Google      
  WWW DocMirror.net

[ RFC3866 | RFC Index | Protocol Standards | Linux Docs | FreeBSD Docs | RFC3868 ]

RFC 3867








Network Working Group                                       Y. Kawatsura
Request for Comments: 3867                                       Hitachi
Category: Informational                                        M. Hiroya
                                                      Technoinfo Service
                                                             H. Beykirch
                                                             Atos Origin
                                                           November 2004


       Payment Application Programmers Interface (API) for v1.0
                 Internet Open Trading Protocol (IOTP)

Status of this Memo

   This memo provides information for the Internet community.  It does
   not specify an Internet standard of any kind.  Distribution of this
   memo is unlimited.

Copyright Notice

   Copyright (C) The Internet Society (2004).

Abstract

   The Internet Open Trading Protocol (IOTP) provides a data exchange
   format for trading purposes while integrating existing pure payment
   protocols seamlessly.  This motivates the multiple layered system
   architecture which consists of at least some generic IOTP application
   core and multiple specific payment modules.

   This document addresses a common interface between the IOTP
   application core and the payment modules, enabling the
   interoperability between these kinds of modules.  Furthermore, such
   an interface provides the foundations for a plug-in-mechanism in
   actual implementations of IOTP application cores.

   Such interfaces exist at the Consumers', the Merchants' and the
   Payment Handlers' installations connecting the IOTP application core
   and the payment software components/legacy systems.












Hans, et al.                 Informational                      [Page 1]


RFC 3867                  Payment API for IOTP             November 2004


Table of Contents

   1.  Introduction . . . . . . . . . . . . . . . . . . . . . . . . .  3
       1.1.  General payment phases . . . . . . . . . . . . . . . . .  5
       1.2.  Assumptions. . . . . . . . . . . . . . . . . . . . . . .  6
   2.  Message Flow . . . . . . . . . . . . . . . . . . . . . . . . . 12
       2.1.  Authentication Documentation Exchange. . . . . . . . . . 15
       2.2.  Brand Compilation. . . . . . . . . . . . . . . . . . . . 17
       2.3.  Brand Selection. . . . . . . . . . . . . . . . . . . . . 21
       2.4.  Successful Payment . . . . . . . . . . . . . . . . . . . 24
       2.5.  Payment Inquiry. . . . . . . . . . . . . . . . . . . . . 29
       2.6.  Abnormal Transaction Processing. . . . . . . . . . . . . 30
             2.6.1.  Failures and Cancellations . . . . . . . . . . . 30
             2.6.2.  Resumption . . . . . . . . . . . . . . . . . . . 32
       2.7.  IOTP Wallet Initialization . . . . . . . . . . . . . . . 33
       2.8.  Payment Software Management. . . . . . . . . . . . . . . 34
   3.  Mutuality. . . . . . . . . . . . . . . . . . . . . . . . . . . 34
       3.1.  Error Codes. . . . . . . . . . . . . . . . . . . . . . . 38
       3.2.  Attributes and Elements. . . . . . . . . . . . . . . . . 48
       3.3.  Process States . . . . . . . . . . . . . . . . . . . . . 61
             3.3.1.  Merchant . . . . . . . . . . . . . . . . . . . . 61
             3.3.2.  Consumer . . . . . . . . . . . . . . . . . . . . 63
             3.3.3.  Payment Handler. . . . . . . . . . . . . . . . . 65
   4.  Payment API Calls. . . . . . . . . . . . . . . . . . . . . . . 66
       4.1.  Brand Compilation Related API Calls. . . . . . . . . . . 66
             4.1.1.  Find Accepted Payment Brand. . . . . . . . . . . 66
             4.1.2.  Find Accepted Payment Protocol . . . . . . . . . 68
             4.1.3.  Get Payment Initialization Data. . . . . . . . . 70
             4.1.4.  Inquire Authentication Challenge . . . . . . . . 72
             4.1.5.  Authenticate . . . . . . . . . . . . . . . . . . 73
             4.1.6.  Check Authentication Response. . . . . . . . . . 74
       4.2.  Brand Selection Related API Calls. . . . . . . . . . . . 76
             4.2.1.  Find Payment Instrument. . . . . . . . . . . . . 76
             4.2.2.  Check Payment Possibility. . . . . . . . . . . . 78
       4.3.  Payment Transaction Related API calls. . . . . . . . . . 80
             4.3.1.  Start Payment Consumer . . . . . . . . . . . . . 80
             4.3.2.  Start Payment Payment Handler. . . . . . . . . . 82
             4.3.3.  Resume Payment Consumer. . . . . . . . . . . . . 84
             4.3.4.  Resume Payment Payment Handler . . . . . . . . . 85
             4.3.5.  Continue Process . . . . . . . . . . . . . . . . 86
             4.3.6.  Change Process State . . . . . . . . . . . . . . 88
       4.4.  General Inquiry API Calls. . . . . . . . . . . . . . . . 89
             4.4.1.  Remove Payment Log . . . . . . . . . . . . . . . 90
             4.4.2.  Payment Instrument Inquiry . . . . . . . . . . . 90
             4.4.3.  Inquire Pending Payment. . . . . . . . . . . . . 92
       4.5.  Payment Related Inquiry API Calls. . . . . . . . . . . . 93
             4.5.1.  Check Payment Receipt. . . . . . . . . . . . . . 93
             4.5.2.  Expand Payment Receipt . . . . . . . . . . . . . 94



Hans, et al.                 Informational                      [Page 2]


RFC 3867                  Payment API for IOTP             November 2004


             4.5.3.  Inquire Process State. . . . . . . . . . . . . . 96
             4.5.4.  Start Payment Inquiry. . . . . . . . . . . . . . 97
             4.5.5.  Inquire Payment Status . . . . . . . . . . . . . 98
       4.6.  Other API Calls. . . . . . . . . . . . . . . . . . . . . 99
             4.6.1.  Manage Payment Software. . . . . . . . . . . . . 99
   5.  Call Back Function . . . . . . . . . . . . . . . . . . . . . .101
   6.  Security Considerations. . . . . . . . . . . . . . . . . . . .103
   7.  References . . . . . . . . . . . . . . . . . . . . . . . . . .103
       7.1.  Normative References . . . . . . . . . . . . . . . . . .103
       7.2.  Informative References . . . . . . . . . . . . . . . . .104
   Acknowledgement. . . . . . . . . . . . . . . . . . . . . . . . . .105
   Authors' Addresses . . . . . . . . . . . . . . . . . . . . . . . .105
   Full Copyright Statement . . . . . . . . . . . . . . . . . . . . .106

1.  Introduction

   Common network technologies are based on standardized and established
   Internet technologies.  The Internet technologies provide mechanisms
   and tools for presentation, application development, network
   infrastructure, security, and basic data exchange.

   Due to the presence of already installed trading roles' systems with
   their own interfaces (Internet shop, order management, payment,
   billing, and delivery management systems, or financial institute's
   legacy systems), IOTP has been limited to the common external
   interface over the Internet. However, some of these internal
   interfaces might be also standardized for better integration of IOTP
   aware components with of the existing infrastructure and its cost
   effective reuse. For more information on IOTP, see [IOTP] and
   [IOTPBOOK].

   The typical Payment Handlers (i.e., financial institutes or near-bank
   organizations) as well as Merchants require an IOTP aware application
   that easily fits into their existing financial infrastructure.  The
   Payment Handler might even insist on the reuse of special in-house
   solutions for some subtasks of the IOTP aware application, e.g.,
   reflecting their cryptography modules, gateway interfaces, or
   physical environment.  Therefore, their IOTP aware implementation
   really requires such clear internal interfaces.

   More important, consumers demand modularization and clear internal
   interfaces: Their IOTP application aims at the support of multiple
   payment methods.  Consumers prefer the flexible use of different
   seamless integrating payment methods within one trading application
   with nearly identical behavior and user interface.  The existence of
   a well-defined interface enables payment software developers to bolt
   on their components to other developer's general IOTP Application
   Core.



Hans, et al.                 Informational                      [Page 3]


RFC 3867                  Payment API for IOTP             November 2004


   Initially, this consideration leads to the two-level layered view of
   the IOTP software for each role, consisting of:

   o  some generic IOTP system component, the so-called IOTP application
      core - providing IOTP based gateway services and generic business
      logic and

   o  the trading roles' specific back-end systems implementing the
      specific trading transaction types' functionality.

   In order to isolate the changes on the infrastructure, the IOTP
   trading application has been three-layered:

   o  the IOTP Application Core processes the generic parts of the IOTP
      transaction and holds the connection to the Internet,

   o  the Existing Legacy System or Existing Payment Software which
      processes the actual transaction type, and particular payment
      transaction, and

   o  the IOTP Middle-ware or IOTP Payment Bridge which glues the other
      two possibly incompatible components.  It brokers between the
      specific interface of the Existing Legacy System and the
      standardized interfaces of the IOTP Application Core.

   As IOTP extends payment schemes to a trading scheme, primarily, this
   document focuses on payment modules, i.e., the interface between the
   IOTP Payment Bridge and the IOTP Application Core.  It provides a
   standard method for exchanging payment protocol messages between the
   parties involved in a payment.  But, it does not specify any
   interface for order or delivery processing.

   Such a Payment Application Programmers Interface (API) must suit for
   a broad range of payment methods: (1) software based like Credit Card
   SET or CyberCoin, (2) chip card based like Mondex or GeldKarte, and
   (3) mimicries of typical and traditional payment methods like money
   transfer, direct debit, deposit, withdrawal, money exchange and value
   points.  It should support both payments with explicit consumer
   acknowledge and automatic repeated payments, which have been consumer
   approved in advance.  For more information on SET, see [SET].

   The following discussion focuses on the Consumer's point of view and
   uses the associated terminology.  When switching to Merchants' or
   Delivery Handlers' IOTP aware applications, the payment related
   components should be implicitly renamed by Existing Legacy Systems to
   the IOTP Middle-ware.





Hans, et al.                 Informational                      [Page 4]


RFC 3867                  Payment API for IOTP             November 2004


   The next two sub-sections describe the general payment scenario and
   several assumptions about the coarsely sketched software components.

   Section 2 illustrates the payment transaction progress and message
   flow of different kinds of transaction behavior.  Sections 3 to 4
   provide the details of the API functions and Section 5 elaborates the
   call back interface.

1.1.  General payment phases

   The following table sketches the four logical steps of many payment
   schemes.  The preceding agreements about the goods, payment method,
   purchase amount, or delivery rules are omitted.

   Payment State  Party             Example Behavior
   -------------  -----             ----------------

   Mutual         Payment Handler   Generation of identification
   Authentication                   request, solvency request, or
   and                              some nonce
   Initialization Consumer          Responses to the requests and
                                    generation of own nonce

   Authorization  Payment Handler   Generation of the authorization
                                    request (for consumer)
                  Consumer          Agreement to payment (by
                                    reservation of the Consumer's
                                    e-money)
                  Payment Handler   Acceptance or rejection of the
                                    agreement (consumer's
                                    authorization response),
                                    generation of the authorization
                                    request (for issuer/acquirer),
                                    and processing of its response

   Capture                          Generation of the capture
                                    request (for issuer/acquirer)
                  Consumer          Is charged
                  Payment Handler   Acceptance or rejection of the
                                    e-money, close of the payment
                                    transaction

   Reversal                         On rejection (online/delayed):
                                    generation of the reversal data
                  Consumer          Receipt of the refund






Hans, et al.                 Informational                      [Page 5]


RFC 3867                  Payment API for IOTP             November 2004


   However, some payment schemes:

   o  limit themselves to one-sided authentication,
   o  perform off-line authorization without any referral to any
      issuer/acquirer,
   o  apply capture processing in batch mode, or
   o  do not distinguish between authorization and capture,
   o  lack an inbound mechanism for reversals or implement a limited
      variant.

   This model applies not only to payments at the typical points of
   sales but extends to refunds, deposits, withdrawals, electronic
   cheques, direct debits, and money transfers.

1.2.  Assumptions

   In outline, the IOTP Payment Bridge processes some input sequence of
   payment protocol messages being forwarded by the IOTP Application
   Core.  It (1) disassembles the messages, (2) maps them onto the
   formats of the Existing Payment Software, (3) assembles its
   responses, and (4) returns another sequence of payment protocol
   messages that is mostly intended for transparent transmission by the
   IOTP Application Core to some IOTP aware remote party.  Normally,
   this process continues between the two parties until the Payment
   Handler's Payment API signals the payment termination.
   Exceptionally, each system component may signal failures.

   The relationship between the aforementioned components is illustrated
   in the following figure.  These components might be related to each
   other in a flexible n-to-m-manner:

   o  One IOTP Application Core may manage multiple IOTP Payment Bridges
      and the latter might be shared between multiple IOTP Application
      Cores.
   o  Each Payment Bridge may manage multiple Existing Payment Software
      modules and the latter might be shared between multiple Payment
      Bridges.
   o  Each Existing Payment Software may manage multiple payment schemes
      (e.g., SET) and the latter might be supported by multiple Existing
      Payment Software modules.  For more information on SET see [SET].

   o  Each payment scheme may support multiple payment instruments
      (e.g., particular card) or methods (e.g., Visa via SET) and the
      latter might be shared by multiple Existing Payment Software
      Components.






Hans, et al.                 Informational                      [Page 6]


RFC 3867                  Payment API for IOTP             November 2004


   *+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*
   IOTP client (consumer)  <--------------->  IOTP server (merchant)
   (      contains             Internet       (      contains
   IOTP Application Core)                     IOTP Application Core)
         ^                                          ^
         | IOTP Payment                             | IOTP Payment
         |    API                                   |    API
         v                                          v
   IOTP Payment Bridge                        IOTP Payment Bridge
        ^                                           ^
        | Existing Payment APIs, e.g.,              |
        | SET, Mondex, etc.                         |
        v                                           v
   Existing Payment Software               Existing Payment Software
   *+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*

                 Figure 1: Relationship of the Components

   The Payment API considers the following transaction types of Baseline
   IOTP:

      o  Baseline Purchase,
      o  Baseline Refund,
      o  Baseline Value Exchange,
      o  Baseline Withdrawal, and
      o  Baseline (Payment) Inquiry.

   For more information on Baseline IOTP, see [IOTP] and [IOTPBOOK].

   First, the authors' vision of the IOTP aware application's and its
   main components' capabilities are clarified: On the one hand, the
   Payment API should be quite powerful and flexible for sufficient
   connection of the generic and specific components.  On the other
   hand, the Payment API should not be overloaded with nice-to-haves
   being unsupported by Existing Payment Software.

   Despite the strong similarities on the processing of successful
   payments, failure resolution and inquiry capabilities differ
   extremely among different payment schemes.  These aspects may even
   vary between different payment instrument using the same payment
   schemes.  Additionally, the specific requirements of Consumers,
   Merchants and Payment Handlers add variance and complexity.
   Therefore, it is envisioned that the IOTP Application Core provides
   only very basic inquiry mechanisms while complex and payment scheme
   specific inquiries, failure analysis, and failure resolution are
   fully deferred to the actual Existing Payment Software - including
   the user interface.




Hans, et al.                 Informational                      [Page 7]


RFC 3867                  Payment API for IOTP             November 2004


   The IOTP Application Core processes payments transparently, i.e., it
   forwards the wrapped payment scheme specific messages to the
   associated IOTP Payment Bridge/Existing Payment Software.  The
   Existing Payment Software might even use these messages for inbound
   failure resolution.  It reports only the final payment status to the
   IOTP Application Core or some intermediate - might be also final -
   status on abnormal interruption.

   The IOTP Application Core implements the generic and payment scheme
   independent part of the IOTP transaction processing and provides the
   suitable user interface.  Focusing on payment related tasks, it

   o  manages the registered IOTP Payment Bridges and provides a
      mechanism for their registration - the latter is omitted by this
      document.

   o  assumes that any IOTP Payment Bridge is a passive component, i.e.,
      it strictly awaits input data and generates one response to each
      request,

   o  supports the payment negotiation (Consumer: selection of the
      actual payment instrument or method; Merchant: selection of the
      payment methods being offered to the Consumer) preceding the
      payment request,

   o  requests additional payment specific support from the Existing
      Payment Software via the selected and registered the IOTP Payment
      Bridge,

   o  initializes and terminates the Existing Payment Software via the
      IOTP Payment Bridge,

   o  inquires authentication data (for subsequent request or response)
      from the Existing Payment Software, specific authentication
      component - omitted in this document - or Consumer (by a suitable
      user interface),

   o  supervises the online transaction process and traces its progress,

   o  stores the transaction data being exchanged over the IOTP wire -
      payment scheme specific data is handled transparently,

   o  relates each payment transaction with multiple payment parameters
      (IOTP Transaction Identifier, Trading Protocol Options, Payment
      Instrument/Method, Offer Response, IOTP Payment Bridge, and Wallet
      Identifier, associated remote Parties).  The relation might be





Hans, et al.                 Informational                      [Page 8]


RFC 3867                  Payment API for IOTP             November 2004


      lowered to the party's Payment Identifier, IOTP Payment Bridge,
      Wallet Identifier, and the remote parties when the actual payment
      transaction has been successfully started.

   o  implements a payment transaction progress indicator,

   o  enables the inquiry of pending and completed payment transactions,

   o  implements generic dialogs, e.g., brand selection, payment
      acknowledge, payment suspension / cancellation, receipt
      visualization, basic transaction inquiry, balance inquiry, or
      receipt validation,

   o  defers payment specific processing, supervision, validation, and
      error resolution to the Existing Payment Software.  It is
      expected, that the Existing Payment Software will try to resolve
      many errors first by the extended exchange of Payment Exchange
      messages.  The most significant and visible failures arise from
      sudden unavailability or lapses of the local or opposing payment
      component.

   o  supports the invocation of any Existing Payment Software in an
      interactive mode, which might be used (1) for the payment scheme
      specific post-processing of a (set of) payment transactions, (2)
      for the analysis of a payment instrument, (3) for the registration
      of a new payment instrument/scheme, or (4) re-configuration of a
      payment instrument/scheme.

   o  exports call back functions for use by the IOTP Payment Bridge or
      Existing Payment Software for progress indication.

   In addition, the IOTP Application Core

   o  manages the IOTP message components and IOTP message blocks
      exchanged during the transaction which may be referenced and
      accessed during the processing of subsequent messages, e.g., for
      signature verification.  In particular, it stores named Packaged
      Content elements exchanged during payments.

   o  manages several kinds of identifiers, i.e., transaction, message,
      component, and block identifiers,

   o  implements a message caching mechanism,

   o  detects time-outs at the protocol and API level reflecting the
      communication with both the IOTP aware remote party and the
      Payment API aware local periphery, e.g., chip card (reader) may
      raise time-outs.



Hans, et al.                 Informational                      [Page 9]


RFC 3867                  Payment API for IOTP             November 2004


   However, the IOTP Payment Bridge and Existing Payment Software do not
   have to rely on all of these IOTP Application Core's capabilities.
   E.g., some Consumer's Existing Payment Software may refuse the
   disclosure of specific payment instruments at brand selection time
   and may delay this selection to the "Check Payment Possibility"
   invocation using its own user interface.

   The IOTP Payment Bridge's capabilities do not only deal with actual
   payments between the Consumer and the Payment Handler but extend to
   the following:

   o  translation and (dis)assemblage of messages between the formats of
      the IOTP Payment API and those of the Existing Payment Software.
      Payment API requests and response are strictly 1-to-1 related.

   o  Consumer's payment instrument selection by the means of an
      unsecured/public export of the relationship of payment brands,
      payment protocols, and payment instruments (identifiers).
      Generally, this includes not just the brand (Mondex, GeldKarte,
      etc.) but also which specific instance of the instrument and
      currency to use (e.g., which specific Mondex card and which
      currency of all those available).

   However, some Existing Payment Software may defer the selection of
   the payment instrument to the actual payment carrying-out or it may
   even lack any management of payment instruments.  E.g., chip card
   based payment methods may offer - Point of Sale like - implicit
   selection of the payment instrument by simple insertion of the chip
   card into the chip card reader or it interrogates the inserted card
   and requests an acknowledge (or selection) of the detected payment
   instrument(s).

   o  payment progress checks, e.g., is there enough funds available to
      carry out the purchase, or enough funds left for the refund,

   o  IOTP Payment Receipt checks which might be performed over its
      Packaged Content or by other means.

   o  recoding of payment scheme specific receipts into a format which
      can be displayed to the user or printed,

   o  cancellation of payment, even though it is not complete,

   o  suspension and resumption of payment transactions.  Two kinds of
      failures the Existing Payment Software might deal with are (1) the
      time-out of the network connection and (2) lack of funds.  For
      resolution, the IOTP Application Core may try the suspension with
      a view to later possible resumption.



Hans, et al.                 Informational                     [Page 10]


RFC 3867                  Payment API for IOTP             November 2004


   o  recording the payment progress and status on a database.  E.g.,
      information about pending payments might be used to assist their
      continuation when the next payment protocol message is received.

   o  payment transaction status inquiry, so that the inquirer - IOTP
      Application Core or User - can determine the appropriate next
      step.

   o  balance inquiry or transaction history, e.g., consumers may
      interrogate their chip card based payment instrument or remotely
      administer some account in advance of a payment transaction
      acknowledge,

   o  inquiry on abnormal interrupted payment transactions, which might
      be used by the IOTP Application Core to resolve these pending
      transactions at startup (after power failure).

   o  payment progress indication.  This could be used to inform the end
      user of details on what is happening with the payment.

   o  payment method specific authentication methods.

   Existing Payment Software may not provide full support of these
   capabilities.  E.g., some payment schemes may not support or may even
   prevent the explicit transaction cancellation at arbitrary phases of
   the payment process.  In this case, the IOTP Payment Bridge has to
   implement at least skeletons that signal such lack of support by the
   use of specific error codes (see below).

   The Existing Payment Software's capabilities vary extremely.  It

   o  supports payment scheme specific processing, supervision,
      validation, and error resolution.  It is expected, that many
      errors are tried to be resolved first by the extended exchange of
      Payment Exchange messages.

   o  provides hints for out-of-band failure resolution on failed
      inbound resolution - inbound resolution is invisible to the IOTP
      Application Core.

   o  may implement arbitrary transaction data management and inquiry
      mechanisms ranging from no transaction recording, last transaction
      recording, chip card deferred transaction recording, simple
      transaction history to sophisticated persistent data management
      with flexible user inquiry capabilities.  The latter is required
      by Payment Handlers for easy and cost effective failure
      resolution.




Hans, et al.                 Informational                     [Page 11]


RFC 3867                  Payment API for IOTP             November 2004


   o  implements the payment scheme specific dialog boxes.

   Even the generic dialog boxes of the IOTP Application Core might be
   unsuitable: Particular (business or scheme) rules may require some
   dedicated appearance / structure / content or the dialog boxes, may
   prohibit the unsecured export of payment instruments, or may
   prescribe the pass phrase input under its own control.

2.  Message Flow

   The following lists all functions of the IOTP Payment API:

      o  Brand Compilation Related API Functions

   "Find Accepted Payment Brand" identifies the accepted payment brands
   for any indicated currency amount.

