From f30da9513ae0501f453ee93729b381270fad0a2b Mon Sep 17 00:00:00 2001 From: krishnaa96 Date: Tue, 10 Mar 2020 10:55:13 +0530 Subject: Add generic conductor interface Issue-ID: OPTFRA-715 Signed-off-by: krishnaa96 Change-Id: I84218ab65e645a90d2ff1c365bdde1e06ab27d2e --- apps/placement/optimizers/conductor/api_builder.py | 107 ------- apps/placement/optimizers/conductor/conductor.py | 202 ------------ .../optimizers/conductor/remote_opt_processor.py | 94 +++++- apps/placement/optimizers/conductor/translation.py | 347 --------------------- 4 files changed, 91 insertions(+), 659 deletions(-) delete mode 100644 apps/placement/optimizers/conductor/api_builder.py delete mode 100755 apps/placement/optimizers/conductor/conductor.py delete mode 100644 apps/placement/optimizers/conductor/translation.py (limited to 'apps/placement/optimizers') diff --git a/apps/placement/optimizers/conductor/api_builder.py b/apps/placement/optimizers/conductor/api_builder.py deleted file mode 100644 index 398db8d..0000000 --- a/apps/placement/optimizers/conductor/api_builder.py +++ /dev/null @@ -1,107 +0,0 @@ -# ------------------------------------------------------------------------- -# Copyright (c) 2015-2017 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 json - -from jinja2 import Template - -import apps.placement.optimizers.conductor.translation as tr -from osdf.adapters.policy.utils import group_policies_gen -from osdf.utils.programming_utils import list_flatten - - -def _build_parameters(group_policies, request_json): - """ - Function prepares parameters section for has request - :param group_policies: filtered policies - :param request_json: parameter data received from a client - :return: - """ - initial_params = tr.get_opt_query_data(request_json, group_policies['onap.policies.optimization.QueryPolicy']) - params = dict() - params.update({"REQUIRED_MEM": initial_params.pop("requiredMemory", "")}) - params.update({"REQUIRED_DISK": initial_params.pop("requiredDisk", "")}) - params.update({"customer_lat": initial_params.pop("customerLatitude", 0.0)}) - params.update({"customer_long": initial_params.pop("customerLongitude", 0.0)}) - params.update({"service_name": request_json['serviceInfo']['serviceName']}) - params.update({"service_id": request_json['serviceInfo']['serviceInstanceId']}) - - for key, val in initial_params.items(): - if val and val != "": - params.update({key: val}) - - return params - - -def conductor_api_builder(request_json, flat_policies: list, local_config, - template="apps/placement/templates/conductor_interface.json"): - """Build an OSDF southbound API call for HAS-Conductor/Placement optimization - :param request_json: parameter data received from a client - :param flat_policies: policy data received from the policy platform (flat policies) - :param template: template to generate southbound API call to conductor - :param local_config: local configuration file with pointers for the service specific information - :param prov_status: provStatus retrieved from Subscriber policy - :return: json to be sent to Conductor/placement optimization - """ - templ = Template(open(template).read()) - gp = group_policies_gen(flat_policies, local_config) - demand_vnf_name_list = [] - for placementDemand in request_json['placementInfo']['placementDemands']: - demand_vnf_name_list.append(placementDemand['resourceModuleName'].lower()) - demand_list = tr.gen_demands( - request_json, gp['onap.policies.optimization.VnfPolicy']) - attribute_policy_list = tr.gen_attribute_policy( - demand_vnf_name_list, gp['onap.policies.optimization.AttributePolicy']) - distance_to_location_policy_list = tr.gen_distance_to_location_policy( - demand_vnf_name_list, gp['onap.policies.optimization.DistancePolicy']) - inventory_policy_list = tr.gen_inventory_group_policy( - demand_vnf_name_list, gp['onap.policies.optimization.InventoryGroupPolicy']) - resource_instance_policy_list = tr.gen_resource_instance_policy( - demand_vnf_name_list, gp['onap.policies.optimization.ResourceInstancePolicy']) - resource_region_policy_list = tr.gen_resource_region_policy( - demand_vnf_name_list, gp['onap.policies.optimization.ResourceRegionPolicy']) - zone_policy_list = tr.gen_zone_policy( - demand_vnf_name_list, gp['onap.policies.optimization.AffinityPolicy']) - optimization_policy_list = tr.gen_optimization_policy( - demand_vnf_name_list, gp['onap.policies.optimization.OptimizationPolicy']) - reservation_policy_list = tr.gen_reservation_policy( - demand_vnf_name_list, gp['onap.policies.optimization.InstanceReservationPolicy']) - capacity_policy_list = tr.gen_capacity_policy( - demand_vnf_name_list, gp['onap.policies.optimization.Vim_fit']) - hpa_policy_list = tr.gen_hpa_policy( - demand_vnf_name_list, gp['onap.policies.optimization.HpaPolicy']) - req_params_dict = _build_parameters(gp, request_json) - conductor_policies = [attribute_policy_list, distance_to_location_policy_list, inventory_policy_list, - resource_instance_policy_list, resource_region_policy_list, zone_policy_list, - reservation_policy_list, capacity_policy_list, hpa_policy_list] - filtered_policies = [x for x in conductor_policies if len(x) > 0] - policy_groups = list_flatten(filtered_policies) - req_info = request_json['requestInfo'] - request_type = req_info.get('requestType', None) - rendered_req = templ.render( - requestType=request_type, - demand_list=demand_list, - policy_groups=policy_groups, - optimization_policies=optimization_policy_list, - name=req_info['requestId'], - timeout=req_info['timeout'], - limit=req_info['numSolutions'], - request_params=req_params_dict, - json=json) - json_payload = json.dumps(json.loads(rendered_req)) # need this because template's JSON is ugly! - return json_payload diff --git a/apps/placement/optimizers/conductor/conductor.py b/apps/placement/optimizers/conductor/conductor.py deleted file mode 100755 index 05d1641..0000000 --- a/apps/placement/optimizers/conductor/conductor.py +++ /dev/null @@ -1,202 +0,0 @@ -# ------------------------------------------------------------------------- -# Copyright (c) 2015-2017 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. -# -# ------------------------------------------------------------------------- -# - -""" -This application generates conductor API calls using the information received from SO and Policy platform. -""" - -import json -import time - -from jinja2 import Template -from requests import RequestException - -from apps.placement.optimizers.conductor.api_builder import conductor_api_builder -from osdf.logging.osdf_logging import debug_log -from osdf.utils.interfaces import RestClient -from osdf.operation.exceptions import BusinessException - - -def request(req_object, osdf_config, flat_policies): - """ - Process a placement request from a Client (build Conductor API call, make the call, return result) - :param req_object: Request parameters from the client - :param osdf_config: Configuration specific to SNIRO application (core + deployment) - :param flat_policies: policies related to placement (fetched based on request) - :param prov_status: provStatus retrieved from Subscriber policy - :return: response from Conductor (accounting for redirects from Conductor service - """ - config = osdf_config.deployment - local_config = osdf_config.core - uid, passwd = config['conductorUsername'], config['conductorPassword'] - conductor_url = config['conductorUrl'] - req_id = req_object['requestInfo']['requestId'] - transaction_id = req_object['requestInfo']['transactionId'] - headers = dict(transaction_id=transaction_id) - placement_ver_enabled = config.get('placementVersioningEnabled', False) - - if placement_ver_enabled: - cond_minor_version = config.get('conductorMinorVersion', None) - if cond_minor_version is not None: - x_minor_version = str(cond_minor_version) - headers.update({'X-MinorVersion': x_minor_version}) - debug_log.debug("Versions set in HTTP header to conductor: X-MinorVersion: {} ".format(x_minor_version)) - - max_retries = config.get('conductorMaxRetries', 30) - ping_wait_time = config.get('conductorPingWaitTime', 60) - - rc = RestClient(userid=uid, passwd=passwd, method="GET", log_func=debug_log.debug, headers=headers) - conductor_req_json_str = conductor_api_builder(req_object, flat_policies, local_config) - conductor_req_json = json.loads(conductor_req_json_str) - - debug_log.debug("Sending first Conductor request for request_id {}".format(req_id)) - resp, raw_resp = initial_request_to_conductor(rc, conductor_url, conductor_req_json) - # Very crude way of keeping track of time. - # We are not counting initial request time, first call back, or time for HTTP request - total_time, ctr = 0, 2 - client_timeout = req_object['requestInfo']['timeout'] - configured_timeout = max_retries * ping_wait_time - max_timeout = min(client_timeout, configured_timeout) - - while True: # keep requesting conductor till we get a result or we run out of time - if resp is not None: - if resp["plans"][0].get("status") in ["error"]: - raise RequestException(response=raw_resp, request=raw_resp.request) - - if resp["plans"][0].get("status") in ["done", "not found"]: - if resp["plans"][0].get("recommendations"): - return conductor_response_processor(resp, raw_resp, req_id) - else: # "solved" but