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<h1><a name="title" id="title"></a>Web Services Choreography Description Language: Primer </h1>
<h2><a name="w3c-doctype" id="w3c-doctype"></a>W3C Working Draft 19 June 2006</h2><dl><dt>This version:</dt><dd>
            <a href="http://www.w3.org/TR/2006/WD-ws-cdl-10-primer-20060619/">http://www.w3.org/TR/2006/WD-ws-cdl-10-primer-20060619/</a>
        </dd><dt>Latest version:</dt><dd>
            <a href="http://www.w3.org/TR/ws-cdl-10-primer/">http://www.w3.org/TR/ws-cdl-10-primer/</a>
        </dd><dt>Editors:</dt><dd>Steve Ross-Talbot, Pi4 Technologies Ltd.</dd><dd>Tony Fletcher, Choreology</dd></dl><p class="copyright"><a href="http://www.w3.org/Consortium/Legal/ipr-notice#Copyright">Copyright</a> © 2006 <a href="http://www.w3.org/"><acronym title="World Wide Web Consortium">W3C</acronym></a><sup>®</sup> (<a href="http://www.csail.mit.edu/"><acronym title="Massachusetts Institute of Technology">MIT</acronym></a>, <a href="http://www.ercim.org/"><acronym title="European Research Consortium for Informatics and Mathematics">ERCIM</acronym></a>, <a href="http://www.keio.ac.jp/">Keio</a>), All Rights Reserved. W3C <a href="http://www.w3.org/Consortium/Legal/ipr-notice#Legal_Disclaimer">liability</a>, <a href="http://www.w3.org/Consortium/Legal/ipr-notice#W3C_Trademarks">trademark</a> and <a href="http://www.w3.org/Consortium/Legal/copyright-documents">document use</a> rules apply.</p></div><hr /><div>
<h2><a name="abstract" id="abstract"></a>Abstract</h2><p>Web Services Choreography Description Language: Primer is a non-normative document intended to provide an easy to understand tutorial on the uses and the features of the <a href="http://www.w3.org/TR/ws-cdl-10">Web Services Choreography Description Language specification</a>.</p></div><div>
<h2><a name="status" id="status"></a>Status of this Document</h2><p><em>This section describes the status of this document at the time of its publication. Other documents may supersede this document. A list of current W3C publications and the latest revision of this technical report can be found in the <a href="http://www.w3.org/TR/">W3C technical reports index</a> at http://www.w3.org/TR/.</em></p><p>This document is a First Public Working Draft and has been produced by the <a href="http://www.w3.org/2002/ws/chor/">Web Services Choreography Working Group</a>, part of the <a href="http://www.w3.org/2002/ws/Activity">Web Services Activity</a> in the W3C <a href="http://www.w3.org/Architecture/">Architecture Domain</a>. </p><p>The document is in its early stage, readers should expect lots of changes and additions. A public editors' copy, demonstrating progress on this document is available from the <a href="http://www.w3.org/2002/ws/chor/">Web Services Choreography Working Group</a> home page.</p><p>
Please send comments about this document to <a href="mailto:public-ws-chor-comments@w3.org">public-ws-chor-comments@w3.org</a> (with <a href="http://lists.w3.org/Archives/Public/public-ws-chor-comments/">public archive</a>). Discussions on this specification should take place on the <a href="mailto:public-ws-chor@w3.org">public-ws-chor@w3.org</a> (with <a href="http://lists.w3.org/Archives/Public/public-ws-chor/">public archive</a>)</p><p> This document was produced by a group operating under the <a href="http://www.w3.org/TR/2002/NOTE-patent-practice-20020124">24 January 2002 CPP</a> as amended by the <a href="http://www.w3.org/2004/02/05-pp-transition">W3C Patent Policy Transition Procedure</a>. W3C maintains a <a rel="disclosure" href="http://www.w3.org/2002/ws/chor/3/01/17-IPR-statements.html">public list of any patent disclosures</a> made in connection with the deliverables of the group; that page also includes instructions for disclosing a patent. An individual who has actual knowledge of a patent which the individual believes contains <a href="http://www.w3.org/Consortium/Patent-Policy-20040205/#def-essential">Essential Claim(s)</a> must disclose the information in accordance with <a href="http://www.w3.org/Consortium/Patent-Policy-20040205/#sec-Disclosure">section 6 of the W3C Patent Policy</a>. </p><p>Publication as a Working Draft does not imply endorsement by the W3C Membership. This is a draft document and may be updated, replaced or obsoleted by other documents at any time. It is inappropriate to cite this document as other than work in progress.</p></div><div class="toc">
<h2><a name="contents" id="contents"></a>Table of Contents</h2><p class="toc">1 <a href="#Introduction">Introduction</a><br />
    1.1 <a href="#structprimer">Structure of the primer</a><br />
2 <a href="#overview">An Overview of WS-CDL</a><br />
    2.1 <a href="#usingcdl">Using WS-CDL</a><br />
    2.2 <a href="#whyusecdl">Why use WS-CDL?</a><br />
    2.3 <a href="#structcdl">The Structure of WS-CDL</a><br />
3 <a href="#gettingstarted">Getting Started</a><br />
    3.1 <a href="#degenerateexample"> Degenerate Example </a><br />
    3.2 <a href="#interactionorienteddesign">Interaction Oriented Design</a><br />
        3.2.1 <a href="#interactions">Interactions</a><br />
        3.2.2 <a href="#roles">Roles</a><br />
        3.2.3 <a href="#participants">Participants</a><br />
        3.2.4 <a href="#relationships">Relationships </a><br />
        3.2.5 <a href="#informationtypes">Information Types</a><br />
        3.2.6 <a href="#tokens">Tokens and locators</a><br />
        3.2.7 <a href="#channels">Channels</a><br />
        3.2.8 <a href="#choreographies">Choreographies</a><br />
        3.2.9 <a href="#completeexample">Complete Example</a><br />
4 <a href="#intermediate">Intermediate Topics</a><br />
    4.1 <a href="#intermediateexample"> The Intermediate Example </a><br />
        4.1.1 <a href="#variables">Variables</a><br />
        4.1.2 <a href="#workunits">Non Blocking Workunits</a><br />
            4.1.2.1 <a href="#repeatingworkunits">Repetition</a><br />
        4.1.3 <a href="#time">Time</a><br />
        4.1.4 <a href="#records"> Recording information </a><br />
        4.1.5 <a href="#conditional"> Conditional Workunits</a><br />
        4.1.6 <a href="#choices"> Choices </a><br />
        4.1.7 <a href="#parallel"> Parallelization </a><br />
        4.1.8 <a href="#modularization">Modularization</a><br />
            4.1.8.1 <a href="#choreographiesandsubchoreographies">Choreographies and sub-choreographies</a><br />
        4.1.9 <a href="#performing"> Performing a sub choreography </a><br />
        4.1.10 <a href="#channelpassing"> Channel Passing </a><br />
        4.1.11 <a href="#exchanges"> Exchanges </a><br />
    4.2 <a href="#intermediate-extra">Extending the example</a><br />
        4.2.1 <a href="#exceptionsandfaults">Exceptions and Faults</a><br />
        4.2.2 <a href="#Finalization">Finalization</a><br />
            4.2.2.1 <a href="#finalizers"> Finalizers and Finalization </a><br />
        4.2.3 <a href="#silentactionsandconditions">Silent Actions and Conditions</a><br />
        4.2.4 <a href="#noactions">NoActions</a><br />
