DRINKS
Internet Engineering Task Force (IETF)                     K. Cartwright
Internet-Draft
Request for Comments: 7878                                     V. Bhatia
Intended status:
Category: Standards Track                                            TNS
Expires: October 5, 2016
ISSN: 2070-1721                                                J-F. Mule
                                                               CableLabs
                                                              Apple Inc.
                                                            A. Mayrhofer
                                                             nic.at GmbH
                                                           April 3,
                                                             August 2016

         Session Peering Provisioning (SPP) Protocol over SOAP
              draft-ietf-drinks-spp-protocol-over-soap-09

Abstract

   The Session Peering Provisioning Framework (SPPF) specifies the data
   model and the overall structure to provision session establishment
   data Session Establishment
   Data (SED) into Session Data Registries and SIP Service Provider data
   stores.  To utilize this framework framework, one needs a substrate protocol.
   Given that the Simple Object Access Protocol (SOAP) is currently
   widely used for messaging between elements of such provisioning
   systems, this document specifies the usage of SOAP (via HTTPS) as the
   substrate protocol for SPPF.  The benefits include leveraging
   prevalent expertise, expertise and a higher probability that existing
   provisioning systems will be able to easily migrate to using an SPPF SPPF-
   based protocol.

Status of This Memo

   This Internet-Draft is submitted in full conformance with the
   provisions of BCP 78 and BCP 79.

   Internet-Drafts are working documents an Internet Standards Track document.

   This document is a product of the Internet Engineering Task Force
   (IETF).  Note that other groups may also distribute
   working documents as Internet-Drafts.  The list  It represents the consensus of current Internet-
   Drafts is at http://datatracker.ietf.org/drafts/current/.

   Internet-Drafts are draft documents valid the IETF community.  It has
   received public review and has been approved for a maximum publication by the
   Internet Engineering Steering Group (IESG).  Further information on
   Internet Standards is available in Section 2 of RFC 5741.

   Information about the current status of six months this document, any errata,
   and how to provide feedback on it may be updated, replaced, or obsoleted by other documents obtained at any
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   This Internet-Draft will expire on October 5, 2016.
   http://www.rfc-editor.org/info/rfc7878.

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   Copyright (c) 2016 IETF Trust and the persons identified as the
   document authors.  All rights reserved.

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Table of Contents

   1.  Introduction  . . . . . . . . . . . . . . . . . . . . . . . .   3
   2.  Terminology . . . . . . . . . . . . . . . . . . . . . . . . .   4
   3.  SOAP Features and Protocol Layering . . . . . . . . . . . . .   4
   4.  HTTP(s)  HTTP(S) Features and SPP Protocol SPPP over SOAP . . . . . . . . . . . . .   7
   5.  Authentication, Integrity Integrity, and Confidentiality  . . . . . . . .   7
   6.  Language Identification . . . . . . . . . . . . . . . . . . .   7
   7.  SPP Protocol  SPPP SOAP Data Structures . . . . . . . . . . . . . . . . . .   7
     7.1.  Concrete Object Key Types . . . . . . . . . . . . . . . .   8
       7.1.1.  Generic Object Key  . . . . . . . . . . . . . . . . .   8
       7.1.2.  Public Identifier Object Key  . . . . . . . . . . . .   9
       7.1.3.  SED Group Offer Key . . . . . . . . . . . . . . . . .  10
     7.2.  Operation Request and Response Structures . . . . . . . .  11  10
       7.2.1.  Add Operation Structure . . . . . . . . . . . . . . .  11
       7.2.2.  Delete Operation Structure  . . . . . . . . . . . . .  14
       7.2.3.  Accept Operation Structure  . . . . . . . . . . . . .  17
       7.2.4.  Reject Operation Structure  . . . . . . . . . . . . .  20
       7.2.5.  Batch Operation Structure . . . . . . . . . . . . . .  23
       7.2.6.  Get Operation Structure . . . . . . . . . . . . . . .  26
       7.2.7.  Get SED Group Offers Operation Structure  . . . . . .  27
       7.2.8.  Generic Query Response  . . . . . . . . . . . . . . .  29
       7.2.9.  Get Server Details Operation Structure  . . . . . . .  29
     7.3.  Response Codes and Messages . . . . . . . . . . . . . . .  31
     7.4.  Minor Version Identifier  . . . . . . . . . . . . . . . .  33
   8.  Protocol Operations . . . . . . . . . . . . . . . . . . . . .  33
   9.  SPP Protocol  SPPP over SOAP WSDL Definition  . . . . . . . . . . . . . . .  33
   10. SPP Protocol SPPP over SOAP Examples . . . . . . . . . . . . . . .  45 . . . .  44
     10.1.  Add Destination Group  . . . . . . . . . . . . . . . . .  45
     10.2.  Add SED Records  . . . . . . . . . . . . . . . . . . . .  47
     10.3.  Add SED Records -- URIType . . . . . . . . . . . . . . .  48
     10.4.  Add SED Group  . . . . . . . . . . . . . . . . . . . . .  49
     10.5.  Add Public Identifier -- Successful COR claim Claim  . . . . .  51
     10.6.  Add LRN  . . . . . . . . . . . . . . . . . . . . . . . .  53
     10.7.  Add TN Range . . . . . . . . . . . . . . . . . . . . . .  54
     10.8.  Add TN Prefix  . . . . . . . . . . . . . . . . . . . . .  55
     10.9.  Enable Peering -- SED Group Offer  . . . . . . . . . . .  57
     10.10. Enable Peering -- SED Group Offer Accept . . . . . . . .  58
     10.11. Add Egress Route . . . . . . . . . . . . . . . . . . . .  59
     10.12. Remove Peering -- SED Group Offer Reject . . . . . . . .  61
     10.13. Get Destination Group  . . . . . . . . . . . . . . . . .  62
     10.14. Get Public Identifier  . . . . . . . . . . . . . . . . .  64
     10.15. Get SED Group Request  . . . . . . . . . . . . . . . . .  65
     10.16. Get SED Group Offers Request . . . . . . . . . . . . . .  67
     10.17. Get Egress Route . . . . . . . . . . . . . . . . . . . .  69
     10.18. Delete Destination Group . . . . . . . . . . . . . . . .  71
     10.19. Delete Public Identifier . . . . . . . . . . . . . . . .  72
     10.20. Delete SED Group Request . . . . . . . . . . . . . . . .  73
     10.21. Delete SED Group Offers Request  . . . . . . . . . . . .  74
     10.22. Delete Egress Route  . . . . . . . . . . . . . . . . . .  76
     10.23. Batch Request  . . . . . . . . . . . . . . . . . . . . .  77
   11. Security Considerations . . . . . . . . . . . . . . . . . . .  79
     11.1.  Vulnerabilities  . . . . . . . . . . . . . . . . . . . .  80
   12. IANA Considerations . . . . . . . . . . . . . . . . . . . . .  80
   13. Acknowledgements References  . . . . . . . . . . . . . . . . . . . . . .  81
   14. References . . .  80
     13.1.  Normative References . . . . . . . . . . . . . . . . . .  81
     13.2.  Informative References . . . .  81
     14.1.  Normative References . . . . . . . . . . . . .  82
   Acknowledgements  . . . . . . .  81
     14.2.  Informative References . . . . . . . . . . . . . . . . .  82
   Authors' Addresses  . . . . . . . . . . . . . . . . . . . . . . .  82

1.  Introduction

   SPPF, defined in [I-D.draft-ietf-drinks-spp-framework], [RFC7877], is best supported by a transport and
   messaging infrastructure that is connection oriented, request-response is request-
   response oriented, is easily secured, supports propagation through
   firewalls in a standard fashion, and
   that is easily integrated into back-office back-
   office systems.  This is due to the fact that the client side of SPPF
   is likely to be integrated with organizations' operational support
   systems that facilitate transactional provisioning of user addresses
   and their associated
   session establishment data.  While the SED.  The server side of SPPF is likely to
   reside in a separate organization's network, resulting in the SPPF
   provisioning transactions traversing the Internet as they are
   propagated from the SPPF client to the SPPF server.  Given the
   current state of industry practice and technologies, SOAP and HTTP(S)
   are well suited for this type of environment.  This document
   describes the specification for transporting SPPF XML structures,
   using SOAP and HTTP(S) as substrates.

   The specification in this document for transporting SPPF XML
   structures over SOAP and HTTP(s) HTTP(S) is primarily comprised of five
   subjects: (1) a description of any applicable SOAP features, (2) any
   applicable HTTP features, (3) security considerations, and perhaps
   most importantly, (4) (perhaps
   most importantly) the Web Services Description Language (WSDL)
   definition for the SPP Protocol over SOAP, and (5) "substrate" specific XML Schema type definitions
   Definition (XSD) types that are "substrate" specific.

2.  Terminology

   The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT",
   "SHOULD", "SHOULD NOT", "RECOMMENDED", "MAY", and "OPTIONAL" in this
   document are to be interpreted as described in [RFC2119].

3.  SOAP Features and Protocol Layering

   The list of SOAP features that are explicitly used and required for
   SPP Protocol
   SPPP over SOAP are limited.  Most SOAP features are not necessary for
   SPPF.  SPP Protocol  SPPP over SOAP primarily uses SOAP simply as a standard message envelope
   message-envelope technology.  The SOAP message envelope is comprised
   of the SOAP header and body.  As described in the SOAP specifications specification
   [SOAPREF], the SOAP header can contain optional, application application-
   specific, information about the message.  The SOAP body contains the
   SPPF message itself, whose structure is defined by the combination of
   one of the WSDL operations defined in this document and the SPPF XML
   data structures defined in this document and the SPPF document.  SPPF
   does not rely on any data elements in the SOAP header.  All relevant
   data elements are defined in the SPPF XML schema Schema described in
   [I-D.draft-ietf-drinks-spp-framework]
   [RFC7877] and the SPPF WSDL types specification described in
   Section 9 of this document and in
   [I-D.draft-ietf-drinks-spp-framework]. document.

   WSDL is a widely standardized and adopted technology for defining the
   top-level structures of the messages that are transported within the
   body of a SOAP message.  The WSDL definition for the SPPF SOAP
   messages is defined later in this document, which imports by
   reference the XML data types contained in the SPPF schema.  The IANA
   registry where the SPPF schema resides is described in the "The IETF XML
   Registry
   Registry" [RFC3688].

   There are multiple structural styles that WSDL allows.  The best
   practice for this type of application is what is sometimes referred
   to as the "document/literal wrapped style".  This style is generally
   regarded as an optimal approach that enhances maintainability,
   comprehension, portability, and, to a certain extent, performance.
   It is characterized by setting the soapAction binding style as
   "document", the soapAction encoding style as "literal", and then
   defining the SOAP messages to simply contain a single data element
   that "wraps" a data structure containing all the required input or
   output data elements.  The figure below illustrates this high level high-level
   technical structure as conceptual layers 3 through 6.

                                 +-------------+
                             (1) |  Transport  |Example:
                                 |  Protocol   |  TCP, TLS, BEEP, etc.
                                 +-------------+
                                        |
                                        V
                                 +-------------+
                             (2) |   Message   |Example:
                                 |   Envelope  | HTTP, SOAP, None, etc.
                                 +-------------+
                                        |
                                        V
                                +--------------+
                           +----|    SOAP      |---+
                           |(3) |  Operation   |   |
                  Contains |    +--------------+   | Contains
                           |        Example:       |
                           V      submitAddRqst    V
                  +--------------+           +-------------+
                  |SOAP
                  | SOAP Request |           |SOAP Response|
       Example:   |   Message    |  (4)      |   Message   | Example:
       spppAdd    |  (Operation  |           |  (Operation | spppAdd
       RequestMsg |   Input)     |           |   Output)   | ResponseMsg
                  +--------------+           +-------------+
                           |                       |
                  Contains |                       | Contains
                           |                       |
                           V                       V
                  +---------------+
                  +--------------+          +---------------+
       Example:   |   Wrapped    |  (5)     |    Wrapped    | Example:
       spppAdd    |Request Object | Object|          |Response Object| spppAdd
       Request    +---------------+    +--------------+          +---------------+ Response
                           |                       |
                  Contains |                       | Contains
                           |                       |
                           V                       V
                  +-------------+
                  +--------------+          +---------------+
                  |    SPPF      |          |     SPPF      |
                  |XML
                  |  XML Types   |  (6)     |   XML Types   |
                  +-------------+
                  +--------------+          +---------------+

   Legend:
   BEEP = Blocks Extensible Exchange Protocol
   TLS = Transport Layer Security

   Figure 1: Layering and Technical Structure of the SPP Protocol SPPP over SOAP Messages
   The operations supported by SPP Protocol SPPP over SOAP are normatively defined
   later in this document.  Each SOAP operation defines a request/input
   message and a response/output message.  Each such request and
   response message then contains a single object that wraps the SPPF
   XML data types that comprise the inputs and the outputs,
   respectively, of the SOAP operation.

   SOAP faults are not used by the SPP Protocol SPPP over SOAP.  All success and
   error responses are specified in Section 7.3 of this document.
   However, if a SOAP fault were to occur, perhaps due to failures in
   the SOAP message handling layer of a SOAP library, the client
   application should capture and handle the fault.  Specifics on how to
   handle such SOAP faults, if they should occur, will be specific to
   the chosen SOAP implementation.

   Implementations MUST use SOAP 1.2 [SOAPREF] or higher, higher and MUST
   support SOAP 1.2.  Implementations SHOULD use WSDL 1.1 [WSDLREF], [WSDLREF] and
   MUST NOT use earlier versions.  Use of WSDL versions greater than 1.1
   may introduce interopability interoperability problems with implementations that use
   1.1.

   SPPF is a request/reply framework that allows a client application to
   submit provisioning data and query requests to a server.  The SPPF
   data structures are designed to be protocol agnostic.  Concerns
   regarding encryption, non-repudiation, and authentication are beyond
   the scope of this document.  For more details, please refer to
   Section 4 ("Substrate ("Transport Substrate Protocol Requirements") of
   [I-D.draft-ietf-drinks-spp-framework]. [RFC7877].

   As illustrated in the previous diagram, SPPF can be viewed as a set
   of layers that collectively define the structure of an SPPF request
   and response.  Layers 1 and 2 represent the transport, envelope, and
   authentication technologies.  This document defines layers 3, 4, 5,
   and 6 for SPP Protocol SPPP over SOAP.

   1.  Layer 1: The transport protocol layer represents the
       communication mechanism between the client and server.  SPPF can
       be layered over any substrate protocol that provides a set of
       basic requirements defined in Section 4 of
       [I-D.draft-ietf-drinks-spp-framework]. [RFC7877].

   2.  Layer 2: The message envelope message-envelope layer is optional, optional but can provide
       features that are above the transport technology layer but below
       the application messaging layer.  Technologies such as HTTP and
       SOAP are examples of messaging envelope message-envelope technologies.

   3.  Layers 3,4,5,6: 3, 4, 5, and 6: The operation and message layers provide
       an envelope-independent and substrate-independent wrapper for the
       SPPF data model objects that are being acted on (created,
       modified, and queried).

4.  HTTP(s)  HTTP(S) Features and SPP Protocol SPPP over SOAP

   While SOAP is not tied to HTTP(S), for reasons described in the
   introduction,
   Introduction, HTTP(S) is a good choice as the substrate protocol for
   the SPP Protocol SOAP messages.  HTTP 1.1 includes the "persistent
   connection" feature, which allows multiple HTTP request/response
   pairs to be transported across a single HTTP connection.  This is an
   important performance optimization feature, particularly when the
   connections
   connection is an HTTPS connection where the relatively time
   consuming time-consuming
   TLS handshake has occurred.

   Implementations compliant with this document MUST use HTTP 1.1
   [RFC7230] or higher.  Also, implementations SHOULD use persistent
   connections.

5.  Authentication, Integrity Integrity, and Confidentiality

   To accomplish authentication, conforming SPP Protocol SPPP over SOAP
   Clients clients and Servers
   servers MUST use HTTP Digest Authentication as defined in
   [RFC2617]. [RFC7235].

   To achieve integrity and privacy, conforming SPP Protocol SPPP over SOAP
   Clients clients
   and Servers servers MUST support Transport Layer Security (TLS) TLS as defined in [RFC5246] as the secure
   transport mechanism.  Use of TLS MUST follow the recommendations
   contained in [RFC7525]

6.  Language Identification

   Section 9 of [I-D.draft-ietf-drinks-spp-framework] [RFC7877] requires protocols to provide a mechanism to
   transmit language tags together with human-
   readable human-readable messages.  When
   conforming SPP Protocol SPPP SOAP servers use such tagging, the XML "lang"
   attribute ([W3C.REC-xml-20081126], Section 2.12) MUST be used.
   Clients MAY use the HTTP "Accept-
   Language" "Accept-Language" header field (see
   Section 5.3.5 of [RFC7231]) in order to indicate their language
   preference.

7.  SPP Protocol  SPPP SOAP Data Structures

   SPP Protocol

   SPPP over SOAP uses a set of XML based XML-based data structures for all the
   supported operations and any parameters that to which those operations are applied to.
   applied.  As also mentioned earlier in this document, these XML
   structures are envelope-independent envelope independent and substrate-independent. substrate independent.  Refer the
   to "Protocol Operations" (Section 8) of this document for a
   description of all the operations that MUST be supported.

   The following sections describe the definition definitions of all the XML data
   structures.

