Beispiel #1
0
def stop(sync=False):
    """
    Runtime stop.

    :param sync: Scope variables synchronization [ True | False ]
                 (default: False)
    :return: None
    """
    from pycompss.api.api import compss_stop

    print("****************************************************")
    print("*************** STOPPING PyCOMPSs ******************")
    print("****************************************************")

    logger = logging.getLogger(__name__)

    if sync:
        sync_msg = "Synchronizing all future objects left on the user scope."
        print(sync_msg)
        logger.debug(sync_msg)
        from pycompss.api.api import compss_wait_on

        ipython = globals()['__builtins__']['get_ipython']()
        # import pprint
        # pprint.pprint(ipython.__dict__, width=1)
        raw_code = ipython.__dict__['user_ns']
        for k in raw_code:
            obj_k = raw_code[k]
            if not k.startswith('_'):  # not internal objects
                if type(obj_k) == binding.Future:
                    print("Found a future object: %s" % str(k))
                    logger.debug("Found a future object: %s" % (k, ))
                    ipython.__dict__['user_ns'][k] = compss_wait_on(obj_k)
                elif obj_k in pending_to_synchronize.values():
                    print("Found an object to synchronize: %s" % str(k))
                    logger.debug("Found an object to synchronize: %s" % (k, ))
                    ipython.__dict__['user_ns'][k] = compss_wait_on(obj_k)
                else:
                    pass
    else:
        print("Warning: some of the variables used with PyCOMPSs may")
        print("         have not been brought to the master.")

    if STREAMING:
        logger.debug("Stopping streaming")
        stop_streaming(logger)

    if PERSISTENT_STORAGE:
        logger.debug("Stopping persistent storage")
        stop_storage()

    compss_stop()

    __clean_temp_files__()

    # Let the Python binding know we are not at master anymore
    context.set_pycompss_context(context.OUT_OF_SCOPE)

    print("****************************************************")
    logger.debug("--- END ---")
Beispiel #2
0
def stop_all(exit_code):
    from pycompss.api.api import compss_stop
    global STREAMING
    global PERSISTENT_STORAGE
    global LOGGER
    # Stop STREAMING
    if STREAMING:
        stop_streaming()

    # Stop persistent storage
    if PERSISTENT_STORAGE:
        master_stop_storage(LOGGER)

    compss_stop(exit_code)
    sys.stdout.flush()
    sys.stderr.flush()
    sys.exit(exit_code)
Beispiel #3
0
def stop_all(exit_code):
    # type: (int) -> None
    """ Stop everything smoothly.

    :param exit_code: Exit code.
    :return: None
    """
    from pycompss.api.api import compss_stop
    global STREAMING
    global PERSISTENT_STORAGE
    global LOGGER
    # Stop STREAMING
    if STREAMING:
        stop_streaming()
    # Stop persistent storage
    if PERSISTENT_STORAGE:
        master_stop_storage(LOGGER)
    compss_stop(exit_code)
    sys.stdout.flush()
    sys.stderr.flush()
    sys.exit(exit_code)
Beispiel #4
0
def __hard_stop__(debug, sync, logger, ipython):
    # type: (bool, bool, typing.Any, typing.Any) -> None
    """ The runtime has been stopped by any error and this method stops the
    remaining things in the binding.

    :param debug: If debugging.
    :param sync: Scope variables synchronization [ True | False ].
    :param logger: Logger where to put the logging messages.
    :param ipython: Ipython instance.
    :return: None
    """
    print("The runtime is not running.")
    # Check that everything is stopped as well:

    # Stop streaming
    if STREAMING:
        stop_streaming()

    # Stop persistent storage
    if PERSISTENT_STORAGE:
        master_stop_storage(logger)

    # Clean any left object in the object tracker
    OT.clean_object_tracker()

    # Cleanup events and files
    release_event_manager(ipython)
    __clean_temp_files__()

    # Stop watching stdout and stderr
    STDW.stop_watching(clean=not debug)
    # Retrieve the remaining messages that could have been captured.
    last_messages = STDW.get_messages()
    if last_messages:
        for message in last_messages:
            print(message)

    if sync:
        print("* Can not synchronize any future object.")
    return None
Beispiel #5
0
def launch_pycompss_application(
        app,
        func,
        log_level='off',  # type: str
        o_c=False,  # type: bool
        debug=False,  # type: bool
        graph=False,  # type: bool
        trace=False,  # type: bool
        monitor=None,  # type: int
        project_xml=None,  # type: str
        resources_xml=None,  # type: str
        summary=False,  # type: bool
        task_execution='compss',  # type: str
        storage_impl=None,  # type: str
        storage_conf=None,  # type: str
        streaming_backend=None,  # type: str
        streaming_master_name=None,  # type: str
        streaming_master_port=None,  # type: str
        task_count=50,  # type: int
        app_name=None,  # type: str
        uuid=None,  # type: str
        base_log_dir=None,  # type: str
        specific_log_dir=None,  # type: str
        extrae_cfg=None,  # type: str
        comm='NIO',  # type: str
        conn='es.bsc.compss.connectors.DefaultSSHConnector',  # noqa: E501
        master_name='',  # type: str
        master_port='',  # type: str
        scheduler='es.bsc.compss.scheduler.loadbalancing.LoadBalancingScheduler',  # noqa: E501
        jvm_workers='-Xms1024m,-Xmx1024m,-Xmn400m',
        cpu_affinity='automatic',  # type: str
        gpu_affinity='automatic',  # type: str
        fpga_affinity='automatic',  # type: str
        fpga_reprogram='',  # type: str
        profile_input='',  # type: str
        profile_output='',  # type: str
        scheduler_config='',  # type: str
        external_adaptation=False,  # type: bool
        propagate_virtual_environment=True,  # type: bool
        mpi_worker=False,  # type: bool
        *args,
        **kwargs):
    # type: (...) -> None
    """ Launch PyCOMPSs application from function.

