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

« Previous Version 127 Next »

Note: Work in Progress


Requirement

Key Contacts - @Byung-Woo Jun (Ericsson), ...

Executive Summary Provide ASD-based CNF orchestration support through SO and its sub-components, CNFM and CNF Adapter using K8S

  • Support for provisioning ASD-based CNFs using an external K8s Manager
    • Instantiate and optionally overwrite the values of an application
    • Terminate an application and optionally remove all relevant Persistent Volume Claims and Persistent Volumes
    • Change application details using the change package function, which allows to change the deployment version of the CNF thru an upgrade or rollback (stretch goal)
  • Leverage and enhance SO capabilities and adding new capabilities for ASD- and Helm-based CNF orchestration
    • Orchestrator shall support the capability to use the deployment parameters from ASD for the application or CNF deployment. These deployment parameter values shall correspond to the parameters defined in the “lifecycleParameters” section(s) of the ASD.
    • Orchestrator shall support the capability to construct a values file from instance specific parameter values provided at deployment time, and default values supplied in the chart.
    • Orchestrator shall support the capability to perform a chart render into concrete K8S resource descriptions.
    • Container resource management for determining placement for CNF application on certain K8S cluster(s), orchestrator shall support the capability to parse the workload descriptors and extract those values.

Business Impact Enables operators and service providers to orchestrate ASD-based CNFs services along with the VNFs and PNFs

Business Markets - All operators and service providers that are intended to use the ASD-based CNFs along with PNFs / VNFs

Funding/Financial Impacts - Reduction in the footprint of the ONAP for CNF support

Organization Mgmt, Sales Strategies - There is no additional organizational management or sales strategies for this requirement outside of a service providers "normal" ONAP deployment and its attendant organizational resources from a service provider

JIRA: REQ-1043 - Getting issue details... STATUS

Epic

EpicDescriptionJIRApriority
SO and its sub-components, CNFM, CNF Adapter, shall support ASD-based CNF lifecycle orchestration

SO and its sub-components, CNFM, CNF Adapter, shall support ASD-based CNF lifecycle orchestration (deployment and configuration)

SO-3808 - Getting issue details... STATUS

1








User Story

User StoryAffected ComponentDescriptionJIRAPriority
SO shall get the ASD-based CNF package from SDC and store its metadata to SO Catalog DB

SDC Controller,

CatalogDB Adapter,

CatalogDB

SO shall get the ASD-based CNF package (SDC Service CSAR) from SDC and store its metadata to SO Catalog DB.

Pre Condition:

  • SO  SDC Controller, CatalogDB Adapter and CatalogDB component instances are running and ready to get SDC notifications

Post Condition:

  • SO Catalog DB contains the ASD-based CNF package metadata and artifacts

SO-3839 - Getting issue details... STATUS

1
  • Task: When SO gets a package notification from DMaaP, SO SDC Controller queries SDC for the ASD-based CNF Service CSAR that embeds the ASD-based CNF Resource VF.

1
  • Task: SO distinguishes the ASD-based CNF package based on the package metadata, and stores the ASD-based CNF package metadata and artifacts to SO Catalog DB
    • Resource VF TOSCA.metadata will have the "ASD" entity_definition_type.

1
For ASD-based CNF provisioning, SO shall process model info and decide flows

API Handler,

RequestDB Adapter,

RequestDB,

SO BPMN Infra, 

AAI

SO shall process ASD model info and decide ASD provisioning flows

Pre Condition:

Post Condition:

  • CNF Manager receives requests from SO BPMN Infra and processes the requests
  • After the CNF Manager process, SO shall update CNF to AAI

SO-3840 - Getting issue details... STATUS

2
Task: 
  • Create & Configures ASD-based CNF workflows
    • Create new BPMN workflows for ASD-based CNF workflows
      • Design to invoke SO CNF Manager
    • Configure SO MacroFlows for ASD-based CNF workflows

2.1

Task:

  • SO API Handler receives a service (or a la carte) request for ASD-based CNF and stores the request information into the Request DB
    • Note: expect no change

2.2

Task: 