no solutions found - return conductor_no_solution_processor(resp, raw_resp, req_id) - new_url = resp['plans'][0]['links'][0][0]['href'] # TODO: check why a list of lists - - if total_time >= max_timeout: - raise BusinessException("Conductor could not provide a solution within {} seconds," - "this transaction is timing out".format(max_timeout)) - time.sleep(ping_wait_time) - ctr += 1 - debug_log.debug("Attempt number {} url {}; prior status={}".format(ctr, new_url, resp['plans'][0]['status'])) - total_time += ping_wait_time - - try: - raw_resp = rc.request(new_url, raw_response=True) - resp = raw_resp.json() - except RequestException as e: - debug_log.debug("Conductor attempt {} for request_id {} has failed because {}".format(ctr, req_id, str(e))) - - -def initial_request_to_conductor(rc, conductor_url, conductor_req_json): - """First steps in the request-redirect chain in making a call to Conductor - :param rc: REST client object for calling conductor - :param conductor_url: conductor's base URL to submit a placement request - :param conductor_req_json: request json object to send to Conductor - :return: URL to check for follow up (similar to redirects); we keep checking these till we get a result/error - """ - debug_log.debug("Payload to Conductor: {}".format(json.dumps(conductor_req_json))) - raw_resp = rc.request(url=conductor_url, raw_response=True, method="POST", json=conductor_req_json) - resp = raw_resp.json() - if resp["status"] != "template": - raise RequestException(response=raw_resp, request=raw_resp.request) - time.sleep(10) # 10 seconds wait time to avoid being too quick! - plan_url = resp["links"][0][0]["href"] - debug_log.debug("Attempting to read the plan from the conductor provided url {}".format(plan_url)) - raw_resp = rc.request(raw_response=True, url=plan_url) # TODO: check why a list of lists for links - resp = raw_resp.json() - - if resp["plans"][0]["status"] in ["error"]: - raise RequestException(response=raw_resp, request=raw_resp.request) - return resp, raw_resp # now the caller of this will handle further follow-ups - - -def conductor_response_processor(conductor_response, raw_response, req_id): - """Build a response object to be sent to client's callback URL from Conductor's response - This includes Conductor's placement optimization response, and required ASDC license artifacts - - :param conductor_response: JSON response from Conductor - :param raw_response: Raw HTTP response corresponding to above - :param req_id: Id of a request - :return: JSON object that can be sent to the client's callback URL - """ - composite_solutions = [] - name_map = {"physical-location-id": "cloudClli", "host_id": "vnfHostName", - "cloud_version": "cloudVersion", "cloud_owner": "cloudOwner", - "cloud": "cloudRegionId", "service": "serviceInstanceId", "is_rehome": "isRehome", - "location_id": "locationId", "location_type": "locationType", "directives": "oof_directives"} - for reco in conductor_response['plans'][0]['recommendations']: - for resource in reco.keys(): - c = reco[resource]['candidate'] - solution = { - 'resourceModuleName': resource, - 'serviceResourceId': reco[resource].get('service_resource_id', ""), - 'solution': {"identifierType": name_map.get(c['inventory_type'], c['inventory_type']), - 'identifiers': [c['candidate_id']], - 'cloudOwner': c.get('cloud_owner', "")}, - 'assignmentInfo': [] - } - for key, value in c.items(): - if key in ["location_id", "location_type", "is_rehome", "host_id"]: - try: - solution['assignmentInfo'].append({"key": name_map.get(key, key), "value": value}) - except KeyError: - debug_log.debug("The key[{}] is not mapped and will not be returned in assignment info".format(key)) - - for key, value in reco[resource]['attributes'].items(): - try: - solution['assignmentInfo'].append({"key": name_map.get(key, key), "value": value}) - except KeyError: - debug_log.debug("The key[{}] is not mapped and will not be returned in assignment info".format(key)) - composite_solutions.append(solution) - - request_status = "completed" if conductor_response['plans'][0]['status'] == "done" \ - else conductor_response['plans'][0]['status'] - transaction_id = raw_response.headers.get('transaction_id', "") - status_message = conductor_response.get('plans')[0].get('message', "") - - solution_info = {} - if composite_solutions: - solution_info.setdefault('placementSolutions', []) - solution_info['placementSolutions'].append(composite_solutions) - - resp = { - "transactionId": transaction_id, - "requestId": req_id, - "requestStatus": request_status, - "statusMessage": status_message, - "solutions": solution_info - } - return