    :param app: Application path
    :param func: Function
    :param log_level: Logging level [ 'trace'|'debug'|'info'|'api'|'off' ]
                      (default: 'off')
    :param o_c: Objects to string conversion [ True | False ] (default: False)
    :param debug: Debug mode [ True | False ] (default: False)
                  (overrides log_level)
    :param graph: Generate graph [ True | False ] (default: False)
    :param trace: Generate trace
                  [ True | False | 'scorep' | 'arm-map' | 'arm-ddt']
                  (default: False)
    :param monitor: Monitor refresh rate (default: None)
    :param project_xml: Project xml file path
    :param resources_xml: Resources xml file path
    :param summary: Execution summary [ True | False ] (default: False)
    :param task_execution: Task execution (default: 'compss')
    :param storage_impl: Storage implementation path
    :param storage_conf: Storage configuration file path
    :param streaming_backend: Streaming backend (default: None)
    :param streaming_master_name: Streaming master name (default: None)
    :param streaming_master_port: Streaming master port (default: None)
    :param task_count: Task count (default: 50)
    :param app_name: Application name (default: Interactive_date)
    :param uuid: UUId
    :param base_log_dir: Base logging directory
    :param specific_log_dir: Specific logging directory
    :param extrae_cfg: Extrae configuration file path
    :param comm: Communication library (default: NIO)
    :param conn: Connector (default: DefaultSSHConnector)
    :param master_name: Master Name (default: '')
    :param master_port: Master port (default: '')
    :param scheduler: Scheduler (default:
                  es.bsc.compss.scheduler.loadbalancing.LoadBalancingScheduler)
    :param jvm_workers: Java VM parameters
                        (default: '-Xms1024m,-Xmx1024m,-Xmn400m')
    :param cpu_affinity: CPU Core affinity (default: 'automatic')
    :param gpu_affinity: GPU Core affinity (default: 'automatic')
    :param fpga_affinity: FPA Core affinity (default: 'automatic')
    :param fpga_reprogram: FPGA repogram command (default: '')
    :param profile_input: Input profile  (default: '')
    :param profile_output: Output profile  (default: '')
    :param scheduler_config: Scheduler configuration  (default: '')
    :param external_adaptation: External adaptation [ True | False ]
                                (default: False)
    :param propagate_virtual_environment: Propagate virtual environment
                                          [ True | False ] (default: False)
    :param mpi_worker: Use the MPI worker [ True | False ] (default: False)
    :param args: Positional arguments
    :param kwargs: Named arguments
    :return: Execution result
    """
    # Let the Python binding know we are at master
    context.set_pycompss_context(context.MASTER)
    # Then we can import the appropriate start and stop functions from the API
    from pycompss.api.api import compss_start, compss_stop

    ##############################################################
    # INITIALIZATION
    ##############################################################

    # Initial dictionary with the user defined parameters
    all_vars = {
        'log_level': log_level,
        'debug': debug,
        'o_c': o_c,
        'graph': graph,
        'trace': trace,
        'monitor': monitor,
        'project_xml': project_xml,
        'resources_xml': resources_xml,
        'summary': summary,
        'task_execution': task_execution,
        'storage_impl': storage_impl,
        'storage_conf': storage_conf,
        'streaming_backend': streaming_backend,
        'streaming_master_name': streaming_master_name,
        'streaming_master_port': streaming_master_port,
        'task_count': task_count,
        'app_name': app_name,
        'uuid': uuid,
        'base_log_dir': base_log_dir,
        'specific_log_dir': specific_log_dir,
        'extrae_cfg': extrae_cfg,
        'comm': comm,
        'conn': conn,
        'master_name': master_name,
        'master_port': master_port,
        'scheduler': scheduler,
        'jvm_workers': jvm_workers,
        'cpu_affinity': cpu_affinity,
        'gpu_affinity': gpu_affinity,
        'fpga_affinity': fpga_affinity,
        'fpga_reprogram': fpga_reprogram,
        'profile_input': profile_input,
        'profile_output': profile_output,
        'scheduler_config': scheduler_config,
        'external_adaptation': external_adaptation,
        'propagate_virtual_environment': propagate_virtual_environment,
        'mpi_worker': mpi_worker
    }

    # Check the provided flags
    flags, issues = check_flags(all_vars)
    if not flags:
        print_flag_issues(issues)
        return None