  • SO BPMN Infra decomposes Service into VF Resource(s) and per VF resource, SO BPMN process resource handling
    • If the VF resource metadata indicates the ASD-based VF, SO shall process ASD-based CNF workflows

2.3

Task:

  • SO shall create service instance to AAI
    • note: leverage AAI schema service; no code impact

2.4

Task:

  • SO shall delegate ASD-based CNF orchestration to SO CNFM
    • Pass input parameters including ASD reference Id, LifecycleParameter, etc.
    • note: until SO CNFM is ready, use no-opt operations as a place holder

2.5
SO CNFM shall process ASD-based CNF Lifecycle orchestration





















SO CNFM,

ASD Repository,

Helm Artifact Repository,

OOF,

AAI, 

SDNC Adapter,

SDNC,

CDS,

CNF Adapter


































SO CNFM shall process ASD-based CNF Lifecycle orchestration

Pre Condition:

  • ASD and App onboarding package is stored in the Catalog Repository
  • Helm Chart(s) are stored in the Helm Artifact Repository
  • AAI shall support CRUDQ of ASD-based CNF Resources

    • Leverage existing AAI APIs
    • Investigate any new AAI APIs for ASD-based CNF Resources (TBD)

Post Condition:

  • ASD-based CNF is provisioned by SO CNFM

Note: PoC, ASD external CPDs will not be handled (TBD)

Note: ASD Repository, Helm Artifact Repository, Image Artifact Repository will be handled by another Epic, which is defined in Application Package Distribution 

SO-3841 - Getting issue details... STATUS

3

Task: Create SO CNFM and make it available in ONAP

  • Create SO CNFM as an SO sub-component, with NBI, Business Logic and SouthBound Plugin for 1) Helm Client or 2) CNF Adapter
  • Make SO CNFM POD is deployable in OOM
  • Register SO CNFM POD to AAI automatically

3.1
Create SO CNFM REST API swagger, based on the ASD LCM Restful API, ASD LCM RESTful Protocols for SO CNF Manager and Swagger file (ASD LCM RESTful Protocols for SO CNF Manager)
3.2

Task: Support for SO CNFM NBI API Handler

  • SO CNFM shall support its NBI REST Apis to handle requests from SO.

3.3

Task:

  • SO CNFM shall support the capability to process input parameters from SO, and use the deployment parameters from ASD for the CNF deployment. Those deployment parameter values shall correspond to the parameters defined in the "lifecycleParameters" section(s) of the ASD.

3.4

Task:

  • SO CNFM shall communicate with the ASD Repository to get ASD (descriptor) and artifacts from the ASD repository Manager.

3.5

Task:

  • SO CNFM shall decompose ASD and get the associated DeploymentItems list
    • Get HelmChart references from the DeploymentItems
    • Get ASD from the Repository
      • GET /api/asds/<name> (TBD)

3.6

Task:

  • By leveraging the obtained HelmChart references, SO CNFM shall get associated Helm Charts from the Helm Repository Manager.
    • GET /api/charts/<name>/<version> 

3.7

Task: Create SO CNFM Instance Database Management

  • Create SO CNFM Database tables
  • Provides Database Access Objects (DAO) for CRUD for SO CNFM

3.8

Task:

  • SO CNFM shall support the capability to construct a values file from instance specific parameter values from SO and merge the values with default values from ASD Helm Chart values.
  • SO CNFM shall store the generated values file  for an instance to SO CNFM database

3.9

Task:

  • SO CNFM shall transform ASD cloud artifacts with parameters to K8S resource description (e.g., helm template or helm install --dry-run)

3.10

Task:

  • SO CNFM shall get placement information by passing K8 resources + ASD' + additional data to the Placement component such as OOF.
    • Note: Use of OOF could be out-of-PoC-Scope (TBD)
    • for PoC, it is allowed to choose predefined K8S Clusters

3.11

Task:

  • SO CNFM shall make a placement decision based on the decision from the Placement component.

