Project Name:
Proposed name for the project: OpenSource Access Manager
Proposed name for the repository: osam
Project description:
OpenSource Access Manager is a vendor agnostic operation suite for managing consumer broadband network elements and capabilities disaggregated from proprietary monolithic Access Network hardware and Element Management Systems (EMS).
A key component to simplify multi-vendor support is a mediation layer currently under development called VOLTHA (ONF open source project). VOLTHA uses low-level abstraction of the network device to provide a simplified approach to higher level management and analytics. Currently xPON and G.FAST are the initial products under active development in collaboration with ONF.
Scope:
OpenSource Access Manager is a domain specific module for ONAP consisting of the OA&M User interface, flows, web services and microservices in support of virtualized multi-access network for consumer broadband services. At a high level it divides into global and localized functions to operate at large scale and performance for edge networks. The major components of Access Module that do not exist in ONAP today are the user interface (UI), the carrier grade access controller and hardware abstraction though OSAM-HA (ONF: VOLTHA). Access specific data models, services and flows will be built on existing ONAP components and may feed additional requirements. The infrastructure elements, services, flows, data collection processes will be utilized and existing or planned feature sets should not be impacted.
Below are the functions of access network needed on top of the infrastructure services that are already provided as part of ONAP. The requirements for Access will be isolated to the Access Module to not impact the core ONAP capabilities and deliverables.
Access network is broken down into central and edge deployments. Some functions of the control and management will be located centrally and some may be located at the edge in support of access.
Central Compute
- User interfaces in support of access.
- Common ONAP interfaces (Portal, SDC, VID, OOM, CLAMP, CLI) will be reused
- UI for Broadband Subscriber Access Network devices and Services
- Reuse of ElasticStack (Kibana, Log Stash and Elastic Search)
- Reuse of the common ONAP functions (In addition to above - limited to the context of access)
- AAI
- DCAE
- SO
- DMaaP
- AAF
- Policy
Generally Edge Compute (Could be with Central Compute)
- User interfaces in support of access.
- Common ONAP interfaces (Portal, SDC, VID, OOM, CLAMP, CLI) will be reused
- UI for Broadband Subscriber Access Network devices and Services
- Reuse of ElasticStack (Kibana, Log Stash and Elastic Search)
- Reuse of the common ONAP functions (In addition to above)
- DCAE
- SO
- DMaaP
- AAI
- Policy
- APP-C
- SDN-C
- Multi-Cloud VIM
- Access Specific Functions
- DSC- OSAM - Control for Dynamic Control & User Plane
- Incudes the subscriber Virtual Tenant Network
- Authentication Tenants
- Subscriber DHCP Relay
- Subscriber BNG Associations
- OSAM - HA - Network Abstraction Layer for Access Devices
- FreeRADIUS for Subscriber 802.1X authentication
- OpenLDAP for Subscriber policies and configurations
- OSAM Collector for DCAE
- OSAM Analytics for DCAE
- DSC- OSAM - Control for Dynamic Control & User Plane
User stories/Requirements
- Access Network services will operate as containers generally in an edge cloud environment utilizing Docker containers.