7.1.  Concrete Object Key Types

   Certain operations in SPPF require an object key that uniquely
   identifies the object(s) on which a given operation needs to be
   performed.  SPPF defines the XML structure of the any such object key in
   an abstract manner and delegates the concrete representation to any
   conforming substrate protocol.  The following sub-sections subsections define the
   various types of concrete object key types used in various operations
   in SPP Protocol SPPP over SOAP.

7.1.1.  Generic Object Key

   Most objects in SPP Protocol SPPP over SOAP are uniquely identified by the
   attributes in the generic object key (Refer Section 5.2.1 to "Generic Object Key Type"
   Type", Section 5.2.1 of [I-D.draft-ietf-drinks-spp-framework] [RFC7877], for details).  The concrete XML
   representation of ObjKeyType is as below:

      <complexType name="ObjKeyType">
       <complexContent>
        <extension base="sppfb:ObjKeyType">
         <sequence>
          <element name="rant" type="sppfb:OrgIdType"/>
          <element name="name" type="sppfb:ObjNameType"/>
          <element name="type" type="sppfs:ObjKeyTypeEnum"/>
         </sequence>
        </extension>
       </complexContent>
      </complexType>

   The ObjKeyType has the data elements as described below:

   o  rant: The identifier of the registrant Registrant organization that owns the
      object.

   o  name: The character string that contains the name of the object.

   o  type: The enumeration value that represents the type of SPPF
      object.  For example, both a Destination Group and a SED Group can
      have the same name "TestObj" and be associated with the same
      Registrant Id. ID.  Hence, to uniquely identify the object that
      represents a Destination Group with the name "TestObj", the type
      "DestGrp" must be specified when using this concrete ObjKeyType
      structure to identify the Destination Group "TestObj".

   The object types in SPP Protocol SPPP over SOAP MUST adhere to the above
   definition of generic object key, key and are defined as an enumeration in
   the XML data structure as follows:

    <simpleType name="ObjKeyTypeEnum">
      <restriction base="token">
        <enumeration value="SedGrp"/>
        <enumeration value="DestGrp"/>
        <enumeration value="SedRec"/>
        <enumeration value="EgrRte"/>
      </restriction>
    </simpleType>

7.1.2.  Public Identifier Object Key

   Public Identifier type objects can further be of various sub-types
   like a Telephone Number (TN), Routing Number (RN), TN Prefix, URI, or
   a
   TN Range and cannot be cleanly identified with the attributes in the
   generic ObjKeyType.  The definition of PubIdKeyType is as below:

      <complexType name="PubIdKeyType">
       <complexContent>
        <extension base="sppfb:PubIdKeyType">
         <sequence>
          <element name="rant" type="sppfb:OrgIdType"/>
          <choice>
           <element name="number"
           type="sppfb:NumberType"/>
           <element name="range"
            type="sppfb:NumberRangeType"/>
           <element name="uri"
            type="anyURI"/>
          </choice>
         </sequence>
        </extension>
       </complexContent>
      </complexType>

   The PubIdKeyType has data elements, as described below:

   o  rant: The identifier of the registrant Registrant organization that owns the
      object.

   o  number: An element of type NumberType (refer to Section 12 of
      [I-D.draft-ietf-drinks-spp-framework])
      [RFC7877]) that contains the value and type of a number . number.

   o  range: An element of type NumberRangeType (refer to Section 12 of
      [I-D.draft-ietf-drinks-spp-framework])
      [RFC7877]) that contains a range of numbers.

   o  uri: A value that represents a Public Identifier.

   Any instance of PubIdKeyType MUST contain exactly one element from
   the following set of elements: "number", "range", "uri".

7.1.3.  SED Group Offer Key

   In addition to the attributes in the generic ObjKeyType, a SED Group
   Offer object is uniquely identified by the organization ID of the
   organization to whom an a SED Group has been offered.  The definition of
   SedGrpOfferKeyType is as below:

      <complexType name="SedGrpOfferKeyType">
       <complexContent>
        <extension base="sppfb:SedGrpOfferKeyType">
         <sequence>
          <element name="sedGrpKey" type="sppfs:ObjKeyType"/>
          <element name="offeredTo" type="sppfb:OrgIdType"/>
         </sequence>
        </extension>
       </complexContent>
      </complexType>

   The SedGrpOfferKeyType has the data elements as described below:

   o  sedGrpKey: Identifies the SED Group that was offered.

   o  offeredTo: The organization ID of the organization that was
      offered the SED Group object identified by the sedGrpKey.

7.2.  Operation Request and Response Structures

   An SPPF client interacts with an SPPF server by sending one or more
   requests to the server, server and by receiving corresponding responses from
   the server.  The basic set of operations that an SPPF client can
   submit to an SPPF server and the semantics of those operations are
   defined in "Framework Operations", Section 7 ("Framework Operations") of
   [I-D.draft-ietf-drinks-spp-framework]. [RFC7877].  The
   following sub-sections subsections describe the XML data structures that are used
   for each of those types of operations for a SPP Protocol an SPPP over SOAP
   implementation.

7.2.1.  Add Operation Structure

   In order to add (or modify) an object in the registry, Registry, an authorized
   entity can send the spppAddRequest to the registry. Registry.

   An SPP Protocol SPPP over SOAP Add request is wrapped within the <spppAddRequest>
   element while an SPP Protocol SPPP over SOAP Add response is wrapped within an
   <spppAddResponse> element.  The following sub-
   sections sub-sections describe the spppAddRequest
   <spppAddRequest> and spppAddResponse <spppAddResponse> elements.  Refer to Section 10
   for an example of an Add operation on each type of SPPF object.

7.2.1.1.  Add Request

   An SPP Protocol SPPP over SOAP Add request definition is contained within the
   generic <spppAddRequest> element.

      <element name="spppAddRequest">
       <complexType>
        <sequence>
         <element name="clientTransId"
          type="sppfb:TransIdType" minOccurs="0"/>
         <element name="minorVer"
          type="sppfb:MinorVerType" minOccurs="0"/>
         <element name="obj" type="sppfb:BasicObjType"
         maxOccurs="unbounded"/>
        </sequence>
       </complexType>
      </element>

   The data elements within the <spppAddRequest> element are described
   as follows:

   o  clientTransId: Zero or one client-generated transaction ID that,
      within the context of the SPPF client, identifies this request.
      This value can be used at the discretion of the SPPF client to
      track, log log, or correlate requests and their responses.  The SPPF
      server MUST echo back this value to the client in the
      corresponding response to the incoming request.  The SPPF server
      will not check this value for uniqueness.

   o  minorVer: Zero or one minor version identifier, as defined in
      Section 7.4.

   o  obj: One or more elements of abstract type BasicObjType (defined
      in [I-D.draft-ietf-drinks-spp-framework]). [RFC7877]).  Each element contains all the attributes of an
      SPPF object that that the client is requesting the SPPF server to add.
      Refer to section Section 3.1 of
      [I-D.draft-ietf-drinks-spp-framework] [RFC7877] for the XML structure of all
      concrete types, for various SPPF objects, that extend from
      abstract BasicObjType and hence are eligible to be passed into
      this element.  The elements are processed by the SPPF server in
      the order in which they are included in the request.  With respect
      to the handling of error conditions, conforming SPPP SOAP servers
      MUST stop processing BasicObjType elements in the request at the
      first
      error, error and roll back any BasicObjType elements that had
      already been processed for that add request ("stop and rollback"). roll
      back").

7.2.1.2.  Add Response

   An SPP Protocol SPPP over SOAP add response object is contained within the generic
   <spppAddResponse> element.  This response structure is used for all
   types of SPPF objects that are provisioned by the SPPF client.

     <element name="spppAddResponse">
       <complexType>
         <sequence>
           <element name="clientTransId" type="sppfb:TransIdType"
            minOccurs="0"/>
           <element name="serverTransId" type="sppfb:TransIdType"/>
           <element name="overallResult" type="sppfs:ResultCodeType"/>
           <element name="detailResult" type="sppfs:ObjResultCodeType"
           minOccurs="0" maxOccurs="unbounded"/>
         </sequence>
       </complexType>
     </element>

     <complexType name="ResultCodeType">
       <sequence>
          <element name="code" type="int"/>
          <element name="msg" type="string"/>
       </sequence>
     </complexType>

      <complexType name="ObjResultCodeType">
       <complexContent>
        <extension base="sppfs:ResultCodeType">
         <sequence>
          <element name="obj" type="sppfb:BasicObjType"/>
         </sequence>
        </extension>
       </complexContent>
      </complexType>

   An <spppAddResponse> contains the elements necessary for the SPPF
   client to precisely determine the overall result of the request, and
   if an error occurred, occurs, it provides information about the specific
   object(s) that caused the error.

   The data elements within the SPP Protocol SPPP over SOAP Add response are
   described as follows:

   o  clientTransId: Zero or one client transaction ID.  This value is
      simply an echo of the client transaction ID that the SPPF client
      passed into the SPPF update request.  When included in the
      request, the SPPF server MUST return it in the corresponding
      response message.

   o  serverTransId: Exactly one server transaction ID that identifies
      this request for tracking purposes.  This value MUST be unique for
      a given SPPF server.

   o  overallResult: Exactly one response code and message pair that
      explicitly identifies the result of the request.  See Section 7.3
      for further details.

   o  detailResult: An optional response code, response message, and
      BasicObjType (as defined in [I-D.draft-ietf-drinks-spp-framework]) [RFC7877]) triplet.  This element will
      be present only if an object level object-level error has occurred.  It
      indicates the error condition and the exact request object that
      contributed to the error.  The response code will reflect the
      exact error.  See Section 7.3 for further details.

7.2.2.  Delete Operation Structure

   In order to remove an object from the registry, Registry, an authorized entity
   can send the spppDelRequest into the registry. Registry.  An SPP Protocol SPPP over SOAP
   Delete request is wrapped within the <spppDelRequest> element while a SPP Protocol
   an SPPP over SOAP Delete response is wrapped within the generic
   <spppDelResponse> element.  The following sub-sections subsections describe the spppDelRequest
   <spppDelRequest> and spppDelResponse <spppDelResponse> elements.  Refer to Section 10
   for an example of the Delete operation on each type of SPPF object.

7.2.2.1.  Delete Request

   An SPP Protocol SPPP over SOAP Delete request definition is contained within the
   generic <spppDelRequest> element.

      <element name="spppDelRequest">
       <complexType>
        <sequence>
         <element name="clientTransId"
         type="sppfb:TransIdType" minOccurs="0"/>
         <element name="minorVer"
         type="sppfb:MinorVerType" minOccurs="0"/>
        <element name="objKey" type="sppfb:ObjKeyType"
         maxOccurs="unbounded"/>
        </sequence>
       </complexType>
      </element>
   The data elements within the <spppDelRequest> element are described
   as follows:

   o  clientTransId: Zero or one client-generated transaction ID that,
      within the context of the SPPF client, identifies this request.
      This value can be used at the discretion of the SPPF client to
      track, log log, or correlate requests and their responses.  The SPPF
      server MUST echo back this value to the client in the
      corresponding response to the incoming request.  SPPF server will
      not check this value for uniqueness.

   o  minorVer: Zero or one minor version identifier, as defined in
      Section 7.4.

   o  objKey: One or more elements of abstract type ObjKeyType (as
      defined in [I-D.draft-ietf-drinks-spp-framework]). [RFC7877]).  Each element contains attributes that
      uniquely identify the object that the client is requesting the
      server to delete.  Refer to Section 7.1 for a description of all
      concrete object key types, for various SPPF objects, which are
      eligible to be passed into this element.  The elements are
      processed by the SPPF server in the order in which they are
      included in the request.  With respect to the handling of error
      conditions, conforming SPPP SOAP servers MUST stop processing
      ObjKeyType elements in the request at the first error, error and roll
      back any ObjKeyType elements that had already been processed for
      that delete Delete request ("stop and rollback"). roll back").

7.2.2.2.  Delete Response

   An SPP Protocol SPPP over SOAP delete response object is contained within the
   generic <sppDeleteResponse> element.  This response structure is used
   for a delete Delete request on all types of SPPF objects that are
   provisioned by the SPPF client.

   <element name="spppDelResponse">
    <complexType>
     <sequence>
      <element name="clientTransId" type="sppfb:TransIdType"
               minOccurs="0"/>
      <element name="serverTransId" type="sppfb:TransIdType"/>
      <element name="overallResult" type="sppfs:ResultCodeType"/>
      <element name="detailResult" type="sppfs:ObjKeyResultCodeType"
               minOccurs="0" maxOccurs="unbounded"/>
     </sequence>
    </complexType>
   </element>

   <complexType name="ResultCodeType">
    <sequence>
     <element name="code" type="int"/>
     <element name="msg" type="string"/>
    </sequence>
   </complexType>

   <complexType name="ObjKeyResultCodeType">
    <complexContent>
     <extension base="sppfs:ResultCodeType">
      <sequence>
       <element name="objKey" type="sppfb:ObjKeyType"/>
      </sequence>
     </extension>
    </complexContent>
   </complexType>

   An <spppDelResponse> contains the elements necessary for the SPPF
   client to precisely determine the overall result of the request, and
   if an error occurred, occurs, it provides information about the specific object
   key(s) that caused the error.

   The data elements within the SPP Protocol SPPP over SOAP Delete response are
   described as follows:

   o  clientTransId: Zero or one client transaction ID.  This value is
      simply an echo of the client transaction ID that the SPPF client
      passed into the SPPF update request.  When included in the
      request, the SPPF server MUST return it in the corresponding
      response message.

   o  serverTransId: Exactly one server transaction ID that identifies
      this request for tracking purposes.  This value MUST be unique for
      a given SPPF server.

   o  overallResult: Exactly one response code and message pair that
      explicitly identifies the result of the request.  See Section 7.3
      for further details.

   o  detailResult: An optional response code, response message, and
      ObjKeyType (as defined in [I-D.draft-ietf-drinks-spp-framework]) [RFC7877]) triplet.  This element will
      be present only if an a specific object key level error has occurred.
      It indicates the error condition and the exact request object key
      that contributed to the error.  The response code will reflect the
      exact error.  See Section 7.3 for further details.

7.2.3.  Accept Operation Structure

   In SPPF, a SED Group Offer can be accepted or rejected by, or on
   behalf of, the registrant Registrant to whom the SED Group has been offered
   (refer to Section 3.1 of [I-D.draft-ietf-drinks-spp-framework] [RFC7877] for a description of the SED Group
   Offer object).  The Accept operation is used to accept such SED Group
   Offers by, or on behalf of, the Registrant.  The request structure
   for an SPP Protocol SPPP over SOAP Accept operation is wrapped within the
   <spppAcceptRequest> element while an SPP Protocol SPPP over SOAP Accept response
   is wrapped within the generic <spppAcceptResponse> element.  The
   following sub-sections subsections describe the spppAcceptRequest <spppAcceptRequest> and spppAcceptResponse
   <spppAcceptResponse> elements.  Refer to Section 10 for an example of
   the Accept operation on a SED Group Offer.

7.2.3.1.  Accept Request Structure

   An SPP Protocol SPPP over SOAP Accept request definition is contained within the
   generic <sppAcceptRequest> element.

      <element name="spppAcceptRequest">
       <complexType>
        <sequence>
         <element name="clientTransId"
         type="sppfb:TransIdType" minOccurs="0"/>
         <element name="minorVer"
         type="sppfb:MinorVerType" minOccurs="0"/>
         <element name="sedGrpOfferKey"
         type="sppfs:SedGrpOfferKeyType"
         maxOccurs="unbounded"/>
        </sequence>
       </complexType>
      </element>

   The data elements within the <spppAcceptRequest> element are
   described as follows:

   o  clientTransId: Zero or one client-generated transaction ID that,
      within the context of the SPPF client, identifies this request.
      This value can be used at the discretion of the SPPF client to
      track, log log, or correlate requests and their responses.  The SPPF
      server MUST echo back this value to the client in the
      corresponding response to the incoming request.  The SPPF server
      will not check this value for uniqueness.

   o  minorVer: Zero or one minor version identifier, as defined in
      Section 7.4.

   o  sedGrpOfferKey: One or more elements of type SedGrpOfferKeyType
      (as defined in this document).  Each element contains attributes
      that uniquely identify a SED Group Offer that the client is
      requesting the server to accept.  The elements are processed by
      the SPPF server in the order in which they are included in the
      request.  With respect to the handling of error conditions,
      conforming SPPP SOAP servers MUST stop processing
      SedGrpOfferKeyType elements in the request at the first error, error and
      roll back any SedGrpOfferKeyType elements that had already been
      processed for that accept Accept request ("stop and rollback"). roll back").

7.2.3.2.  Accept Response

   An SPP Protocol SPPP over SOAP accept response structure is contained within the
   generic <sppAcceptResponse> element.  This response structure is used
   for an Accept request on a SED Group Offer.

   <element name="spppAcceptResponse">
    <complexType>
     <sequence>
      <element name="clientTransId" type="sppfb:TransIdType"
               minOccurs="0"/>
      <element name="serverTransId" type="sppfb:TransIdType"/>
      <element name="overallResult" type="sppfs:ResultCodeType"/>
      <element name="detailResult"
               type="sppfs:SedGrpOfferKeyResultCodeType"
               minOccurs="0" maxOccurs="unbounded"/>
     </sequence>
    </complexType>
   </element>

   <complexType name="ResultCodeType">
    <sequence>
     <element name="code" type="int"/>
     <element name="msg" type="string"/>
    </sequence>
   </complexType>

   <complexType name="SedGrpOfferKeyResultCodeType">
    <complexContent>
     <extension base="sppfs:ResultCodeType">
      <sequence>
       <element name="sedGrpOfferKey" type="sppfs:SedGrpOfferKeyType"/>
      </sequence>
     </extension>
    </complexContent>
   </complexType>

   An <spppAcceptResponse> contains the elements necessary for the SPPF
   client to precisely determine the overall result of the request, and
   if an error occurred, occurs, it provides information about the specific SED
   Group Offer key(s) that caused the error.