   "Find Accepted Payment Protocol" identifies the accepted payment
   protocols for any indicated currency amount (and brand) and returns
   payment scheme specific packaged content for brand selection
   purposes.

   This function might be used in conjunction with the aforementioned
   function or called without any brand identifier.

   "Get Payment Initialization Data" returns additional payment scheme
   specific packaged content for payment processing by the payment
   handler.

   "Inquire Authentication Challenge" returns the payment scheme
   specific authentication challenge value.

   "Check Authentication Response" verifies the returned payment scheme
   specific authentication response value.

   "Change Process State" is used (here only) for abnormal termination.
   (cf. Payment Processing Related API Functions).

      o  Brand Selection Related API Functions

   "Find Payment Instrument" identifies which instances of a payment
   instrument of a particular payment brand are available for use in a
   payment.

   "Check Payment Possibility" checks whether a specific payment
   instrument is able to perform a payment.





Hans, et al.                 Informational                     [Page 12]


RFC 3867                  Payment API for IOTP             November 2004


   "Authenticate" forwards any payment scheme specific authentication
   data to the IOTP Payment Bridge for processing.

   "Change Process State" is used (here only) for abnormal termination.
   (cf. Payment Processing Related API Functions).

      o  Payment Processing Related API Functions

   "Start or Resume Payment Consumer/Payment Handler" initiate or resume
   a payment transaction.  There exist specific API functions for the
   two trading roles Consumer and Payment Handler.

   "Continue Process" forwards payment scheme specific data to the
   Existing Payment Software and returns more payment scheme specific
   data for transmission to the counter party.

   "Change Process State" changes the current status of payment
   transactions.  Typically, this call is used for termination or
   suspension without success.

      o  General Inquiry API Functions

   "Remove Payment Log" notifies the IOTP Payment Bridge that a
   particular entry has been removed from the Payment Log of the IOTP
   Application Core.

   "Payment Instrument Inquiry" retrieves the properties of Payment
   Instruments.

   "Inquire Pending Payment" reports any abnormal interrupted payment
   transaction known by the IOTP Payment Bridge.

   Payment Processing Related Inquiry API Functions

   "Check Payment Receipt" checks the consistency and validity of IOTP
   Payment Receipts, received from the Payment Handler or returned by
   "Inquire Process State" API calls.  Typically, this function is
   called by the Consumer during the final processing of payment
   transactions.  Nevertheless, this check might be advantageous both
   for Consumers and Payment Handlers on failure resolution.

   "Expand Payment Receipt" expands the Packaged Content of IOTP Payment
   Receipts as well as payment scheme specific payment receipts into a
   form which can be used for display or printing purposes.

   "Inquire Process State" responds with the payment state and the IOTP
   Payment Receipt Component.  Normally, this function is called by the
   Payment Handler for final processing of the payment transaction.



Hans, et al.                 Informational                     [Page 13]


RFC 3867                  Payment API for IOTP             November 2004


   "Start Payment Inquiry" prepares the remote inquiry of the payment
   transaction status and responds with payment scheme specific data
   that might be needed by the Payment Handler for the Consumer
   initiated inquiry processing.

   "Inquire Payment Status" is called by the Payment Handler on Consumer
   initiated inquiry requests.  This function returns the payment scheme
   specific content of the Inquiry Response Block.

   "Continue Process" and "Change Process State" (cf. Payment Processing
   Related API Calls)

      o  Other API Functions

   "Manage Payment Software" enables the immediate activation of the
   Existing Payment Software.  Further user input is under control of
   the Existing Payment Software.

   "Call Back" provides a general interface for the visualization of
   transaction progress by the IOTP Application Core.

   The following table shows which API functions must (+), should (#),
   or might (?) be implemented by which Trading Roles.

   API function                  Consumer  Payment Handler  Merchant
   ------------                  --------  ---------------  --------

   Find Accepted Payment Brand                                 +
   Find Accepted Payment Protocol                              #
   Find Payment Instrument          +

   Get Payment Initialization Data                             +
   Check Payment Possibility        +

   Start Payment Consumer           +
   Start Payment Payment Handler                  +
   Resume Payment Consumer          #
   Resume Payment Payment Handler                 #

   Continue Process                 +             +
   Inquire Process State            +             +            ?
   Change Process State             +             +            ?
   Check Payment Receipt            +             ?
   Expand Payment Receipt           #             ?

   Remove Payment Log               ?             ?            ?

   Inquire Authentication Challenge                            ?



Hans, et al.                 Informational                     [Page 14]


RFC 3867                  Payment API for IOTP             November 2004


   Authenticate                     +
   Check Authentication Response                               ?

   Payment Instrument Inquiry       ?
   Inquire Pending Payment          #             #
   Start Payment Inquiry            ?
   Inquire Payment Status                         ?

   Manage Payment Software          #             ?            ?

   Call Back                        #

        Table 1: Requirements on API Functions by the Trading Roles

   The next sections sketch the relationships and the dependencies
   between the API functions.  They provide the informal description of
   the progress alternatives and depict the communication and
   synchronization between the general IOTP Application Core and the
   payment scheme specific modules.

2.1.  Authentication Documentation Exchange

   This section describes how the functions in this document are used
   together to process authentication.

   *+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*
   Authenticator   Inquire Authentication Challenge(Alg1*)   -> IPB
                   Inq. Auth. Challenge Response(Alg1,Ch1)   <- IPB
                   . . .
                   Inquire Authentication Challenge(Algn*)   -> IPB
                   Inq. Auth. Challenge Response(Algn,Chn)   <- IPB
                   Create and transmit Authentication Request Block
   Authenticatee   Authenticate(Alg1, Ch1)                   -> IPB
                   AuthenticateResponse(...)                 <- IPB
                   . . .
                   Authenticate(Algm, Chm)                   -> IPB
                   AuthenticateResponse(Res)                 <- IPB
                   Create and transmit Authentication Response Block
   Authenticator   Check Authentication Response(Algm,Chm,Res)->IPB
                   Check Auth. Response()                     <-IPB
                   Create and transmit Authentication Status Block
   *+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*

                  Figure 2. Authentication Message Flows







Hans, et al.                 Informational                     [Page 15]


RFC 3867                  Payment API for IOTP             November 2004


   1. (Authenticator Process) None, one or multiple IOTP Payment Bridges
      (IPB) are requested for one or multiple authentication challenge
      values ("Inquire Authentication Challenge").  Each value is
      encapsulated in an IOTP Authentication Request Component.  In
      addition, the IOTP Application Core may add payment scheme
      independent authentication methods.  All of them form the final
      IOTP Authentication Request Block, which describes the set of
      authentication methods being supported by the authenticator and
      from which the Authenticatee has to choose one method.

      Note that the interface of the API function is limited to the
      response of exactly one algorithm per call.  If the IOTP
      Application Core provides a choice of algorithms for input, this
      choice should be reduced successively by the returned algorithm
      ({Alg(i+1)*} is subset of {Algi*}).

      During the registration of new Payment Instruments, the IOTP
      Payment Bridge notifies the IOTP Application Core about the
      supported authentication algorithms.

   2. On the presence of an IOTP Authentication Block within the
      received IOTP message, the Authenticatee's IOTP Application Core
      checks whether the IOTP transaction type in the current phase
      actually supports the authentication process.

      For each provided Authentication Request Component, the IOTP
      Application Core analyzes the algorithms' names, the transaction
      context, and optionally user preferences in order to determine the
      system components which are capable to process the authentication
      request items.  Such system components might be the IOTP
      Application Core itself or any of the registered IOTP Payment
      Bridges.

      Subsequently, the IOTP Application Core requests the responses to
      the supplied challenges from the determined system components in
      any order.  The authentication trials stop with the first
      successful response, which is included in the IOTP Authentication
      Response Block.

      Alternatively, the IOTP Application might ask for a user
      selection.  This might be appropriate, if two or more
      authentication algorithms are received that require explicit user
      interaction, like PIN or chip card insertion.

      The Authenticatee's organizational data is requested by an IOTP
      Authentication Request Block without any content element.  On
      failure, the authentication (sequence) might be retried, or the
      whole transaction might be suspended or cancelled.



Hans, et al.                 Informational                     [Page 16]


RFC 3867                  Payment API for IOTP             November 2004


   3. (Authenticator Process) The IOTP Application Core checks the
      presence of the IOTP Authentication Response Component in the
      Authentication Response Block and forwards its content to the
      generator of the associated authentication challenge for
      verification ("Check Authentication Response").

      On sole organizational data request, its presence is checked.

      Any verification must succeed in order to proceed with the
      transaction.

2.2.  Brand Compilation

   The following shows how the API functions are used together so that
   the Merchant can (1) compile the Brand List Component, (2) generate
   the Payment Component, and (3) adjust the Order Component with
   payment scheme specific packaged content.


































Hans, et al.                 Informational                     [Page 17]


RFC 3867                  Payment API for IOTP             November 2004


   *+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*
   Merchant      For each registered IOTP Payment Bridge
                 |  Find Accepted Payment Brand()             -> IPB
                 |  Find Accepted Payment Brand Response (B*) <- IPB
                 |  Find Accepted Payment Protocol(B1)        -> IPB
                 |  Find Accepted Payment Protocol Res.(P1*)  <- IPB
                 |  . . .
                 |  Find Accepted Payment Protocol(Bn)        -> IPB
                 |  Find Accepted Payment Protocol Res.(Pn*)  <- IPB
                 Create one Brand List Component, ideally sharing
                   common Brand, Protocol Amount, Currency Amount,
                   and Pay Protocol Elements
                 Create Trading Protocol Options Block
                 On brand independent transactions
                 |  Create Brand Selection Component, implicitly
                 |  Get Payment Initialization Data(B1,P1)   -> IPB
                 |  Get Payment Initialization Data Res.()   <- IPB
                 |  Optionally
                 |  |  Inquire Process State()               -> IPB
                 |  |  Inquire Process State Response(State) <- IPB
                 |  Create Offer Response Block
                 Transmit newly created Block(s)
   Consumer      Consumer selects Brand (Bi)/Currency/Protocol (Pj)
                   from those that will work and generates Brand
                   Selection Component - at least logically
                 On brand dependent transaction
                 |  Transmit Brand Selection Component
   Merchant      On brand dependent transaction
                 |  Get Payment Initialization Data(Bi,Pj)   -> IPB
                 |  Get Payment Initialization Data Res.()   <- IPB
                 |  Optionally
                 |  |  Inquire Process State()               -> IPB
                 |  |  Inquire Process State Response(State) <- IPB
                 |  Create Offer Response Block
                 |  Transmit newly created Block
   *+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*

                 Figure 3. Brand Compilation Message Flows

   1.  The Merchant's commerce server controls the shopping dialog with
       its own mechanisms until the Consumer checks out the shopping
       cart and indicates the payment intention.  The notion shopping
       subsumes any non-IOTP based visit of the Merchant Trading Role's
       (which subsumes Financial Institutes) web site in order to
       negotiate the content of the IOTP Order Component.  The
       subsequent processing switches to the IOTP based form by the
       activation of the Merchant's IOTP aware application.




Hans, et al.                 Informational                     [Page 18]


RFC 3867                  Payment API for IOTP             November 2004


   2.  The IOTP Application Core inquires for the IOTP level trading
       parameters (Consumer's shopping identifier, payment direction,
       initial currency amounts, discount rates, Merchant's and Delivery
       Handler's Net Locations, Non-Payment Handler's Organizational
       Data, initial order information, ....).

   3.  The registered IOTP Payment Bridges are inquired by the IOTP
       Application Core about the accepted payment brands ("Find
       Accepted Payment Brand").  Their responses provide most of the
       attribute values for the compilation of the Brand List
       Component's Brand Elements.  The IOTP Application Core might
       optionally match the returned payment brands with Merchant's
       general preferences.

       The IOTP Application Core must provide any wallet identifiers, if
       they are required by the IOTP Payment Bridges which signal their
       need by specific error codes (see below).  Any signaled error
       that could not be immediately solved by the IOTP Application Core
       should be logged - this applies also to the subsequent API calls
       of this section.  In this case, the IOTP Application Core creates
       an IOTP Error Block (hard error), transmits it to the Consumer,
       and terminates the current transaction.

   4.  The IOTP Application Core interrogates the IOTP Payment Bridges
       for each accepted payment brand about the supported payment
       protocols ("Find Accepted Payment Protocol").  These responses
       provide the remaining attribute values of the Brand Elements as
       well as all attribute values for the compilation of the Brand
       List Component's Protocol Amount and Pay Protocol Elements.

       Furthermore, the organisational data about the Payment Handler is
       returned.  The IOTP Application Core might optionally match the
       returned payment brands with Merchant's general preferences.

       Alternatively, the IOTP Application Core might skip the calls of
       "Find Accepted Payment Brands" (cf. Step 3) and issue the "Find
       Accepted Payment Protocol" call without any Brand given on the
       input parameter list.  In this case, the IOTP Payment Bridge
       responds to the latter call with the whole set of payment schemes
       supported w.r.t. the other input parameters.

   5.  The steps 3 and 4 are repeated during IOTP Value Exchange
       transactions - these steps are omitted in the previous figure.

   6.  The IOTP Application Core compiles the Brand List Component(s)
       and the IOTP Trading Protocol Options Block.  It is recommended
       that the "equal" items returned by IOTP Payment Bridge function
       calls are shared due to the extensive linking capabilities within



Hans, et al.                 Informational                     [Page 19]


RFC 3867                  Payment API for IOTP             November 2004


       the Brand List Component.  However, the compilation must consider
       several aspects in order to prevent conflicts - sharing detection
       might be textual matching (after normalization):

      o  Packaged Content Elements contained in the Brand List Component
         (and subsequently generated Payment and Order Components) might
         be payment scheme specific and might depend on each other.

      o  Currently, IOTP lacks precise rules for the content of the
         Packaged Content Element.  Therefore, transaction / brand /
         protocol / currency amount (in)dependent data might share the
         same Packaged Content Element or might spread across multiple
         Packaged Content Elements.

      o  The Consumer's IOTP Application Core transparently passes the
         Packaged Content Elements to the IOTP Payment Bridges which
         might not be able to handle payment scheme data of other
         payment schemes, accurately.

       The rules and mechanisms of how this could be accomplished are
       out of the scope of this document.  Furthermore, this document
       does not define any further restriction to the IOTP
       specification.

   7.  The IOTP Application Core determines whether the IOTP message can
       be enriched with an Offer Response Block.  This is valid under
       the following conditions:

      o  All payment alternatives share the attribute values and
         Packaged Content Elements of the subsequently generated IOTP
         Payment and Order Components.

      o  The subsequently generated data does not depend on any IOTP
         BrandSelInfo Elements that might be reported by the consumer
         within the TPO Selection Block in the brand dependent variant.

       If both conditions are fulfilled, the IOTP Application Core might
       request the remaining payment scheme specific payment
       initialization data from the IOTP Payment Bridge ("Get Payment
       Initialization Data") and compile the IOTP Offer Response Block.

       Optionally, the IOTP Application Core might request the current
       process state from the IOTP Payment Bridge and add the inferred
       order status to the IOTP Offer Response Block.  Alternatively,
       IOTP Application might determine the order status on its own.

       As in step 6, the rules and mechanisms of how this could be
       accomplished are out of the scope of this document.



Hans, et al.                 Informational                     [Page 20]


RFC 3867                  Payment API for IOTP             November 2004


   8.  The IOTP Application Core compiles the IOTP TPO Message including
       all compiled IOTP Blocks and transmits the message to the
       Consumer.  The IOTP Application Core terminates if an IOTP Offer
       Response Block has been created.

   9.  The Consumer performs the Brand Selection Steps (cf. Section 2.3)
       and responds with a TPO Selection Block if no IOTP Offer Response
       Block has been received.  Otherwise, the following step is
       skipped.

   10. On brand dependent transactions, the IOTP Application Core
       requests the remaining payment scheme specific payment
       initialization data from the IOTP Payment Bridge ("Get Payment
       Initialization Data"), compiles the IOTP Offer Response Block,
       transmits it to the Consumer, and terminates.  Like Step 7, the
       IOTP Application Core might access the current process state of
       the IOTP Payment Bridge for the compilation of the order status.

   Any error during this process raises an IOTP Error Block.

2.3.  Brand Selection

   This section describes the steps that happen mainly after the
   Merchant's Brand Compilation (in a brand independent transaction).
   However, these steps might partially interlace the previous process
   (in a brand dependent transaction).

   *+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*
   Merchant      Merchant generates Brand List(s) containing
                   Brands, Payment Protocols and Currency Amounts
                 On brand independent transactions
                 |  Merchant generates Offer Response Block
   Consumer      Compile set(s) of Brands B/Protocols P
                 for each set
                 |  Find Payment Instrument(B, P, C)        -> IPB
                 |  Find Payment Instrument Response (PI*)    <- IPB
                 Consumer selects Brand/Currency/Payment Instrument
                   from those that will work and generates Brand
                   Selection Component
                 For the Selection
                 |  Get Payment Initialization Data(B,C,PI,P) -> IPB
                 |  Get Payment Initialization Data Response()<- IPB
                 On brand dependent transaction
                 |  Generate and transmit TPO Selection Block
   Merchant      On brand dependent transaction
                 |  Merchant checks Brand Selection and generates
                 |  and transmits Offer Response Block
   *+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*



Hans, et al.                 Informational                     [Page 21]


RFC 3867                  Payment API for IOTP             November 2004


                  Figure 4. Brand Selection Message Flows

   1. The Merchant's commerce server controls the shopping dialog with
      its own mechanisms until the Consumer checks out the shopping cart
      and indicates his payment intention.  The subsequent processing
      switches to the IOTP based form by the activation of the
      Merchant's IOTP aware application.

   2. The IOTP Application Core compiles the IOTP Trading Protocol
      Options Block which contains the IOTP Brand List Component(s)
      enumerating Merchant's accepted payment brands and payment
      protocols and initiates the Brand Selection process.

   3. This first IOTP message activates the Consumer's IOTP aware
      application, e.g., the Web browser invokes a helper application
      (e.g., Java applet or external application).  Its IOTP Application
      Core

      o  infers the accepted payment brands, payment protocols, payment
         direction, currencies, payment amounts, any descriptions etc.,
         and their relationships from the IOTP message,

      o  determines the registered IOTP Payment Bridges,

      o  compiles one or multiple sets of brand and protocol such that
         the join of all sets describes exactly the payment alternatives
         being offered by the Merchant.

      o  inquires payment (protocol) support and the known payment
         instruments from each registered IOTP Payment Bridge for each
         compiled set ("Find Payment Instrument").  However, some IOTP
         Payment Bridges may refuse payment instrument distinction.

      The payment protocol support may differ between payment
      instruments if the IOTP Payment Bridge supports payment instrument
      distinction.

      These API calls are used to infer the payment alternatives at the
      startup of any payment transaction (without user unfriendly
      explicit user interaction).

      The IOTP Application Core must provide wallet identifiers, if they
      are requested by the IOTP Payment Bridges which signal their need
      by specific error codes (see below).

      It is recommended that the IOTP Application Core manages wallet
      identifiers.  But for security reasons, it should store pass
      phrases in plain text only in runtime memory.  Developers of IOTP



Hans, et al.                 Informational                     [Page 22]


RFC 3867                  Payment API for IOTP             November 2004


      Payment Bridges and payment software modules should provide a thin
      and fast implementation - without lengthy initialization processes
      - for this initial inquiry step.

   4. The IOTP Application Core verifies the Consumer's payment
      capabilities with the Merchant's accepted payment brands and
      currencies,

      o  displays the valid payment instruments and payment instrument
         independent payment brands (brand and protocol) together with
         their purchase parameters (payment direction, currency,
         amount), and

      o  requests the Consumer's choice or derives it automatically from
         any configured preferences.  Any selection ties one IOTP
         Payment Bridge with the following payment transaction.

      The handling and resolution of unavailable IOTP Payment Bridges
      during the inquiry in Step 3 is up to the IOTP Application Core.
      It may skip these IOTP Payment Bridges or may allow user supported
      resolution.

      Furthermore, it may offer the registration of new payment
      instruments when the Consumer is asked for payment instrument
      selection.

   5. The IOTP Application Core interrogates the fixed IOTP Payment
      Bridge whether the payment might complete with success ("Check
      Payment Possibility").  At this step, the IOTP Payment Bridge may
      issue several signals, e.g.,

      o  payment can proceed immediately,
      o  required peripheral inclusive of some required physical payment
         instrument (chip card) is unavailable,
      o  (non-IOTP) remote party (e.g., issuer, server wallet) is not
         available,
      o  wallet identifier or pass phrase is required,
      o  expired payment instrument (or certificate), insufficient
         funds, or
      o  physical payment instrument unreadable.

      In any erroneous case, the user should be notified and offered
      accurate alternatives.  Most probably, the user might be offered

      o  to resolve the problem, e.g., to insert another payment
         instrument or to verify the periphery,
      o  to proceed (assuming its success),
      o  to cancel the whole transaction, or



Hans, et al.                 Informational                     [Page 23]


RFC 3867                  Payment API for IOTP             November 2004


      o  to suspend the transaction, e.g., initiating a nested
         transaction for uploading an electronic purse.

      If the payment software implements payment instrument selection on
      its own, it may request the Consumer's choice at this step.

      If the check succeeds, it returns several IOTP Brand Selection
      Info Elements.

   6. The Steps 2 to 5 are repeated and possibly interlaced for the
      selection of the second payment instrument during IOTP Value
      Exchange transactions - this is omitted in the figure above.

   7. The IOTP Brand Selection Component is generated and enriched with
      the Brand Selection Info elements.  This component is transmitted
      to the Merchant inside a TPO Selection Block if the received IOTP
      message lacks the IOTP Offer Response Block.  The Merchant will
      then respond with an IOTP Offer Response Block (following the
      aforementioned compilation rules).

2.4.  Successful Payment

   An example of how the functions in this document are used together to
   effect a successful payment is illustrated in the Figure 5.  In the
   figure 5, PS0, PS1, ..., and PSn indicate the nth PayScheme Packaged
   Content data, and [ ] indicates optional.

   (Technically, two payments happen during IOTP Value Exchange
   transactions.)

   *+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*
   Consumer        Start Payment Consumer(Amount,[PS0]...)    -> IPB
                   Start Payment Cons. Res.([PS1], CS=Cont.)  <- IPB
                   Create and transmit Payment Request Block
   Payment Handler Start Payment Pay. Handler(Amount, [PS1])  -> IPB
                   Start Payment PH Response(PS2, CS=Cont.)   <- IPB
                   Create and transmit Payment Exchange Block
   Consumer        Continue Process(PS2)                      -> IPB
                   Continue Process Response(PS3, CS=Cont.)   <- IPB

            ... CONTINUE SWAPPING PAYMENT EXCHANGES UNTIL ...

