.. This work is licensed under a .. Creative Commons Attribution 4.0 International License. .. http://creativecommons.org/licenses/by/4.0 .. _design-label: Policy Design and Development ############################# .. contents:: :depth: 3 This document describes the design principles that should be used to write, deploy, and run policies of various types using the Policy Framework. It explains the APIs that are available for Policy Framework users. It provides copious examples to illustrate policy design and API usage. 1 Introduction ============== The figure below shows the Artifacts (Blue) in the ONAP Policy Framework, the Activities (Yellow) that manipulate them, and important components (Salmon) that interact with them. The Policy Framework is fully TOSCA compliant, and uses TOSCA to model policies. Please see the :ref:`TOSCA Policy Primer ` page for an introduction to TOSCA policy concepts. .. image:: images/APIsInPolicyFramework.svg TOSCA defines the concept of a *PolicyType*, the definition of a type of policy that can be applied to a service. It also defines the concept of a *Policy*, an instance of a *PolicyType*. In the Policy Framework, we handle and manage these TOSCA definitions and tie them to real implementations of policies that can run on PDPs. The diagram above outlines how this is achieved. Each TOSCA *PolicyType* must have a corresponding *PolicyTypeImpl* in the Policy Framework. The TOSCA *PolicyType* definition can be used to create a TOSCA *Policy* definition, either directly by the Policy Framework, by CLAMP, or by some other system. Once the *Policy* artifact exists, it can be used together with the *PolicyTypeImpl* artifact to create a *PolicyImpl* artifact. A *PolicyImpl* artifact is an executable policy implementation that can run on a PDP. The TOSCA *PolicyType* artifact defines the external characteristics of the policy; defining its properties, the types of entities it acts on, and its triggers.  A *PolicyTypeImpl* artifact is an XACML, Drools, or APEX implementation of that policy definition. *PolicyType* and *PolicyTypeImpl* artifacts may be preloaded, may be loaded manually, or may be created using the Lifecycle API. Alternatively, *PolicyType* definitions may be loaded over the Lifecycle API for preloaded *PolicyTypeImpl* artifacts. A TOSCA *PolicyType* artifact can be used by clients (such as CLAMP or CLI tools) to create, parse, serialize, and/or deserialize an actual Policy. The TOSCA *Policy* artifact is used internally by the Policy Framework, or is input by CLAMP or other systems. This artifact specifies the values of the properties for the policy and specifies the specific entities the policy acts on. Policy Design uses the TOSCA *Policy* artifact and the *PolicyTypeImpl* artifact to create an executable *PolicyImpl* artifact.  2 ONAP Policy Types =================== Policy Type Design manages TOSCA *PolicyType* artifacts and their *PolicyTypeImpl* implementations. A TOSCA *PolicyType* may ultimately be defined by the modeling team but for now are defined by the Policy Framework project. Various editors and GUIs are available for creating *PolicyTypeImpl* implementations. However, systematic integration of *PolicyTypeImpl* implementation is outside the scope of the ONAP Dublin release. The *PolicyType* definitions and implementations listed below are preloaded and are always available for use in the Policy Framework. ======================================= =============================================================================== **Policy Type** **Description** ======================================= =============================================================================== onap.policies.Monitoring Overarching model that supports Policy driven DCAE microservice components used in Control Loops onap.policies.controlloop.Operational Used to support legacy actor/action operational policies for control loops onap.policies.controlloop.Guard Control Loop guard policies for policing control loops onap.policies.controlloop.Coordination Control Loop Coordination policies to assist in coordinating multiple control loops at runtime onap.policies.controlloop.common.Drools Used to support tosca compliant actor/action operational policies for control loops onap.policies.native.drools.Controller Used to support the definition of PDP-D controllers onap.policies.native.drools.Artifact Used to associate application's software with a PDP-D controller ======================================= =============================================================================== 2.1 Policy Type: onap.policies.Monitoring ----------------------------------------- This is a base Policy Type that supports Policy driven DCAE