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  • A new micro service API needs to be developed, named as “routeoptimize, which exposes REST interfaces for SDNC which takes the source and destination nodeId or TP's of a OTN network as input and finds the optimistic route between them.
  • SDNC invokes this REST API to get the path for the given TP’s.
  • routeoptimize micro service does 2 things

...

  • The API performs the following operation:
  1. Reads the discover network information from AAI.


    URL: /aai/v16/network/logical-links

    Response:

-Find the optimistic route between the given source and destination TPs.

...

  1.  [{
        "link-name": "cross-link-2",
        "in-maint": false,
        "link-type": "cross-link",
        "operational-status": "up",
        "relationship-list": {
            "relationship": [ {
                    "related-link": "/aai/v13/network/pnfs/pnf/10.10.10.10/p-interfaces/p-interface/nodeId-10.10.10.10-ltpId-58"
                },{
                    "related-link": "/aai/v13/network/pnfs/pnf/11.11.11.11/p-interfaces/p-interface/nodeId-11.11.11.11-ltpId-159"
                  } ]
        }
    }]

    URL: "/aai/v13/network/pnfs/pnf/10.10.10.10/p-interfaces/p-interface/nodeId-10.10.10.10-ltpId-58



  2. prepare the discovery information according to the OOF model structure which is compatible for mini zinc framework. 
  3. push the model information to the mini zinc framework.
  4. get the optimistic route list from the framework.
  5. respond back to sdnc.

API internal process:

  1. Parse the request payload, and get the source and destination (node/LtpId) from the request.
  2. From AAI query all the logical links (preconfigured) by URL /aai/v16/network/logical-links.
  3. From the response of the API call to AAI, the following information can be obtained.
    1. Logical link.
    2. the pnfs this logical link is associated with.
    3. the LtpId's that are available with the pnf's.
  4. From the response of step 3, we would be having data as mentioned below (Considering the below example):

     [{
        "link-name": "cross-link-2",
        "in-maint": false,
        "link-type": "cross-link",
        "operational-status": "up",
        "relationship-list": {
            "relationship": [ {
                    "related-link": "/aai/v13/network/pnfs/pnf/10.10.10.10/p-interfaces/p-interface/nodeId-10.10.10.10-ltpId-58"
                },{
                    "related-link": "/aai/v13/network/pnfs/pnf/11.11.11.11/p-interfaces/p-interface/nodeId-11.11.11.11-ltpId-159"
                  } ]
        }
    },

    {
        "link-name": "cross-link-3",
        "in-maint": false,
        "link-type": "cross-link",
        "operational-status": "up",
        "relationship-list": {
            "relationship": [ {
                    "related-link": "/aai/v13/network/pnfs/pnf/11.11.11.11/p-interfaces/p-interface/nodeId-11.11.11.11-ltpId-59"
                },{
                    "related-link": "/aai/v13/network/pnfs/pnf/12.12.12.12/p-interfaces/p-interface/nodeId-12.12.12.12-ltpId-160"
                  } ]
        }
    },


    {
        "link-name": "cross-link-1",
        "in-maint": false,
        "link-type": "cross-link",
        "operational-status": "up",
        "relationship-list": {
            "relationship": [ {
                    "related-link": "/aai/v13/network/pnfs/pnf/10.10.10.10/p-interfaces/p-interface/nodeId-10.10.10.10-ltpId-72"
                },{
                    "related-link": "/aai/v13/network/pnfs/pnf/12.12.12.12/p-interfaces/p-interface/nodeId-12.12.12.12-ltpId-112"
                  } ]
        }
    }]

    Link Name1st Node Id1st LtpId2nd Node Id2nd LtpId
    cross-link-210.10.10.105811.11.11.11159
    cross-link-311.11.11.115912.12.12.12160
    cross-link-110.10.10.107212.12.12.12112


  5. Get the source and destination entity from request and find the optimistic route between them. For example, if the request contains "accessNodeId" as 10.10.10.10 in RoutePortInfo object of "srcPort", "accessNodeId" as 12.12.12.12 in RoutePortInfo object of "destPort" and then the link between 10.10.10.10 and 12.12.12.12 should be returned as a response.