   Payment Handler Continue Process Response([PSn], CS=End)   <- IPB
                   Request any local payment receipt
                   |  Inquire Process State()                 -> IPB
                   |  Inquire Proc. State Resp.(State, [Rcp.])<- IPB
                   Create and transmit Payment Response Block
                   Terminate transaction, actively



Hans, et al.                 Informational                     [Page 24]


RFC 3867                  Payment API for IOTP             November 2004


                   |  Change Process State(State)             -> IPB
                   |  Change PS Response(State=CompletedOK)   <- IPB
   Consumer        On receipt of final payment scheme data
                   |  Continue Process(PSn)                   -> IPB
                   |  Continue Process Response(CS=End)       <- IPB
                   Check Payment Receipt(Receipt)             -> IPB
                   Check Payment Receipt Response()           <- IPB
                   Request any local payment receipt
                   |  Inquire Process State()                 -> IPB
                   |  Inquire Proc. State Resp.(State, [Rcp.])<- IPB
                   Terminate transaction, actively
                   |  Change Process State(State)             -> IPB
                   |  Change PS Response(State=CompletedOk)   <- IPB
   *+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*

                  Figure 5. Example Payment Message Flows

   1. After Brand Selection and receipt of the IOTP Offer Response
      Block, the Consumer switches from communicating with the Merchant
      to communicating with the Payment Handler.

      This might be a milestone requiring the renewed Consumer's
      agreement about the payment transaction's continuation.
      Particularly, this is a good moment for payment suspension (and
      even cancellation), which will be most probably supported by all
      payment schemes.  Simply, because the actual payment legacy
      systems have not yet been involved in the current transaction.

      Such an agreement might be explicit per transaction or automatic
      based on configured preferences, e.g., early acknowledgments for
      specific payment limits.

      It is assumed, that the transaction proceeds with minimal user
      (Consumer and Payment Handler) interaction and that its progress
      is controlled by the IOTP Application Core and IOTP Payment
      Bridge.

   2. In order to open the actual payment transaction, the IOTP
      Application Core issues the "Start Payment Consumer" request
      towards the IOTP Payment Bridge.  This request carries the whole
      initialization data of the payment transaction being referred to
      by the IOTP Payment Bridge for subsequent consistency checks:

      o  payment brand and its description from the selected Brand
         Element of the IOTP Brand List Component,
      o  payment instrument from preceding inquiry step,





Hans, et al.                 Informational                     [Page 25]


RFC 3867                  Payment API for IOTP             November 2004


      o  further payment parameters (currency, amount, direction,
         expiration) from the selected Currency Amount element, Brand
         List Component, and Payment Component of the IOTP Offer
         Response Block,
      o  payment protocol from the selected IOTP Pay Protocol Element,
      o  order details contained in the IOTP Order Component which might
         be payment scheme specific,
      o  payment scheme specific data inclusive of the payment protocol
         descriptions from the IOTP Protocol Amount Element, and IOTP
         Pay Protocol Element, and
      o  payment scheme specific data inclusive of the payment protocol
         descriptions, in which the name attribute includes the prefix
         as "Payment:" from the Trading Role Data Component.

      Generally, the called API function re-does most checks of the
      "Check Payment Possibility" call due to lack of strong
      dependencies between both requests: There might be a significant
      delay between both API requests.

      The called API function may return further payment scheme specific
      data being considered as payment specific initialization data for
      the Payment Handler's IOTP Payment Bridge.

      If the fixed Existing Payment Software implements payment
      instrument selection on its own, it may request the Consumer's
      choice at this step.

      The IOTP Payment Bridge reports lack of capability quite similarly
      to the "Check Payment Possibility" request to the IOTP Application
      Core.  The Consumer may decide to resolve the problem, to suspend,
      or to cancel the transaction, but this function call must succeed
      in order to proceed with the transaction.

      Developers of payment modules may decide to omit payment
      instrument related checks like expiration date or refunds
      sufficiency, if such checks are part of the specific payment
      protocol.

      If the IOTP Payment Bridge requests wallet identifiers or pass
      phrases anywhere during the payment process, they should be
      requested by this API function, too.  It is recommended that the
      IOTP Application Core stores plain text pass phrases only in
      runtime memory.

      Finally, the IOTP Application Core generates the IOTP Payment
      Request Block, inserts any returned payment scheme data, and
      submits it to the Payment Handler's system.




Hans, et al.                 Informational                     [Page 26]


RFC 3867                  Payment API for IOTP             November 2004


   3. The Payment Handler's IOTP Application Core opens the payment
      transaction calling the "Start Payment Payment Handler" API
      function.  The payment brand, its description, payment protocol,
      payment specific data, payment direction, currency and payment
      amount are determined quite similar to the Consumer's IOTP
      Application Core.  Furthermore, the content of the IOTP Payment
      Scheme Component and the IOTP Brand Selection Info Elements are
      passed to this function.

      On success, the Payment Handler's IOTP Payment Bridge responds
      with payment scheme specific data.  On failures, this non-
      interactive server application has to resolve any problems on its
      own or to give up aborting the payment transaction.  However, the
      Consumer may restart the whole payment transaction.  Anyway, the
      payment log file should reflect any trials of payments.

      Eventually, the Payment Handler informs the Consumer about the
      current IOTP Process State using the IOTP Payment Response or IOTP
      Error Block.

      Note that the "Start Payment Payment Handler" call might return
      the Continuation Status "End" such that payment processing
      proceeds with Step 7.

   4. The IOTP Application Core verifies the presence of the Payment
      Exchange Block in the IOTP message and passes the contained
      payment scheme specific data to the fixed IOTP Payment Bridge
      ("Continue Process") which returns the next IOTP Payment Scheme
      Component.

      This Payment Scheme Component is encapsulated in an IOTP Payment
      Exchange Block and transmitted to the Payment Handler.

   5. The Payment Handler's IOTP Application Core verifies the presence
      of the Payment Exchange Block and passes the contained payment
      scheme specific data to the fixed IOTP Payment Bridge ("Continue
      Process") which returns the next IOTP Payment Scheme Component for
      encapsulation and transmission to the Consumer.

   6. The payment process continues with IOTP Payment Exchange Block
      exchanges, carrying the payment scheme specific data.  Each party
      (1) submits the embedded payment scheme specific data
      transparently to the appropriate IOTP Payment Bridge calling the
      "Continue Process" API function, (2) wraps the returned payment
      scheme specific data into an IOTP Payment Exchange Block, and (3)
      transmits this block to the counter party.





Hans, et al.                 Informational                     [Page 27]


RFC 3867                  Payment API for IOTP             November 2004


      However, the processing of the payment scheme specific data may
      fail for several reasons.  These are signaled by specific error
      codes which are transformed to IOTP Payment Response Blocks
      (generated by Payment Handler) or IOTP Error Blocks (both parties
      may generate them) and transmitted to the counter party.

   7. Eventually, the Payment Handler's IOTP Payment Bridge recognizes
      the termination of the payment transaction and reports this by the
      continuation status "End" on the output parameter of "Continue
      Process" (or "Start Payment Payment Handler").  Then, the IOTP
      Application Core issues the "Inquire Process State" API call and
      verifies whether an IOTP Payment Receipt Component has been
      returned.  The IOTP Application Core wraps the payment receipt,
      the status response, and the optional payment scheme specific data
      in an IOTP Payment Response Block and transmits this block to the
      Consumer.

      However, any of these API calls may fail or any response might be
      incomplete (e.g., lack of payment receipt).  Then, the Consumer
      has to be notified about the failed processing by an IOTP Error
      Block.

      Finally, the Payment Handler terminates the payment transaction
      with the "Change Process State" API call without awaiting any
      further response from the Consumer.  Further failures are not
      reported to the Consumer.

      Note that it might be possible that the Consumer's IOTP Payment
      Bridge has returned the previous payment scheme specific data with
      the continuation status "End".  Even in the absence of this
      knowledge - this status is not exchanged between the Consumer and
      the Payment Handler - the Payment Handler must not supply any
      further payment scheme specific data.  Such data will be rejected
      by the Consumer's IOTP Payment Bridge.

   8. The Consumer passes the optional payment scheme specific data and
      the payment receipt to the fixed IOTP Payment Bridge by "Continue
      Process" and "Check Payment Receipt" API calls.

      Afterwards, the IOTP Application Core issues the "Inquire Process
      State" API call and verifies whether extensions to the payment
      receipt have been returned.

      Finally, the transaction is terminated by calling the "Change
      Process State" API function which verifies and synchronizes the
      reported payment status with the local one and signals any
      inconsistencies.  Any Inconsistency and returned status text
      should be displayed to the Consumer.



Hans, et al.                 Informational                     [Page 28]


RFC 3867                  Payment API for IOTP             November 2004


      At this point, the payment transaction has already been closed by
      the Payment Handler.  Therefore, any failure has to be resolved
      locally or out-of-band.

2.5.  Payment Inquiry

   In Baseline IOTP, Payment inquiries are initiated by the Consumer in
   order to verify the current payment progress and process state at the
   remote Payment Handler.  In the figure 6, PS1 and PS2 indicate the
   first and second PayScheme Packaged Content data, and [ ] indicates
   optional.

   *+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*
   Consumer        Start Payment Inquiry()                    -> IPB
                   Start Payment Inquiry Response([PS1])      <- IPB
                   Create and transmit Inquiry Request Trading Block
   Payment Handler Inquire Payment Status([PS1])              -> IPB
                   Inquire Payment Status Res.(State, [PS2])  -> IPB
                   Create and transmit Inquiry Response Trading
                     Block
   Consumer        If Payment Scheme Data present
                   |  Continue Process(PS2)                   -> IPB
                   |  Continue Process Response(CS=End)       <- IPB
                   Change Process State(State)                -> IPB
                   Change Process State Response(State)       <- IPB
   *+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*

                  Figure 6. Remote Process State Inquiry

   1. The Consumer might initiate a payment inquiry once the payment
      transaction has been opened by the IOTP Application Core, i.e., at
      any time after the initial submission of the IOTP Payment Request
      Block.  The IOTP Application Core requests any additional specific
      payment scheme data from the IOTP Payment Bridge which has been
      fixed during brand selection (cf. Section 2.3) using the "Start
      Payment Inquiry" API request.

      Erroneous API responses should be reported to the Consumer and
      valid alternatives (typically retry and cancellation) should be
      presented by the IOTP Application Core.

      This request might perform the complete initialization, e.g.,
      availability check of periphery or pass phrase supplement, and the
      IOTP Payment Bridge reports lack of capability quite similarly to
      the "Check Payment Possibility" request to the IOTP Application
      Core.





Hans, et al.                 Informational                     [Page 29]


RFC 3867                  Payment API for IOTP             November 2004


      If the IOTP Payment Bridge requests wallet identifiers or pass
      phrases anywhere during the payment process, they should be
      requested by this API function, too.  It is recommended that the
      IOTP Application Core store plain text pass phrases only in
      runtime memory.

      The IOTP Application Core encapsulates any Payment Scheme
      Component in an IOTP Inquiry Request Block and submits the block
      to the Payment Handler.

   2. The Payment Handler analyses the IOTP Inquire Request Block, maps
      the Transaction Identifier to payment related attributes (brand,
      consumer and payment identifiers), determines the appropriate IOTP
      Payment Bridge, and forwards the request to the this IOTP Payment
      Bridge ("Inquire Payment Status").  The IOTP Application Core
      transforms the response to an IOTP Inquiry Response Block and
      transmits it to the Consumer.

   3. On receipt of the respective IOTP Inquiry Response Block the
      Consumer's IOTP Application Core submits any encapsulated payment
      scheme specific data to the IOTP Payment Bridge for verification
      ("Continue Process").

   4. The IOTP Application Core passes the reported payment status
      (except textual descriptions) to the IOTP Payment Bridge ("Change
      Process State") for verification purposes and payment status
      change.  The IOTP Payment Bridge reports any inconsistencies as
      well as the final payment status to the IOTP Application Core.

      Any additional information that might be of interest to the
      Consumer has to be displayed by the IOTP Payment Bridge or
      Existing Payment Software on their own.

2.6.  Abnormal Transaction Processing

2.6.1.  Failures and Cancellations

   The IOTP specification distinguishes between several classes of
   failures:

      o  Business and technical errors
      o  Error depths of transport, message and block level
      o  Transient errors, warnings, and hard errors.

   Any IOTP Payment API has to deal with the receipt of failure
   notifications by and failure responses.  This proposal has borrowed
   the basic mechanisms for error reporting between the IOTP Application
   Core and the IOTP Payment Bridge from the actual protocol: Business



Hans, et al.                 Informational                     [Page 30]


RFC 3867                  Payment API for IOTP             November 2004


   errors are reported by Status Components within IOTP Response Blocks
   while technical errors are signaled by Error Components within IOTP
   Error Blocks.

   Cancellations are mimicked as specific business errors which might be
   initiated by each trading party.

   Preferring slim interfaces, this IOTP Payment API introduces one
   additional Error Code value for business error indication - errors
   can be raised on every API call.  On receipt of this value, the IOTP
   Application Core has to infer further details by the issuance of the
   API function call "Inquire Process State".

   *+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*
   Any Party       Issue some API request                     -> IPB
                   Error Response(Error Code)                 <- IPB
                   On "Business Error" response
                   |  Inquire Process State()                 -> IPB
                   |  Inquire P.S. Resp.(State, Receipt)      <- IPB
                   Analyze local process state and try to resolve
                      with optional user interaction
                   If Process State Change needed
                   |  Change Process State (State)            -> IPB
                   |  Change Process State Response(State)    <- IPB
                   If counter party's notification required
                   |  Create Error or Cancel Block (, add to next
                   |  message, ) and transmit it to counter party
   *+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*

                    Figure 7.  Error Response from IPB

   The specific Completion Codes "ConsCancelled", "MerchCancelled", and
   "PaymCancelled" - returned by "Inquire Process State" - determine
   that the IOTP Cancel Block has to be created instead of an IOTP Error
   Block.

   The rules for determining the required behavior of the IOTP
   Application Core are given in the IOTP specification.

   Note that any payment (intermediate) termination, i.e., failures,
   cancellations, and even successes are always reported to the IOTP
   Payment Bridge by the API function "Change Process State".  This API
   function does both status changes and consistency checking /
   synchronization.  Any suspicion of inconsistency should be reported
   by the IOTP Payment Bridge for display by the IOTP Application Core.






Hans, et al.                 Informational                     [Page 31]


RFC 3867                  Payment API for IOTP             November 2004


   *+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*
   Any Party       Error Block or Cancel Block Received
                   If Change Process State required
                   |  Change Process State (State)            -> IPB
                   |  Change Process State Response(State)    <- IPB
   *+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*

             Figure 8.  Error Notification from counter party

   Not every failure might be visible at the IOTP layer, e.g., the
   processing of payment transactions might temporarily be hampered by
   intermediate failures at the payment scheme or protocol transport
   layer which might be resolved by the actual components.

   However, final failures or cancellations have to be reported at the
   IOTP layer.  E.g., communication time-outs and heavily faulty
   communication channels may disable the transaction.

   Any system component may implement time-out recognition and use the
   aforementioned API mechanisms for the notification of process state
   changes.  But, time-outs may happens while communicating with both
   the counter party and local system components, like chip card readers
   or IOTP Payment Bridges.  Anyway, the Consumer's IOTP Application
   Core should notify the Consumer about the resolution alternatives,
   i.e., retry, suspension, and cancellation.

2.6.2.  Resumption

   Payment transaction resumption may apply at different steps of a
   payment transaction:

   o  The Consumer's and Payment Handler's view of the transaction might
      not be synchronized: Due to different time-out values the payment
      transaction may not have been suspended by the counter party.

      Any "Resume Payment ..." API function responds with an Error Code
      on non-suspended payment transaction that signals a business
      error.  Afterwards the IOTP Application Core has to issue the
      "Inquire Process State" API call for further analysis of the
      process state.

   o  One IOTP message sent by one party might not be processed
      successfully or even received by the counter party.  This needs to
      be handled by the actual payment scheme.  It is expected that the
      IOTP Application Core will not recognize anything.






Hans, et al.                 Informational                     [Page 32]


RFC 3867                  Payment API for IOTP             November 2004


   o  IOTP does not provide any specific signal for payment resumption.
      On receipt of every IOTP Payment Exchange Block, the IOTP
      Application Core has to decide whether this Block belongs to a
      pending transaction or to a suspended transaction that should be
      resumed.  The IOTP Application Core might call the "Inquire
      Process State" API function to update any lack of knowledge.

      Any "Resume Payment" API function responds with an Error Code on
      non-suspended payment transaction that signals a business error.
      Similar, the "Continue Process" API function should report
      business errors on non-pending payment transactions.

   o  The payment transaction may not have been created at the Payment
      Handler (early suspension and failed data transmission).  In that
      case, the IOTP Application Core should respond with a business
      error that signals the repetition of the payment transaction (by
      the Consumer).

      Any "Resume Payment", "Continue Process" or "Inquire Process
      State" API function should return with an Error Code
      "AttValIllegal" on non-existent payment transaction whereby the
      further Error Attribute "Names" denote the payment identifier.

   o  The IOTP Application Core should always request fresh payment
      scheme specific data on resumption - for synchronization purposes
      with the Existing Payment Software.  Old data in the cache that
      has not been sent to the counter party should not be accessed.

   If the Consumer does not reconnect within an acceptable amount of
   time, the Payment Handler's system may perform local failure
   resolution in order to close the transaction and to retain resources
   for other transactions ("Change Process State").  If the Consumer
   reconnect afterwards, an IOTP Payment Response or IOTP Error Block
   could be generated.

2.7.  IOTP Wallet Initialization

   At startup or on explicit user request the IOTP Application Core
   should check its IOTP Payment Bridges' internal status by searching
   for pending payment transactions.

   1. The IOTP Application Core interrogates the registered IOTP Payment
      Bridges about pending payment transactions.  The IOTP Application
      Core may store indicators for pending transactions and use them
      for driving any subsequent inquiry ("Inquire Pending Payment").






Hans, et al.                 Informational                     [Page 33]


RFC 3867                  Payment API for IOTP             November 2004


   2. If one or more IOTP Payment Bridges report the presence of pending
      transactions, the IOTP Application Core may try to suspend
      ("Change Process State") or resume (only Consumer: "Resume Payment
      Consumer") the pending transactions (on user request).

   The IOTP Payment Bridge may deny the processing of any new payment
   transactions until the pending transactions have been processed.
   Such denials are signaled by the error code "Business Error".

2.8.  Payment Software Management

   The IOTP Application Core provides only a simple and generic
   interface for the registration of new payment methods / instruments
   ("Manage Payment Software").  It receives the initial user request
   and defers the actual registration to the corresponding IOTP Payment
   Bridge.

   The IOTP Application Core may also activate the Existing Payment
   Software for further payment instrument and wallet administration.

3.  Mutuality

   The Payment API is formalized using the eXtensible Markup Language
   (XML).  It defines wrapper elements for both the input parameters and
   the API function's response.  In particular, the response wrapper
   provides common locations for Error Codes and Error Descriptions.

   It is anticipated that this description reflects the logical
   structure of the API parameter and might be used to derive
   implementation language specific API definitions.

   XML definition:

   <!ELEMENT IotpPaymentApiRequest (
     FindAcceptedPaymentBrand |
     FindAcceptedPaymentProtocol |
     GetPaymentInitializationData |
     FindPaymentInstrument |
     CheckPaymentPossiblity |
     StartPaymentConsumer |
     StartPaymentPaymentHandler |
     ResumePaymentConsumer |
     ResumePaymentPaymentHandler |
     ContinueProcess |
     InquireProcessState |
     ChangeProcessState |
     InquireAuthChallenge |
     Authenticate |



Hans, et al.                 Informational                     [Page 34]


RFC 3867                  Payment API for IOTP             November 2004


     CheckAuthResponse |
     CheckPaymentReceipt |
     ExpandPaymentReceipt |
     RemovePaymentLog |
     PaymentInstrumentInquiry |
     InquirePendingPayment |
     ManagePaymentSoftware |
     StartPaymentInquiry |
     InquirePaymentStatus |
     CallBack )>

   <!ATTLIST IotpPaymentApi
     xml:lang          NMTOKEN   #IMPLIED
     ContentSoftwareID CDATA     #IMPLIED
     xmlns             CDATA     #FIXED
                    "http://www.iotp.org/2000/08/PaymentAPI" >

   <!ELEMENT IotpPaymentApiResponse (ErrorResponse?, (
     FindAcceptedPaymentBrandResponse |
     FindAcceptedPaymentProtocolResponse |
     GetPaymentInitializationDataResponse |
     FindPaymentInstrumentResponse |
     CheckPaymentPossiblityResponse |
     StartPaymentConsumerResponse |
     StartPaymentPaymentHandlerResponse |
     ResumePaymentConsumerResponse |
     ResumePaymentPaymentHandlerResponse |
     ContinueProcessResponse |
     InquireProcessStateResponse |
     ChangeProcessStateResponse |
     InquireAuthChallengeResponse |
     AuthenticateResponse |
     CheckAuthResponseResponse |
     CheckPaymentReceiptResponse |
     ExpandPaymentReceiptResponse |
     RemovePaymentLogResponse |
     PaymentInstrumentInquiryResponse |
     InquirePendingPaymentResponse |
     ManagePaymentSoftwareResponse |
     StartPaymentInquiryResponse |
     InquirePaymentStatusResponse |
     CallBackResponse )?)>

   <!ATTLIST IotpPaymentApiResponse
     xml:lang          NMTOKEN #IMPLIED
     ContentSoftwareID CDATA   #IMPLIED
     xmlns             CDATA   #FIXED
                "http://www.iotp.org/2000/08/PaymentAPI" >



Hans, et al.                 Informational                     [Page 35]


RFC 3867                  Payment API for IOTP             November 2004


   <!ELEMENT ErrorResponse (ErrorLocation+,PaySchemePackagedContent*) >
   <!ATTLIST ErrorResponse
     xml:lang      NMTOKEN   #IMPLIED
     ErrorCode     NMTOKEN   #REQUIRED
     ErrorDesc     CDATA     #REQUIRED
     Severity(Warning |
       TransientError |
              HardError)     #REQUIRED
     MinRetrySecs  CDATA     #IMPLIED
     SwVendorErrorRef CDATA  #IMPLIED >

   Most of the attribute items are intended for immediate insertion in
   the IOTP Error Block.  The attribute values of the Error Location
   elements attribute have to enriched and transformed into Error
   Location Elements of the Error Component (cf. IOTP Specification).

   Attributes (cf. IOTP Specification):

   xml:lang           Defines the language used by attributes or
                      child elements within this component, unless
                      overridden by an xml:lang attribute on a child
                      element.

   ContentSoftwareId  Contains information which identifies the
                      software that generated the content of the
                      element.  Its purpose is to help resolve
                      interoperability problems that might occur as
                      a result of incompatibilities between messages
                      produced by different software.  It is a single
                      text string in the language defined by
                      "xml:lang".  It must contain, as a minimum
                      problems that might occur as a result of

                      o  the name of the software manufacturer,
                      o  the name of the software,
                      o  the version of the software, and
                      o  the build of the software.

   ErrorCode          Contains an error code which indicates the
                      nature of the error in the message in error.
                      Valid values for the Error Code are given in
                      the following section.  This mnemonic enables
                      the automatic failure resolution of the IOTP
                      Application Core which analyzes the error code
                      value in order to determine the continuation
                      alternatives.





Hans, et al.                 Informational                     [Page 36]


RFC 3867                  Payment API for IOTP             November 2004


   ErrorDesc          Contains a description of the error in the
                      language defined by xml:lang.  The content of
                      this attribute is defined by the
                      vendor/developer of the software that
                      generated the Error Response Element.
                      It is intended for user display and provides
                      detailed explanations about the failure and
                      its (out-of-band) resolution alternatives.