microservice components used in a Control Loops. The implementation of this Policy Type is developed using the XACML PDP to support question/answer Policy Decisions during runtime for the DCAE Policy Handler. .. code-block:: yaml :caption: Base Policy Type definition for onap.policies.Monitoring :linenos: tosca_definitions_version: tosca_simple_yaml_1_0_0 topology_template: policy_types: - onap.policies.Monitoring: derived_from: tosca.policies.Root version: 1.0.0 description: a base policy type for all policies that govern monitoring provision The *PolicyTypeImpl* implementation of the *onap.policies.Montoring* Policy Type is generic to support definition of TOSCA *PolicyType* artifacts in the Policy Framework using the Policy Type Design API. Therefore many TOSCA *PolicyType* artifacts will use the same *PolicyTypeImpl* implementation with different property types and towards different targets. This allows dynamically generated DCAE microservice component Policy Types to be created at Design Time. DCAE microservice components can generate their own TOSCA *PolicyType* using TOSCA-Lab Control Loop guard policies in SDC (Stretch Goal) or can do so manually. See `How to generate artefacts for SDC catalog using Tosca Lab Tool `__ for details on TOSCA-LAB in SDC. For Dublin, the DCAE team is defining the manual steps required to build policy models `Onboarding steps for DCAE MS through SDC/Policy/CLAMP (Dublin) `__. .. note:: For Dublin, microservice Policy Types will be preloaded into the SDC platform and be available as a Normative. The policy framework will preload support for those microservice Monitoring policy types. .. code-block:: yaml :caption: Example PolicyType *onap.policies.monitoring.MyDCAEComponent* derived from *onap.policies.Monitoring* :linenos: tosca_definitions_version: tosca_simple_yaml_1_0_0 policy_types: - onap.policies.Monitoring: derived_from: tosca.policies.Root version: 1.0.0 description: a base policy type for all policies that govern monitoring provision - onap.policies.monitoring.MyDCAEComponent: derived_from: onap.policies.Monitoring version: 1.0.0 properties: mydcaecomponent_policy: type: map description: The Policy Body I need entry_schema: type: onap.datatypes.monitoring.mydatatype data_types: - onap.datatypes.monitoring.MyDataType: derived_from: tosca.datatypes.Root properties: my_property_1: type: string description: A description of this property constraints: - valid_values: - value example 1 - value example 2 For more examples of monitoring policy type definitions, please refer to the examples in the `ONAP policy-models gerrit repository `__. 2.2 Policy Type: onap.policies.controlloop.Operational ------------------------------------------------------ This policy type is used to support actor/action operational policies for control loops. There are two types of implementations for this policy type 1. Drools implementations that supports runtime Control Loop actions taken on components such as SO/APPC/VFC/SDNC/SDNR 2. Implementations using APEX to support Control Loops. .. note:: For Dublin, this policy type will ONLY be used for the Policy Framework to distinguish the policy type as operational. .. code-block:: yaml :caption: Base Policy Type definition for onap.policies.controlloop.Operational :linenos: tosca_definitions_version: tosca_simple_yaml_1_0_0 policy_types: - onap.policies.controlloop.Operational: derived_from: tosca.policies.Root version: 1.0.0 description: Operational Policy for Control Loops Applications should use the following Content-Type when creating onap.policies.controlloop.Operational policies: .. code-block:: Content-Type: "application/yaml" 2.2.1 Operational Policy Type Schema for Drools ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ For Dublin Drools will still support the Casablanca YAML definition of an Operational Policy for Control Loops. Please use the the `YAML Operational Policy format `__. 2.2.2 Operational Policy Type Schema for APEX ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ The operational Policy Type schema for APEX extends the base operational Policy Type schema. This Policy Type allows parameters specific to the APEX PDP to be specified as a TOSCA policy. See `this sample APEX policy type definition `__. 