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path: root/apps/pci/optimizers/pci_opt_processor.py
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# -------------------------------------------------------------------------
#   Copyright (c) 2018 AT&T Intellectual Property
#
#   Licensed under the Apache License, Version 2.0 (the "License");
#   you may not use this file except in compliance with the License.
#   You may obtain a copy of the License at
#
#       http://www.apache.org/licenses/LICENSE-2.0
#
#   Unless required by applicable law or agreed to in writing, software
#   distributed under the License is distributed on an "AS IS" BASIS,
#   WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
#   See the License for the specific language governing permissions and
#   limitations under the License.
#
# -------------------------------------------------------------------------
#

import traceback

from onaplogging.mdcContext import MDC
from requests import RequestException

from osdf.logging.osdf_logging import metrics_log, MH, error_log
from osdf.operation.error_handling import build_json_error_body
from osdf.utils.interfaces import get_rest_client
from .configdb import request as config_request
from .solver.optimizer import pci_optimize as optimize
from .solver.pci_utils import get_cell_id, get_pci_value
from osdf.utils.mdc_utils import mdc_from_json

"""
This application generates PCI Optimization API calls using the information received from PCI-Handler-MS, SDN-C
and Policy.
"""


def process_pci_optimation(request_json, osdf_config, flat_policies):
    """
    Process a PCI request from a Client (build config-db, policy and  API call, make the call, return result)
    :param req_object: Request parameters from the client
    :param osdf_config: Configuration specific to OSDF application (core + deployment)
    :param flat_policies: policies related to pci (fetched based on request)
    :return: response from PCI Opt
    """
    try:
        mdc_from_json(request_json)
        rc = get_rest_client(request_json, service="pcih")
        req_id = request_json["requestInfo"]["requestId"]
        cell_info_list, network_cell_info = config_request(request_json, osdf_config, flat_policies)
        pci_response = get_solutions(cell_info_list, network_cell_info, request_json)

        metrics_log.info(MH.inside_worker_thread(req_id))
    except Exception as err:
        error_log.error("Error for {} {}".format(req_id, traceback.format_exc()))

        try:
            body = build_json_error_body(err)
            metrics_log.info(MH.sending_response(req_id, "ERROR"))
            rc.request(json=body, noresponse=True)
        except RequestException as err:
            MDC.put('requestID',req_id)
            error_log.error("Error sending asynchronous notification for {} {}".format(req_id, traceback.format_exc()))
        raise err


    try:
        metrics_log.info(MH.calling_back_with_body(req_id, rc.url, pci_response))
        rc.request(json=pci_response, noresponse=True)
    except RequestException:  # can't do much here but log it and move on
        error_log.error("Error sending asynchronous notification for {} {}".format(req_id, traceback.format_exc()))


def get_solutions(cell_info_list, network_cell_info, request_json):
    status, pci_solutions, anr_solutions = build_solution_list(cell_info_list, network_cell_info, request_json)
    return {
        "transactionId": request_json['requestInfo']['transactionId'],
        "requestId": request_json["requestInfo"]["requestId"],
        "requestStatus": "completed",
        "statusMessage": status,
        "solutions": {
            'networkId': request_json['cellInfo']['networkId'],
            'pciSolutions': pci_solutions,
            'anrSolutions': anr_solutions
        }
    }


def build_solution_list(cell_info_list, network_cell_info, request_json):
    status = "success"
    req_id = request_json["requestInfo"]["requestId"]
    try:
        opt_solution = optimize(network_cell_info, cell_info_list, request_json)
        pci_solutions = build_pci_solution(network_cell_info, opt_solution['pci'])
        anr_solutions = build_anr_solution(network_cell_info, opt_solution.get('removables', {}))
    except RuntimeError:
        error_log.error("Failed finding solution for {} {}".format(req_id, traceback.format_exc()))
        status = "failed"
    return status, pci_solutions, anr_solutions


def build_pci_solution(network_cell_info, pci_solution):
    pci_solutions = []
    for k, v in pci_solution.items():
        old_pci = get_pci_value(network_cell_info, k)
        if old_pci != v:
            response = {
                'cellId': get_cell_id(network_cell_info, k),
                'pci': v
            }
            pci_solutions.append(response)
    return pci_solutions


def build_anr_solution(network_cell_info, removables):
    anr_solutions = []
    for k, v in removables.items():
        response = {
            'cellId': get_cell_id(network_cell_info, k),
            'removeableNeighbors': list(map(lambda x: get_cell_id(network_cell_info, x), v))
        }
        anr_solutions.append(response)
    return anr_solutions