.. This work is licensed under a .. Creative Commons Attribution 4.0 International License. .. http://creativecommons.org/licenses/by/4.0 CLAMP Policy Participant Smoke Tests ------------------------------------ 1. Introduction *************** The Smoke testing of the policy participant is executed in a local CLAMP/Policy environment. The CLAMP-ACM interfaces interact with the Policy Framework to perform actions based on the state of the policy participant. The goal of the Smoke tests is the ensure that CLAMP Policy Participant and Policy Framework work together as expected. All applications will be running by console, so they need to run with different ports. Configuration files should be changed accordingly. +------------------------------+------+ | Application | port | +==============================+======+ | MariDB | 3306 | +------------------------------+------+ | DMaaP simulator | 3904 | +------------------------------+------+ | policy-api | 6968 | +------------------------------+------+ | policy-pap | 6970 | +------------------------------+------+ | policy-clamp-runtime-acm | 6969 | +------------------------------+------+ | onap/policy-clamp-ac-pf-ppnt | 8085 | +------------------------------+------+ 2. Setup Guide ************** This section will show the developer how to set up their environment to start testing in GUI with some instruction on how to carry out the tests. There are several prerequisites. Note that this guide is written by a Linux user - although the majority of the steps show will be exactly the same in Windows or other systems. 2.1 Prerequisites ================= - Java 11 - Maven 3 - Git - Refer to this guide for basic environment setup `Setting up dev environment `_ 2.2 Assumptions =============== - You are accessing the policy repositories through gerrit - You are using "git review". The following repositories are required for development in this project. These repositories should be present on your machine and you should run "mvn clean install" on all of them so that the packages are present in your .m2 repository. - policy/parent - policy/common - policy/models - policy/clamp - policy/api - policy/pap In this setup guide, we will be setting up all the components technically required for a working convenient dev environment. 2.3 Setting up the components ============================= 2.3.1 MariaDB Setup ^^^^^^^^^^^^^^^^^^^ We will be using Docker to run our mariadb instance. It will have a total of two databases running in it. - clampacm: the policy-clamp-runtime-acm db - policyadmin: the policy-api db A sql such as the one below can be used to build the SQL initialization. Create the *mariadb.sql* file in a directory *PATH_DIRECTORY*. .. code-block:: SQL create database clampacm; CREATE USER 'policy'@'%' IDENTIFIED BY 'P01icY'; GRANT ALL PRIVILEGES ON clampacm.* TO 'policy'@'%'; CREATE DATABASE `policyadmin`; CREATE USER 'policy_user'@'%' IDENTIFIED BY 'policy_user'; GRANT ALL PRIVILEGES ON policyadmin.* to 'policy_user'@'%'; FLUSH PRIVILEGES; Execution of the command above results in the creation and start of the *mariadb-smoke-test* container. .. code-block:: bash docker run --name mariadb-smoke-test \ -p 3306:3306 \ -e MYSQL_ROOT_PASSWORD=my-secret-pw \ --mount type=bind,source=PATH_DIRECTORY/mariadb.sql,target=/docker-entrypoint-initdb.d/data.sql \ -d mariadb:10.10.2 \ --lower-case-table-names=1 This will setup the two databases needed. The database will be exposed locally on port 3306. 2.3.2 DMAAP Simulator ^^^^^^^^^^^^^^^^^^^^^ For convenience, a dmaap simulator has been provided in the policy/models repository. To start the simulator, you can do the following: #. Navigate to models-sim/policy-models-simulators in the policy/models repository. #. Add a configuration file to src/test/resources with the following contents: .. code-block:: json { "dmaapProvider":{ "name":"DMaaP simulator", "topicSweepSec":900 }, "restServers":[ { "name":"DMaaP simulator", "providerClass":"org.onap.policy.models.sim.dmaap.rest.DmaapSimRestControllerV1", "host":"localhost", "port":3904, "https":false } ] } 3. You can then start dmaap with: .. code-block:: bash mvn exec:java -Dexec.mainClass=org.onap.policy.models.simulators.Main -Dexec.args="src/test/resources/YOUR_CONF_FILE.json" At this stage the dmaap simulator should be running on your local machine on port 3904. 