        4.2.5 <a href="#completeexample2">Complete Example</a><br />
5 <a href="#advanced">Advanced Topics</a><br />
    5.1 <a href="#dependentworkunits">Dependent Workunits</a><br />
    5.2 <a href="#concurrentperforms">Concurrent Performs</a><br />
        5.2.1 <a href="#managingjoinconditions">Managing join conditions</a><br />
    5.3 <a href="#isolationlevels"> Isolation Levels </a><br />
    5.4 <a href="#advancedchannels">Advanced Channels</a><br />
        5.4.1 <a href="#usage">Usage</a><br />
        5.4.2 <a href="#channelpassingmodes">Channel Passing Modes</a><br />
    5.5 <a href="#id2272704">Pitfalls</a><br />
        5.5.1 <a href="#distributedchoice">Distributed choice and race conditions</a><br />
    5.6 <a href="#alignmentandcoordination"> Alignment and Coordination </a><br />
6 <a href="#implementation">Implementation Considerations</a><br />
    6.1 <a href="#endpointprojections">End Point Projections</a><br />
        6.1.1 <a href="#Java">Java</a><br />
        6.1.2 <a href="#WS-BPEL"> WS-BPEL </a><br />
        6.1.3 <a href="#monitoring"> Runtime Monitoring </a><br />
        6.1.4 <a href="#wsdl1.1"> WSDL1.1 </a><br />
        6.1.5 <a href="#WSDL2.0"> WSDL2.0 </a><br />
    6.2 <a href="#wdaddressing"> WS-Addressing </a><br />
        6.2.1 <a href="#channelrep"> Channel Representation </a><br />
</p></div><hr /><div class="body"><div class="div1">
<h2><a name="Introduction" id="Introduction"></a>1 Introduction</h2><div class="div2">
<h3><a name="structprimer" id="structprimer"></a>1.1 Structure of the primer</h3><p>This primer is intended to give an overview of WS-CDL and can be read by WS-CDL
                    users (e.g. a software professional wishing to write choreography descriptions) 
                    and WS-CDL implementers (e.g software professionals wishing to create WS-CDL compliant
                    tools) alike. The first 5 sections are intended for both audiences while the
                    last is intended primarily for implementors.</p><p>Section 2 provides an overview of WS-CDL. The first half of Section 3 describes
                    a degenerate example using UML sequence diagrams. The second half of Section 3 walks
                    through building the WS-CDL description of the example. Section 4 examines
                    WS-CDL at a deeper level, extending the previous example and describing how more 
                    advanced features can be employed. Section 5 describes the use of WS-CDL
                    within an organization. Section 6 describes some of the implementation
                    considerations for implementers.</p></div></div><div class="div1">
<h2><a name="overview" id="overview"></a>2 An Overview of WS-CDL</h2><p>WS-CDL is a
                language for specifying peer-to-peer protocols where each party wishes to remain
                autonomous and in which no party is master over any other – i.e. no centralization
                point. The description of a peer-to-peer protocol is grounded in what we term an
                ordered set of <code>interactions</code>, where an <code>interaction</code> is defined
                loosely as an <code>exchange</code> of messages between parties.</p><p>It is essential in understanding Web Services Choreography Description Language
                (WS-CDL) to realize that there is no single point of control. There are no global
                variables, conditions or workunits. To have them would require centralised storage and
                orchestration.  
                WS-CDL does permit a shorthand notation to enable variables and conditions to
                exist in multiple places, but this is syntactic sugar to avoid repetitive
                definitions. There is also an ability for variables residing in one service to be
                aligned (synchronized) with the variables residing in another service, giving the
                illusion of global or shared state.</p><p>It is also important to understand that WS-CDL does not distinguish between
                observable messages from applications, that might be considered as application or
                business messages, from the infrastructure upon which an application is based,
                that might be considered as some form of signal. In WS-CDL all messages are
                described as information types and have no special significance over each other. All
                that WS-CDL describes is the ordering rules for the messages which dictate the order
                in which they should be observed. When these ordering rules are broken WS-CDL
                considers them to be out-of-sequence messages and this can be viewed as an error in
                conformance of the services that gave rise to them against the WS-CDL description.</p><p>WS-CDL is an XML-based language that can be used to describe the common and
                collaborative observable behavior of multiple services that need to interact in
                order to achieve some goal. WS-CDL describes this behavior from a global or neutral
                perspective rather than from the perspective of any one party and we call a complete
                WS-CDL description a global model.</p><p>Services are any form of computational process with which one may interact, examples
                are a buying process and a selling process that are implemented as computational
                services in a Service Oriented Architecture (SOA) or indeed as a Web Services
                implementation of an SOA. Because
                WS-CDL is not explicitly bound to WSDL it can play the same global model role for
                both SOA services and Web Services, that is it is possible to use WS-CDL to describe
                a global model for services with no WSDL descriptions (perhaps they just have Java interfaces)
                as easily as it is to describe services that do have or will have WSDL descriptions. The
                way in which WS-CDL can be used without WSDL descriptions is however implementation dependent.</p><p>Common collaborative observable behavior is the phrase we use to describe 
                the behavior of a system of services, for example buyer and seller services, from a
                global perspective. Each service has an observable behavior that can be described
                today using WSDL or some other interface description language (e.g. Java). Such
                observable behavior is described as a set of functions, possibly with parameters,
                that a service offers coupled with error messages or codes that indicate failure
                along with the return types for the functions offered. If we used abstract BPEL
                along with WSDL we can also describe the valid sequences of functions from a single 
                services perspective (i.e. the service we are describing), which is not 
                possible with WSDL or Java alone [NOTE: NEEDS TO BE QUALIFIED WITH WHICH BPEL AND PROFILE].  