   Severity           Indicates the severity of the error.  Valid
                      values are:

                      o  Warning.  This indicates that although there
                         is a message in error the IOTP Transaction
                         can still continue.

                      o  TransientError.  This indicates that the
                         error in the message in error may be
                         recovered if the message in error that is
                         referred to by the "Names" attribute is
                         resent.

                      o  HardError.  This indicates that there is an
                         unrecoverable error in the message in error
                         and the IOTP Transaction must stop.

   MinRetrySecs       This attribute should be present if "Severity"
                      is set to "TransientError".  It is the minimum
                      number of whole seconds which the IOTP aware
                      application which received the message
                      reporting the error should wait before
                      resending the message in error identified by
                      the "ErrorLocation" attribute.

                      If Severity is not set to
                      "TransientError" then the value of this
                      attribute is ignored.

   SwVendorErrorRef   This attribute is a reference whose value is
                      set by the vendor/developer of the software
                      that generated the Error Element.  It should
                      contain data that enables the vendor to
                      identify the precise location in their
                      software and the set of circumstances that
                      caused the software to generate a message
                      reporting the error.





Hans, et al.                 Informational                     [Page 37]


RFC 3867                  Payment API for IOTP             November 2004


   Content:

   ErrorLocation      This identifies, where possible, the
                      element and attribute in the message
                      in error that caused the Error
                      Element to be generated.  If the
                      "Severity" of the error is not
                      "TransientError", more that one
                      "ErrorLocation" may be specified as
                      appropriate depending on the nature
                      of the error and at the discretion of
                      the vendor/developer of the IOTP
                      Payment Bridge.

                      Its definition coincides with the
                      IOTP specification whereby the
                      attributes "IotpMsgRef", "BlkRef" and
                      "CompRef" are left blank,
                      intentionally.

   PaySchemePackagedContent  cf. Table 5

3.1.  Error Codes

   The following table lists the valid values for the ErrorCode
   attribute of the Error Response Element.  The first sentence of the
   error description contains the default text that can be used to
   describe the error when displayed or otherwise reported.  Individual
   implementations may translate this into alternative languages at
   their discretion.  However, not every error code may apply to every
   API call.  An Error Code must not be more than 14 characters long.
   The Error Codes have been taken from the IOTP Specification and
   extended by some additional codes which are highlighted by a
   preceding asterisk.

   Generally, if the corrupt values have been user supplied, the IOTP
   Application Core might prompt for their correction.  If the renewal
   fails or if the IOTP Application Core skips any renewals and some
   notification has to be send to the counter-party, the error code is
   encapsulated within an IOTP Error Block.

   However, the IOTP server application reports business errors -
   visible at the IOTP layer - in the Status Component of the respective
   Response Block.

   The IOTP Application Core may add the attributes (and values) within
   the ErrorLocation elements that are omitted by the IOTP Payment
   Bridge.



Hans, et al.                 Informational                     [Page 38]


RFC 3867                  Payment API for IOTP             November 2004


   The following table mentions any modification from this general
   processing for particular error values.  Furthermore, it contains
   hints for developers of IOTP Application Core software components
   about the processing of error codes.  Conversely, developers of IOTP
   Payment Bridges get impressions about the expected behavior of the
   IOTP Application Core.

   The IOTP Payment API assumes that the IOTP Application Core
   implements the dialog boxes needed for error resolution.  But it does
   not assume, that the IOTP Payment Bridge actually relies on them.
   Instead, the IOTP Payment Bridge may try resolution on its own, may
   implement specific dialog boxes, and may signal only final failures.

   Note: This abstract document assumes that the API parameters are
   exchanged XML encoded.  Therefore, several error values might
   disappear in lower level language specific derivations.

   Error Value        Error Description
   -----------        -----------------

   Reserved           Reserved.  This error is reserved by the
                      vendor/developer of the software.  Contact
                      the vendor/developer of the software for
                      more information (see the SoftwareId
                      attribute of the Message Id element in the
                      Transaction Reference Block [IOTP]).

   XmlNotWellFrmd     XML not well formed.  The XML document is not
                      well formed.  See [XML] for the meaning of
                      "well formed".

   XmlNotValid        XML not valid.  The XML document is well
                      formed but the document is not valid.  See
                      [XML] for the meaning of "valid".
                      Specifically:

                      o  the XML document does not comply with the
                         constraints defined in the IOTP document
                         type declaration, and
                      o  the XML document does not comply with the
                         constraints defined in the document type
                         declaration of any additional [XML-NS]
                         that are declared.

                      The Names attribute might refer some
                      attributes and elements of the input
                      parameter list.




Hans, et al.                 Informational                     [Page 39]


RFC 3867                  Payment API for IOTP             November 2004


   (*)ElNotValid      Element not valid.  Invalid element in terms
                      of prescribed syntactical characteristics.

                      The ElementRef attributes of ErrorLocation
                      elements might refer to the corresponding
                      elements (if they have ID attributes).

                      The IOTP Application Core has to replace the
                      error code with "XmlNotValid" before
                      transmission to the counterparty.

   ElUnexpected       Unexpected element.  Although the XML
                      document is well formed and valid, an
                      element is present that is not expected in
                      the particular context according to the
                      rules and constraints contained in this
                      specification.

                      The ElementRef attributes of ErrorLocation
                      elements might refer to the corresponding
                      elements (if they have ID attributes).

   ElNotSupp          Element not supported.  Although the document
                      is well formed and valid, an element is
                      present that

                      o  is consistent with the rules and
                         constraints contained in this
                         specification, but
                      o  is not supported by the IOTP Aware
                         Application which is processing the IOTP
                         Message.

                      The ElementRef attributes of ErrorLocation
                      elements might refer to the corresponding
                      elements (if they have ID attributes).

   ElMissing          Element missing.  Although the document is
                      well formed and valid, an element is missing
                      that should have been present if the rules
                      and constraints contained in this
                      specification are followed.

                      The ElementRef attributes of ErrorLocation
                      elements might refer to the corresponding
                      elements (if they have ID attributes).





Hans, et al.                 Informational                     [Page 40]


RFC 3867                  Payment API for IOTP             November 2004


   ElContIllegal      Element content illegal.  Although the
                      document is well formed and valid, the
                      element contains values which do not conform
                      the rules and constraints contained in this
                      specification.

                      The ElementRef attributes of ErrorLocation
                      elements might refer to the corresponding
                      element (if they have ID attributes).

                      The IOTP Application Core has to replace the
                      Error Code with "ElNotSupp" before
                      transmission to the counter party, if the
                      ErrorLocation elements refer to
                      non-PackagedContent element.

   EncapProtErr       Encapsulated protocol error.  Although the
                      document is well formed and valid, the
                      Packaged Content of an element contains data
                      from an encapsulated protocol which contains
                      errors.

                      The ElementRef attributes of ErrorLocation
                      elements might refer to the corresponding
                      element (if they have ID attributes).

   AttUnexpected      Unexpected attribute.  Although the XML
                      document is well formed and valid, the
                      presence of the attribute is not expected in
                      the particular context according to the
                      rules and constraints contained in this
                      specification.

                      The AttName attributes of ErrorLocation
                      elements might refer to the corresponding
                      attribute tags.

   (*)AttNotValid     Attribute not valid.  Invalid attribute value
                      in terms of prescribed syntactical
                      characteristics.

                      The AttName attributes of ErrorLocation
                      elements might refer to the corresponding
                      attribute tags.

                      The IOTP Application Core has to replace the
                      error code with "XmlNotValid" before
                      transmission to the counter party.



Hans, et al.                 Informational                     [Page 41]


RFC 3867                  Payment API for IOTP             November 2004


   AttNotSupp         Attribute not supported.  Although the XML
                      document is well formed and valid, and the
                      presence of the attribute in an element is
                      consistent with the rules and constraints
                      contained in this specification, it is not
                      supported by the IOTP Aware Application
                      which is processing the IOTP Message.

   AttMissing         Attribute missing.  Although the document is
                      well formed and valid, an attribute is
                      missing that should have been present if the
                      rules and constraints contained in this
                      specification are followed.

                      The AttName attributes of ErrorLocation
                      elements might refer to the corresponding
                      attribute tags.

                      If the attribute is required by the IOTP
                      Document Type Declaration (#REQUIRED) the
                      hints for non-valid attributes should be
                      adopted, otherwise these for illegal
                      attribute values.

   AttValIllegal      Attribute value illegal.  The attribute
                      contains a value which does not conform to
                      the rules and constraints contained in this
                      specification.

                      The AttName attributes of ErrorLocation
                      elements might refer to the corresponding
                      attribute tags - valid values are:

                      BrandId: illegal/unknown Brand Identifier -
                      If the brand is not recognized/known by any
                      IOTP Payment Bridge, the IOTP Application
                      Core may offer the registration of a new
                      Payment Instrument.

                      PaymentInstrumentId: illegal/unknown
                      Payment Instrument Identifier - This
                      indicates a serious communication problem if
                      the attribute value has been reported by the
                      same "wallet" on a previous inquiry
                      requests.  The IOTP Application Core has to
                      replace the error code with
                      "UnknownError" before transmission to the
                      counter party.



Hans, et al.                 Informational                     [Page 42]


RFC 3867                  Payment API for IOTP             November 2004


                      WalletId: illegal/unknown Wallet Identifier
                      - It is assumed that the wallet identifier
                      is checked before the pass phrase.  On
                      invalid wallet identifiers, the IOTP
                      Application Core may open the dialog in
                      order to request the correct wallet
                      identifier.  In addition, any pass phrase may
                      be supplied by the user.  The dialog should
                      indicate the respective payment brand(s).
                      The IOTP Application Core has to replace the
                      error code with "UnknownError" before
                      transmission to the counter party.

                      Passphrase:   illegal/unknown Pass Phrase -
                      The IOTP Application Core may open the
                      dialog in order to request the correct pass
                      phrase.  If the pass phrase is wallet
                      identifier specific the dialog should
                      display the wallet identifier.  The IOTP
                      Application Core has to replace the error
                      code with "TransportError" before
                      transmission to the counter party.

                      Action:  illegal / unknown / unsupported
                      Action

                      PropertyTypeList:  lists contains illegal /
                      unknown / unsupported Property Types - The
                      IOTP Application Core tries only the local
                      resolution but does never transmit any IOTP
                      Error Block to the counter party.

                      CurrCode: illegal/unknown/unsupported
                      Currency Code

                      CurrCodeType: illegal/unknown/unsupported
                      Currency Code Type

                      Amount: illegal/unknown/unsupported Payment
                      Amount

                      PayDirection: illegal/unknown/unsupported
                      Payment Direction

                      ProtocolId:   illegal/unknown/unsupported
                      Protocol Identifier





Hans, et al.                 Informational                     [Page 43]


RFC 3867                  Payment API for IOTP             November 2004


                      OkFrom: illegal/unknown/unsupported OkFrom
                      Timestamp

                      OkTo:   illegal/unknown/unsupported OkTo
                      Timestamp

                      ConsumerPayId: illegal/unknown Consumer
                      Payment Identifier

                      PaymentHandlerPayId: illegal/unknown Payment
                      Handler Payment Identifier

                      PayId: illegal/unknown Payment Identifier

   AttValNotRecog     Attribute Value Not Recognized.  The
                      attribute contains a value which the IOTP
                      Aware Application generating the message
                      reporting the error could not recognize.

                      The AttName attributes of ErrorLocation
                      elements might refer to the corresponding
                      attribute tags.

   MsgTooLarge        Message too large.  The message is too large
                      to be processed by the IOTP Payment Bridge
                      (or IOTP Application Core).

   ElTooLarge         Element too large.  The element is too large
                      to be processed by the IOTP Payment Bridge
                      (or IOTP Application Core).

                      The ElementRef attributes of ErrorLocation
                      elements might refer to the corresponding
                      elements.

   ValueTooSmall      Value too small or early.  The value of all
                      or part of an element content or an
                      attribute, although valid, is too small.

                      The ErrorLocation elements might refer to
                      the corresponding attribute tags or
                      elements.

   ValueTooLarge      Value too large or in the future.  The value
                      of all or part of an element content or an
                      attribute, although valid, is too large.





Hans, et al.                 Informational                     [Page 44]


RFC 3867                  Payment API for IOTP             November 2004


                      The ErrorLocation elements might refer to
                      the corresponding attribute tags or
                      elements.

   ElInconsistent     Element Inconsistent.  Although the document
                      is well formed and valid, according to the
                      rules and constraints contained in this
                      specification:

                      o  the content of an element is inconsistent
                         with the content of other elements or
                         their attributes, or

                      o  the value of an attribute is inconsistent
                         with the value of one or more other
                         attributes.

                      The Error Description may contain further
                      explanations.

                      The ErrorLocation elements might refer to
                      the corresponding attribute tags or elements
                      that are inconsistent.

   TransportError     Transport Error.  This error code is used to
                      indicate that there is a problem with the
                      transport mechanism that is preventing the
                      message from being received.  It is typically
                      associated with a "Transient Error".

                      The connection to some periphery or the
                      counter party could not be established,
                      is erroneous, or has been lost.

                      The Error Description may contain further
                      narrative explanations, e.g., "chip card
                      does not respond", "remote account manager
                      unreachable", "Internet connection to xyz
                      lost", "no Internet connection available",
                      "no modem connected", or "serial port to
                      modem used by another application".  This
                      text should be shown to the end user.  If
                      timeout has occurred at the Consumer this
                      text should be shown and the Consumer may
                      decide how to proceed - alternatives are
                      retry, payment transaction suspension, and
                      cancellation.




Hans, et al.                 Informational                     [Page 45]


RFC 3867                  Payment API for IOTP             November 2004


   MsgBeingProc       Message Being Processed.  This error code is
                      only used with a Severity of Transient
                      Error.  It indicates that the previous
                      message, which may be an exchange message or
                      a request message, is being processed and,
                      if no response is received by the time
                      indicated by the "MinRetrySecs" attribute,
                      then the original message should be resent.

   SystemBusy         System Busy.  This error code is only used
                      with a Severity of Transient Error.  It
                      indicates that the IOTP Payment Bridge or
                      Existing Payment Software that received the
                      API request is currently too busy to handle
                      it.  If no response is received by the time
                      indicated by the "MinRetrySecs" attribute,
                      then the original message should be resent.

                      The Error Description may provide further
                      explanations, e.g., "wallet / chip card
                      reader is unavailable or locked by another
                      payment transaction", "payment gateway is
                      overloaded", "unknown chip card reader", or
                      "unrecognized chip card inserted, change
                      chip card".

                      The Consumer's IOTP Application Core may
                      display the error description and ask the
                      Consumer about the continuation -
                      alternatives are retry, payment transaction
                      suspension, and cancellation.

   UnknownError       Unknown Error.  Indicates that the
                      transaction cannot complete for some reason
                      that is not covered explicitly by any of the
                      other errors.  The Error description
                      attribute should be used to indicate the
                      nature of the problem.

                      The ErrorLocation elements might refer to
                      the corresponding attribute tags or elements
                      that are inconsistent.

   (*)SyntaxError     Syntax Error.  An (unknown) syntax error has
                      occurred.






Hans, et al.                 Informational                     [Page 46]


RFC 3867                  Payment API for IOTP             November 2004


                      The ErrorLocation elements might refer to
                      the corresponding attribute tags or elements
                      that are inconsistent.

                      The IOTP Application Core has to replace the
                      error code with "XmlNotValid" or
                      "UnknownError" before transmission to the
                      counter party.

   (*)ReqRefused      Request refused.  The API request is
                      (currently) refused by the IOTP Payment
                      Bridge.  The error description may provide
                      further explanations, e.g., "wallet / chip
                      card reader is unavailable or locked by
                      another payment transaction", "payment
                      gateway is overloaded", "unknown chip card
                      reader", or "unrecognized chip card
                      inserted, change chip card".

                      The Consumer's IOTP Application Core may
                      display the error description and ask the
                      Consumer about the continuation -
                      alternatives are retry, payment transaction
                      suspension, and cancellation.  Denials due to
                      invalid Process States should be signaled by
                      "BusinessError".  Typically, this kind of
                      error is not passed to the counter party's
                      IOTP Application Core.  Otherwise, it maps to
                      "TransportError" or "UnknownError".

   (*)ReqNotSupp      Request not supported.  The API
                      function(ality) has not been implemented in
                      the IOTP Payment Bridge.  Typically, this
                      kind of error is not passed to the
                      counter party's IOTP Application Core.
                      Otherwise, it maps to "TransportError" or
                      "UnknownError".

   (*)BusError        Business Error.  The API request has been
                      rejected because some payment transaction
                      has an illegal payment status.
                      Particularly, this error code is used to
                      signal any raise of payment business layered
                      failures.

                      The ErrorLocation elements may refer to
                      payment transactions using the party's
                      Payment Identifier - it defaults to the



Hans, et al.                 Informational                     [Page 47]


RFC 3867                  Payment API for IOTP             November 2004


                      current transaction or might contain the
                      current payment transaction party's Payment
                      Identifier - identified by the ElementRef
                      attribute while the AttName attribute is
                      fixed with "PayId".

                      The IOTP Application Core must inquire the
                      IOTP Payment Bridge about the actual Process
                      State which actually encodes the business
                      error ("Inquire Process State").
                      This error code must not be
                      passed to the counter party's IOTP
                      Application Core.

                        Table 2: Common Error Codes

   The IOTP Payment Bridge may also use the error description in order
   to notify the Consumer about further necessary steps for failure
   resolution, e.g., "Sorry, your payment transaction failed.
   Unfortunately, you have been charged, please contact your issuer."

3.2.  Attributes and Elements

   The following table explains the XML attributes in alphabetical order
   - any parenthesized number after the attribute tag is a recommended
   maximal length of the attribute value in characters:

   Attribute           Description
   ---------           -----------

   Amount    (11)      Indicates the payment amount to be paid in
   AmountFrom(11)      whole and fractional units of the currency.
   AmountTo  (11)      For example $245.35 would be expressed
                       "245.35".  Note that values smaller than the
                       smallest denomination are allowed.  For
                       example one tenth of a cent would be
                       "0.001".

   AuthenticationId    An identifier specified by the
                       authenticator which, if returned by the
                       organization that receives the
                       authentication request, will enable the
                       authenticator to identify which
                       authentication is being referred to.







Hans, et al.                 Informational                     [Page 48]


RFC 3867                  Payment API for IOTP             November 2004


   BrandId  (128)      This contains a unique identifier for the
                       brand (or promotional brand).  It is used to
                       match against a list of Payment Instruments
                       which the Consumer holds to determine
                       whether or not the Consumer can pay with the
                       Brand.

                       Values of BrandId are managed under
                       procedure being described in the IOTP
                       protocol specification.

   BrandLogoNetLocn    The net location which can be used to
                       download the logo for the organization (cf.
                       IOTP Specification).

                       The content of this attribute must conform
                       to [URL].

   BrandName           This contains the name of the brand, for
                       example "MasterCard Credit".  This is the
                       description of the Brand which is displayed
                       to the consumer in the Consumer's language
                       defined by "xml:lang".  For example it might
                       be "American Airlines Advantage Visa".  Note
                       that this attribute is not used for matching
                       against the payment instruments held by the
                       Consumer.

   BrandNarrative      This optional attribute is
                       used by the Merchant to indicate some
                       special conditions or benefit which would
                       apply if the Consumer selected that brand.
                       For example "5% discount", "free shipping
                       and handling", "free breakage insurance for
                       1 year", "double air miles apply", etc.

   CallBackFunction    A function which is called whenever there is
                       a change of Process State or payment
                       progress, e.g., for display updates.  However,
                       the IOTP Payment Bridge may use its own
                       mechanisms and dialog boxes.

   CallBackLanguageList
                       A list of language codes which contain, in
                       order of preference, the languages in which
                       the text passed to the Call Back function
                       will be encoded.




Hans, et al.                 Informational                     [Page 49]


RFC 3867                  Payment API for IOTP             November 2004


   CompletionCode (14) Indicates how the process completed.
                       It is required if ProcessState is set to
                       "Failed" otherwise it is ignored.  Valid
                       values as well as recovery options are given
                       in the IOTP specification.

                       The IOTP Payment Bridge may also use the
                       Status Description to notify the Consumer
                       about further necessary steps in order to
                       resolve some kind of business failures,
                       e.g.,

                       o  "sorry, your payment transaction failed.
                          Unfortunately, you have been charged,
                          please contact your issuer."
                       o  "insufficient capacity left (on your
                          stored value card) for refund",
                       o  "payment failed/chip card error/internal
                          error, please contact your payment
                          instrument's issuer"

   ConsumerDesc        A narrative description of the Consumer.

   ConsumerPayId (14)  An unique identifier specified by the
                       Consumer that, if returned by the Payment
                       Handler in another Payment Scheme Component
                       or by other means, enables the Consumer to
                       identify which payment is being referred to.

                       This unique identifier is generated by the
                       IOTP Application Core and submitted to the
                       IOTP Payment Bridge on every API call.  It
                       may equal the Payment Handler Payment
                       Identifiers but need not necessarily be so.

                       The uniqueness extends to multiple payment
                       instruments, payment brands, payment
                       protocols, wallet identifiers, and even
                       multiple IOTP Payment Bridges.

   ContStatus          During payment progress, this status value
                       indicates whether the payment needs to be
                       continued with further IOTP Payment Scheme
                       Component exchanges with the remote party.
                       "End" indicates that the reported payment
                       scheme data is the last data to be exchanged
                       with the counter party.




Hans, et al.                 Informational                     [Page 50]


RFC 3867                  Payment API for IOTP             November 2004


   ContentSoftwareId   This contains information that identifies
                       the software that generated the content of
                       the element.  Its purpose is to help resolve
                       interoperability problems that might occur
                       as a result of incompatibilities between
                       messages produced by different software.  It
                       is a single text string in the language
                       defined by xml:lang.  It must contain, as a
                       minimum:

                       o  the name of the software manufacturer,
                       o  the name of the software,
                       o  the version of the software, and
                       o  the build of the software.

   CurrCodeType (14)   Indicates the domain of the CurrCode.  This
                       attribute is included so that the currency
                       code may support nonstandard currencies
                       such as frequent flyer point, trading
                       stamps, etc.  Its values may be

                       o  ISO-4217-A, the default, indicates the
                          currency code is the three-letter
                          alphabetic code that conform to ISO-4217
                          [ISO4217].
                       o  IOTP indicates that the values of
                          CurrCode are managed under the procedure
                          described in [IOTP].

   CurrCode  (14)      A code which identifies the currency to be
                       used in the payment.  The domain of valid
                       currency codes is defined by "CurrCodeType"

   MerchantPayId  (14) An private identifier specified by the
                       Merchant which will enable the Merchant to
                       identify which payment is being referred to.
                       It is a pure private item and is never sent
                       to any other party.  It is provided by the
                       IOTP Payment Bridge on payment preparation
                       during brand compilation.

                       Cf. To "ConsumerPayId" for note about
                       uniqueness.