    # Prepare the environment
    env_vars = prepare_environment(False, o_c, storage_impl, app, debug, trace,
                                   mpi_worker)
    all_vars.update(env_vars)

    monitoring_vars = prepare_loglevel_graph_for_monitoring(
        monitor, graph, debug, log_level)
    all_vars.update(monitoring_vars)

    if RUNNING_IN_SUPERCOMPUTER:
        updated_vars = updated_variables_in_sc()
        all_vars.update(updated_vars)

    to_update = prepare_tracing_environment(all_vars['trace'],
                                            all_vars['extrae_lib'],
                                            all_vars['ld_library_path'])
    all_vars['trace'], all_vars['ld_library_path'] = to_update

    inf_vars = check_infrastructure_variables(all_vars['project_xml'],
                                              all_vars['resources_xml'],
                                              all_vars['compss_home'],
                                              all_vars['app_name'],
                                              all_vars['file_name'],
                                              all_vars['external_adaptation'])
    all_vars.update(inf_vars)

    create_init_config_file(**all_vars)

    ##############################################################
    # RUNTIME START
    ##############################################################

    # Runtime start
    compss_start(log_level, all_vars['trace'], True)

    # Setup logging
    binding_log_path = get_log_path()
    log_path = os.path.join(all_vars['compss_home'], 'Bindings', 'python',
                            str(all_vars['major_version']), 'log')
    set_temporary_directory(binding_log_path)
    logging_cfg_file = get_logging_cfg_file(log_level)
    init_logging(os.path.join(log_path, logging_cfg_file), binding_log_path)
    logger = logging.getLogger("pycompss.runtime.launch")

    logger.debug('--- START ---')
    logger.debug('PyCOMPSs Log path: %s' % log_path)

    logger.debug("Starting storage")
    persistent_storage = master_init_storage(all_vars['storage_conf'], logger)

    logger.debug("Starting streaming")
    streaming = init_streaming(all_vars['streaming_backend'],
                               all_vars['streaming_master_name'],
                               all_vars['streaming_master_port'])

    saved_argv = sys.argv
    sys.argv = args
    # Execution:
    with event(APPLICATION_RUNNING_EVENT, master=True):
        if func is None or func == '__main__':
            if IS_PYTHON3:
                exec(open(app).read())
            else:
                execfile(app)  # noqa
            result = None
        else:
            if IS_PYTHON3:
                import importlib.util
                spec = importlib.util.spec_from_file_location(
                    all_vars['file_name'], app)  # noqa: E501
                imported_module = importlib.util.module_from_spec(spec)
                spec.loader.exec_module(imported_module)  # noqa
            else:
                import imp  # noqa
                imported_module = imp.load_source(all_vars['file_name'],
                                                  app)  # noqa
            method_to_call = getattr(imported_module, func)
            result = method_to_call(*args, **kwargs)
    # Recover the system arguments
    sys.argv = saved_argv

    # Stop streaming
    if streaming:
        stop_streaming()

    # Stop persistent storage
    if persistent_storage:
        master_stop_storage(logger)

    logger.debug('--- END ---')

    ##############################################################
    # RUNTIME STOP
    ##############################################################

    # Stop runtime
    compss_stop()

    return result
Beispiel #6
0
def compss_main():
    # type: () -> None
    """ PyCOMPSs main function.

    General call:
    python $PYCOMPSS_HOME/pycompss/runtime/launch.py $log_level
           $PyObject_serialize $storage_conf $streaming_backend
           $streaming_master_name $streaming_master_port
           $fullAppPath $application_args

    :return: None
    """
    global APP_PATH

    # Let the Python binding know we are at master
    context.set_pycompss_context(context.MASTER)
    # Then we can import the appropriate start and stop functions from the API
    from pycompss.api.api import compss_start, compss_stop

    # See parse_arguments, defined above
    # In order to avoid parsing user arguments, we are going to remove user
    # args from sys.argv
    user_sys_argv = sys.argv[9:]
    sys.argv = sys.argv[:9]
    args = parse_arguments()
    # We are done, now sys.argv must contain user args only
    sys.argv = [args.app_path] + user_sys_argv

    # Get log_level
    log_level = args.log_level

    # Setup tracing
    tracing = int(args.tracing)

    # Start the runtime
    compss_start(log_level, tracing, False)

    # Get object_conversion boolean
    set_object_conversion(args.object_conversion == 'true')

    # Get storage configuration at master
    storage_conf = args.storage_configuration

    # Get application execution path
    APP_PATH = args.app_path

    # Setup logging
    binding_log_path = get_log_path()
    log_path = os.path.join(os.getenv('COMPSS_HOME'), 'Bindings', 'python',
                            str(_PYTHON_VERSION), 'log')
    set_temporary_directory(binding_log_path)
    logging_cfg_file = get_logging_cfg_file(log_level)
    init_logging(os.path.join(log_path, logging_cfg_file), binding_log_path)
    logger = logging.getLogger("pycompss.runtime.launch")

    # Get JVM options
    # jvm_opts = os.environ['JVM_OPTIONS_FILE']
    # from pycompss.util.jvm.parser import convert_to_dict
    # opts = convert_to_dict(jvm_opts)
    # storage_conf = opts.get('-Dcompss.storage.conf')

    exit_code = 0
    try:
        if __debug__:
            logger.debug('--- START ---')
            logger.debug('PyCOMPSs Log path: %s' % binding_log_path)

        # Start persistent storage
        persistent_storage = master_init_storage(storage_conf, logger)

        # Start streaming
        streaming = init_streaming(args.streaming_backend,
                                   args.streaming_master_name,
                                   args.streaming_master_port)