                We refer to this set as the “observable behavior” for
                a service. This level, the service level, of “observable behavior” does not describe 
                behavior of a system of services because it only deals with a single service. The
                composition of a set of "observable behaviors" at a service level is what we call
                the common collaborative observable behavior. The composition is not simply the set of
                observable behaviors at the service level operating together because such a composition
                requires further description of the dependencies that the set of services exhibit in order
                to interoperate correctly.  If we captured the ordering rules for a set of service
                then we would have the common collaborative observable behavior fully specified. This is
                what WS-CDL is for.</p><p>Individual service behaviors can be used in the composition of wider collaboration in 
                which a set of services with their own behaviors could be effectively used. In order 
                to do so a global model that described the peer to peer
                observable interactions of such a set of services is required to ensure that the
                services will in-fact cooperate to a commonly understood script. That script is the
                global model and that script is what WS-CDL is used to describe.</p><p>A global model, ensures that the common collaborative observable behavior is not
                biased towards the view of any one of the services. Instead it describes as peers
                the entire collaborative observable behavior of all of the services such that no one
                service can be said to exert any control over any other service. In effect it
                described the services as a complete distributed application in which each service
                plays a distinct role and has distinct relationships with its peer services.</p><p>One may think of WS-CDL as a language for describing the observable activities of a
                set of services some of which are synchronized through some common understanding
                realized by a specific business interaction between the services or by a declaration
                of interest in the progress of one service by another (e.g. has the buyer accepted
                the price offered by the seller). The least interesting scenario is one in which
                WS-CDL can be used to describe a set of services that never synchronize at all; that
                is there is no observable relationships and no statement of an unobservable
                relationship that exists between the services. In this case the services perform a
                choreography, but effectively on different stages and thus need no form of
                coordination (e.g. a buyer and seller choreography for WallMart versus a Bloomberg
                Reuters choreography for the exchange of news items). In all other cases the
                synchronization is what makes life interesting (e.g. a buyer seller choreography
                coupled with a seller credit check choreography or indeed a seller shipper
                choreography). </p><p>In WS-CDL the mechanisms for describing the common observable behavior range from
                specific information alignment (e.g. when a buyer and seller record the fact that an
                order has been accepted in variables that reside at the buyer and at the seller),
                interaction (e.g. when a buyer requests a price from a seller and receives a price
                as a response from the seller) and a declaration of interest in the progress of a
                choreography (e.g. has the bartering choreography between buyer and seller “started”
                or has it “finished”). In the first two cases synchronization is explicit and
                visible as a business related activity (e.g. the observable recording of information
                and it’s alignment and the description of an information exchange between a buyer
                and seller) and in the last case (e.g. choreography has “started” or “finished”) it
                is implicit based on the progress of a choreography and not any business
                relationships.</p><div class="div2">
<h3><a name="usingcdl" id="usingcdl"></a>2.1 Using WS-CDL</h3><p>WS-CDL is a description and not an executable language, hence the term
                    “Description” in it’s name. It is a language that can be used to unambiguously
                    describe observable service collaborations, we might also refer to this as
                    a business protocol. </p><p>When WS-CDL is focused on describing collaboration within a domain of control
                    (e.g. a single company or enterprise) WS-CDL is used to describe the internal
                    workflows that involves multiple services (also called end-points) that
                    constitute observable collaborative behavior. The value in so doing is to
                    encourage conformance of services to a negotiated choreography description and
                    to improve interoperability of services through an agreed choreography
                    description. This is no more than describing a business protocol that defines an
                    observable collaboration between services. You can think of it as a way of
                    ensuring services are well behaved with respect to the goals you wish to achieve
                    within your domain.</p><p>When the focus of WS-CDL is across domains of control, WS-CDL is used to describe
                    the ordering of observable message exchanges across domains such as the those
                    that govern vertical protocols such as fpML, FIX, TWIST and SWIFT. These
                    protocols have some form of XML data format definition and then proceed to
                    describe the ordering of message exchanges using a combination of prose and UML
                    sequence diagrams.</p></div><div class="div2">
<h3><a name="whyusecdl" id="whyusecdl"></a>2.2 Why use WS-CDL?</h3><p>WS-CDL can be used to ensure interoperability within and across domains of
                    control to lower interoperability issues,  and create solutions
                    within and across domains of control. </p><p>WS-CDL can be used to ensure that the total cost of software systems in a
                    distributed environment, within a domain of control and across the
                    world-wide-web is lowered by guaranteeing that the services that participate in
                    a choreography are well behaved on a continuous basis.</p><p>Both of these benefits translate into greater up-time and so increase top line
                    profits. At the same time they translate into less testing time and so reduce
                    cost of delivery which decreases bottom line costs.</p></div><div class="div2">
<h3><a name="structcdl" id="structcdl"></a>2.3 The Structure of WS-CDL</h3><p> WS-CDL is a layered language that provides different levels of expressibility to
                    describe a choreography. Not all of the features of WS-CDL are needed to describe a
                    choreography. The array of features are included in the language to provide a complete
                    and accurate reflection of what is needed to model a particular choreography and depending
                    on what is needed some features of the language will be needed whereas others will not.
                    In this document we shall lead by example and show what the features can be used for and
                    also provide some guidance as to when to use certain features and when not.
                    The high level features of WS-CDL are shown diagrammatically in Figure 1.</p><p> At the top most level for any WS-CDL there is a package that contains all other
                    things. All choreographies described in WS-CDL will include a number of types that need
                    to be defined. Among these types we have <code>informationTypes</code> that describe
                    general messages in interaction and variables, 
                    <code>roleTypes</code> that  define behavior (i.e. a WSDL description),
                    <code>participantTypes</code> that group <code>roleTypes</code>into a physical
                    representation of a service (e.g. multiple WSDL descriptions at a single location, 
                    <code>relationshipTypes</code> that describe how roles are connected - they define
                    the static linkage between roles, <code>channelTypes</code> that describe communication
                    links and their constraints between <code>roleTypes</code> - 
                    instances of <code>channelType</code> are used to interact between <code>roleTypes</code>,
                    <code>tokens</code> which are aliases to <code>informationTypes</code> and <code>tokenLocators</code>
                    that describe how attributes may be derived from their carrying <code>informationType</code>.