   The data elements within the SPP Protocol SPPP over SOAP Accept response are
   described as follows:

   o  clientTransId: Zero or one client transaction ID.  This value is
      simply an echo of the client transaction ID that the SPPF client
      passed into the SPPF update request.  When included in the
      request, the SPPF server MUST return it in the corresponding
      response message.

   o  serverTransId: Exactly one server transaction ID that identifies
      this request for tracking purposes.  This value MUST be unique for
      a given SPPF server.

   o  overallResult: Exactly one response code and message pair that
      explicitly identifies the result of the request.  See Section 7.3
      for further details.

   o  detailResult: An optional response code, response message, and
      SedGrpOfferKeyType (as defined in this document) triplet.  This
      element will be present only if any specific SED Group Offer key
      level error has occurred.  It indicates the error condition and
      the exact request SED Group Offer key that contributed to the
      error.  The response code will reflect the exact error.  See
      Section 7.3 for further details.

7.2.4.  Reject Operation Structure

   In SPPF, a SED Group Offer can be accepted or rejected by, or on
   behalf of, the registrant Registrant to whom the SED Group has been offered
   (refer to "Framework Data Model Objects" section Objects", Section 6 of
   [I-D.draft-ietf-drinks-spp-framework] [RFC7877] for
   a description of the SED Group Offer object).  The Reject operation
   is used to reject such SED Group Offers by, or on behalf of, the
   Registrant.  The request structure for an SPP Protocol SPPP over SOAP Reject
   operation is wrapped within the <spppRejectRequest> element while an SPP Protocol
   SPPP over SOAP Reject response is wrapped within the generic
   <spppRejecResponse> element.  The following sub-sections subsections describe the
   spppRejectRequest
   <spppRejectRequest> and spppRejecResponse <spppRejecResponse> elements.  Refer to
   Section 10 for an example of the Reject operation on a SED Group
   Offer.

7.2.4.1.  Reject Request

   An SPP Protocol SPPP over SOAP Reject request definition is contained within the
   generic <spppRejectRequest> element.

      <element name="spppRejectRequest">
       <complexType>
        <sequence>
         <element name="clientTransId"
         type="sppfb:TransIdType" minOccurs="0"/>
         <element name="minorVer"
         type="sppfb:MinorVerType" minOccurs="0"/>
         <element name="sedGrpOfferKey"
         type="sppfs:SedGrpOfferKeyType"
         maxOccurs="unbounded"/>
       </complexType>
      </element>

   The data elements within the <spppRejectRequest> element are
   described as follows:

   o  clientTransId: Zero or one client-generated transaction ID that,
      within the context of the SPPF client, identifies this request.
      This value can be used at the discretion of the SPPF client to
      track, log log, or correlate requests and their responses.  The SPPF
      server MUST echo back this value to the client in the
      corresponding response to the incoming request.  The SPPF server
      will not check this value for uniqueness.

   o  minorVer: Zero or one minor version identifier, as defined in
      Section 7.4.

   o  sedGrpOfferKey: One or more elements of type SedGrpOfferKeyType
      (as defined in this document).  Each element contains attributes
      that uniquely identify a SED Group Offer that the client is
      requesting the server to reject.  The elements are processed by
      the SPPF server in the order in which they are included in the
      request.  With respect to the handling of error conditions,
      conforming SPPF servers MUST stop processing SedGrpOfferKeyType
      elements in the request at the first error, error and roll back any
      SedGrpOfferKeyType elements that had already been processed for
      that reject Reject request ("stop and rollback"). roll back").

7.2.4.2.  Reject Response

   An SPP Protocol SPPP over SOAP reject response structure is contained within the
   generic <sppRejectResponse> element.  This response structure is used
   for an a Reject request on a SED Group Offer.

   <element name="spppRejectResponse">
    <complexType>
     <sequence>
      <element name="clientTransId" type="sppfb:TransIdType"
               minOccurs="0"/>
      <element name="serverTransId" type="sppfb:TransIdType"/>
      <element name="overallResult" type="sppfs:ResultCodeType"/>
      <element name="detailResult"
               type="sppfs:SedGrpOfferKeyResultCodeType"
               minOccurs="0" maxOccurs="unbounded"/>
     </sequence>
    </complexType>
   </element>

   <complexType name="ResultCodeType">
    <sequence>
     <element name="code" type="int"/>
     <element name="msg" type="string"/>
    </sequence>
   </complexType>

   <complexType name="SedGrpOfferKeyResultCodeType">
    <complexContent>
     <extension base="sppfs:ResultCodeType">
      <sequence>
       <element name="sedGrpOfferKey" type="sppfs:SedGrpOfferKeyType"/>
      </sequence>
     </extension>
    </complexContent>
   </complexType>

   An <spppRejectResponse> contains the elements necessary for the SPPF
   client to precisely determine the overall result of the request, and
   if an error occurred, occurs, it provides information about the specific SED
   Group Offer key(s) that caused the error.

   The data elements within the SPP Protocol SPPP over SOAP Reject response are
   described as follows:

   o  clientTransId: Zero or one client transaction ID.  This value is
      simply an echo of the client transaction ID that the SPPF client
      passed into the SPPF update request.  When included in the
      request, the SPPF server MUST return it in the corresponding
      response message.

   o  serverTransId: Exactly one server transaction ID that identifies
      this request for tracking purposes.  This value MUST be unique for
      a given SPPF server.

   o  overallResult: Exactly one response code and message pair that
      explicitly identifies the result of the request.  See Section 7.3
      for further details.

   o  detailResult: An optional response code, response message, and
      SedGrpOfferKeyType (as defined in this document) triplet.  This
      element will be present only if any specific SED Group Offer key
      level error has occurred.  It indicates the error condition and
      the exact request SED Group Offer key that contributed to the
      error.  The response code will reflect the exact error.  See
      Section 7.3 for further details.

7.2.5.  Batch Operation Structure

   An SPP Protocol SPPP over SOAP Batch request XML structure allows the SPPF client
   to send any of of the Add, Del, Accept Accept, or Reject operations together in
   one single request.  This gives an SPPF Client client the flexibility to use
   one single request structure to perform more than operations (verbs).
   The batch request structure is wrapped within the <spppBatchRequest>
   element while a an SPPF Batch response is wrapped within the
   <spppBatchResponse> element.  This  The following sub-sections subsections describe the spppBatchRequest
   <spppBatchRequest> and spppBatchResponse <spppBatchResponse> elements.  Refer to
   Section 10 for an example of a batch Batch operation.

7.2.5.1.  Batch Request Structure

   An SPP Protocol SPPP over SOAP Batch request definition is contained within the
   generic <spppBatchRequest> element.

       <element name="spppBatchRequest">
       <complexType>
        <sequence>
         <element name="clientTransId"
         type="sppfb:TransIdType" minOccurs="0"/>
         <element name="minorVer"
         type="sppfb:MinorVerType" minOccurs="0"/>
          <choice minOccurs="1" maxOccurs="unbounded">
           <element name="addObj" type="sppfb:BasicObjType"/>
           <element name="delObj" type="sppfb:ObjKeyType"/>
           <element name="acceptSedGrpOffer"
           type="sppfs:SedGrpOfferKeyType"/>
           <element name="rejectSedGrpOffer"
           type="sppfs:SedGrpOfferKeyType"/>
          </choice>
        </sequence>
       </complexType>
      </element>

   The data elements within the <sppBatchRequest> element are described
   as follows:

   o  clientTransId: Zero or one client-generated transaction ID that,
      within the context of the SPPF Client, client, identifies this request.
      This value can be used at the discretion of the SPPF client to
      track, log log, or correlate requests and their responses.  The SPPF Server
      server MUST echo back this value to the Client client in the
      corresponding response to the incoming request.  The SPPF Server server
      will not check this value for uniqueness.

   o  minorVer: Zero or one minor version identifier, as defined in
      Section 7.4.

   o  addObj: One or more elements of abstract type BasicObjType where
      each element identifies an object that needs to be added.

   o  delObj: One or more elements of abstract type ObjKeyType where
      each element identifies a key for the object that needs to be
      deleted .

   o  acceptSedGrpOffer: One or more elements of type SedGrpOfferKeyType
      where each element identifies a SED Group Offer that needs to be
      accepted.

   o  rejectSedGrpOffer: One or more elements of type SedGrpOfferKeyType
      where each element identifies a SED Group Offer that needs to be
      rejected.

   With respect to the handling of error conditions, conforming SPPP
   SOAP servers MUST stop processing elements in the request at the
   first
   error, error and roll back any elements that had already been
   processed for that batch Batch request ("stop and rollback"). roll back").

7.2.5.2.  Batch Response

   An SPP Protocol SPPP over SOAP batch response structure is contained within the
   generic <sppBatchResponse> element.  This response structure is used
   for an a Batch request that contains many different types of SPPF
   operations.

     <element name="spppBatchResponse">
       <complexType>
         <sequence>
           <element name="clientTransId" type="sppfb:TransIdType"
            minOccurs="0"/>
           <element name="serverTransId" type="sppfb:TransIdType"/>
           <element name="overallResult" type="sppfs:ResultCodeType"/>
           <choice minOccurs="0" maxOccurs="unbounded">
              <element name="addResult"
              type="sppfs:ObjResultCodeType"/>
              <element name="delResult"
              type="sppfs:ObjKeyResultCodeType"/>
              <element name="acceptResult"
              type="sppfs:SedGrpOfferKeyResultCodeType"/>
              <element name="rejectResult"
              type="sppfs:SedGrpOfferKeyResultCodeType"/>
            </choice>
         </sequence>
       </complexType>
     </element>

   An <spppBatchResponse> contains the elements necessary for an SPPF
   client to precisely determine the overall result of various
   operations in the request, and if an error occurred, occurs, it provides
   information about the specific objects or keys in the request that
   caused the error.

   The data elements within the SPP Protocol SPPP over SOAP Batch response are
   described as follows:

   o  clientTransId: Zero or one client transaction ID.  This value is
      simply an echo of the client transaction ID that the SPPF client
      passed into the SPPF update request.  When included in the
      request, the SPPF server MUST return it in the corresponding
      response message.

   o  serverTransId: Exactly one server transaction ID that identifies
      this request for tracking purposes.  This value MUST be unique for
      a given SPPF server.

   o  overallResult: Exactly one response code and message pair that
      explicitly identifies the result of the request.  See Section 7.3
      for further details.

   o  addResult: One or more elements of type ObjResultCodeType where
      each element identifies the result code, result message message, and the
      specific object that to which the result relates to. relates.

   o  delResult: One or more elements of type ObjKeyResultCodeType where
      each element identifies the result code, result message message, and the
      specific object key that to which the result relates to. relates.

   o  acceptResult: One or more elements of type
      SedGrpOfferKeyResultCodeType where each element identifies the
      result code, result message message, and the specific SED Group Offer key
      that
      to which the result relates to. relates.

   o  rejectResult: One or more elements of type
      SedGrpOfferKeyResultCodeType where each element identifies the
      result code, result message message, and the specific SED Group Offer key
      that
      to which the result relates to. relates.

7.2.6.  Get Operation Structure

   In order to query the details of an object from the Registry, an
   authorized entity can send the spppGetRequest to the registry Registry with a
   GetRqstType XML data structure containing one or more object keys
   that uniquely identify the object whose details are being queried.
   The request structure for an SPP Protocol over SOAP Get operation is
   contained within the generic <spppGetRequest> element while an SPP
   Protocol over SOAP Get response is wrapped within the generic
   <spppGetResponse> element.  The following sub-sections subsections describe the
   spppGetRequest <spppGetRequest> and spppGetResponse element.
   <spppGetResponse> elements.  Refer to Section 10 for an example of SPP Protocol
   the SPPP over SOAP Get operation on each type of SPPF object object.

7.2.6.1.  Get Request

   The request structure for an SPPP over SOAP Get operation is
   contained within the generic <spppGetRequest> element:

      <element name="spppGetRequest">
       <complexType>
        <sequence>
         <element name="minorVer"
         type="sppfb:MinorVerType" minOccurs="0"/>
         <element name="objKey"
         type="sppfb:ObjKeyType"
         maxOccurs="unbounded"/>
        </sequence>
       </complexType>
      </element>

   The data elements within the <spppGetRequest> element are described
   as follows:

   o  minorVer: Zero or one minor version identifier, as defined in
      Section 7.4.

   o  objKey: One or more elements of abstract type ObjKeyType (as
      defined in [I-D.draft-ietf-drinks-spp-framework]). [RFC7877]).  Each element contains attributes that
      uniquely identify the object that the client is requesting the
      server to query.  Refer to Section 7.1 of this document for a
      description of all concrete object key types, for various SPPF
      objects, which are eligible to be passed into this element.

7.2.6.2.  Get Response

   The spppGetResponse element SPPP over SOAP Get response is wrapped within the generic
   <spppGetResponse> element, as described in Section 7.2.8.

7.2.7.  Get SED Group Offers Operation Structure

   In addition to the ability to query the details of one or more SED
   Group offers Offers using an a SED Group Offer key in the spppGetRequest, this
   operation also provides an additional, more flexible, structure to
   query for SED Group Offer objects.  This additional structure is
   contained within the <getSedGrpOffersRequest> element while the
   response is wrapped within the generic <spppGetResponse> element.
   The following sub-sections subsections describe the getSedGrpOffersRequest <getSedGrpOffersRequest> and
   spppGetResponse
   <spppGetResponse> elements.

7.2.7.1.  Get SED Group Offers Request

   Using the details passed into this structure, the server will attempt
   to find SED Group Offer objects that satisfy all the criteria passed
   into the request.  If no criteria is are passed in in, then the SPPF Server server
   will return the list of SED Group Offer objects that belongs belong to the
   registrant.
   Registrant.  If there are no matching SED Group Offers found found, then an
   empty result set will be returned.

       <element name="getSedGrpOffersRequest">
       <complexType>
        <sequence>
         <element name="minorVer" type="sppfb:MinorVerType"
         minOccurs="0"/>
        <element name="offeredBy" type="sppfb:OrgIdType"
        minOccurs="0" maxOccurs="unbounded"/>
        <element name="offeredTo" type="sppfb:OrgIdType"
        minOccurs="0" maxOccurs="unbounded"/>
        <element name="status" type="sppfb:SedGrpOfferStatusType"
         minOccurs="0"/>
        <element name="sedGrpOfferKey" type="sppfs:SedGrpOfferKeyType"
        minOccurs="0" maxOccurs="unbounded"/>
        </sequence>
       </complexType>
      </element>

   The data elements within the <getSedGrpOffersRequest> element are
   described as follows:

   o  minorVer: Zero or one minor version identifier, as defined in
      Section 7.4.

   o  offeredBy: Zero or more organization IDs.  Only offers that are
      offered to the organization IDs in this list should be included in
      the result set.  The result set is also subject to other query
      criteria in the request.

   o  offeredTo: Zero or more organization IDs.  Only offers that are
      offered by the organization IDs in this list should be included in
      the result set.  The result set is also subject to other query
      criteria in the request.

   o  status: The status of the offer, offered or accepted.  Only offers
      in the specified status should be included in the result set.  If
      this element is not present present, then the status of the offer should
      not be considered in the query.  The result set is also subject to
      other query criteria in the request.

   o  sedGrpOfferKey: Zero or more SED Group Offer Keys. keys.  Only offers
      having one of these keys should be included in the result set.
      The result set is also subject to other query criteria in the
      request.

7.2.7.2.  Get SED Group Offers Response

   The spppGetResponse element is described in Section 7.2.8.

7.2.8.  Generic Query Response

   An SPP Protocol SPPP over SOAP query response object is contained within the
   generic <spppGetResponse> element.

      <element name="spppGetResponse">
       <complexType>
        <sequence>
         <element name="overallResult"
         type="sppfs:ResultCodeType"/>
         <element name="resultObj"
         type="sppfb:BasicObjType"
         minOccurs="0" maxOccurs="unbounded"/>
        </sequence>
       </complexType>
      </element>

   An <spppGetResponse> contains the elements necessary for the SPPF
   client to precisely determine the overall result of the query, query and
   details of any SPPF objects that matched the criteria in the request.

   The data elements within the SPP Protocol SPPP over SOAP query response are
   described as follows:

   o  overallResult: Exactly one response code and message pair that
      explicitly identifies the result of the request.  See Section 7.3
      for further details.

   o  resultObj: The set of zero or more objects that matched the query
      criteria.  If no objects matched the query criteria criteria, then the
      result object(s) MUST be empty and the overallResult value MUST
      indicate success (if no matches are found for the query criteria,
      the response is considered a success).

7.2.9.  Get Server Details Operation Structure

   In order to query certain details of the SPPF server, such as the
   SPPF server's status and the major/minor version supported by the
   server, the Server Details operation structure SHOULD be used.  This
   structure is contained within the <spppServerStatusRequest> element
   whereas a an SPPF server status response is wrapped within the
   <spppServerStatusResponse> element.  The following sub-sections subsections
   describe the spppServerStatusRequest <spppServerStatusRequest> and spppServerStatusResponse <spppServerStatusResponse>
   elements.