        # Show module warnings
        if __debug__:
            show_optional_module_warnings()

        # MAIN EXECUTION
        with event(APPLICATION_RUNNING_EVENT, master=True):
            if IS_PYTHON3:
                with open(APP_PATH) as f:
                    exec(compile(f.read(), APP_PATH, 'exec'), globals())
            else:
                execfile(APP_PATH, globals())  # MAIN EXECUTION

        # Stop streaming
        if streaming:
            stop_streaming()

        # Stop persistent storage
        if persistent_storage:
            master_stop_storage(logger)

        # End
        if __debug__:
            logger.debug('--- END ---')
    except SystemExit as e:
        if e.code != 0:
            print('[ ERROR ]: User program ended with exitcode %s.' % e.code)
            print('\t\tShutting down runtime...')
            exit_code = e.code
    except SerializerException:
        exit_code = 1
        # If an object that can not be serialized has been used as a parameter.
        print("[ ERROR ]: Serialization exception")
        exc_type, exc_value, exc_traceback = sys.exc_info()
        lines = traceback.format_exception(exc_type, exc_value, exc_traceback)
        for line in lines:
            if APP_PATH in line:
                print('[ ERROR ]: In: %s', line)
        exit_code = 1
    except COMPSsException as e:
        # Any other exception occurred
        print("[ ERROR ]: A COMPSs exception occurred: " + str(e))
        traceback.print_exc()
        exit_code = 0  # COMPSs exception is not considered an error
    except Exception as e:
        # Any other exception occurred
        print("[ ERROR ]: An exception occurred: " + str(e))
        traceback.print_exc()
        exit_code = 1
    finally:
        # Stop runtime
        compss_stop(exit_code)
        sys.stdout.flush()
        sys.stderr.flush()
        sys.exit(exit_code)
Beispiel #7
0
def stop(sync=False):
    # type: (bool) -> None
    """ Runtime stop.

    :param sync: Scope variables synchronization [ True | False ]
                 (default: False)
    :return: None
    """
    from pycompss.api.api import compss_stop

    print("****************************************************")
    print("*************** STOPPING PyCOMPSs ******************")
    print("****************************************************")

    logger = logging.getLogger(__name__)

    if sync:
        sync_msg = "Synchronizing all future objects left on the user scope."
        print(sync_msg)
        logger.debug(sync_msg)
        from pycompss.api.api import compss_wait_on

        ipython = globals()['__builtins__']['get_ipython']()
        # import pprint
        # pprint.pprint(ipython.__dict__, width=1)
        reserved_names = ('quit', 'exit', 'get_ipython', 'APP_PATH',
                          'ipycompss', 'In', 'Out')
        raw_code = ipython.__dict__['user_ns']
        for k in raw_code:
            obj_k = raw_code[k]
            if not k.startswith('_'):  # not internal objects
                if type(obj_k) == Future:
                    print("Found a future object: %s" % str(k))
                    logger.debug("Found a future object: %s" % (k, ))
                    ipython.__dict__['user_ns'][k] = compss_wait_on(obj_k)
                elif k not in reserved_names and \
                        OT_is_pending_to_synchronize(obj_k):
                    print("Found an object to synchronize: %s" % str(k))
                    logger.debug("Found an object to synchronize: %s" % (k, ))
                    ipython.__dict__['user_ns'][k] = compss_wait_on(obj_k)
                else:
                    pass
    else:
        print("Warning: some of the variables used with PyCOMPSs may")
        print("         have not been brought to the master.")

    # Stop streaming
    if STREAMING:
        stop_streaming()

    # Stop persistent storage
    if PERSISTENT_STORAGE:
        master_stop_storage(logger)

    # Emit the 0 for the APPLICATION_RUNNING_EVENT emitted on start function.
    emit_manual_event(0)

    # Stop runtime
    compss_stop()

    __clean_temp_files__()

    # Let the Python binding know we are not at master anymore
    context.set_pycompss_context(context.OUT_OF_SCOPE)

    print("****************************************************")
    logger.debug("--- END ---")
Beispiel #8
0
def stop(sync=False, _hard_stop=False):
    # type: (bool, bool) -> None
    """ Runtime stop.

    :param sync: Scope variables synchronization [ True | False ]
                 (default: False)
    :param _hard_stop: Stop compss when runtime has died [ True | False ].
                       (default: False)
    :return: None
    """
    logger = logging.getLogger(__name__)
    ipython = globals()["__builtins__"]["get_ipython"]()

    if not context.in_pycompss():
        return __hard_stop__(interactive_helpers.DEBUG, sync, logger, ipython)

    from pycompss.api.api import compss_stop

    print(LINE_SEPARATOR)
    print("*************** STOPPING PyCOMPSs ******************")
    print(LINE_SEPARATOR)
    # Wait 5 seconds to give some time to process the remaining messages
    # of the STDW and check if there is some error that could have stopped
    # the runtime before continuing.
    print("Checking if any issue happened.")
    time.sleep(5)
    messages = STDW.get_messages()
    if messages:
        for message in messages:
            sys.stderr.write("".join((message, "\n")))