3.12

Task:

  • Per DeploymentItem, SO CNFM shall send (with cluster id, parameter, cloud artifacts) to the SO CNF Adapter for the connection to K8S plugin
    • Support Helm Template / Dry-run, Helm Install, Helm Uninstall and Helm Upgrade 
    • SO CNF Adapter APIs are being studied. 

3.13

Task:

  • SO CNFM shall update the CNF instance to AAI, by leveraging AAI APIs

3.14

SO Client shall send the A La Carte Request for ASD-based CNF orchestration

(note: E2E support is out of PoC scope)

SO Client,

SO,

SO BPMN,

CNFM

CNF Adapter

SO Client shall send the A La Carte Request for ASD-based CNF orchestration

Pre Condition: 

  • SO, CNFM and CNFM Adapter are ready and running
  • AAI and SDNC are ready and running

Post Condition:

  • CNF Orchestration request is processed and CNF is deployed in K8S

SO-3842 - Getting issue details... STATUS

4

Task:

  • Provide CNF instance input parameters, based on the lifecycleParameters from the ASD DeploymentItem
  • Provide asdExtCpd inputParamMappings for CNF deployment 
    • it is out of PoC scope

4.1

Task:

  • Use of CDS for instance parameter assignment is out of PoC scope (TBD)

4.2?

Overall Process

  • Pre-Conditions
    • SDC accepts onboarding App packages, including ASD and DeploymentItems models, Helm Charts, Images and other artifacts, what allows to keep decomposition of Service instance
    • SO subscribes and receives package notifications from SDC
  • ASD-Based CNF LCM Orchestration
    • Based on the notifications, SO ASDC Controller queries for the App packages from SDC, and stores models and artifacts to SO Catalog Database
    • MACRO workflow in SO is used for orchestration
    • ASD supports multiple Helm Charts in  CNF packages. 
    • ASD instance will be decomposed to find its associated deployment item(s). 


ASD-Based App Package Type

  • The Resource VF(s) in the onboarded Service CSAR will have the following resource main manifest file
    • application_name
    • application_provider
    • release_date_time
    • entry_definition_type [ "asd"]
  • SO distinguishes the App package based on the "entry_defintion_type" metadata.
    • If it is "asd", SO will process the package as the ASD-based CNF.
    • SO delegates the ASD-based CNF orchestration to the CNF Manager


LCM Architecture Overview

The following diagram depicts LCM Architecture for the ASD-based CNF.


SO Internal Architecture

The following diagram depicts SO internal architecture for the ASD-based orchestration:

AS LCM Restful API

Please refer to the section, ASD LCM RESTful Protocols for SO CNF Manager .


ASD LCM Operations


<as_create_instantiate.bpmn example>


Process Sequence

Create and Instantiate AS

  • <Preconditions>:
    • Registar K8S Cluster(s) to ONAP
    • During the registration, SO CNFM creates .kube/{target K8S cluster name}.config file(s)


  • <SO BPMN Infra>
    • BPMN Infra workflow gets VF Resource TOSCA.meta. 
    • In there, the entity_defintion_type is found and it is set to "asd", BPMN infra launches the AS LCM Workflow as the above.
    • The workflows sends a request for Create AS Identifier to SO CNFM


  • <Create an AS Identifier>
    • SO CNFM receives the create request (CreateAsRequest) and processes the request and return a response with AsInstance
      • CreateAsRequest:

        asdId

        Identifier (UUID)1Identifier that identifies the ASD which defines the AS instance to be created.

        asInstanceDescription

        String0..1Human-readable description of the AS instance to be created.

        asInstanceName

        String0..1Human-readable name of the AS instance to be created.
      • The client passes "asdId" to SO CNFM, so CNFM can query an ASD with the asdId from the ASD Repository

      • SO CNFM copies the incoming CreateAsRequest attributes into an AsInstance structure, and persists the AsInstance, which has a connection between the asInstanceId and asdId
      • note: SO CNFM will uses the asdId when it queries an ASD from the ASD Repository during the instantiation operation
    • When the Create AS instance is successful, SO CNFM returns 200 OK with the AsInstance
      • The returned AsInstance contains the asInstanceId
      • Subsequent operations uses the asInstanceId; i.e., the Client use the asIstanceId in the REST Api path