resp - - -def conductor_no_solution_processor(conductor_response, raw_response, request_id, - template_placement_response="templates/plc_opt_response.jsont"): - """Build a response object to be sent to client's callback URL from Conductor's response - This is for case where no solution is found - - :param conductor_response: JSON response from Conductor - :param raw_response: Raw HTTP response corresponding to above - :param request_id: request Id associated with the client request (same as conductor response's "name") - :param template_placement_response: the template for generating response to client (plc_opt_response.jsont) - :return: JSON object that can be sent to the client's callback URL - """ - status_message = conductor_response["plans"][0].get("message") - templ = Template(open(template_placement_response).read()) - return json.loads(templ.render(composite_solutions=[], requestId=request_id, license_solutions=[], - transactionId=raw_response.headers.get('transaction_id', ""), - requestStatus="completed", statusMessage=status_message, json=json)) - - diff --git a/apps/placement/optimizers/conductor/remote_opt_processor.py b/apps/placement/optimizers/conductor/remote_opt_processor.py index a08f3a4..0b5cb16 100644 --- a/apps/placement/optimizers/conductor/remote_opt_processor.py +++ b/apps/placement/optimizers/conductor/remote_opt_processor.py @@ -1,5 +1,6 @@ # ------------------------------------------------------------------------- # Copyright (c) 2015-2017 AT&T Intellectual Property +# Copyright (C) 2020 Wipro Limited. # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. @@ -16,17 +17,95 @@ # ------------------------------------------------------------------------- # +import json +from jinja2 import Template from requests import RequestException import traceback from osdf.operation.error_handling import build_json_error_body -from osdf.logging.osdf_logging import metrics_log, MH, error_log -from apps.placement.optimizers.conductor import conductor +from osdf.logging.osdf_logging import metrics_log, MH, error_log, debug_log +from osdf.adapters.conductor import conductor from apps.license.optimizers.simple_license_allocation import license_optim from osdf.utils.interfaces import get_rest_client from osdf.utils.mdc_utils import mdc_from_json +def conductor_response_processor(conductor_response, req_id, transaction_id): + """Build a response object to be sent to client's callback URL from Conductor's response + This includes Conductor's placement optimization response, and required ASDC license artifacts + + :param conductor_response: JSON response from Conductor + :param raw_response: Raw HTTP response corresponding to above + :param req_id: Id of a request + :return: JSON object that can be sent to the client's callback URL + """ + composite_solutions = [] + name_map = {"physical-location-id": "cloudClli", "host_id": "vnfHostName", + "cloud_version": "cloudVersion", "cloud_owner": "cloudOwner", + "cloud": "cloudRegionId", "service": "serviceInstanceId", "is_rehome": "isRehome", + "location_id": "locationId", "location_type": "locationType", "directives": "oof_directives"} + for reco in conductor_response['plans'][0]['recommendations']: + for resource in reco.keys(): + c = reco[resource]['candidate'] + solution = { + 'resourceModuleName': resource, + 'serviceResourceId': reco[resource].get('service_resource_id', ""), + 'solution': {"identifierType": name_map.get(c['inventory_type'], c['inventory_type']), + 'identifiers': [c['candidate_id']], + 'cloudOwner': c.get('cloud_owner', "")}, + 'assignmentInfo': [] + } + for key, value in c.items(): + if key in ["location_id", "location_type", "is_rehome", "host_id"]: + try: + solution['assignmentInfo'].append({"key": name_map.get(key, key), "value": value}) + except KeyError: + debug_log.debug("The key[{}] is not mapped and will not be returned in assignment info".format(key)) + + for key, value in reco[resource]['attributes'].items(): + try: + solution['assignmentInfo'].append({"key": name_map.get(key, key), "value": value}) + except KeyError: + debug_log.debug("The key[{}] is not mapped and will not be returned in assignment info".format(key)) + composite_solutions.append(solution) + + request_status = "completed" if conductor_response['plans'][0]['status'] == "done" \ + else conductor_response['plans'][0]['status'] + status_message = conductor_response.get('plans')[0].get('message', "") + + solution_info = {} + if composite_solutions: + solution_info.setdefault('placementSolutions', []) + solution_info['placementSolutions'].append(composite_solutions) + + resp = { + "transactionId": transaction_id, + "requestId": req_id, + "requestStatus": request_status, + "statusMessage": status_message, + "solutions": solution_info + } + return resp + + +def conductor_no_solution_processor(conductor_response, request_id, transaction_id, + template_placement_response="templates/plc_opt_response.jsont"): + """Build a response object to be sent to client's callback URL from Conductor's response + This is for case where no solution is found + + :param conductor_response: JSON response from Conductor + :param raw_response: Raw HTTP response corresponding to above + :param request_id: request Id associated with the client request (same as conductor response's "name") + :param template_placement_response: the template for generating response to client (plc_opt_response.jsont) + :return: JSON object that can be sent to the client's callback URL + """ + status_message = conductor_response["plans"][0].get("message") + templ = Template(open(template_placement_response).read()) + return json.loads(templ.render(composite_solutions=[], requestId=request_id, license_solutions=[], + transactionId=transaction_id, + requestStatus="completed", statusMessage=status_message, json=json)) + + def process_placement_opt(request_json, policies, osdf_config): """Perform the work for placement optimization (e.g. call SDC artifact and make conductor request) NOTE: there is scope to make the requests to policy asynchronous to speed up overall performance @@ -51,7 +130,16 @@ def process_placement_opt(request_json, policies, osdf_config): # Conductor only handles placement, only call Conductor if placementDemands exist if request_json.get('placementInfo', {}).get('placementDemands'): metrics_log.info(MH.requesting("placement/conductor", req_id)) - placement_response = conductor.request(request_json, osdf_config, policies) + req_info = request_json['requestInfo'] + demands = request_json['placementInfo']['placementDemands'] + request_parameters = request_json['placementInfo']['requestParameters'] + service_info = request_json['serviceInfo'] + resp = conductor.request(req_info, demands, request_parameters, service_info, + osdf_config, policies) + if resp["plans"][0].get("recommendations"): + placement_response = conductor_response_processor(resp, req_id, transaction_id) + else: # "solved" but no solutions found + placement_response = conductor_no_solution_processor(resp, req_id, transaction_id) if license_info: # Attach license solution if it exists placement_response['solutionInfo']['licenseInfo'] = license_info else: # License selection only scenario diff --git a/apps/placement/optimizers/conductor/translation.py b/apps/placement/optimizers/conductor/translation.py deleted file mode 100644 index d637152..0000000 --- a/apps/placement/optimizers/conductor/translation.py +++ /dev/null @@ -1,347 +0,0 @@ -# ------------------------------------------------------------------------- -# Copyright (c) 2015-2017 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 copy -import json -import re - -import yaml - -from osdf.utils.programming_utils import dot_notation - -policy_config_mapping = yaml.safe_load(open('config/has_config.yaml')).get('policy_config_mapping') - - -def get_opt_query_data(req_json, policies): - """ - Fetch service and order specific details from the requestParameters field of a request. - :param req_json: a request file - :param policies: A set of policies - :return: A dictionary with service and order-specific attributes. - """ - req_param_dict = {} - if 'requestParameters' in req_json["placementInfo"]: - req_params = req_json["placementInfo"]["requestParameters"] - for policy in policies: - for queryProp in policy[list(policy.keys())[0]]['properties']['queryProperties']: - attr_val = queryProp['value'] if 'value' in queryProp and queryProp['value'] != "" \ - else dot_notation(req_params, queryProp['attribute_location']) - if attr_val is not None: - req_param_dict.update({queryProp['attribute']: attr_val}) - return req_param_dict - - -def gen_optimization_policy(vnf_list, optimization_policy): - """Generate optimization policy details to pass to Conductor - :param vnf_list: List of vnf's to used in placement request - :param optimization_policy: optimization objective policy information provided in the incoming request - :return: List of optimization objective policies in a format required by Conductor - """ - optimization_policy_list = [] - for policy in optimization_policy: - content = policy[list(policy.keys())[0]]['properties'] - parameter_list = [] - parameters = ["cloud_version", "hpa_score"] - - for attr in content['objectiveParameter']['parameterAttributes']: - parameter = attr['parameter'] if attr['parameter'] in parameters else attr['parameter']+"_between" - default, vnfs = get_matching_vnfs(attr['resources'], vnf_list) - for vnf in vnfs: - value = [vnf] if attr['parameter'] in parameters else [attr['customerLocationInfo'], vnf] - parameter_list.append({ - attr['operator']: [attr['weight'], {parameter: value}] - }) - - optimization_policy_list.append({ - content['objective']: {content['objectiveParameter']['operator']: parameter_list } - }) - return optimization_policy_list - - -def get_matching_vnfs(resources, vnf_list, match_type="intersection"): - """Get a list of matching VNFs from the list of resources - :param resources: - :param vnf_list: List of vnfs to used in placement request - :param match_type: "intersection" or "all" or "any" (any => send all_vnfs if there is any intersection) - :return: List of matching VNFs - """ - # Check if it is a default policy - default = True if resources == [] else False - resources_lcase = [x.lower() for x in resources] if not default else [x.lower() for x in vnf_list] - if match_type == "all": # don't bother with any comparisons - return default, resources if set(resources_lcase) <= set(vnf_list) else None - common_vnfs = set(vnf_list) & set(resources_lcase) if not default else set(vnf_list) - common_resources = [x for x in resources if x.lower() in common_vnfs] if not default else list(common_vnfs) - if match_type == "intersection": # specifically requested intersection - return default, list(common_resources) - return default, resources if common_vnfs else None # "any" match => all resources to be returned - - -def gen_policy_instance(vnf_list, resource_policy, match_type="intersection", rtype=None): - """Generate a list of policies - :param vnf_list: List of vnf's to used in placement request - :param resource_policy: policy for this specific resource - :param match_type: How to match the vnf_names with the vnf_list (intersection or "any") - intersection => return intersection; "any" implies return all vnf_names if intersection is not null - :param rtype: resource type (e.g. resourceRegionProperty or resourceInstanceProperty) - None => no controller information added to the policy specification to Conductor - :return: resource policy list in a format required by Conductor - """ - resource_policy_list = [] - related_policies = [] - for policy in resource_policy: - pc = policy[list(policy.keys())[0]] - default, demands = get_matching_vnfs(pc['properties']['resources'], vnf_list, match_type=match_type) - resource = {pc['properties']['identity']: {'type': map_constraint_type(pc['type']), 'demands': demands}} - - if rtype: - resource[pc['properties']['identity']]['properties'] = {'controller': pc[rtype]['controller'], - 'request': json.loads(pc[rtype]['request'])} - if demands and len(demands) != 0: - # The default policy shall not override the specific policy that already appended - if default: - for d in demands: - resource_repeated = True \ - if {pc['properties']['identity']: {'type': map_constraint_type(pc['type']), 'demands': d}} \ - in resource_policy_list else False - if resource_repeated: - continue - else: - resource_policy_list.append( - {pc['properties']['identity']: {'type': map_constraint_type(pc['type']), 'demands': d }}) - policy[list(policy.keys())[0]]['properties']['resources'] = d - related_policies.append(policy) - # Need to override the default policies, here delete the outdated policy stored in the db - if resource in resource_policy_list: - for pc in related_policies: - if pc[list(pc.keys()[0])]['properties']['resources'] == resource: - related_policies.remove(pc) - resource_policy_list.remove(resource) - related_policies.append(policy) - resource_policy_list.append(resource) - - return resource_policy_list, related_policies - - -def gen_resource_instance_policy(vnf_list, resource_instance_policy): - """Get policies governing resource instances in order to populate the Conductor API call""" - cur_policies, _ = gen_policy_instance(vnf_list, resource_instance_policy, rtype='resourceInstanceProperty') - return cur_policies - - -def gen_resource_region_policy(vnf_list, resource_region_policy): - """Get policies governing resource region in order to populate the Conductor API call""" - cur_policies, _ = gen_policy_instance(vnf_list, resource_region_policy, rtype='resourceRegionProperty') - return cur_policies - - -def gen_inventory_group_policy(vnf_list, inventory_group_policy): - """Get policies governing inventory group in order to populate the Conductor API call""" - cur_policies, _ = gen_policy_instance(vnf_list, inventory_group_policy, rtype=None) - return