Hans, et al.                 Informational                     [Page 51]


RFC 3867                  Payment API for IOTP             November 2004


   MerchantOrgId  (64) A local item that might refer to some
                       specific shop in a multi shop environment.
                       This item is optional and might enrich the
                       Wallet Identifier which itself can be used
                       for the same purpose.

   Name                Distinguishes between multiple occurrences
                       of Packaged Content Elements at the same
                       point in IOTP.  For example:

                       <ABCD>
                         <PackagedContent Name='FirstPiece'>
                           snroasdfnas934k
                         </PackagedContent>
                         <PackagedContent Name='SecondPiece'>
                           dvdsjnl5poidsdsflkjnw45
                         </PackagedContent>
                       </ABCD>

                       The "Name" attribute may be omitted, for
                       example if there is only one Packaged
                       Content element.

   OkFrom  (30)        The date and time in UTC Format range
   OkTo  (30)          indicated by the merchant in which the
                       Payment Handler may accept the payment.
                       For more information, see [UTC].

   Passphrase  (32)    Payment wallets may use pass phrase
                       protection for transaction data and payment
                       instruments' data.  However, it is assumed
                       that there exists a public and customizable
                       payment instrument identifier such that
                       these identifiers together with their
                       relationship to payment brands, payment
                       protocols, payment directions, and currency
                       amounts can be queried by the IOTP
                       application without any pass phrase
                       knowledge.

   PayDirection        Indicates the direction in which the
                       payment for which a Brand is being selected
                       is to be made.  Its values may be:

                       o  Debit: The sender of the Payment Request
                          Block (e.g., the Consumer) to which this
                          Brand List relates will make the payment
                          to the Payment Handler, or



Hans, et al.                 Informational                     [Page 52]


RFC 3867                  Payment API for IOTP             November 2004


                       o  Credit: The sender of the Payment Request
                          Block to which this Brand List relates
                          will receive a payment from the Payment
                          Handler.

   PayId (14)          This attribute is introduced for API
                       simplification:

                       o  The Consumer has to identify PayId and
                          ConsumerPayId.

                       o  The Merchant has to identify PayId and
                          MerchantPayId.

                       o  The Payment Handler has to identify PayId
                          and Payment Handler Pay Id.


   PayInstId           This contains the unique identifier used
                       internally by the IOTP Payment
                       Bridge/Existing Payment Software.

   PayInstName         This contains the user-defined name of the
                       payment instrument.  There exist no
                       (technical) constraints like uniqueness.  The
                       "xml:lang" attribute denotes the language
                       encoding of its value.

   PaymentHandlerDesc  A narrative description of the Payment
                       Handler.

   PaymentHandlerPayId An unique identifier specified by the
     (14)              Payment Handler that, if returned by the
                       Consumer in another Payment Scheme Component
                       or by other means, enables the Payment
                       Handler to identify which payment is being
                       referred to.  It is required whenever it is
                       known.

                       Cf. To "ConsumerPayId" for note about
                       uniqueness.

   PaymentInstrumentId An identifier for a specific payment
     (32)              instrument, e.g., "credit card", "Mondex card
                       for English Pounds".  This identifier is
                       fully customizable.  It is assumed, that it
                       does not contain confidential information or
                       even an indication of it.  The payment



Hans, et al.                 Informational                     [Page 53]


RFC 3867                  Payment API for IOTP             November 2004


                       instrument identifier is unique within each
                       payment brand.  It is displayed to the
                       Consumer during brand selection.

   PayReceiptNameRefs  Optionally contains element references to
     (32)              other elements (containing payment scheme
                       specific data) that together make up the
                       receipt.  Note that each payment scheme
                       defines in its supplement the elements that
                       must be referenced

                       The IOTP Application Core should save all
                       the components referenced so that the
                       payment receipt can be reconstructed when
                       required.

   PayReqNetLocn       The Net Location indicating where an
                       unsecured Payment Request message should be
                       sent if this protocol choice is used.

                       The content of this attribute must conform
                       to [URL] and depends on the Transport
                       Mechanism.

   PercentComplete (3) A number between 0 and 100 which indicates
                       the progress of the payment transaction.  The
                       values range between 0 and 99 for pending
                       and suspended transactions.

   ProcessState        Contains a Process State Code that
                       indicates the current state of the process
                       being carried out.  Valid values are:

                       o  NotYetStarted.  The Payment Request Block
                          has been received but processing of the
                          Payment Request has not yet started

                       o  InProgress.  The payment transaction is
                          pending.  The processing of the (Payment)
                          Request Block has started but it is not
                          yet complete.

                       o  (*)Suspended: The payment transaction has
                          been suspended and can be resumed.

                       This process state is mapped to
                       "InProgress", if it is passed to the
                       counter party's IOTP Application Core.



Hans, et al.                 Informational                     [Page 54]


RFC 3867                  Payment API for IOTP             November 2004


                       o  CompletedOk.  The processing of the (Payment)
                          Request Block and any following Payment
                          Exchange Blocks has completed successfully.

                       o  Failed.  The payment processing has finally
                          failed for a Business Error.

                       o  ProcessError.  This value is only used
                          when the Status Component is being used in
                          connection with an Inquiry Request Trading
                          Block.  It indicates there was a Technical
                          Error in the Request Block which is being
                          processed or some internal processing
                          error.  Each party's IOTP Payment Bridge
                          uses this value in order to notify the
                          IOTP Application Core about the presence
                          of technical errors.

   PropertyType  (14)  The property type defines codes used for
                       interrogation of specific properties about a
                       payment instrument.  They are unique for each
                       payment brand.  The predefined property "all"
                       is used on general inquiries.  However, these
                       property types are not used during normal
                       payment processing.  E.g., they may apply to
                       payment brand specific transactions or
                       out-of-band failure resolution.

   PropertyDesc        The property description carries the
                       respective human readable property (value)'s
                       description.

   PropertyValue       The actual property value intends automatic
                       post processing.

   ProtocolBrandId (64)This is an identifier to be used with a
                       particular payment protocol.  For example,
                       SET and EMV have their own well defined, yet
                       different, values for the Brand identifier
                       to be used with each protocol.  The valid values
                       of this attribute are defined in the
                       supplement for the payment protocol
                       identified by "ProtocolId" that describes
                       how the payment protocol works with IOTP.
                       Identifier maps to at most one Protocol
                       Brand Identifier.





Hans, et al.                 Informational                     [Page 55]


RFC 3867                  Payment API for IOTP             November 2004


   ProtocolId  (64)    An identifier for a specific payment
                       protocol and version, e.g., "SETv1.0",
                       "ecash".  Valid values are defined by
                       supplements to the IOTP specification and
                       they are unique within each payment brand.

   ProtocolIds         A sequence of Protocol Identifiers

   ProtocolName        A narrative description of the payment
                       protocol and its version in the language
                       identified by "xml:lang".  For example
                       "Secure Electronic Transaction Version 1.0".
                       Its purpose is to help provide information
                       on the payment protocol being used if
                       problems arise.

   SecPayReqNetLocn    The Net Location indicating where a secured
                       Payment Request message should be sent if
                       this protocol choice is used.

                       A secured payment involves the use of a
                       secure channel such as [TLS] in order
                       to communicate with the Payment Handler.

                       The content of this attribute must conform
                       to [URL].

   ReceiverOrgId       The Organization Identification which
                       receives the payment bridge processing
                       Trading Role Data PackagedContent.

   StatusDesc  (256)   An optional textual description of the
                       current process state in the language
                       identified by "xml:lang" that should be
                       displayed to the Consumer.  The usage of this
                       attribute is defined in the payment
                       supplement for the payment method being
                       used.  Particularly, it provides hints for
                       out-of-band failure resolution.  Its length
                       is limited to 256 characters.

   StyleSheetNetLocn   This contains the net location to a style
                       sheet with visualisation rules for XML
                       encoded data.

   TimeStamp  (30)     The date and time in UTC Format when the
                       payment transaction has been started.
                       For more information on UTC, see [UTC].



Hans, et al.                 Informational                     [Page 56]


RFC 3867                  Payment API for IOTP             November 2004


   WalletId  (32)      Many existing payment wallet software are
                       multiple wallet capable.  The Wallet
                       Identifier selects the actual wallet.  It is
                       assumed, that the wallet identifier is a
                       public item, that might be stored by the
                       IOTP Application Core.

   xml:lang            Defines the language used by the Process
                       State Description attribute (cf. IOTP
                       Specification)

                            Table 3: Attributes

   The following table explains the XML elements in alphabetical order:

   Element             Description
   -------             -----------

   Algorithm           This contains information which describes
                       an Algorithm that may be used to generate
                       the Authentication response.

                       The algorithm that may be used is
                       identified by the Name attribute (cf. IOTP
                       Specification).

   AuthReqPackagedContent   The Authentication Request Packaged
                       Content originates from a Authentication
                       (Data/Response) Component's content
                       whereby the outermost element tags are
                       prefixed with "AuthReq".  Its declaration
                       coincides with the Packaged Content's
                       declaration (cf. IOTP Specification).  It
                       encapsulates the authentication challenge
                       value.  The content of this information is
                       defined in the supplement for a payment
                       protocol.

   AuthResPackagedContent   The Authentication Response Packaged
                       Content originates from a Authentication
                       Response Component's content whereby the
                       outermost element tags are prefixed with
                       "AuthRes".

                       Its declaration coincides with the
                       Packaged Content's declaration (cf. IOTP
                       Specification).  It encapsulates the




Hans, et al.                 Informational                     [Page 57]


RFC 3867                  Payment API for IOTP             November 2004


                       authentication response value.  The
                       content of this information is defined in
                       the supplement for a payment protocol.

   BrandPackagedContent     Container for further payment brand
                       description.  Its content originates from
                       a Brand Element content whose outermost
                       element tags are prefixed with "Brand".
                       Its declaration coincides with the
                       Packaged Content's declaration (cf. IOTP
                       Specification).

   BrandSelBrandInfoPackagedContent
                       This contains any additional data that
                       may be required by a particular payment
                       brand.  It forms the content of the Brand
                       Selection Brand Info Element.

   BrandSelProtocolAmountInfoPackagedContent
                       This contains any additional data that
                       may be required by a particular payment
                       brand in the format.  It forms the content
                       of the Brand Selection Protocol Amount
                       Info Element.

   BrandSelCurrencyAmountInfoPackagedContent
                       This contains any additional data that is
                       payment brand and currency specific in
                       the format.  It forms the content of the
                       Brand Selection Currency Amount Info
                       Element.

   MerchantData        Any merchant related data that might be
                       used by the IOTP Payment Bridge for
                       different purposes, e.g., it might
                       contain IDs to access some mall data,
                       but not cryptographic keys.  Its Packaged
                       declaration coincides with the Content's
                       declaration (cf. IOTP Specification).

   PackagedContent     Generic Container for non-IOTP data (cf.
                       IOTP Specification).

   PayProtocolPackagedContent
                       The Pay Protocol Packaged Content
                       originates from a Pay Protocol
                       Element's content whereby the outermost
                       element tags are prefixed with



Hans, et al.                 Informational                     [Page 58]


RFC 3867                  Payment API for IOTP             November 2004


                       "PayProtocol".  It contains information
                       about the protocol which is used by
                       the payment protocol.  The content of
                       this information is defined in the
                       supplement for a payment protocol.  Its
                       declaration coincides with the Packaged
                       Content's declaration (cf. IOTP
                       Specification).

   PaySchemePackagedContent
                       The PayScheme Packaged Content originates
                       from a Payment Scheme Component's content
                       whereby the outermost element tags are
                       prefixed with "PayScheme".  Its
                       declaration coincides with the Packaged
                       Content's declaration (cf. IOTP
                       Specification).  It carries the payment
                       specific data.  The content of this
                       information is defined in the supplement
                       for a payment protocol.

   ProtocolAmountPackagedContent
                       The Protocol Amount Packaged Content
                       originates from a Protocol Amount
                       Element's content whereby the outermost
                       element tags are prefixed with "Amount".
                       Its declaration coincides with the
                       Packaged Content's declaration (cf. IOTP
                       Specification).  It contains information
                       about the protocol which is used by the
                       payment protocol.  The content of this
                       information is defined in the supplement
                       for a payment protocol.

   ProtocolBrandPackagedContent
                       The Protocol Brand Packaged Content
                       originates from a Protocol Brand
                       Element's content whereby the outermost
                       element tags are prefixed with
                       "ProtocolBrand".  Its declaration
                       coincides with the Packaged Content's
                       declaration (cf. IOTP Specification).  It
                       contains information about the brand
                       which might be used by the payment
                       protocol.  The content of this information
                       is defined in the supplement for a
                       payment protocol.




Hans, et al.                 Informational                     [Page 59]


RFC 3867                  Payment API for IOTP             November 2004


   ResponsePackagedContent
                       Container for authentication response
                       data.  Its content originates from a
                       Authentication Response Component's
                       Packaged Content whose outermost element
                       tags are prefixed with "Response".  Its
                       declaration coincides with the Packaged
                       Content's declaration (cf. IOTP
                       Specification).

   TradingRoleDataPackagedContent
                       The TradingRoleData Packaged Content
                       originates from a TradingRoleData
                       Component's content whereby the outermost
                       element tags are prefixed with
                       "TradingRoleData".  Its declaration
                       coincides with the Packaged Content's
                       declaration (cf. IOTP Specification).  It
                       contains information from Merchant to
                       Payment Handler via Consumer about the
                       protocol which is used by the payment.
                       The content of this information is
                       defined in the supplement for a payment
                       protocol.  The Name attribute in this
                       packaged contents must include prefix as
                       "Payment:" to indicate that the payment
                       bridge processes this, for example
                       "Payment:SET-OD".  See [SET/IOTP] for
                       more information.

                       The element's declaration coincides with
                       the Packaged Content's declaration (cf.
                       IOTP Specification).

                             Table 4: Elements

   XML definition:

   <!ENTITY % AuthReqPackagedContent       "PackagedContent">
   <!ENTITY % AuthResPackagedContent       "PackagedContent">

   <!ENTITY % BrandPackagedContent         "PackagedContent">
   <!ENTITY % BrandSelInfoPackagedContent  "PackagedContent">
   <!ENTITY % BrandSelProtocolAmountPackagedContent
                                           "PackagedContent">
   <!ENTITY % BrandSelCurrencyAmountPackagedContent
                                           "PackagedContent">
   <!ENTITY % ProtocolAmountPackagedContent



Hans, et al.                 Informational                     [Page 60]


RFC 3867                  Payment API for IOTP             November 2004


                                           "PackagedContent">
   <!ENTITY % PayProtocolPackagedContent   "PackagedContent">
   <!ENTITY % TradingRoleDataPackagedContent "PackagedContent">
   <!ENTITY % MerchantData "PackagedContent">
   <!ENTITY % PaySchemePackagedContent     "PackagedContent">

3.3.  Process States

   The IOTP Payment API supports six different attribute values that
   encode the transaction status from the IOTP's point of view, i.e.,
   the appropriate point of view at the interface between the IOTP
   Application Core and IOTP Payment Bridge.  This point of view does
   not completely mimic the more detailed view on the actual payment by
   the actual Existing Payment Software or IOTP Payment Bridge.

   The following three tables distinguish between the Merchant's,
   Consumer's, and Payment Handlers' environment.  They extend the
   aforementioned explanations towards the mapping between IOTP process
   states and the internal payment scheme related states of the Existing
   Payment Software/IOTP Payment Bridge.

3.3.1.  Merchant

   The Merchant's point of view of payment is limited to the local
   payment initiation being interlaced with order processing because
   IOTP assigns the actual payment processing to the Payment Handler.

   ProcessState        Description
   ------------        -----------

   NotYetStarted       The Payment Transaction exists within the
                       IOTP Application Core, i.e., the
                       Merchant's shop has already signaled to
                       the IOTP Application Core that an IOTP
                       transaction has been initiated by the
                       Consumer.

                       However, neither any API call has been
                       issued to the IOTP Payment Bridge nor has
                       the IOTP Order Request has been created.

   InProgress          The IOTP Application changes the process
                       state to this value when it issues the
                       first API call to the Payment Bridge
                       during Brand List compilation.






Hans, et al.                 Informational                     [Page 61]


RFC 3867                  Payment API for IOTP             November 2004


                       This value indicates that the Payment
                       Bridge might have some knowledge about
                       the expected payment or might have
                       performed some preparatory tasks (even
                       with the Payment Handler out-of-band to
                       IOTP).

                       However, this value does not indicate
                       that any IOTP Order Request has been
                       created and transmitted to the Consumer.

   Suspended           The IOTP transaction has been suspended
                       before the order request block has been
                       transmitted to the Consumer.

                       Implicitly, the payment is also deferred.

   CompletedOk         The IOTP Order Request has been
                       successfully created and transmitted to
                       the Consumer.  Actually, this process
                       state indicates only that the order
                       processing has been finished.

                       But it contains no indication about the
                       status of the actual payment, which is
                       accepted by the Payment Handler.

                       However, successful order processing
                       signals the IOTP Application Core that a
                       payment with some specific parameters is
                       expected within the near future.  And this
                       signal might be used by the Existing
                       Payment Software for similar purposes.
                       This attribute might be interpreted as
                       successful preparation of the payment
                       system.

                       Particularly, it is expected that the
                       Existing Payment Software maps this IOTP
                       status value to some other internal
                       value, e.g., "NotYetStarted", that is more
                       accurate from its point of view.

                       As IOTP provides no communication channel
                       between the Merchant and Payment Handler,
                       any change of payment process state will





Hans, et al.                 Informational                     [Page 62]


RFC 3867                  Payment API for IOTP             November 2004


                       be initiated out-of-band to IOTP, e.g., by
                       electronic statements of account or
                       payment scheme specific mechanisms.

   Failed              The IOTP transaction, i.e., order
                       processing, has failed for some
                       (business) reason and it is known that no
                       payment will occur.

                       This indication might be used to clear
                       all data about this transaction within
                       the Existing Payment Bridge (by
                       "RemovePaymentLog" or
                       "ChangeProcessState") or to reverse any
                       preparation (with the Payment Handler
                       out-of-band to IOTP).

                       However, the ideal point of view of IOTP
                       suspects that the actual payment
                       transaction has been neither started nor
                       initiated.

   ProcessError        The IOTP transaction, i.e., order
                       processing, has failed for some
                       (technical) reason and it is known that
                       no payment will occur.

                       This indication might be used to clear
                       all data about this transaction within
                       the Existing Payment Bridge (by
                       "RemovePaymentLog" or
                       "ChangeProcessState") or to reverse any
                       preparation (with the Payment Handler
                       out-of-band to IOTP).

                       However, the ideal point of view of IOTP
                       suspects that the actual payment
                       transaction has been neither started nor
                       initiated.

                             Table 5: Merchant

3.3.2.  Consumer

   The Consumer's IOTP Application Core restricts its point of view to
   the payment transaction.  It is assumed that the IOTP Payment Bridge
   handles the preceding brand selection process in a stateless manner.




Hans, et al.                 Informational                     [Page 63]


RFC 3867                  Payment API for IOTP             November 2004


   ProcessState        Description
   ------------        -----------

   NotYetStarted       This encodes the initial process state of
                       any IOTP payment transaction.  This value
                       is set during brand selection but it
                       normally will not change during the whole brand
                       selection process.

   InProgress          With the issuance of the Start Payment
                       Consumer API call, the IOTP Application
                       Core changes the process state to this
                       value.

   Suspended           The payment transaction has been
                       suspended.  Suspension may occur anywhere
                       during brand selection (with the
                       Merchant) or payment processing (with the
                       Payment Handler).  On resumption, the IOTP
                       Application Core and the IOTP Payment
                       Bridge have to use other internal data to
                       decide whether brand selection or actual
                       payment processing needs to be continued,
                       i.e., whether the process state needs to
                       be reset to "NotYetStarted" or
                       "InProgress".

                       Note that the Payment API assumes
                       stateless brand selection by the IOTP
                       Payment Bridge.  Typically, any suspension
                       during brand selection requires the
                       repetition of the whole process.  Hereby,
                       the IOTP Application Core might need to
                       consider any already negotiated
                       conditions in a brand depended purchase
                       (brand, protocol).

   CompletedOk         The successful payment has been
                       acknowledged by the Payment Handler, i.e.,
                       the successful IOTP Payment Response has
                       been received.

                       Implicitly, this implies successful order
                       processing.







Hans, et al.                 Informational                     [Page 64]


RFC 3867                  Payment API for IOTP             November 2004


   Failed              The IOTP transaction, i.e., order or
                       payment processing, has failed for some
                       (business) reason.  In either case it is
                       known that the payment will not succeed.

   ProcessError        The IOTP transaction, i.e., order or
                       payment processing, has failed for some
                       (technical) reason.

                       However, the local process state might be
                       different from that of Payment Handler.

                             Table 6: Consumer

3.3.3.  Payment Handler

   The Payment Handler is responsible for the actual payment processing.
   New payment transactions are reported by the Consumer with the
   transmission of new IOTP Payment Request Blocks.  IOTP Payment
   Exchange Block are send by the Consumer for payment transaction
   continuation and resumption.

   ProcessState        Description
   ------------        -----------

   NotYetStarted       This encodes the initial process state of
                       any payment transaction.  Typically, this
                       value will last for a short amount of
                       time.

   InProgress          The IOTP Application Core changes the
                       process state changes to "InProgress"
                       when the Payment Handler starts with the
                       actual processing of the IOTP Payment
                       Request Block.

                       Note that this does not assume that the
                       "StartPaymentPaymentHandler" API function
                       has been called.

   Suspended           The payment transaction has been
                       suspended.

   CompletedOk         The payment has been processed,
                       successfully, i.e., the IOTP Payment
                       Response Block was created and
                       transmitted to the Consumer.




Hans, et al.                 Informational                     [Page 65]


RFC 3867                  Payment API for IOTP             November 2004


   Failed              The payment transaction, has finally
                       failed for some (business) reason.

                       Note that this value encodes the payment
                       state reported by the IOTP Payment Bridge
                       on "InquireProcessState".  It neither
                       reflects whether the payment receipt has
                       been inquired nor whether the IOTP
                       Payment Response Block has been created
                       and submitted to the Consumer.

   ProcessError        The payment transaction, has finally
                       failed for some (technical) reason.

                       Note that this value encodes the payment
                       state reported by the IOTP Payment
                       Bridge.  It does not reflect whether some
                       IOTP Error Block has been created and
                       submitted to the Consumer.

                             Table 7: Consumer

4.  Payment API Calls

4.1.  Brand Compilation Related API Calls

4.1.1.  Find Accepted Payment Brand

   This API function determines the payment brands being accepted by the
   Payment Handler on behalf of the Merchant.

   Input Parameters

   o  Payment Direction - provided by the IOTP Application Core
   o  Currency Code and Currency - provided by the IOTP Application
      Core
   o  Payment Amount - provided by the IOTP Application Core
   o  Merchant Payment Identifier - Merchant's unique private
      reference to the payment transaction
   o  Merchant Organisation Identifier - used for distinction between
      multiple merchants that share the some IOTP merchant system
   o  Wallet Identifier - managed by the IOTP Application Core
   o  Merchant Data - specific data used by the IOTP Payment Bridge
      which is managed in the IOTP Application Core.