                    Once the types are defined then <code>choreographies</code> can be defined using them. A 
                    <code>choreography</code> has attributes such as a <code>name</code> and a <code>root</code>
                    the latter being the entry point for a choreography as well as comprising a structured set of 
                    activities which can include any combination of
                    <code>sequences, parallelisation, choices, workunits, interactions, assignments</code> 
                    to variables,
                    <code>silentActions, noAction</code> and the <code>performing</code> of a sub-choreography. A 
                    <code>choreography</code>
                    may also include an <code>exceptionBlock</code> that indicated what to do when an exception is
                    raised and a <code>finalizerBlock</code>. All of these parts of a choreography will be further 
                    explained
                    and illustrated by means of example.</p><img src="pictures/Figure1.png" alt="Layered structure of WS-CDL" /><p> When we model a choreography we may use <code>silentActions</code> to hide certain
                    values or conditions that give rise to one path being taken over another. We call this
                    notion non-observable conditionals and it makes it  possible to model branching based
                    on observing changes in the interactions that occur (e.g. one might observe an
                    exchange between a buyer and a seller which is said to be terminated when a
                    “completed” interaction is observed) instead of having to make the condition itself
                    visible.</p><p>If we have no observable conditionals then it is not necessary to perform any
                    explicit state management at the roles that are interacting because we have not
                    needed to express any explicit computation (e.g. totalOrderValue EQUALS
                    expectedOrderValue) required of an observable condition. None of roles used in
                    choreographies of this type have the need for any state variables to control a
                    choreography, rather the progression of a choreography is expressed purely in
                    terms of observable interactions and use observation to determine their state
                    with respect to the other roles. </p><p>Some business protocols are defined exposing specific business rules. These
                    constitute shared knowledge between the concerned roles. For example we may
                    terminate an order completion between a buyer and a seller when we calculate
                    that the items delivered match the original order. The business rule in this
                    example is the shared constraint that buyer_quantity equals completion_quantity.
                    At some level the roles must have some shared knowledge of both variables and
                    their values. When business rules of this nature become part of the business
                    protocol such Observable Conditionals can be added into a choreography and which
                    implies state management is needed.</p><p>WS-CDL provides some basic interfaces for state management defining it’s
                    requirements as a coordination protocol. The specifics of state management is
                    left as an implementation detail for the community.</p></div></div><div class="div1">
<h2><a name="gettingstarted" id="gettingstarted"></a>3 Getting Started</h2><p>In order to understand WS-CDL is best to illustrate it through the use of an example.
                In this section we shall introduce a simple example and build upon it throughout the
                rest of document to illustrate different parts of WS-CDL. The Appendices have the
                full listing of the various WS-CDL encodings of the example as well as a url to the
                WS-CDL descriptions. In all cases the WS-CDL descriptions have been tested against
                at least one implementation of WS-CDL having been constructed in a validating
                editor.</p><div class="div2">
<h3><a name="degenerateexample" id="degenerateexample"></a>3.1  Degenerate Example </h3><p> The degenerate example involves just the buyer and the seller from the previous
                    example. The buyer simply requests a price from the seller and the seller
                    responds with a price or a fault if the goods are not known or not available.
                    This is illustrated in the sequence diagram in Figure 6 below. </p><img src="pictures/Figure2.png" alt="Sequence Diagram For the Degenerate                     Usecase" /></div><div class="div2">
<h3><a name="interactionorienteddesign" id="interactionorienteddesign"></a>3.2 Interaction Oriented Design</h3><p> In this section we introduce the fundamental concept of an interaction, which
                    underpins WS-CDL. We shall use our degenerate example that we have described
                    above and go through the necessary steps to define it as a choreography
                    description in WS_CDL. We shall define the roles, tokens, channels,
                    relationships, participants and variables necessary to properly describe it. </p><div class="div3">
<h4><a name="interactions" id="interactions"></a>3.2.1 Interactions</h4><p> An interaction is the realization of a collaboration between roles. Roles are grouped
                        into participants. Roles are analogous to the entities at the top of our UML sequence
                        diagrams and participants group these roles into domains of control which can be said to
                        be the location the behaviors defined by the roles.</p><p> With respect to our degenerate usecase a collaboration is a message exchange
                        between the swim lanes in the sequence diagram in Figure 6. In the example
                        when the buyer requests a quote a message is sent from the buyer to the
                        seller with the details of the product included in the quote. The
                        seller can either respond with a quote back to the buyer or can respond with
                        a fault which indicates that the product is invalid. The WS-CDL fragment for
                        this interaction is illustrated below: </p><div class="exampleOuter">
<div class="exampleHeader"><a name="wscdlfragment1" id="wscdlfragment1"></a>Example: WS-CDL fragment</div><div class="exampleInner"><pre>
&lt;interaction name="QuoteElicitation" operation="getQuote" channelVariable="tns:Buyer2SellerC"&gt;
    &lt;description type="documentation"&gt;
        Quote Elicitation
    &lt;/description&gt;
    &lt;participate relationshipType="tns:Buyer2Seller" fromRoleTypeRef="tns:BuyerRole" toRoleTypeRef="tns:SellerRole"/&gt;
    &lt;exchange name="QuoteRequest" informationType="tns:QuoteRequestType" action="request"&gt;
        &lt;description type="documentation"&gt;
                Quote Request Message Exchange
        &lt;/description&gt;
        &lt;send variable="cdl:getVariable('quoteRequest','','')"/&gt;
        &lt;receive variable="cdl:getVariable('quoteRequest','','')"/&gt;
    &lt;/exchange&gt;
    &lt;exchange name="QuoteResponse" informationType="tns:QuoteResponseType" action="respond"&gt;
        &lt;description type="documentation"&gt;
            Quote Response Message Exchange
        &lt;/description&gt;
        &lt;send variable="cdl:getVariable('quoteResponse','','')"/&gt;
        &lt;receive variable="cdl:getVariable('quoteResponse','','')"/&gt;
    &lt;/exchange&gt;
    &lt;exchange name="QuoteResponseFault" informationType="tns:QuoteResponseFaultType" action="respond" faultName="InvalidProductFault"&gt;
        &lt;description type="documentation"&gt;
            Quote Response Fault Exchange
    &lt;/description&gt;
        &lt;send variable="cdl:getVariable('faultResponse','','')"/&gt;
        &lt;receive variable="cdl:getVariable('faultResponse','','')"/&gt;
    &lt;/exchange&gt;
&lt;/interaction&gt;
</pre></div></div><p> Interactions are descriptions of one or more exchanges between a sender and
