diff options
Diffstat (limited to 'docs/clamp/acm/design-impl')
-rw-r--r-- | docs/clamp/acm/design-impl/clamp-runtime-acm.rst | 240 |
1 files changed, 136 insertions, 104 deletions
diff --git a/docs/clamp/acm/design-impl/clamp-runtime-acm.rst b/docs/clamp/acm/design-impl/clamp-runtime-acm.rst index 3e99ed1d..ba5ffe33 100644 --- a/docs/clamp/acm/design-impl/clamp-runtime-acm.rst +++ b/docs/clamp/acm/design-impl/clamp-runtime-acm.rst @@ -13,93 +13,133 @@ This article explains how CLAMP Automation Composition Runtime is implemented. Terminology *********** -- Broadcast message: a message for all participants (participantId=null and participantType=null) -- Message to a participant: a message only for a participant (participantId and participantType properly filled) +- Broadcast message: a message for all participants (participantId=null) +- Message to a participant: a message only for a participant (participantId properly filled) - ThreadPoolExecutor: ThreadPoolExecutor executes the given task, into SupervisionAspect class is configured to execute tasks in ordered manner, one by one - Spring Scheduling: into SupervisionAspect class, the @Scheduled annotation invokes "schedule()" method every "runtime.participantParameters.heartBeatMs" milliseconds with a fixed delay - MessageIntercept: "@MessageIntercept" annotation is used into SupervisionHandler class to intercept "handleParticipantMessage" method calls using spring aspect oriented programming - GUI: swagger-ui, Postman or policy-gui +- Message Broker: supported message Broker are DMaap and Strimzi-Kafka Design of Rest Api ****************** -Create of a Automation Composition Type -+++++++++++++++++++++++++++++++++++++++ -- GUI calls POST "/commission" endpoint with a Automation Composition Type Definition (Tosca Service Template) as body +Check CLAMP Runtime and Participants +++++++++++++++++++++++++++++++++++++ +- GUI calls GET "/onap/policy/clamp/acm/health" endpoint and receives the "UP" status as response +- GUI calls GET "/onap/policy/clamp/acm/v2/participants" endpoint and receives all participants registered with supported Element Types as response + +Order an immediate Participant Report from all participants ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ +- GUI calls PUT "/onap/policy/clamp/acm/v2/participants" endpoint - runtime-ACM receives the call by Rest-Api (CommissioningController) -- It saves to DB the Tosca Service Template using PolicyModelsProvider -- if there are participants registered, it triggers the execution to send a broadcast PARTICIPANT_UPDATE message -- the message is built by ParticipantUpdatePublisher using Tosca Service Template data (to fill the list of ParticipantDefinition) +- It triggers the execution to send a broadcast PARTICIPANT_STATUS_REQ message -Delete of a Automation Composition Type -+++++++++++++++++++++++++++++++++++++++ -- GUI calls DELETE "/commission" endpoint +Create of a Automation Composition Definition Type +++++++++++++++++++++++++++++++++++++++++++++++++++ +- GUI calls POST "/onap/policy/clamp/acm/v2/compositions" endpoint with a Automation Composition Type Definition (Tosca Service Template) as body - runtime-ACM receives the call by Rest-Api (CommissioningController) -- if there are participants registered, runtime-ACM triggers the execution to send a broadcast PARTICIPANT_UPDATE message -- the message is built by ParticipantUpdatePublisher with an empty list of ParticipantDefinition -- It deletes the Automation Composition Type from DB +- It validates the Automation Composition Type Definition +- It saves to DB the Tosca Service Template using AcDefinitionProvider with new compositionId and COMMISSIONED status +- the Rest-Api call returns the compositionId generated and the list of Element Definition Type -Create of a Automation Composition -++++++++++++++++++++++++++++++++++ -- GUI calls POST "/instantiation" endpoint with a Automation Composition as body +Update of a Automation Composition Definition Type +++++++++++++++++++++++++++++++++++++++++++++++++++ +- GUI calls POST "/onap/policy/clamp/acm/v2/compositions" endpoint with a Automation Composition Type Definition (Tosca Service Template) as body. It have to contain the compositionId +- runtime-ACM receives the call by Rest-Api (CommissioningController) +- It checks that Automation Composition Type Definition is in COMMISSIONED status +- It validates the Automation Composition Type Definition +- It updates to DB the Tosca Service Template using AcDefinitionProvider using the compositionId +- the Rest-Api call returns the compositionId and the list of