7.2.9.1.  Get Server Details Request

   An SPPP over SOAP server details request structure is represented in
   the <spppServerStatusRequest> element as follows:

      <element name="spppServerStatusRequest">
       <complexType>
        <sequence>
         <element name="minorVer"
         type="sppfb:MinorVerType" minOccurs="0"/>
        </sequence>
       </complexType>
      </element>

   The data elements within the <spppServerStatusRequest> element are
   described as follows:

   o  minorVer: Zero or one minor version identifier, as defined in
      Section 7.4.

7.2.9.2.  Get Server Details Response

   An SPP Protocol SPPP over SOAP server details response structure is contained
   within the generic <spppServerStatusResponse> element.

      <element name="spppServerStatusResponse">
       <complexType>
        <sequence>
         <element name="overallResult" type="sppfs:ResultCodeType"/>
         <element name="svcMenu" type="sppfb:SvcMenuType"/>
        </sequence>
       </complexType>
      </element>

   The data elements within the <spppServerStatusResponse> element are
   described as follows:

   o  overallResult: Exactly one response code and message pair that
      explicitly identifies the result of the request.  See Section 7.3
      for further details.

   o  svcMenu: Exactly one element of type SvcMenuType which that, in turn turn,
      contains the elements to return the server status, the major and
      minor versions of the SPP Protocol SPPP over SOAP supported by the SPPF server
      (refer to Section 12 of [I-D.draft-ietf-drinks-spp-framework] [RFC7877] for the definition of
      SvcMenuType).

7.3.  Response Codes and Messages

   This section contains the listing of response codes and their
   corresponding human-readable text.  These response codes are in
   conformance with the response types defined in Section 5.3 of
   [I-D.draft-ietf-drinks-spp-framework].
   [RFC7877].

   The response code numbering scheme generally adheres to the theory
   formalized in section Section 4.2.1 of [RFC5321]:

   o  The first digit of the response code can only be 1 or 2: 1 = a
      positive result, and 2 = a negative result.

   o  The second digit of the response code indicates the category: 0 =
      Protocol Syntax, 1 = Implementation Specific Business Rule, 2 =
      Security, and 3 = Server System.

   o  The third and fourth digits of the response code indicate the
      individual message event within the category defines defined by the first
      two digits.

   The response codes are also categorized as to whether they are
   overall response codes that may only be returned in the
   "overallResult" overallResult
   data element in SPPF responses, responses or object level object-level response codes that
   may only be returned in the "detailResult" detailResult element of the SPPF
   responses.

   +--------+--------------------------+-------------------------------+
   | Result | Result Message           | Overall or Object Level       |
   | Code   |                          |                               |
   +--------+--------------------------+-------------------------------+
   | 1000   | Request Succeeded. succeeded        | Overall Response Code         |
   |        |                          |                               |
   | 2000   | Request syntax invalid. invalid   | Overall Response Code         |
   |        |                          |                               |
   | 2001   | Request too large. large        | Overall Response Code         |
   |        | MaxSupported:[Maximum    |                               |
   |        | requests supported]      |                               |
   |        |                          |                               |
   | 2002   | Version not supported. supported    | Overall Response Code         |
   |        |                          |                               |
   | 2100   | Command invalid. invalid          | Overall Response Code         |
   |        |                          |                               |
   | 2300   | System temporarily       | Overall Response Code         |
   |        | unavailable.             |                               |
   |        | unavailable              |                               |
   | 2301   | Unexpected internal      | Overall Response Code         |
   |        | system or server error.  |                               |
   |        | error   |                               |
   | 2101   | Attribute value invalid. invalid  | Object Level Object-Level Response Code    |
   |        | AttrName:[AttributeName] |                               |
   |        | AttrVal:[AttributeValue] |                               |
   |        |                          |                               |
   | 2102   | Object does not exist. exist    | Object Level Object-Level Response Code    |
   |        | AttrName:[AttributeName] |                               |
   |        | AttrVal:[AttributeValue] |                               |
   |        |                          |                               |
   | 2103   | Object status or         | Object Level Object-Level Response Code    |
   |        | ownership does not allow |                               |
   |        | for operation. operation            |                               |
   |        | AttrName:[AttributeName] |                               |
   |        | AttrVal:[AttributeValue] |                               |
   +--------+--------------------------+-------------------------------+

           Table 1: Response Codes Code Numbering Scheme and Messages

   Response

   The response message for response code 2001 is "parameterized" with
   the following parameter: "[Maximum requests supported]".  When the
   request is too large, this parameter MUST be used to indicate the
   maximum number of requests supported by the server in a single
   protocol operation.

   Response code 2000 SHOULD be used when the XML Schema validation of
   requests fails.

   Each of the object level object-level response messages are "parameterized" with
   the following parameters: "AttributeName" and "AttributeValue".

   For example, if an SPPF client sends a request to delete a
   Destination Group with a name "TestDG", and it does not already
   exist, then the error message returned should be: "Attribute value
   invalid.  AttrName:dgName AttrVal:TestDG".

   The use of these parameters MUST adhere to the rules defined in
   Section 5.3 of [I-D.draft-ietf-drinks-spp-framework]. [RFC7877].

7.4.  Minor Version Identifier

   The minor version identifier element is defined as follows:

   o  minorVer: Zero or one minor version identifier, indicating the
      minor version of the SPP Protocol SPPP over SOAP API that the client is
      attempting to use.  This is used in conjunction with the major
      version identifier in the XML namespace Namespace to identify the version of
      SPP Protocol
      SPPP over SOAP that the client is using.  If the element is not
      present, the server assumes that the client is using the latest
      minor version of SPP Protocol SPPP over SOAP supported by the SPPF server for
      the given major version.  The versions of SPP
      Protocol SPPP over SOAP supported
      by a given SPPF server can be retrieved by the client using this
      same spppServerStatusRequest without passing in the minorVer
      element.

8.  Protocol Operations

   Refer to Section 7 of [I-D.draft-ietf-drinks-spp-framework] [RFC7877] for a description of all SPPF operations,
   operations and any necessary semantics that MUST be adhered to in
   order to conform with SPPF.

9.  SPP Protocol  SPPP over SOAP WSDL Definition

   The SPP Protocol SPPP over SOAP WSDL and data types are defined below.  The WSDL
   design approach is commonly referred to as "Generic WSDL".  It is
   generic in the sense that there is not a specific WSDL operation
   defined for each object type that is supported by the SPPF protocol.
   There is a single WSDL structure for each type of SPPF operation.
   Each such WSDL structure contains exactly one input structure and one
   output structure that wraps any data elements that are part of the
   incoming request and the outgoing response response, respectively.  The
   spppSOAPBinding in the WSDL defines the binding style as "document"
   and the encoding as "literal".  It is this combination of "wrapped"
   input and output data structures, "document" binding style, and
   "literal" encoding that characterize the Document Literal Wrapped
   style of WSDL specifications.

   Notes: The following WSDL has been formatted (e.g. (e.g., tabs, spaces) to
   meet IETF document requirements.  Deployments MUST replace
   "REPLACE_WITH_ACTUAL_URL" in the WSDL below with the URI of the SPPF
   Server
   server instance.

   <?xml version="1.0" encoding="UTF-8"?>
   <wsdl:definitions xmlns:wsdl="http://schemas.xmlsoap.org/wsdl/"
   xmlns:soap="http://schemas.xmlsoap.org/wsdl/soap/"
   xmlns:xsd="http://www.w3.org/2001/XMLSchema"
   xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
   xmlns:sppfb="urn:ietf:params:xml:ns:sppf:base:1"
   xmlns:sppfs="urn:ietf:params:xml:ns:sppf:soap:1"
   targetNamespace="urn:ietf:params:xml:ns:sppf:soap:1">
    <wsdl:types>
     <xsd:schema xmlns="http://www.w3.org/2001/XMLSchema"
     xmlns:sppfs="urn:ietf:params:xml:ns:sppf:soap:1"
     targetNamespace="urn:ietf:params:xml:ns:sppf:soap:1">
      <annotation>
       <documentation>
        ---- Import base schema ----
       </documentation>
      </annotation>
      <import namespace="urn:ietf:params:xml:ns:sppf:base:1"
      schemaLocation="sppfbase.xsd"/>
      <annotation>
       <documentation>
        ---- Key type(s) extended
        from base schema. ----
       </documentation>
      </annotation>
      <complexType name="ObjKeyType">
       <complexContent>
        <extension base="sppfb:ObjKeyType">
         <sequence>
          <element name="rant" type="sppfb:OrgIdType"/>
          <element name="name" type="sppfb:ObjNameType"/>
          <element name="type" type="sppfs:ObjKeyTypeEnum"/>
         </sequence>
        </extension>
       </complexContent>
      </complexType>
    <simpleType name="ObjKeyTypeEnum">
      <restriction base="token">
        <enumeration value="SedGrp"/>
        <enumeration value="DestGrp"/>
        <enumeration value="SedRec"/>
        <enumeration value="EgrRte"/>
      </restriction>
    </simpleType>

      <complexType name="SedGrpOfferKeyType">
       <complexContent>
        <extension base="sppfb:SedGrpOfferKeyType">
         <sequence>
          <element name="sedGrpKey"
          type="sppfs:ObjKeyType"/>
          <element name="offeredTo"
          type="sppfb:OrgIdType"/>
         </sequence>
        </extension>
       </complexContent>
      </complexType>

      <complexType name="PubIdKeyType">
       <complexContent>
        <extension base="sppfb:PubIdKeyType">
         <sequence>
          <element name="rant" type="sppfb:OrgIdType"/>
          <choice>
           <element name="number"
           type="sppfb:NumberType"/>
           <element name="range"
           type="sppfb:NumberRangeType"/>
          </choice>
         </sequence>
        </extension>
       </complexContent>
      </complexType>

      <annotation>
       <documentation>
        ---- Generic Request and
        Response Definitions ----
       </documentation>
      </annotation>
      <element name="spppAddRequest">
       <complexType>
        <sequence>
         <element name="clientTransId"
         type="sppfb:TransIdType" minOccurs="0"/>
         <element name="minorVer"
         type="sppfb:MinorVerType" minOccurs="0"/>
         <element name="obj" type="sppfb:BasicObjType"
         maxOccurs="unbounded"/>
        </sequence>
       </complexType>
      </element>
      <element name="spppDelRequest">
       <complexType>
        <sequence>
         <element name="clientTransId"
         type="sppfb:TransIdType" minOccurs="0"/>
         <element name="minorVer"
         type="sppfb:MinorVerType" minOccurs="0"/>
         <element name="objKey"
         type="sppfb:ObjKeyType" maxOccurs="unbounded"/>
        </sequence>
       </complexType>
      </element>
      <element name="spppAcceptRequest">
       <complexType>
        <sequence>
         <element name="clientTransId"
         type="sppfb:TransIdType" minOccurs="0"/>
         <element name="minorVer"
         type="sppfb:MinorVerType" minOccurs="0"/>
         <element name="sedGrpOfferKey"
         type="sppfs:SedGrpOfferKeyType"
         maxOccurs="unbounded"/>
        </sequence>
       </complexType>
      </element>
      <element name="spppRejectRequest">
       <complexType>
        <sequence>
         <element name="clientTransId"
         type="sppfb:TransIdType" minOccurs="0"/>
         <element name="minorVer"
         type="sppfb:MinorVerType" minOccurs="0"/>
         <element name="sedGrpOfferKey"
         type="sppfs:SedGrpOfferKeyType"
         maxOccurs="unbounded"/>
        </sequence>
       </complexType>
      </element>
      <element name="spppGetRequest">
       <complexType>
        <sequence>
         <element name="minorVer"
         type="sppfb:MinorVerType" minOccurs="0"/>
         <element name="objKey"
         type="sppfb:ObjKeyType"
         maxOccurs="unbounded"/>
        </sequence>
       </complexType>
      </element>
      <element name="spppBatchRequest">
       <complexType>
        <sequence>
         <element name="clientTransId"
         type="sppfb:TransIdType" minOccurs="0"/>
         <element name="minorVer"
         type="sppfb:MinorVerType" minOccurs="0"/>
          <choice minOccurs="1" maxOccurs="unbounded">
           <element name="addObj" type="sppfb:BasicObjType"/>
           <element name="delObj" type="sppfb:ObjKeyType"/>
           <element name="acceptSedGrpOffer"
           type="sppfs:SedGrpOfferKeyType"/>
           <element name="rejectSedGrpOffer"
           type="sppfs:SedGrpOfferKeyType"/>
          </choice>
        </sequence>
       </complexType>
      </element>
      <element name="spppServerStatusRequest">
       <complexType>
        <sequence>
         <element name="minorVer"
         type="sppfb:MinorVerType" minOccurs="0"/>
        </sequence>
       </complexType>
      </element>
      <element name="getSedGrpOffersRequest">
       <complexType>
        <sequence>
         <element name="minorVer"
         type="sppfb:MinorVerType" minOccurs="0"/>
        <element name="offeredBy"
        type="sppfb:OrgIdType" minOccurs="0"
        maxOccurs="unbounded"/>
        <element name="offeredTo" type="sppfb:OrgIdType"
        minOccurs="0" maxOccurs="unbounded"/>
        <element name="status"
        type="sppfb:SedGrpOfferStatusType" minOccurs="0"/>
        <element name="sedGrpOfferKey"
        type="sppfs:SedGrpOfferKeyType"
        minOccurs="0" maxOccurs="unbounded"/>
        </sequence>
       </complexType>
      </element>
      <element name="spppAddResponse">
       <complexType>
        <sequence>
         <element name="clientTransId"
         type="sppfb:TransIdType" minOccurs="0"/>
         <element name="serverTransId"
         type="sppfb:TransIdType"/>
         <element name="overallResult"
         type="sppfs:ResultCodeType"/>
         <element name="detailResult"
         type="sppfs:ObjResultCodeType"
         minOccurs="0" maxOccurs="unbounded"/>
        </sequence>
       </complexType>
      </element>
      <element name="spppDelResponse">
       <complexType>
        <sequence>
         <element name="clientTransId"
         type="sppfb:TransIdType" minOccurs="0"/>
         <element name="serverTransId"
         type="sppfb:TransIdType"/>
         <element name="overallResult"
         type="sppfs:ResultCodeType"/>
         <element name="detailResult"
         type="sppfs:ObjKeyResultCodeType"
         minOccurs="0" maxOccurs="unbounded"/>
        </sequence>
       </complexType>
      </element>
      <element name="spppAcceptResponse">
       <complexType>
        <sequence>
         <element name="clientTransId"
         type="sppfb:TransIdType" minOccurs="0"/>
         <element name="serverTransId"
         type="sppfb:TransIdType"/>
         <element name="overallResult"
         type="sppfs:ResultCodeType"/>
         <element name="detailResult"
         type="sppfs:SedGrpOfferKeyResultCodeType"
         minOccurs="0" maxOccurs="unbounded"/>
        </sequence>
       </complexType>
      </element>
      <element name="spppRejectResponse">
       <complexType>
        <sequence>
         <element name="clientTransId"
         type="sppfb:TransIdType" minOccurs="0"/>
         <element name="serverTransId"
         type="sppfb:TransIdType"/>
         <element name="overallResult"
         type="sppfs:ResultCodeType"/>
         <element name="detailResult"
         type="sppfs:SedGrpOfferKeyResultCodeType"
         minOccurs="0" maxOccurs="unbounded"/>
        </sequence>
       </complexType>
      </element>
       <element name="spppBatchResponse">
       <complexType>
        <sequence>
         <element name="clientTransId"
         type="sppfb:TransIdType" minOccurs="0"/>
         <element name="serverTransId"
         type="sppfb:TransIdType"/>
         <element name="overallResult"
         type="sppfs:ResultCodeType"/>
          <choice minOccurs="0" maxOccurs="unbounded">
           <element name="addResult"
                    type="sppfs:ObjResultCodeType"/>
           <element name="delResult"
                    type="sppfs:ObjKeyResultCodeType"/>
           <element name="acceptResult"
                    type="sppfs:SedGrpOfferKeyResultCodeType"/>
           <element name="rejectResult"
                  type="sppfs:SedGrpOfferKeyResultCodeType"/>
          </choice>
        </sequence>
       </complexType>
      </element>
      <element name="spppGetResponse">
       <complexType>
        <sequence>
         <element name="overallResult"
         type="sppfs:ResultCodeType"/>
         <element name="resultObj"
         type="sppfb:BasicObjType"
         minOccurs="0" maxOccurs="unbounded"/>
        </sequence>
       </complexType>
      </element>
      <element name="spppServerStatusResponse">
       <complexType>
        <sequence>
         <element name="overallResult"
         type="sppfs:ResultCodeType"/>
         <element name="svcMenu"
         type="sppfb:SvcMenuType"/>
        </sequence>
       </complexType>
      </element>
      <annotation>
       <documentation>
        ---- Operation Result Type
        Definitions ----
       </documentation>
      </annotation>
      <complexType name="ResultCodeType">
       <sequence>
        <element name="code" type="sppfs:ResultCodeValType"/>
        <element name="msg" type="sppfs:MsgType"/>
       </sequence>
      </complexType>

      <simpleType name="ResultCodeValType">
        <restriction base="unsignedShort">
          <enumeration value="1000"/>
          <enumeration value="2000"/>
          <enumeration value="2001"/>
          <enumeration value="2002"/>
          <enumeration value="2100"/>
          <enumeration value="2101"/>
          <enumeration value="2102"/>
          <enumeration value="2103"/>
          <enumeration value="2300"/>
          <enumeration value="2301"/>
        </restriction>
      </simpleType>

      <simpleType name="MsgType">
        <restriction base="token">
         <minLength value="3"/>
         <maxLength value="255"/>
        </restriction>
       </simpleType>