                        a receiver. Interactions are labeled with an operation name that can be
                        mapped to a WSDL operation, a topic in a publish-and-subscribe environment
                        or a message queue in a point-to-point messaging environment. Interactions
                        take place over a channel, as indicated by a channelVariable, the variable
                        itself will have been declared to be of a particular channelType. The
                        participating relationship further restricts the interaction to the roles
                        that are valid for that relationship. </p><p> Each exchange names the type of the thing to be exchanged and the
                        direction of the exchange (e.g. a request, a response, or a fault). </p><p> In our degenerate example we have one interaction called <code>"Buyer
                            requests a quote from the seller"</code> which occurs over a channel
                        variables called <code>"Buyer2SellerC"</code> with an operation name
                            <code>"quoteRequest"</code>. The interaction has three exchanges, one
                        for the request called <code>"Request Quote"</code>, one for the valid
                        response called <code>"Quote Response"</code> and one for the fault called
                            <code>"Invalid Product"</code>. </p><p> In order to describe this more fully we have to define the channelType
                        for the <code>channelVariable</code> called <code>"Buyer2SellerC"</code>, in
                        the <code>interaction</code>, and then define the information types
                            <code>"tns:QuoteRequestType"</code>,
                        <code>"tns:QuoteResponseType"</code> and
                        <code>"tns:QuoteResponseFaultType"</code> for the variables <code>-</code>, <code>-</code>
                        and <code>-</code> respectively. We also need to define the relationships, roles
                        and participants that are needed to support this interaction, such as
                            <code>"tns:Buyer2Seller"</code>, <code>"tns:BuyerRole"</code> and
                            <code>"tns:SellerRole"</code>. </p><p> Thus we shall do it in the following order: </p><ol><li>Define our roleTypes, </li><li>Define our relationshipTypes, </li><li>Define our informationTypes, </li><li>Define our tokenType,</li><li>Define our channelTypes</li></ol></div><div class="div3">
<h4><a name="roles" id="roles"></a>3.2.2 Roles</h4><p> There are 2 roles that are played out in the example. These are the “buyer”
                        and the “seller”, they represent the same entities described in the sequence
                        diagram in Figure 6. We define them as <code>BuyerRole</code> and
                            <code>SellerRole</code> as follows: </p><div class="exampleOuter">
<div class="exampleHeader"><a name="wscdlfragment2" id="wscdlfragment2"></a>Example: WS-CDL fragment</div><div class="exampleInner"><pre>
&lt;roleType name="BuyerRole"&gt;
    &lt;description type="documentation"&gt;
        Role for Buyer
    &lt;/description&gt;
    &lt;behavior name="BuyerBehavior" interface="BuyerBehaviorInterface"&gt;
        &lt;description type="documentation"&gt;
            Behavior for Buyer Role
        &lt;/description&gt;
    &lt;/behavior&gt;
&lt;/roleType&gt;
&lt;roleType name="SellerRole"&gt;
    &lt;description type="documentation"&gt;
        Role for Seller
    &lt;/description&gt;
    &lt;behavior name="SellerBehavior" interface="SellerBehaviorInterface"&gt;
        &lt;description type="documentation"&gt;
            Behavior for Seller
        &lt;/description&gt;
    &lt;/behavior&gt;
&lt;/roleType&gt;
</pre></div></div><p> In WS-CDL each role defined has a <code>behavior</code>. A
                        <code>behavior</code> in this sense is the binding point for a WSDL
                        description (either WSDL1.1 or WSDL2.0). The binding point is the
                            <code>interface</code> which normally references a WSDL description but
                        this is optional in WS-CDL. Because it is optional we can use this as a
                        binding point to different service descriptions. In our example the
                        respective <code>interfaces</code> for the roles <code>BuyerRole</code> and
                            <code>SellerRole</code> are <code>BuyerBehaviorInterface</code> and
                            <code>SellerBehaviorInterface</code> which do not refer to any WSDL
                        description and so can be used by implementors to derive WSDL descriptions.
                        For example one might well derive the WSDL descriptions and generate
                        BuyerBehaviorInterface.wsdl and SellerBehaviorInterface.wsdl. </p><p> We shall look at how we would bind to an existing WSDL description in the
                        Intermediate section. </p><p> The abstract syntax for roles is illustrated below: </p><div class="exampleOuter">
<div class="exampleHeader"><a name="wscdlsyntax1" id="wscdlsyntax1"></a>Example: WS-CDL roleType definition</div><div class="exampleInner"><pre>
roleType ::= 
&lt;roleType name="ncname"&gt;
	&lt;description type=" documentation" &lt;/description&gt;?
&lt;behavior name="ncname" interface="qname"? /&gt;+ 
&lt;/roleType&gt;
</pre></div></div></div><div class="div3">
<h4><a name="participants" id="participants"></a>3.2.3 Participants</h4><p> In WS-CDL a "Participant" is a set of distinct roles that are implemented as
                        a service. That is the behaviors that relate to the roles are all
                        implemented by the same service. In a sense a "Participant" is akin to a Web
                        Service in which the WSDL that describes that service fulfills the
                        functional description needed to implement the collection of behaviors that
                        the roles require to meet their obligations and in which the Web Service is
                        implemented by the same logical entity albeit a organisation or line of
                        business within an organisation. </p><p> "Participants" turn out to be very important in a WS-CDL description, which is
                        why they are mandatory, because they represent the grounding of behaviors
                        into a process - the Web Service that implements them. This is important
                        because it governs our need to ground where things happen for the purpose of
                        behavioral type checking and in understanding who may share what
                        information. Normally roles do not share information, rather information is
                        explicitly exchanged to gain a common understanding in a landscape of peer
                        services. In the case of a "Participant" the information within a
                        "Participant" may be shared in the same sense of information existing in
                        some shared memory between different threads in a process. From a WS-CDL perspective
                        this sharing is based on the roles within the participant. Thus the roles may
                        share information within the boundary of the participant.</p><p> From a WS-CDL modeling perspective we might simply consider a "Participant"
                        to be a collection of roles that are represented physically as a single
                        service. In our example the roles would be members of their own
                            <code>participant</code> so there would be a one-to-one mapping. Thus
                        the roles <code>BuyerRole</code> and <code>SellerRole</code> would be in the
                        participants <code>Buyer</code> and <code>Seller</code> respectively. </p><p> In WS-CDL the participants for our example would be written as follows: </p><div class="exampleOuter">
<div class="exampleHeader"><a name="wscdlfragment2_1" id="wscdlfragment2_1"></a>Example: WS-CDL fragment</div><div class="exampleInner"><pre>
 &lt;participantType name="Seller"&gt;
     &lt;description type="documentation"&gt;
        Seller Participant
    &lt;/description&gt;
