def test_tmgr_rp_tmgr(): res_dict = {'resource': 'local.localhost', 'walltime': 40, 'cpus': 20} config = {"sandbox_cleanup": False, "db_cleanup": False} rmgr_id = ru.generate_id('test', ru.ID_UNIQUE) rmgr = RPRmgr(resource_desc=res_dict, sid=rmgr_id, rts_config=config) rmq_conn_params = pika.ConnectionParameters(host=hostname, port=port) rmgr._validate_resource_desc() rmgr._populate() rmgr._submit_resource_request() tmgr = RPTmgr(sid=rmgr_id, pending_queue=['pendingq-1'], completed_queue=['completedq-1'], rmgr=rmgr, rmq_conn_params=rmq_conn_params) tmgr.start_manager() proc = mp.Process(target=func_for_mock_tmgr_test, args=(hostname, port, tmgr._pending_queue[0], tmgr._completed_queue[0])) proc.start() proc.join() tmgr.terminate_manager() rmgr._terminate_resource_request()
def test_tmgr_rp_tmgr(): os.environ['RADICAL_PILOT_DBURL'] = MLAB os.environ['ENTK_HB_INTERVAL'] = '30' res_dict = { 'resource': 'local.localhost', 'walltime': 40, 'cpus': 20, } config = {"sandbox_cleanup": False, "db_cleanup": False} rmgr_id = ru.generate_id('test.%(item_counter)04d', ru.ID_CUSTOM) rmgr = RPRmgr(resource_desc=res_dict, sid=rmgr_id, rts_config=config) rmgr._validate_resource_desc() rmgr._populate() rmgr._submit_resource_request() tmgr = RPTmgr(sid=rmgr_id, pending_queue=['pendingq-1'], completed_queue=['completedq-1'], rmgr=rmgr, mq_hostname=hostname, port=port) tmgr.start_manager() proc = Process(target=func_for_mock_tmgr_test, args=(hostname, port, tmgr._pending_queue[0], tmgr._completed_queue[0])) proc.start() proc.join() tmgr.terminate_manager() rmgr._terminate_resource_request()
def test_tmgr_rp_tmgr(): os.environ['RADICAL_PILOT_DBURL'] = MLAB os.environ['ENTK_HB_INTERVAL'] = '30' res_dict = { 'resource': 'local.localhost', 'walltime': 40, 'cpus': 20, } config={ "sandbox_cleanup": False,"db_cleanup": False} rmgr_id = ru.generate_id('test.%(item_counter)04d', ru.ID_CUSTOM) rmgr = RPRmgr(resource_desc=res_dict, sid=rmgr_id, rts_config=config) rmgr._validate_resource_desc() rmgr._populate() rmgr._submit_resource_request() tmgr = RPTmgr(sid=rmgr_id, pending_queue=['pendingq-1'], completed_queue=['completedq-1'], rmgr=rmgr, mq_hostname=hostname, port=port) tmgr.start_manager() proc = Process(target=func_for_mock_tmgr_test, args=(hostname, port, tmgr._pending_queue[0], tmgr._completed_queue[0])) proc.start() proc.join() tmgr.terminate_manager() rmgr._terminate_resource_request()
class AppManager(object): """ An application manager takes the responsibility of setting up the communication infrastructure, instantiates the ResourceManager, TaskManager, WFProcessor objects and all their threads and processes. This is the Master object running in the main process and is designed to recover from errors from all other objects, threads and processes. :Arguments: :config_path: Url to config path to be read for AppManager :hostname: host rabbitmq server is running :port: port at which rabbitmq can be accessed :reattempts: number of attempts to re-invoke any failed EnTK components :resubmit_failed: resubmit failed tasks (True/False) :autoterminate: terminate resource reservation upon execution of all tasks of first workflow (True/False) :write_workflow: write workflow and mapping to rts entities to a file (post-termination) :rts: Specify RTS to use. Current options: 'mock', 'radical.pilot' (default if unspecified) :rmq_cleanup: Cleanup all queues created in RabbitMQ server for current execution (default is True) :rts_config: Configuration for the RTS, accepts {"sandbox_cleanup": True/False,"db_cleanup": True/False} when RTS is RP :name: Name of the Application. It should be unique between executions. (default is randomly assigned) """ def __init__(self, config_path=None, hostname=None, port=None, reattempts=None, resubmit_failed=None, autoterminate=None, write_workflow=None, rts=None, rmq_cleanup=None, rts_config=None, name=None): # Create a session for each EnTK script execution if name: self._name = name self._sid = name else: self._name= str() self._sid = ru.generate_id('re.session', ru.ID_PRIVATE) self._read_config(config_path, hostname, port, reattempts, resubmit_failed, autoterminate, write_workflow, rts, rmq_cleanup, rts_config) # Create an uid + logger + profiles for AppManager, under the sid # namespace path = os.getcwd() + '/' + self._sid self._uid = ru.generate_id('appmanager.%(item_counter)04d', ru.ID_CUSTOM, namespace=self._sid) self._logger = ru.Logger('radical.entk.%s' % self._uid, path=path) self._prof = ru.Profiler(name='radical.entk.%s' % self._uid, path=path) self._report = ru.Reporter(name='radical.entk.%s' % self._uid) self._report.info('EnTK session: %s\n' % self._sid) self._prof.prof('create amgr obj', uid=self._uid) self._report.info('Creating AppManager') self._resource_manager = None # RabbitMQ Queues self._pending_queue = list() self._completed_queue = list() # Global parameters to have default values self._mqs_setup = False self._resource_desc = None self._task_manager = None self._workflow = None self._cur_attempt = 1 self._shared_data = list() self._wfp = None self._sync_thread = None self._rmq_ping_interval = os.getenv('RMQ_PING_INTERVAL', 10) self._logger.info('Application Manager initialized') self._prof.prof('amgr obj created', uid=self._uid) self._report.ok('>>ok\n') def _read_config(self, config_path, hostname, port, reattempts, resubmit_failed, autoterminate, write_workflow, rts, rmq_cleanup, rts_config): if not config_path: config_path = os.path.dirname(os.path.abspath(__file__)) config = ru.read_json(os.path.join(config_path, 'config.json')) self._mq_hostname = hostname if hostname else str(config['hostname']) self._port = int(port if port else config['port']) self._reattempts = reattempts if reattempts else config['reattempts'] self._resubmit_failed = resubmit_failed if resubmit_failed is not None else config['resubmit_failed'] self._autoterminate = autoterminate if autoterminate is not None else config['autoterminate'] self._write_workflow = write_workflow if write_workflow is not None else config['write_workflow'] self._rts = rts if rts in ['radical.pilot', 'mock'] else str(config['rts']) self._rmq_cleanup = rmq_cleanup if rmq_cleanup is not None else config['rmq_cleanup'] self._rts_config = rts_config if rts_config is not None else config['rts_config'] self._num_pending_qs = config['pending_qs'] self._num_completed_qs = config['completed_qs'] # ------------------------------------------------------------------------------------------------------------------ # Getter functions # ------------------------------------------------------------------------------------------------------------------ @property def name(self): """ Name for the application manager. Allows the user to setup the name of the application manager, as well as, its session ID. This name should be unique between different EnTK executions, otherwise it will produce an error. :getter: Returns the name of the application manager :setter: Assigns the name of the application manager :type: String """ return self._name @property def sid(self): """ Get the session ID of the current EnTK execution :getter: Returns the session ID of