cur_policies - - -def gen_reservation_policy(vnf_list, reservation_policy): - """Get policies governing resource instances in order to populate the Conductor API call""" - cur_policies, _ = gen_policy_instance(vnf_list, reservation_policy, rtype='instanceReservationProperty') - return cur_policies - - -def gen_distance_to_location_policy(vnf_list, distance_to_location_policy): - """Get policies governing distance-to-location for VNFs in order to populate the Conductor API call""" - cur_policies, related_policies = gen_policy_instance(vnf_list, distance_to_location_policy, rtype=None) - for p_new, p_main in zip(cur_policies, related_policies): # add additional fields to each policy - properties = p_main[list(p_main.keys())[0]]['properties']['distanceProperties'] - pcp_d = properties['distance'] - p_new[p_main[list(p_main.keys())[0]]['properties']['identity']]['properties'] = { - 'distance': pcp_d['operator'] + " " + pcp_d['value'].lower() + " " + pcp_d['unit'].lower(), - 'location': properties['locationInfo'] - } - return cur_policies - - -def gen_attribute_policy(vnf_list, attribute_policy): - """Get policies governing attributes of VNFs in order to populate the Conductor API call""" - cur_policies, related_policies = gen_policy_instance(vnf_list, attribute_policy, rtype=None) - for p_new, p_main in zip(cur_policies, related_policies): # add additional fields to each policy - properties = p_main[list(p_main.keys())[0]]['properties']['attributeProperties'] - attribute_mapping = policy_config_mapping['filtering_attributes'] # wanted attributes and mapping - p_new[p_main[list(p_main.keys())[0]]['properties']['identity']]['properties'] = { - 'evaluate': dict((attribute_mapping[k], properties.get(k) - if k != "cloudRegion" else gen_cloud_region(properties)) - for k in attribute_mapping.keys()) - } - return cur_policies # cur_policies gets updated in place... - - -def gen_zone_policy(vnf_list, zone_policy): - """Get zone policies in order to populate the Conductor API call""" - cur_policies, related_policies = gen_policy_instance(vnf_list, zone_policy, match_type="all", rtype=None) - for p_new, p_main in zip(cur_policies, related_policies): # add additional fields to each policy - pmz = p_main[list(p_main.keys())[0]]['properties']['affinityProperties'] - p_new[p_main[list(p_main.keys())[0]]['properties']['identity']]['properties'] = \ - {'category': pmz['category'], 'qualifier': pmz['qualifier']} - return cur_policies - - -def gen_capacity_policy(vnf_list, capacity_policy): - """Get zone policies in order to populate the Conductor API call""" - cur_policies, related_policies = gen_policy_instance(vnf_list, capacity_policy, rtype=None) - for p_new, p_main in zip(cur_policies, related_policies): # add additional fields to each policy - pmz = p_main[list(p_main.keys())[0]]['properties']['capacityProperty'] - p_new[p_main[list(p_main.keys())[0]]['properties']['identity']]['properties'] = \ - {"controller": pmz['controller'], 'request': json.loads(pmz['request'])} - return cur_policies - - -def gen_hpa_policy(vnf_list, hpa_policy): - """Get zone policies in order to populate the Conductor API call""" - cur_policies, related_policies = gen_policy_instance(vnf_list, hpa_policy, rtype=None) - for p_new, p_main in zip(cur_policies, related_policies): # add additional fields to each policy - p_new[p_main[list(p_main.keys())[0]]['properties']['identity']]['properties'] = \ - {'evaluate': p_main[list(p_main.keys())[0]]['properties']['flavorFeatures']} - return cur_policies - - -def get_augmented_policy_attributes(policy_property, demand): - """Get policy attributes and augment them using policy_config_mapping and demand information""" - attributes = copy.copy(policy_property['attributes']) - remapping = policy_config_mapping['remapping'] - extra = dict((x, demand['resourceModelInfo'][remapping[x]]) for x in attributes if x in remapping) - attributes.update(extra) - return attributes - - -def get_candidates_demands(demand): - """Get demands related to candidates; e.g. excluded/required""" - res = {} - for k, v in policy_config_mapping['candidates'].items(): - if k not in demand: - continue - res[v] = [{'inventory_type': x['identifierType'], 'candidate_id': x['identifiers']} for x in demand[k]] - return res - - -def get_policy_properties(demand, policies): - """Get policy_properties for cases where there is a match with the demand""" - for policy in policies: - policy_demands = set([x.lower() for x in policy[list(policy.keys())[0]]['properties']['resources']]) - if policy_demands and demand['resourceModuleName'].lower() not in