Exemplo n.º 1
0
def c_extension_link(in_queue, out_queue):
    # type: (..., ...) -> None
    """ Main C extension process.

    :param in_queue: Queue to receive messages.
    :param out_queue: Queue to send messages.
    :return: None
    """
    import compss

    alive = True
    while alive:
        message = in_queue.get()
        command = message[0]
        parameters = []
        if len(message) > 0:
            parameters = message[1:]
        if command == START:
            compss.start_runtime()
        elif command == SET_DEBUG:
            compss.set_debug(*parameters)
        elif command == STOP:
            compss.stop_runtime(*parameters)
            alive = False
        elif command == CANCEL_TASKS:
            compss.cancel_application_tasks(*parameters)
        elif command == ACCESSED_FILE:
            accessed = compss.accessed_file(*parameters)
            out_queue.put(accessed)
        elif command == OPEN_FILE:
            compss_name = compss.open_file(*parameters)
            out_queue.put(compss_name)
        elif command == CLOSE_FILE:
            compss.close_file(*parameters)
        elif command == DELETE_FILE:
            result = compss.delete_file(*parameters)
            out_queue.put(result)
        elif command == GET_FILE:
            compss.get_file(*parameters)
        elif command == GET_DIRECTORY:
            compss.get_directory(*parameters)
        elif command == BARRIER:
            compss.barrier(*parameters)
        elif command == BARRIER_GROUP:
            exception_message = compss.barrier_group(*parameters)
            out_queue.put(exception_message)
        elif command == OPEN_TASK_GROUP:
            compss.open_task_group(*parameters)
        elif command == CLOSE_TASK_GROUP:
            compss.close_task_group(*parameters)
        elif command == GET_LOGGING_PATH:
            log_path = compss.get_logging_path()
            out_queue.put(log_path)
        elif command == GET_NUMBER_OF_RESOURCES:
            num_resources = compss.get_number_of_resources(*parameters)
            out_queue.put(num_resources)
        elif command == REQUEST_RESOURCES:
            compss.request_resources(*parameters)
        elif command == FREE_RESOURCES:
            compss.free_resources(*parameters)
        elif command == REGISTER_CORE_ELEMENT:
            compss.register_core_element(*parameters)
        elif command == PROCESS_TASK:
            compss.process_task(*parameters)
        elif command == SET_PIPES:
            compss.set_pipes(*parameters)
        else:
            raise Exception("Unknown link command")
Exemplo n.º 2
0
def c_extension_link(in_queue, out_queue, redirect_std, out_file_name,
                     err_file_name):
    # type: (Queue, Queue, bool, str, str) -> None
    """ Main C extension process.

    :param in_queue: Queue to receive messages.
    :param out_queue: Queue to send messages.
    :param redirect_std: Decide whether to store the stdout and stderr into
                         files or not.
    :param out_file_name: File where to store the stdout (only required if
                          redirect_std is True).
    :param err_file_name: File where to store the stderr (only required if
                          redirect_std is True).
    :return: None
    """
    # Import C extension within the external process
    import compss

    with ipython_std_redirector(out_file_name, err_file_name) \
            if redirect_std else not_std_redirector():
        alive = True
        while alive:
            message = in_queue.get()
            command = message[0]
            parameters = []  # type: list
            if len(message) > 0:
                parameters = list(message[1:])
            if command == START:
                compss.start_runtime()
            elif command == SET_DEBUG:
                compss.set_debug(*parameters)
            elif command == STOP:
                compss.stop_runtime(*parameters)
                alive = False
            elif command == CANCEL_TASKS:
                compss.cancel_application_tasks(*parameters)
            elif command == ACCESSED_FILE:
                accessed = compss.accessed_file(*parameters)
                out_queue.put(accessed)
            elif command == OPEN_FILE:
                compss_name = compss.open_file(*parameters)
                out_queue.put(compss_name)
            elif command == CLOSE_FILE:
                compss.close_file(*parameters)
            elif command == DELETE_FILE:
                result = compss.delete_file(*parameters)
                out_queue.put(result)
            elif command == GET_FILE:
                compss.get_file(*parameters)
            elif command == GET_DIRECTORY:
                compss.get_directory(*parameters)
            elif command == BARRIER:
                compss.barrier(*parameters)
            elif command == BARRIER_GROUP:
                exception_message = compss.barrier_group(*parameters)
                out_queue.put(exception_message)
            elif command == OPEN_TASK_GROUP:
                compss.open_task_group(*parameters)
            elif command == CLOSE_TASK_GROUP:
                compss.close_task_group(*parameters)
            elif command == GET_LOGGING_PATH:
                log_path = compss.get_logging_path()
                out_queue.put(log_path)
            elif command == GET_NUMBER_OF_RESOURCES:
                num_resources = compss.get_number_of_resources(*parameters)
                out_queue.put(num_resources)
            elif command == REQUEST_RESOURCES:
                compss.request_resources(*parameters)
            elif command == FREE_RESOURCES:
                compss.free_resources(*parameters)
            elif command == REGISTER_CORE_ELEMENT:
                compss.register_core_element(*parameters)
            elif command == PROCESS_TASK:
                compss.process_task(*parameters)
            elif command == PROCESS_HTTP_TASK:
                compss.process_http_task(*parameters)
            elif command == SET_PIPES:
                compss.set_pipes(*parameters)
            elif command == READ_PIPES:
                compss.read_pipes(*parameters)
            elif command == SET_WALL_CLOCK:
                compss.set_wall_clock(*parameters)
            else:
                raise PyCOMPSsException("Unknown link command")
Exemplo n.º 3
0
def register_ce(core_element):
    """
    Calls the external python library (that calls the bindings-common)
    in order to notify the runtime about a core element that needs to be
    registered.
    Java Examples:

