import datetime import time import logging import json import trollius import re from autobahn.wamp.exception import ApplicationError from buildman.server import BuildJobResult from buildman.component.basecomponent import BaseComponent from buildman.jobutil.buildpack import BuildPackage, BuildPackageException from buildman.jobutil.buildstatus import StatusHandler from buildman.jobutil.workererror import WorkerError from data.database import BUILD_PHASE HEARTBEAT_DELTA = datetime.timedelta(seconds=30) HEARTBEAT_TIMEOUT = 10 INITIAL_TIMEOUT = 25 SUPPORTED_WORKER_VERSIONS = ['0.1-beta'] logger = logging.getLogger(__name__) class ComponentStatus(object): """ ComponentStatus represents the possible states of a component. """ JOINING = 'joining' WAITING = 'waiting' RUNNING = 'running' BUILDING = 'building' TIMED_OUT = 'timeout' class BuildComponent(BaseComponent): """ An application session component which conducts one (or more) builds. """ def __init__(self, config, realm=None, token=None, **kwargs): self.expected_token = token self.builder_realm = realm self.parent_manager = None self.registry_hostname = None self._component_status = ComponentStatus.JOINING self._last_heartbeat = None self._current_job = None self._build_status = None self._image_info = None BaseComponent.__init__(self, config, **kwargs) def onConnect(self): self.join(self.builder_realm) def onJoin(self, details): logger.debug('Registering methods and listeners for component %s', self.builder_realm) yield trollius.From(self.register(self._on_ready, u'io.quay.buildworker.ready')) yield trollius.From(self.register(self._ping, u'io.quay.buildworker.ping')) yield trollius.From(self.subscribe(self._on_heartbeat, 'io.quay.builder.heartbeat')) yield trollius.From(self.subscribe(self._on_log_message, 'io.quay.builder.logmessage')) self._set_status(ComponentStatus.WAITING) def is_ready(self): """ Determines whether a build component is ready to begin a build. """ return self._component_status == ComponentStatus.RUNNING def start_build(self, build_job): """ Starts a build. """ self._current_job = build_job self._build_status = StatusHandler(self.build_logs, build_job.repo_build.uuid) self._image_info = {} self._set_status(ComponentStatus.BUILDING) # Retrieve the job's buildpack. buildpack_url = self.user_files.get_file_url(build_job.repo_build.resource_key, requires_cors=False) logger.debug('Retreiving build package: %s', buildpack_url) buildpack = None try: buildpack = BuildPackage.from_url(buildpack_url) except BuildPackageException as bpe: self._build_failure('Could not retrieve build package', bpe) return # Extract the base image information from the Dockerfile. parsed_dockerfile = None logger.debug('Parsing dockerfile') build_config = build_job.build_config try: parsed_dockerfile = buildpack.parse_dockerfile(build_config.get('build_subdir')) except BuildPackageException as bpe: self._build_failure('Could not find Dockerfile in build package', bpe) return image_and_tag_tuple = parsed_dockerfile.get_image_and_tag() if image_and_tag_tuple is None or image_and_tag_tuple[0] is None: self._build_failure('Missing FROM line in Dockerfile') return base_image_information = { 'repository': image_and_tag_tuple[0], 'tag': image_and_tag_tuple[1] } # Extract the number of steps from the Dockerfile. with self._build_status as status_dict: status_dict['total_commands'] = len(parsed_dockerfile.commands) # Add the pull robot information, if any. if build_config.get('pull_credentials') is not None: base_image_information['username'] = build_config['pull_credentials'].get('username', '') base_image_information['password'] = build_config['pull_credentials'].get('password', '') # Retrieve the repository's fully qualified name. repo = build_job.repo_build.repository repository_name = repo.namespace_user.username + '/' + repo.name # Parse the build queue item into build arguments. # build_package: URL to the build package to download and untar/unzip. # sub_directory: The location within the build package of the Dockerfile and the build context. # repository: The repository for which this build is occurring. # registry: The registry for which this build is occuring (e.g. 