Skip to end of metadata
Go to start of metadata

You are viewing an old version of this page. View the current version.

Compare with Current View Page History

Version 1 Next »



Overview

Project NameEnter the name of the project
Target Release NameFrankfurt Release
Project Lifecycle StateIncubation.( Refer to ONAP Charter, section 3.3 Project Lifecycle for further information)
Participating Company AT&T, Ericcson, Huawei, .... (TBC)

Scope

What is this release trying to address?

CLAMP want to enhance the flexibility and ease of introducing new Control loop by:

  1. implemnting a new Control Loop creation flow: Self Serve Control Loop .
  2. Add Tosca policy-model support for Operationnal Policies definbitions.
  3. Add integration to CDS for Actor/Action selection.
ScopePriorityCommitter LeadResources CommittedEpic Dependencies 
 CLAMP Self Serve Control Loop high Gervais-Martial Ngueko AT&T, Ericscson

  CLAMP-260 - Getting issue details... STATUS

 DCAE














Use Cases

The existing use cases are still going to be supported and additional use cases will be supported for the Frankfurt Release (as defined by the Control loop sub committee and TSC)

Minimum Viable Product

The minimum viable product that we aim to reach within R6 is to have the CLAMP application El Alto(R5) features at least running with, the new Operationnal  policy-model and the new additional self-serve Control Loop flow working.

Functionalities

List the functionalities that this release is committing to deliver by providing a link to JIRA Epics and Stories. In the JIRA Priority field, specify the priority (either High, Medium, Low). The priority will be used in case de-scoping is required. Don't assign High priority to all functionalities.

Epics

key summary type created updated due assignee reporter priority status resolution
Loading...
Refresh

Stories

key summary type created updated due assignee reporter priority status resolution
Loading...
Refresh


Longer term Roadmap

Indicate at a high level the longer term roadmap. This is to put things into the big perspective.

The long term goal is to reach a common platform for managing control loops within ONAP :

CLAMP is a platform for designing and managing control loops.  It is used to design a closed loop, configure it with specific parameters for a particular network service, then deploying and undeploying it.  Once deployed, the user can also update the loop with new parameters during runtime, as well as suspending and restarting it.

It interacts with other systems to deploy and execute the closed loop.  For example, it pushes the control loop design to the SDC catalog, associating it with the VF resource.  It requests from DCAE the instantiation of microservices to manage the closed loop flow.  Further, it creates and updates multiple policies in the Policy Engine that define the closed loop flow.  

The ONAP CLAMP platform abstracts the details of these systems under the concept of a control loop model.  The design of a control loop and its management is represented by a workflow in which all relevant system interactions take place.  This is essential for a self-service model of creating and managing control loops, where no low-level user interaction with other components is required.

At a higher level, CLAMP is about supporting and managing the broad operational life cycle of VNFs/VMs and ultimately ONAP components itself. It will offer the ability to configure, test, deploy and update control loop automation - both closed and open. Automating these functions would represent a significant saving on operational costs compared to traditional methods.

Another Key long term goal is to provide a better user experience by having more flexibility to add mico-service without code development.

A Dashboard has been introduced to allow the user to get a quick overview of the status of running control loops.


Release Deliverables

Indicate the outcome (Executable, Source Code, Library, API description, Tool, Documentation, Release Note...) of this release.

Deliverable NameDeliverable DescriptionDeliverable location
CLAMP Docker containerDocker images available on nexus3Nexus3 docker registry
Source Code

Code of the Designer and run time of CLAMP

CLAMP git repository
Deployment scriptsScripts that can be used to help with the container instantiation and configurationCLAMP git repository
Property FilesProperties files that can be used to tune the configuration of CLAMP depending on the environmentCLAMP git repository
DocumentationRelease specific documentation (Release Note, user guide, deployment guide) provided through readthedocsCLAMP git repository

Sub-Components

....

Architecture

High level architecture diagram

At that stage within the Release, the team is expected to provide more Architecture details describing how the functional modules are interacting.

Block and sequence diagrams showing relation within the project as well as relation with external components are expected.

Anyone reading this section should have a good understanding of all the interacting modules.

Architecture

  • Below we show how the CLAMP application fits into ONAP.  The red figure below shows the CLAMP application components.  There is a design portion and an operations component, which are both deployed within ONAP portal.



CLAMP is separated in 3 areas, which are currently (in seed code) both supported by a single application:

  1. Design Time(Cockpit/UI to Configure the received templates)
    1.  SDC will distribute a CSAR, for a service, the part of the CSAR that CLAMP will use are:
      1.   the Control Loop flow Templates(e.g: blueprint) are defined in DCAE-D(sub-component of SDC) and distributed to CLAMP by SDC. The templates format is TOSCA. The blueprint is also pushed, by SDC, to DCAE platform orchestration engine.
      2. The policy-models defining the DCAE µS used inside the blueprint. note that policy-engine will also receive this SDC distribution and so should be also aware of those policy-models.
    2. policies (configuration and operational policies) are pushed/provisioned towards the Policy Component of ONAP. (those policies will be triggered by DCAE during Closed Loop operations).
      1. The DCAE team needs to provide models to Policy team in order for the Configuration policy to be built. 
  2. Run time(DCAE-Policy, grabbing events and triggering policies based actions)
    1. the triggering to deploy(and then effectively start the closed loop)  a blueprint will be manual (via CLAMP cockpit) an automatic deployment based on an event will come in future release.
    2. The CLAMP cockpit will support the following action at runtime:
      1. start (start the provisioned Closed Loop on DCAE)
      2. stop (stop a provisioned Closed loop on DCAE)
  3. Dashboard (ELK based)
    1. CLAMP also provides (as a separate components) an ELK stack (with specific configurations for the elk components) that listen to Control Loop events published on DMAAP on specific dmaap topics. 


