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Table of Contents

Use Cases

  • SOL001 VNFD mapping to/from SDC AID DM

Feature Descriptions

Feature

Description

Mapping between SOL001 VNFD and SDC AID DM

The VNFM Adapter needs to handle mapping between SOL001 VNFD and SDC AID DM

  • Not all VNFD needs to be transformed to the SDC AID DM
  • The Adapter will map the model as much as it needs
  • Mapping to the VF-Module is questionable at this time 


Epic and User Story

Epic

User Story

Description

SDC SOL004 Onboarding


Mapping between SOL001 VNFD and SDC AID DM (TBD)Mapping between SOL001 VNFD and SDC AID DM (TBD)

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Initial Input from AT&T

  • VF-Module Deduction from SOL001

    • There is an assumption that SDC transforms the vendor provided VNF package into ONAP-compliant one; i.e., deducing VF Modules based on VNFD ScalingAspects and Delta.
    • If SDC supports the transformation in Dublin time-frame, the transformed CSAR will be imported to SO, and SO VNF- and VF-Module-level workflows will manage VNF and VF Module topology towards SDNC with the following changes - Input from Gil Bullard (AT&T)
      • Today the VNF-level workflow has an embedded per-VF Module loop that a) retrieves the SDNC assignments for that VF Module, and then b) sends those VF Module-level assignments down to the VIM (e.g., OpenStack); the loop then moves to repeat "a" with the next VF Module. 
      • The new VNF-level flow will have the following sequences:
        1. an embedded per-VF Module loop that only retrieves the SDNC assignments for each VF Module; because the VIM is hidden from SO's sight, beneath the VNFM Adapter/VNFM.
        2. After finishing the loop, the SO workflows will send a structure  to the VNFM Adapter that includes the aggregate assignments at the VNF level.
        3. The VNFM Adapter aggregates all the VF-Module level assignments and transforms the assignment data into SOL003 API parameters before sending them to SVNFM
          1. The VNFM Adapter would need to be able to parse the VNF-level assignments structure received from SO to obtain the per-VDUconnection point assignments information and any per-VDU parameter information (e.g., hostnames)
          2. In doing so, the VNFM Adapter would need to know to ignore the VF Module groupings of these assignments
          3. Further know how to map the ONAP data structure and parameter names into the ETSI (e.g., VM=VDU, VNFC=VNFC, vNIC=vNIC, etc.). Note that the above assumes that in ONAP, as in ETSI, there will be a one-to-one correspondence between VM/VDU and VNFC.

    • Assumptions for deducing VF-Module from SOL001 (Gil Bullard's input)

      • SOL001 concept of Aspect+ScalingDelta combination is one to one with the ONAP concept of VF Module.
      • SOL001 concept of VDU is one to one with the ONAP concept of A&AI vServer
      • SOL001 concept of a connection point associated with a VDU corresponds to the ONAP concept of the same name, as does the understanding of the meaning of “internal” versus “external” connection point.
      • ONAP-compliant SOL001 VNF Vendors will be obliged to name their HEAT files using a naming convention that encodes the SOL001 Aspect+ScalingDelta names
      • ONAP-compliant SOL001 VNF Vendors will be obliged to name their SOL001 Aspect+ScalingDelta parameters using a naming convention that readily maps to the corresponding HEAT properties.  
      • In addition, if AT&T has already deployed such a vendor’s VNF into its network, the HEAT naming will remain invariant, and (at least) the (AT&T version of that) SOL001 be written to match it.
    • What to do
      • ONAP will be extended to incorporate the constructs of Aspect and Scaling Level.  This includes SDC’s, SOs, and A&AI’s modeling of these constructs and A&AI's ability to capture and SO’s ability to set/update the "current scaling level" of a VNF for a given Aspect. 
      • If ETSI in their SOL001 VNFD had defined a "ScalingDelta" in a straightforward manner, i.e., in terms of the VNFCs that comprise it, then it would be very easy to extract VF Module information from the VNFD.  (I would like to see ETSI define "ScalingDelta" in this manner, as opposed to the current way they do so. )  However, given that they did not, ONAP SDC would need to be extended to derive the VF Module “structure” from the SOL001 document through the algorithm below.  “Structure” in this case includes the VDU topology, connection points and associated parameters.  This algorithm will:
      • Determine the set of Aspects and corresponding VDUs and associated ScalingDeltas (step_deltas) from the SOL001.
      • Determine the set of ScalingLevels associated with each Aspect and the ScalingDeltas associated with each.
      • Translate the VDU-centric representation of ScalingDeltas (step_deltas) as per SOL001 to come up with a ScalingDelta-centric representation that captures the number and type of VDUs associated with that ScalingDelta across the various VDU types.
      • Create a VF Module object that corresponds to each ScalingDelta-centric representation of a ScalingDelta calculated above.
      • Fill in the details of the VF Module object based on the SOL001 data to represent the VDU connection points, associated Networks (internal or external), and associated Parameters.
      • Determine if there is an the artifact in the SOL004 package that is a HOT YAML whose file name corresponds (through a VNF vendor obligatory naming convention) to the Aspect+ScalingDelta from which this VF Module object was derived.  If so, associate that HOT file with the VF Module.
      • Name the VF Module based on a naming convention to capture the Aspect+ScalingDelta names
      • Determine and capture the mapping from each Aspect + ScalingLevel model for the VNF to the corresponding VF Module.
      • Given a desired state Aspect+ScalingLevel, will be able to calculate (from the SDC distributed mapping of Aspect+ScalingLevel to VF Module along with the current Scaling Level for this Aspect as per A&AI) the (ordered set of) VF Module(s) needed to take that VNF from the “current scaling level” to the desired level for that Aspect.
      • Note:  As an aside, SDC enhancements are being discussed. It is not clear if the SDC changes will be available in the Dublin time frame. some “stubbing off” SDC with a simulator could be suggested to at least prove in the run-time aspects of the solution.