2.3 Policy Type: onap.policies.controlloop.Guard ------------------------------------------------ This policy type is the the type definition for Control Loop guard policies for frequency limiting, blacklisting and min/max guards to help protect runtime Control Loop Actions from doing harm to the network. This policy type is developed using the XACML PDP to support question/answer Policy Decisions during runtime for the Drools and APEX onap.controlloop.Operational policy type implementations. .. code-block:: yaml :caption: Base Policy Type definition for onap.policies.controlloop.Guard :linenos: tosca_definitions_version: tosca_simple_yaml_1_0_0 policy_types: - onap.policies.controlloop.Guard: derived_from: tosca.policies.Root version: 1.0.0 description: Guard Policy for Control Loops Operational Policies As with the *onap.policies.Monitoring* policy type, the *PolicyTypeImpl* implementation of the *onap.policies.controlloop.Guard* Policy Type is generic to support definition of TOSCA *PolicyType* artifacts in the Policy Framework using the Policy Type Design API. .. note:: For Dublin, only the following derived Policy Type definitions below are preloaded in the Policy Framework. However, the creation of policies will still support the payload from Casablanca. Guard policy type definitions for *FrequencyLimiter*, *BlackList*, and *MinMax* are available in the `ONAP policy-models gerrit repository `__. 2.4 Policy Type: onap.policies.controlloop.common.Drools -------------------------------------------------------- This policy type supports composition of Tosca-compliant Operational Policies for the PDP-D. The `onap.policies.controlloop.common.Drools policy type specification `__ is preferred for composition of operational policies over its `onap.policies.controlloop.Operational policy type specification `__ precursor, which eventually will be deprecated. Both policy types are functionally equivalent. 2.5 Policy Type: onap.policies.native.drools.Controller ------------------------------------------------------- This policy type supports creation of native PDP-D controllers via policy. A controller is an abstraction on the PDP-D that groups communication channels, message mapping rules, and any other arbitrary configuration data to realize an application. Policies of this type are composed against the `onap.policies.native.drools.Controller policy type specification `__ specification. 2.6 Policy Type: onap.policies.native.drools.Artifact ------------------------------------------------------- This policy type supports the dynamic association of a native PDP-D controller with rules and dependent java libraries. This policy type is used in conjuction with the onap.policies.native.drools.Controller type to create or upgrade a drools application on a live PDP-D. Policies of this type are composed against the `onap.policies.native.drools.Controller policy type specification `__ specification. 3 PDP Deployment and Registration with PAP ========================================== The unit of execution and scaling in the Policy Framework is a *PolicyImpl* entity. A *PolicyImpl* entity runs on a PDP. As is explained above, a *PolicyImpl* entity is a *PolicyTypeImpl* implementation parameterized with a TOSCA *Policy*. .. image:: images/PolicyImplPDPSubGroup.svg In order to achieve horizontal scalability, we group the PDPs running instances of a given *PolicyImpl* entity logically together into a *PDPSubGroup*. The number of PDPs in a *PDPSubGroup* can then be scaled up and down using Kubernetes. In other words, all PDPs in a subgroup run the same *PolicyImpl*, that is the same policy template implementation (in XACML, Drools, or APEX) with the same parameters. The figure above shows the layout of *PDPGroup* and *PDPSubGroup* entities. The figure shows examples of PDP groups for Control Loop and Monitoring policies on the right. The health of PDPs is monitored by the PAP in order to alert operations teams managing policy. The PAP manages the life cycle of policies running on PDPs. The table below shows the deployment methods in which *PolicyImpl* entities can be deployed to PDP Subgroups. ========== =========================================== ============================== ================================== **Method** **Description** **Advantages** **Disadvantages** ========== =========================================== ============================== ================================== Cold The *PolicyImpl* (*PolicyTypeImpl* and No run time configuration Very restrictive, no run time TOSCA *Policy*) are predeployed on the PDP. required and run time configuration of PDPs is possible. PDP is fully configured and ready to administration is simple. execute when started. PDPs register with the PAP when they start, providing the *PolicyImpl* they have been predeployed with. Warm The *PolicyTypeImpl* entity is predeployed The configuration, parameters, Administration and management is on the PDP. A TOSCA *Policy* may be loaded and PDP group of PDPs may be required. The configuration and at startup. The PDP may be configured or changed at run time by loading life cycle of the TOSCA policies reconfigured with a new or updated TOSCA or