- Edge Network services will utilize Kubernetes and K8 models
- Virtualized Access containers will be deployed and lifecycle managed by ONAP core components
- Services provided for the Virtual Access Network will be orchestrated through SO
- VNF Management functions will be controlled by APPC
- Inventory for the access domain will be modeled for AAI
- Tenant service relationships will be modeled in AAI between OSAM - Control and OSAM - HA
- Broadband Subscriber profiles will be modeled for AAI
- AAI will be the DOR for the Broadband Subscriber profiles, but pulled to a domain specific OpenLDAP system
- TOSCA resource models, K8's, Service Models, Images will be created for the OSAM components
- OSAM-UI (Suite of Docker based microservices)
- OSAM-Control (Karaf based Controller)
- OSAM-HA (Suite of Docker based microservices)
- VOLTHA Core, NETCONF Server, REST Ser
- FreeRADIUS
- OpenLDAP
- OSAM Collector Agent
- OSAM Analytics Agent
- Subscriber Broadband Service
- Access related flows will be modeled in BMPN2 for the SO
- SDC will distribute
- SDC→SO: Distribute the Service Template(s)
- SDC→AAI: Distribute the Inventory Model(s)
- SDC→SDNC: Distribute the network underlay connectivity
- SDC→APPC: Distribute the Directed Graph(s)
- SDC→Policy: Distribute the policy Template(s)
- Initial focus will be limited to Threshold Crossing Analytics
- SDC→DCAE: Distribute Configuration(s)
- SDC→DMaaP: Distribute the topic and partition configuration(s)
- SO Flows
- Add/Update/Remove Broadband Subscriber
- Add/Remove VNFs
- Migrate Broadband Subscriber Services
- Scale Up/Down OSAM-Control and OSAM-HA
DSC/OSAM-Control
- Integration of existing Domain specific controller for broadband subscriber services
- Provides dynamic control & user plane capabilities
- Provides REST/OpenAPI Spec Interfaces
- Provides 802.1X for RADIUS authentication
- Provides the DHCP Proxy and Client Agent
- This may differ by implementation
- Provides the mapping from the Subscriber to the BNG
- Log data provided by Kafka.
- Data will be mediated through a VES converter (OPNFV) to the DCAE Collector agent
OSAM-HA
- Integration of existing Domain Specific abstraction layer that provides uniform access to Broadband Access hardware
- Provides REST/OpenAPI Spec and NETCONF/YANG Interfaces/Models
- Log data provided by Kafka.
- Data will be mediated through a VES converter (OPNFV) to the DCAE Collector agent
VOLTHA hardware abstraction providing disaggregation of many of the functions currently performed by OLT hardware
Protocol Abstraction and Multi-Access API uniformity
Device persistence
Data Harmonization
OSAM Collector Agent
- Built off of the DCAE collector agent framework
- Receives the VES data from the OSAM-Control and OSAM-HA
- OSAM-Control→Kafka→VES Adapter→DCAE Collector Agent→DCAE
- OSAM-HA→Kafka→VES Adapter→DCAE Collector Agent→DCAE
- Provides data to DCAE
OSAM Analytics Agent
- Built off of the DCAE collector agent framework
- Receives the VES data from the OSAM-Control and OSAM-HA
- Provides Analytics for Access and interacts with the Policy Framework
- Existing Threshold Crossing analytics and policies will be reused and models will be built to reference a scaling SO developed OSAM
Service Orchestration
- Carriers need the ability to create, update and remove broadband subscriber instances from the virtualized access components
- The interactions with the access components will be orchestrated through SO
- Carriers need support for orchestration on the edge where limited ONAP infrastructure will exist
- The flows will interact with AAI to retrieve the inventory of the access network
- Carriers need the ability to manage the firmware on the physical device with coordination with the disaggregated network services
- Flows will need to make coordinated events to ensure the network services are moved, restored and tested
OpenLDAP
- OpenLDAP will store the subscriber authentication and profile information
- SO will interact with OpenLDAP for updating the subscriber data, security and service profiles
- System will be utilized as a reference implementation and not intended for production use
- This functionality is isolated from ONAP capabilities to support scale of the broadband authentication processes
OSAM-UI
While the goal is to automate and centralize as much as possible, operations will still need tooling to diagnose and manage all of the edge and deep edge environments.
- User interface provides capabilities for operations to manage and diagnose problems in the access network.
- Provides a view of the relationship of broadband subscriber services and health of the service chain
- Provides a centralized view of the access network deployed at edge compute locations
- User interface will leverage the Portal SDK.