    &lt;roleType typeRef="tns:SellerRole"/&gt;
&lt;/participantType&gt;
&lt;participantType name="Buyer"&gt;
    &lt;description type="documentation"&gt;
        Buyer Participant
    &lt;/description&gt;
    &lt;roleType typeRef="tns:BuyerRole"/&gt;
&lt;/participantType&gt;
              </pre></div></div></div><div class="div3">
<h4><a name="relationships" id="relationships"></a>3.2.4 Relationships </h4><p> Once we have some roles defined we can define the relationships. In WS-CDL a
                        relationship declares an intention to interact between two roles. In a
                        sequence diagram this is akin to any two of the actors in a sequence diagram
                        that have connecting arrows in any direction. In our example we have
                        relationships between the <code>BuyerRole</code> and the
                        <code>SellerRole</code> and we would define it as the <code>relationship</code>
                        <code>Buyer2Seller</code> as follows: </p><div class="exampleOuter">
<div class="exampleHeader"><a name="wscdlfragment3" id="wscdlfragment3"></a>Example: WS-CDL Fragment</div><div class="exampleInner"><pre>
&lt;relationshipType name="Buyer2Seller"&gt;
    &lt;description type="documentation"&gt;
        Buyer Seller Relationship
    &lt;/description&gt;
    &lt;roleType typeRef="tns:BuyerRole"/&gt;
    &lt;roleType typeRef="tns:SellerRole"/&gt;
&lt;/relationshipType&gt;
</pre></div></div><p> A relationship comprises a name and two role types. We use the convention in
                        this document that the first role type defines the “from” role and the
                        second the “to” role and connect them with the number 2, thus all of our
                        relationships are of the form <code>from2to</code>. WS-CDL does not distinguish
                        between the "to" and "from" roles in a relationship. We simple use this convention
                        as a convenience. It does not imply any directionality with respect to the
                        <code>relationship</code> and is only a naming convention for the primer.</p><p> The abstract syntax for relationships is defined as follows: </p><div class="exampleOuter">
<div class="exampleHeader"><a name="wscdlsyntax2" id="wscdlsyntax2"></a>Example: WS-CDL relationshipType definition</div><div class="exampleInner"><pre>
relationshipType ::= 
&lt;relationshipType name="ncname"&gt;    
&lt;role type="qname" behavior="list of ncname"? /&gt;   
 &lt;role type="qname" behavior="list of ncname"? /&gt; 
&lt;/relationshipType&gt;
</pre></div></div></div><div class="div3">
<h4><a name="informationtypes" id="informationtypes"></a>3.2.5 Information Types</h4><p> The informationTypes in a choreography are used to describe the types for
                        many of the variables that we might use in a choreography. They are used to
                        describe the types of messages that we might send between roles in an
                        interaction. In our example we have information types we need to declare for
                        the "request", "response" and "faultResponse". We shall call these
                            <code>QuoteRequestType</code>, <code>QuoteResponseType</code> and
                            <code>QuoteResponseFaultType</code> respectively. </p><p> We shall need a few other information types for our tokens, token locators
                        and channel types. We shall explain why they are needed in the section that
                        deals with tokens locators and channel types. For the purpose of
                        completeness we shall define them here and they are called
                            <code>IdentityType</code> and <code>URI</code>. </p><p> In WS-CDL the full description is as follows: </p><div class="exampleOuter">
<div class="exampleHeader"><a name="wscdlfragment4" id="wscdlfragment4"></a>Example: WS-CDL Fragment</div><div class="exampleInner"><pre>
&lt;informationType name="QuoteRequestType" type="primer:QuoteRequestMsg"&gt;
    &lt;description type="documentation"&gt;
        Quote Request Message
    &lt;/description&gt;
&lt;/informationType&gt;
&lt;informationType name="QuoteResponseType" type="primer:QuoteResponseMsg"&gt;
    &lt;description type="documentation"&gt;
        Quote Response Message
    &lt;/description&gt;
&lt;/informationType&gt;
&lt;informationType name="QuoteResponseFaultType" type="primer:QuoteResponseFaultMsg"&gt;
    &lt;description type="documentation"&gt;
        Quote Response Fault Message
    &lt;/description&gt;
&lt;/informationType&gt;
&lt;informationType name="IdentityType" type="xsd:string"&gt;
    &lt;description type="documentation"&gt;
        Identity Attribute
    &lt;/description&gt;
&lt;/informationType&gt;
&lt;informationType name="URI" type="xsd:uri"&gt;
    &lt;description type="documentation"&gt;
        Reference Token For Channels
    &lt;/description&gt;
&lt;/informationType&gt;
</pre></div></div><p> The abstract syntax for defining information types is as follows: </p><div class="exampleOuter">
<div class="exampleHeader"><a name="wscdlsyntax3" id="wscdlsyntax3"></a>Example: WS-CDL informationType definition</div><div class="exampleInner"><pre>
informationType ::= 
&lt;informationType name="ncname" 
    type="qname"?|element="qname"? 
    exceptionType="true"|"false"? /&gt;
              </pre></div></div></div><div class="div3">
<h4><a name="tokens" id="tokens"></a>3.2.6 Tokens and locators</h4><p> A token provides a mechanism for defining an alias for an information type.
                        Token locators can then be defined to locate a particular token from
                        within a message type. We define some tokens and token locators here because
                        they are needed when defining channel types.</p><p> The key uses of tokens and locators are as follows:</p><ul><li><p>Tokens and their locators are used to define the identity attributes 
                        that ensure channel communication can be correlated. A token provides a 
                        mechanism for defining
                        an alias for an information type. Token locators can then be defined to 
                        locate this particular token from within a message type. Tokens and 
                        token locators are shown here to define channel types</p></li><li><p>The tokens we define will also be used to refer to a service reference, that
                        is a url, for a web service. In this context a token defines an alias to
                        the web service so that we can refer to it by a shorter name. In our
                        degenerate example we do not reference any web service url but for the sake
                        of completeness we define a URL token here. From an implementation perspective
                        as opposed to a pure usage perspective the channel type reference is needed to
                        understand what data type will be used to transfer an endpoint reference between
                        services when channel passing is enacted. We shall visit channel passing later on
                        in the intermediate section.</p>
                    <p> The two <code>informationTypes</code> included earlier are used as references in the token 
                        and token locator definitions.</p></li><li><p>Tokens and their locators are a mechanism to make the
                        choreography description more readable and more maintainable through the indirection
                        that they afford. Thus tokens and locators can be used as a simple alias mechanism to refer to
                        informationTypes that have been previously defined and to refer to information
                        within instances of informationTypes such as the purchase order number or the
                        amount or value of an order and even the time to live of a quote which itself
                        may timeout at some point.</p></li></ul><p> We define the tokens <code>id</code>, which represents the information type
                            <code>IdentityType</code>, and <code>URI</code>, which represents the
                        information type <code>URI</code>. 