updating a TOSCA *Policy* can change at run time and must be *Policy* at run time. into the PDP. administered and managed. PDPs register with the PAP when they start, Support TOSCA *Policy* entity providing the *PolicyImpl* they have been life cycle managgement is predeployed with if any. The PAP may update supported, allowing features the TOSCA *Policy* on a PDP at any time such as *PolicyImpl* Safe Mode after registration. and *PolicyImpl* retirement. Hot The *PolicyImpl* (*PolicyTypeImpl* and The policy logic, rules, Administration and management is TOSCA *Policy*) are deployed at run time. configuration, parameters, and more complex. The *PolicyImpl* The *PolicyImpl* (*PolicyTypeImpl* and PDP group of PDPs may be itself and its configuration and TOSCA *Policy*) may be loaded at startup. changed at run time by loading life cycle as well as the life The PDP may be configured or reconfigured or updating a TOSCA *Policy* cycle of the TOSCA policies can with a new or updated *PolicyTypeImpl* and *PolicyTypeImpl* into the change at run time and must be and/or TOSCA *Policy* at run time. PDP. administered and managed. PDPs register with the PAP when they Lifecycle management of TOSCA start, providing the *PolicyImpl* they have *Policy* entities and been predeployed with if any. The PAP may *PolicyTypeImpl* entites is update the TOSCA *Policy* and supported, allowing features *PolicyTypeImpl* on a PDP at any time after such as *PolicyImpl* Safe Mode registration and *PolicyImpl* retirement. ========== =========================================== ============================== ================================== 4. Policy Framework Public APIs =============================== The Policy Framework provides the public APIs outline in the subsections below. For a full description of the APIs, see their individual documentation linked in each subsection. 4.1 Policy Type Design API for TOSCA Policy Types ------------------------------------------------- The full documentation for this API is available on the :ref:`Policy Life Cycle API ` page. The purpose of this API is to support CRUD of TOSCA *PolicyType* entities. This API is provided by the *PolicyDevelopment* component of the Policy Framework, see the :ref:`The ONAP Policy Framework Architecture ` page. The API allows applications to create, update, delete, and query *PolicyType* entities so that they become available for use in ONAP by applications such as CLAMP. Some Policy Type entities are preloaded in the Policy Framework. The TOSCA fields below are valid on API calls: ============ ======= ======== ========== =============================================================================== **Field** **GET** **POST** **DELETE** **Comment** ============ ======= ======== ========== =============================================================================== (name) M M M The definition of the reference to the Policy Type, GET allows ranges to be specified version O M C GET allows ranges to be specified, must be specified if more than one version of the Policy Type exists description R O N/A Desciption of the Policy Type derived_from R C N/A Must be specified when a Policy Type is derived from another Policy Type such as in the case of derived Monitoring Policy Types metadata R O N/A Metadata for the Policy Type properties R M N/A This field holds the specification of the specific Policy Type in ONAP targets R O N/A A list of node types and/or group types to which the Policy Type can be applied triggers R O N/A Specification of policy triggers, not currently supported in ONAP ============ ======= ======== ========== =============================================================================== .. note:: On this and subsequent tables, use the following legend: M-Mandatory, O-Optional, R-Read-only, C-Conditional. Conditional means the field is mandatory when some other field is present. .. note:: Preloaded policy types may only be queried over this API, modification or deletion of preloaded policy type implementations is disabled. .. note:: Policy types that are in use (referenced by defined Policies) may not be deleted. .. note:: The group types of targets in TOSCA are groups of TOSCA nodes, not PDP groups; the *target* concept in TOSCA is equivalent to the Policy Enforcement Point (PEP) concept 4.2 Policy Design API --------------------- The full documentation for this API is available on the :ref:`Policy Life Cycle API ` page. The purpose of this API is to support CRUD of TOSCA *Policy* entities from TOSCA compliant *PolicyType* definitions. TOSCA *Policy* entities become the parameters for *PolicyTypeImpl* entities, producing *PolicyImpl* entities that can run on PDPs. This API is provided by the *PolicyDevelopment* component of the Policy Framework, see the :ref:`The ONAP Policy Framework Architecture ` page. This API allows applications (such as CLAMP and Integration) to create, update, delete, and query *Policy* entities. The TOSCA fields below are valid on API calls: =========== ======= ======== ========== ================================================================================ **Field** **GET** **POST** **DELETE** **Comment** =========== ======= ======== ========== ================================================================================ (name) M M M The definition of the reference to the Policy, GET allows ranges to be specified type O M O The Policy Type of the policy, see section 3.1 description R O O metadata R O N/A properties R M N/A This field holds the specification of the specific Policy in ONAP targets R O N/A A list of nodes and/or groups to which the Policy can be applied =========== ======= ======== ========== ================================================================================ .. note:: Policies that are deployed (used on deployed *PolicyImpl* entities) may not be deleted .. note:: This API is NOT used by DCAE for a decision on what policy the DCAE PolicyHandler should retrieve and enforce .. note:: The groups of targets in TOSCA are groups of TOSCA nodes, not PDP groups; the *target* concept in TOSCA is equivalent to the Policy Enforcement Point (PEP) concept 4.3 Policy Administration API ----------------------------- The full documentation for this API is available on the :ref:`Policy Administration Point (PAP) ` page. The purpose of this API is to support CRUD of PDP groups and subgroups and to support the deployment and life cycles of *PolicyImpl* entities (TOSCA *Policy* and *PolicyTypeImpl* entities) on PDP sub groups and PDPs. This API is provided by the *PolicyAdministration* component (PAP) of the Policy Framework, see the :ref:`The ONAP Policy Framework Architecture ` page. PDP groups and subgroups may be prefedined in the system. Predefined groups and subgroups can be modified or deleted over this API. The policies running on predefined groups or subgroups as well as the desired instance counts and properties can also be modified. A PDP may be preconfigured with its PDP group, PDP subgroup, and policies. The PDP sends this information to the PAP when it starts. If the PDP group, subgroup, or any policy is unknown to the PAP, the PAP locks the PDP in state PASSIVE. The state of PDP groups is managed by the API. PDP groups can be in states PASSIVE, TEST, SAFE, or ACTIVE. For a full description of PDP group states, the :ref:`The ONAP Policy Framework Architecture ` page. The API supports retrieval of statistics for PDP groups, PDP subgroups, and individual PDPs. It also allows a PDP group health check to be ordered on PDP groups and on individual PDPs. The fields below are valid on API calls: ============================ ======= ======== ========== =============================================================== **Field** **GET** **POST** **DELETE** **Comment** ============================ ======= ======== ========== =============================================================== name M M M The name of the PDP group version O M C The version of the PDP group state R N/A N/A The administrative state of the PDP group: PASSIVE, SAFE, TEST, or ACTIVE description R O N/A The PDP group description properties R O N/A Specific properties for a PDP group pdp_subgroups R M N/A A list of PDP subgroups for a PDP group ->pdp_type R M N/A The PDP type of this PDP subgroup, currently xacml, drools, or apex ->supported_policy_types R N/A N/A A list of the policy types supported by the PDPs in this PDP subgroup. A trailing “.*” can be used to specify multiple policy types; for example, “onap.policies.monitoring.*” would match any policy type beginning with “onap.policies.monitoring.” ->policies R M N/A The list of policies running on the PDPs in this PDP subgroup ->->(name) R M N/A The name of a TOSCA policy running in this PDP subgroup ->->policy_type R N/A N/A The TOSCA policy type of the policy ->->policy_type_version R N/A N/A The version of the TOSCA policy type of the policy ->->policy_type_impl R C N/A The policy type implementation (XACML, Drools Rules, or APEX Model) that implements the policy ->instance_count R N/A N/A The number of PDP instances running in a PDP subgroup ->min_instance_count O N/A N/A The minumum number of PDP instances to run in a PDP subgroup ->properties O N/A N/A Deployment configuration or other properties for the PDP subgroup ->deployment_info R N/A N/A Information on the deployment for a PDP subgroup ->instances R N/A N/A A list of PDP instances running in a PDP subgroup ->->instance R N/A N/A The instance ID of a PDP running in a Kuberenetes Pod ->->state R N/A N/A The administrative state of the PDP: PASSIVE, SAFE, TEST, or ACTIVE ->->healthy R N/A N/A The result of the latest health check on the PDP: HEALTHY/NOT_HEALTHY/TEST_IN_PROGRESS ->->message O N/A N/A A status message for the PDP if any ->->deployment_instance_info R N/A N/A Information on the node running the PDP ============================ ======= ======== ========== =============================================================== Note: In the Dublin release, the *policy_type_impl* of all policy types in a PDP subgroup must be the same. 4.4 Policy Decision API - Getting Policy Decisions -------------------------------------------------- Policy decisions are required by ONAP components to support the policy-driven ONAP architecture. Policy Decisions are implemented using the XACML PDP. The calling application must provide attributes in order for the XACML PDP to return a correct decision. Decision API queries are implemented with a POST operation with a JSON body that specifies the filter for the policies to be returned. *https:{url}:{port}/decision/v1/ POST* The table below describes the fields in the JSON payload for the decision API Call. ============= ======= ======== ========================================================================== **Field** **R/O** **Type** **Description** ============= ======= ======== ========================================================================== ONAPName R String Name of the ONAP Project that is making the request. ONAPComponent O String Name of the ONAP Project component that is making the request. ONAPInstance O String Optional instance identification for that ONAP component. action R String The action that the ONAP component is performing on a resource. "configure" → DCAE uS onap.Monitoring policy Decisions to configure uS "naming" "placement" "guard" ============= ======= ======== ========================================================================== These sub metadata structures are used to scope the resource the ONAP component is performing an action upon. At least one must be specified in order for Policy to return a decision. Multiple structures may be utilized to help define a precise scope for a decision. 4.4.1 Policy Decision API - DCAE configuration examples ------------------------------------------------------- These resource fields are examples on how DCAE implements its "configure" application to make Decision API calls. ================= ======= ======== ================================================================== **Field** **R/O** **Type** **Description** ================= ======= ======== ================================================================== policy-type-name O String The policy type name. This may be a regular expression. policy-id O String The policy id. This may be a regular expression or an exact value. ================= ======= ======== ================================================================== This example below shows the JSON body of a query with a single policy ID. .. code-block:: yaml :caption: Decision API Call - Single Policy ID query :linenos: { "ONAPName": "DCAE", "ONAPComponent": "PolicyHandler", "ONAPInstance": "622431a4-9dea-4eae-b443-3b2164639c64", "action": "configure", "resource": { "policy-id": "onap.scaleout.tca" } } .. code-block:: yaml :caption: Decision Response - Single Policy ID query :linenos: { "policies": { "onap.scaleout.tca": { "type": "onap.policies.monitoring.cdap.tca.hi.lo.app", "version": "1.0.0", "metadata": { "policy-id": "onap.scaleout.tca", "policy-version": 1 }, "properties": { "tca_policy": { "domain": "measurementsForVfScaling", "metricsPerEventName": [{ "eventName": "vLoadBalancer", "controlLoopSchemaType": "VNF", "policyScope": "type=configuration", "policyName": "onap.scaleout.tca", "policyVersion": "v0.0.1", "thresholds": [{ "closedLoopControlName": "ControlLoop-vDNS-6f37f56d-a87d-4b85-b6a9-cc953cf779b3", "closedLoopEventStatus": "ONSET", "version": "1.0.2", "fieldPath": "$.event.measurementsForVfScalingFields.vNicPerformanceArray[*] .receivedBroadcastPacketsAccumulated", "thresholdValue": 500, "direction": "LESS_OR_EQUAL", "severity": "MAJOR" }, { "closedLoopControlName": "ControlLoop-vDNS-6f37f56d-a87d-4b85-b6a9-cc953cf779b3", "closedLoopEventStatus": "ONSET", "version": "1.0.2", "fieldPath": "$.event.measurementsForVfScalingFields.vNicPerformanceArray[*] .receivedBroadcastPacketsAccumulated", "thresholdValue": 5000, "direction": "GREATER_OR_EQUAL", "severity": "CRITICAL" }] }] } } } } } This example below shows the JSON body of a query with multiple policy IDs. .. code-block:: yaml :caption: Decision API Call - Multiple