Hans, et al.                 Informational                     [Page 66]


RFC 3867                  Payment API for IOTP             November 2004


   XML definition:

   <!ELEMENT FindAcceptedPaymentBrand (MerchantData*) >
   <!ATTLIST FindAcceptedPaymentBrand
     PayDirection  (Debit|Credit)  #REQUIRED
     CurrCodeType  NMTOKEN  'ISO4217-A'
     CurrCode  CDATA  #REQUIRED
     Amount  CDATA  #REQUIRED
     MerchantPayId  CDATA  #REQUIRED
     MerchantOrgId  CDATA  #IMPLIED
     WalletID  CDATA  #IMPLIED >

   Output Parameters

   o  Payment Brand Identifier - for insertion in the Brand List
      Component's Brand Element
   o  Payment Brand Name and language annotation - for insertion in
      the Brand List Component's Brand Element
   o  Payment Brand Logo Net Location - for insertion in the Brand
      List Component's Brand Element
   o  Payment Brand Narrative Description - for insertion in the
      Brand List Component's Brand Element
   o  (Brand) Packaged Content - further payment brand description
      for insertion in the Brand List Component's Brand Element

   The Existing Payment Software returns an empty list of brand items,
   if it does not support any payment brand/payment protocol combination
   for the given payment parameters.

   XML definition:

   <!ELEMENT FindAcceptedPaymentBrandResponse (BrandItem*) >
   <!ELEMENT BrandItem (BrandPackagedContent*) >
   <!ATTLIST BrandItem
     BrandId  CDATA  #REQUIRED
     xml:lang  NMTOKEN  #IMPLIED
     BrandName  CDATA  #REQUIRED
     BrandLogoNetLocn  CDATA  #REQUIRED
     BrandNarrative  CDATA  #IMPLIED >


   Tables 4 and 5 explain the attributes and elements; Table 3
   introduces the Error Codes.








Hans, et al.                 Informational                     [Page 67]


RFC 3867                  Payment API for IOTP             November 2004


4.1.2.  Find Accepted Payment Protocol

   This API function determines the instances of payment protocols (and
   optionally the payment brands) being accepted by the Payment Handler
   on behalf of the Merchant.  The function might be called in two
   variants:

   o  With the Brand Identifier set on the input parameter list: The
      function responds with the payment protocols that fits to the
      submitted brand.

   o  Without any Brand Identifier - that allows the omission of the
      "Find Accepted Payment Brand" API call (cf. Section 4.1.1): This
      function responds with both the supported brand identifiers and
      the payment protocols being specified by the Brand Elements.

   Input Parameters

   o  Brand Identifier - returned by "Find Accepted Payment Brand"
   o  Payment Direction
   o  Currency Code and Currency
   o  Payment Amount
   o  Merchant Payment Identifier - Merchant's unique private
      reference to the payment transaction
   o  Merchant Organisation Identifier - used for distinction between
      multiple merchants that share the some IOTP merchant system
   o  Wallet Identifier - managed by the IOTP Application Core
   o  (Brand) Packaged Content - further payment brand description;
      returned by "Find Accepted Payment Brand"; this elements are
      only provided if the Brand Identifier is set
   o  Merchant Data - specific data used by the IOTP Payment Bridge
      which is managed in the IOTP Application Core.

   XML definition:

   <!ELEMENT FindAcceptedPaymentProtocol (BrandPackagedContent*,
     MerchantData?) >
   <!ATTLIST FindAcceptedPaymentProtocol
     BrandId  CDATA  #IMPLIED
     PayDirection  (Debit|Credit)  #REQUIRED
     CurrCodeType  NMTOKEN  'ISO4217-A'
     CurrCode  CDATA  #REQUIRED
     Amount  CDATA  #REQUIRED
     MerchantPayId  CDATA  #REQUIRED
     MerchantOrgId  CDATA  #IMPLIED
     WalletID  CDATA  #IMPLIED >





Hans, et al.                 Informational                     [Page 68]


RFC 3867                  Payment API for IOTP             November 2004


   Output Parameters

   o  Payment Protocol Identifier - for insertion in the Brand List
      Component's Pay Protocol Element
   o  Protocol Brand Identifier - for insertion in the Protocol Brand
      Element of the Brand List Component's Brand Element
   o  Payment Protocol Name and language annotation- for insertion in
      the Brand List Component's Pay Protocol Element
   o  Payment Request Net Location - for insertion in the Brand List
      Component's Pay Protocol Element
   o  Secured Payment Request Net Location - for insertion in the
      Brand List Component's Pay Protocol Element
   o  Brand Item List (cf. Section 4.1.1) - there must be at least
      one element if no brand identifier has been provided on the
      input parameter list.
   o  (Protocol Amount) Packaged Content - for insertion in the Brand
      List Component's Protocol Amount Element
   o  (Pay Protocol) Packaged Content - for insertion in the Brand
      List Component's Pay Protocol Element
   o  Currency Amount element - quite similar to the definition in
      [IOTP], that contain
      - refined Currency Code and Currency - for insertion in the
        Brand List Component's Currency Amount Element
      - refined Payment Amount - for insertion in the Brand List
      Component's Currency Amount Element
   o  Brand - there must be at least one element in each Protocol
      Item if no brand identifier has been provided on the input
      parameter list.

   XML definition:

   <!ELEMENT FindAcceptedPaymentProtocolResponse (ProtocolItem+,
     BrandItem*) >
   <!ELEMENT ProtocolItem (ProtocolAmountPackagedContent*,
     PayProtocolPackagedContent*
     CurrencyAmount+, Brand*,ProtocolBrand*)>
   <!ATTLIST ProtocolItem
     ProtocolId  CDATA  #REQUIRED
     ProtocolBrandId  CDATA  #IMPLIED
     xml:lang  NMTOKEN  #IMPLIED
     ProtocolName  CDATA  #REQUIRED
     PayReqNetLocn  CDATA  #IMPLIED
     SecPayReqNetLocn  CDATA  #IMPLIED >

   <!ELEMENT Brand EMPTY >
   <!ATTLIST Brand
     BrandId  CDATA  #REQUIRED >




Hans, et al.                 Informational                     [Page 69]


RFC 3867                  Payment API for IOTP             November 2004


   <!ELEMENT CurrencyAmount EMPTY >
   <!ATTLIST CurrencyAmount
     CurrCodeType  NMTOKEN  'ISO4217-A'
     CurrCode  CDATA  #IMPLIED
     Amount  CDATA  #IMPLIED >

   Tables 4 and 5 explain the attributes and elements; Table 3
   introduces the Error Codes.

4.1.3.  Get Payment Initialization Data

   This API function provides the remaining initialization data being
   required by the Consumer's or Payment Handler's Existing Payment
   Software.  This function might be called both for "brand dependent"
   and "brand independent" transaction types.  In either case, this
   function is called with one particular brand.

   Input Parameters

   o  Brand Identifier - returned by "Find Accepted Payment Brand"
   o  Merchant Payment Identifier - Merchant's unique private
      reference to the payment transaction
   o  Payment Direction
   o  Currency Code and Currency - from the Brand List Component's
      Currency Amount Element
   o  Payment Amount - from the Brand List Component's Currency
      Amount Element
   o  Payment Protocol Identifier - from the Brand List Component's
      Pay Protocol Element
   o  Protocol Brand Identifier - from the Protocol Brand Element
      which relates to the selected Brand Element, if any
   o  (TradingRoleData) Receiver Organization Identifier
   o  OkFrom, OkTo - identical to the entries of the Order Component

   Merchant Payment Identifier

   o  Merchant Organisation Identifier - used for distinction between
      multiple merchants that share the some IOTP merchant system
   o  Wallet Identifier and/or Pass Phrase

   Protocol Brand Element

   o  (Brand) Packaged Content - further payment brand description,
      from the Brand List Component's Brand Element
   o  (Protocol Amount) Packaged Content - further payment protocol
      description, from the Brand List Component's Protocol Amount
      Element




Hans, et al.                 Informational                     [Page 70]


RFC 3867                  Payment API for IOTP             November 2004


   o  (Pay Protocol) Packaged Content - further payment protocol
      description, from the Brand List Component's Pay Protocol
      Element
   o  (Protocol Brand) Packaged Content - further brand information,
      from the Protocol Brand Element of the Brand List Component
      which relates to the selected Brand Element, if any
   o  (Order) Packaged Content - further order description, from the
      Order Element
   o  three Brand Selection Info Packaged Content elements - copied
      from the Brand Selection Component on brand dependent purchases
   o  Brand - additional data about the payment brand
   o  Protocol Amount - additional data about the payment protocol
   o  Currency Amount - additional payment brand and currency
      specific data
   o  Merchant Data - specific data used by the IOTP Payment Bridge
      which is managed in the IOTP Application Core.

   XML definition:

   <!ELEMENT GetPaymentInitializationData (ProtocolBrand?
     BrandPackagedContent*
     ProtocolAmountPackagedContent*,
     PayProtocolPackagedContent*,
     OrderPackagedContent*,
     BrandSelBrandInfoPackagedContent*,
     BrandSelProtocolAmountInfoPackagedContent*,
     BrandSelCurrencyAmountInfoPackagedContent*,
     MerchantData*) >
   <!ATTLIST GetPaymentInitializationData
     BrandId  CDATA  #REQUIRED
     MerchantPayId  CDATA  #REQUIRED
     PayDirection  (Debit|Credit)  #REQUIRED
     CurrCodeType  NMTOKEN  'ISO4217-A'
     CurrCode  CDATA  #REQUIRED
     Amount  CDATA  #REQUIRED
     ProtocolId  CDATA  #REQUIRED
     OkFrom  CDATA  #REQUIRED
     OkTo  CDATA  #REQUIRED
     ReceiverOrgId  CDATA  #IMPLIED
     MerchantOrgId  CDATA  #IMPLIED
     WalletID  CDATA  #IMPLIED
     Passphrase  CDATA  #IMPLIED >









Hans, et al.                 Informational                     [Page 71]


RFC 3867                  Payment API for IOTP             November 2004


   Output Parameters

   o  OkFrom, OkTo - for insertion in the Payment Component
   o  (TradingRoleData) Packaged Content - further payment protocol
      description; the Name Attribute of the packaged Content
      element must include "Payment:" as the prefix,
      for example "Payment:SET-OD".  For more information, see
      [SET/IOTP].
   o  (Order) Packaged Content - defaults to the supplied order
      packaged content if omitted.

   XML definition:

   <!ELEMENT GetPaymentInitializationDataResponse
   (OrderPackagedContent*,
   TradingRoleDataPackagedContent*) >
   <!ATTLIST GetPaymentInitializationDataResponse
     OkFrom  CDATA  #IMPLIED
     OkTo  CDATA  #IMPLIED>

   Tables 4 and 5 explain the attributes and elements; Table 3
   introduces the Error Codes.

4.1.4.  Inquire Authentication Challenge

   This API function inquires any payment protocol specific
   authentication challenge value from the IOTP Payment Bridge.  In
   Baseline IOTP this API function is called by the Merchant (or
   Financial Institution).  The IOTP Application Core may propose a
   choice of algorithms to the IOTP Payment Bridge.  However, the IOTP
   Payment Bridge may ignore the proposal and select some other
   algorithm.

   The inquiry is assumed to be stateless.  E.g., the IOTP Application
   Core may check the returned algorithm and stop transaction processing
   without notifying the IOTP Payment Bridge.

   The IOTP Application Core may issue several API calls to the IOTP
   Payment Bridge to build up the IOTP Authentication Request Block.
   Any subsequently submitted choice of algorithms should be constrained
   by the accepted algorithms from earlier API responses.

   The IOTP Payment Bridge responds with the Business Error Code if it
   does not provide any (more) authentication algorithms and challenges.







Hans, et al.                 Informational                     [Page 72]


RFC 3867                  Payment API for IOTP             November 2004


   Input Parameters

   o  Authentication Identifier - the authenticator may provide its
      payment identifier, i.e., Payment Handler or Merchant Payment
      Identifier.
   o  Wallet Identifier and/or Pass Phrase
   o  set of pre-selected algorithms for authentication

   XML definition:

   <!ELEMENT InquireAuthChallenge (Algorithm*) >
   <!ATTLIST InquireAuthChallenge
     AuthenticationId  CDATA  #REQUIRED
     WalletID  CDATA  #IMPLIED
     Passphrase  CDATA  #IMPLIED >

   Output Parameters

   o  list of Authentication Challenge Packaged Contents - for
      insertion into the IOTP Authentication Request Component
   o  Algorithm Element - for insertion into the IOTP Authentication
      Request Component

   XML definition:

   <!ELEMENT InquireAuthChallengeResponse (AuthReqPackagedContent*,
     Algorithm) >

4.1.5.  Authenticate

   The Consumer's IOTP Application Core defers payment protocol specific
   authentication processing and the current challenge value to the
   active IOTP Payment Bridge.  Alternative authentication algorithms
   might be tried sequentially or offered to the user for selection.

   Note that the IOTP Application Core has to consider both the current
   context and the algorithm in order to determine the responsible IOTP
   Payment Bridge.

   Failed authentication is reported by the Business Error Code which
   might trigger the inquiry of the details ("Inquire Process State").
   Final failures might be encoded by the process state "Failed".









Hans, et al.                 Informational                     [Page 73]


RFC 3867                  Payment API for IOTP             November 2004


   Input Parameters

   o  Authentication Identifier
   o  Wallet Identifier and/or Pass Phrase
   o  Authentication Challenge Packaged Content - copied from the
      IOTP Authentication Request Component
   o  Algorithm Element - copied from the IOTP Authentication Request
      Component

   XML definition:

   <!ELEMENT Authenticate (Algorithm, AuthReqPackagedContent*) >
   <!ATTLIST Authenticate
     AuthenticationId  CDATA  #REQUIRED
     WalletID  CDATA  #IMPLIED
     Passphrase  CDATA  #IMPLIED >

   Output Parameters

   o  Authentication Response Packaged Content - for insertion into
      the IOTP Authentication Response Component

   XML definition:

   <!ELEMENT AuthenticateResponse (AuthResPackagedContent*) >

   Tables 4 and 5 explain the attributes and elements; Table 3
   introduces the Error Codes.

4.1.6.  Check Authentication Response

   This API function verifies the Consumer's payment protocol specific
   authentication response.  In Baseline IOTP this API function is
   called by the Merchant (or the Financial Institution).  It is called
   only if the counter party has responded with an IOTP Authentication
   Response Component within the Authentication Response Block.  Of
   course, the IOTP Application Core traces the need of such an
   response.

   Due to the authentication's statelessness, all parameters (algorithm,
   challenge and response) are submitted to the IOTP Payment Bridge.
   Authentication failure is reported by a Process State different from
   "CompletedOK".








Hans, et al.                 Informational                     [Page 74]


RFC 3867                  Payment API for IOTP             November 2004


   Input Parameters

   o  Authentication Identifier
   o  Wallet Identifier and/or Pass Phrase
   o  Authentication Challenge Packaged Content - generated by
      previous "Inquire Authentication Challenge" API call
   o  Algorithm Element
   o  Authentication Response Packaged Content - copied from the
      Authentication Response Component

   XML definition:

   <!ELEMENT CheckAuthResponse (Algorithm, AuthReqPackagedContent*,
     AuthResPackagedContent*) >
   <!ATTLIST CheckAuthResponse
     AuthenticationId  CDATA  #REQUIRED
     WalletID  CDATA  #IMPLIED
     Passphrase  CDATA  #IMPLIED >

   Output Parameters

   o  Current Process (Authentication) State
   o  Completion Code
   o  Status Description and its language annotation

   XML definition:

   <!ELEMENT CheckAuthResponseResponse EMPTY >
   <!ATTLIST CheckAuthResponseResponse
     ProcessState  (NotYetStarted |
      InProgress |
      Suspended |
      CompletedOk |
      Failed |
      ProcessError)#REQUIRED
     CompletionCode  NMTOKEN  #IMPLIED
      xml:lang  NMTOKEN  #IMPLIED
      StatusDesc  CDATA  #IMPLIED >

   Tables 4 and 5 explain the attributes and elements; Table 3
   introduces the Error Codes.










Hans, et al.                 Informational                     [Page 75]


RFC 3867                  Payment API for IOTP             November 2004


4.2.  Brand Selection Related API Calls

4.2.1.  Find Payment Instrument

   This API function determines which instances of a Payment Brand,
   e.g., two Mondex cards, are present.  The same physical card may even
   represent multiple payment instruments.

   The IOTP Application Core supplies possible payment brand and payment
   protocol to the IOTP Payment Bridge that has to be considered when
   the IOTP Payment Bridge searches for appropriate payment instruments.
   This set represents the (sub)set of payment alternatives being
   supported by the Merchant.  If the IOTP Application Cote has multiple
   possible payment brand/protocol, it can call this function in turn.

   The Existing Payment Software responds with PayInstrument Elements
   with empty PayInstId attributes if it does not distinguish between
   different payment instruments for the particular payment
   alternatives.

   Note that the Payment API assumes that the values of the attributes
   BrandId, ProtocolId, ProtocolBrandId and the currency amount suffice
   for the determination of the appropriate Packaged Content Element
   that will be transmitted to the Payment Handler later on.

   Input Parameters

   o  Brand Identifier - copied from the Brand List Component's Brand
      Element
   o  Payment Protocol Identifier and associated Protocol Brand
      Identifier
   o  Payment Direction - copied from the Brand List Component
   o  Currency Code and Currency - copied from the Currency Amount
      Element
   o  Payment Amount - copied from the Currency Amount Element
   o  Consumer Payment Identifier - Consumer's unique reference to
      the current payment transaction
   o  Wallet Identifier - managed by the IOTP Application Core
   o  (Brand) Packaged Content - further payment brand description;
      copied from the Brand List Component's Brand Element
   o  (Protocol Brand) Element - further information; copied from the
      Protocol Brand Element of the Brand List Component which
      relates to the Consumer selected Brand Element, if any.
   o  (Protocol Amount) Packaged Content - further payment protocol
      description, copied from the Brand List Component's Protocol
      Amount Element





Hans, et al.                 Informational                     [Page 76]


RFC 3867                  Payment API for IOTP             November 2004


   o  Element (Protocol) Packaged Content - further payment protocol
      description, copied from the Brand List Component's Pay
      Protocol Element

   XML definition:

   <!ELEMENT FindPaymentInstrument (BrandPackagedContent*,
     ProtocolBrand?,
     PayProtocolPackagedContent*,
     ProtocolAmountPackagedContent*) >
   <!ATTLIST FindPaymentInstrument
     BrandId  CDATA  #REQUIRED
     ProtocolId  CDATA  #REQUIRED
     PayDirection  (Debit|Credit)  #REQUIRED
     CurrCodeType  NMTOKEN  'ISO4217-A'
     CurrCode  CDATA  #REQUIRED
     Amount  CDATA  #REQUIRED
     ConsumerPayId  CDATA  #REQUIRED
     WalletID  CDATA  #IMPLIED >

   Output Parameters

   o  The known Payment Instrument Identifiers, these are internal
      values
   o  The user-defined names of the payment instrument and their
      language encoding

      The Existing Payment Software responds with an empty list of
      identifiers, either if it does not distinguish between different
      payment instruments or if there are no registered payment
      instruments available despite brand support for at least one
      (unspecified) payment protocol.  In the latter case, the IOTP
      Payment Bridge has to request the registration of a suitable
      payment instrument at a subsequent step of the payment process.

   XML definition:

   <!ELEMENT FindPaymentInstrumentResponse (PayInstrument*) >
   <!ELEMENT PayInstrument EMPTY >
   <!ATTLIST PayInstrument
     Id  CDATA  #REQUIRED
     xml:lang  NMTOKEN  #IMPLIED
     PayInstName  CDATA  #REQUIRED >

   Tables 4 and 5 explain the attributes and elements; Table 3
   introduces the Error Codes.





Hans, et al.                 Informational                     [Page 77]


RFC 3867                  Payment API for IOTP             November 2004


4.2.2.  Check Payment Possibility

   This API function checks whether a payment (both debit and credit)
   can go ahead.  It can be used, for example, to check

   o  if there are sufficient funds available in a particular currency
      for an electronic cash payment brand,
   o  whether there is sufficient value space left on the payment
      instrument for payment refund,
   o  whether required system resources are available and properly
      configured, e.g., serial ports or baud rate,
   o  whether environment requirements are fulfilled, e.g., chip card
      reader presence or Internet connection.

   If the payment method is based on external components, e.g., magnetic
   stripe or chip cards, and the check accesses the medium, the existing
   payment method should not mutually exclusive lock system resources,
   e.g., serial port or modem, that may also be required by other
   Existing Payment Software, e.g., multiple payment software components
   may share the same card reader.  If this happens for API internal
   request processing, the function has to unlock these components prior
   to return.  Otherwise, the payment may not proceed if the Consumer
   cancels immediately and decides to use another payment instrument.
   In this event the previous IOTP Payment Bridge is not notified about
   the change.

   This function call happens immediately after the Consumer's payment
   instrument selection.  For example, if the payment instrument is a
   chip card, that is not inserted in the chip card reader, the Consumer
   may be prompted for its insertion.  However, the Consumer should be
   able to hit some 'skip' button, if the payment check is part of the
   actual payment protocol, too.  Finally, the IOTP Payment Bridge may
   provide only a subset of these capabilities or may even directly
   generate a successful response without any checks.

   Input Parameters

   o  Brand Identifier - user selection
   o  Payment Instrument Identifier - user selection
   o  Currency Code and Currency Code Type - copied from the selected
      Currency Amount Element
   o  Payment Amount - copied from the selected Currency Amount Element
   o  Payment Direction - copied from the selected Trading Protocol
      Option Block
   o  Protocol Identifier - copied from the selected Pay Protocol
      Element





Hans, et al.                 Informational                     [Page 78]


RFC 3867                  Payment API for IOTP             November 2004


   o  Protocol Brand Identifier - copied from the selected Protocol
      Brand Element of the Brand List Component which relates to the
      selected Brand Element, if any
   o  Consumer Payment Identifier - Consumer's unique reference to the
      current payment transaction
   o  Wallet Identifier and/or Pass Phrase
   o  (Brand) Packaged Content - copied from the selected Brand Element
   o  (Protocol Amount) Packaged Content - copied from the selected
      Protocol Amount Element
   o  (Protocol) Packaged Content - copied from the selected Pay
      Protocol Element
   o  (Protocol Brand) Packaged Content - copied from the selected
      Protocol Brand Element of the Brand List Component which relates
      to the selected Brand Element, if any

   XML definition:

   <!ELEMENT CheckPaymentPossibility (BrandPackagedContent*,
     ProtocolBrand?
     ProtocolAmountPackagedContent*,
     PayProtocolPackagedContent*>
   <!ATTLIST CheckPaymentPossibility
     BrandId  CDATA  #REQUIRED
     PaymentInstrumentId  CDATA  #IMPLIED
     PayDirection  (Debit|Credit)  #REQUIRED
     CurrCodeType  NMTOKEN  'ISO4217-A'
     CurrCode  CDATA  #REQUIRED
     Amount  CDATA  #REQUIRED
     ProtocolId  CDATA  #REQUIRED
     ConsumerPayId  CDATA  #REQUIRED
     WalletID  CDATA  #IMPLIED
     Passphrase  CDATA  #IMPLIED >

   Output Parameters

   o  three Brand Selection Info Packaged Content elements - for
      insertion into the Brand Selection component
   o  Brand - additional data about the payment brand
   o  Protocol Amount - additional data about the payment protocol
   o  Currency Amount - additional payment brand and currency specific
      data










Hans, et al.                 Informational                     [Page 79]


RFC 3867                  Payment API for IOTP             November 2004


   XML definition:

   <!ELEMENT CheckPaymentPossibilityResponse
     (BrandSelBrandInfoPackagedContent*,
     BrandSelProtocolAmountInfoPackagedContent*,
     BrandSelCurrencyAmountInfoPackagedContent*) >
   <!ATTLIST CheckPaymentPossibilityResponse >

   Tables 4 and 5 explain the attributes and elements; Table 3
   introduces the Error Codes.