    # Uncomment the following lines to see the ipython dictionary
    # in a structured way:
    #   import pprint
    #   pprint.pprint(ipython.__dict__, width=1)
    if sync and not _hard_stop:
        sync_msg = "Synchronizing all future objects left on the user scope."
        print(sync_msg)
        logger.debug(sync_msg)
        from pycompss.api.api import compss_wait_on
        reserved_names = ("quit", "exit", "get_ipython", "APP_PATH",
                          "ipycompss", "In", "Out")
        raw_code = ipython.__dict__["user_ns"]
        for k in raw_code:
            obj_k = raw_code[k]
            if not k.startswith('_'):  # not internal objects
                if type(obj_k) == Future:
                    print("Found a future object: %s" % str(k))
                    logger.debug("Found a future object: %s" % str(k))
                    new_obj_k = compss_wait_on(obj_k)
                    if new_obj_k == obj_k:
                        print("\t - Could not retrieve object: %s" % str(k))
                        logger.debug("\t - Could not retrieve object: %s" %
                                     str(k))
                    else:
                        ipython.__dict__["user_ns"][k] = new_obj_k
                elif k not in reserved_names:
                    try:
                        if OT.is_pending_to_synchronize(obj_k):
                            print("Found an object to synchronize: %s" %
                                  str(k))  # noqa: E501
                            logger.debug("Found an object to synchronize: %s" %
                                         (k, ))  # noqa: E501
                            ipython.__dict__["user_ns"][k] = compss_wait_on(
                                obj_k)  # noqa: E501
                    except TypeError:
                        # Unhashable type: List - could be a collection
                        if isinstance(obj_k, list):
                            print("Found a list to synchronize: %s" % str(k))
                            logger.debug("Found a list to synchronize: %s" %
                                         (k, ))  # noqa: E501
                            ipython.__dict__["user_ns"][k] = compss_wait_on(
                                obj_k)  # noqa: E501
    else:
        print("Warning: some of the variables used with PyCOMPSs may")
        print("         have not been brought to the master.")

    # Stop streaming
    if STREAMING:
        stop_streaming()

    # Stop persistent storage
    if PERSISTENT_STORAGE:
        master_stop_storage(logger)

    # Emit the 0 for the APPLICATION_RUNNING_EVENT emitted on start function.
    emit_manual_event(0)

    # Stop runtime
    compss_stop(_hard_stop=_hard_stop)

    # Cleanup events and files
    release_event_manager(ipython)
    __clean_temp_files__()

    # Stop watching stdout and stderr
    STDW.stop_watching(clean=True)
    # Retrieve the remaining messages that could have been captured.
    last_messages = STDW.get_messages()
    if last_messages:
        for message in last_messages:
            print(message)

    # Let the Python binding know we are not at master anymore
    context.set_pycompss_context(context.OUT_OF_SCOPE)

    print(LINE_SEPARATOR)
    logger.debug("--- END ---")
Beispiel #9
0
def launch_pycompss_application(
        app,  # type: str
        func,  # type: typing.Optional[str]
        log_level="off",  # type: str
        o_c=False,  # type: bool
        debug=False,  # type: bool
        graph=False,  # type: bool
        trace=False,  # type: bool
        monitor=-1,  # type: int
        project_xml="",  # type: str
        resources_xml="",  # type: str
        summary=False,  # type: bool
        task_execution="compss",  # type: str
        storage_impl="",  # type: str
        storage_conf="",  # type: str
        streaming_backend="",  # type: str
        streaming_master_name="",  # type: str
        streaming_master_port="",  # type: str
        task_count=50,  # type: int
        app_name="",  # type: str
        uuid="",  # type: str
        base_log_dir="",  # type: str
        specific_log_dir="",  # type: str
        extrae_cfg="",  # type: str
        comm="NIO",  # type: str
        conn=DEFAULT_CONN,  # type: str
        master_name="",  # type: str
        master_port="",  # type: str
        scheduler=DEFAULT_SCHED,  # type: str
        jvm_workers=DEFAULT_JVM_WORKERS,  # type: str
        cpu_affinity="automatic",  # type: str
        gpu_affinity="automatic",  # type: str
        fpga_affinity="automatic",  # type: str
        fpga_reprogram="",  # type: str
        profile_input="",  # type: str
        profile_output="",  # type: str
        scheduler_config="",  # type: str
        external_adaptation=False,  # type: bool
        propagate_virtual_environment=True,  # type: bool
        mpi_worker=False,  # type: bool
        worker_cache=False,  # type: typing.Union[bool, str]
        shutdown_in_node_failure=False,  # type: bool
        io_executors=0,  # type: int
        env_script="",  # type: str
        reuse_on_block=True,  # type: bool
        nested_enabled=False,  # type: bool
        tracing_task_dependencies=False,  # type: bool
        trace_label="",  # type: str
        extrae_cfg_python="",  # type: str
        wcl=0,  # type: int
        cache_profiler=False,  # type: bool
        *args,
        **kwargs):  # NOSONAR
    # type: (...) -> typing.Any
    """ Launch PyCOMPSs application from function.