                        
                        We define locators for <code>QuoteRequestType</code>,
                        <code>QuoteResponseType</code> and <code>QuoteResponseFaultType</code> that will 
                        cause the identity information, associated with token <code>id</code>, for
                        the <code>informationTypes</code> to be obtained 
                        from the contents of these messages when exchanged on the channel.
                        The full description of the tokens
                        and the locators is given below: </p><div class="exampleOuter">
<div class="exampleHeader"><a name="wscdlfragment5" id="wscdlfragment5"></a>Example: WS-CDL Fragment</div><div class="exampleInner"><pre>
&lt;token name="id" informationType="tns:IdentityType"&gt;
    &lt;description type="documentation"&gt;
        Identity token
    &lt;/description&gt;
&lt;/token&gt;
&lt;token name="URI" informationType="tns:URI"&gt;
    &lt;description type="documentation"&gt;
        Reference Token for Channels
    &lt;/description&gt;
&lt;/token&gt;
    
&lt;tokenLocator tokenName="tns:id" informationType="tns:QuoteRequestType" query="/quote/@id"&gt;
    &lt;description type="documentation"&gt;
        Identity for Quote Request
    &lt;/description&gt;
&lt;/tokenLocator&gt;
&lt;tokenLocator tokenName="tns:id" informationType="tns:QuoteResponseType" query="/quote/@key"&gt;
    &lt;description type="documentation"&gt;
        Identity for Quote Response
    &lt;/description&gt;
&lt;/tokenLocator&gt;
&lt;tokenLocator tokenName="tns:id" informationType="tns:QuoteResponseFaultType" query="/quote/@key"&gt;
    &lt;description type="documentation"&gt;
        Identity for Quote Response Fault
    &lt;/description&gt;
&lt;/tokenLocator&gt;
</pre></div></div><p>The abstract syntax for defining a tokens and token locators are as follows:</p><div class="exampleOuter">
<div class="exampleHeader"><a name="wscdlsyntax4" id="wscdlsyntax4"></a>Example: WS-CDL token definition</div><div class="exampleInner"><pre>
                            &lt;token  name="ncname"  
                                informationType="qname" /&gt;
                            
                            &lt;tokenLocator  tokenName="QName"
                                informationType="QName" 
                                part="NCName"?
                                query="XPath-expression" /&gt;
</pre></div></div></div><div class="div3">
<h4><a name="channels" id="channels"></a>3.2.7 Channels</h4><p> Finally, having defined our roles, information types, tokens and locators we
                        are in a position to define our channel. Channels are the principle
                        mechanism used to realize an interaction. </p><p> In our <code>interaction</code> we have a channel variables called <code>Buyer2SellerC</code>
                        that has a type. A channel is named, described, and then related to the roles 
                        that realize its behavioral interface.  A reference is provided to a 
                        service. The channel type will have the capability to derive its 
                        identity when in use.</p><p> The channel type we shall define is called <code>Buyer2SellerChannel</code>
                        and it is defined as follows: </p><div class="exampleOuter">
<div class="exampleHeader"><a name="wscdlfragment6" id="wscdlfragment6"></a>Example: WS-CDL Fragment</div><div class="exampleInner"><pre>
&lt;channelType name="Buyer2SellerChannel"&gt;
    &lt;description type="documentation"&gt;
        Buyer to Seller Channel Type
    &lt;/description&gt;
    &lt;roleType typeRef="tns:SellerRole"/&gt;
    &lt;reference&gt;
        &lt;token name="tns:URI"/&gt;
    &lt;/reference&gt;
    &lt;identity type="primary"&gt;
        &lt;token name="tns:id"/&gt;
    &lt;/identity&gt;
&lt;/channelType&gt;
</pre></div></div><p> Our channel type, named <code>Buyer2SellerChannel</code> connects us from
                        the <code>BuyerRole</code> to the <code>SellerRole</code>. The latter
                        implements the service at the end of the channel. The <code>reference</code>
                        simply refers to a service, in this case it does nothing for us because we
                        have no specific service to refer to. The <code>identity</code> is marked as
                            <code>primary</code> which means that the token <code>id</code> is
                        interpreted as a primary key for correlation. The token locators we defined
                        earlier are used together with the information type being sent or received
                        on a channel to determine the actual key which can be a composite key if
                        needed. In our example the identity is a single attribute. </p><p> The abstract syntax of a channel definition is provided below. We shall look
                        at the other part of a channel type definition in later sections: </p><div class="exampleOuter">
<div class="exampleHeader"><a name="wscdlsyntax5" id="wscdlsyntax5"></a>Example: WS-CDL Channel definition</div><div class="exampleInner"><pre>
channelType::= 
&lt;channelType  name="ncname"  
    usage="once"|"unlimited"?  
    action="request-respond"|"request"|"respond"? &gt;    

&lt;passing  channel="qname"
     action="request-respond"|"request"|"respond"?
    new="true"|"false"? /&gt;*    
&lt;role  type="qname"  behavior="ncname"? /&gt;

&lt;reference&gt;
&lt;token name="qname"/&gt;
&lt;/reference&gt;

&lt;identity&gt;       
&lt;token name="qname"/&gt;+    
&lt;/identity&gt;?

