser running (require manual shutdown) if not self.debug_mode: elapsed_time += 1 if elapsed_time > (timeout) - 5: # stop 5 seconds early self.log.info( "application timed out after {} seconds".format( timeout)) self.control_server.wait_for_quit() break def process_results(self, test_names): # when running locally output results in build/raptor.json; when running # in production output to a local.json to be turned into tc job artifact if self.config.get('run_local', False): if 'MOZ_DEVELOPER_REPO_DIR' in os.environ: raptor_json_path = os.path.join( os.environ['MOZ_DEVELOPER_REPO_DIR'], 'testing', 'mozharness', 'build', 'raptor.json') else: raptor_json_path = os.path.join(here, 'raptor.json') else: raptor_json_path = os.path.join(os.getcwd(), 'local.json') self.config['raptor_json_path'] = raptor_json_path return self.results_handler.summarize_and_output( self.config, test_names) def get_page_timeout_list(self): return self.results_handler.page_timeout_list def clean_up(self): if self.config['enable_control_server_wait']: self.control_server_wait_clear('all') self.control_server.stop() self.log.info("finished") def control_server_wait_set(self, state): response = requests.post("http://127.0.0.1:%s/" % self.control_server.port, json={ "type": "wait-set", "data": state }) return response.content def control_server_wait_timeout(self, timeout): response = requests.post("http://127.0.0.1:%s/" % self.control_server.port, json={ "type": "wait-timeout", "data": timeout }) return response.content def control_server_wait_get(self): response = requests.post("http://127.0.0.1:%s/" % self.control_server.port, json={ "type": "wait-get", "data": "" }) return response.content def control_server_wait_continue(self): response = requests.post("http://127.0.0.1:%s/" % self.control_server.port, json={ "type": "wait-continue", "data": "" }) return response.content def control_server_wait_clear(self, state): response = requests.post("http://127.0.0.1:%s/" % self.control_server.port, json={ "type": "wait-clear", "data": state }) return response.content
def start_control_server(self): self.control_server = RaptorControlServer() self.control_server.start()
class Raptor(object): """Container class for Raptor""" def __init__(self, app, binary): self.config = {} self.config['app'] = app self.config['binary'] = binary self.config['platform'] = mozinfo.os self.raptor_venv = os.path.join(os.getcwd(), 'raptor-venv') self.log = get_default_logger(component='raptor') self.control_server = None self.playback = None # Create the profile pref_file = os.path.join(here, 'preferences', '{}.json'.format(self.config['app'])) prefs = {} if os.path.isfile(pref_file): with open(pref_file, 'r') as fh: prefs = json.load(fh) try: self.profile = create_profile(self.config['app'], preferences=prefs) except NotImplementedError: self.profile = None # Create the runner self.output_handler = OutputHandler() process_args = { 'processOutputLine': [self.output_handler], } runner_cls = runners[app] self.runner = runner_cls(binary, profile=self.profile, process_args=process_args) def start_control_server(self): self.control_server = RaptorControlServer() self.control_server.start() def get_playback_config(self, test): self.config['playback_tool'] = test.get('playback') self.log.info("test uses playback tool: %s " % self.config['playback_tool']) self.config['playback_binary_manifest'] = test.get( 'playback_binary_manifest', None) _key = 'playback_binary_zip_%s' % self.config['platform'] self.config['playback_binary_zip'] = test.get(_key, None) self.config['playback_pageset_manifest'] = test.get( 'playback_pageset_manifest', None) _key = 'playback_pageset_zip_%s' % self.config['platform'] self.config['playback_pageset_zip'] = test.get(_key, None) self.config['playback_recordings'] = test.get('playback_recordings', None) def run_test(self, test, timeout=None): self.log.info("starting raptor test: %s" % test['name']) gen_test_config(self.config['app'], test['name'], self.control_server.port) self.profile.addons.install(os.path.join(webext_dir, 'raptor')) # some tests require tools to playback the test pages if test.get('playback', None) is not None: self.get_playback_config(test) # startup the playback tool self.playback = get_playback(self.config) self.runner.start() first_time = int(time.time()) * 1000 proc = self.runner.process_handler self.output_handler.proc = proc try: self.runner.wait(timeout) finally: try: self.runner.check_for_crashes() except NotImplementedError: # not implemented for Chrome pass if self.playback is not None: self.playback.stop() if self.runner.is_running(): self.log("Application timed out after {} seconds".format(timeout)) self.runner.stop() proc.output.append( "__startBeforeLaunchTimestamp%d__endBeforeLaunchTimestamp" % first_time) proc.output.append( "__startAfterTerminationTimestamp%d__endAfterTerminationTimestamp" % (int(time.time()) * 1000)) def process_results(self): self.log.info('todo: process results and dump in PERFHERDER_JSON blob') self.log.info('- or - do we want the control server to do that?') def clean_up(self): self.control_server.stop() self.runner.stop() self.log.info("raptor finished")