Policy IDs query :linenos: { "ONAPName": "DCAE", "ONAPComponent": "PolicyHandler", "ONAPInstance": "622431a4-9dea-4eae-b443-3b2164639c64", "action": "configure", "resource": { "policy-id": [ "onap.scaleout.tca", "onap.restart.tca" ] } } .. code-block:: yaml :caption: Decision Response - Multiple Policy IDs query :linenos: { "policies": { "onap.scaleout.tca": { "type": "onap.policies.monitoring.cdap.tca.hi.lo.app", "version": "1.0.0", "metadata": { "policy-id": "onap.scaleout.tca" }, "properties": { "tca_policy": { "domain": "measurementsForVfScaling", "metricsPerEventName": [ { "eventName": "vLoadBalancer", "controlLoopSchemaType": "VNF", "policyScope": "type=configuration", "policyName": "onap.scaleout.tca", "policyVersion": "v0.0.1", "thresholds": [ { "closedLoopControlName": "ControlLoop-vDNS-6f37f56d-a87d-4b85-b6a9-cc953cf779b3", "closedLoopEventStatus": "ONSET", "version": "1.0.2", "fieldPath": "$.event.measurementsForVfScalingFields.vNicPerformanceArray[*] .receivedBroadcastPacketsAccumulated", "thresholdValue": 500, "direction": "LESS_OR_EQUAL", "severity": "MAJOR" }, { "closedLoopControlName": "ControlLoop-vDNS-6f37f56d-a87d-4b85-b6a9-cc953cf779b3", "closedLoopEventStatus": "ONSET", "version": "1.0.2", "fieldPath": "$.event.measurementsForVfScalingFields.vNicPerformanceArray[*] .receivedBroadcastPacketsAccumulated", "thresholdValue": 5000, "direction": "GREATER_OR_EQUAL", "severity": "CRITICAL" } ] } ] } } }, "onap.restart.tca": { "type": "onap.policies.monitoring.cdap.tca.hi.lo.app", "version": "1.0.0", "metadata": { "policy-id": "onap.restart.tca", "policy-version": 1 }, "properties": { "tca_policy": { "domain": "measurementsForVfScaling", "metricsPerEventName": [ { "eventName": "Measurement_vGMUX", "controlLoopSchemaType": "VNF", "policyScope": "DCAE", "policyName": "DCAE.Config_tca-hi-lo", "policyVersion": "v0.0.1", "thresholds": [ { "closedLoopControlName": "ControlLoop-vCPE-48f0c2c3-a172-4192-9ae3-052274181b6e", "version": "1.0.2", "fieldPath": "$.event.measurementsForVfScalingFields.additionalMeasurements[*] .arrayOfFields[0].value", "thresholdValue": 0, "direction": "EQUAL", "severity": "MAJOR", "closedLoopEventStatus": "ABATED" }, { "closedLoopControlName": "ControlLoop-vCPE-48f0c2c3-a172-4192-9ae3-052274181b6e", "version": "1.0.2", "fieldPath": "$.event.measurementsForVfScalingFields.additionalMeasurements[*] .arrayOfFields[0].value", "thresholdValue": 0, "direction": "GREATER", "severity": "CRITICAL", "closedLoopEventStatus": "ONSET" } ] } ] } } } } } This example below shows the JSON body of a query to return all the deployed policies for a specific policy type. .. code-block:: yaml :caption: Decision API Call - Policies for Policy Type query :linenos: { "ONAPName": "DCAE", "ONAPComponent": "PolicyHandler", "ONAPInstance": "622431a4-9dea-4eae-b443-3b2164639c64", "action": "configure", "resource": { "policy-type": "onap.policies.monitoring.cdap.tca.hi.lo.app" } } .. code-block:: yaml :caption: Decision Response - Policies for Policy Type query :linenos: { "policies": { "onap.scaleout.tca": { "type": "onap.policies.monitoring.cdap.tca.hi.lo.app", "version": "1.0.0", "metadata": { "policy-id": "onap.scaleout.tca", "policy-version": 1, }, "properties": { "tca_policy": { "domain": "measurementsForVfScaling", "metricsPerEventName": [ { "eventName": "vLoadBalancer", "controlLoopSchemaType": "VNF", "policyScope": "type=configuration", "policyName": "onap.scaleout.tca", "policyVersion": "v0.0.1", "thresholds": [ { "closedLoopControlName": "ControlLoop-vDNS-6f37f56d-a87d-4b85-b6a9-cc953cf779b3", "closedLoopEventStatus": "ONSET", "version": "1.0.2", "fieldPath": "$.event.measurementsForVfScalingFields.vNicPerformanceArray[*] .receivedBroadcastPacketsAccumulated", "thresholdValue": 500, "direction": "LESS_OR_EQUAL", "severity": "MAJOR" }, { "closedLoopControlName": "ControlLoop-vDNS-6f37f56d-a87d-4b85-b6a9-cc953cf779b3", "closedLoopEventStatus": "ONSET", "version": "1.0.2", "fieldPath": "$.event.measurementsForVfScalingFields.vNicPerformanceArray[*] .receivedBroadcastPacketsAccumulated", "thresholdValue": 5000, "direction": "GREATER_OR_EQUAL", "severity": "CRITICAL" } ] } ] } } }, "onap.restart.tca": { "type": "onap.policies.monitoring.cdap.tca.hi.lo.app", "version": "1.0.0", "metadata": { "policy-id": "onap.restart.tca", "policy-version": 1 }, "properties": { "tca_policy": { "domain": "measurementsForVfScaling", "metricsPerEventName": [ { "eventName": "Measurement_vGMUX", "controlLoopSchemaType": "VNF", "policyScope": "DCAE", "policyName": "DCAE.Config_tca-hi-lo", "policyVersion": "v0.0.1", "thresholds": [ { "closedLoopControlName": "ControlLoop-vCPE-48f0c2c3-a172-4192-9ae3-052274181b6e", "version": "1.0.2", "fieldPath": "$.event.measurementsForVfScalingFields.additionalMeasurements[*].arrayOfFields[0] .value", "thresholdValue": 