the EnTK execution :type: String """ return self._sid @property def resource_desc(self): """ :getter: Returns the resource description :setter: Assigns a resource description """ return self._resource_desc @property def workflow(self): """ :getter: Return the workflow assigned for execution :setter: Assign workflow to be executed """ return self._workflow @property def shared_data(self): """ :getter: Return list of filenames that are shared between multiple tasks of the application :setter: Assign a list of names of files that need to be staged to the remote machine """ return self._shared_data # ------------------------------------------------------------------------------------------------------------------ # Setter functions # ------------------------------------------------------------------------------------------------------------------ @name.setter def name(self, value): if not isinstance(value, str): raise TypeError(expected_type=str, actual_type=type(value)) else: self._name = value @resource_desc.setter def resource_desc(self, value): if self._rts == 'radical.pilot': from radical.entk.execman.rp import ResourceManager self._resource_manager = ResourceManager(resource_desc=value, sid=self._sid, rts_config=self._rts_config) elif self._rts == 'mock': from radical.entk.execman.mock import ResourceManager self._resource_manager = ResourceManager(resource_desc=value, sid=self._sid) self._report.info('Validating and assigning resource manager') if self._resource_manager._validate_resource_desc(): self._resource_manager._populate() self._resource_manager.shared_data = self._shared_data else: self._logger.error('Could not validate resource description') raise self._report.ok('>>ok\n') @workflow.setter def workflow(self, workflow): self._prof.prof('assigning workflow', uid=self._uid) for p in workflow: if not isinstance(p, Pipeline): self._logger.info('workflow type incorrect') raise TypeError(expected_type=['Pipeline', 'set of Pipelines'], actual_type=type(p)) p._validate() self._workflow = workflow self._logger.info('Workflow assigned to Application Manager') @shared_data.setter def shared_data(self, data): if not isinstance(data, list): data = [data] for value in data: if not isinstance(value, str): raise TypeError(expected_type=str, actual_type=type(value)) if self._resource_manager: self._resource_manager.shared_data = data # ------------------------------------------------------------------------------------------------------------------ # Public methods # ------------------------------------------------------------------------------------------------------------------ def run(self): """ **Purpose**: Run the application manager. Once the workflow and resource manager have been assigned. Invoking this method will start the setting up the communication infrastructure, submitting a resource request and then submission of all the tasks. """ try: # Set None objects local to each run self._wfp = None self._sync_thread = None self._terminate_sync = Event() self._resubmit_failed = False self._cur_attempt = 1 if not self._workflow: self._logger.error('No workflow assigned currently, please check your script') raise MissingError(obj=self._uid, missing_attribute='workflow') if not self._resource_manager: self._logger.error('No resource manager assigned currently, please create and add a valid resource manager') raise MissingError(obj=self._uid, missing_attribute='resource_manager') self._prof.prof('amgr run started', uid=self._uid) # Setup rabbitmq stuff if not self._mqs_setup: self._report.info('Setting up RabbitMQ system') setup = self._setup_mqs() if not setup: self._logger.error('RabbitMQ system not available') raise EnTKError("RabbitMQ setup failed") self._mqs_setup = True self._report.ok('>>ok\n') # Create WFProcessor object self._prof.prof('creating wfp obj', uid=self._uid) self._wfp = WFprocessor(sid=self._sid, workflow=self._workflow, pending_queue=self._pending_queue, completed_queue=self._completed_queue, mq_hostname=self._mq_hostname, port=self._port, resubmit_failed=self._resubmit_failed) self._wfp._initialize_workflow() self._workflow = self._wfp.workflow # Submit resource request if not resource allocation done till now or # resubmit a new one if the old one has completed if self._resource_manager: res_alloc_state = self._resource_manager.get_resource_allocation_state() if (not res_alloc_state) or (res_alloc_state in self._resource_manager.get_completed_states()): self._logger.info('Starting resource request submission') self._prof.prof('init rreq submission', uid=self._uid) self._resource_manager._submit_resource_request() res_alloc_state = self._resource_manager.get_resource_allocation_state() if res_alloc_state in self._resource_manager.get_completed_states(): raise EnTKError(msg="Cannot proceed. Resource allocation ended up in %s"%res_alloc_state) else: self._logger.exception('Cannot run without resource manager, please create and assign a resource manager') raise EnTKError(text='Missing resource manager') # Start synchronizer thread if not self._sync_thread: self._logger.info('Starting synchronizer thread') self._sync_thread = Thread(target=self._synchronizer, name='synchronizer-thread') self._prof.prof('starting synchronizer thread', uid=self._uid) self._sync_thread.start() # Start WFprocessor self._logger.info('Starting WFProcessor process from AppManager') self._wfp.start_processor() self._report.ok('All components created\n') # Create tmgr object only if it does not already exist if self._rts == 'radical.pilot': from radical.entk.execman.rp import TaskManager elif self._rts == 'mock': from radical.entk.execman.mock import TaskManager if not self._task_manager: self._prof.prof('creating tmgr obj', uid=self._uid) self._task_manager = TaskManager(sid=self._sid, pending_queue=self._pending_queue, completed_queue=self._completed_queue, mq_hostname=self._mq_hostname, rmgr=self._resource_manager, port=self._port ) self._logger.info('Starting task manager process from AppManager') self._task_manager.start_manager() self._task_manager.start_heartbeat() active_pipe_count = len(self._workflow) finished_pipe_uids = [] # We wait till all pipelines of the workflow are marked # complete while ((active_pipe_count > 0) and (self._wfp.workflow_incomplete()) and (self._resource_manager.get_resource_allocation_state() not in self._resource_manager.get_completed_states())): if active_pipe_count > 0: for pipe in self._workflow: with pipe.lock: if (pipe.completed) and (pipe.uid not in finished_pipe_uids): self._logger.info('Pipe %s completed' % pipe.uid) finished_pipe_uids.append(pipe.uid) active_pipe_count -= 1 self._logger.info('Active pipes: %s' % active_pipe_count) if (not self._sync_thread.is_alive()) and (self._cur_attempt <= self._reattempts): self._sync_thread = Thread(target=self._synchronizer, name='synchronizer-thread') self._logger.info('Restarting synchronizer thread') self._prof.prof('restarting synchronizer', uid=self._uid) self._sync_thread.start() self._cur_attempt += 1 if (not self._wfp.check_processor()) and (self._cur_attempt <= self._reattempts): """ If WFP dies, both child threads