  • <Instantiate an AS>
    • BPMN Infra sends an AS instantiate request to SO CNFM with the asInstanceId as follows:
      • POST .../as_instances/{asInstanceId}/instantiate (InstantiateAsRequest)
      • InstantiateAsRequest

        Attribute Name

        Data Type

        Cardinality

        Description

        asdExtCpdInputParams

        ExtCpdParams

        0..Ncontains ext cpd parameter instance-level value

        deploymentItems

        DeploymentItems1..Ncontains lifecycle parameters for deploymentItems
        additionalParamsKeyValuesPairs0..1Additional input parameters for the instantiation process (this is a pace holder to hold any additional parameters which are needed by SO CNFM)
    • SO CNFM retrieves the corresponding AsInstance from its DB; it is retrieve the "asdId" for the ASD query
    • SO CNFM queries an ASD with the asdId from the ASD Repository; caches the retrieved ASD in the memory during the Instantiate operations
    • SO CNFM reads thru the ASD DeploymentItems, and per deploymentItems, SO CNFM queries for the associated Helm Chart (1:1) from the Helm Chart Repository
      • caches the retrieved Helm Charts in the memory during the Instantiate operations
    • SO CNFM reads the deploymentItems.deploymentOrder. Based on the order sequence, SO CNFM processes the deploymentItems one by one
    • For each, deployment item,
      • SO CNFm creates vf-modules in AAI
      • SO CNFM assignes vf-modules in SDNC
      • From the InstantiateAsRequest, SO CNFM retrieves the deploymentItems
        • DeploymentItems

          deploymentItemIdIdentifier1Identifies which deploymentItem

          lifecycleParameterKeyValues

          KeyValuesPairs0..Nprovides lifecycle parameter keys and values
        • The lifecycleParameterKeyValues contains a list of customizable attributes (key) in the values.yaml with instance-level values
      • From the associated Helm Chart, SO CNFM gets the values.yaml
      • SO CNFM creates a new values.yaml, based on the retrieved values.yaml + lifecycleParameterKeyValues
      • ==== SO CNFM processes the asdExtCpdInputParam ==== TBD
      • SO CNFM performs "helm template " to render K8S resource template(s)
      • With the rendered k8S resource template(s), SO CNFM gets a placement decision from the Placement component (e.g., OOF)
        • Currently, use of OOF is out of the scope from the initial PoC
        • In the initial PoC, a simplified placement function will be used
      • Based on the placement decision, SO CNFM determines the target K8S cluster
      • Set the Helm command environment to connect to the target K8S cluster
        • set .kube/{target K8S cluster name}.config
      • SO CNFM invokes "helm install" command with the corresponding Helm Chart and a new values.yaml
        • SO CNFM will have a few South-Bound plugin (helm client, CNF Adapter, others)
        • in the initial PoC, the helm client will be used
      • If successful, SO CNFM update the corresponding vf-module in the AAI


  • <Postconditions>:
    • each POD is a Ready status. This ensures that each POD can serve requests.
    • Some of the PODs will not reach the Ready status until a day 1 configuration is applied
    • The PODs still need verification of containers with a specific ContainerState


AS LCM APIs


Create an AS Identifier

In order for an application (CNF) to be eligible for instantiation, a CNF identifier must be created to identify the application service as a unique instance.

An AS instance supports multiple deployment items (helm charts). So, the AS instance id could be used for helm release names as the prefix.


Query AS Instance Identifiers

To list all AS instances, make a GET request to SO CNFM.

GET .../aslcm/v1/as_instances


Query an AS instance by Instance ID

To query a specific AS instance by its instance ID, make a GET request to SO CNFM.

GET .../aslcm/v1/as_instances/{asInstanceId}


Instantiate an AS
  • To instantiate an AS, make a poST request to SO CNFM. The target cluster name is included in the requrest parameter.

POST .../as_instances/{asInstanceId}/instantiate

  • if some of the parameters required for instantiation are complex and cannot fit into the additionalParams section of the JSON request body (TBD).