Element Definition Type + +Priming of a Automation Composition Definition Type ++++++++++++++++++++++++++++++++++++++++++++++++++++ +- GUI calls POST "/onap/policy/clamp/acm/v2/compositions/{compositionId}" endpoint with PRIME as primeOrder +- runtime-ACM receives the call by Rest-Api (CommissioningController) +- It checks that Automation Composition Type Definition is in COMMISSIONED status +- It validates and update the AC Element Type Definition with supported Element Types by participants +- It updates AC Definition to DB with PRIMING as status +- It triggers the execution to send a broadcast PARTICIPANT_PRIME message +- the message is built by ParticipantPrimePublisher using Tosca Service Template data + +Create of a Automation Composition Instance ++++++++++++++++++++++++++++++++++++++++++++ +- GUI calls POST "/onap/policy/clamp/acm/v2/compositions/{compositionId}/instances" endpoint with a Automation Composition Instance as body. It have to contain the compositionId - runtime-ACM receives the call by Rest-Api (InstantiationController) -- It validates the Automation Composition -- It saves the Automation Composition to DB -- Design of an update of a Automation Composition -- GUI calls PUT "/instantiation" endpoint with a Automation Composition as body +- It validates the AC Instance and checks that the related composition has COMMISSIONED as status +- It set the related participantId into the AC Element Instance using the participantId defined in AC Element Type Definition +- It saves the Automation Composition to DB with UNDEPLOYED deployState and NONE lockState +- the Rest-Api call returns the instanceId and the list of AC Element Instance + +Update of a Automation Composition Instance ++++++++++++++++++++++++++++++++++++++++++++ +- GUI calls POST "/onap/policy/clamp/acm/v2/compositions/{compositionId}/instances" endpoint with a Automation Composition Instance as body. It have to contain the compositionId and the instanceId - runtime-ACM receives the call by Rest-Api (InstantiationController) -- It validates the Automation Composition -- It saves the Automation Composition to DB +- It checks that AC Instance is in UNDEPLOYED deployState +- It updates the Automation Composition to DB +- the Rest-Api call returns the instanceId and the list of AC Element Instance -Delete of a Automation Composition -++++++++++++++++++++++++++++++++++ -- GUI calls DELETE "/instantiation" endpoint -- runtime-ACM receives the call by Rest-Api (InstantiationController) -- It checks that Automation Composition is in UNINITIALISED status -- It deletes the Automation Composition from DB +Issues AC instance to change status ++++++++++++++++++++++++++++++++++++ -"issues Automation Composition commands to Automation Compositions" -+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ +case **deployOrder: DEPLOY** -case **UNINITIALISED to PASSIVE** - -- GUI calls "/instantiation/command" endpoint with PASSIVE as orderedState -- runtime-ACM checks if participants registered are matching with the list of Automation Composition Element -- It updates Automation Composition and Automation Composition elements to DB (orderedState = PASSIVE) -- It validates the status order issued -- It triggers the execution to send a broadcast AUTOMATION_COMPOSITION_UPDATE message -- the message is built by AutomationCompositionUpdatePublisher using Tosca Service Template data and AutomationComposition data. (with startPhase = 0) -- It updates Automation Composition and Automation Composition elements to DB (state = UNINITIALISED2PASSIVE) +- GUI calls "/onap/policy/clamp/acm/v2/compositions/{compositionId}/instances/{instanceId}" endpoint with DEPLOY as deployOrder +- runtime-ACM receives the call by Rest-Api (InstantiationController) +- It validates the status order issued (related AC Instance has UNDEPLOYED as deployState) +- It updates the AC Instance to DB with DEPLOYING deployState +- It triggers the execution to send a broadcast AUTOMATION_COMPOSITION_DEPLOY message +- the message is built by AutomationCompositionDeployPublisher using Tosca Service Template data and Instance data. (with startPhase = first startPhase) -case **PASSIVE to UNINITIALISED** +case **lockOrder: UNLOCK** -- GUI calls "/instantiation/command" endpoint with UNINITIALISED as orderedState -- runtime-ACM checks if participants registered are matching with the list of Automation Composition Element -- It updates Automation Composition and Automation Composition elements to DB (orderedState = UNINITIALISED) -- It validates the status order issued +- GUI calls "/onap/policy/clamp/acm/v2/compositions/{compositionId}/instances/{instanceId}" endpoint with UNLOCK as lockOrder +- runtime-ACM receives the call by Rest-Api (InstantiationController) +- It validates the status order issued (related AC Instance has DEPLOYED as deployState and LOCK as lockOrder) +- It updates the AC Instance to DB with LOCKING lockOrder - It triggers the execution to send a broadcast AUTOMATION_COMPOSITION_STATE_CHANGE message -- the message is built by AutomationCompositionStateChangePublisher with automationcompositionId -- It updates Automation Composition and Automation Composition elements to DB (state = PASSIVE2UNINITIALISED) +- the message is built by AutomationCompositionStateChangePublisher using Instance data. (with startPhase = first startPhase) -case **PASSIVE to RUNNING** +case **lockOrder: LOCK** -- GUI calls "/instantiation/command" endpoint with RUNNING as orderedState -- runtime-ACM checks if participants registered are matching with the list of Automation Composition Element. -- It updates Automation Composition and Automation Composition elements to DB (orderedState = RUNNING) -- It validates the status order issued +- GUI calls "/onap/policy/clamp/acm/v2/compositions/{compositionId}/instances/{instanceId}" endpoint with LOCK as lockOrder +- runtime-ACM receives the call by Rest-Api (InstantiationController) +- It validates the status order issued (related AC Instance has DEPLOYED as deployState and UNLOCK as lockOrder) +- It updates the AC Instance to DB with UNLOCKING lockOrder - It triggers the execution to send a broadcast AUTOMATION_COMPOSITION_STATE_CHANGE message -- the message is built by AutomationCompositionStateChangePublisher with automationcompositionId -- It updates Automation Composition and Automation Composition elements to DB (state = PASSIVE2RUNNING) +- the message is built by AutomationCompositionStateChangePublisher using Instance data. (with startPhase = last StartPhase) -case **RUNNING to PASSIVE** +case **deployOrder: UNDEPLOY** -- GUI calls "/instantiation/command" endpoint with UNINITIALISED as orderedState -- runtime-ACM checks if participants registered are matching with the list of Automation Composition Element -- It updates Automation Composition and Automation Composition elements to db (orderedState = RUNNING) -- It validates the status order issued +- GUI calls "/onap/policy/clamp/acm/v2/compositions/{compositionId}/instances/{instanceId}" endpoint with UNDEPLOY as deployOrder +- runtime-ACM receives the call by Rest-Api (InstantiationController) +- It validates the status order issued (related AC Instance has DEPLOYED as deployState and LOCK as lockOrder) +- It updates the AC Instance to DB with UNDEPLOYING deployState - It triggers the execution to send a broadcast AUTOMATION_COMPOSITION_STATE_CHANGE message -- the message is built by AutomationCompositionStateChangePublisher with automationcompositionId -- It updates Automation Composition and Automation Composition elements to db (state = RUNNING2PASSIVE) +- the message is built by AutomationCompositionStateChangePublisher using Instance data. (with startPhase = last StartPhase) + +Delete of a Automation Composition Instance ++++++++++++++++++++++++++++++++++++++++++++ +- GUI calls DELETE "/onap/policy/clamp/acm/v2/compositions/{compositionId}/instances/{instanceId}" endpoint +- runtime-ACM receives the call by Rest-Api (InstantiationController) +- It checks that AC Instance is in UNDEPLOYED deployState +- It deletes the AC Instance from DB + +Depriming of a Automation Composition Definition Type ++++++++++++++++++++++++++++++++++++++++++++++++++++++ +- GUI calls POST "/onap/policy/clamp/acm/v2/compositions/{compositionId}" endpoint with DEPRIME as primeOrder +- runtime-ACM receives the call by Rest-Api (CommissioningController) +- It checks that Automation Composition Type Definition is in PRIMED status +- It updates AC Definition to DB with DEPRIMING as status +- It triggers the execution to send a broadcast PARTICIPANT_PRIME message +- the message is built by ParticipantPrimePublisher using Tosca Service Template data + +Delete of a Automation Composition Definition Type +++++++++++++++++++++++++++++++++++++++++++++++++++ +- GUI calls DELETE "/onap/policy/clamp/acm/v2/compositions/{compositionId}" endpoint +- runtime-ACM receives the call by Rest-Api (CommissioningController) +- It checks that AC Definition Type is in COMMISSIONED status +- It deletes the Automation Composition Type from DB StartPhase ********** @@ -137,80 +177,72 @@ Example where it could be used: description: Automation Composition element for the http requests