Exemplo n.º 1
0
def _create_hidra_info(
        source: str, node_pool_size: int,
        monitor_params: parameters.MonitorParams) -> Dict[str, Any]:
    # Creates the HidraInfo object needed to initialize the HiDRA event source.

    # Reads the requested transfer type from the configuration file. If it is not
    # specified there, imports the suggested transfer type from the data extraction
    # layer and use that.

    query_text: str = "QUERY_NEXT"
    data_base_path: str = ""

    base_port: int = monitor_params.get_param(
        group="data_retrieval_layer",
        parameter="hidra_base_port",
        parameter_type=int,
        required=True,
    )

    # Search the configuration file for a HiDRA selection string. If the selection
    # string is not found, use the file extensions from the detector layer as
    # selection string.
    hidra_selection_string: str = monitor_params.get_param(
        group="data_retrieval_layer",
        parameter="hidra_selection_string",
        parameter_type=str,
    )
    if hidra_selection_string is None:
        hidra_selection_string = functions_pilatus.get_file_extensions()

    # Add an empty target at the beginning to cover the collecting node. In this way,
    # the index of a node in the target list will match its OM rank.
    targets: List[List[str]] = [["", "", str(1), ""]]

    # Create the HiDRA query object, as requested by the HiDRA API.
    rank: int
    for rank in range(1, node_pool_size):
        target_entry: List[str] = [
            socket.gethostname(),
            str(base_port + rank),
            str(1),
            hidra_selection_string,
        ]
        targets.append(target_entry)

    query = Transfer(connection_type=query_text,
                     signal_host=source,
                     use_log=False)

    return {
        "query": query,
        "targets": targets,
        "data_base_path": data_base_path,
    }
Exemplo n.º 2
0
def detector_distance_init(
        monitor_parameters: parameters.MonitorParams) -> Any:
    """
    Initializes the psana Detector interface for detector distance data at LCLS.

    At LCLS, detector distance information is recovered from an Epics variable which
    reports the position of a stage. This function initializes the relevant Detector
    interface using the Epics variable identified by the
    'psana_detector_distance_epics_name' entry in the 'data_retrieval_layer' parameter
    group of the configuration file.

    Arguments:

        monitor_parameters: A [MonitorParams]
            [om.utils.parameters.MonitorParams] object storing the OM monitor
            parameters from the configuration file.

    Returns:

        A psana object that can be used later to retrieve the data.
    """
    return psana.Detector(
        monitor_parameters.get_param(
            group="data_retrieval_layer",
            parameter="psana_detector_distance_epics_name",
            parameter_type=str,
            required=True,
        ))
Exemplo n.º 3
0
def detector_data_init(monitor_parameters: parameters.MonitorParams) -> Any:
    """
    Initializes the psana Detector interface for x-ray detector data at LCLS.

    This function initializes the Detector interface for the detector identified by the
    'psana_detector_name' entry in the 'data_retrieval_layer' parameter group of the
    configuration file.

    Arguments:

        monitor_parameters: A [MonitorParams]
            [om.utils.parameters.MonitorParams] object storing the OM monitor
            parameters from the configuration file.

    Returns:

        A psana object that can be used later to retrieve the data.
    """
    return psana.Detector(
        monitor_parameters.get_param(
            group="data_retrieval_layer",
            parameter="psana_detector_name",
            parameter_type=str,
            required=True,
        ))
Exemplo n.º 4
0
def xrays_active_init(monitor_parameters: parameters.MonitorParams) -> Any:
    """
    Initializes the psana Detector interface for the x-ray beam status at LCLS.

    At LCLS, the status of the x-ray beam is determined by monitoring an EVR event
    source. This function initializes the Detector interface for the EVR event source
    identified by the 'psana_evr_source_name' entry in the 'data_retrieval_layer'
    parameter group of the configuration file.

    Arguments:

        monitor_parameters: A [MonitorParams]
            [om.utils.parameters.MonitorParams] object storing the OM monitor
            parameters from the configuration file.

    Returns:

        A psana object that can be used later to retrieve the data.
    """
    evr_source_name = monitor_parameters.get_param(
        group="data_retrieval_layer",
        parameter="psana_evr_source_name",
        parameter_type=str,
        required=True,
    )

    return psana.Detector(evr_source_name)