are also cleaned out. We simply recreate the wfp object with a copy of the workflow in the appmanager and start the processor. """ self._prof.prof('recreating wfp obj', uid=self._uid) self._wfp = WFProcessor( sid=self._sid, workflow=self._workflow, pending_queue=self._pending_queue, completed_queue=self._completed_queue, mq_hostname=self._mq_hostname, port=self._port, resubmit_failed=self._resubmit_failed) self._logger.info('Restarting WFProcessor process from AppManager') self._wfp.start_processor() self._cur_attempt += 1 if (not self._task_manager.check_heartbeat()) and (self._cur_attempt <= self._reattempts): """ If the tmgr process or heartbeat dies, we simply start a new process using the start_manager method. We do not need to create a new instance of the TaskManager object itself. We stop and start a new instance of the heartbeat thread as well. """ self._prof.prof('restarting tmgr process and heartbeat', uid=self._uid) self._logger.info('Terminating heartbeat thread') self._task_manager.terminate_heartbeat() self._logger.info('Terminating tmgr process') self._task_manager.terminate_manager() self._logger.info('Restarting task manager process') self._task_manager.start_manager() self._logger.info('Restarting heartbeat thread') self._task_manager.start_heartbeat() self._cur_attempt += 1 self._prof.prof('start termination', uid=self._uid) # Terminate threads in following order: wfp, helper, synchronizer self._logger.info('Terminating WFprocessor') self._wfp.terminate_processor() self._logger.info('Terminating synchronizer thread') self._terminate_sync.set() self._sync_thread.join() self._logger.info('Synchronizer thread terminated') if self._autoterminate: self._terminate() if self._write_workflow: write_workflow(self._workflow, self._sid) self._prof.prof('termination done', uid=self._uid) except KeyboardInterrupt: self._prof.prof('start termination', uid=self._uid) self._logger.exception('Execution interrupted by user (you probably hit Ctrl+C), ' + 'trying to cancel enqueuer thread gracefully...') self._terminate() self._prof.prof('termination done', uid=self._uid) raise KeyboardInterrupt except Exception, ex: self._prof.prof('start termination', uid=self._uid) self._logger.exception('Error in AppManager: %s' % ex) # Terminate threads in following order: wfp, helper, synchronizer self._terminate() self._prof.prof('termination done', uid=self._uid) raise
class AppManager(object): ''' An application manager takes the responsibility of setting up the communication infrastructure, instantiates the ResourceManager, TaskManager, WFProcessor objects and all their threads and processes. This is the Master object running in the main process and is designed to recover from errors from all other objects, threads and processes. :Arguments: :config_path: Url to config path to be read for AppManager :hostname: host rabbitmq server is running :port: port at which rabbitmq can be accessed :username: username to log in to RabbitMQ :password: password to log in to RabbitMQ :reattempts: number of attempts to re-invoke any failed EnTK components :resubmit_failed: resubmit failed tasks (True/False) :autoterminate: terminate resource reservation upon execution of all tasks of first workflow (True/False) :write_workflow: write workflow and mapping to rts entities to a file (post-termination) :rts: Specify RTS to use. Current options: 'mock', 'radical.pilot' (default if unspecified) :rmq_cleanup: Cleanup all queues created in RabbitMQ server for current execution (default is True) :rts_config: Configuration for the RTS, accepts {'sandbox_cleanup': True/False,'db_cleanup': True/False} when RTS is RP :name: Name of the Application. It should be unique between executions. (default is randomly assigned) ''' # -------------------------------------------------------------------------- # def __init__(self, config_path=None, hostname=None, port=None, username=None, password=None, reattempts=None, resubmit_failed=None, autoterminate=None, write_workflow=None, rts=None, rmq_cleanup=None, rts_config=None, name=None): # Create a session for each EnTK script execution if name: self._name = name self._sid = name else: self._name = str() self._sid = ru.generate_id('re.session', ru.ID_PRIVATE) self._read_config(config_path, hostname, port, username, password, reattempts, resubmit_failed, autoterminate, write_workflow, rts, rmq_cleanup, rts_config) # Create an uid + logger + profiles for AppManager, under the sid # namespace self._uid = ru.generate_id('appmanager.%(counter)04d', ru.ID_CUSTOM) path = os.getcwd() + '/' + self._sid name = 'radical.entk.%s' % self._uid self._logger = ru.Logger(name=name, path=path) self._prof = ru.Profiler(name=name, path=path) self._report = ru.Reporter(name=name) self._report.info('EnTK session: %s\n' % self._sid) self._report.info('Creating AppManager') self._prof.prof('amgr_creat', uid=self._uid) self._rmgr = None self._pending_queue = list() self._completed_queue = list() # Global parameters to have default values self._mqs_setup = False self._resource_desc = None self._task_manager = None self._workflow = None self._workflows = list() self._cur_attempt = 1 self._shared_data = list() self._outputs = None self._wfp = None self._sync_thread = None self._terminate_sync = mt.Event() self._resubmit_failed = False self._port = int(self._port) # Setup rabbitmq queues self._setup_mqs() self._rmq_ping_interval = int(os.getenv('RMQ_PING_INTERVAL', "10")) self._logger.info('Application Manager initialized') self._prof.prof('amgr_created', uid=self._uid) self._report.ok('>>ok\n') # -------------------------------------------------------------------------- # def _read_config(self, config_path, hostname, port, username, password, reattempts, resubmit_failed, autoterminate, write_workflow, rts, rmq_cleanup, rts_config): if not config_path: config_path = os.path.dirname(os.path.abspath(__file__)) config = ru.read_json(os.path.join(config_path, 'config.json')) def _if(val1, val2): if val1 is not None: return val1 else: return val2 self._hostname = _if(hostname, config['hostname']) self._port = _if(port, config['port']) self._username = _if(username, config['username']) self._password = _if(password, config['password']) self._reattempts = _if(reattempts, config['reattempts']) self._resubmit_failed = _if(resubmit_failed, config['resubmit_failed']) self._autoterminate = _if(autoterminate, config['autoterminate']) self._write_workflow = _if(write_workflow, config['write_workflow']) self._rmq_cleanup = _if(rmq_cleanup, config['rmq_cleanup']) self._rts_config = _if(rts_config, config['rts_config']) self._rts = _if(rts, config['rts']) credentials = pika.PlainCredentials(self._username, self._password) self._rmq_conn_params = pika.connection.ConnectionParameters( host=self._hostname, port=self._port, credentials=credentials) self._num_pending_qs = config['pending_qs'] self._num_completed_qs = config['completed_qs'] if self._rts not in ['radical.pilot', 'mock']: raise ValueError('invalid RTS %s' % self._rts) # -------------------------------------------------------------------------- # # Getter functions # @property def