2.3.3 Policy API ^^^^^^^^^^^^^^^^ Navigate to the "/main" directory. You can then run the following command to start the policy api: .. code-block:: bash java -jar target/api-main-2.8.2-SNAPSHOT.jar --spring.datasource.url=jdbc:mariadb://localhost:3306/policyadmin --spring.jpa.hibernate.ddl-auto=update --server.port=6968 2.3.4 Policy PAP ^^^^^^^^^^^^^^^^ In the policy-pap repo, you should find the file 'main\src\main\resources\application.yaml'. This file may need to be altered slightly as below: .. code-block:: yaml spring: security: user: name: policyadmin password: zb!XztG34 http: converters: preferred-json-mapper: gson datasource: url: jdbc:mariadb://localhost:3306/policyadmin driverClassName: org.mariadb.jdbc.Driver username: policy_user password: policy_user jpa: properties: hibernate: dialect: org.hibernate.dialect.MariaDB103Dialect hibernate: ddl-auto: update naming: physical-strategy: org.hibernate.boot.model.naming.PhysicalNamingStrategyStandardImpl implicit-strategy: org.onap.policy.common.spring.utils.CustomImplicitNamingStrategy server: port: 6970 servlet: context-path: /policy/pap/v1 pap: name: PapGroup aaf: false topic: pdp-pap.name: POLICY-PDP-PAP notification.name: POLICY-NOTIFICATION heartbeat.name: POLICY-HEARTBEAT pdpParameters: heartBeatMs: 120000 updateParameters: maxRetryCount: 1 maxWaitMs: 30000 stateChangeParameters: maxRetryCount: 1 maxWaitMs: 30000 savePdpStatisticsInDb: true topicParameterGroup: topicSources: - topic: ${pap.topic.pdp-pap.name} servers: - localhost topicCommInfrastructure: dmaap fetchTimeout: 15000 - topic: ${pap.topic.heartbeat.name} effectiveTopic: ${pap.topic.pdp-pap.name} consumerGroup: policy-pap servers: - localhost topicCommInfrastructure: dmaap fetchTimeout: 15000 topicSinks: - topic: ${pap.topic.pdp-pap.name} servers: - localhost topicCommInfrastructure: dmaap - topic: ${pap.topic.notification.name} servers: - localhost topicCommInfrastructure: dmaap healthCheckRestClientParameters: - clientName: api hostname: localhost port: 6968 userName: policyadmin password: zb!XztG34 useHttps: false basePath: policy/api/v1/healthcheck - clientName: distribution hostname: policy-distribution port: 6969 userName: healthcheck password: zb!XztG34 useHttps: false basePath: healthcheck - clientName: dmaap hostname: localhost port: 3904 useHttps: false basePath: topics management: endpoints: web: base-path: / exposure: include: health, metrics, prometheus path-mapping.metrics: plain-metrics path-mapping.prometheus: metrics Next, navigate to the "/main" directory. You can then run the following command to start the policy pap .. code-block:: bash mvn spring-boot:run 2.3.5 ACM Runtime ^^^^^^^^^^^^^^^^^ To start the clampacm runtime we need to go the "runtime-acm" directory in the clamp repo. There is a config file that is used, by default, for the clampacm runtime. That config file is here: "src/main/resources/application.yaml". For development in your local environment, it shouldn't need any adjustment and we can just run the clampacm runtime with: .. code-block:: bash mvn spring-boot:run 2.3.6 ACM Policy Participant ^^^^^^^^^^^^^^^^^^^^^^^^^^^^ To start the policy participant we need to go to the "participant/participant-impl/participant-impl-policy" directory in the clamp repo. There is a config file under "src/main/resources/config/application.yaml". For development in your local environment, we will need to adjust this file slightly: .. code-block:: yaml spring: security: user: name: participantUser password: zb!XztG34 autoconfigure: exclude: - org.springframework.boot.autoconfigure.orm.jpa.HibernateJpaAutoConfiguration - org.springframework.boot.autoconfigure.jdbc.DataSourceAutoConfiguration - org.springframework.boot.autoconfigure.jdbc.DataSourceTransactionManagerAutoConfiguration - org.springframework.boot.autoconfigure.data.web.SpringDataWebAutoConfiguration participant: pdpGroup: defaultGroup pdpType: apex policyApiParameters: clientName: api hostname: localhost port: 6968 userName: policyadmin password: zb!XztG34 useHttps: false allowSelfSignedCerts: true policyPapParameters: clientName: pap hostname: localhost port: 6970 userName: policyadmin password: zb!XztG34 useHttps: false allowSelfSignedCerts: true intermediaryParameters: reportingTimeIntervalMs: 120000 description: Participant Description participantId: 101c62b3-8918-41b9-a747-d21eb79c6c03 clampAutomationCompositionTopics: topicSources: - topic: POLICY-ACRUNTIME-PARTICIPANT servers: - ${topicServer:localhost} topicCommInfrastructure: dmaap fetchTimeout: 15000 topicSinks: - topic: POLICY-ACRUNTIME-PARTICIPANT servers: - ${topicServer:localhost} topicCommInfrastructure: dmaap participantSupportedElementTypes: - typeName: org.onap.policy.clamp.acm.PolicyAutomationCompositionElement typeVersion: 1.0.0 management: endpoints: web: base-path: / exposure: include: health, metrics, prometheus server: port: 8085 servlet: context-path: /onap/policy/clamp/acm/policyparticipant Navigate to the "participant/participant-impl/participant-impl-policy" directory. We can then run the policy-participant with the following command: .. code-block:: bash mvn spring-boot:run 3. Testing Procedure ==================== 3.1 Testing Outline ^^^^^^^^^^^^^^^^^^^ To perform the Smoke testing of the policy-participant we will be verifying the behaviours of the participant when the ACM changes state. The scenarios are: - UNDEPLOYED to DEPLOYED: participant creates policies and policyTypes specified in the ToscaServiceTemplate using policy-api and deploys the policies using pap. - LOCK to UNLOCK: participant changes lock state to UNLOCK. No operation performed. - UNLOCK to LOCK: participant changes lock state to LOCK. No operation performed. - DEPLOYED to UNDEPLOYED: participant undeploys deployed policies and deletes policies and policyTypes which have been created. 3.2 Testing Steps ^^^^^^^^^^^^^^^^^ Creation of AC Definition: ************************** An AC Definition is created by commissioning a Tosca template. Using postman, commission a TOSCA template using the following template: :download:`Tosca Service Template ` To verify this, we check that the AC Definition has been created and is in state COMMISSIONED. .. image:: images/pol-part-clampacm-get-composition.png Priming AC Definition: ********************** The AC Definition state is changed from COMMISSIONED to PRIMED using postman: .. code-block:: json { "primeOrder": "PRIME" } To verify this, we check that the AC Definition has been primed. .. image:: images/pol-part-clampacm-get-primed-composition.png Creation of AC Instance: ************************ Using postman, instance the AC definition using the following template: :download:`Instantiate ACM ` To verify this, we check that the AC Instance has been created and is in state UNDEPLOYED. .. image:: images/pol-part-clampacm-creation-ver.png Creation and deploy of policies and policyTypes: ************************************************ The AC Instance deploy state is changed from UNDEPLOYED to DEPLOYED using postman: .. code-block:: json { "deployOrder": "DEPLOY" } This state change will trigger the creation of policies and policyTypes using the policy-api and the deployment of the policies specified in the ToscaServiceTemplate. To verify this we will check, using policy-api endpoints, that the onap.policies.native.apex.ac.element policy, which is specified in the service template, has been created. .. image:: images/pol-part-clampacm-ac-policy-ver.png And we will check that the apex onap.policies.native.apex.ac.element policy has been deployed to the defaultGroup. We check this using pap: .. image:: images/pol-part-clampacm-ac-deploy-ver.png Undeployment and deletion of policies and policyTypes: ****************************************************** The ACM STATE is changed from DEPLOYED to UNDEPLOYED using postman: .. code-block:: json { "deployOrder": "UNDEPLOY" } This state change will trigger the undeployment of the onap.policies.native.apex.ac.element policy which was deployed previously and the deletion of the previously created policies and policyTypes. To verify this we do a PdpGroup Query as before and check that the onap.policies.native.apex.ac.element policy has been undeployed and removed from the defaultGroup: .. image:: images/pol-part-clampacm-ac-undep-ver.png As before, we can check that the Test Policy policyType is not found this time and likewise for the onap.policies.native.apex.ac.element policy: .. image:: images/pol-part-clampacm-test-policy-nf.png