      <complexType name="ObjResultCodeType">
       <complexContent>
        <extension base="sppfs:ResultCodeType">
         <sequence>
          <element name="obj" type="sppfb:BasicObjType"/>
         </sequence>
        </extension>
       </complexContent>
      </complexType>
      <complexType name="ObjKeyResultCodeType">
       <complexContent>
        <extension base="sppfs:ResultCodeType">
         <sequence>
          <element name="objKey" type="sppfb:ObjKeyType"/>
         </sequence>
        </extension>
       </complexContent>
      </complexType>
         <complexType name="SedGrpOfferKeyResultCodeType">
       <complexContent>
        <extension base="sppfs:ResultCodeType">
         <sequence>
          <element name="sedGrpOfferKey"
          type="sppfs:SedGrpOfferKeyType"/>
         </sequence>
        </extension>
       </complexContent>
       </complexType>
     </xsd:schema>
    </wsdl:types>
    <wsdl:message name="spppAddRequestMsg">
     <wsdl:part name="rqst" element="sppfs:spppAddRequest"/>
    </wsdl:message>
    <wsdl:message name="spppDelRequestMsg">
     <wsdl:part name="rqst" element="sppfs:spppDelRequest"/>
    </wsdl:message>
    <wsdl:message name="spppAcceptRequestMsg">
     <wsdl:part name="rqst" element="sppfs:spppAcceptRequest"/>
    </wsdl:message>
    <wsdl:message name="spppRejectRequestMsg">
     <wsdl:part name="rqst" element="sppfs:spppRejectRequest"/>
    </wsdl:message>
    <wsdl:message name="spppBatchRequestMsg">
     <wsdl:part name="rqst" element="sppfs:spppBatchRequest"/>
    </wsdl:message>
    <wsdl:message name="spppGetRequestMsg">
     <wsdl:part name="rqst" element="sppfs:spppGetRequest"/>
    </wsdl:message>
    <wsdl:message name="spppGetSedGrpOffersRequestMsg">
     <wsdl:part name="rqst" element="sppfs:getSedGrpOffersRequest"/>
    </wsdl:message>
    <wsdl:message name="spppAddResponseMsg">
     <wsdl:part name="rspns" element="sppfs:spppAddResponse"/>
    </wsdl:message>
     <wsdl:message name="spppDelResponseMsg">
     <wsdl:part name="rspns" element="sppfs:spppDelResponse"/>
    </wsdl:message>
     <wsdl:message name="spppAcceptResponseMsg">
     <wsdl:part name="rspns" element="sppfs:spppAcceptResponse"/>
    </wsdl:message>
     <wsdl:message name="spppRejectResponseMsg">
     <wsdl:part name="rspns" element="sppfs:spppRejectResponse"/>
    </wsdl:message>
     <wsdl:message name="spppBatchResponseMsg">
     <wsdl:part name="rspns" element="sppfs:spppBatchResponse"/>
    </wsdl:message>
    <wsdl:message name="spppGetResponseMsg">
     <wsdl:part name="rspns" element="sppfs:spppGetResponse"/>
    </wsdl:message>
    <wsdl:message name="spppServerStatusRequestMsg">
     <wsdl:part name="rqst" element="sppfs:spppServerStatusRequest"/>
    </wsdl:message>
    <wsdl:message name="spppServerStatusResponseMsg">
     <wsdl:part name="rspns" element="sppfs:spppServerStatusResponse"/>
    </wsdl:message>
    <wsdl:portType name="spppPortType">
     <wsdl:operation name="submitAddRqst">
      <wsdl:input message="sppfs:spppAddRequestMsg"/>
      <wsdl:output message="sppfs:spppAddResponseMsg"/>
     </wsdl:operation>
     <wsdl:operation name="submitDelRqst">
      <wsdl:input message="sppfs:spppDelRequestMsg"/>
      <wsdl:output message="sppfs:spppDelResponseMsg"/>
     </wsdl:operation>
     <wsdl:operation name="submitAcceptRqst">
      <wsdl:input message="sppfs:spppAcceptRequestMsg"/>
      <wsdl:output message="sppfs:spppAcceptResponseMsg"/>
     </wsdl:operation>
     <wsdl:operation name="submitRejectRqst">
      <wsdl:input message="sppfs:spppRejectRequestMsg"/>
      <wsdl:output message="sppfs:spppRejectResponseMsg"/>
     </wsdl:operation>
     <wsdl:operation name="submitBatchRqst">
      <wsdl:input message="sppfs:spppBatchRequestMsg"/>
      <wsdl:output message="sppfs:spppBatchResponseMsg"/>
     </wsdl:operation>
     <wsdl:operation name="submitGetRqst">
      <wsdl:input message="sppfs:spppGetRequestMsg"/>
      <wsdl:output message="sppfs:spppGetResponseMsg"/>
     </wsdl:operation>
     <wsdl:operation name="submitGetSedGrpOffersRqst">
      <wsdl:input message="sppfs:spppGetSedGrpOffersRequestMsg"/>
      <wsdl:output message="sppfs:spppGetResponseMsg"/>
     </wsdl:operation>
     <wsdl:operation name="submitServerStatusRqst">
      <wsdl:input message="sppfs:spppServerStatusRequestMsg"/>
      <wsdl:output message="sppfs:spppServerStatusResponseMsg"/>
     </wsdl:operation>
    </wsdl:portType>
    <wsdl:binding name="spppSoapBinding" type="sppfs:spppPortType">
     <soap:binding style="document"
     transport="http://schemas.xmlsoap.org/soap/http"/>
     <wsdl:operation name="submitAddRqst">
      <soap:operation soapAction="submitAddRqst" style="document"/>
      <wsdl:input>
       <soap:body use="literal"/>
      </wsdl:input>
      <wsdl:output>
       <soap:body use="literal"/>
      </wsdl:output>
     </wsdl:operation>
     <wsdl:operation name="submitDelRqst">
      <soap:operation soapAction="submitDelRqst" style="document"/>
      <wsdl:input>
       <soap:body use="literal"/>
      </wsdl:input>
      <wsdl:output>
       <soap:body use="literal"/>
      </wsdl:output>
     </wsdl:operation>
     <wsdl:operation name="submitAcceptRqst">
      <soap:operation soapAction="submitAcceptRqst" style="document"/>
      <wsdl:input>
       <soap:body use="literal"/>
      </wsdl:input>
      <wsdl:output>
       <soap:body use="literal"/>
      </wsdl:output>
     </wsdl:operation>
     <wsdl:operation name="submitRejectRqst">
      <soap:operation soapAction="submitRejectRqst" style="document"/>
      <wsdl:input>
       <soap:body use="literal"/>
      </wsdl:input>
      <wsdl:output>
       <soap:body use="literal"/>
      </wsdl:output>
     </wsdl:operation>
     <wsdl:operation name="submitBatchRqst">
      <soap:operation soapAction="submitBatchRqst" style="document"/>
      <wsdl:input>
       <soap:body use="literal"/>
      </wsdl:input>
      <wsdl:output>
       <soap:body use="literal"/>
      </wsdl:output>
     </wsdl:operation>
     <wsdl:operation name="submitGetRqst">
      <soap:operation soapAction="submitGetRqst" style="document"/>
      <wsdl:input>
       <soap:body use="literal"/>
      </wsdl:input>
      <wsdl:output>
       <soap:body use="literal"/>
      </wsdl:output>
     </wsdl:operation>
     <wsdl:operation name="submitGetSedGrpOffersRqst">
      <soap:operation soapAction="submitGetSedGrpOffersRqst"
      style="document"/>
      <wsdl:input>
       <soap:body use="literal"/>
      </wsdl:input>
      <wsdl:output>
       <soap:body use="literal"/>
      </wsdl:output>
     </wsdl:operation>
     <wsdl:operation name="submitServerStatusRqst">
      <soap:operation soapAction="submitServerStatusRqst"
      style="document"/>
      <wsdl:input>
       <soap:body use="literal"/>
      </wsdl:input>
      <wsdl:output>
       <soap:body use="literal"/>
      </wsdl:output>
     </wsdl:operation>
    </wsdl:binding>
    <wsdl:service name="spppService">
     <wsdl:port name="spppPort" binding="sppfs:spppSoapBinding">
      <soap:address location="REPLACE_WITH_ACTUAL_URL"/>
     </wsdl:port>
    </wsdl:service>
   </wsdl:definitions>

                              Figure 2: WSDL

10.  SPP Protocol  SPPP over SOAP Examples

   This section shows an XML message exchange between two SIP Service
   Providers (SSP) (SSPs) and a registry. Registry.  The messages in this section are
   valid XML instances that conform to the SPP Protocol SPPP over SOAP schema version
   within this document.  This section also relies on the XML data
   structures defined in the SPPF specification
   [I-D.draft-ietf-drinks-spp-framework].  Which [RFC7877], which should
   also be referenced to understand XML object types embedded in these
   example messages.

   In this sample use case use-case scenario, SSP1 and SSP2 provision resource
   data in the registry Registry and use SPPF constructs to selectively share the
   SED groups. Groups.  In the figure below, SSP2 has two ingress SBE Signaling Path
   Border Element (SBE) instances that are associated with the public identities that Public
   Identities with which SSP2 has the retail relationship with. relationship.  Also, the
   two Session Border Element SBE instances for SSP1 are used to show how to use SPPF to
   associate route preferences for the destination ingress routes Ingress Routes and
   exercise greater control on outbound traffic to the peer's ingress
   SBEs.

      ---------------+                      +------------------
                     |                      |
                 +------+               +------+
                 | sbe1 |               | sbe2 |
                 +------+               +------+
       SSP1          |                      |           SSP2
                 +------+               +------+
                 | sbe3 |               | sbe4 |
                 +------+               +------+
      iana-en:111    |                      |     iana-en:222
      ---------------+                      +------------------
              |                                     |
              |                                     |
              | SPPF   +------------------+   SPPF  |
              +------->|     Registry     |<--------+
                       +------------------+

                      Example Use-Case Infrastructure

10.1.  Add Destination Group

   SSP2 adds a destination group Destination Group to the registry Registry for use later. later use.  The
   SSP2 SPPF client sets a unique transaction identifier 'txn_1479' "txn_1479" for
   tracking purposes.  The name of the destination group Destination Group is set to
   DEST_GRP_SSP2_1
   DEST_GRP_SSP2_1.

   <?xml version="1.0" encoding="UTF-8"?>
   <soapenv:Envelope
   xmlns:soapenv="http://schemas.xmlsoap.org/soap/envelope/"
   xmlns:urn="urn:ietf:params:xml:ns:sppf:soap:1"
   xmlns:urn1="urn:ietf:params:xml:ns:sppf:base:1"
   xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance">
    <soapenv:Header/>
    <soapenv:Body>
     <urn:spppAddRequest>
      <!--Optional:-->
      <clientTransId>txn_1479</clientTransId>
       <!--1 or more repetitions:-->
      <obj xsi:type="urn1:DestGrpType">
       <urn1:rant>iana-en:222</urn1:rant>
       <urn1:rar>iana-en:223</urn1:rar>
       <urn1:dgName>DEST_GRP_SSP2_1</urn1:dgName>
      </obj>
     </urn:spppAddRequest>
    </soapenv:Body>
   </soapenv:Envelope>

   The registry Registry processes the request and return returns a favorable response
   confirming successful creation of the named destination group.  Also,
   besides Destination Group.  In
   addition to returning a unique server transaction identifier, the
   Registry
   also returns the matching client transaction identifier from the
   request message back to the SPPF client.

   <?xml version="1.0" encoding="UTF-8"?>
   <S:Envelope
   xmlns:S="http://schemas.xmlsoap.org/soap/envelope/">
    <S:Body>
     <ns3:spppAddResponse
      xmlns:ns2="urn:ietf:params:xml:ns:sppf:base:1"
      xmlns:ns3="urn:ietf:params:xml:ns:sppf:soap:1">
      <clientTransId>txn_1479</clientTransId>
      <serverTransId>tx_12345</serverTransId>
      <overallResult>
       <code>1000</code>
       <msg>Request Succeeded.</msg>
      </overallResult>
     </ns3:spppAddResponse>
    </S:Body>
   </S:Envelope>

10.2.  Add SED Records

   SSP2 adds SED records Records in the form of ingress routes Ingress Routes to the registry. Registry.

   <?xml version="1.0" encoding="UTF-8"?>
   <soapenv:Envelope
   xmlns:soapenv="http://schemas.xmlsoap.org/soap/envelope/"
   xmlns:urn="urn:ietf:params:xml:ns:sppf:soap:1"
   xmlns:urn1="urn:ietf:params:xml:ns:sppf:base:1"
   xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance">
    <soapenv:Header/>
    <soapenv:Body>
     <urn:spppAddRequest>
      <!--Optional:-->
      <clientTransId>txn_1479</clientTransId>
      <!--1 or more repetitions:-->
      <obj xsi:type="urn1:NAPTRType">
       <urn1:rant>iana-en:222</urn1:rant>
       <urn1:rar>iana-en:223</urn1:rar>
       <urn1:sedName>SED_SSP2_SBE2</urn1:sedName>
       <urn1:isInSvc>true</urn1:isInSvc>
       <urn1:order>10</urn1:order>
       <urn1:flags>u</urn1:flags>
       <urn1:svcs>E2U+sip</urn1:svcs>
       <urn1:regx>
        <urn1:ere>^(.*)$</urn1:ere>
        <urn1:repl>sip:\1@sbe2.ssp2.example.com</urn1:repl>
       </urn1:regx>
      </obj>
     </urn:spppAddRequest>
    </soapenv:Body>
   </soapenv:Envelope>

   The registry Registry returns a success response.

   <?xml version="1.0" encoding="UTF-8"?>
   <S:Envelope
   xmlns:S="http://schemas.xmlsoap.org/soap/envelope/">
    <S:Body>
     <ns3:spppAddResponse
      xmlns:ns2="urn:ietf:params:xml:ns:sppf:base:1"
      xmlns:ns3="urn:ietf:params:xml:ns:sppf:soap:1">
      <clientTransId>txn_1479</clientTransId>
      <serverTransId>tx_12345</serverTransId>
      <overallResult>
       <code>1000</code>
       <msg>Request Succeeded.</msg>
      </overallResult>
     </ns3:spppAddResponse>
    </S:Body>
   </S:Envelope>

10.3.  Add SED Records -- URIType

   SSP2 adds another SED record Record to the registry Registry and makes use of URIType
   URIType.

   <?xml version="1.0" encoding="UTF-8"?>
   <soapenv:Envelope
   xmlns:soapenv="http://schemas.xmlsoap.org/soap/envelope/"
   xmlns:urn="urn:ietf:params:xml:ns:sppf:soap:1"
   xmlns:urn1="urn:ietf:params:xml:ns:sppf:base:1"
   xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance">
    <soapenv:Header/>
    <soapenv:Body>
     <urn:spppAddRequest>
      <clientTransId>txn_1479</clientTransId>
       <!--1 or more repetitions:-->
      <obj xsi:type="urn1:URIType">
       <urn1:rant>iana-en:222</urn1:rant>
       <urn1:rar>iana-en:223</urn1:rar>
       <urn1:sedName>SED_SSP2_SBE4</urn1:sedName>
       <urn1:isInSvc>true</urn1:isInSvc>
       <urn1:ere>^(.*)$</urn1:ere>
       <urn1:uri>sip:\1;npdi@sbe4.ssp2.example.com</urn1:uri>
      </obj>
     </urn:spppAddRequest>
    </soapenv:Body>
   </soapenv:Envelope>
   The registry Registry returns a success response.

   <?xml version="1.0" encoding="UTF-8"?>
   <S:Envelope xmlns:S="http://schemas.xmlsoap.org/soap/envelope/">
    <S:Body>
     <ns3:spppAddResponse
      xmlns:ns2="urn:ietf:params:xml:ns:sppf:base:1"
      xmlns:ns3="urn:ietf:params:xml:ns:sppf:soap:1">
      <clientTransId>txn_1479</clientTransId>
      <serverTransId>tx_12345</serverTransId>
      <overallResult>
       <code>1000</code>
       <msg>Request Succeeded.</msg>
      </overallResult>
     </ns3:spppAddResponse>
    </S:Body>
   </S:Envelope>

10.4.  Add SED Group

   SSP2 creates the grouping of SED records (e.g. ingress routes) Records (e.g., Ingress Routes) and
   chooses a higher precedence for SED_SSP2_SBE2 by setting a lower
   number for the "priority" attribute, a protocol agnostic precedence
   indicator.

   <?xml version="1.0" encoding="UTF-8"?>
   <soapenv:Envelope
    xmlns:soapenv="http://schemas.xmlsoap.org/soap/envelope/"
    xmlns:urn="urn:ietf:params:xml:ns:sppf:soap:1"
    xmlns:urn1="urn:ietf:params:xml:ns:sppf:base:1"
    xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance">
    <soapenv:Header/>
    <soapenv:Body>
     <urn:spppAddRequest>
      <clientTransId>txn_1479</clientTransId>
       <!--1 or more repetitions:-->
      <obj xsi:type="urn1:SedGrpType">
       <urn1:rant>iana-en:222</urn1:rant>
       <urn1:rar>iana-en:223</urn1:rar>
       <urn1:sedGrpName>SED_GRP_SSP2_1</urn1:sedGrpName>
       <urn1:sedRecRef>
        <urn1:sedKey xsi:type="urn:ObjKeyType">
         <rant>iana-en:222</rant>
         <name>SED_SSP2_SBE2</name>
         <type>SedRec</type>
        </urn1:sedKey>
        <urn1:priority>100</urn1:priority>
       </urn1:sedRecRef>
       <urn1:dgName>DEST_GRP_SSP2_1</urn1:dgName>
       <urn1:isInSvc>true</urn1:isInSvc>
       <urn1:priority>10</urn1:priority>
      </obj>
     </urn:spppAddRequest>
    </soapenv:Body>
   </soapenv:Envelope>

   To confirm successful processing of this request, registry the Registry
   returns a well-known result code '1000' "1000" to the SSP2 client.