name(self): ''' Name for the application manager. Allows the user to setup the name of the application manager, as well as its session ID. This name should be unique between different EnTK executions, otherwise it will produce an error. :getter: Returns the name of the application manager :setter: Assigns the name of the application manager :type: String ''' return self._name # -------------------------------------------------------------------------- # @property def sid(self): ''' Get the session ID of the current EnTK execution :getter: Returns the session ID of the EnTK execution :type: String ''' return self._sid # -------------------------------------------------------------------------- # @property def resource_desc(self): ''' :getter: Returns the resource description :setter: Assigns a resource description ''' return self._resource_desc # -------------------------------------------------------------------------- # @property def workflow(self): ''' :getter: Return the last workflow assigned for execution :setter: Assign a new workflow to be executed ''' return self._workflow # -------------------------------------------------------------------------- # @property def workflows(self): """ :getter: Return a list of workflows assigned for execution """ return self._workflows @property def shared_data(self): ''' :getter: Return list of filenames that are shared between multiple tasks of the application :setter: Assign a list of names of files that need to be staged to the remote machine ''' return self._shared_data @property def outputs(self): ''' :getter: Return list of filenames that are to be staged out after execution :setter: Assign a list of names of files that need to be staged from the remote machine ''' return self._outputs # -------------------------------------------------------------------------- # Setter functions # @name.setter def name(self, value): if not isinstance(value, str): raise ree.TypeError(expected_type=str, actual_type=type(value)) self._name = value # -------------------------------------------------------------------------- # @resource_desc.setter def resource_desc(self, value): if self._rts == 'radical.pilot': from radical.entk.execman.rp import ResourceManager elif self._rts == 'mock': from radical.entk.execman.mock import ResourceManager self._rmgr = ResourceManager(resource_desc=value, sid=self._sid, rts_config=self._rts_config) self._report.info('Validating and assigning resource manager') if not self._rmgr._validate_resource_desc(): self._logger.error('Could not validate resource description') raise ree.EnTKError('Could not validate resource description') self._rmgr._populate() self._rmgr.shared_data = self._shared_data self._rmgr.outputs = self._outputs self._report.ok('>>ok\n') # -------------------------------------------------------------------------- # @workflow.setter def workflow(self, workflow): self._prof.prof('assigning workflow', uid=self._uid) for p in workflow: if not isinstance(p, Pipeline): self._logger.info('workflow type incorrect') raise ree.TypeError( expected_type=['Pipeline', 'set of Pipelines'], actual_type=type(p)) p._validate() # keep history self._workflows.append(workflow) # set current workflow self._workflow = workflow self._logger.info('Workflow assigned to Application Manager') # -------------------------------------------------------------------------- # @shared_data.setter def shared_data(self, data): if not isinstance(data, list): data = [data] for value in data: if not isinstance(value, str): raise ree.TypeError(expected_type=str, actual_type=type(value)) self._shared_data = data if self._rmgr: self._rmgr.shared_data = data # -------------------------------------------------------------------------- # @outputs.setter def outputs(self, data): if not isinstance(data, list): data = [data] for value in data: if not isinstance(value, str): raise ree.TypeError(expected_type=str, actual_type=type(value)) if self._rmgr: self._rmgr.outputs = data # -------------------------------------------------------------------------- # # Public methods # def run(self): ''' **Purpose**: Run the application manager. Once the workflow and resource manager have been assigned. Invoking this method will start the setting up the communication infrastructure, submitting a resource request and then submission of all the tasks. ''' ret = None try: self._prof.prof('amgr_start', uid=self._uid) # Set None for variables local to each run self._resubmit_failed = False self._cur_attempt = 1 # Ensure that a workflow and a resource description have # been defined if not self._workflow: self._logger.error('No workflow assignedcurrently, please \ check your script') raise ree.MissingError(obj=self._uid, missing_attribute='workflow') if not self._rmgr: self._logger.error('No resource manager assigned currently, \ please create and add a valid resource \ manager') raise ree.MissingError(obj=self._uid, missing_attribute='resource_manager') self._prof.prof('amgr run started', uid=self._uid) # ensure rabbitmq setup self._setup_mqs() # Submit resource request if no resource allocation done till now or # resubmit a new one if the old one has completed res_alloc_state = self._rmgr.get_resource_allocation_state() if not res_alloc_state or \ res_alloc_state in self._rmgr.get_completed_states(): self._logger.info('Starting resource request submission') self._prof.prof('rreq_init', uid=self._uid) self._rmgr._submit_resource_request() res_alloc_state = self._rmgr.get_resource_allocation_state() if res_alloc_state in self._rmgr.get_completed_states(): raise ree.EnTKError(msg='Cannot proceed. Resource ' 'ended in state %s' % res_alloc_state) # Start all components and subcomponents self._start_all_comps() # Run workflow -- this call is blocking till all tasks of the # workflow are executed or an error/exception is encountered self._run_workflow() self._logger.info('Workflow execution finished.') if self._autoterminate: self._logger.debug('Autoterminate set to %s.' % self._autoterminate) self.terminate() except KeyboardInterrupt: self._logger.exception('Execution interrupted by user (you ' 'probably hit Ctrl+C), trying to cancel ' 'enqueuer thread gracefully...') self.terminate() raise KeyboardInterrupt except Exception: self._logger.exception('Error in AppManager') self.terminate() raise # return list of fetched output data, or None. outputs = self.outputs if outputs: ret = outputs return ret # -------------------------------------------------------------------------- # def terminate(self): self._prof.prof('term_start', uid=self._uid) # Terminate threads in following order: wfp, helper, synchronizer if self._wfp: self._logger.info('Terminating WFprocessor') self._wfp.terminate_processor() if self._task_manager: self._logger.info('Terminating task manager process') self._task_manager.terminate_manager() self._task_manager.terminate_heartbeat() if self._sync_thread: self._logger.info('Terminating synchronizer thread') self._terminate_sync.set() self._sync_thread.join() self._logger.info('Synchronizer thread terminated') if self._write_workflow: write_workflows(self.workflows, self._sid) if self._rmgr: self._rmgr._terminate_resource_request() if os.environ.get('RADICAL_ENTK_PROFILE'): write_session_description(self) if self._rmq_cleanup: self._cleanup_mqs() self._report.info('All components terminated\n') self._prof.prof('termination done', uid=self._uid) # -------------------------------------------------------------------------- # def resource_terminate(self): self._logger.warning('DeprecationWarning: `resource_terminate()` is ' 'deprecated, please use `terminate()`') self.terminate() # -------------------------------------------------------------------------- # # Private methods # def _setup_mqs(self): ''' **Purpose**: Setup RabbitMQ system on the client side. We instantiate queue(s) 'pendingq-*' for communication between the enqueuer thread and the task manager process. We instantiate queue(s) 'completedq-*' for communication between the task manager and dequeuer thread. We instantiate queue 'sync-to-master' for communication from enqueuer/dequeuer/task_manager to the synchronizer thread. We instantiate queue 'sync-ack' for communication from synchronizer thread to enqueuer/dequeuer/task_manager. Details: All queues are durable: Even if the RabbitMQ server goes down, the queues are saved to disk and can be retrieved. This also means that after an erroneous run the queues might still have unacknowledged messages and will contain messages from that run. Hence, in every new run, we first delete the queue and create a new one. ''' try: self._report.info('Setting up RabbitMQ system') if self._mqs_setup: self._report.ok('>>n/a\n') return self._report.ok('>>ok\n') self._prof.prof('mqs_setup_start', uid=self._uid) self._logger.debug('Setting up mq connection and channel') mq_connection = pika.BlockingConnection(self._rmq_conn_params) mq_channel = mq_connection.channel() self._logger.debug('Connection and channel setup successful') self._logger.debug('Setting up all exchanges and queues') qs = [ '%s-tmgr-to-sync' % self._sid, '%s-cb-to-sync' % self._sid, '%s-sync-to-tmgr' % self._sid, '%s-sync-to-cb' % self._sid ] for i in range(1, self._num_pending_qs + 1): queue_name = '%s-pendingq-%s' % (self._sid, i) self._pending_queue.append(queue_name) qs.append(queue_name) for i in range(1, self._num_completed_qs + 1): queue_name = '%s-completedq-%s' % (self._sid, i) self._completed_queue.append(queue_name) qs.append(queue_name) # f = open('.%s.txt' % self._sid, 'w') for q in qs: # Durable Qs will not be lost if rabbitmq server crashes mq_channel.queue_declare(queue=q) # f.write(q + '\n') # f.close() self._mqs_setup = True self._logger.debug('All exchanges and queues are setup') self._prof.prof('mqs_setup_stop', uid=self._uid) except Exception as ex: self._logger.exception('Error setting RabbitMQ system: %s' % ex) raise # -------------------------------------------------------------------------- # def _cleanup_mqs(self): try: self._prof.prof('mqs_cleanup_start', uid=self._uid) mq_connection = pika.BlockingConnection(self._rmq_conn_params) mq_channel = mq_connection.channel() mq_channel.queue_delete(queue='%s-tmgr-to-sync' % self._sid) mq_channel.queue_delete(queue='%s-cb-to-sync' % self._sid) mq_channel.queue_delete(queue='%s-sync-to-tmgr' % self._sid) mq_channel.queue_delete(queue='%s-sync-to-cb' % self._sid) for i in range(1, self._num_pending_qs + 1): queue_name = '%s-pendingq-%s' % (self._sid, i) mq_channel.queue_delete(queue=queue_name) for i in range(1, self._num_completed_qs + 1): queue_name = '%s-completedq-%s' % (self._sid, i) mq_channel.queue_delete(queue=queue_name) self._prof.prof('mqs_cleanup_stop', uid=self._uid) self._mqs_setup = False except Exception: self._logger.exception('Message queues not deleted, error') raise # -------------------------------------------------------------------------- # def _start_all_comps(self): if self._wfp: # This condition is called when there are multiple workflows # submitted for execution. Amgr.run() was probably called twice. # If a WFP exists, we use the same one but with the new workflow. # Since WFP (and its threads) and the Amgr share memory, we have # to terminate WFP's threads, assign the new workflow and then # start the threads again. self._wfp.terminate_processor() self._wfp._workflow = self._workflow self._wfp.start_processor() return # Create WFProcessor and initialize workflow its contents with # uids self._prof.prof('wfp_create_start', uid=self._uid) self._wfp = WFprocessor(sid=self._sid, workflow=self._workflow, pending_queue=self._pending_queue, completed_queue=self._completed_queue, resubmit_failed=self._resubmit_failed, rmq_conn_params=self._rmq_conn_params) self._prof.prof('wfp_create_stop', uid=self._uid) # Start synchronizer thread AM OK if not self._sync_thread: self._logger.info('Starting synchronizer thread') self._sync_thread = mt.Thread(target=self._synchronizer, name='synchronizer-thread') self._prof.prof('sync_thread_create', uid=self._uid) self._sync_thread.start() # Start WFprocessor self._logger.info('Starting WFProcessor') self._wfp.start_processor() self._report.ok('All components created\n') # Create tmgr object only if it does not already exist if self._rts == 'radical.pilot': from radical.entk.execman.rp import TaskManager elif self._rts == 'mock': from radical.entk.execman.mock import TaskManager if not self._task_manager: self._logger.info('Starting task manager') self._prof.prof('tmgr_create_start', uid=self._uid) self._task_manager = TaskManager( sid=self._sid, pending_queue=self._pending_queue, completed_queue=self._completed_queue, rmgr=self._rmgr, rmq_conn_params=self._rmq_conn_params) self._task_manager.start_manager() self._task_manager.start_heartbeat() self._prof.prof('tmgr_create_stop', uid=self._uid) # -------------------------------------------------------------------------- # def _run_workflow(self): active_pipe_count = len(self._workflow) finished_pipe_uids = list() # We wait till all pipelines of the workflow are marked # complete state = self._rmgr.get_resource_allocation_state() final = self._rmgr.get_completed_states() incomplete = self._wfp.workflow_incomplete() while active_pipe_count and \ incomplete and \ state not in final: state = self._rmgr.get_resource_allocation_state() for pipe in self._workflow: with pipe.lock: if pipe.completed and \ pipe.uid not in finished_pipe_uids: finished_pipe_uids.append(pipe.uid) active_pipe_count -= 1 self._logger.info('Pipe %s completed' % pipe.uid) self._logger.info('Active pipes %s' % active_pipe_count) if not self._sync_thread.is_alive() and \ self._cur_attempt <= self._reattempts: self._sync_thread = mt.Thread(target=self._synchronizer, name='synchronizer-thread') self._sync_thread.start() self._cur_attempt += 1 self._prof.prof('sync_thread_restart', uid=self._uid) self._logger.info('Restarting synchronizer thread') if not self._wfp.check_processor() and \ self._cur_attempt <= self._reattempts: # If WFP dies, both child threads are also cleaned out. # We simply recreate the wfp object with a copy of the # workflow in the appmanager and start the processor. self._prof.prof('wfp_recreate', uid=self._uid) self._wfp = WFprocessor(sid=self._sid, workflow=self._workflow, pending_queue=self._pending_queue, completed_queue=self._completed_queue, resubmit_failed=self._resubmit_failed, rmq_conn_params=self._rmq_conn_params) self._logger.info('Restarting WFProcessor') self._wfp.start_processor() self._cur_attempt += 1 if not self._task_manager.check_heartbeat() and \ self._cur_attempt <= self._reattempts: # If the tmgr process or heartbeat dies, we simply start a # new process using the start_manager method. We do not # need to create a new instance of the TaskManager object # itself. We stop and start a new instance of the # heartbeat thread as well. self._prof.prof('restart_tmgr', uid=self._uid) self._logger.info('Terminating heartbeat thread') self._task_manager.terminate_heartbeat() self._logger.info('Terminating tmgr process') self._task_manager.terminate_manager() self._logger.info('Restarting task manager process') self._task_manager.start_manager() self._logger.info('Restarting heartbeat thread') self._task_manager.start_heartbeat() self._cur_attempt += 1 # -------------------------------------------------------------------------- # def _get_message_to_sync(self, mq_channel, qname): ''' Reads a message from the queue, and exchange the message to where it was published by `update_task` ''' # -------------------------------------------------------------- # Messages between tmgr Main thread and synchronizer -- only # Task objects method_frame, props, body = mq_channel.basic_get(queue=qname) tmp = qname.split("-") q_sid = ''.join(tmp[:-3]) q_from = tmp[-3] q_to = tmp[-1] return_queue_name = f"{q_sid}-{q_to}-to-{q_from}" # The message received is a JSON object with the following # structure: # msg = { # 'type': 'Pipeline'/'Stage'/'Task', # 'object': json/dict # } if body: msg = json.loads(body) uid = msg['object']['uid'] state = msg['object']['state'] self._prof.prof('sync_recv_obj_state_%s' % state, uid=uid) self._logger.debug('recv %s in state %s (sync)' % (uid, state)) if msg['type'] == 'Task': self._update_task(msg, return_queue_name, props.correlation_id, mq_channel, method_frame) # -------------------------------------------------------------------------- # def _update_task(self, msg, reply_to, corr_id, mq_channel, method_frame): # pylint: disable=W0612,W0613 completed_task = Task() completed_task.from_dict(msg['object']) self._logger.info('Received %s with state %s' % (completed_task.uid, completed_task.state)) # found_task = False # Traverse the entire workflow to find the correct task for pipe in self._workflow: with pipe.lock: if pipe.completed or \ pipe.uid != completed_task.parent_pipeline['uid']: continue for stage in pipe.stages: if stage.uid != completed_task.parent_stage['uid']: continue for task in stage.tasks: if completed_task.uid != task.uid or \ completed_task.state == task.state: continue self._logger.debug( ('Found task %s in state (%s)' ' changing to %s ==') % (task.uid, task.state, completed_task.state)) if task.state in [states.DONE, states.FAILED]: self._logger.debug( ('No change on task state %s ' 'in state %s') % (task.uid, task.state)) break task.state = str(completed_task.state) self._logger.debug('Found task %s in state %s' % (task.uid, task.state)) if completed_task.path: task.path = str(completed_task.path) # mq_channel.basic_publish( # exchange='', # routing_key=reply_to, # properties=pika.BasicProperties( # correlation_id=corr_id), # body='%s-ack' % task.uid) state = msg['object']['state'] self._prof.prof('pub_ack_state_%s' % state, uid=msg['object']['uid']) mq_channel.basic_ack( delivery_tag=method_frame.delivery_tag) self._report.ok('Update: ') self._report.info('%s state: %s\n' % (task.luid, task.state)) # found_task = True break # if not found_task: # # # If there was a Stage update, but the Stage was # # not found in any of the Pipelines. This # # means that this was a Stage that was added # # during runtime and the AppManager does not # # know about it. The current solution is going # # to be: add it to the workflow object in the # # AppManager via the synchronizer. # # self._logger.info('Adding new task %s to \ # parent stage: %s' # % (completed_task.uid, # stage.uid)) # # self._prof.prof('adap_add_task_start', # uid=completed_task.uid) # stage.add_tasks(completed_task) # self._prof.prof('adap_add_task_stop', # uid=completed_task.uid) # # mq_channel.basic_publish(exchange='', # routing_key=reply_to, # properties=pika.BasicProperties( # correlation_id=corr_id), # body='%s-ack' % completed_task.uid) # # self._prof.prof('pub_ack_state_%s' % # msg['object']['state'], # uid=msg['object']['uid']) # # mq_channel.basic_ack( # delivery_tag=method_frame.delivery_tag) # self._report.ok('Update: ') # self._report.info('%s state: %s\n' % # (completed_task.luid, completed_task.state)) # -------------------------------------------------------------------------- # def _synchronizer(self): try: self._synchronizer_work() except KeyboardInterrupt: self._logger.exception('Execution interrupted by user (you \ probably hit Ctrl+C), trying to terminate \ synchronizer thread gracefully...') raise except Exception: self._logger.exception('Unknown error in synchronizer: %s. \ Terminating thread') raise # -------------------------------------------------------------------------- # def _synchronizer_work(self): ''' **Purpose**: Thread in the master process to keep the workflow data structure in appmanager up to date. We receive only tasks objects from the task manager. Details: Important to note that acknowledgements of the type `channel.basic_ack()` is an acknowledgement to the server that the msg was received. This is not to be confused with the Ack sent to the task_manager through the sync-ack queue. ''' self._prof.prof('sync_thread_start', uid=self._uid) self._logger.info('synchronizer thread started') mq_connection = pika.BlockingConnection(self._rmq_conn_params) mq_channel = mq_connection.channel() last = time.time() qname_t2s = '%s-tmgr-to-sync' % self._sid qname_c2s = '%s-cb-to-sync' % self._sid while not self._terminate_sync.is_set(): # wrapper to call `_update_task()` self._get_message_to_sync(mq_channel, qname_t2s) self._get_message_to_sync(mq_channel, qname_c2s) # Appease pika cos it thinks the connection is dead now = time.time() if now - last >= self._rmq_ping_interval: mq_connection.process_data_events() last = now self._prof.prof('sync_thread_stop', uid=self._uid)