    :param app: Application path
    :param func: Function
    :param log_level: Logging level [ "trace"|"debug"|"info"|"api"|"off" ]
                      (default: "off")
    :param o_c: Objects to string conversion [ True | False ] (default: False)
    :param debug: Debug mode [ True | False ] (default: False)
                  (overrides log_level)
    :param graph: Generate graph [ True | False ] (default: False)
    :param trace: Generate trace
                  [ True | False | "scorep" | "arm-map" | "arm-ddt"]
                  (default: False)
    :param monitor: Monitor refresh rate (default: None)
    :param project_xml: Project xml file path
    :param resources_xml: Resources xml file path
    :param summary: Execution summary [ True | False ] (default: False)
    :param task_execution: Task execution (default: "compss")
    :param storage_impl: Storage implementation path
    :param storage_conf: Storage configuration file path
    :param streaming_backend: Streaming backend (default: None)
    :param streaming_master_name: Streaming master name (default: None)
    :param streaming_master_port: Streaming master port (default: None)
    :param task_count: Task count (default: 50)
    :param app_name: Application name (default: Interactive_date)
    :param uuid: UUId
    :param base_log_dir: Base logging directory
    :param specific_log_dir: Specific logging directory
    :param extrae_cfg: Extrae configuration file path
    :param comm: Communication library (default: NIO)
    :param conn: Connector (default: DefaultSSHConnector)
    :param master_name: Master Name (default: "")
    :param master_port: Master port (default: "")
    :param scheduler: Scheduler (default:
                  es.bsc.compss.scheduler.loadbalancing.LoadBalancingScheduler)
    :param jvm_workers: Java VM parameters
                        (default: "-Xms1024m,-Xmx1024m,-Xmn400m")
    :param cpu_affinity: CPU Core affinity (default: "automatic")
    :param gpu_affinity: GPU Core affinity (default: "automatic")
    :param fpga_affinity: FPA Core affinity (default: "automatic")
    :param fpga_reprogram: FPGA reprogram command (default: "")
    :param profile_input: Input profile  (default: "")
    :param profile_output: Output profile  (default: "")
    :param scheduler_config: Scheduler configuration  (default: "")
    :param external_adaptation: External adaptation [ True | False ]
                                (default: False)
    :param propagate_virtual_environment: Propagate virtual environment
                                          [ True | False ] (default: False)
    :param mpi_worker: Use the MPI worker [ True | False ] (default: False)
    :param worker_cache: Use the worker cache [ True | int(size) | False]
                         (default: False)
    :param shutdown_in_node_failure: Shutdown in node failure [ True | False]
                                     (default: False)
    :param io_executors: <Integer> Number of IO executors
    :param env_script: <String> Environment script to be sourced in workers
    :param reuse_on_block: Reuse on block [ True | False] (default: True)
    :param nested_enabled: Nested enabled [ True | False] (default: False)
    :param tracing_task_dependencies: Include task dependencies in trace
                                      [ True | False] (default: False)
    :param trace_label: <String> Add trace label
    :param extrae_cfg_python: <String> Extrae configuration file for the
                              workers
    :param wcl: <Integer> Wallclock limit. Stops the runtime if reached.
                0 means forever.
    :param cache_profiler: Use the cache profiler [ True | False]
                         (default: False)
    :param args: Positional arguments
    :param kwargs: Named arguments
    :return: Execution result
    """
    # Check that COMPSs is available
    if "COMPSS_HOME" not in os.environ:
        # Do not allow to continue if COMPSS_HOME is not defined
        raise PyCOMPSsException(
            "ERROR: COMPSS_HOME is not defined in the environment")

    # Let the Python binding know we are at master
    context.set_pycompss_context(context.MASTER)
    # Then we can import the appropriate start and stop functions from the API
    from pycompss.api.api import compss_start, compss_stop

    ##############################################################
    # INITIALIZATION
    ##############################################################

    if debug:
        log_level = "debug"

    # Initial dictionary with the user defined parameters
    all_vars = parameters_to_dict(
        log_level, debug, o_c, graph, trace, monitor, project_xml,
        resources_xml, summary, task_execution, storage_impl, storage_conf,
        streaming_backend, streaming_master_name, streaming_master_port,
        task_count, app_name, uuid, base_log_dir, specific_log_dir, extrae_cfg,
        comm, conn, master_name, master_port, scheduler, jvm_workers,
        cpu_affinity, gpu_affinity, fpga_affinity, fpga_reprogram,
        profile_input, profile_output, scheduler_config, external_adaptation,
        propagate_virtual_environment, mpi_worker, worker_cache,
        shutdown_in_node_failure, io_executors, env_script, reuse_on_block,
        nested_enabled, tracing_task_dependencies, trace_label,
        extrae_cfg_python, wcl, cache_profiler)
    # Save all vars in global current flags so that events.py can restart
    # the notebook with the same flags
    export_current_flags(all_vars)

    # Check the provided flags
    flags, issues = check_flags(all_vars)
    if not flags:
        print_flag_issues(issues)
        return None

    # Prepare the environment
    env_vars = prepare_environment(False, o_c, storage_impl, app, debug, trace,
                                   mpi_worker)
    all_vars.update(env_vars)

    monitoring_vars = prepare_loglevel_graph_for_monitoring(
        monitor, graph, debug, log_level)
    all_vars.update(monitoring_vars)

    if RUNNING_IN_SUPERCOMPUTER:
        updated_vars = updated_variables_in_sc()
        all_vars.update(updated_vars)

    to_update = prepare_tracing_environment(all_vars["trace"],
                                            all_vars["extrae_lib"],
                                            all_vars["ld_library_path"])
    all_vars["trace"], all_vars["ld_library_path"] = to_update

    inf_vars = check_infrastructure_variables(all_vars["project_xml"],
                                              all_vars["resources_xml"],
                                              all_vars["compss_home"],
                                              all_vars["app_name"],
                                              all_vars["file_name"],
                                              all_vars["external_adaptation"])
    all_vars.update(inf_vars)

    create_init_config_file(**all_vars)