Upgrading an AS

This operation is referred to as the changing of an AS package.

POST .../as_instances/{asInstanceId}/change_aspkg



Terminate an AS Instance

This operation terminates an AS instance.

POST .../as_instances/{asInstnaceId}/terminate (TerminateAsRequest)


Note: for PoC, GRACEFUL termination type is not supported.



Delete an AS Identifier

This operation deletes an AS Identifier.

DELETE .../as_instances/{as_instanceId}


Note: optionally, Delete an AS Identifier could clean up resources of an AS Instance, e.g., Persistent Volumes (PVs)




===========


Register K8S Clusters (checking if AAI can be used)

To instantiate an AS on an non-ONAP K8S cluster, a cluster configuration file that is specific to the cluster must be uploaded.

To add a cluster configuration file of a cluster, create a POST request .../aslcm/v1/clusterconfigs will be performed.

  • CNFM receives the clusterconfigs info and creates a cluster configuration file (cluster name + "." + "config" to the ./kube directory.


The kubectl configuration file is used to the body of the request to define external K8S clusters.

The cluster configuration file for a particular cluster must be retrieved from the cluster administrator.

The Cluster configuration file pre-requisities are:

  • It must start with an alphanumberic character
  • It can only contain alpahnumberic characters, dashes (-_, or underscores (_)
  • It must end with .config

Should the cluster configuration file change for any reason, e.g., CA certificate rotation on the target cluster or client key expires, then the cluster file registered in SO CNFM/AAI shall need to be updated.

The target cluster server and port must be reachable from the SO CNFM.

  • to verify the connectdion to the target cluster, run the following command from the ONAP K8S cluster
    • kubectl --kubeconfig ${PATH_TO_TARGET_CLUSTER_CONFIGURATION_FILE} get namespaces


Deregister K8S Clusters (checking if AAI can be used)

To remove a cluster configruation file, create a DELETE request. .../aslcm/v1/clusterconfig/{configName}

The configName would include the K8S Cluster name as the file prefix

CNFM will remove the "configName" + "." + "config" file from the .kube directory.


The command returns the HTTP status code 204 No Content


List Registered K8S Clusters (checking if AAI can be used)

To get details about registered clusters, create a GET request .../aslcm/v1/clusterconfigs

The API returns a paginated response, but if a customized response is needed, additional parameters for page, size, sor and filtering could be applied.




Helm Command Support

The Helm library uses the Kubernetes client library to communicate with Kubernetes. Currently, the library uses REST+JSON. It stores information in Secrets located inside of Kubernetes; i.e., it does not need its own database.

  • Helm Install
  • Helm Uninstall
  • Helm Upgrade

Component Communication Security

The component communication security will be achieved by leveraging Service Mesh. The external Helm Artifact Repository secure communication is under discussion.

Design and Distribution of ASD Service CSAR - Day 0

The following sequence diagram depicts design and distribution of ASD service CSAR, based on CNFO. This sequence could be changed. 

Instantiation of ASD Service CSAR - Day 1

The following sequence diagram depicts instantiation of ASD-based CNF.


Option A: use Helm Command:



Option B: use of CNF Adapter (this is not part of initial PoC)

Note: use of CDS is TBD.



Tenant Support

The Tenant support will be realized by Kubernetes cluster, namespace, node and container. Initially, namespace can be used to restrict API access, to constrain resource usage and to restrict what containers are allowed to do.

Assumption & Requirements (from cloud.google.com)

source: https://cloud.google.com/kubernetes-engine/docs/best-practices/enterprise-multitenancy 

The best practices in this guide are based on a multi-tenant use case for an enterprise environment, which has the following assumptions and requirements:

  • The organization is a single company that has many tenants (two or more application/service teams) that use Kubernetes and would like to share computing and administrative resources.
  • Each tenant is a single team developing a single workload.
  • Other than the application/service teams, there are other teams that also utilize and manage clusters, including platform team members, cluster administrators, auditors, etc.
  • The platform team owns the clusters and defines the amount of resources each tenant team can use; each tenant can request more.
  • Each tenant team should be able to deploy their application through the Kubernetes API without having to communicate with the platform team.
  • Each tenant should not be able to affect other tenants in the shared cluster, except via explicit design decisions like API calls, shared data sources, etc.