class AppManager(object): """ An application manager takes the responsibility of setting up the communication infrastructure, instantiates the ResourceManager, TaskManager, WFProcessor objects and all their threads and processes. This is the Master object running in the main process and is designed to recover from errors from all other objects, threads and processes. :Arguments: :config_path: Url to config path to be read for AppManager :hostname: host rabbitmq server is running :port: port at which rabbitmq can be accessed :reattempts: number of attempts to re-invoke any failed EnTK components :resubmit_failed: resubmit failed tasks (True/False) :autoterminate: terminate resource reservation upon execution of all tasks of first workflow (True/False) :write_workflow: write workflow and mapping to rts entities to a file (post-termination) :rts: Specify RTS to use. Current options: 'mock', 'radical.pilot' (default if unspecified) :rmq_cleanup: Cleanup all queues created in RabbitMQ server for current execution (default is True) :rts_config: Configuration for the RTS, accepts {"sandbox_cleanup": True/False,"db_cleanup": True/False} when RTS is RP :name: Name of the Application. It should be unique between executions. (default is randomly assigned) """ def __init__(self, config_path=None, hostname=None, port=None, reattempts=None, resubmit_failed=None, autoterminate=None, write_workflow=None, rts=None, rmq_cleanup=None, rts_config=None, name=None): # Create a session for each EnTK script execution if name: self._name = name self._sid = name else: self._name = str() self._sid = ru.generate_id('re.session', ru.ID_PRIVATE) self._read_config(config_path, hostname, port, reattempts, resubmit_failed, autoterminate, write_workflow, rts, rmq_cleanup, rts_config) # Create an uid + logger + profiles for AppManager, under the sid # namespace path = os.getcwd() + '/' + self._sid self._uid = ru.generate_id('appmanager.%(item_counter)04d', ru.ID_CUSTOM, namespace=self._sid) self._logger = ru.Logger('radical.entk.%s' % self._uid, path=path, targets=['2', '.']) self._prof = ru.Profiler(name='radical.entk.%s' % self._uid, path=path) self._report = ru.Reporter(name='radical.entk.%s' % self._uid) self._report.info('EnTK session: %s\n' % self._sid) self._prof.prof('create amgr obj', uid=self._uid) self._report.info('Creating AppManager') self._resource_manager = None # RabbitMQ Queues self._pending_queue = list() self._completed_queue = list() # Global parameters to have default values self._mqs_setup = False self._resource_desc = None self._task_manager = None self._workflow = None self._cur_attempt = 1 self._shared_data = list() self._rmq_ping_interval = os.getenv('RMQ_PING_INTERVAL', 10) self._logger.info('Application Manager initialized') self._prof.prof('amgr obj created', uid=self._uid) self._report.ok('>>ok\n') def _read_config(self, config_path, hostname, port, reattempts, resubmit_failed, autoterminate, write_workflow, rts, rmq_cleanup, rts_config): if not config_path: config_path = os.path.dirname(os.path.abspath(__file__)) config = ru.read_json(os.path.join(config_path, 'config.json')) self._mq_hostname = hostname if hostname else str(config['hostname']) self._port = port if port else config['port'] self._reattempts = reattempts if reattempts else config['reattempts'] self._resubmit_failed = resubmit_failed if resubmit_failed is not None else config[ 'resubmit_failed'] self._autoterminate = autoterminate if autoterminate is not None else config[ 'autoterminate'] self._write_workflow = write_workflow if write_workflow is not None else config[ 'write_workflow'] self._rts = rts if rts in ['radical.pilot', 'mock'] else str( config['rts']) self._rmq_cleanup = rmq_cleanup if rmq_cleanup is not None else config[ 'rmq_cleanup'] self._rts_config = rts_config if rts_config is not None else config[ 'rts_config'] self._num_pending_qs = config['pending_qs'] self._num_completed_qs = config['completed_qs'] # ------------------------------------------------------------------------------------------------------------------ # Getter functions # ------------------------------------------------------------------------------------------------------------------ @property def name(self): """ Name for the application manager. Allows the user to setup the name of the application manager, as well as, its session ID. This name should be unique between different EnTK executions, otherwise it will produce an error. :getter: Returns the name of the application manager :setter: Assigns the name of the application manager :type: String """ return self._name @property def sid(self): """ Get the session ID of the current EnTK execution :getter: Returns the session ID of the EnTK execution :type: String """ return self._sid @property def resource_desc(self): """ :getter: Returns the resource description :setter: Assigns a resource description """ return self._resource_desc @property def workflow(self): """ :getter: Return the workflow assigned for execution :setter: Assign workflow to be executed """ return self._workflow @property def shared_data(self): """ :getter: Return list of filenames that are shared between multiple tasks of the application :setter: Assign a list of names of files that need to be staged to the remote machine """ return self._shared_data # ------------------------------------------------------------------------------------------------------------------ # Setter functions # ------------------------------------------------------------------------------------------------------------------ @name.setter def name(self, value): if not isinstance(value, str): raise TypeError(expected_type=str, actual_type=type(value)) else: self._name = value @resource_desc.setter def resource_desc(self, value): if self._rts == 'radical.pilot': from radical.entk.execman.rp import ResourceManager self._resource_manager = ResourceManager( resource_desc=value, sid=self._sid, rts_config=self._rts_config) elif self._rts == 'mock': from radical.entk.execman.mock import ResourceManager self._resource_manager = ResourceManager(resource_desc=value, sid=self._sid) self._report.info('Validating and assigning resource manager') if self._resource_manager._validate_resource_desc(): self._resource_manager._populate() self._resource_manager.shared_data = self._shared_data else: self._logger.error('Could not validate resource description') raise self._report.ok('>>ok\n') @workflow.setter def workflow(self, workflow): self._prof.prof('assigning workflow', uid=self._uid) for p in workflow: if not isinstance(p, Pipeline): self._logger.info('workflow type incorrect') raise TypeError(expected_type=['Pipeline', 'set of Pipelines'], actual_type=type(p)) p._validate() self._workflow = workflow self._logger.info('Workflow assigned to Application Manager') @shared_data.setter def shared_data(self, data): if not isinstance(data, list): data = [data] for val in data: if not isinstance(val, str): raise TypeError(expected_type=str, actual_type=type(val)) if self._resource_manager: self._resource_manager.shared_data = data # ------------------------------------------------------------------------------------------------------------------ # Public methods # ------------------------------------------------------------------------------------------------------------------ def run(self): """ **Purpose**: Run the application manager. Once the workflow and resource manager have been assigned. Invoking this method will start the setting up the communication infrastructure, submitting a resource request and then submission of all the tasks. """ try: # Set None objects local to each run self._wfp = None self._sync_thread = None self._terminate_sync = Event() self._resubmit_failed = False self._cur_attempt = 1 if not self._workflow: self._logger.error( 'No workflow assigned currently, please check your script') raise MissingError(obj=self._uid, missing_attribute='workflow') if