0, "direction": "EQUAL", "severity": "MAJOR", "closedLoopEventStatus": "ABATED" }, { "closedLoopControlName": "ControlLoop-vCPE-48f0c2c3-a172-4192-9ae3-052274181b6e", "version": "1.0.2", "fieldPath": "$.event.measurementsForVfScalingFields.additionalMeasurements[*].arrayOfFields[0] .value", "thresholdValue": 0, "direction": "GREATER", "severity": "CRITICAL", "closedLoopEventStatus": "ONSET" } ] } ] } } }, "onap.vfirewall.tca": { "type": "onap.policy.monitoring.cdap.tca.hi.lo.app", "version": "1.0.0", "metadata": { "policy-id": "onap.vfirewall.tca", "policy-version": 1 }, "properties": { "tca_policy": { "domain": "measurementsForVfScaling", "metricsPerEventName": [ { "eventName": "vLoadBalancer", "controlLoopSchemaType": "VNF", "policyScope": "resource=vLoadBalancer;type=configuration", "policyName": "onap.vfirewall.tca", "policyVersion": "v0.0.1", "thresholds": [ { "closedLoopControlName": "ControlLoop-vFirewall-d0a1dfc6-94f5-4fd4-a5b5-4630b438850a", "closedLoopEventStatus": "ONSET", "version": "1.0.2", "fieldPath": "$.event.measurementsForVfScalingFields.vNicPerformanceArray[*] .receivedBroadcastPacketsAccumulated", "thresholdValue": 500, "direction": "LESS_OR_EQUAL", "severity": "MAJOR" }, { "closedLoopControlName": "ControlLoop-vFirewall-d0a1dfc6-94f5-4fd4-a5b5-4630b438850a", "closedLoopEventStatus": "ONSET", "version": "1.0.2", "fieldPath": "$.event.measurementsForVfScalingFields.vNicPerformanceArray[*] .receivedBroadcastPacketsAccumulated", "thresholdValue": 5000, "direction": "GREATER_OR_EQUAL", "severity": "CRITICAL" } ] } ] } } } } } 4.4.2 Policy Decision API - Guard Decision API examples ------------------------------------------------------- These resource fields are examples on how Drools-PDP implements its "guard" application to make Decision API calls. This structure is a transition from the legacy guard API calls. So each of these resources are contained under a "guard" object in the "resource" object of the JSON structure. ================= ======= ======== ================================================================== **Field** **R/O** **Type** **Description** ================= ======= ======== ================================================================== actor O String The actor (eg APPC, SO) that is performing a recipe recipe O String The recipe (eg Restart, Reboot) that the actor going to execute clname O String The unique ID for the Control Loop target O String The target VNF the actor is executing the recipe on vfCount O String Specific to SO "VF Module Create" - the current count of VNFs ================= ======= ======== ================================================================== This example below shows the JSON body of a guard Decision API call. .. code-block:: json :caption: Decision API Call - Guard :linenos: { "ONAPName": "Policy", "ONAPComponent": "drools-pdp", "ONAPInstance": "usecase-template", "requestId": "unique-request-id-1", "action": "guard", "resource": { "guard": { "actor": "SO", "recipe": "VF Module Create", "clname": "ControlLoop-vDNS-6f37f56d-a87d-4b85-b6a9-cc953cf779b3", "target": "vLoadBalancer-00", "vfCount": "1" } } } .. code-block:: json :caption: Decision Response - Guard :linenos: {"status":"Permit"} 4.4.3 Policy Decision API - Optimize Decision API examples ---------------------------------------------------------- These resource fields are examples on how OOF project will make Decision API calls. NOTE: The OOF project has not yet upgraded to the API. This work is scheduled for Frankfurt. ================= ======= ============== ================================================================== **Field** **R/O** **Type** **Description** ================= ======= ============== ================================================================== scope O List of String Optional scope for the policy. services O List of String One or more services the policy applies to. resources O List of String The unique ID for the Control Loop geography O List of String The target VNF the actor is executing the recipe on ================= ======= ============== ================================================================== This example below shows the JSON body of an Optimize Decision API call. .. code-block:: json :caption: Decision API Call - Optimize vCPE service in US :linenos: { "ONAPName": "OOF", "ONAPComponent": "OOF-component", "ONAPInstance": "OOF-component-instance", "action": "optimize", "resource": { "scope": [], "services": ["vCPE"], "resources": [], "geography": ["US"] } } .. code-block:: json :caption: Decision Response - :linenos: { "policies:" { ### Omitted for brevity } } End of Document