def load(self): config = self.config prefix = ' : %d | %s | %s | ' % (config.level, [ ' FINE ', 'COARSE' ][config.type], intf(len(config.samples), table=1)) progress = Progress(prefix=prefix, steps=len(config.samples), length=33) progress.init() for i, sample in enumerate(config.samples): if self.params.verbose >= 2: self.results[i] = config.solver.load(config.level, config.type, sample) else: try: self.results[i] = config.solver.load( config.level, config.type, sample) except: self.results[i] = None progress.update(i + 1) progress.reset() loaded = [i for i, result in enumerate(self.results) if result != None] self.available = (len(loaded) > 0) return loaded
def copy_restorable_apps_to_wic(target: FactoryClient.Target, wic_image: str, token: str, apps_shortlist: list, fetch_dir: str, progress: Progress): p = Progress(4, progress) apps_fetcher = SkopeAppFetcher(token, fetch_dir) apps_fetcher.fetch_target(target, shortlist=apps_shortlist, force=True) p.tick() apps_size_b = apps_fetcher.get_target_apps_size(target) p.tick() logger.info('Restorable Apps require extra {} bytes of storage'.format(apps_size_b)) with WicImage(wic_image, apps_size_b) as wic_image: if os.path.exists(wic_image.docker_data_root): # wic image was populated by container images data during LmP build (/var/lib/docker) # let's remove it and populate with the given images data logger.info('Removing existing preloaded app images from the system image') shutil.rmtree(wic_image.docker_data_root) if os.path.exists(wic_image.compose_apps_root): # wic image was populated by container images data during LmP build (/var/sota/compose-apps) # let's remove it and populate with the given images data logger.info('Removing existing preloaded compose apps from the system image') shutil.rmtree(wic_image.compose_apps_root) if os.path.exists(wic_image.restorable_apps_root): # wic image was populated by container images data during LmP build (/var/sota/reset-apps) # let's remove it and populate with the given images data logger.info('Removing existing preloaded app images from the system image') shutil.rmtree(wic_image.restorable_apps_root) cmd('cp', '-r', apps_fetcher.target_dir(target.name), wic_image.restorable_apps_root) p.tick() wic_image.update_target(target) p.tick()
def get_target_system_image(self, target: Target, out_dir: str, progress: Progress): # https://api.foundries.io/projects/<factory>/lmp/builds/<build-numb>/runs/<machine>/<image-name>-<machine>.wic.gz image_base_url = target['custom']['origUri'] if 'origUri' in target[ 'custom'] else target['custom']['uri'] image_machine = target['custom']['hardwareIds'][0] image_filename = target['custom']['image-file'] base_url = image_base_url.replace('https://ci.foundries.io', self.api_base_url) image_url = os.path.join(base_url, 'runs', image_machine, image_filename) os_release_url = os.path.join(base_url, 'runs', image_machine, 'os-release') image_file_path = os.path.join(out_dir, image_filename) extracted_image_file_path = image_file_path.rstrip('.gz') p = Progress(2, progress) if not os.path.exists(extracted_image_file_path): logger.info( 'Downloading Target system image...; Target: {}, image: {}'. format(target.name, image_filename)) image_resp = http_get(image_url, headers=self._auth_headers) with open(image_file_path, 'wb') as image_file: for data_chunk in image_resp.iter_content(chunk_size=65536): image_file.write(data_chunk) p.tick() logger.info( 'Extracting Target system image: {}'.format(image_file_path)) subprocess.check_call(['gunzip', '-f', image_file_path]) p.tick() else: logger.info( 'Target system image has been already downloaded: {}'.format( extracted_image_file_path)) release_resp = requests.get(os_release_url, headers=self._auth_headers) if release_resp.ok: try: release_info = self.Release.parse( dict([ line.split('=') for line in release_resp.content.decode().splitlines() ])) except Exception as exc: logger.error( 'Failed to parse a received information about LmP release: ' + str(exc)) release_info = self.Release(0, '') # or just `raise` ??? else: release_info = self.Release(0, '') logger.info('Missing info about LmP release.') return extracted_image_file_path, release_info
def predict_all(self, corpus): if not self.data: self.set_data(corpus) self.predictions = np.zeros(len(self.data)) for i, prediction in enumerate( Progress(self.predict_all_generator(corpus), len(self.data), 10)): self.predictions[i] = prediction return self.predictions
def extract_parsed(self, out_filename, filename=None, nth=None): if filename is None: filename = self.filename or click.prompt('file name is required') filelength = ParseUtils.file_length(filename) if nth is None: nth = self.nth with open(out_filename, 'w') as f: csv_writer = csv.writer(f) for row in Progress(self.parse_all_generator(), filelength, 10): csv_writer.writerow(row)