   <?xml version="1.0" encoding="UTF-8"?>
   <S:Envelope xmlns:S="http://schemas.xmlsoap.org/soap/envelope/">
    <S:Body>
     <ns3:spppAddResponse
      xmlns:ns2="urn:ietf:params:xml:ns:sppf:base:1"
      xmlns:ns3="urn:ietf:params:xml:ns:sppf:soap:1">
      <clientTransId>txn_1479</clientTransId>
      <serverTransId>tx_12345</serverTransId>
      <overallResult>
       <code>1000</code>
       <msg>Request Succeeded.</msg>
      </overallResult>
     </ns3:spppAddResponse>
    </S:Body>
   </S:Envelope>

10.5.  Add Public Identifier -- Successful COR claim Claim

   SSP2 activates a TN public identifier Public Identifier by associating it with a valid
   destination group.
   Destination Group.  Further, SSP2 puts forth a claim that it is the
   carrier-of-record (COR) for the TN.

   <soapenv:Envelope
   xmlns:soapenv="http://schemas.xmlsoap.org/soap/envelope/"
   xmlns:urn="urn:ietf:params:xml:ns:sppf:soap:1"
   xmlns:urn1="urn:ietf:params:xml:ns:sppf:base:1"
   xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance">
    <soapenv:Header/>
    <soapenv:Body>
     <urn:spppAddRequest>
      <clientTransId>txn_1479</clientTransId>
       <!--1 or more repetitions:-->
      <obj xsi:type="urn1:TNType">
       <urn1:rant>iana-en:222</urn1:rant>
       <urn1:rar>iana-en:223</urn1:rar>
       <urn1:dgName>DEST_GRP_SSP2_1</urn1:dgName>
       <urn1:tn>+12025556666</urn1:tn>
       <urn1:corInfo>
        <urn1:corClaim>true</urn1:corClaim>
       </urn1:corInfo>
      </obj>
     </urn:spppAddRequest>
    </soapenv:Body>
   </soapenv:Envelope>
   Assuming that the registry Registry has access to TN authority data and it
   performs the required checks to verify that SSP2 is in fact the
   service provider SP of
   record for the given TN, the request is processed successfully.  In
   the response message, the registry Registry sets the value of <cor> to "true"
   in order to confirm the SSP2 claim as the carrier of
   record carrier-of-record, and the
   <corDate> reflects the time when the carrier of record carrier-of-record claim is
   processed.

   <?xml version="1.0" encoding="UTF-8"?>
   <S:Envelope
    xmlns:S="http://schemas.xmlsoap.org/soap/envelope/"
    xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance">
    <S:Body>
     <ns3:spppAddResponse
      xmlns:ns2="urn:ietf:params:xml:ns:sppf:base:1"
      xmlns:ns3="urn:ietf:params:xml:ns:sppf:soap:1">
      <clientTransId>txn_1479</clientTransId>
      <serverTransId>tx_12345</serverTransId>
      <overallResult>
       <code>1000</code>
       <msg>Request Succeeded.</msg>
      </overallResult>
      <detailResult>
       <code>1000</code>
       <msg>Request Succeeded.</msg>
       <obj xsi:type="ns2:TNType">
        <ns2:rant>iana-en:222</ns2:rant>
        <ns2:rar>iana-en:223</ns2:rar>
        <ns2:cDate>2010-05-30T09:30:10Z</ns2:cDate>
        <ns2:dgName>DEST_GRP_SSP2_1</ns2:dgName>
        <ns2:tn>+12025556666</ns2:tn>
        <ns2:corInfo>
         <ns2:corClaim>true</ns2:corClaim>
         <ns2:cor>true</ns2:cor>
         <ns2:corDate>2010-05-30T09:30:11Z</ns2:corDate>
        </ns2:corInfo>
       </obj>
      </detailResult>
     </ns3:spppAddResponse>
    </S:Body>
   </S:Envelope>

10.6.  Add LRN

   If another entity that SSP2 shares session establishment information
   (e.g. SED (e.g., routes) with has access
   to Number Portability data, it may choose to perform route lookups by routing number.
   RN.  Therefore, SSP2 associates a routing number an RN to a destination group Destination Group in order
   to facilitate ingress route Ingress Route discovery.

   <?xml version="1.0" encoding="UTF-8"?>
   <soapenv:Envelope
    xmlns:soapenv="http://schemas.xmlsoap.org/soap/envelope/"
    xmlns:urn="urn:ietf:params:xml:ns:sppf:soap:1"
    xmlns:urn1="urn:ietf:params:xml:ns:sppf:base:1"
    xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance">
    <soapenv:Header/>
    <soapenv:Body>
     <urn:spppAddRequest>
      <clientTransId>txn_1479</clientTransId>
       <!--1 or more repetitions:-->
      <obj xsi:type="urn1:RNType">
       <urn1:rant>iana-en:222</urn1:rant>
       <urn1:rar>iana-en:223</urn1:rar>
       <urn1:dgName>DEST_GRP_SSP2_1</urn1:dgName>
       <urn1:rn>2025550000</urn1:rn>
      </obj>
     </urn:spppAddRequest>
    </soapenv:Body>
   </soapenv:Envelope>

   The Registry completes the request successfully and returns a
   favorable response to the SPPF client.

   <?xml version="1.0" encoding="UTF-8"?>
   <S:Envelope
    xmlns:S="http://schemas.xmlsoap.org/soap/envelope/">
    <S:Body>
     <ns3:spppAddResponse
      xmlns:ns2="urn:ietf:params:xml:ns:sppf:base:1"
      xmlns:ns3="urn:ietf:params:xml:ns:sppf:soap:1">
      <clientTransId>txn_1479</clientTransId>
      <serverTransId>tx_12345</serverTransId>
      <overallResult>
       <code>1000</code>
       <msg>Request Succeeded.</msg>
      </overallResult>
     </ns3:spppAddResponse>
    </S:Body>
   </S:Envelope>

10.7.  Add TN Range

   Next, SSP2 activates a block of ten thousand TNs and associate associates it to
   a destination group. Destination Group.

   <?xml version="1.0" encoding="UTF-8"?>
   <soapenv:Envelope
    xmlns:soapenv="http://schemas.xmlsoap.org/soap/envelope/"
    xmlns:urn="urn:ietf:params:xml:ns:sppf:soap:1"
    xmlns:urn1="urn:ietf:params:xml:ns:sppf:base:1"
    xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance">
    <soapenv:Header/>
    <soapenv:Body>
     <urn:spppAddRequest>
      <clientTransId>txn_1479</clientTransId>
       <!--1 or more repetitions:-->
      <obj xsi:type="urn1:TNRType">
       <urn1:rant>iana-en:222</urn1:rant>
       <urn1:rar>iana-en:223</urn1:rar>
       <urn1:dgName>DEST_GRP_SSP2_1</urn1:dgName>
       <urn1:range>
        <urn1:startTn>+12026660000</urn1:startTn>
        <urn1:endTn>+12026669999</urn1:endTn>
       </urn1:range>
      </obj>
     </urn:spppAddRequest>
    </soapenv:Body>
   </soapenv:Envelope>
   The Registry completes the request successfully and returns a
   favorable response.

   <?xml version="1.0" encoding="UTF-8"?>
   <S:Envelope
    xmlns:S="http://schemas.xmlsoap.org/soap/envelope/">
    <S:Body>
     <ns3:spppAddResponse
      xmlns:ns2="urn:ietf:params:xml:ns:sppf:base:1"
      xmlns:ns3="urn:ietf:params:xml:ns:sppf:soap:1">
      <clientTransId>txn_1479</clientTransId>
      <serverTransId>tx_12345</serverTransId>
      <overallResult>
       <code>1000</code>
       <msg>Request Succeeded.</msg>
      </overallResult>
     </ns3:spppAddResponse>
    </S:Body>
   </S:Envelope>

10.8.  Add TN Prefix

   Next, SSP2 activates a block of ten thousand TNs by using the TNPType
   structure and identifying a TN prefix.

   <?xml version="1.0" encoding="UTF-8"?>
   <soapenv:Envelope
    xmlns:soapenv="http://schemas.xmlsoap.org/soap/envelope/"
    xmlns:urn="urn:ietf:params:xml:ns:sppf:soap:1"
    xmlns:urn1="urn:ietf:params:xml:ns:sppf:base:1"
    xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance">
    <soapenv:Header/>
    <soapenv:Body>
     <urn:spppAddRequest>
      <clientTransId>txn_1479</clientTransId>
       <!--1 or more repetitions:-->
      <obj xsi:type="urn1:TNPType">
       <urn1:rant>iana-en:222</urn1:rant>
       <urn1:rar>iana-en:223</urn1:rar>
       <urn1:dgName>DEST_GRP_SSP2_1</urn1:dgName>
       <urn1:tnPrefix>+1202777</urn1:tnPrefix>
      </obj>
     </urn:spppAddRequest>
    </soapenv:Body>
   </soapenv:Envelope>

   The Registry completes the request successfully and returns a
   favorable response.

   <?xml version="1.0" encoding="UTF-8"?>
   <S:Envelope
    xmlns:S="http://schemas.xmlsoap.org/soap/envelope/">
    <S:Body>
     <ns3:spppAddResponse
      xmlns:ns2="urn:ietf:params:xml:ns:sppf:base:1"
      xmlns:ns3="urn:ietf:params:xml:ns:sppf:soap:1">
      <clientTransId>txn_1479</clientTransId>
      <serverTransId>tx_12345</serverTransId>
      <overallResult>
       <code>1000</code>
       <msg>Request Succeeded.</msg>
      </overallResult>
     </ns3:spppAddResponse>
    </S:Body>
   </S:Envelope>

10.9.  Enable Peering -- SED Group Offer

   In order for SSP1 to complete session establishment for a destination
   TN where the target subscriber has a retail relationship with SSP2,
   it first requires an asynchronous bi-directional bidirectional handshake to show
   mutual consent.  To start the process, SSP2 initiates the peering
   handshake by offering SSP1 access to its SED group. Group.

   <?xml version="1.0" encoding="UTF-8"?>
   <soapenv:Envelope
    xmlns:soapenv="http://schemas.xmlsoap.org/soap/envelope/"
    xmlns:urn="urn:ietf:params:xml:ns:sppf:soap:1"
    xmlns:urn1="urn:ietf:params:xml:ns:sppf:base:1"
    xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance">
    <soapenv:Header/>
    <soapenv:Body>
     <urn:spppAddRequest>
      <clientTransId>txn_1479</clientTransId>
       <!--1 or more repetitions:-->
      <obj xsi:type="urn1:SedGrpOfferType">
       <urn1:rant>iana-en:222</urn1:rant>
       <urn1:rar>iana-en:223</urn1:rar>
       <urn1:sedGrpOfferKey xsi:type="urn:SedGrpOfferKeyType">
        <sedGrpKey xsi:type="urn:ObjKeyType">
         <rant>iana-en:222</rant>
         <name>SED_GRP_SSP2_1</name>
         <type>SedGrp</type>
        </sedGrpKey>
        <offeredTo>iana-en:111</offeredTo>
       </urn1:sedGrpOfferKey>
       <urn1:status>offered</urn1:status>
       <urn1:offerDateTime>
         2006-05-04T18:13:51.0Z
       </urn1:offerDateTime>
      </obj>
     </urn:spppAddRequest>
    </soapenv:Body>
   </soapenv:Envelope>

   The Registry completes the request successfully and confirms that the
   SSP1 will now have the opportunity to weigh in on the offer and
   either accept or reject it.  The registry Registry may employ out-of-band
   notification mechanisms for quicker updates to SSP1 so they can act
   faster, though this topic is beyond the scope of this document.

   <?xml version="1.0" encoding="UTF-8"?>
   <S:Envelope
    xmlns:S="http://schemas.xmlsoap.org/soap/envelope/">
    <S:Body>
     <ns3:spppAddResponse
      xmlns:ns2="urn:ietf:params:xml:ns:sppf:base:1"
      xmlns:ns3="urn:ietf:params:xml:ns:sppf:soap:1">
      <clientTransId>txn_1479</clientTransId>
      <serverTransId>tx_12345</serverTransId>
      <overallResult>
       <code>1000</code>
       <msg>Request Succeeded.</msg>
      </overallResult>
     </ns3:spppAddResponse>
    </S:Body>
   </S:Envelope>

10.10.  Enable Peering -- SED Group Offer Accept

   SSP1 responds to the offer from SSP2 and agrees to have visibility to
   SSP2 session establishment information (e.g. ingress routes). SED (e.g., Ingress Routes).

   <?xml version="1.0" encoding="UTF-8"?>
   <soapenv:Envelope
    xmlns:soapenv="http://schemas.xmlsoap.org/soap/envelope/"
    xmlns:urn="urn:ietf:params:xml:ns:sppf:soap:1">
    <soapenv:Header/>
    <soapenv:Body>
     <urn:spppAcceptRequest>
      <!--Optional:-->
      <clientTransId>txn_1479</clientTransId>
       <!--1 or more repetitions:-->
      <sedGrpOfferKey>
       <sedGrpKey>
        <rant>iana-en:222</rant>
        <name>SED_GRP_SSP2_1</name>
        <type>SedGrp</type>
       </sedGrpKey>
       <offeredTo>iana-en:111</offeredTo>
      </sedGrpOfferKey>
     </urn:spppAcceptRequest>
    </soapenv:Body>
   </soapenv:Envelope>
   The Registry confirms that the request has been processed
   successfully.  From this point forward, if SSP1 looks up a public identifier Public
   Identifier through the query resolution server, where the public identifier Public
   Identifier is part of the destination group Destination Group by way of
   "SED_GRP_SSP2_1" session
   establishment data SED association, SSP2 ingress SBE information will
   be shared with SSP1.

   <?xml version="1.0" encoding="UTF-8"?>
   <S:Envelope
    xmlns:S="http://schemas.xmlsoap.org/soap/envelope/">
    <S:Body>
     <ns3:spppAcceptResponse
      xmlns:ns2="urn:ietf:params:xml:ns:sppf:base:1"
      xmlns:ns3="urn:ietf:params:xml:ns:sppf:soap:1">
      <clientTransId>txn_1479</clientTransId>
      <serverTransId>tx_12350</serverTransId>
      <overallResult>
       <code>1000</code>
       <msg>Request Succeeded.</msg>
      </overallResult>
     </ns3:spppAcceptResponse>
    </S:Body>
   </S:Envelope>

10.11.  Add Egress Route

   SSP1 wants to prioritize all outbound traffic to the ingress route Ingress Route
   associated with the "SED_GRP_SSP2_1" SED Group record, through
   "sbe1.ssp1.example.com".

   <?xml version="1.0" encoding="UTF-8"?>
   <soapenv:Envelope
    xmlns:soapenv="http://schemas.xmlsoap.org/soap/envelope/"
    xmlns:urn="urn:ietf:params:xml:ns:sppf:soap:1"
    xmlns:urn1="urn:ietf:params:xml:ns:sppf:base:1"
    xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance">
    <soapenv:Header/>
    <soapenv:Body>
     <urn:spppAddRequest>
      <clientTransId>txn_1479</clientTransId>
       <!--1 or more repetitions:-->
      <obj xsi:type="urn1:EgrRteType">
       <urn1:rant>iana-en:222</urn1:rant>
       <urn1:rar>iana-en:223</urn1:rar>
       <urn1:egrRteName>EGR_RTE_01</urn1:egrRteName>
       <urn1:pref>50</urn1:pref>
       <urn1:regxRewriteRule>
        <urn1:ere>^(.*@)(.*)$</urn1:ere>
        <urn1:repl>\1\2?route=sbe1.ssp1.example.com</urn1:repl>
       </urn1:regxRewriteRule>
       <urn1:ingrSedGrp xsi:type="urn:ObjKeyType">
        <rant>iana-en:222</rant>
        <name>SED_GRP_SSP2_1</name>
        <type>SedGrp</type>
       </urn1:ingrSedGrp>
      </obj>
     </urn:spppAddRequest>
    </soapenv:Body>
   </soapenv:Envelope>

   Since peering has already been established, the request to add the
   egress route
   Egress Route has been successfully completed.

   <?xml version="1.0" encoding="UTF-8"?>
   <S:Envelope
    xmlns:S="http://schemas.xmlsoap.org/soap/envelope/">
    <S:Body>
     <ns3:spppAddResponse
      xmlns:ns2="urn:ietf:params:xml:ns:sppf:base:1"
      xmlns:ns3="urn:ietf:params:xml:ns:sppf:soap:1">
      <clientTransId>txn_1479</clientTransId>
      <serverTransId>tx_12345</serverTransId>
      <overallResult>
       <code>1000</code>
       <msg>Request Succeeded.</msg>
      </overallResult>
     </ns3:spppAddResponse>
    </S:Body>
   </S:Envelope>

10.12.  Remove Peering -- SED Group Offer Reject

   Earlier, SSP1 had earlier accepted to have having visibility to SSP2 session
   establishment data. SED.  SSP1 now
   decides to no longer maintain this
   visibility and hence visibility; hence, it rejects the
   SED Group Offer.