'quay.io', 'staging.quay.io'). # pull_token: The token to use when pulling the cache for building. # push_token: The token to use to push the built image. # tag_names: The name(s) of the tag(s) for the newly built image. # base_image: The image name and credentials to use to conduct the base image pull. # repository: The repository to pull. # tag: The tag to pull. # username: The username for pulling the base image (if any). # password: The password for pulling the base image (if any). build_arguments = { 'build_package': buildpack_url, 'sub_directory': build_config.get('build_subdir', ''), 'repository': repository_name, 'registry': self.registry_hostname, 'pull_token': build_job.repo_build.access_token.code, 'push_token': build_job.repo_build.access_token.code, 'tag_names': build_config.get('docker_tags', ['latest']), 'base_image': base_image_information, 'cached_tag': build_job.determine_cached_tag() or '' } # Invoke the build. logger.debug('Invoking build: %s', self.builder_realm) logger.debug('With Arguments: %s', build_arguments) return (self .call("io.quay.builder.build", **build_arguments) .add_done_callback(self._build_complete)) @staticmethod def _total_completion(statuses, total_images): """ Returns the current amount completion relative to the total completion of a build. """ percentage_with_sizes = float(len(statuses.values())) / total_images sent_bytes = sum([status['current'] for status in statuses.values()]) total_bytes = sum([status['total'] for status in statuses.values()]) return float(sent_bytes) / total_bytes * percentage_with_sizes @staticmethod def _process_pushpull_status(status_dict, current_phase, docker_data, images): """ Processes the status of a push or pull by updating the provided status_dict and images. """ if not docker_data: return num_images = 0 status_completion_key = '' if current_phase == 'pushing': status_completion_key = 'push_completion' num_images = status_dict['total_commands'] elif current_phase == 'pulling': status_completion_key = 'pull_completion' elif current_phase == 'priming-cache': status_completion_key = 'cache_completion' else: return if 'progressDetail' in docker_data and 'id' in docker_data: image_id = docker_data['id'] detail = docker_data['progressDetail'] if 'current' in detail and 'total' in detail: images[image_id] = detail status_dict[status_completion_key] = \ BuildComponent._total_completion(images, max(len(images), num_images)) def _on_log_message(self, phase, json_data): """ Tails log messages and updates the build status. """ # Parse any of the JSON data logged. docker_data = {} if json_data: try: docker_data = json.loads(json_data) except ValueError: pass # Extract the current status message (if any). fully_unwrapped = '' keys_to_extract = ['error', 'status', 'stream'] for key in keys_to_extract: if key in docker_data: fully_unwrapped = docker_data[key] break # Determine if this is a step string. current_step = None current_status_string = str(fully_unwrapped.encode('utf-8')) if current_status_string and phase == BUILD_PHASE.BUILDING: step_increment = re.search(r'Step ([0-9]+) :', current_status_string) if step_increment: current_step = int(step_increment.group(1)) # Parse and update the phase and the status_dict. The status dictionary contains # the pull/push progress, as well as the current step index. with self._build_status as status_dict: if self._build_status.set_phase(phase): logger.debug('Build %s has entered a new phase: %s', self.builder_realm, phase) BuildComponent._process_pushpull_status(status_dict, phase, docker_data, self._image_info) # If the current message represents the beginning of a new step, then update the # current command index. if current_step is not None: status_dict['current_command'] = current_step # If the json data contains an error, then something went wrong with a push or pull. if 'error' in docker_data: self._build_status.set_error(docker_data['error']) if current_step is not None: self._build_status.set_command(current_status_string) elif phase == BUILD_PHASE.BUILDING: self._build_status.append_log(current_status_string) def _build_failure(self, error_message, exception=None): """ Handles and logs a failed build. """ self._build_status.set_error(error_message, { 'internal_error': exception.message if exception else None }) build_id = self._current_job.repo_build.uuid