def copy_compose_apps_to_wic(target: FactoryClient.Target, fetch_dir: str, wic_image: str, token: str, apps_shortlist: list, progress: Progress): p = Progress(4, progress) apps_fetcher = TargetAppsFetcher(token, fetch_dir) apps_fetcher.fetch_target(target, shortlist=apps_shortlist, force=True) p.tick() apps_size_b = apps_fetcher.get_target_apps_size(target) p.tick() logger.info( 'Compose Apps require extra {} bytes of storage'.format(apps_size_b)) with WicImage(wic_image, apps_size_b) as wic_image: if os.path.exists(wic_image.docker_data_root): # wic image was populated by container images data during LmP build (/var/lib/docker) # let's remove it and populate with the given images data logger.info( 'Removing existing preloaded app images from the system image') shutil.rmtree(wic_image.docker_data_root) else: # intel installer images won't have this directory _mk_parent_dir(wic_image.docker_data_root) if os.path.exists(wic_image.compose_apps_root): # wic image was populated by container images data during LmP build (/var/sota/compose-apps) # let's remove it and populate with the given images data logger.info( 'Removing existing preloaded compose apps from the system image' ) shutil.rmtree(wic_image.compose_apps_root) else: # intel installer images won't have this directory _mk_parent_dir(wic_image.compose_apps_root) # copy <fetch-dir>/<target-name>/apps/* to /var/sota/compose-apps/ subprocess.check_call([ 'cp', '-r', apps_fetcher.apps_dir(target.name), wic_image.compose_apps_root ]) # copy <fetch-dir>/<target-name>/images/* to /var/lib/docker/ subprocess.check_call([ 'cp', '-r', apps_fetcher.images_dir(target.name), wic_image.docker_data_root ]) p.tick() wic_image.update_target(target) p.tick()
def copy_container_images_to_wic(target: FactoryClient.Target, factory: str, ostree_repo_archive_dir: str, app_repo_dir, app_fetch_dir: str, wic_image: str, token: str, apps_shortlist: list, progress: Progress): p = Progress(2, progress) target_app_store = ArchOSTreeTargetAppsStore(factory, ostree_repo_archive_dir, app_repo_dir) target.shortlist = apps_shortlist if not target_app_store.exist(target): logger.info('Compose Apps haven\'t been found, fetching them...') apps_fetcher = TargetAppsFetcher(token, app_fetch_dir) if target_app_store.exist_branch(target): target_app_store.checkout(target, apps_fetcher.target_dir(target.name)) apps_fetcher.fetch_target(target, force=True) target.apps_uri = target_app_store.store( target, apps_fetcher.target_dir(target.name)) p.tick() with TemporaryDirectory(dir=os.getenv('HOME', '/root')) as tmp_tree_dir: # TODO: make use of the commit size generation functionality to determine a size to extend a wic image for logger.info('Building an ostree repo for the given Target...') os.makedirs(tmp_tree_dir, exist_ok=True) tmp_tree_repo = OSTreeRepo(tmp_tree_dir, 'bare', create=True) p.tick() target_app_store.copy(target, tmp_tree_repo) p.tick() with WicImage(wic_image, tmp_tree_repo.size_in_kbs() * 1024) as wic_image: logger.info('Removing previously preloaded Apps if any...') shutil.rmtree(wic_image.docker_data_root, ignore_errors=True) shutil.rmtree(wic_image.compose_apps_root, ignore_errors=True) shutil.rmtree(wic_image.compose_apps_tree, ignore_errors=True) p.tick() target_app_store.copy_and_checkout(target, wic_image.compose_apps_tree, wic_image.compose_apps_root, wic_image.docker_data_root) wic_image.update_target(target) p.tick()
def run(self): config = self.config # check if nothing is overwritten # unless the simulation is specified to proceed further or override is allowed if not self.params.proceed and not self.params.override: for sample in config.samples: config.solver.check(config.level, config.type, sample) # get information of the MC run and the prescribed parallelization info_mc = self.info() # set solver iteration config.solver.iteration = config.iteration # use progress indicator, report MC info each time prefix = info_mc + ' ' progress = Progress(prefix=prefix, steps=len(config.samples), length=20) progress.init() import time # queue all samples for step, sample in enumerate(config.samples): config.solver.run(config.level, config.type, sample, self.seed(sample), config.discretization, self.params, self.parallelization) progress.update(step + 1) # reset progress indicator progress.message('Dispatching...') # dispatch all samples info_solver = config.solver.dispatch(config.level, config.type, self.parallelization) # print combined info: MC info and additional (scheduler-related) information from the solver info = progress.message(info_solver) progress.finalize() # return combined info return info
def copy_container_images_from_archive_to_wic(target: FactoryClient.Target, app_image_dir: str, app_preload_dir: str, wic_image: str, token: str, apps_shortlist: list, progress: Progress): p = Progress(2, progress) target_app_store = ArchiveTargetAppsStore(app_image_dir) target.shortlist = apps_shortlist if not target_app_store.exist(target): logger.info('Container images have not been found, trying to obtain them...') apps_fetcher = TargetAppsFetcher(token, app_preload_dir) apps_fetcher.fetch_target_apps(target, apps_shortlist) apps_fetcher.fetch_apps_images() target_app_store.store(target, apps_fetcher.target_dir(target.name)) p.tick() # in kilobytes image_data_size = target_app_store.images_size(target) with WicImage(wic_image, image_data_size * 1024) as wic_image: target_app_store.copy(target, wic_image.docker_data_root, wic_image.compose_apps_root) wic_image.update_target(target) p.tick()