of PMSH microservice properties: provider: ONAP - participant_id: - name: HttpParticipant0 - version: 1.0.0 - participantType: - name: org.onap.acm.HttpAutomationCompositionParticipant - version: 2.3.4 uninitializedToPassiveTimeout: 180 startPhase: 1 How StartPhase works ++++++++++++++++++++ -In state changes from UNITITIALISED → PASSIVE, Automation Composition elements are started in increasing order of their startPhase. +In state changes from UNDEPLOYED → DEPLOYED or LOCKED → UNLOCKED, Automation Composition elements are started in increasing order of their startPhase. -Example with Http_PMSHMicroserviceAutomationCompositionElement with startPhase to 1 and PMSH_K8SMicroserviceAutomationCompositionElement with startPhase to 0 +Example of DEPLOY order with Http_PMSHMicroserviceAutomationCompositionElement with startPhase to 1 and PMSH_K8SMicroserviceAutomationCompositionElement with startPhase to 0 -- runtime-ACM sends a broadcast AUTOMATION_COMPOSITION_UPDATE message to all participants with startPhase = 0 -- participant receives the AUTOMATION_COMPOSITION_UPDATE message and runs to PASSIVE state (only CL elements defined as startPhase = 0) -- runtime-ACM receives AUTOMATION_COMPOSITION_UPDATE_ACT messages from participants and set the state (from the CL element of the message) to PASSIVE -- runtime-ACM calculates that all CL elements with startPhase = 0 are set to proper state and sends a broadcast AUTOMATION_COMPOSITION_UPDATE message with startPhase = 1 -- participant receives the AUTOMATION_COMPOSITION_UPDATE message and runs to PASSIVE state (only CL elements defined as startPhase = 1) -- runtime-ACM calculates that all CL elements are set to proper state and set CL to PASSIVE +- runtime-ACM sends a broadcast AUTOMATION_COMPOSITION_DEPLOY message to all participants with startPhase = 0 +- participant receives the AUTOMATION_COMPOSITION_DEPLOY message and runs to DEPLOYED state (only AC elements defined as startPhase = 0) +- runtime-ACM receives AUTOMATION_COMPOSITION_DEPLOY_ACK messages from participants and set the state (from the AC element of the message) to DEPLOYED +- runtime-ACM calculates that all AC elements with startPhase = 0 are set to proper state and sends a broadcast AUTOMATION_COMPOSITION_DEPLOY message with startPhase = 1 +- participant receives the AUTOMATION_COMPOSITION_DEPLOY message and runs to DEPLOYED state (only AC elements defined as startPhase = 1) +- runtime-ACM receives AUTOMATION_COMPOSITION_DEPLOY_ACK messages from participants and set the state (from the AC element of the message) to DEPLOYED +- runtime-ACM calculates that all AC elements are set to proper state and set AC to DEPLOYED -In that scenario the message AUTOMATION_COMPOSITION_UPDATE has been sent two times. +In that scenario the message AUTOMATION_COMPOSITION_DEPLOY has been sent two times. Design of managing messages *************************** PARTICIPANT_REGISTER ++++++++++++++++++++ -- A participant starts and send a PARTICIPANT_REGISTER message -- ParticipantRegisterListener collects the message from DMaap -- if not present, it saves participant reference with status UNKNOWN to DB -- if is present a Automation Composition Type, it triggers the execution to send a PARTICIPANT_UPDATE message to the participant registered (message of Priming) -- the message is built by ParticipantUpdatePublisher using Tosca Service Template data (to fill the list of ParticipantDefinition) -- It triggers the execution to send a PARTICIPANT_REGISTER_ACK message to the participant registered -- MessageIntercept intercepts that event, if PARTICIPANT_UPDATE message has been sent, it will be add a task to handle PARTICIPANT_REGISTER in SupervisionScanner -- SupervisionScanner starts the monitoring for participantUpdate - -PARTICIPANT_UPDATE_ACK +- A participant starts and send a PARTICIPANT_REGISTER message with participantId and supported Element Types +- runtime-ACM collects the message from Message Broker by ParticipantRegisterListener +- if not present, it saves participant reference with status ON_LINE to DB + +PARTICIPANT_PRIME_ACK ++++++++++++++++++++++ -- A participant sends PARTICIPANT_UPDATE_ACK message in response to a PARTICIPANT_UPDATE message -- ParticipantUpdateAckListener collects the message from DMaap -- MessageIntercept intercepts that event and adds a task to handle PARTICIPANT_UPDATE_ACK in SupervisionScanner -- SupervisionScanner removes the monitoring for participantUpdate -- It updates the status of the participant to DB +- A participant sends PARTICIPANT_PRIME_ACK message in response to a PARTICIPANT_PRIME message +- ParticipantPrimeAckListener collects the message from Message Broker +- It updates AC Definition to DB with PRIMED/DEPRIMED as status PARTICIPANT_STATUS ++++++++++++++++++ -- A participant sends a scheduled PARTICIPANT_STATUS message -- ParticipantStatusListener collects the message from DMaap +- A participant sends a scheduled PARTICIPANT_STATUS message with participantId and supported Element Types +- runtime-ACM collects the message from Message Broker by ParticipantStatusListener +- if not present, it saves participant reference with status ON_LINE to DB - MessageIntercept intercepts that event and adds a task to handle PARTICIPANT_STATUS in SupervisionScanner - SupervisionScanner clears and starts the monitoring for participantStatus -AUTOMATION_COMPOSITION_UPDATE_ACK +AUTOMATION_COMPOSITION_DEPLOY_ACK +++++++++++++++++++++++++++++++++ -- A participant sends AUTOMATION_COMPOSITION_UPDATE_ACK message in response to a AUTOMATION_COMPOSITION_UPDATE message. It will send a AUTOMATION_COMPOSITION_UPDATE_ACK - for each CL-elements moved to the ordered state as indicated by the AUTOMATION_COMPOSITION_UPDATE -- AutomationCompositionUpdateAckListener collects the message from DMaap -- It checks the status of all Automation Composition elements and checks if the Automation Composition is primed -- It updates the CL to DB if it is changed +- A participant sends AUTOMATION_COMPOSITION_DEPLOY_ACK message in response to a AUTOMATION_COMPOSITION_DEPLOY message. It will send a AUTOMATION_COMPOSITION_DEPLOY_ACK - for each AC elements moved to the DEPLOYED state +- AutomationCompositionUpdateAckListener collects the message from Message Broker +- It checks the status of all Automation Composition elements and checks if the Automation Composition is fully DEPLOYED +- It updates the AC to DB - MessageIntercept intercepts that event and adds a task to handle a monitoring execution in SupervisionScanner AUTOMATION_COMPOSITION_STATECHANGE_ACK ++++++++++++++++++++++++++++++++++++++ -Design of a AUTOMATION_COMPOSITION_STATECHANGE_ACK is similar to the design for AUTOMATION_COMPOSITION_UPDATE_ACK +- A participant sends AUTOMATION_COMPOSITION_STATECHANGE_ACK message in response to a AUTOMATION_COMPOSITION_STATECHANGE message. It will send a AUTOMATION_COMPOSITION_DEPLOY_ACK - for each AC elements moved to the ordered state +- AutomationCompositionStateChangeAckListener collects the message from Message Broker +- It checks the status of all Automation Composition elements and checks if the transition process of the Automation Composition is terminated +- It updates the AC to DB +- MessageIntercept intercepts that event and adds a task to handle a monitoring execution in SupervisionScanner Design of monitoring execution in SupervisionScanner **************************************************** Monitoring is designed to process the follow operations: -- to determine the next startPhase in a AUTOMATION_COMPOSITION_UPDATE message -- to update CL state: in a scenario that "AutomationComposition.state" is in a kind of transitional state (example UNINITIALISED2PASSIVE), if all - CL-elements are moved properly to the specific state, the "AutomationComposition.state" will be updated to that and saved to DB -- to retry AUTOMATION_COMPOSITION_UPDATE/AUTOMATION_COMPOSITION_STATE_CHANGE messages. if there is a CL Element not in the proper state, it will retry a broadcast message -- to retry PARTICIPANT_UPDATE message to the participant in a scenario that runtime-ACM do not receive PARTICIPANT_UPDATE_ACT from it -- to send PARTICIPANT_STATUS_REQ to the participant in a scenario that runtime-ACM do not receive PARTICIPANT_STATUS from it +- to determine the next startPhase in a AUTOMATION_COMPOSITION_DEPLOY message +- to update AC deployState: in a scenario that "AutomationComposition.deployState" is in a kind of transitional state (example DEPLOYING), if all - AC elements are moved properly to the specific state, the "AutomationComposition.deployState" will be updated to that and saved to DB +- to update AC lockState: in a scenario that "AutomationComposition.lockState" is in a kind of transitional state (example LOCKING), if all - AC elements are moved properly to the specific state, the "AutomationComposition.lockState" will be updated to that and saved to DB +- to retry AUTOMATION_COMPOSITION_DEPLOY/AUTOMATION_COMPOSITION_STATE_CHANGE messages. if there is a AC Element not in the proper state, it will retry a broadcast message The solution Design of retry, timeout, and reporting for all Participant message dialogues are implemented into the monitoring execution. |