CLAMP will thus control the typical following control loop flow within ONAP :


Platform Maturity

Refering to CII Badging Security Program and Platform Maturity Requirements, fill out the table below by indicating the actual level , the targeted level for the current release and the evidences on how you plan to achieve the targeted level.

see also Platform Maturity Requirements (S3P).

AreaActual levelTargeted level for current releaseHow, EvidencesComments
Performance0

0

(given CLAMP is design time there is no point to adhere to L2 requirement) 

Run performance basic test, depends on performance criteria availability for level 1 - not able to commit to more than what was done on Beijing
  • Level 0: no performance testing done
  • Level 1: baseline performance criteria identified and measured  (such as response time, transaction/message rate, latency, footprint, etc. to be defined on per component)
  • Level 2: performance improvement plan created 
  • Level 3: performance improvement plan implemented for 1 release (improvement measured for equivalent functionality & equivalent hardware)

minimum level for Dublin is 0 except for Control Loop projects. 


see Performance levels

Stability12

Participate to Stability runs Level 1

CLAMP-276 - Getting issue details... STATUS


Integration Team is responsible to run the platform test to prove level 2.

  • Level 0: none beyond release requirements
  • Level 1: 72 hour component-level soak test (random test transactions with 80% code coverage; steady load)
  • Level 2: 72 hour platform-level soak test (random test transactions with 80% code coverage; steady load)
  • Level 3: track record over 6 months of reduced defect rate

minimum level for Dublin:2 

see Stability levels

Resiliency1

1

(given CLAMP is design time there is no point to adhere to L2 requirement) 

CLAMP-83 - Getting issue details... STATUS

  • Level 0: no redundancy
  • Level 1: support manual failure detection & rerouting or recovery within a single site; tested to complete in 30 minutes
  • Level 2: support automated failure detection & rerouting 
    • within a single geographic site
    • stateless components: establish baseline measure of failed requests for a component failure within a site 
    • stateful components: establish baseline of data loss for a component failure within a site
  • Level 3: support automated failover detection & rerouting 

    • across multiple sites 

    • stateless components 

      • improve on # of failed requests for component failure within a site 

      • establish baseline for failed requests for site failure 

    • stateful components 

      • improve on data loss metrics for component failure within a site 

      • establish baseline for data loss for site failure


Minimum Levels (Dublin)

  • Runtime Projects: Level 2 (stretch goal Level 3)
    • NOTE: For Dublin, the building blocks will be put in place for Level 3 geo-redundancy, and a few projects will pilot it
  • All other Projects: Level 1 (stretch goal Level 2)

see Resiliency Levels 


Security11

same as in Casablanca, not enough resource to allocate to this effort.



see Security Levels

Scalability11

Level 1 single site horizontal scaling

CLAMP-102 - Getting issue details... STATUS

  • Level 0: no ability to scale
  • Level 1: supports single site horizontal scale out and scale in, independent of other components
  • Level 2: supports geographic scaling, independent of other components
  • Level 3: support scaling (interoperability) across multiple ONAP instances

Minimum Levels (Dublin)

  • Runtime Projects: Level 1 
    • NOTE: For Dublin, the building blocks will be put in place for Level 2 geographic scaling, and a few projects will pilot it
  • All other Projects: Level 0 

see Scalability levels 

Manageability1

1

(2, if CLAMP can get more resource from the community)


  • Level 1:
    • All ONAP components will use a single logging system.
    • Instantiation of a simple ONAP system should be accomplished in <1 hour with a minimal footprint
  • Level 2:
    • A component can be independently upgraded without impacting operation interacting components
    • Component configuration to be externalized in a common fashion across ONAP projects
    • All application logging to adhere to ONAP Application Logging Specification v1.2
    • Implement guidelines for a minimal container footprint
  • Level 3
    • Transaction tracing across components

Minimum Levels (Dublin)

  • All Projects: Level 2
    • New projects should adhere to v1.2
    • Existing projects have stretch goal for v1.2
  • Stretch Goal: Level 3 
  • Note: some work will be done in Dublin to test/prep for a release upgrade strategy

see Manageability Levels 

Usability1

1

(2, if CLAMP can get more resource from the community)

CLAMP is not anticipating new API at this point, so we are technically compliant with API CVS at this point

  • Level 1:

      • User guide created
      • Deployment documentation
      • API documentation
      • Adherence to coding guidelines
  • Level 2:
  • Level 3
      • Consistent UI across ONAP projects
      • Usability testing conducted
      • API Documentation
  • Level 4

    Minimum Levels (Dublin)

    • All Projects: Level 2
    • Stretch Goal: External APIs also follow the Versioning Strategy


  • see Usability Levels


API Incoming Dependencies

List the API this release is expecting from other ONAP component(s) releases.
Prior to Release Planning review, Team Leads must agreed on the date by which the API will be fully defined. The API Delivery date must not be later than the release API Freeze date.