        // METHOD
        System.out.println('Registering METHOD implementation');
        String core_elementSignature = 'methodClass.methodName';
        String impl_signature = 'methodClass.methodName';
        String impl_constraints = 'ComputingUnits:2';
        String impl_type = 'METHOD';
        String[] impl_type_args = new String[] { 'methodClass', 'methodName' };
        rt.registerCoreElement(coreElementSignature, impl_signature, impl_constraints, impl_type, impl_type_args);

        // MPI
        System.out.println('Registering MPI implementation');
        core_elementSignature = 'methodClass1.methodName1';
        impl_signature = 'mpi.MPI';
        impl_constraints = 'StorageType:SSD';
        impl_type = 'MPI';
        impl_type_args = new String[] { 'mpiBinary', 'mpiWorkingDir', 'mpiRunner' };
        rt.registerCoreElement(coreElementSignature, impl_signature, impl_constraints, impl_type, impl_type_args);

        // BINARY
        System.out.println('Registering BINARY implementation');
        core_elementSignature = 'methodClass2.methodName2';
        impl_signature = 'binary.BINARY';
        impl_constraints = 'MemoryType:RAM';
        impl_type = 'BINARY';
        impl_type_args = new String[] { 'binary', 'binaryWorkingDir' };
        rt.registerCoreElement(coreElementSignature, impl_signature, impl_constraints, impl_type, impl_type_args);

        // OMPSS
        System.out.println('Registering OMPSS implementation');
        core_elementSignature = 'methodClass3.methodName3';
        impl_signature = 'ompss.OMPSS';
        impl_constraints = 'ComputingUnits:3';
        impl_type = 'OMPSS';
        impl_type_args = new String[] { 'ompssBinary', 'ompssWorkingDir' };
        rt.registerCoreElement(coreElementSignature, impl_signature, impl_constraints, impl_type, impl_type_args);

        // OPENCL
        System.out.println('Registering OPENCL implementation');
        core_elementSignature = 'methodClass4.methodName4';
        impl_signature = 'opencl.OPENCL';
        impl_constraints = 'ComputingUnits:4';
        impl_type = 'OPENCL';
        impl_type_args = new String[] { 'openclKernel', 'openclWorkingDir' };
        rt.registerCoreElement(coreElementSignature, impl_signature, impl_constraints, impl_type, impl_type_args);

        // VERSIONING
        System.out.println('Registering METHOD implementation');
        core_elementSignature = 'methodClass.methodName';
        impl_signature = 'anotherClass.anotherMethodName';
        impl_constraints = 'ComputingUnits:1';
        impl_type = 'METHOD';
        impl_type_args = new String[] { 'anotherClass', 'anotherMethodName' };
        rt.registerCoreElement(coreElementSignature, impl_signature, impl_constraints, impl_type, impl_type_args);

    ---------------------

    Core Element fields:

    ce_signature: <String> Core Element signature  (e.g.- 'methodClass.methodName')
    impl_signature: <String> Implementation signature (e.g.- 'methodClass.methodName')
    impl_constraints: <Dict> Implementation constraints (e.g.- '{ComputingUnits:2}')
    impl_type: <String> Implementation type ('METHOD' | 'MPI' | 'BINARY' | 'OMPSS' | 'OPENCL')
    impl_type_args: <List(Strings)> Implementation arguments (e.g.- ['methodClass', 'methodName'])

    :param core_element: <CE> Core Element to register
    :return:
    """

    # Retrieve Core element fields
    ce_signature = core_element.get_ce_signature()
    impl_signature = core_element.get_impl_signature()
    impl_constraints = core_element.get_impl_constraints()
    impl_type = core_element.get_impl_type()
    impl_type_args = core_element.get_impl_type_args()

    if __debug__:
        logger.debug("Registering CE with signature: %s" % ce_signature)
        logger.debug("\t - Implementation signature: %s" % impl_signature)

    # Build constraints string from constraints dictionary
    impl_constraints_string = ''
    for key, value in impl_constraints.items():
        if isinstance(value, list):
            val = str(value).replace('\'', '')
            impl_constraints_string += key + ':' + str(val) + ';'
        else:
            impl_constraints_string += key + ':' + str(value) + ';'

    if __debug__:
        logger.debug("\t - Implementation constraints: %s" %
                     impl_constraints_string)
        logger.debug("\t - Implementation type: %s" % impl_type)
    impl_type_args_string = ' '.join(impl_type_args)
    if __debug__:
        logger.debug("\t - Implementation type arguments: %s" %
                     impl_type_args_string)

    # Call runtime with the appropriate parameters
    compss.register_core_element(ce_signature, impl_signature,
                                 impl_constraints_string, impl_type,
                                 impl_type_args)
    if __debug__:
        logger.debug("CE with signature %s registered." % ce_signature)