Page Status: Copied from Guilin-R7 - Aug-24-2020
Component Status: Pending PTL updates and ArchCom Review
Last Reviewed on:
Certified by:
1. High Level Component Definition and Architectural Relationships
SDN-C / App-C:
Note: ONAP has two application level configuration and lifecycle management modules called SDN-C and App-C. Both provide similar services (application level configuration using NetConf, Chef, Ansible, RestConf, etc.) and life cycle management functions (e.g. Stop, resume, health check, etc.). They share common code from CCSDK repo. However, there are some differences between these two modules (SDN-C uses CDS only for onboarding and configuration / LCM flow design, whereas App-C uses CDT for the LCM functions for self service to provide artifacts storing in APP-C Database). SDN-C has been used mainly for Layer1-3 network elements and App-C is being used for Layer4-7 network functions. This is a very loose distinction and we expect that over time we will get better alignment and have common repository for controller code supporting application level configuration and lifecycle management of all network elements (physical or virtual, layer 1-7). Because of these overlaps, we have documented SDN-C and App-C together.
- Configure Network Functions (VNF/PNF)
- Provides programmable network application management platform:
- Behavior patterns programmed via models and policies
- Standards based models &protocols for multi-vendor implementation
- Extensible SB adapters such as Netconf, Ansible, Rest API, etc.
- Operational control, version management, software updates, etc.
- Local source of truth
- Manages inventory within its scope
- Manages and stores state of NFs
- Supports Configuration Audits
2. SDN-C/APP-C API definitions
Controller provides the following interfaces:
Interface Name | Interface Definition | Interface Capabilities | API Spec (Swagger) |
---|---|---|---|
CONE-1 | Operations Interface | An interface to request for Lifecycle management operations on network resources | |
CONE-2 | OSS Interface | An interface to request for Lifecycle management operations on network resources | |
CONE-3 | Service Order Interface | An interface to request for Configuration and Lifecycle management operations on network resources | |
CONE-4 | Policy Interface | An interface to support LCM requests such as Restart, Rebuild, Migrate, Evacuate operations on network resources (APP-C interfaces with openstack to send those LCM requests to VNF/VNF-C/VM) |
The current API documents can be found at:
https://onap.readthedocs.io/en/casablanca/submodules/appc.git/docs/index.html
Controller consumes the following interfaces:
Interface Name | Interface Definition | Interface Capabilities | API Spec (Swagger) |
---|---|---|---|
CONE-5 | Rest API | An interface for communication with external systems such as IP management | |
CONE-6 | Resource Chef API | An interface for configuration and Lifecycle management of network resources using Chef protocol | |
CONE-7 | Resource NetConf API | An interface for configuration and Lifecycle management of network resources using NetConf protocol | |
CONE-8 | Resource Ansible API | An interface for configuration and Lifecycle management of network resources using Ansible protocol | |
SDCE-6 | SDC Interface | An interface to receive resource Templates from SDC design catalog | |
CDSE-1 | CDS Interface | An interface to receive resource blueprint from CDS | |
AAIE-1 | Inventory Service Interface | An interface to create, update, query, and delete resource information and relationships | |
POE-2a | PDP Query API | Policy Decision Point query for IP address |
3. Component Description:
4. known system limitations
- Lack of clarity & roles in the controller (which controller does what?)
- Proliferation of controller instances (many similar yet different controller instances)
- Divergence of controller implementation (lack of common controller framework)
- Duplicate and uncoordinated interfaces (lack of uniform common services in southbound interfaces)
- Controller resiliency and horizontal scaling
5. Used Models
Controllers use the following models:
- TOSCA
- YANG
6. System Deployment Architecture
Controller consists of the following containers:
- CDS-UI container - Design Time
- SDC-CDS Listener container - Design Time
- CDT-UI container - Design Time
- Controller Blueprint MS Container - Design Time
- Blueprint Processor MS Container - Run Time
- Command Executor Container - Run Time
- CDS Database Container - Run Time
- DG Builder Container - Design Time
- Admin Portal Container - Run Time
- SDC Listener Container - Run Time
- DMAAP Listener Container - Run Time
- Controller (ODL) Container - Run Time
- Network Name Gen MS Container - Run Time
- Ansible Server Container - Run Time
- MariaDB Galera - Platform Service
- Netbox - Platform Service
- RunTime Config DB - Run Time
7. New Release Capabilities
- Upgrade of ODL to Aluminum SR (Service Release) 2
- Upgrade to Java 11 / Python 3.
- This was mostly completed in Guilin, but some cleanup is needed
- Removal of Java 8 / Python 2 executables
- Upgrade to Python 3.9
- This was mostly completed in Guilin, but some cleanup is needed
- OpenDaylight separation:
- In Honolulu release, SDNC will have 2 implementations of its generic resource API:
- The current ODL-based implementation
- A new springboot-based implementation
- We plan to test both versions to validate completeness of the springboot-based implementation. If successful, we would deprecate the ODL based version in Istanbul and remove it in Jakarta.
- In Honolulu release, SDNC will have 2 implementations of its generic resource API:
- Note: RunTime Config DB in CCSDK has been replaced by the standalone project CPS.
8. References
- APP-C overview & User Guide: https://docs.onap.org/en/casablanca/guides/onap-developer/developing/index.html#application-controller
- SDN-C overview & User Guide: https://docs.onap.org/en/casablanca/guides/onap-developer/developing/index.html#software-defined-network-controller