4.3.  Payment Transaction Related API calls

   These Payment API calls may be made either by the Consumer's or
   Payment Handler's IOTP Application Core.

4.3.1.  Start Payment Consumer

   This API function initiates the actual payment transaction at the
   Consumer side.  The IOTP Payment Bridge and the Existing Payment
   Software perform all necessary initialization and preparation for
   payment transaction processing.  This includes the reservation of
   external periphery.  E.g., 1) the Consumer's chip card reader needs
   to be protected against access from other software components, 2) the
   insertion of the chip card may be requested, 3) the Internet
   connection may be re-established, or 4) the Payment Handler may open
   a mutual exclusive session to the security hardware.

   The IOTP Payment Bridge monitors the payment progress and stores the
   current payment states such that resumption - even after power
   failures - remains possible.  Note that the IOTP Application Core
   supplies only a subset of the following input parameter to the
   associated resumption API function and refers to the payment
   transaction through the party's payment identifier.

   Input Parameters

   o  Brand Identifier - copied from the selected Brand Element
   o  Payment Instrument Identifier - the user selection
   o  Currency Code and Currency - copied from the selected Currency
      Amount Element
   o  Payment Amount - copied from the selected Currency Amount
      Element
   o  Payment Direction - copied from the Brand List Component
   o  Protocol Identifier - copied from the selected Payment Protocol
      Element





Hans, et al.                 Informational                     [Page 80]


RFC 3867                  Payment API for IOTP             November 2004


   o  Protocol Brand Element - further information; copied from the
      Protocol Brand Element of the Brand List Component which
      relates to the selected Brand Element, if any
   o  OkFrom, OkTo - copied from the Payment Component
   o  Consumer Payment Identifier - Consumer's unique reference to
      the current payment transaction
   o  Wallet Identifier and/or Pass Phrase
   o  Call Back Function - used for end user notification/logging
      purposes
   o  Call Back Language List.  This list is required if the Call Back
      Function is set
   o  (Brand) Packaged Content - further payment brand description;
      copied from the selected Brand Element's content
   o  (Protocol Amount) Packaged Content - further payment protocol
      description; copied from the selected Protocol Amount Element's
      content
   o  (Payment Protocol) Packaged Content - further payment protocol
      description; copied from the selected Pay Protocol Element's
      content
   o  (Order) Packaged Content - further order description, copied
      from the Order Component

   XML definition:

   <!ELEMENT StartPaymentConsumer (BrandPackagedContent*,
     ProtocolBrand?
     ProtocolAmountPackagedContent*,
     PayProtocolPackagedContent*,
     OrderPackagedContent*) >
   <!ATTLIST StartPaymentConsumer
     BrandId  CDATA  #REQUIRED
     PaymentInstrumentId  CDATA  #IMPLIED
     CurrCodeType  NMTOKEN  'ISO4217-A'
     CurrCode  CDATA  #REQUIRED
     Amount  CDATA  #REQUIRED
     PayDirection  (Debit|Credit)  #REQUIRED
     ProtocolId  CDATA  #REQUIRED
     ProtocolBrandId  CDATA  #IMPLIED
     OkFrom  CDATA  #REQUIRED
     OkTo  CDATA  #REQUIRED
     ConsumerPayId  CDATA  #REQUIRED
     WalletID  CDATA  #IMPLIED
     Passphrase  CDATA  #IMPLIED
     CallBackFunction  CDATA  #IMPLIED
     CallBackLanguageList  NMTOKENS  #IMPLIED >






Hans, et al.                 Informational                     [Page 81]


RFC 3867                  Payment API for IOTP             November 2004


   Output Parameters

   o  Continuation Status
   o  (Payment Scheme) Packaged Content - for insertion into the
      Payment Scheme Component of the IOTP Payment Request Block

   The IOTP Application Core is allowed to reissue this request several
   times on failed analyses of the response.

   XML definition:

   <!ELEMENT StartPaymentConsumerResponse
     (PaySchemePackagedContent*) >
   <!ATTLIST StartPaymentConsumerResponse
     ContStatus  (End|Continue)  #REQUIRED >

   Tables 4 and 5 explain the attributes and elements; Table 3
   introduces the Error Codes.

4.3.2.  Start Payment Payment Handler

   This API function initializes the Consumer initiated payment
   transaction at the Payment Handler's side.  Similar to the Consumer's
   system, the IOTP Payment Bridge and the Existing Payment Software
   perform all necessary initialization and preparation for payment
   transaction processing.

   Input Parameters

   o  Brand Identifier  - copied from the Consumer selected Brand
      Element
   o  Consumer Payment Identifier - copied from the Payment Scheme
      Component
   o  Currency Code and Currency - copied from the Consumer selected
      Currency Amount Element
   o  Payment Amount - copied from the Consumer selected Currency
      Amount Element
   o  Payment Direction - copied from the Brand List Component
   o  Protocol Identifier  - copied from the Consumer selected
      Payment Protocol Element
   o  Protocol Brand Identifier - copied from the Brand Protocol
      Element of the Brand List Component which relates to the
      Consumer selected Brand Element, if any
   o  OkFrom, OkTo - copied from the Payment Component
   o  Payment Handler Payment Identifier - Payment Handler's unique
      reference to the current payment transaction
   o  Merchant Organisation Identifier -  copied from the Merchant's
      Organisation Element



Hans, et al.                 Informational                     [Page 82]


RFC 3867                  Payment API for IOTP             November 2004


   o  Wallet Identifier - renaming to till identifier neglected -
      and/or Pass Phrase
   o  Call Back Function - used for end user notification/logging
      purposes
   o  Call Back Language List.  This list is required if the call
      back function is set
   o  (Brand) Packaged Content - further payment brand description;
      copied from the Consumer selected Brand Element's content
   o  (Protocol Brand) Packaged Content - further information; copied
      from the Protocol Brand Element of the Brand List Component
      which relates to the Consumer selected Brand Element, if any.
   o  (Protocol Amount) Packaged Content - further payment protocol
      description; copied from the Consumer selected Protocol Amount
      Element's content
   o  (Protocol) Packaged Content - further payment protocol
      description; copied from the Consumer selected Pay Protocol
      Element's content
   o  (TradingRoleData) Packaged Content - further payment protocol
      description; the Name Attribute of the packaged contents must
      include "Payment:" as the prefix, for example "Payment:SET-OD".
      For more information, see [SET/IOTP].
   o  Three Brand Selection Info Packaged Content Elements - copied
      from the Brand Selection Component
   o  Brand - additional data about the payment brand
   o  Protocol Amount - additional data about the payment protocol
   o  Currency Amount - additional payment brand and currency
      specific data
   o  (Payment Scheme) Packaged Content.

   XML definition:

   <!ELEMENT StartPaymentPaymentHandler (BrandPackagedContent*,
     ProtocolBrand?,
     ProtocolAmountPackagedContent*,
     PayProtocolPackagedContent*,
     BrandSelBrandInfoPackagedContent*,
     BrandSelProtocolAmountInfoPackagedContent*,
     BrandSelCurrencyAmountInfoPackagedContent*,
     TradingRoleDataPackagedContent*,
     PaySchemePackagedContent*) >
   <!ATTLIST StartPaymentPaymentHandler
     BrandId  CDATA  #REQUIRED
     ConsumerPayId  CDATA  #IMPLIED
     CurrCodeType  NMTOKEN  'ISO4217-A'
     CurrCode  CDATA  #REQUIRED
     Amount  CDATA  #REQUIRED
     PayDirection  (Debit|Credit)  #REQUIRED
     ProtocolId  CDATA  #REQUIRED



Hans, et al.                 Informational                     [Page 83]


RFC 3867                  Payment API for IOTP             November 2004


     OkFrom  CDATA  #REQUIRED
     OkTo  CDATA  #REQUIRED
     PaymentHandlerPayId  CDATA  #REQUIRED
     MerchantOrgId  CDATA  #REQUIRED
     WalletID  CDATA  #IMPLIED
     Passphrase  CDATA  #IMPLIED
     CallBackFunction  CDATA  #IMPLIED
     CallBackLanguageList  NMTOKENS  #IMPLIED >

   Output Parameters

   o  Continuation Status
   o  (Payment Scheme) Packaged Content - for insertion into the
      Payment Scheme Component of the IOTP Payment Exchange Block

   The response message must contain payment schema data if the
   continuation status signals "Continue".  The IOTP Application Core is
   allowed to reissue this request several times on failed analyses of
   the response.

   XML definition:

   <!ELEMENT StartPaymentPaymentHandlerResponse
     (PaySchemePackagedContent*) >
   <!ATTLIST StartPaymentPaymentHandlerResponse
     ContStatus  (End|Continue)  #REQUIRED >

   Tables 4 and 5 explain the attributes and elements; Table 3
   introduces the Error Codes.

4.3.3.  Resume Payment Consumer

   This API function resumes a previously suspended payment at the
   Consumer side.  Resumption includes the internal inquiry of the
   payment transaction data, e.g., payment amount, protocol identifier,
   and the whole initialization as it has been applied on the "Start
   Payment Consumer" API request.

   It is up to the IOTP Application Core to decide whether an IOTP
   Payment Request Block or a IOTP Payment Exchange Block needs to be
   generated.  One indicator might be the receipt of a previous IOTP
   Payment Exchange Block from the Payment Handler, e.g., the knowledge
   of the Payment Handler Payment Identifier.

   Input Parameters

   o  Consumer Payment Identifier
   o  Wallet Identifier and/or Pass Phrase



Hans, et al.                 Informational                     [Page 84]


RFC 3867                  Payment API for IOTP             November 2004


   o  Call Back Function - used for end user notification/logging
      purposes

   XML definition:

   <!ELEMENT ResumePaymentConsumer EMPTY >
   <!ATTLIST ResumePaymentConsumer
     ConsumerPayId  CDATA  #REQUIRED
     WalletID  CDATA  #IMPLIED
     Passphrase  CDATA  #IMPLIED
     CallBackFunction  CDATA  #IMPLIED
     CallBackLanguageList  NMTOKENS  #IMPLIED >

   Output Parameters

   o  Continuation Status
   o  (Payment Scheme) Packaged Content - for insertion in the
      Payment Scheme Component of the next IOTP message (Payment
      Exchange or Request Block).

   The IOTP Application Core is allowed to reissue this request several
   times on failed analyses of the response.  However, the IOTP Payment
   Bridge might reject the resumption request by using the "AttNotSupp"
   Error Code "naming" the Consumer Payment Identifier attribute.  Then
   the Consumer has to apply normal error processing to the current
   (sub-)transaction and to issue a new Payment Request Block to the
   Payment Handler.

   XML definition:

   <!ELEMENT ResumePaymentConsumerResponse
     (PaySchemePackagedContent*) >
   <!ATTLIST ResumePaymentConsumerResponse
     ContStatus  (End|Continue)  #REQUIRED >

   Tables 4 and 5 explain the attributes and elements; Table 3
   introduces the Error Codes.

4.3.4.  Resume Payment Payment Handler

   This API function resumes a payment at the Payment Handler side.

   Input Parameters

   o  Payment Handler Payment Identifier
   o  Wallet Identifier - renaming to till identifier neglected - and
      Pass Phrase




Hans, et al.                 Informational                     [Page 85]


RFC 3867                  Payment API for IOTP             November 2004


   o  Call Back Function - used for end user notification/logging
      purposes
   o  Call Back Language List.  This list is required if the Call Back
      Function is set
   o  (Payment Scheme) Packaged Content - copied from the Payment
      Scheme Component of the received IOTP message (Payment Exchange
      or Request Block).

   XML definition:

   <!ELEMENT ResumePaymentPaymentHandler
     (PaySchemePackagedContent*) >
   <!ATTLIST ResumePaymentPaymentHandler
     PaymentHandlerPayId  CDATA  #REQUIRED
     WalletID  CDATA  #IMPLIED
     Passphrase  CDATA  #IMPLIED
     CallBackFunction  CDATA  #IMPLIED
     CallBackLanguageList  NMTOKENS  #IMPLIED >

   Output Parameters

   o  Continuation Status
   o  (Payment Scheme) Packaged Content - for insertion in the
      Payment Scheme Component of the next Payment Exchange Block.

   The response message contains payment schema specific data if the
   continuation status signals "Continue".  The IOTP Application Core is
   allowed to reissue this request several times on failed analyses of
   the response.

   XML definition:

   <!ELEMENT ResumePaymentPaymentHandlerResponse
   (PaySchemePackagedContent*) >
   <!ATTLIST ResumePaymentPaymentHandlerResponse
     ContStatus  (End|Continue)  #REQUIRED >

   Tables 4 and 5 explain the attributes and elements; Table 3
   introduces the Error Codes.

4.3.5.  Continue Process

   This API function passes one specific IOTP Payment Scheme Component,
   i.e., the encapsulated Packaged Content elements, received from the
   counter party (e.g., Consumer) to the IOTP Payment Bridge and
   responds with the next IOTP Payment Scheme Component for submission
   to the counter party.




Hans, et al.                 Informational                     [Page 86]


RFC 3867                  Payment API for IOTP             November 2004


   Input Parameters

   o  Payty's Payment Identifier
   o  Process (Transaction) Type which distinguishes between Payments
      and Inquiries.
   o  Wallet Identifier and/or Pass Phrase
   o  (Payment Scheme) Packaged Content - copied from the Payment
      Scheme Component of the received Payment Exchange Block or from
      the Error Block.

   Each party should set the payment identifier with the local
   identifier (Consumer: ConsumerPayId; Merchant: MerchantPayId; Payment
   Handler: PaymentHandlerPayId).

   XML definition:

   <!ELEMENT ContinueProcess (PaySchemePackagedContent+) >
   <!ATTLIST ContinueProcess
     PayId  CDATA  #REQUIRED
     ProcessType  (Payment | Inquiry) 'Payment'
     WalletID  CDATA  #IMPLIED
     Passphrase  CDATA  #IMPLIED >

   Output Parameters

   o  Continuation Status
   o  (Payment Scheme) Packaged Content - for insertion in the
      Payment Scheme Component of the next Payment Exchange Block or
      final Payment Response Block

   The response message contains payment schema data if the continuation
   status signals "Continue".  The IOTP Payment Bridge must signal
   "End", if the payment scheme data was received within an IOTP Error
   Block containing an Error Component with severity HardError.

   XML definition:

   <!ELEMENT ContinueProcessResponse (PaySchemePackagedContent*) >
   <!ATTLIST ContinueProcessResponse
     ContStatus  (End|Continue)  #REQUIRED >

   Tables 4 and 5 explain the attributes and elements; Table 3
   introduces the Error Codes.








Hans, et al.                 Informational                     [Page 87]


RFC 3867                  Payment API for IOTP             November 2004


4.3.6.  Change Process State

   The IOTP Application Core changes the current payment status by this
   request.  The IOTP Payment Bridge may be notified about business
   level normal termination, cancellation, suspension, and processing
   errors.  Notification happens by requesting the intended process
   state.

   The IOTP Payment Bridge processes the status change and reports the
   result.

   The IOTP Application Core has to analyze any returned process status
   in order to check whether the IOTP Payment Bridge has agreed to or
   declined the status switch.  E.g., the submitted Process State
   "CompleteOk" may lead to the Payment Status "Failed" if the payment
   transaction has already failed.

   Transaction Suspension is notified by the newly introduced Process
   State "Suspended".  The other attribute values have been taken from
   the IOTP specification.

   This API function might be called by the Consumer, Merchant, or
   Payment Handler for each payment transaction anytime after the
   issuance of "FindPaymentInstrument" to the IOTP Payment Bridge by the
   Consumer, the issuance of "FindAcceptedPaymentBrand" by the Merchant,
   or the issuance of "StartPaymentPaymentHandler" by the Payment
   Handler.

   The Process States "CompletedOk", "Failed", and "ProcessError" are
   final in the sense that they can not be changed on subsequent calls.
   However, the API function should not return with an error code if
   such an incompatible call has been issued.  Instead it should report
   the old unchanged Process State.

   Unknown payment transactions are reported by the Error Code
   "AttValInvalid" pointing to the PayId attribute.

   Input Parameters

   o  Party's Payment Identifier
   o  intended Payment Status
   o  intended Completion Code
   o  Process (Transaction) Type which distinguishes between Payments
      and Inquiries.
   o  Wallet Identifier and/or Pass Phrase






Hans, et al.                 Informational                     [Page 88]


RFC 3867                  Payment API for IOTP             November 2004


   XML definition:

   <!ELEMENT ChangeProcessState EMPTY >
   <!ATTLIST ChangeProcessState
     PayId  CDATA  #REQUIRED
     ProcessState  (NotYetStarted |
      InProgress |
      Suspended |
      CompletedOk |
      Failed |
      ProcessError)  #REQUIRED
     CompletionCode  NMTOKEN  #IMPLIED
     ProcessType  (Payment | Inquiry) 'Payment'
     WalletID  CDATA  #IMPLIED
     Passphrase  CDATA  #IMPLIED >

   Output Parameters

   o  Process State and Percent Complete
   o  Completion Code
   o  Status Description and its language annotation

   XML definition:

   <!ELEMENT ChangeProcessStateResponse EMPTY >
   <!ATTLIST ChangeProcessStateResponse
     ProcessState  (NotYetStarted |
      InProgress |
      Suspended |
      CompletedOk |
      Failed |
      ProcessError)  #REQUIRED
     PercentComplete  CDATA  #IMPLIED
     CompletionCode  NMTOKEN  #IMPLIED
     xml:lang  NMTOKEN  #IMPLIED
     StatusDesc  CDATA  #IMPLIED >

   Tables 4 and 5 explain the attributes and elements; Table 3
   introduces the Error Codes.

4.4.  General Inquiry API Calls

   The following calls are not necessarily assigned to a payment
   transaction and may be issued at any time.  There are no dependencies
   on any other calls.






Hans, et al.                 Informational                     [Page 89]


RFC 3867                  Payment API for IOTP             November 2004


4.4.1.  Remove Payment Log

   The IOTP Application Core notifies the IOTP Payment Bridge and/or the
   corresponding Existing Payment Software via IOTP Payment Bridge that
   any record in the Payment Log file, that deals with the listed
   payment transaction, might be removed.

   Input Parameters

   o  Party's Payment Identifier
   o  Wallet Identifier and/or Pass Phrase

   XML definition:

   <!ELEMENT RemovePaymentLog EMPTY >
   <!ATTLIST RemovePaymentLog
     PayId  CDATA  #REQUIRED
     WalletID  CDATA  #IMPLIED
     Passphrase  CDATA  #IMPLIED >

   Output Parameters

   XML definition:

   <!ELEMENT RemovePaymentLogResponse EMPTY >
   <!ATTLIST RemovePaymentLogResponse >

   Tables 4 and 5 explain the attributes and elements; Table 3
   introduces the Error Codes.

4.4.2.  Payment Instrument Inquiry

   This API function retrieves the properties of the Payment Instrument.
   The Payment Instrument Identifier could be omitted if this identifier
   is derived by other means, e.g., by analysis of the currently
   inserted chip card.  If the Payment instrument could not uniquely
   determined, the IOTP Payment Bridge may provide suitable dialogs for
   user input.

   E.g., this API function might be used during problem resolution with
   the Customer Care Provider of the issuer of the payment instrument,
   in order to inquire payment instrument specific values.

   Input parameters

   o  Brand Identifier
   o  Payment Instrument Identifier
   o  Protocol Identifier



Hans, et al.                 Informational                     [Page 90]


RFC 3867                  Payment API for IOTP             November 2004


   o  Wallet Identifier and/or Pass Phrase
   o  Property Type List - sequence of values whose language is
      identified by xml:lang
   o  (Brand) PackagedContent Content - further payment brand
      description
   o  Protocol Brand Content - further payment brand information
   o  (Protocol Amount) PackagedContent Content - further payment
      protocol description
   o  (Pay Protocol) PackagedContent Content - further payment
      protocol description

   The codes in the property type list are of two types:

   o  generic codes which apply to all payment methods but might be
      unavailable
   o  Payment Brand specific codes.

   Generic codes for the Property Type List are:

   Property Type         Meaning
   Balance               Current balance
   Limit                 Maximum balance
   PaymentLimit          Maximum payment transaction limit
   Expiration            Expiration date
   Identifier            Issuer assigned identifier of the payment
                         instrument.  Usually, it does not match with
                         the API's payment instrument identifier.
   LogEntries            Number of stored payment transaction
                         entries.  The entries are numbered from 0
                         (the most recent) to some non-negative
                         value for the oldest entry.
   PayAmountn            Payment Amount of the n-th recorded payment
                         transaction, n may negative
   PayPartyn             Remote party of the n-th payment recorded
                         transaction, n may negative
   PayTimen              Time of the n-th payment recorded
                         transaction, n may negative

   XML definition:

   <!ELEMENT PaymentInstrumentInquiry (BrandPackagedContent*,
     ProtocolBrand?,
     ProtocolAmountPackagedContent*,
     PayProtocolPackagedContent*) >
   <!ATTLIST PaymentInstrumentInquiry
     BrandId  CDATA  #REQUIRED
     PaymentInstrumentId  CDATA  #IMPLIED
     ProtocolId  CDATA  #REQUIRED



Hans, et al.                 Informational                     [Page 91]


RFC 3867                  Payment API for IOTP             November 2004


     PropertyTypeList  NMTOKENS  #REQUIRED
     xml:lang  NMTOKEN  #IMPLIED
     WalletID  CDATA  #IMPLIED
     Passphrase  CDATA  #IMPLIED >

   Output parameters

   o  a list of zero or more unavailable property values whose
      language are identified by xml:lang.
   o  a list of zero or more sets of "Properties Types", "Property
      Values" and "Property Descriptions"

   XML definition:

   <!ELEMENT PaymentInstrumentInquiryResponse
     (PaymentInstrumentProperty*) >
   <!ATTLIST PaymentInstrumentInquiryResponse
     xml:lang  NMTOKEN  #REQUIRED
     UnavailablePropertyList NMTOKENS  #IMPLIED >
   <!ELEMENT PaymentInstrumentProperty EMPTY >
   <!ATTLIST PaymentInstrumentProperty
     PropertyType  NMTOKEN  #REQUIRED
     PropertyValue  CDATA  #REQUIRED
     PropertyDesc  CDATA  #REQUIRED >

   Tables 4 and 5 explain the attributes and elements; Table 3
   introduces the Error Codes.