Access Control

TBD

Network Policies

TBD


Resource Quotas

TBD

AAI Data Model

AAI CNF Model - Overview

Note: the following overview came from the Direct CNFO AAI CNF Model. We will start it from here and will finalize the AAI model of ASD-based CNF.

  • Currently no CNF Resources information is visible in ONAP AAI - agree
  • Some interfaces are already implemented (Multicloud k8s Status/Query API) that
    allow retrieval of detailed resources information - plan to leverage existing interfaces if they are appropriate
  • Initial implementation of CNF Model in AAI should be simple and allow user to
    know about resources available and where to get their exact status from - plan to leverage the CNF model in AAI if they are appropriate
  • Long-Term solution should design appropriate CNF Resources in AAI, providing
    only the most important data and relationships about them. - TBD


AAI CNF Model

Note: the following overview came from the Direct CNFO AAI CNF Model. We will start it from here and will finalize the AAI model of ASD-based CNF.

  • Create additional AAI Object storing Any CNF Resource in K8s
  • This new object (eg. k8sobject) should be related to generic-vnf/vf-module and cloud-region (subresource), using similar relationship matrix as vservers
  • Data stored within AAI would be very generic, containing more or less only:
    • Name [string; Primary Key]
    • Group, Version, Kind [strings; Primary Key]
    • Namespace [string; Primary Key]
    • Labels [map[string]string or []string] (depending on AAI capabilities)
    • Annotations [map[string]string or []string ] (depending on AAI capabilities)
    • DetailsReflink [string or object]
      • This field allows AAI Object consumer to specify query toward SO CNF Adapter to get full object data

Simple AAI CNF Model - Jakarta - Initial Model

Note: the following overview came from the Direct CNFO AAI CNF Model. We will start it from here and will finalize the AAI model of ASD-based CNF.

This model was drafted for reference and requires further tuning and agreement. This model needs to be discussed further at the Modeling Subcommittee 


Main assumptions of this model:

  • Update existing resources schema (Cloud-Region, Generic-VNF) and/or create CNF counterparts (VF-Module)
  • Store Resources definitions about Controllers (eg. Deployments), Compute (Pods, Containers), Storage (PV/PVC), Network (Pod Interfaces, Services) and Configuration resources (eg. ConfigMaps, Secrets).
  • Store unclassified resources like CRDs under “Uncategorized” - like object

Use of AAI Model K8S Resource Object

We are considering reuse of AAI K8S Resource Object, which was designed for CNFO.

Use of AAI Model K8S Resource Object Relations

We are considering reuse of AAI K8S Resource Object Relations (TBD)


SO ASDC Controller Handling

ASDC Controller Enhancement

SO Catalog DB Enhancement


VF-VF-Module-Helm Package

  • During SDC onboarding, the ASD is mapped to VF, and the DeploymentItems is mapped to Vf-Module
  • SO expects ASD VSP onboarding packages has the Native Helm, without Dummy Heat.
  • VF is split into multiple vf-modules. each vf-module is dedicated to one Helm package. 
    • each Helm application after instantiation is visible to ONAP as a separate vf-module


Deployment Components

note: the current CNFO; will be changed for ASD-based CNF orchestration

ONAP ComponentDescription
AAIRequired for Inventory Cloud Owner, Customer, Owning Entity, Service, Generic VNF, VF-Module
SDCVSP, VF and Service Modeling of the ASD-based CNF
SORequired for Macro Orchestration using the generic building blocks
CNF Adapter
SDNCProvides GENERIC-RESOURCE-API for cloud instantiation orchestration via CDS
Policyused to store naming policy
Portalrequired to access SDC
CDSTBD
CNFM
MultiCloudTBD
Runtime Catalog Mgr
Helm Artifact Repository
Image Artifact Repository

SO CNF Manager Input Parameter Handling






  • No labels