    ##############################################################
    # RUNTIME START
    ##############################################################

    # Runtime start
    compss_start(log_level, all_vars["trace"], True)

    # Setup logging
    binding_log_path = get_log_path()
    log_path = os.path.join(all_vars["compss_home"], "Bindings", "python",
                            str(all_vars["major_version"]), "log")
    set_temporary_directory(binding_log_path)
    logging_cfg_file = get_logging_cfg_file(log_level)
    init_logging(os.path.join(log_path, logging_cfg_file), binding_log_path)
    logger = logging.getLogger("pycompss.runtime.launch")

    logger.debug("--- START ---")
    logger.debug("PyCOMPSs Log path: %s" % log_path)

    if storage_impl and storage_conf:
        logger.debug("Starting storage")
        persistent_storage = master_init_storage(all_vars["storage_conf"],
                                                 logger)
    else:
        persistent_storage = False

    logger.debug("Starting streaming")
    streaming = init_streaming(all_vars["streaming_backend"],
                               all_vars["streaming_master_name"],
                               all_vars["streaming_master_port"])

    saved_argv = sys.argv
    sys.argv = list(args)
    # Execution:
    with event_master(APPLICATION_RUNNING_EVENT):
        if func is None or func == "__main__":
            if IS_PYTHON3:
                exec(open(app).read())
            else:
                execfile(app)  # type: ignore
            result = None
        else:
            if IS_PYTHON3:
                from importlib.machinery import SourceFileLoader  # noqa
                imported_module = SourceFileLoader(
                    all_vars["file_name"], app).load_module()  # type: ignore
            else:
                import imp  # noqa
                imported_module = imp.load_source(all_vars["file_name"],
                                                  app)  # noqa
            method_to_call = getattr(imported_module, func)
            try:
                result = method_to_call(*args, **kwargs)
            except TypeError:
                result = method_to_call()
    # Recover the system arguments
    sys.argv = saved_argv

    # Stop streaming
    if streaming:
        stop_streaming()

    # Stop persistent storage
    if persistent_storage:
        master_stop_storage(logger)

    logger.debug("--- END ---")

    ##############################################################
    # RUNTIME STOP
    ##############################################################

    # Stop runtime
    compss_stop()
    clean_log_configs()

    return result
Beispiel #10
0
def launch_pycompss_application(
        app,
        func,
        log_level='off',
        o_c=False,
        debug=False,
        graph=False,
        trace=False,
        monitor=None,
        project_xml=None,
        resources_xml=None,
        summary=False,
        task_execution='compss',
        storage_impl=None,
        storage_conf=None,
        streaming_backend=None,
        streaming_master_name=None,
        streaming_master_port=None,
        task_count=50,
        app_name=None,
        uuid=None,
        base_log_dir=None,
        specific_log_dir=None,
        extrae_cfg=None,
        comm='NIO',
        conn='es.bsc.compss.connectors.DefaultSSHConnector',  # noqa
        master_name='',
        master_port='',
        scheduler='es.bsc.compss.scheduler.loadbalancing.LoadBalancingScheduler',  # noqa
        jvm_workers='-Xms1024m,-Xmx1024m,-Xmn400m',
        cpu_affinity='automatic',
        gpu_affinity='automatic',
        fpga_affinity='automatic',
        fpga_reprogram='',
        profile_input='',
        profile_output='',
        scheduler_config='',
        external_adaptation=False,
        propagate_virtual_environment=True,
        mpi_worker=False,
        *args,
        **kwargs):
    """
    Launch PyCOMPSs application from function.

    :param app: Application path
    :param func: Function
    :param args: Arguments
    :param kwargs: Keyword arguments
    :param log_level: Logging level [ 'off' | 'info'  | 'debug' ]
                      (default: 'off')
    :param o_c: Objects to string conversion [ True | False ] (default: False)
    :param debug: Debug mode [ True | False ] (default: False)
                  (overrides log_level)
    :param graph: Generate graph [ True | False ] (default: False)
    :param trace: Generate trace
                  [ True | False | 'scorep' | 'arm-map' | 'arm-ddt']
                  (default: False)
    :param monitor: Monitor refresh rate (default: None)
    :param project_xml: Project xml file path
    :param resources_xml: Resources xml file path
    :param summary: Execution summary [ True | False ] (default: False)
    :param task_execution: Task execution (default: 'compss')
    :param storage_impl: Storage implementation path
    :param storage_conf: Storage configuration file path
    :param streaming_backend: Streaming backend (default: None)
    :param streaming_master_name: Streaming master name (default: None)
    :param streaming_master_port: Streaming master port (default: None)
    :param task_count: Task count (default: 50)
    :param app_name: Application name (default: Interactive_date)
    :param uuid: UUId
    :param base_log_dir: Base logging directory
    :param specific_log_dir: Specific logging directory
    :param extrae_cfg: Extrae configuration file path
    :param comm: Communication library (default: NIO)
    :param conn: Connector (default: DefaultSSHConnector)
    :param master_name: Master Name (default: '')
    :param master_port: Master port (default: '')
    :param scheduler: Scheduler (default:
                  es.bsc.compss.scheduler.loadbalancing.LoadBalancingScheduler)
    :param jvm_workers: Java VM parameters
                        (default: '-Xms1024m,-Xmx1024m,-Xmn400m')
    :param cpu_affinity: CPU Core affinity (default: 'automatic')
    :param gpu_affinity: GPU Core affinity (default: 'automatic')
    :param fpga_affinity: FPA Core affinity (default: 'automatic')
    :param fpga_reprogram: FPGA repogram command (default: '')
    :param profile_input: Input profile  (default: '')
    :param profile_output: Output profile  (default: '')
    :param scheduler_config: Scheduler configuration  (default: '')
    :param external_adaptation: External adaptation [ True | False ]
                                (default: False)
    :param propagate_virtual_environment: Propagate virtual environment
                                          [ True | False ] (default: False)
    :param mpi_worker: Use the MPI worker [ True | False ] (default: False)
    :param args: Positional arguments
    :param kwargs: Named arguments
    :return: Execution result
    """
    # Let the Python binding know we are at master
    context.set_pycompss_context(context.MASTER)
    # Then we can import the appropriate start and stop functions from the API
    from pycompss.api.api import compss_start, compss_stop