Prior to the delivery date, it is a good practice to organize an API review with the API consumers.

API NameAPI DescriptionAPI Definition DateAPI Delivery dateAPI Definition link (i.e.swagger)
Same as previous releaseAPI exposed by SDC to get list of Alarms and service information'sDate for which the API is reviewed and agreedAlready availableLink toward the detailed API description
Same as CasablancaSDC Client(jar library provided by SDC team) used to get service template (describing control loop flow) and blueprint id( to know which blueprint has been distributed to DCAE for this Control Loop template)
Already available

 API exposed by Policy to create/update guard policies 
(used for scale out use case operational policies)
 ongoingTBD

API exposed by Policy to create/update policies ongoingTBD
(new set of api based on policy-models)

Same as CasablancaAPI exposed by DCAE to start/stop a Closed Loop
Already available
Same as CasablancaAPI exposed by DCAE to trigger the deployment/undeployment of a Control Loop template
Already available
Same as Casablanca API exposed by DCAE to get status of a CLAMP deployed µS
Already available

  API exposed by DCAE to get status of all µS ongoing TBD

API Outgoing Dependencies

API this release of CLAMP is delivering to other ONAP Component(s) releases.

API NameAPI DescriptionAPI Definition DateAPI Delivery dateAPI Definition link (i.e.swagger)
N/A



Third Party Products Dependencies

Third Party Products mean products that are mandatory to provide services for your components. Development of new functionality in third party product may or not be expected.
List the Third Party Products (OpenStack, ODL, RabbitMQ, ElasticSearch,Crystal Reports, ...).

NameDescriptionVersion
Camelframework to define routing and mediation rules2.22.1
DockerContainer engine1.12
MariaDBdatabase container10.1.11
Spring bootSpring boot Framework dependencies1.4.1

In case there are specific dependencies  (Centos 7 vs Ubuntu 16. Etc.) list them as well.

Testing and Integration Plans

Provide a description of the testing activities (unit test, functional test, automation,...) that will be performed by the team within the scope of this release.

Describe the plan to integrate and test the release deliverables within the overall ONAP system.
Confirm that resources have been allocated to perform such activities.

CLAMP will invest in CSIT tests to allow further integration testing, CLAMP already provided some tests as part of R1.

Gaps

This section is used to document a limitation on a functionality or platform support. We are currently aware of this limitation and it will be delivered in a future Release.
List identified release gaps (if any), and its impact.

Gaps identifiedImpact
Testing/Integrationlimited testing of final product

Known Defects and Issues

Provide a link toward the list of all known project bugs.

key summary type created updated due assignee reporter priority status resolution
Loading...
Refresh

Risks

List the risks identified for this release along with the plan to prevent the risk to occur (mitigation) and the plan of action in the case the risk would materialized (contingency).

Risk identifiedMitigation PlanContingency Plan









Resources

Link toward the Resources Committed to the Release centralized page.

Release Milestone

The milestones are defined at the Release Level and all the supporting project agreed to comply with these dates.

Team Internal Milestone

This section may be used to document internal milestones that the team agreed on.

Also, in the case the team has made agreement with other team to deliver some artifacts on a certain date that are not in the release milestone, provide these agreements and dates in this section.

It is not expected to have a detailed project plan.

DateProjectDeliverable
To fill outsdcsdc UI/UX SDK

Documentation, Training

  • Highlight the team contributions to the specific document related to he project (Config guide, installation guide...).
  • Highlight the team contributions to the overall Release Documentation and training asset
  • High level list of documentation, training and tutorials necessary to understand the release capabilities, configuration and operation.
  • Documentation includes items such as:
    • Installation instructions
    • Configuration instructions
    • Developer guide
    • End User guide
    • Admin guide
    • ...

Note

The Documentation project will provide the Documentation Tool Chain to edit, configure, store and publish all Documentation asset.


Other Information

Vendor Neutral

If this project is coming from an existing proprietary codebase, ensure that all proprietary trademarks, logos, product names, etc. have been removed. All ONAP deliverables must comply with this rule and be agnostic of any proprietary symbols.

Free and Open Source Software



FOSS activities are critical to the delivery of the whole ONAP initiative. The information may not be fully available at Release Planning, however to avoid late refactoring, it is critical to accomplish this task as early as possible. List all third party Free and Open Source Software used within the release and provide License type (BSD, MIT, Apache, GNU GPL,... ). In the case non Apache License are found inform immediately the TSC and the Release Manager and document your reasoning on why you believe we can use a non Apache version 2 license.

Each project must edit its project table available at Project FOSS

Charter Compliance

The project team comply with the ONAP Charter.

Release Key Facts

Fill out and provide a link toward the centralized Release Artifacts.



  • No labels