    InputOutputAdditional Information

    srcPort : 10.10.10.10

    destPort: 12.12.12.12

    Cross-link-1

    Since Cross-link-1 is the shortest path

    between node 10.10.10.10 and 12.12.12.12


  6. Response would be send back to the caller.


Interface definition:

Interface DefinitionDescription
Content-Typeapplication/json
Operation Type

POST

URIhttps://{host}:{port}/api/oof/v1/route

Request Header

Header Name

Required?

Description

Accept

N

Determines the format of the body of the response. Valid value is “application/json”

Content-Type

Y

Determines the format of the request content. Only application/json is supported.

Content-Length

N

Number of bytes in the body of the request. Note that content length is limited to 1 MB.

Authorization

Y

Supplies Basic Authentication credentials for the request. If the Authorization header is missing, then an HTTP 400 Invalid Request response is returned. If the string supplied is invalid, then an HTTP 401 Unauthorized response is returned.

Request Body

Attribute

Required?

Cardinality

Content

Values

Description

requestInfo

Y

1

RequestInfo Object


The content of the RequestInfo object.

routeInfo

Y1RouteInfo
The content of Router request object


RequestInfo Object

Attribute

Required?

Cardinality

Content

Values

Description

transactionId

Y

1

UUID/String


A unique ID to track an ONAP transaction.

requestId

Y

1

UUID/String


A unique ID to track multiple requests associated with a transaction.

callbackUrl

Y

1

URL


The end point of a callback service where recommendations are posted.

callbackHeaderN1JSON blob
The header information a client expecting in a async callback.

sourceId

Y

1

String


The unique ID of a client making an optimization call.

requestType

Y

1

String

create, update, delete

The type of a request

numSolutions

N

1

Integer


Expected number of solutions. numSolution can also be specified using an optimization query policies, where the default configured value is 1. The value from a request gets higher precedence over the value defined in a policy.

optimizers

Y

1..N

List of Strings

placement

A list of optimization services.

timeout

N

1

Integer


A tolerance window (in secs) for expecting solutions. Default is 600 secs.

RouteInfo Object

Attribute

Required?

Cardinality

Content

Values

Description

routeRequest

Y1RouteRequestInfo
The content of Router request object


RouteRequestInfo Object

Attribute

Required?

Cardinality

Content

Values

Description

srcPortY1RoutePortInfo
Source port info
destPortY1RoutePortInfo
Destination Port info

RoutePortInfo Object

Attribute

Required?

Cardinality

Content

Values

Description

Additional Info
accessTopologyId
N1String
Access Topology Id

Any one of the attribute MUST be

provided. Also source and destination

must be provided with the same

attribute. For this usecase, access node

Id will alone be provided for both source

and destination RoutePortInfo

accessClientId
N1String
Access Client Id
accessProviderId
N1String
unique Id of the service provider.
accessNodeId
Y1String
source or destinatin node Id.
accessLtpId
N1Integer
source or destinatin Ltp Id.

Synchronous Response Body

Attribute

Required?

Cardinality

Content

Values

Description

requestId

Y

1

UUID/String


A unique Id for an ONAP transaction.

transactionId

Y

1

UUID/String


A unique ID to track multiple requests associated with a transaction.

statusMessage

N

1

String


Reasoning if a requestStatus is failure.

requestStatus

Y

1

String

accepted, failed

The status of a request.


solutions

Y

1..N

List of RouteSolutionInfo


Solutions related to a request.

Route Solution Info

Attribute

Required?

Cardinality

Content

Values

Description

startTime
Y1Timestamp

finishTime
Y1Timestamp

Links
N0..NList of LinkInfo
List of Link's

Link Info

AttributeRequiredcordinalityContentValuesDescriptionAdditional Information
LinkIdY1String
The Id of the link which provides connectivity between 2 domainsA logical entity which can provide connectivity between 2 domains.

HTTP Response Code

HTTP Code

Response Phrase

Description

201

Created

An optimization solution is found.

202

Accepted

An optimization request is accepted.

400

Bad request

Bad request.

401

Unauthorized

Request body is not compliant with the API definition.

404

Not found

The server cannot find the requested URI.

405

Method not found

The requested method is not supported by a server.

500

Internal server error

The server encountered an internal server error or timed out.

520Solver errorRequested number of solutions cannot be found.


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