The purpose of the page is to:
- Design the Model Driven CPS PoC - REQ-384Getting issue details... STATUS
- Start the design of a stand-alone CPS
- Engage with the CPS community on the design of the stand-alone CPS
- Review with the ARCHCOM to ensure broad ONAP community awareness and agreed direction
PoC Overview Diagram
Topic Areas
Topic Area | Description |
---|---|
MODEL DRIVEN SCHEMA: Relates to Design time activities. SDC operation. Distribution of the CSAR and the Model-driven Schema coming from Design time | |
UPDATE: Takes incoming Standards Defined VES event from DCAE (PNF) and is published on DMAAP | |
SYNCHRONIZATION: C&PS synchronizes to A&AI, which allows it to get the latest view of what is in A&AI and align it with the C&PS data records. | |
SERVICE PROVIDER INTERFACE: The C&PS interface to the DBMS | |
C&PS API: The API that allows other micro-services and other components to access C&PS DB with CRUD operations. |
Scope
Base scope
- Read/write persisted Configuration Management data:
- defined by xNF (simple YANG model), published as YANG
- Models deployed @ runtime with no ONAP platform impacts or LCM events
- Show the benefits in terms of constraint validation, access and upgrade
Stretch target
Adapt behavior of CPS on read/write based on information in the model:
- Change notification emissions driven by the model
- Interaction with temporal data store, synergize with State Management PoC
- Volatile/prolific xNF data read-through (e.g. state data) – may be used to support histogram
- Model made available to CPS (Configuration and Persistency Service) using existing onboarding via SDC
- Provide some indication of dimension and user access characteristics that will be provided by CPS
Proof points
- Demonstrate Create/read operations using YANG fragments against a CPS backed by very simple schema / schema-less repository
- Demonstrate ability to deploy / upgrade YANG fragments at run-time
- Demonstrate CPS behavior driven by YANG model
- Provide architecture vision and roadmap for a target architecture, supported use cases, non-functional requirements towards an ONAP Project
Out of scope
- Automating the ingestion of models from SDC or controller (unless we get to it in the stretch target). The model LCM interface will be exercised manually during the PoC.
- Syncing with A&AI. The PoC will work on a fixed topology
High Level Design
Context of CPS
Interface Id | Purpose | ||
---|---|---|---|
AAIE-1 | Read and maintain relevant parts of the topology | ||
SDCE-6 | React to CSAR packages (on-boarded in SDC) that contain models of interest | ||
CPS-E-01 | Model lifecycle (add and remove models) | ||
CPS-E-02 | Data access interface (CRUD) | ||
CPS-E-03 | Notification of data change (configured by model) |
C4 diagram of main components
Logical view of the CPS as a project
Participant Name | Functional purpose | PoC handling |
---|---|---|
YANG Model parser | Converts YANG models into java objects | Required |
YANG Data parser | Converts data compliant with a YANG model into java primitives, assists the CPS core | Required |
Model store | Keeps a local cache of the structures and relationships (generated from the YANG models) required by the CPS | Required |
SDC Model loader | Subscribes to DMaaP for CSAR publication. Parses and extracts the models from the CSAR and gives them to the mirror service | Not required |
Topology sync | Does initial sync and maintains an up to date view of the active topology state. Informs the mirror service of any changes | Not required |
Mirror service | Encapsulation of all model and data access that relates to xNF | Not required |
Mirror Data access | REST interface that provides access to xNF data | Not required |
CPS Core | Provides validation of and access to data. Is agnostic to the DB technology and schema | Required |
CPS Data access | Provides REST CRUD access to the data | Required |
CPS notification | Provides a DMaaP notification in the event that (1) data is changed and (2) it has been tagged/marked for notifcation | Required for stretch |
PostgreSQL plugin | Maps the java primitive representation of the YANG data objects to their DB technology (PostgreSQL) and schema specifics (SQL) | Required |
PostgreSQL | Database Management System for current data | Required |
Temporal [Stack] | Placeholder for logical components representing the temporal handling of data | Not required |
Temporal DB | Database Management System for temporal data | Not required |
The blue software encapsulates the handling of models and data related to xNF (mirrored data). This implementation is not required to prove the model driven aspects of the CPS.