def get_target_system_image(self, target: Target, out_dir: str, progress: Progress): # https://api.foundries.io/projects/<factory>/lmp/builds/<build-numb>/runs/<machine>/<image-name>-<machine>.wic.gz image_base_url = target['custom']['origUri'] if 'origUri' in target[ 'custom'] else target['custom']['uri'] image_machine = target['custom']['hardwareIds'][0] image_filename = target['custom']['image-file'] base_url = image_base_url.replace('https://ci.foundries.io', self.api_base_url) image_url = os.path.join(base_url, 'runs', image_machine, image_filename) image_file_path = os.path.join(out_dir, image_filename) extracted_image_file_path = image_file_path.rstrip('.gz') p = Progress(2, progress) if not os.path.exists(extracted_image_file_path): logger.info( 'Downloading Target system image...; Target: {}, image: {}'. format(target.name, image_filename)) image_resp = http_get(image_url, headers=self._auth_headers) with open(image_file_path, 'wb') as image_file: for data_chunk in image_resp.iter_content(chunk_size=65536): image_file.write(data_chunk) p.tick() logger.info( 'Extracting Target system image: {}'.format(image_file_path)) subprocess.check_call(['gunzip', '-f', image_file_path]) p.tick() else: logger.info( 'Target system image has been already downloaded: {}'.format( extracted_image_file_path)) return extracted_image_file_path
err_msg = 'No Targets found; Factory: {}, input Target list: {}'.format( args.factory, args.targets) else: logger.info('Getting Targets of version {}'.format( args.target_version)) targets = factory_client.get_targets_by_version( args.target_version) err_msg = 'No Targets found; Factory: {}, Version/Build Number: {}'.format( args.factory, args.target_version) found_targets_number = len(targets) if found_targets_number == 0: logger.warning(err_msg) exit(1) p = Progress(len(targets)) logger.info('Found {} Targets to assemble image for'.format( found_targets_number)) for target in targets: logger.info('Assembling image for {}, shortlist: {}'.format( target.name, args.app_shortlist)) subprog = Progress(3, p) image_file_path, release_info = factory_client.get_target_system_image( target, args.out_image_dir, subprog) if args.app_type == 'restorable' or ( not args.app_type and release_info.lmp_version > 84): logger.info('Preloading Restorable Apps...') copy_restorable_apps_to_wic(target, image_file_path, args.token, args.app_shortlist, args.fetch_dir, subprog)
def extract_output(self, out_filename): with open(out_filename, 'w') as f: csv_writer = csv.writer(f, delimiter=',') for row in Progress(self.gen_replace_all(), Utils.file_length(self.filename), 10): csv_writer.writerow(row)
def start(self): try: _, _ = os.popen("stty size", "r").read().split() run_from_term = True except Exception: run_from_term = False progress = Progress(len(self._all_models), self._epochs, len(self._train_loader), run_from_term) progress.init_print(len(self._all_models), self._model_name, self._dataset_name) for model in self._all_models: # different sized models progress.update_model() model.init_weights(self._prev_model) # need for 2layer NN model.to(self._device) train_losses = [] val_losses = [] for epoch in range(epochs): model.epoch_step() running_loss = 0.0 for data in self._train_loader: progress.update_batch() running_loss += model.train_step(data, self._device) train_losses.append(running_loss / len(self._train_loader)) running_loss = 0.0 for data in self._val_loader: running_loss += model.val_step(data, self._device) val_losses.append(running_loss / len(self._val_loader)) progress.update_epoch(train_losses[-1], val_losses[-1]) # TODO: only for two layer nn? if train_losses[-1] == 0.0 and model.num_parameters( ) < self._interpolation_threshold: break running_loss = 0 running_acc = 0 for data in self._test_loader: loss, acc = model.test_step(data, self._device) running_loss += loss running_acc += acc accuracy = running_acc / len(self._test_loader) test_loss = running_loss / len(self._test_loader) progress.finished_model(model.num_parameters(), test_loss, accuracy) model_name = str(model.num_parameters()) self.all_test_losses[model_name] = test_loss self.all_train_losses[model_name] = train_losses self.all_val_losses[model_name] = val_losses self._prev_model = model path = os.path.join("data", "models", self._model_name, self._loss_name, "epochs_" + str(self._epochs)) if not os.path.exists(path): os.makedirs(path) file_name = os.path.join(path, model_name) self.save() print("Saving model to \"{}\"\n".format(file_name)) model.save(file_name) progress.finished_training()