4.4.3.  Inquire Pending Payment

   This API function reports the party's payment identifiers of any
   pending payment transactions that the IOTP Payment Bridge/Existing
   Payment Software recommends be completed or suspended prior to the
   processing of new payment transactions.  It does not respond with
   further transaction details.  These have to be requested with
   "Inquire Process State".

   Note that the IOTP Payment Bridge has to respond without the benefit
   of any pass phrase if there exist no pending payment transaction.
   But if there are some pending payment transactions, the IOTP Payment
   Bridge may refuse the immediate response and may instead request the
   appropriate pass phase from the IOTP Application Core.

   Input Parameters

   o  Wallet Identifier and/or Passphrase





Hans, et al.                 Informational                     [Page 92]


RFC 3867                  Payment API for IOTP             November 2004


   XML definition:

   <!ELEMENT InquirePendingPayment EMPTY >
   <!ATTLIST InquirePendingPayment
     WalletId  CDATA  #IMPLIED
     Passphrase  CDATA  #IMPLIED >

   Output Parameters

   o  Party's Payment Identifier

   XML definition:

   <!ELEMENT InquirePendingPaymentResponse (PaymentId*) >

   <!ELEMENT PaymentId EMPTY >
   <!ATTLIST PaymentId
     PayId  CDATA  #REQUIRED >

   Tables 4 and 5 explain the attributes and elements; Table 3
   introduces the Error Codes.

4.5.  Payment Related Inquiry API Calls

4.5.1.  Check Payment Receipt

   This function is used by the Consumer and might be used by the
   Payment Handler to check the consistency, validity, and integrity of
   IOTP payment receipts which might consist of Packaged Content
   Elements

   o  from the IOTP Payment Receipt Component - provided by the Payment
      Handler's "Inquire Process State" API call shortly before payment
      completion,

   o  from Payment Scheme Components being exchanged during the actual
      payment, or

   o  being returned by the Consumer's "Inquire Process State" API call
      shortly before payment completion

   The IOTP Application Core has to check the PayReceiptNameRefs
   attribute of the IOTP Payment Receipt Component and to supply exactly
   the Packaged Content Elements being referred to.

   Failed verification is returns a business error.





Hans, et al.                 Informational                     [Page 93]


RFC 3867                  Payment API for IOTP             November 2004


   Note that this Payment API assumes that any payment receipt builds
   upon a subset of elements with reference to [IOTP].  Furthermore, the
   Packaged Content Element have to be distinguishable by their Name
   attribute.

   Input Parameters

   o  Party's Payment Identifier
   o  Wallet Identifier and/or Pass Phrase
   o  All Packaged Content Elements in the payment receipt

   XML definition:

   <!ELEMENT CheckPaymentReceipt (PackagedContent*) >
   <!ATTLIST CheckPaymentReceipt
     PayId  CDATA  #REQUIRED
     WalletID  CDATA  #IMPLIED
     Passphrase  CDATA  #IMPLIED >

   Output Parameters

   XML definition:

   <!ELEMENT CheckPaymentReceiptResponse EMPTY >
   <!ATTLIST CheckPaymentReceiptResponse >

   Tables 4 and 5 explain the attributes and elements; Table 3
   introduces the Error Codes.

4.5.2.  Expand Payment Receipt

   This API function expands any IOTP payment receipt into a form which
   may be used for display or printing purposes.  "Check Payment
   Receipt" should be used first if there is any question of the payment
   receipt containing errors.

   The same conventions apply to the input parameter as for "Check
   Payment Receipt" (cf. Section 4.5.1).

   Input Parameters

   o  Party's Payment Identifier
   o  Wallet Identifier and/or Pass Phrase
   o  All Packaged Content Elements that build the payment receipt







Hans, et al.                 Informational                     [Page 94]


RFC 3867                  Payment API for IOTP             November 2004


   XML definition:

   <!ELEMENT ExpandPaymentReceipt (PackagedContent*) >
   <!ATTLIST ExpandPaymentReceipt
     PayId  CDATA  #REQUIRED
     WalletID  CDATA  #IMPLIED
     Passphrase  CDATA  #IMPLIED >

   Output Parameters

   o  Brand Identifier
   o  Protocol specific Brand Identifier
   o  Payment Instrument Identifier
   o  Currency Code and Currency Code Type
   o  Payment Amount
   o  Payment Direction
   o  Time Stamp - issuance of the receipt
   o  Protocol Identifier
   o  Protocol specific Transaction Identifier - this is an internal
      reference number which identifies the payment
   o  Consumer Description, Payment Handler Description, and a
      language annotation
   o  Style Sheet Net Location
   o  Payment Property List.  A list of type/value/description triples
      which contains additional information about the payment which
      is not covered by any of the other output parameters; property
      descriptions have to consider the language annotation.

   The Style Sheet Net Location refers to a Style Sheet (e.g., [XSLT])
   that contains presentation information about the reported XML encoded
   data.

   XML definition:

   <!ELEMENT ExpandPaymentReceiptResponse (PaymentProperty*) >
   <!ATTLIST ExpandPaymentReceiptResponse
     BrandId  CDATA  #IMPLIED
     PaymentInstrumentId  CDATA  #IMPLIED
     Amount  CDATA  #IMPLIED
     CurrCodeType  NMTOKEN  #IMPLIED
     CurrCode  CDATA  #IMPLIED
     PayDirection  (Debit|Credit)  #IMPLIED
     TimeStamp  CDATA  #IMPLIED
     ProtocolId  CDATA  #IMPLIED
     ProtocolBrandId  CDATA  #IMPLIED
     ProtocolTransId  CDATA  #IMPLIED
     xml:lang  NMTOKEN  #IMPLIED
     ConsumerDesc  CDATA  #IMPLIED



Hans, et al.                 Informational                     [Page 95]


RFC 3867                  Payment API for IOTP             November 2004


     PaymentHandlerDesc  CDATA  #IMPLIED
     StyleSheetNetLocn  CDATA  #IMPLIED>

   <!ELEMENT PaymentProperty EMPTY >
   <!ATTLIST PaymentProperty
     PropertyType  NMTOKEN  #REQUIRED
     PropertyValue  CDATA  #REQUIRED
     PropertyDesc  CDATA  #REQUIRED >

   The Existing Payment Software should return as many attributes as
   possible from the supplied IOTP Payment Receipt.  The payment
   supplement defines the attribute values for the payment properties.

   Tables 4 and 5 explain the attributes and elements; Table 3
   introduces the Error Codes.

4.5.3.  Inquire Process State

   This API function returns the current payment state and optionally
   further Packaged Content Elements that form the payment receipt.
   Called by the Payment Handler, the IOTP Payment Bridge might respond
   with data intended for inclusion in the IOTP Payment Receipt
   Component's Packaged Content.  When the Consumer calls this function
   shortly before payment completion, it may respond with further items
   of the payment receipt.  Such items might be created by a chip card.

   Input Parameters

   o  Party's Payment Identifier
   o  Wallet Identifier and/or Pass Phrase

   XML definition:

   <!ELEMENT InquireProcessState EMPTY >
   <!ATTLIST InquireProcessState
     PayId  CDATA  #REQUIRED
     WalletID  CDATA  #IMPLIED
     Passphrase  CDATA  #IMPLIED >

   Output Parameters

   o  Current Process State and Percent Complete
   o  Completion Code
   o  Status Description and its language annotation
   o  Payment Receipt Name References to all Packaged Content
      Elements that build the payment receipt (cf. Section 4.5.1),
      even if they have not been created so far (Consumer's share)




Hans, et al.                 Informational                     [Page 96]


RFC 3867                  Payment API for IOTP             November 2004


   o  Any Packaged Content Element being available that form the
      payment receipt

   The IOTP provides a linking capability to the payment receipt
   delivery.  Instead of encapsulating the whole payment specific data
   into the packaged content of the payment receipt, other Payment
   Scheme Components' Packaged Content might be referred to.

   XML definition:

   <!ELEMENT InquireProcessStateResponse
   (PackagedContent*) >
   <!ATTLIST InquireProcessStateResponse
     ProcessState  (NotYetStarted |
      InProgress |
      Suspended |
      CompletedOk |
      Failed |
      ProcessError)  #REQUIRED
     PercentComplete  CDATA  #IMPLIED
     CompletionCode  NMTOKEN  #IMPLIED
     xml:lang  NMTOKEN  #IMPLIED
     StatusDesc  CDATA  #IMPLIED
     PayReceiptNameRefs  NMTOKENS  #IMPLIED >

   Tables 4 and 5 explain the attributes and elements; Table 3
   introduces the Error Codes.

4.5.4.  Start Payment Inquiry

   This API function responds with any additional payment scheme
   specific data that is needed by the Payment Handler for Consumer
   initiated payment transaction inquiry processing.  Probably, the IOTP
   Payment Bridge (or the corresponding Existing Payment Software) has
   to determine the payment related items that were provided with the
   "Start Payment Consumer" API function call.

   Input Parameters

   o  Consumer Payment Identifier
   o  Wallet Identifier and/or Pass Phrase










Hans, et al.                 Informational                     [Page 97]


RFC 3867                  Payment API for IOTP             November 2004


   XML definition:

   <!ELEMENT StartPaymentInquiry EMPTY >
   <!ATTLIST StartPaymentInquiry
     ConsumerPayId  CDATA  #REQUIRED
     WalletID  CDATA  #IMPLIED
     Passphrase  CDATA  #IMPLIED >

   Output Parameters

   o  (Payment Scheme) Packaged Content - intended for insertion in
      the Payment Scheme Component of  the Inquiry Request Block

   XML definition:

   <!ELEMENT StartPaymentInquiryResponse
     (PaySchemePackagedContent*) >

   Tables 4 and 5 explain the attributes and elements; Table 3
   introduces the Error Codes.

4.5.5.  Inquire Payment Status

   The Payment Handler calls this API function for Consumer initiated
   inquiry processing.  It differs from the previous "Inquire Process
   State" API function by the optional inclusion of payment scheme
   specific data.  The response may encapsulate further details about
   the payment transaction.

   Input Parameters

   o  Payment Handler Payment Identifier
   o  Wallet Identifier and/or Pass Phrase
   o  (Payment Scheme) Packaged Content - copied from the Inquiry
      Request Block's Payment Scheme Component

   XML definition:

   <!ELEMENT InquirePaymentStatus (PaySchemePackagedContent*) >
   <!ATTLIST InquirePaymentStatus
     PaymentHandlerPayId  CDATA  #REQUIRED
     WalletID  CDATA  #IMPLIED
     Passphrase  CDATA  #IMPLIED >

   Output Parameters

   o  Current Process State
   o  Completion Code



Hans, et al.                 Informational                     [Page 98]


RFC 3867                  Payment API for IOTP             November 2004


   o  Status Description and its language annotation
   o  (Payment Scheme) Packaged Content - intended for insertion in
      the Payment Scheme Component of the Inquiry Response Block

   XML definition:

   <!ELEMENT InquirePaymentStatusResponse
   (PaySchemePackagedContent*) >
   <!ATTLIST InquirePaymentStatusResponse
     PaymentHandlerPayId  CDATA  #REQUIRED
     ProcessState  (NotYetStarted |
      InProgress |
      Suspended |
      CompletedOk |
      Failed |
      ProcessError)  #REQUIRED
     CompletionCode  NMTOKEN  #IMPLIED
     xml:lang  NMTOKEN  #IMPLIED
     StatusDesc  CDATA  #IMPLIED >

   Tables 4 and 5 explain the attributes and elements; Table 3
   introduces the Error Codes.

4.6.  Other API Calls

4.6.1.  Manage Payment Software

   The following API function notifies the IOTP Payment Bridge about the
   intended registration, modification, or deletion of a payment
   instrument.  The actual processing is up to the IOTP Payment Bridge.

   This API request may also be used to activate the IOTP Payment Bridge
   (and the corresponding Existing Payment Software) for general
   administration purposes.

   Input Parameters

   o  Brand Identifier
   o  Protocol Identifier
   o  Any action code:
   o  New - add new payment method / instrument
   o  Update - change the payment method's / instrument's data
   o  Delete - delete a payment method / instrument
   o  Wallet Identifier and/or Pass Phrase
   o  (Brand) Packaged Content - further payment brand description
   o  (Pay Protocol) Packaged Content - further payment protocol
      description




Hans, et al.                 Informational                     [Page 99]


RFC 3867                  Payment API for IOTP             November 2004


   o  (Protocol Amount) Packaged Content - further payment protocol
      description

   If the Action attribute is set, the Brand and Protocol Identifier
   have to also be set.  The IOTP Payment Bridge has to provide the
   required user dialogs and selection mechanisms.  E.g., updates and
   deletions may require the selection of the payment instrument.  A new
   wallet might be silently generated on the supplement of a new Wallet
   Identifier or after an additional end user acknowledge.  The IOTP
   Application Core should not provide any pass phrases for new wallets.
   Instead, the IOTP Payment Bridge has to request and verify them,
   which may return their value to the IOTP Application Core in plain
   text.  In addition, the IOTP Payment Bridge returns the supported
   authentication algorithms when a new brand and protocol pair has been
   registered.

   If the "Action" attribute is omitted, the IOTP Payment Bridge which
   is responsible for the Existing Payment Software pops up in a general
   interactive mode.

   XML definition:

   <!ELEMENT ManagePaymentSoftware (BrandPackagedContent*,
     ProtocolAmountPackagedContent*,
     PayProtocolPackagedContent*) >
   <!ATTLIST ManagePaymentSoftware
     BrandId  CDATA  #IMPLIED
     ProtocolId  CDATA  #IMPLIED
     Action  (New |
      Update |
      Delete)  #IMPLIED
     WalletID  CDATA  #IMPLIED
     Passphrase  CDATA  #IMPLIED >

   Output Parameters

   o  An action code:
   o  New - added new wallet
   o  Update - changed wallet's configuration
   o  Delete - removed a wallet
   o  Wallet Identifier and/or Pass Phrase

   The IOTP Payment Bridge does not return any information about the set
   of registered payment instruments because these data items are
   dynamically inferred during the brand selection process at the
   beginning of each IOTP transaction.  However, the IOTP Application
   Core has to be notified about new wallets and should be notified
   about updated and removed wallets (identifier).  Alternatively,



Hans, et al.                 Informational                    [Page 100]


RFC 3867                  Payment API for IOTP             November 2004


   removed wallets can be implicitly detected during the next brand
   selection phase.  Updated wallets do no affect the processing of the
   IOTP Application Core.  The IOTP Payment Bridge should only support
   the addition of at most one wallet because it is not able to report
   multiple additions at once back to the IOTP Application Core.

   XML definition:

   <!ELEMENT ManagePaymentSoftwareResponse EMPTY >
   <!ATTLIST ManagePaymentSoftwareResponse
     Action  (New |
      Update |
      Delete)  #IMPLIED
     WalletID  CDATA  #IMPLIED
     Passphrase  CDATA  #IMPLIED
     AuthNames  NMTOKENS  #REQUIRED >

   Tables 4 and 5 explain the attributes and elements; Table 3
   introduces the Error Codes.

5.  Call Back Function

   This API function, called by the IOTP Payment Bridge, is used to
   provide information for Consumer or Payment Handler notification
   about the progress of the payment transaction.

   Its use is illustrated in the diagram below.

   *+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*
                         IOTP Application   ----calls----
                         |     Core     |               |
          display        |              |               v
            to  <----------  Call Back <--calls---  Payment
           user          |              |           Software
                         ----------------
   *+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*

                       Figure 9.  Call Back Function

   Whenever this function is called, the content of the status
   description should be made available to the user.  For example on a
   status bar, a pop up window, etc.

   A reference to the Call Back function is passed as an input parameter
   to the "Start Payment X" and "Resume Payment X" API function.
   Afterwards, this function might be called whenever the status changes
   or progress needs to be reported.




Hans, et al.                 Informational                    [Page 101]


RFC 3867                  Payment API for IOTP             November 2004


   Input Parameters

   o  the software identifier of the caller
   o  Party's Payment Identifier
   o  Process State and Percent Complete
   o  Completion Code
   o  Status Description and its language annotation, text which
      provides information about the progress of the call.  It should be
      displayed or made available to, for example, the Consumer.

   Examples of Status Description could be:

   o  "Paying 12.30 USD to XYZ Inc"
   o  "Payment completed"
   o  "Payment aborted"

   The valid languages are announced in the Call Back Language List
   attribute in "Start Payment X" and "Resume Payment X" API function
   calls.

   XML definition:

   <!ELEMENT CallBack EMPTY >
   <!ATTLIST CallBack
     ContentSoftwareID  CDATA  #IMPLIED
     PayId CDATA #REQUIRED
     ProcessState  (NotYetStarted |
      InProgress |
      Suspended |
      CompletedOk |
      Failed |
      ProcessError)  #IMPLIED
     PercentComplete  CDATA  #IMPLIED
     CompletionCode  NMTOKEN  #IMPLIED
     xml:lang  NMTOKEN  #IMPLIED
     StatusDesc  CDATA  #IMPLIED >

   Output Parameters

   XML definition:

   <!ELEMENT CallBackResponse EMPTY >
   <!ATTLIST CallBackResponse <!-- see below --> >

   Tables 4 and 5 explain the attributes and elements; Table 3
   introduces the Error Codes.





Hans, et al.                 Informational                    [Page 102]


RFC 3867                  Payment API for IOTP             November 2004


   Basically, the call back function accepts all input arguments or
   rejects the whole request.  It may even accept malformed requests.

   Some payment schemes may support or require that the Consumer might
   be able to cancel the payment at any time.  The Call Back function
   can be used to facilitate this by returning the cancellation request
   on the next call (using the Business Error Code and Completion Code
   "ConsCancelled").

   Vice versa the Payment Handler's Application Core might use the
   similar mechanism to signal its IOTP Payment Bridges any exceptional
   need for a fast shutdown.  These IOTP Payment Bridges may initiate
   the appropriate steps for terminating/cancelling all pending payment
   transactions.

   Note that the "Change Process State" API function provides the second
   mechanism for such kind of notification.  Therefore, the IOTP Payment
   Bridge or Existing Payment Software may ignore the details of the
   "Call Back" response.

6.  Security Consideration

   The IOTP Payment APIs only supports security using pass phrase to
   access to payment Wallet.  These can be protected over TLS, which
   provides stronger security at the transport layer, but
   implementations are out the scope of this document.

   See also security consideration section of [IOTP].

7.  References

7.1.  Normative References

   [IOTP]     Burdett, D., "Internet Open Trading Protocol - IOTP
              version 1.0", RFC 2801, April 2000.

   [ISO4217]  ISO 4217: Codes for the Representation of Currencies.
              Available from ANSI or ISO.

   [URL]      Berners-Lee, T., Masinter, L. and M. McCahill, "Uniform
              Resource Locators (URL)", RFC 1738, December 1994.

   [UTC]      Universal Time Coordinated. A method of defining time
              absolutely relative to Greenwich Mean Time (GMT).
              Typically of the form: "CCYY-MM- DDTHH:MM:SS.sssZ+n" where
              the "+n" defines the number of hours from GMT. See ISO
              DIS8601.




Hans, et al.                 Informational                    [Page 103]


RFC 3867                  Payment API for IOTP             November 2004


   [XML]      Extensible Mark Up Language (XML) 1.0 (Third Edition).  A
              W3C recommendation. See http://www.w3.org/TR/REC-xml

   [XML-NS]   Namespaces in XML Recommendation. T. Bray, D. Hollander,
              A. Layman. Janaury 1999.  http://www.w3.org/TR/REC-xml-
              names

   [XSLT]     Extensible Style Language Transformations 1.0, November
              1999, See http://www.w3.org/TR/xslt

7.2.  Informative References

   [IOTPBOOK] D. Burdett, D.E. Eastlake III, and M. Goncalves, Internet
              Open Trading Protocol, McGraw-Hill, 2000. ISBN 0-07-
              135501-4.

   [SET]      SET Secure Electronic Transaction(TM) , Version 1.0, May
              31, 1997
              Book 1: Business Description
              Book 2: Programmer's Guide
              Book 3: Formal Protocol Definition

   [SET/IOTP] Kawatsura, Y., "Secure Electronic Transaction (SET)
              Supplement for the v1.0 Internet Open Trading Protocol
              (IOTP)", RFC 3538, June 2003.

   [TLS]      Dierks, T. and C. Allen, "The TLS Protocol Version 1.0",
              RFC 2246, January 1999.























Hans, et al.                 Informational                    [Page 104]


RFC 3867                  Payment API for IOTP             November 2004


Acknowledgement

   The contributions of Werner Hans of Atos Origin are gratefully
   acknowledged.

Authors' Addresses

   Hans-Bernhard Beykirch

   EMail: hbbeykirch@web.de


   Yoshiaki Kawatsura
   Hitachi, Ltd.
   890 Kashimada Saiwai-ku Kawasaki-shi
   Kanagawa, Japan 212-8567

   EMail: ykawatsu@itg.hitachi.co.jp


   Masaaki Hiroya
   Technoinfo Service, Inc.
   333-2-718 Uchikoshi-machi
   Hachioji-shi
   Tokyo 192-0911 JAPAN

   EMail: hiroya@st.rim.or.jp
























Hans, et al.                 Informational                    [Page 105]


RFC 3867                  Payment API for IOTP             November 2004


Full Copyright Statement

   Copyright (C) The Internet Society (2004).  This document is subject
   to the rights, licenses and restrictions contained in BCP 78, and
   except as set forth therein, the authors retain all their rights.

   This document and the information contained herein are provided on an
   "AS IS" basis and THE CONTRIBUTOR, THE ORGANIZATION HE/SHE REPRESENTS
   OR IS SPONSORED BY (IF ANY), THE INTERNET SOCIETY AND THE INTERNET
   ENGINEERING TASK FORCE DISCLAIM ALL WARRANTIES, EXPRESS OR IMPLIED,
   INCLUDING BUT NOT LIMITED TO ANY WARRANTY THAT THE USE OF THE
   INFORMATION HEREIN WILL NOT INFRINGE ANY RIGHTS OR ANY IMPLIED
   WARRANTIES OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE.

Intellectual Property

   The IETF takes no position regarding the validity or scope of any
   Intellectual Property Rights or other rights that might be claimed to
   pertain to the implementation or use of the technology described in
   this document or the extent to which any license under such rights
   might or might not be available; nor does it represent that it has
   made any independent effort to identify any such rights.  Information
   on the procedures with respect to rights in RFC documents can be
   found in BCP 78 and BCP 79.

   Copies of IPR disclosures made to the IETF Secretariat and any
   assurances of licenses to be made available, or the result of an
   attempt made to obtain a general license or permission for the use of
   such proprietary rights by implementers or users of this
   specification can be obtained from the IETF on-line IPR repository at
   http://www.ietf.org/ipr.

   The IETF invites any interested party to bring to its attention any
   copyrights, patents or patent applications, or other proprietary
   rights that may cover technology that may be required to implement
   this standard.  Please address the information to the IETF at ietf-
   ipr@ietf.org.

Acknowledgement

   Funding for the RFC Editor function is currently provided by the
   Internet Society.









Hans, et al.                 Informational                    [Page 106]


Hosting by: Hurra Communications Ltd.
Generated: 2007-01-26 17:59:49