The pink software encapsulates the integration with other data stores. This is being taken by the temporal DB PoC. This PoC needs to provide a feed of change notifications for any joint demonstrations. Configuring the parts of the model that will emit change notifications is part of the stretch goal.
Model handling
Below a simplified view of model handling artifacts and their relationships.
The run-time artifacts are shaded (orange). A typical simplified flow:
- A document representing xNF data is given to the CPS.
- It will parse (and validate) the document,
- Map data to the generic DB schema and store data.
In order for this to work:
- The document must be compliant to an xNF schema model. This schema model describes the structure of the data and any constraints that need to be checked to ensure integrity.
- The xNF schema model must be written in YANG. This language describes syntax and capabilities (basic concepts).
- A Yang parser is required to interpret documents compliant with the YANG language. The parser is dependent on the language.
- To store data in a DBMS, typically a schema is required. This is denoted above as, 'Generic schema model'.
- Obviously the xNF schema model and the Generic schema model are not the same. Therefor a mapping is required. Depending on how simple/generic/abstract the generic schema model, the mapping may be coupled with either the language or the xNF schema model. One of the aims of the PoC is to be agnostic to the xNF model at run-time, thus the mapping is made to the YANG language.
- To support multiple container run-times (Java, Python, Go, Rust, ...) for the CPS, the mapping is described in a 'Language Capability Map'.
- The model mapper depends on the language capability map and the Yang parser (in particular the java representation of the language features).
Model ingestion
Model ingestion is subject to a design discussion. See below. This section will be updated when that discussion has been concluded and a decision made.
Note that for the purposes of the PoC, model ingestion will be via a model life-cycle REST interface.
Model upgrade
T.B.D. See Upgrade of models for discussion and decision
Backward compatibility
See decision for more information. Compatibility will be provided by either a dedicated component, or ONAP applications depending on legacy interfaces will be updated. This will depend on resources.
Detailed design
Key sequences/flows
Add a model
Store data (including validation)
Read data
Reading data is very similar to storing data. The uuid of the model instance is assumed. Validation is not needed. Queries will need to be processed and mapped to DB technology specifics.
Upgrade a model
T.B.D. Needs to wait until upgrade behavior is specified.
Adapt change notification behavior as described in model
Interfaces
Style and payload structure
Pending decisions: Data Representation and Interface style
REST payload structure
Java payload structure
Access methods
Name | Interface | Description | Parameters | Return |
---|---|---|---|---|
Add model | CPS-E-01 | Add a YANG model to the CPS so that compliant data may be stored & retrieved |
| Some identifier |
Remove model | CPS-E-01 | Mark a model for removal, and remove when no data remains that relies on the model |
| Success/Number of model instances still using model |
Upgrade model | CPS-E-01 | T.B.D |
| - |
Create model instance | CPS-E-02 | Prepare the underlying DB for the storage of data compliant to the model. |
| Model instance identifier |
Delete model instance | CPS-E-02 | Remove the data and any artifacts from the underlying DB |
| Success/Failure |
Create data | CPS-E-02 | [Validate &] Store data compliant to a model |
| Success/Failure |
Replace data | CPS-E-02 | [Validate &] Store data compliant to a model in place of existing data |
| Success/Failure |
Update data | CPS-E-02 | [Validate &] Update data that is (1) compliant to a model and (2) already stored |
| Success/Failure |
Delete data | CPS-E-02 | Remove data from a model instance |
| Success/Failure |
Data change notification | CPS-E-03 | Notify interested parties that data (marked as interesting by the model) has been modified |
| - |
Behavior
T.B.D.: Eventual consistency; Data integrity guarantees; Fast failure; Progress; Cancellation;
REST
Will be specified as part of the PoC execution, and updated/referenced from here
Java
Will be specified as part of the PoC execution, and updated/referenced from here