    ##############################################################
    # INITIALIZATION
    ##############################################################

    # TODO: Check that input values are valid

    # Initial dictionary with the user defined parameters
    all_vars = {
        'log_level': log_level,
        'debug': debug,
        'o_c': o_c,
        'graph': graph,
        'trace': trace,
        'monitor': monitor,
        'project_xml': project_xml,
        'resources_xml': resources_xml,
        'summary': summary,
        'task_execution': task_execution,
        'storage_impl': storage_impl,
        'storage_conf': storage_conf,
        'streaming_backend': streaming_backend,
        'streaming_master_name': streaming_master_name,
        'streaming_master_port': streaming_master_port,
        'task_count': task_count,
        'app_name': app_name,
        'uuid': uuid,
        'base_log_dir': base_log_dir,
        'specific_log_dir': specific_log_dir,
        'extrae_cfg': extrae_cfg,
        'comm': comm,
        'conn': conn,
        'master_name': master_name,
        'master_port': master_port,
        'scheduler': scheduler,
        'jvm_workers': jvm_workers,
        'cpu_affinity': cpu_affinity,
        'gpu_affinity': gpu_affinity,
        'fpga_affinity': fpga_affinity,
        'fpga_reprogram': fpga_reprogram,
        'profile_input': profile_input,
        'profile_output': profile_output,
        'scheduler_config': scheduler_config,
        'external_adaptation': external_adaptation,
        'propagate_virtual_environment': propagate_virtual_environment,
        'mpi_worker': mpi_worker
    }

    # Prepare the environment
    env_vars = prepare_environment(True, o_c, storage_impl, app, debug, trace,
                                   mpi_worker)
    all_vars.update(env_vars)

    monitoring_vars = prepare_loglevel_graph_for_monitoring(
        monitor, graph, debug, log_level)
    all_vars.update(monitoring_vars)

    if RUNNING_IN_SUPERCOMPUTER:
        updated_vars = updated_variables_in_sc()
        all_vars.update(updated_vars)

    to_update = prepare_tracing_environment(all_vars['trace'],
                                            all_vars['extrae_lib'],
                                            all_vars['ld_library_path'])
    all_vars['trace'], all_vars['ld_library_path'] = to_update

    inf_vars = check_infrastructure_variables(all_vars['project_xml'],
                                              all_vars['resources_xml'],
                                              all_vars['compss_home'],
                                              all_vars['app_name'],
                                              all_vars['file_name'],
                                              all_vars['external_adaptation'])
    all_vars.update(inf_vars)

    create_init_config_file(**all_vars)

    ##############################################################
    # RUNTIME START
    ##############################################################

    # Runtime start
    compss_start()

    # Configure logging
    log_path = get_log_path()
    major_version = all_vars['major_version']
    compss_home = all_vars['compss_home']
    logger = setup_logger(debug, log_level, major_version, compss_home,
                          log_path)

    logger.debug('--- START ---')
    logger.debug('PyCOMPSs Log path: %s' % log_path)

    logger.debug("[LOG] Starting storage")
    persistent_storage = init_storage(all_vars['storage_conf'], logger)

    logger.debug("[LOG] Starting streaming")
    streaming = init_streaming(all_vars['streaming_backend'],
                               all_vars['streaming_master_name'],
                               all_vars['streaming_master_port'])

    saved_argv = sys.argv
    sys.argv = args
    # Execution:
    if func is None or func == '__main__':
        execfile(app)
        result = None
    else:
        import imp
        imported_module = imp.load_source(all_vars['file_name'], app)
        method_to_call = getattr(imported_module, func)
        result = method_to_call(*args, **kwargs)
    # Recover the system arguments
    sys.argv = saved_argv

    if persistent_storage:
        logger.debug("[LOG] Stopping persistent storage")
        stop_storage()

    if streaming:
        logger.debug("[LOG] Stopping streaming")
        stop_streaming()

    logger.debug('--- END ---')

    ##############################################################
    # RUNTIME STOP
    ##############################################################

    compss_stop()

    return result