policy_demands: - continue # no match for this policy - elif policy_demands == set(): # Append resource name for default policy - policy[list(policy.keys())[0]]['properties'].update(resources=list(demand.get('resourceModuleName'))) - for policy_property in policy[list(policy.keys())[0]]['properties']['vnfProperties']: - yield policy_property - - -def get_demand_properties(demand, policies): - """Get list demand properties objects (named tuples) from policy""" - demand_properties = [] - for policy_property in get_policy_properties(demand, policies): - prop = dict(inventory_provider=policy_property['inventoryProvider'], - inventory_type=policy_property['inventoryType'], - service_type=demand['serviceResourceId'], - service_resource_id=demand['serviceResourceId']) - - prop.update({'unique': policy_property['unique']} if 'unique' in policy_property and - policy_property['unique'] else {}) - prop['filtering_attributes'] = dict() - prop['filtering_attributes'].update({'global-customer-id': policy_property['customerId']} - if policy_property['customerId'] else {}) - prop['filtering_attributes'].update({'model-invariant-id': demand['resourceModelInfo']['modelInvariantId']} - if demand['resourceModelInfo']['modelInvariantId'] else {}) - prop['filtering_attributes'].update({'model-version-id': demand['resourceModelInfo']['modelVersionId']} - if demand['resourceModelInfo']['modelVersionId'] else {}) - prop['filtering_attributes'].update({'equipment-role': policy_property['equipmentRole']} - if policy_property['equipmentRole'] else {}) - - if policy_property.get('attributes'): - for attr_key, attr_val in policy_property['attributes'].items(): - update_converted_attribute(attr_key, attr_val, prop, 'filtering_attributes') - if policy_property.get('passthroughAttributes'): - prop['passthrough_attributes'] = dict() - for attr_key, attr_val in policy_property['passthroughAttributes'].items(): - update_converted_attribute(attr_key, attr_val, prop, 'passthrough_attributes') - - prop.update(get_candidates_demands(demand)) - demand_properties.append(prop) - return demand_properties - - -def update_converted_attribute(attr_key, attr_val, properties, attribute_type): - """ - Updates dictonary of attributes with one specified in the arguments. - Automatically translates key namr from camelCase to hyphens - :param attribute_type: attribute section name - :param attr_key: key of the attribute - :param attr_val: value of the attribute - :param properties: dictionary with attributes to update - :return: - """ - if attr_val: - remapping = policy_config_mapping[attribute_type] - if remapping.get(attr_key): - key_value = remapping.get(attr_key) - else: - key_value = re.sub('(.)([A-Z][a-z]+)', r'\1-\2', attr_key) - key_value = re.sub('([a-z0-9])([A-Z])', r'\1-\2', key_value).lower() - properties[attribute_type].update({key_value: attr_val}) - - -def gen_demands(req_json, vnf_policies): - """Generate list of demands based on request and VNF policies - :param req_json: Request object from the client (e.g. MSO) - :param vnf_policies: Policies associated with demand resources (e.g. from grouped_policies['vnfPolicy']) - :return: list of demand parameters to populate the Conductor API call - """ - demand_dictionary = {} - for demand in req_json['placementInfo']['placementDemands']: - prop = get_demand_properties(demand, vnf_policies) - if len(prop) > 0: - demand_dictionary.update({demand['resourceModuleName']: prop}) - return demand_dictionary - - -def map_constraint_type(policy_type): - if "onap.policies.optimization.AttributePolicy" == policy_type: - return "attribute" - if "onap.policies.optimization.DistancePolicy" == policy_type: - return "distance_to_location" - if "onap.policies.optimization.InventoryGroupPolicy" == policy_type: - return "inventory_group" - if "onap.policies.optimization.ResourceInstancePolicy" == policy_type: - return "instance_fit" - if "onap.policies.optimization.ResourceRegionPolicy" == policy_type: - return "region_fit" - if "onap.policies.optimization.AffinityPolicy" == policy_type: - return "zone" - if "onap.policies.optimization.InstanceReservationPolicy" == policy_type: - return "instance_reservation" - if "onap.policies.optimization.Vim_fit" == policy_type: - return "vim_fit" - if "onap.policies.optimization.HpaPolicy" == policy_type: - return "hpa" - - return policy_type - - -def gen_cloud_region(property): - prop = {"cloud_region_attributes": dict()} - if 'cloudRegion' in property: - for k,v in property['cloudRegion'].items(): - update_converted_attribute(k, v, prop, 'cloud_region_attributes') - return prop["cloud_region_attributes"] -- cgit 1.2.3-korg