   <?xml version="1.0" encoding="UTF-8"?>
   <soapenv:Envelope
    xmlns:soapenv="http://schemas.xmlsoap.org/soap/envelope/"
    xmlns:urn="urn:ietf:params:xml:ns:sppf:soap:1">
    <soapenv:Header/>
    <soapenv:Body>
     <urn:spppRejectRequest>
      <!--Optional:-->
      <clientTransId>txn_1479</clientTransId>
       <!--1 or more repetitions:-->
      <sedGrpOfferKey>
       <sedGrpKey>
        <rant>iana-en:222</rant>
        <name>SED_GRP_SSP2_1</name>
        <type>SedGrp</type>
       </sedGrpKey>
       <offeredTo>iana-en:111</offeredTo>
      </sedGrpOfferKey>
     </urn:spppRejectRequest>
    </soapenv:Body>
   </soapenv:Envelope>
   The Registry confirms that the request has been processed
   successfully.  From this point forward, if SSP1 looks up a public identifier Public
   Identifier through the query resolution server, where the public identifier Public
   Identifier is part of the destination group Destination Group by way of
   "SED_GRP_SSP2_1" session
   establishment data SED association, SSP2 ingress SBE information will
   not be shared with SSP1 and hence SSP1; hence, an SSP2 ingress SBE will not be
   returned in the query response.

   <?xml version="1.0" encoding="UTF-8"?>
   <S:Envelope
    xmlns:S="http://schemas.xmlsoap.org/soap/envelope/">
    <S:Body>
     <ns3:spppRejectResponse
      xmlns:ns2="urn:ietf:params:xml:ns:sppf:base:1"
      xmlns:ns3="urn:ietf:params:xml:ns:sppf:soap:1">
      <clientTransId>txn_1479</clientTransId>
      <serverTransId>tx_12350</serverTransId>
      <overallResult>
       <code>1000</code>
       <msg>Request Succeeded.</msg>
      </overallResult>
     </ns3:spppRejectResponse>
    </S:Body>
   </S:Envelope>

10.13.  Get Destination Group

   SSP2 uses the 'spppGetRequest' spppGetRequest operation to tally the last provisioned
   record for destination group Destination Group DEST_GRP_SSP2_1.

   <?xml version="1.0" encoding="UTF-8"?>
   <soapenv:Envelope
    xmlns:soapenv="http://schemas.xmlsoap.org/soap/envelope/"
    xmlns:urn="urn:ietf:params:xml:ns:sppf:soap:1"
    xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance">
    <soapenv:Header/>
    <soapenv:Body>
     <urn:spppGetRequest>
      <!--1 or more repetitions:-->
      <objKey xsi:type="urn:ObjKeyType">
       <rant>iana-en:222</rant>
       <name>DEST_GRP_SSP2_1</name>
       <type>DestGrp</type>
      </objKey>
     </urn:spppGetRequest>
    </soapenv:Body>
   </soapenv:Envelope>

   The Registry completes the request successfully and returns a
   favorable response.

   <?xml version="1.0" encoding="UTF-8"?>
   <S:Envelope
    xmlns:S="http://schemas.xmlsoap.org/soap/envelope/"
    xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance">
    <S:Body>
     <ns3:spppGetResponse
      xmlns:ns2="urn:ietf:params:xml:ns:sppf:base:1"
      xmlns:ns3="urn:ietf:params:xml:ns:sppf:soap:1">
      <overallResult>
       <code>1000</code>
       <msg>success</msg>
      </overallResult>
      <resultObj xsi:type="ns2:DestGrpType">
       <ns2:rant>iana-en:222</ns2:rant>
       <ns2:rar>iana-en:223</ns2:rar>
       <ns2:cDate>2012-10-22T09:30:10Z</ns2:cDate>
       <ns2:dgName>DEST_GRP_SSP2_1</ns2:dgName>
      </resultObj>
     </ns3:spppGetResponse>
    </S:Body>
   </S:Envelope>

10.14.  Get Public Identifier

   SSP2 obtains the last provisioned record associated with a given TN.

   <?xml version="1.0" encoding="UTF-8"?>
   <soapenv:Envelope
    xmlns:soapenv="http://schemas.xmlsoap.org/soap/envelope/"
    xmlns:urn="urn:ietf:params:xml:ns:sppf:soap:1"
    xmlns:urn1="urn:ietf:params:xml:ns:sppf:base:1"
    xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance">
    <soapenv:Header/>
    <soapenv:Body>
     <urn:spppGetRequest>
      <!--1 or more repetitions:-->
      <objKey xsi:type="urn:PubIdKeyType">
       <rant>iana-en:222</rant>
       <number>
        <urn1:value>+12025556666</urn1:value>
        <urn1:type>TN</urn1:type>
       </number>
      </objKey>
     </urn:spppGetRequest>
    </soapenv:Body>
   </soapenv:Envelope>

   The Registry completes the request successfully and returns a
   favorable response.

   <S:Envelope
    xmlns:S="http://schemas.xmlsoap.org/soap/envelope/"
    xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance">
    <S:Body>
     <ns3:spppGetResponse
      xmlns:ns2="urn:ietf:params:xml:ns:sppf:base:1"
      xmlns:ns3="urn:ietf:params:xml:ns:sppf:soap:1">
      <overallResult>
       <code>1000</code>
       <msg>success</msg>
      </overallResult>
      <resultObj xsi:type="ns2:TNType">
       <ns2:rant>iana-en:222</ns2:rant>
       <ns2:rar>iana-en:223</ns2:rar>
       <ns2:cDate>2012-10-22T09:30:10Z</ns2:cDate>
       <ns2:dgName>DEST_GRP_SSP2_1</ns2:dgName>
       <ns2:tn>+12025556666</ns2:tn>
       <ns2:corInfo>
        <ns2:corClaim>true</ns2:corClaim>
        <ns2:cor>true</ns2:cor>
        <ns2:corDate>2010-05-30T09:30:10Z</ns2:corDate>
       </ns2:corInfo>
      </resultObj>
     </ns3:spppGetResponse>
    </S:Body>
   </S:Envelope>

10.15.  Get SED Group Request

   SSP2 obtains the last provisioned record for the SED group Group
   SED_GRP_SSP2_1.

   <?xml version="1.0" encoding="UTF-8"?>
   <soapenv:Envelope
    xmlns:soapenv="http://schemas.xmlsoap.org/soap/envelope/"
    xmlns:urn="urn:ietf:params:xml:ns:sppf:soap:1"
    xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance">
    <soapenv:Header/>
    <soapenv:Body>
     <urn:spppGetRequest>
      <!--1 or more repetitions:-->
      <objKey xsi:type="urn:ObjKeyType">
       <rant>iana-en:222</rant>
       <name>SED_GRP_SSP2_1</name>
       <type>SedGrp</type>
      </objKey>
     </urn:spppGetRequest>
    </soapenv:Body>
   </soapenv:Envelope>

   The Registry completes the request successfully and returns a
   favorable response.

   <?xml version="1.0" encoding="UTF-8"?>
   <S:Envelope
    xmlns:S="http://schemas.xmlsoap.org/soap/envelope/"
    xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance">
    <S:Body>
     <ns3:spppGetResponse
      xmlns:ns2="urn:ietf:params:xml:ns:sppf:base:1"
      xmlns:ns3="urn:ietf:params:xml:ns:sppf:soap:1">
      <overallResult>
       <code>1000</code>
       <msg>success</msg>
      </overallResult>
      <resultObj xsi:type="ns2:SedGrpType">
       <ns2:rant>iana-en:222</ns2:rant>
       <ns2:rar>iana-en:223</ns2:rar>
       <ns2:cDate>2012-10-22T09:30:10Z</ns2:cDate>
       <ns2:sedGrpName>SED_GRP_SSP2_1</ns2:sedGrpName>
       <ns2:sedRecRef>
        <ns2:sedKey xsi:type="ns3:ObjKeyType">
         <rant>iana-en:222</rant>
         <name>SED_SSP2_SBE2</name>
         <type>SedRec</type>
        </ns2:sedKey>
        <ns2:priority>100</ns2:priority>
       </ns2:sedRecRef>
       <ns2:sedRecRef>
        <ns2:sedKey xsi:type="ns3:ObjKeyType">
         <rant>iana-en:222</rant>
         <name>SED_SSP2_SBE4</name>
         <type>SedRec</type>
        </ns2:sedKey>
        <ns2:priority>101</ns2:priority>
       </ns2:sedRecRef>
       <ns2:dgName>DEST_GRP_SSP2_1</ns2:dgName>
       <ns2:isInSvc>true</ns2:isInSvc>
       <ns2:priority>10</ns2:priority>
      </resultObj>
     </ns3:spppGetResponse>
    </S:Body>
   </S:Envelope>

10.16.  Get SED Group Offers Request

   SSP2 fetches the last provisioned SED group offer Group Offer to the <peeringOrg>
   SSP1.

   <?xml version="1.0" encoding="UTF-8"?>
   <soapenv:Envelope
    xmlns:soapenv="http://schemas.xmlsoap.org/soap/envelope/"
    xmlns:urn="urn:ietf:params:xml:ns:sppf:soap:1">
    <soapenv:Header/>
    <soapenv:Body>
     <urn:getSedGrpOffersRequest>
      <offeredTo>iana-en:111</offeredTo>
     </urn:getSedGrpOffersRequest>
    </soapenv:Body>
   </soapenv:Envelope>

   The Registry processes the request successfully and returns a
   favorable response.

   <?xml version="1.0" encoding="UTF-8"?>
   <S:Envelope
    xmlns:S="http://schemas.xmlsoap.org/soap/envelope/"
    xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance">
    <S:Body>
     <ns3:spppGetResponse
      xmlns:ns2="urn:ietf:params:xml:ns:sppf:base:1"
      xmlns:ns3="urn:ietf:params:xml:ns:sppf:soap:1">
      <overallResult>
       <code>1000</code>
       <msg>success</msg>
      </overallResult>
      <resultObj xsi:type="ns2:SedGrpOfferType">
       <ns2:rant>iana-en:222</ns2:rant>
       <ns2:rar>iana-en:223</ns2:rar>
       <ns2:cDate>2012-10-22T09:30:10Z</ns2:cDate>
       <ns2:sedGrpOfferKey
        xsi:type="ns3:SedGrpOfferKeyType">
        <sedGrpKey>
         <rant>iana-en:222</rant>
         <name>SED_GRP_SSP2_1</name>
         <type>SedGrp</type>
        </sedGrpKey>
        <offeredTo>iana-en:111</offeredTo>
       </ns2:sedGrpOfferKey>
       <ns2:status>offered</ns2:status>
       <ns2:offerDateTime>
        2006-05-04T18:13:51.0Z
       </ns2:offerDateTime>
      </resultObj>
     </ns3:spppGetResponse>
    </S:Body>
   </S:Envelope>

10.17.  Get Egress Route

   SSP1 wants to verify the last provisioned record for the egress route Egress Route
   called EGR_RTE_01.

   <?xml version="1.0" encoding="UTF-8"?>
   <soapenv:Envelope
    xmlns:soapenv="http://schemas.xmlsoap.org/soap/envelope/"
    xmlns:urn="urn:ietf:params:xml:ns:sppf:soap:1"
    xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance">
    <soapenv:Header/>
    <soapenv:Body>
     <urn:spppGetRequest>
      <!--1 or more repetitions:-->
      <objKey xsi:type="urn:ObjKeyType">
       <rant>iana-en:111</rant>
       <name>EGR_RTE_01</name>
       <type>EgrRte</type>
      </objKey>
     </urn:spppGetRequest>
    </soapenv:Body>
   </soapenv:Envelope>

   The Registry completes the request successfully and returns a
   favorable response.

   <?xml version="1.0" encoding="UTF-8"?>
   <S:Envelope
    xmlns:S="http://schemas.xmlsoap.org/soap/envelope/"
    xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance">
    <S:Body>
     <ns3:spppGetResponse
      xmlns:ns2="urn:ietf:params:xml:ns:sppf:base:1"
      xmlns:ns3="urn:ietf:params:xml:ns:sppf:soap:1">
      <overallResult>
       <code>1000</code>
       <msg>success</msg>
      </overallResult>
      <resultObj xsi:type="ns2:EgrRteType">
       <ns2:rant>iana-en:222</ns2:rant>
       <ns2:rar>iana-en:223</ns2:rar>
       <ns2:cDate>2012-10-22T09:30:10Z</ns2:cDate>
       <ns2:egrRteName>EGR_RTE_01</ns2:egrRteName>
       <ns2:pref>50</ns2:pref>
       <ns2:regxRewriteRule>
        <ns2:ere>^(.*)$</ns2:ere>
        <ns2:repl>sip:\1@sbe1.ssp1.example.com</ns2:repl>
       </ns2:regxRewriteRule>
       <ns2:ingrSedGrp xsi:type="ns3:ObjKeyType">
        <rant>iana-en:222</rant>
        <name>SED_GRP_SSP2_1</name>
        <type>SedRec</type>
       </ns2:ingrSedGrp>
      </resultObj>
     </ns3:spppGetResponse>
    </S:Body>
   </S:Envelope>

10.18.  Delete Destination Group

   SSP2 initiates a request to delete the destination group Destination Group
   DEST_GRP_SSP2_1.

   <?xml version="1.0" encoding="UTF-8"?>
   <soapenv:Envelope
    xmlns:soapenv="http://schemas.xmlsoap.org/soap/envelope/"
    xmlns:urn="urn:ietf:params:xml:ns:sppf:soap:1"
    xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance">
    <soapenv:Header/>
    <soapenv:Body>
     <urn:spppDelRequest>
       <!--1 or more repetitions:-->
      <objKey xsi:type="urn:ObjKeyType">
       <rant>iana-en:222</rant>
       <name>DEST_GRP_SSP2_1</name>
       <type>DestGrp</type>
      </objKey>
     </urn:spppDelRequest>
    </soapenv:Body>
   </soapenv:Envelope>

   The Registry completes the request successfully and returns a
   favorable response.

   <?xml version="1.0" encoding="UTF-8"?>
   <S:Envelope
    xmlns:S="http://schemas.xmlsoap.org/soap/envelope/">
    <S:Body>
     <ns3:spppDelResponse
      xmlns:ns2="urn:ietf:params:xml:ns:sppf:base:1"
      xmlns:ns3="urn:ietf:params:xml:ns:sppf:soap:1">
      <serverTransId>tx_12354</serverTransId>
      <overallResult>
       <code>1000</code>
       <msg>Request Succeeded.</msg>
      </overallResult>
     </ns3:spppDelResponse>
    </S:Body>
   </S:Envelope>

10.19.  Delete Public Identifier

   SSP2 chooses to de-activate deactivate the TN and remove it from the registry. Registry.

   <?xml version="1.0" encoding="UTF-8"?>
   <soapenv:Envelope
    xmlns:soapenv="http://schemas.xmlsoap.org/soap/envelope/"
    xmlns:urn="urn:ietf:params:xml:ns:sppf:soap:1"
    xmlns:urn1="urn:ietf:params:xml:ns:sppf:base:1"
    xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance">
    <soapenv:Header/>
    <soapenv:Body>
     <urn:spppDelRequest>
      <!--1 or more repetitions:-->
      <objKey xsi:type="urn:PubIdKeyType">
       <rant>iana-en:222</rant>
       <number>
        <urn1:value>+12025556666</urn1:value>
        <urn1:type>TN</urn1:type>
       </number>
      </objKey>
     </urn:spppDelRequest>
    </soapenv:Body>
   </soapenv:Envelope>

   The Registry completes the request successfully and returns a
   favorable response.

   <?xml version="1.0" encoding="UTF-8"?>
   <S:Envelope
    xmlns:S="http://schemas.xmlsoap.org/soap/envelope/">
    <S:Body>
     <ns3:spppDelResponse
      xmlns:ns2="urn:ietf:params:xml:ns:sppf:base:1"
      xmlns:ns3="urn:ietf:params:xml:ns:sppf:soap:1">
      <serverTransId>tx_12354</serverTransId>
      <overallResult>
       <code>1000</code>
       <msg>Request Succeeded.</msg>
      </overallResult>
     </ns3:spppDelResponse>
    </S:Body>
   </S:Envelope>

10.20.  Delete SED Group Request

   SSP2 removes the SED group Group called SED_GRP_SSP2_1.

   <?xml version="1.0" encoding="UTF-8"?>
   <soapenv:Envelope
    xmlns:soapenv="http://schemas.xmlsoap.org/soap/envelope/"
    xmlns:urn="urn:ietf:params:xml:ns:sppf:soap:1"
    xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance">
    <soapenv:Header/>
    <soapenv:Body>
     <urn:spppDelRequest>
       <!--1 or more repetitions:-->
      <objKey xsi:type="urn:ObjKeyType">
       <rant>iana-en:222</rant>
       <name>SED_GRP_SSP2_1</name>
       <type>SedGrp</type>
      </objKey>
     </urn:spppDelRequest>
    </soapenv:Body>
   </soapenv:Envelope>

   The Registry completes the request successfully and returns a
   favorable response.