not self._resource_manager: self._logger.error( 'No resource manager assigned currently, please create and add a valid resource manager' ) raise MissingError(obj=self._uid, missing_attribute='resource_manager') self._prof.prof('amgr run started', uid=self._uid) # Setup rabbitmq stuff if not self._mqs_setup: self._report.info('Setting up RabbitMQ system') setup = self._setup_mqs() if not setup: self._logger.error('RabbitMQ system not available') raise EnTKError("RabbitMQ setup failed") self._mqs_setup = True self._report.ok('>>ok\n') # Create WFProcessor object self._prof.prof('creating wfp obj', uid=self._uid) self._wfp = WFprocessor(sid=self._sid, workflow=self._workflow, pending_queue=self._pending_queue, completed_queue=self._completed_queue, mq_hostname=self._mq_hostname, port=self._port, resubmit_failed=self._resubmit_failed) self._wfp._initialize_workflow() self._workflow = self._wfp.workflow # Submit resource request if not resource allocation done till now or # resubmit a new one if the old one has completed if self._resource_manager: res_alloc_state = self._resource_manager.get_resource_allocation_state( ) if (not res_alloc_state) or ( res_alloc_state in self._resource_manager.get_completed_states()): self._logger.info('Starting resource request submission') self._prof.prof('init rreq submission', uid=self._uid) self._resource_manager._submit_resource_request() else: self._logger.error( 'Cannot run without resource manager, please create and assign a resource manager' ) raise EnTKError(text='Missing resource manager') # Start synchronizer thread if not self._sync_thread: self._logger.info('Starting synchronizer thread') self._sync_thread = Thread(target=self._synchronizer, name='synchronizer-thread') self._prof.prof('starting synchronizer thread', uid=self._uid) self._sync_thread.start() # Start WFprocessor self._logger.info('Starting WFProcessor process from AppManager') self._wfp.start_processor() self._report.ok('All components created\n') # Create tmgr object only if it does not already exist if self._rts == 'radical.pilot': from radical.entk.execman.rp import TaskManager elif self._rts == 'mock': from radical.entk.execman.mock import TaskManager if not self._task_manager: self._prof.prof('creating tmgr obj', uid=self._uid) self._task_manager = TaskManager( sid=self._sid, pending_queue=self._pending_queue, completed_queue=self._completed_queue, mq_hostname=self._mq_hostname, rmgr=self._resource_manager, port=self._port) self._logger.info( 'Starting task manager process from AppManager') self._task_manager.start_manager() self._task_manager.start_heartbeat() active_pipe_count = len(self._workflow) finished_pipe_uids = [] # We wait till all pipelines of the workflow are marked # complete while ((active_pipe_count > 0) and (self._wfp.workflow_incomplete()) and (self._resource_manager.get_resource_allocation_state() not in self._resource_manager.get_completed_states())): if active_pipe_count > 0: for pipe in self._workflow: with pipe.lock: if (pipe.completed) and ( pipe.uid not in finished_pipe_uids): self._logger.info('Pipe %s completed' % pipe.uid) finished_pipe_uids.append(pipe.uid) active_pipe_count -= 1 self._logger.info('Active pipes: %s' % active_pipe_count) if (not self._sync_thread.is_alive()) and (self._cur_attempt <= self._reattempts): self._sync_thread = Thread(target=self._synchronizer, name='synchronizer-thread') self._logger.info('Restarting synchronizer thread') self._prof.prof('restarting synchronizer', uid=self._uid) self._sync_thread.start() self._cur_attempt += 1 if (not self._wfp.check_processor()) and (self._cur_attempt <= self._reattempts): """ If WFP dies, both child threads are also cleaned out. We simply recreate the wfp object with a copy of the workflow in the appmanager and start the processor. """ self._prof.prof('recreating wfp obj', uid=self._uid) self._wfp = WFProcessor( sid=self._sid, workflow=self._workflow, pending_queue=self._pending_queue, completed_queue=self._completed_queue, mq_hostname=self._mq_hostname, port=self._port, resubmit_failed=self._resubmit_failed) self._logger.info( 'Restarting WFProcessor process from AppManager') self._wfp.start_processor() self._cur_attempt += 1 if (not self._task_manager.check_heartbeat()) and ( self._cur_attempt <= self._reattempts): """ If the tmgr process or heartbeat dies, we simply start a new process using the start_manager method. We do not need to create a new instance of the TaskManager object itself. We stop and start a new instance of the heartbeat thread as well. """ self._prof.prof('restarting tmgr process and heartbeat', uid=self._uid) self._logger.info('Terminating heartbeat thread') self._task_manager.terminate_heartbeat() self._logger.info('Terminating tmgr process') self._task_manager.terminate_manager() self._logger.info('Restarting task manager process') self._task_manager.start_manager() self._logger.info('Restarting heartbeat thread') self._task_manager.start_heartbeat() self._cur_attempt += 1 self._prof.prof('start termination', uid=self._uid) # Terminate threads in following order: wfp, helper, synchronizer self._logger.info('Terminating WFprocessor') self._wfp.terminate_processor() self._logger.info('Terminating synchronizer thread') self._terminate_sync.set() self._sync_thread.join() self._logger.info('Synchronizer thread terminated') if self._autoterminate: self.resource_terminate() if self._write_workflow: write_workflow(self._workflow, self._sid) self._prof.prof('termination done', uid=self._uid) except KeyboardInterrupt: self._prof.prof('start termination', uid=self._uid) self._logger.error( 'Execution interrupted by user (you probably hit Ctrl+C), ' + 'trying to cancel enqueuer thread gracefully...') # Terminate threads in following order: wfp, helper, synchronizer if self._wfp: self._logger.info('Terminating WFprocessor') self._wfp.terminate_processor() if self._task_manager: self._logger.info('Terminating task manager process') self._task_manager.terminate_manager() self._task_manager.terminate_heartbeat() if self._sync_thread: self._logger.info('Terminating synchronizer thread') self._terminate_sync.set() self._sync_thread.join() self._logger.info('Synchronizer thread terminated') if self._resource_manager: self._resource_manager._terminate_resource_request() self._prof.prof('termination done', uid=self._uid) raise KeyboardInterrupt except Exception, ex: self._prof.prof('start termination', uid=self._uid) self._logger.exception('Error in AppManager: %s' % ex) # Terminate threads in following order: wfp, helper, synchronizer if self._wfp: self._logger.info('Terminating WFprocessor') self._wfp.terminate_processor() if self._task_manager: self._logger.info('Terminating task manager process') self._task_manager.terminate_manager() self._task_manager.terminate_heartbeat() if self._sync_thread: self._logger.info('Terminating synchronizer thread') self._terminate_sync.set() self._sync_thread.join() self._logger.info('Synchronizer thread terminated') if self._resource_manager: self._resource_manager._terminate_resource_request() self._prof.prof('termination done', uid=self._uid) raise