- Security will utilize groups and roles created in AAF
- Interface to AAI APIs to pull OSAM Network Resources
- Ability for operations to build and deploy advanced services utilizing Node-Red that directly interact with the OSAM-UI
- Interface allows for the bulk execution of flows against many devices and services selected in the OSAM-UI against an enabled service
- Services are automatically enabled through the management UI using OpenAPI specs generated from Node-Red
- A view of error details for functions/devices streaming with related hot links into the low level details (e.g. Abstraction Layer, OLT, Port, ONU, ONU Uplink Port, ONU UNI Ports, DPU, CPE, MicroServices, and future components)
- Advanced text and regular expression based filters based on device names or event details
- Time range based filters
- Customizations
- Customizations by a user, group or system level
- Context sensitive interface changes driven by exposed APIs
- Ability to store and share views
- Ability for a user to load multiple views at the same time
- Single application for Network visualization with integrated analytics from DCAE, Elastic Stack and Grafana
- Operational dashboard showing geographic distribution of the network and services health (“Heat Map”)
- Established links between devices/service management and the graphical representations
- Interface for scheduling and coordinating access related devices and software
- Firmware Release Management and Upgrades
- Snapshot management of Access devices and configurations
- This will be utilized for comparison, restoral and migration activities
- VNF Service Versioning Management at a collection or subscriber level
- User Migration flows in coordination with Firmware and VNF release management
- Rollback and notification under failure conditions or forced action
- Ability to create collections of subscribers, VNFs, and devices
- Configurable Maintenance Window
- Ability to operate in serial or parallel at the collection level
- Ability to establish dependencies prior to execution
Support for systems, network, software, service and configuration segmentation (slicing)
Can be configured by Global, Site, DMA, Service Type or Device Type and each being subdivided by Release Type
Support different lifecycle states of software, firmware and configuration within
Examples Crawl, Walk, and Run methodology of deploying changes
Examples Development, Test, Incubation, and Production state of services
Software Versions, Firmware, Policies, and configurations should be configured as a package
Deployed for a specific set of hardware
Ability to manage hierarchical configuration management and version controlled
Tool for viewing historical changes, comparison, events, and health of a segment
Architecture Alignment:
OpenSource Access Manager is a domain specific management and services stack interfacing and interacting with the core ONAP capabilities that support and maintain the underlying virtual and physical infrastructure.
OpenSourceAccessManager_ONAP_2.png
How does this project fit into the rest of the ONAP Architecture?
- ONAP manages the physical infrastructure hosting the virtual network function and the underlay network.
- Access Management will leverage many of the existing infrastructure components (AAI, DME, JSC, and Directed Graphs).
- Access Network Models, Flows and API’s will be developed as part of the project.
How does this align with external standards/specifications?
- Alignment with the ONF, OpenAPI, BBF, IETF and ITU Standards
Are there dependencies with other open source projects?
- Integration with the VOLTHA projects in ONF
- Integration with the OSAM - Dynamic Control & User Plane
Impacts:
ONAP Components:
Component | Effort | Project Impacts |
---|---|---|
Active and Available Inventory (AAI) | Inventory of the devices and user services | No AAI Impacts |
Application Authorization Framework | Define application roles and access | |
Application Controller (AAP-C) | Directed Graphs | No Core APP-C Impacts |
Closed Loop Automation Management Platform (CLAMP) | CLAMP will be utilized to view and manage the automation flows Interface CLAMP from OSAM-UI (Future Release) | No Core CLAMP Impacts |
Command Line Interface | No Impacts | |