   <?xml version="1.0" encoding="UTF-8"?>
   <S:Envelope
    xmlns:S="http://schemas.xmlsoap.org/soap/envelope/">
    <S:Body>
     <ns3:spppDelResponse
      xmlns:ns2="urn:ietf:params:xml:ns:sppf:base:1"
      xmlns:ns3="urn:ietf:params:xml:ns:sppf:soap:1">
      <serverTransId>tx_12354</serverTransId>
      <overallResult>
       <code>1000</code>
       <msg>Request Succeeded.</msg>
      </overallResult>
     </ns3:spppDelResponse>
    </S:Body>
   </S:Envelope>

10.21.  Delete SED Group Offers Request

   SSP2 no longer wants to share SED group Group SED_GRP_SSP2_1 with SSP1.

   <?xml version="1.0" encoding="UTF-8"?>
   <soapenv:Envelope
    xmlns:soapenv="http://schemas.xmlsoap.org/soap/envelope/"
    xmlns:urn="urn:ietf:params:xml:ns:sppf:soap:1"
    xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance">
    <soapenv:Header/>
    <soapenv:Body>
     <urn:spppDelRequest>
       <!--1 or more repetitions:-->
      <objKey xsi:type="urn:SedGrpOfferKeyType">
       <sedGrpKey>
        <rant>iana-en:222</rant>
        <name>SED_GRP_SSP2_1</name>
        <type>SedGrp</type>
       </sedGrpKey>
       <offeredTo>iana-en:111</offeredTo>
      </objKey>
     </urn:spppDelRequest>
    </soapenv:Body>
   </soapenv:Envelope>

   The Registry completes the request successfully and returns a
   favorable response.  Restoring this resource sharing will require a
   new SED
   group offer Group Offer from SSP2 to SSP1 followed by a successful SED group
   accept
   Group Accept request from SSP1.

   <?xml version="1.0" encoding="UTF-8"?>
   <S:Envelope
    xmlns:S="http://schemas.xmlsoap.org/soap/envelope/">
    <S:Body>
     <ns3:spppDelResponse
      xmlns:ns2="urn:ietf:params:xml:ns:sppf:base:1"
      xmlns:ns3="urn:ietf:params:xml:ns:sppf:soap:1">
      <serverTransId>tx_12354</serverTransId>
      <overallResult>
       <code>1000</code>
       <msg>Request Succeeded.</msg>
      </overallResult>
     </ns3:spppDelResponse>
    </S:Body>
   </S:Envelope>

10.22.  Delete Egress Route

   SSP1 decides to remove the egress route Egress Route with the label EGR_RTE_01.

   <?xml version="1.0" encoding="UTF-8"?>
   <soapenv:Envelope
    xmlns:soapenv="http://schemas.xmlsoap.org/soap/envelope/"
    xmlns:urn="urn:ietf:params:xml:ns:sppf:soap:1"
    xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance">
    <soapenv:Header/>
    <soapenv:Body>
     <urn:spppDelRequest>
      <!--1 or more repetitions:-->
      <objKey xsi:type="urn:ObjKeyType">
       <rant>iana-en:111</rant>
       <name>EGR_RTE_01</name>
       <type>EgrRte</type>
      </objKey>
     </urn:spppDelRequest>
    </soapenv:Body>
   </soapenv:Envelope>

   The Registry completes the request successfully and returns a
   favorable response.

   <?xml version="1.0" encoding="UTF-8"?>
   <S:Envelope
    xmlns:S="http://schemas.xmlsoap.org/soap/envelope/">
    <S:Body>
     <ns3:spppDelResponse
      xmlns:ns2="urn:ietf:params:xml:ns:sppf:base:1"
      xmlns:ns3="urn:ietf:params:xml:ns:sppf:soap:1">
      <serverTransId>tx_12354</serverTransId>
      <overallResult>
       <code>1000</code>
       <msg>Request Succeeded.</msg>
      </overallResult>
     </ns3:spppDelResponse>
    </S:Body>
   </S:Envelope>

10.23.  Batch Request

   Following is an example of how some of the operations mentioned in
   previous sections MAY be performed by an SPPF client as a batch in
   one single SPP Protocol SPPP over SOAP request.

   In the sample request below below, SSP1 wants to accept a SED Group Offer
   from SSP3, add a Destination Group, add a NAPTR Naming Authority Pointer
   (NAPTR) SED Record, add a SED Group, add a SED Group Offer, delete a
   previously provisioned TN type Public Identifier, delete a previously
   provisioned SED Group, and reject a SED Group Offer from SSP4.

   <?xml version="1.0" encoding="UTF-8"?>
   <soapenv:Envelope
    xmlns:soapenv="http://schemas.xmlsoap.org/soap/envelope/"
    xmlns:urn="urn:ietf:params:xml:ns:sppf:soap:1"
    xmlns:urn1="urn:ietf:params:xml:ns:sppf:base:1"
    xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance">
    <soapenv:Header/>
    <soapenv:Body>
     <urn:spppBatchRequest>
      <clientTransId>txn_1467</clientTransId>
      <minorVer>1</minorVer>

      <acceptSedGrpOffer>
       <sedGrpKey>
        <rant>iana-en:225</rant>
        <name>SED_SSP3_SBE1_Offered</name>
        <type>SedGrp</type>
       </sedGrpKey>
       <offeredTo>iana-en:222</offeredTo>
      </acceptSedGrpOffer>

      <addObj xsi:type="urn1:DestGrpType">
       <urn1:rant>iana-en:222</urn1:rant>
       <urn1:rar>iana-en:223</urn1:rar>
       <urn1:dgName>DEST_GRP_SSP2_1</urn1:dgName>
      </addObj>

      <addObj xsi:type="urn1:NAPTRType">
       <urn1:rant>iana-en:222</urn1:rant>
       <urn1:rar>iana-en:223</urn1:rar>
       <urn1:sedName>SED_SSP2_SBE2</urn1:sedName>
       <urn1:order>10</urn1:order>
       <urn1:flags>u</urn1:flags>
       <urn1:svcs>E2U+sip</urn1:svcs>
       <urn1:regx>
        <urn1:ere>^(.*)$</urn1:ere>
        <urn1:repl>sip:\1@sbe2.ssp2.example.com</urn1:repl>
       </urn1:regx>
      </addObj>

      <addObj xsi:type="urn1:SedGrpType">
       <urn1:rant>iana-en:222</urn1:rant>
       <urn1:rar>iana-en:223</urn1:rar>
       <urn1:sedGrpName>SED_GRP_SSP2_1</urn1:sedGrpName>
       <urn1:sedRecRef>
        <urn1:sedKey xsi:type="urn:ObjKeyType">
         <rant>iana-en:222</rant>
         <name>SED_SSP2_SBE2</name>
         <type>SedRec</type>
        </urn1:sedKey>
       <urn1:priority>100</urn1:priority>
       </urn1:sedRecRef>
        <urn1:dgName>DEST_GRP_SSP2_1</urn1:dgName>
        <urn1:isInSvc>true</urn1:isInSvc>
        <urn1:priority>10</urn1:priority>
      </addObj>

      <addObj xsi:type="urn1:SedGrpOfferType">
       <urn1:rant>iana-en:222</urn1:rant>
       <urn1:rar>iana-en:223</urn1:rar>
       <urn1:sedGrpOfferKey xsi:type="urn:SedGrpOfferKeyType">
        <sedGrpKey xsi:type="urn:ObjKeyType">
         <rant>iana-en:222</rant>
         <name>SED_GRP_SSP2_1</name>
         <type>SedGrp</type>
        </sedGrpKey>
        <offeredTo>iana-en:111</offeredTo>
       </urn1:sedGrpOfferKey>
       <urn1:status>offered</urn1:status>
       <urn1:offerDateTime>
        2006-05-04T18:13:51.0Z
       </urn1:offerDateTime>
      </addObj>

      <delObj xsi:type="urn:PubIdKeyType">
       <rant>iana-en:222</rant>
       <number>
        <urn1:value>+12025556666</urn1:value>
        <urn1:type>TN</urn1:type>
       </number>
      </delObj>

      <delObj xsi:type="urn:ObjKeyType">
       <rant>iana-en:222</rant>
       <name>SED_GRP_SSP2_Previous</name>
       <type>SedGrp</type>
      </delObj>

      <rejectSedGrpOffer>
       <sedGrpKey>
        <rant>iana-en:226</rant>
        <name>SED_SSP4_SBE1_Offered</name>
        <type>SedGrp</type>
       </sedGrpKey>
       <offeredTo>iana-en:222</offeredTo>
      </rejectSedGrpOffer>

     </urn:spppBatchRequest>
    </soapenv:Body>
   </soapenv:Envelope>

   The Registry completes the request successfully and returns a
   favorable response.

   <?xml version="1.0" encoding="UTF-8"?>
   <S:Envelope
    xmlns:S="http://schemas.xmlsoap.org/soap/envelope/">
    <S:Body>
     <ns3:spppBatchResponse
      xmlns:ns2="urn:ietf:params:xml:ns:sppf:base:1"
      xmlns:ns3="urn:ietf:params:xml:ns:sppf:soap:1">
      <serverTransId>tx_12354</serverTransId>
      <overallResult>
       <code>1000</code>
       <msg>Request Succeeded.</msg>
      </overallResult>
     </ns3:spppBatchResponse>
    </S:Body>
   </S:Envelope>

11.  Security Considerations

   The base security considerations of SPPP outlined in Section 9 of
   [I-D.draft-ietf-drinks-spp-framework]
   [RFC7877] also apply to SPP Protocol SPPP over SOAP implementations.
   Additionally, the following must be considered:

   SPP Protocol

   SPPP over SOAP is used to query and update session peering data and
   addresses, so the ability to access this protocol should be limited
   to users and systems that are authorized to query and update this
   data.  Because this data is sent in both directions, it may not be
   sufficient for just the client or user to be authenticated with the
   server.  The identity of the server should also be authenticated by
   the client, which is often accomplished using the TLS certificate
   exchange and validation described in [RFC2818].

11.1.  Vulnerabilities

   Section 5 describes the use of HTTP and TLS as the underlying
   substrate protocols for SPP Protocol SPPP over SOAP.  These underlying protocols
   may have various vulnerabilities, and these may be inherited by SPP Protocol SPPP
   over SOAP.  SPP Protocol  SPPP over SOAP itself may have vulnerabilities because an
   authorization model is not explicitly specified in this document.

   During a TLS handshake, TLS servers can optionally request a
   certificate from a TLS client; that option is not a requirement for
   this protocol.  This presents a denial of service denial-of-service risk in which
   unauthenticated clients can consume server CPU resources by creating
   TLS sessions.  The risk is increased if the server supports client-
   initiated renegotiation.  This risk can be mitigated by disabling
   client-initiated renegotiation on the server and by ensuring that
   other means (such as firewall access control lists) are used to
   restrict unauthenticated client access to servers.

   In conjunction with the above, it is important that SPP Protocol SPPP over SOAP
   implementations implement an authorization model that considers the
   source of each query or update request and determines whether it is
   reasonable to authorize that source to perform that specific query or
   update.

12.  IANA Considerations

   This document uses URNs to describe XML Namespaces and XML Schemas.
   According to [RFC3688], IANA is requested to perform has performed the following URN
   assignment:

      URN: urn:ietf:params:xml:ns:sppf:soap:1

      Registrant Contact: IESG

      XML: See Section 9 of [THISDOCUMENT] [RFC7878]

13.  Acknowledgements

   This document is a result of various discussions held with the IETF
   DRINKS working group, specifically the protocol design team, with
   contributions from the following individuals, in alphabetical order:
   Alexander Mayrhofer, David Schwartz, Deborah A Guyton, Jean-Francois
   Mule Kenneth Cartwright, Lisa Dusseault, Manjul Maharishi, Mickael
   Marrache, Otmar Lendl, Peter Saint-Andre, Richard Shockey, Samuel
   Melloul, Scott Hollenbeck, Sumanth Channabasappa, Syed Ali, and Vikas
   Bhatia .

14.  References

14.1.

13.1.  Normative References

   [I-D.draft-ietf-drinks-spp-framework]
              Cartwright, K., Bhatia, V., Ali, S., and D. Schwartz,
              "Session Peering Provisioning Framework", draft-ietf-
              drinks-spp-framework-08 (work in progress), July 2015.

   [RFC2119]  Bradner, S., "Key words for use in RFCs to Indicate
              Requirement Levels", BCP 14, RFC 2119,
              DOI 10.17487/RFC2119, March 1997,
              <http://www.rfc-editor.org/info/rfc2119>.

   [RFC2617]  Franks, J., Hallam-Baker, P., Hostetler, J., Lawrence, S.,
              Leach, P., Luotonen, A., and L. Stewart, "HTTP
              Authentication: Basic and Digest Access Authentication",
              RFC 2617, DOI 10.17487/RFC2617, June 1999,
              <http://www.rfc-editor.org/info/rfc2617>.

   [RFC3688]  Mealling, M., "The IETF XML Registry", BCP 81, RFC 3688,
              DOI 10.17487/RFC3688, January 2004,
              <http://www.rfc-editor.org/info/rfc3688>.

   [RFC5246]  Dierks, T. and E. Rescorla, "The Transport Layer Security
              (TLS) Protocol Version 1.2", RFC 5246,
              DOI 10.17487/RFC5246, August 2008,
              <http://www.rfc-editor.org/info/rfc5246>.

   [RFC7230]  Fielding, R., Ed. and J. Reschke, Ed., "Hypertext Transfer
              Protocol (HTTP/1.1): Message Syntax and Routing",
              RFC 7230, DOI 10.17487/RFC7230, June 2014,
              <http://www.rfc-editor.org/info/rfc7230>.

   [RFC7231]  Fielding, R., Ed. and J. Reschke, Ed., "Hypertext Transfer
              Protocol (HTTP/1.1): Semantics and Content", RFC 7231,
              DOI 10.17487/RFC7231, June 2014,
              <http://www.rfc-editor.org/info/rfc7231>.

   [RFC7235]  Fielding, R., Ed. and J. Reschke, Ed., "Hypertext Transfer
              Protocol (HTTP/1.1): Authentication", RFC 7235,
              DOI 10.17487/RFC7235, June 2014,
              <http://www.rfc-editor.org/info/rfc7235>.

   [RFC7525]  Sheffer, Y., Holz, R., and P. Saint-Andre,
              "Recommendations for Secure Use of Transport Layer
              Security (TLS) and Datagram Transport Layer Security
              (DTLS)", BCP 195, RFC 7525, DOI 10.17487/RFC7525, May
              2015, <http://www.rfc-editor.org/info/rfc7525>.

   [RFC7877]  Cartwright, K., Bhatia, V., Ali, S., and D. Schwartz,
              "Session Peering Provisioning Framework (SPPF)", RFC 7877,
              DOI 10.17487/RFC7877, May 2016,
              <http://www.rfc-editor.org/info/rfc7877>.

   [SOAPREF]  Gudgin, M., Hadley, M., Moreau, J., and H. Nielsen, "SOAP
              Version 1.2 Part 1: Messaging Framework", Framework (Second Edition)",
              W3C Recommendation REC-SOAP12-part1-20030624, June 2002.

14.2. REC-SOAP12-part1-20070427, April 2007,
              <http://www.w3.org/TR/soap12-part1/>.

13.2.  Informative References

   [RFC2818]  Rescorla, E., "HTTP Over TLS", RFC 2818,
              DOI 10.17487/RFC2818, May 2000,
              <http://www.rfc-editor.org/info/rfc2818>.

   [RFC5321]  Klensin, J., "Simple Mail Transfer Protocol", RFC 5321,
              DOI 10.17487/RFC5321, October 2008,
              <http://www.rfc-editor.org/info/rfc5321>.

   [W3C.REC-xml-20081126]
              Sperberg-McQueen, C., Yergeau, F., Bray, T., Maler, E.,
              and J. Paoli, "Extensible Markup Language (XML) 1.0 (Fifth
              Edition)", World Wide Web Consortium W3C Recommendation REC-
              xml-20081126, REC-xml-20081126, November
              2008, <http://www.w3.org/TR/2008/REC-xml-20081126>.

   [WSDLREF]  Christensen, E., Curbera, F., Meredith, G., and S.
              Weerawarana, "Web Services Description Language (WSDL)
              1.1", W3C Note NOTE-wsdl-20010315, March 2001. 2001,
              <http://www.w3.org/TR/2001/NOTE-wsdl-20010315>.

Acknowledgements

   This document is a result of various discussions held with the IETF
   DRINKS working group, specifically the protocol design team, with
   contributions from the following individuals, in alphabetical order:
   Syed Ali, Vikas Bhatia, Kenneth Cartwright, Sumanth Channabasappa,
   Lisa Dusseault, Deborah A.  Guyton, Scott Hollenbeck, Otmar Lendl,
   Manjul Maharishi, Mickael Marrache, Alexander Mayrhofer, Samuel
   Melloul, Jean-Francois Mule, Peter Saint-Andre, David Schwartz, and
   Richard Shockey.

Authors' Addresses

   Kenneth Cartwright
   TNS
   1939 Roland Clarke Place
   10740 Parkridge Boulevard
   Reston, VA  20191
   USA
   United States

   Email: kcartwright@tnsi.com
   Vikas Bhatia
   TNS
   1939 Roland Clarke Place
   10740 Parkridge Boulevard
   Reston, VA  20191
   USA
   United States

   Email: vbhatia@tnsi.com

   Jean-Francois Mule
   CableLabs
   858 Coal Creek Circle
   Louisville, CO  80027
   USA
   Apple Inc.
   1 Infinite Loop
   Cupertino, CA  95014
   United States

   Email: jfm@cablelabs.com jfmule@apple.com

   Alexander Mayrhofer
   nic.at GmbH
   Karlsplatz 1/2/9
   Wien  A-1010
   Austria

   Email: alexander.mayrhofer@nic.at