logger.warning('Build %s failed with message: %s', build_id, error_message) # Mark that the build has finished (in an error state) self._build_finished(BuildJobResult.ERROR) def _build_complete(self, result): """ Wraps up a completed build. Handles any errors and calls self._build_finished. """ try: # Retrieve the result. This will raise an ApplicationError on any error that occurred. result.result() self._build_status.set_phase(BUILD_PHASE.COMPLETE) self._build_finished(BuildJobResult.COMPLETE) except ApplicationError as aex: worker_error = WorkerError(aex.error, aex.kwargs.get('base_error')) # Write the error to the log. self._build_status.set_error(worker_error.public_message(), worker_error.extra_data(), internal_error=worker_error.is_internal_error()) # Mark the build as completed. if worker_error.is_internal_error(): self._build_finished(BuildJobResult.INCOMPLETE) else: self._build_finished(BuildJobResult.ERROR) @trollius.coroutine def _build_finished(self, job_status): """ Alerts the parent that a build has completed and sets the status back to running. """ yield trollius.From(self.parent_manager.job_completed(self._current_job, job_status, self)) self._current_job = None # Set the component back to a running state. self._set_status(ComponentStatus.RUNNING) @staticmethod def _ping(): """ Ping pong. """ return 'pong' def _on_ready(self, token, version): if not version in SUPPORTED_WORKER_VERSIONS: logger.warning('Build component (token "%s") is running an out-of-date version: %s', version) return False if self._component_status != 'waiting': logger.warning('Build component (token "%s") is already connected', self.expected_token) return False if token != self.expected_token: logger.warning('Builder token mismatch. Expected: "%s". Found: "%s"', self.expected_token, token) return False self._set_status(ComponentStatus.RUNNING) # Start the heartbeat check and updating loop. loop = trollius.get_event_loop() loop.create_task(self._heartbeat()) logger.debug('Build worker %s is connected and ready', self.builder_realm) return True def _set_status(self, phase): if phase == ComponentStatus.RUNNING: loop = trollius.get_event_loop() self.parent_manager.build_component_ready(self, loop) self._component_status = phase def _on_heartbeat(self): """ Updates the last known heartbeat. """ self._last_heartbeat = datetime.datetime.utcnow() @trollius.coroutine def _heartbeat(self): """ Coroutine that runs every HEARTBEAT_TIMEOUT seconds, both checking the worker's heartbeat and updating the heartbeat in the build status dictionary (if applicable). This allows the build system to catch crashes from either end. """ yield trollius.From(trollius.sleep(INITIAL_TIMEOUT)) while True: # If the component is no longer running or actively building, nothing more to do. if (self._component_status != ComponentStatus.RUNNING and self._component_status != ComponentStatus.BUILDING): return # If there is an active build, write the heartbeat to its status. build_status = self._build_status if build_status is not None: with build_status as status_dict: status_dict['heartbeat'] = int(time.time()) # Mark the build item. current_job = self._current_job if current_job is not None: yield trollius.From(self.parent_manager.job_heartbeat(current_job)) # Check the heartbeat from the worker. logger.debug('Checking heartbeat on realm %s', self.builder_realm) if (self._last_heartbeat and self._last_heartbeat < datetime.datetime.utcnow() - HEARTBEAT_DELTA): self._timeout() return yield trollius.From(trollius.sleep(HEARTBEAT_TIMEOUT)) def _timeout(self): self._set_status(ComponentStatus.TIMED_OUT) logger.warning('Build component with realm %s has timed out', self.builder_realm) self._dispose(timed_out=True) def _dispose(self, timed_out=False): # If we still have a running job, then it has not completed and we need to tell the parent # manager. if self._current_job is not None: if timed_out: self._build_status.set_error('Build worker timed out', internal_error=True) self.parent_manager.job_completed(self._current_job, BuildJobResult.INCOMPLETE, self) self._build_status = None self._current_job = None # Unregister the current component so that it cannot be invoked again. self.parent_manager.build_component_disposed(self, timed_out)