Common Controller Developer Kit (CCDK) | Used by SDNC and APPC | No Core CCDK Changes |
Data Collection Analytics and Events (DCAE) | OSAM Kafka to VES OSAM Collector (DCAE Collector Instance) OSAM Analytics (DCAE Analytics Instance) | No Core Impacts to DCAE |
Data Movement as a Platform (DMaaP) | Topic and Partition Creation | No Core DMaaP Impacts |
Documentation | ||
External API Framework | No Impact | |
Holmes | Not Used | No Impact |
Integration | No Impact | |
Logging Enhancements Project | No Impact | |
Microservices Bus | Not Used | No Impact |
Modeling | Will comply with modeling standards of ONAP | |
Multi-Cloud (VIM) | Interface for container instantiation, management and control | No Core Product Changes |
ONAP Operations Manager (OOM) | Docker/Kubernetes Container Management for ONAP | No Impacts |
Optimization Framework | No Impacts | |
Policy Framework | Reuse of the existing Threshold Crossing. Impacts to the Control and Abstraction output to VES | Small impact to reuse TCA |
Portal Platform | Portal Interface to the DSC and Hardware Abstraction utilizing the Portal SDK | Reference to OSAM Control and OSAM-HA interfaces |
Service Design and Creation (SDC) | Development of the Rules, Recipes, Flows, Models, Policies and Services for virtualized Access. | TBD |
Virtual Infrastructure Deployment (VID) | VID will be utilized for the management of applications. Interface VID from OSAM-UI | No VID Impacts |
SDNC | Establish EVPN tunnel between Access Peripheral and BNG termination point | No Core SDNC Impacts |
Service Orchestration (SO) | Orchestration of Access Device and Service instantiation and updates | No Core Impacts |
Access Network Components:
Component | Effort | Impact |
---|---|---|
OSAM - UI | Provides High Order Management interface for Access Services and devices | Built on Portal SDK |
OSAM - Control | Provides Dynamic Control & User Plane | Domain Specific Control |
OSAM - HA | Hardware Abstraction layer of physical network device exposing | Network Function Layer |
FreeRADIUS | Provides Subscriber Authentication services for 802.1X | Network Function Layer |
OpenLDAP | Provides authentication profiles for the authentication process | Network Function Layer |
S3P:
The project is an effort to utilize the Dynamic Control & User Plane and Hardware abstraction efforts developed with the ONF community. OSAM is not targeted to change any of the core ONAP components.
Scale:
Access Network functions are built to cluster horizontally and scale to meet carrier performance and response requirements.
Stability:
All Access network components are designed to operate in a horizontal scale in order to provide a seamless user operation.
Security:
The reside on ONAP secured infrastructure.
Performance:
All Access Network components have been developed and tested to support high performance. If performance issues are found during testing the application
Resources:
- Primary Contact Person: Blaine McDonnell (bm2535@att.com)
- Names, gerrit IDs, and company affiliations of the committers
Committers:
Name | Company | |
---|---|---|
MCDONNELL, BLAINE | BM2535@ATT.COM | AT&T |
SLOBODRIAN, SERGIO | sslobodr@ciena.com | CIENA |
BAINBRIDGE, DAVID | dbainbri.ciena@gmail.com | CIENA |
Contributors:
CHAWKI, JAMIL | jamil.chawki@orange.com | ORANGE |
SOUKUP, ROBERT | Robert.Soukup@telekom.de | DT |
HAAG, THOMAS | HaagT@telekom.de | DT |
KOLBE, HANS-JORG | Hans-Joerg.Kolbe@telkom.de | DT |
BAKER, SCOTT | scottb@opennetworking.org | ONF |
BHATIA, SAPAN | sapan@opennetworking.org | ONF |
BAVIER, ANDY | andy@opennetworking.org | ONF |
PETERSON, LARRY | llp@opennetworking.org | ONF |
ALVAREZ, MARK D | AT&T | |
ANSCHUTZ, TOM | AT&T | |
BHOJAN, SUMITHRA | AT&T | |
GASSER, MICHAEL D | AT&T | |
HODGES, DARRYL | AT&T | |
LAMBERTH, GEORGE M | AT&T | |
JOSHI, OMKAR R | AT&T | |
LORENTZEN, JULIE | AT&T | |
MACMILLER, JAMES E | AT&T | |
MOORE, THOMAS W | AT&T | |
OLIER, MIKE | AT&T | |
PADHIAR, BHUSHAN | AT&T | |
PETERSON, KEVIN A | AT&T | |
STROM, WALLACE | AT&T | |
YING, SHAWN | AT&T | |
ZUMWALT, DANNY P | AT&T | |
WOODS, CYNTHIA N | AT&T | |
BEST, GEORGE | AT&T |
- Names and affiliations of any other contributors
- Project Roles (include RACI chart, if applicable)
Other Information:
- link to seed code (if applicable)
- Vendor Neutral
- Meets Board policy (including IPR)