&lt;/channelType&gt;
</pre></div></div></div><div class="div3">
<h4><a name="choreographies" id="choreographies"></a>3.2.8 Choreographies</h4><p> We can now consider describing the choreography itself. To do this we shall:</p><ul><li>Declare the relationships, which act as an additional type check on the
                            channels.</li><li>Declare variables, for instances of the channel and the information types.</li><li>Define the interactions and their ordering constraints.</li></ul><p>The only <code>relationship</code> we have is <code>Buyer2Seller</code> and we prefix
                        this with the name space (tns).</p><p>Then we add the <code>variable declaration</code> based
                        on the channel and information types that we have already defined for each
                        of <code>Buyer2SellerC</code>, <code>quoteRequest</code>,
                            <code>quoteResponse</code> and <code>faultResponse</code> which
                        respectively are of types <code>Buyer2SellerChannel</code>,
                            <code>QuoteRequestType</code>, <code>QuoteResponseType</code> and
                            <code>QuoteReponseFaultType</code>. The variables are declared in a
                            <code>variableDefinitions</code> block. In WS-CDL it is important to
                        note that variables are always situated. That is variables are declared to
                        reside at one or more roles independently of each other. This is why the
                        variable declarations have a <code>roleTypes</code> attribute. In our
                        degenerate example we declare our variables to be situated at both the buyer
                        and the seller roles. The fact that two roles may have the same variable name
                        does not have any meaning in WS-CDL. Using the <code>roleTypes</code>
                        attribute in a variable declaration is simply for convenience. The same
                        variable name could be declared twice at two different roles and this is the
                        same as adding the two roles to the <code>roleTypes</code>. If you omit the
                            <code>roleTypes</code> the default behavior is to declare the variable
                        at all roles within this choreography where the roles are inferred from the
                        declared relationships that participate in it. </p><p> The WS-CDL fragment below shows how the <code>relationship</code> and <code>variable 
                        declarations</code> are put together. We have named
                        the choreography as <code>DegenerateChoreography</code>. We have also set
                        the <code>root</code> attribute to be <code>true</code> because this
                        choreography is the root of the interactions that will take place. When
                            <code>root</code> is set to <code>false</code> the choreography is
                        deemed not to start the interactions. </p><div class="exampleOuter">
<div class="exampleHeader"><a name="wscdlfragment8" id="wscdlfragment8"></a>Example: WS-CDL Fragment</div><div class="exampleInner"><pre>
&lt;choreography name="DegenerateChoreography" root="true"&gt;
    &lt;description type="documentation"&gt;
        The Choreography for the degenerate use case
    &lt;/description&gt;
    &lt;relationship type="tns:Buyer2Seller"/&gt;
    &lt;variableDefinitions&gt;
        &lt;variable name="Buyer2SellerC"
            channelType="tns:Buyer2SellerChannel"
            roleTypes="tns:BuyerRole tns:SellerRole"&gt;
            &lt;description type="documentation"&gt;
                Channel Variable
            &lt;/description&gt;
        &lt;/variable&gt;
        &lt;variable name="quoteRequest"
            informationType="tns:QuoteRequestType"
            roleTypes="tns:BuyerRole tns:SellerRole"&gt;
            &lt;description type="documentation"&gt;
                Request Message
            &lt;/description&gt;
        &lt;/variable&gt;
        &lt;variable name="quoteResponse"
            informationType="tns:QuoteResponseType"
            roleTypes="tns:BuyerRole tns:SellerRole"&gt;
            &lt;description type="documentation"&gt;
                Response Message
            &lt;/description&gt;
        &lt;/variable&gt;
        &lt;variable name="faultResponse"
            informationType="tns:QuoteResponseFaultType"
            roleTypes="tns:BuyerRole tns:SellerRole"&gt;
            &lt;description type="documentation"&gt;
                Fault Message
            &lt;/description&gt;
        &lt;/variable&gt;
    &lt;/variableDefinitions&gt;
</pre></div></div><p> To recap, we have</p><ul><li>defined all of our types,</li><li> and declared our
                            variables</li></ul><p>What remains is to define the interactions and their ordering
                        based on all that has preceded it. </p><p> We shall define our single interaction that we presented earlier within a
                        sequence. We don't have to do this but it is good practice to start with a
                        sequence and then add things to it. If you don't an explicit sequence then it is
                        implied. </p><p> Thus our example now looks like the following: </p><div class="exampleOuter">
<div class="exampleHeader"><a name="wscdlfragment9" id="wscdlfragment9"></a>Example: WS-CDL Fragment</div><div class="exampleInner"><pre>
&lt;?xml version="1.0" encoding="UTF-8"?&gt;
&lt;package
    name="DegenerateExample"
    author="Stephen Ross-Talbot"
    version="1.0"
    targetNamespace="http://www.w3.org/2002/ws/chor/primer"
    xmlns:tns="http://www.w3.org/2002/ws/chor/primer"
    xmlns="http://www.w3.org/2005/10/cdl"
    xmlns:xsd="http://www.w3.org/2001/XMLSchema"
    xmlns:primer="http://www.w3.org/2002/ws/chor/primer"&gt;
    &lt;description type="documentation"&gt;
        Degenerate Example for Primer
    &lt;/description&gt;
    
	…

    &lt;choreography name="DegenerateChoreography" root="true"&gt;
        &lt;description type="documentation"&gt;
            The Choreography for the degenerate use case
        &lt;/description&gt;
   		…

	  &lt;sequence&gt;
        &lt;interaction name="QuoteElicitation" operation="getQuote" channelVariable="tns:Buyer2SellerC"&gt;
            &lt;description type="documentation"&gt;
                Quote Elicitation
            &lt;/description&gt;
            &lt;participate relationshipType="tns:Buyer2Seller" fromRoleTypeRef="tns:BuyerRole" toRoleTypeRef="tns:SellerRole"/&gt;
            &lt;exchange name="QuoteRequest" informationType="tns:QuoteRequestType" action="request"&gt;
                &lt;description type="documentation"&gt;
                    Quote Request Message Exchange
                &lt;/description&gt;
                &lt;send variable="cdl:getVariable('quoteRequest','','')"/&gt;
                &lt;receive variable="cdl:getVariable('quoteRequest','','')"/&gt;
            &lt;/exchange&gt;
            &lt;exchange name="QuoteResponse" informationType="tns:QuoteResponseType" action="respond"&gt;
                &lt;description type="documentation"&gt;
                    Quote Response Message Exchange
                &lt;/description&gt;
                &lt;send variable="cdl:getVariable('quoteResponse','','')"/&gt;
                &lt;receive variable="cdl:getVariable('quoteResponse','','')"/&gt;
            &lt;/exchange&gt;
            &lt;exchange name="QuoteResponseFault" informationType="tns:QuoteResponseFaultType" action="respond" faultName="InvalidProductFault"&gt;
                &lt;description type="documentation"&gt;
                    Quote Response Fault Exchange
                &lt;/description&gt;
                &lt;send variable="cdl:getVariable('faultResponse','','')"/&gt;
                &lt;receive variable="cdl:getVariable('faultResponse','','')"/&gt;
            &lt;/exchange&gt;
        &lt;/interaction&gt;
	  &lt;/sequence&gt;
	&lt;/choreography&gt;
&lt;/package&gt;
</pre></div></div><p> In our example above there are three exchanges within a single interaction
                        which is within a sequence. The first exchange is called
                        <code>QuoteRequest</code> is based on a operation defined in the
                        interaction called <code>getQuote</code> and this occurs over a channel
                        variable called <code>BuyerSellerC</code>. This exchange is based on a
                        message being sent from the buyer to seller which is of type
                            <code>tns:QuoteRequestType</code> and it is marked as a
                        <code>request</code>. The exchange also defines the variables that will be
                        used to send and to receive the content of the message of type
                            <code>tns:QuoteResponseType</code>, in each case the variable is called
                            <code>quoteRequest</code> and appears inside a cdl function which
                        understands how to get a variable called <code>cdl:getVariable(...)</code>.
                        The first parameter to this function is the name of the variable in the
                        choreography, the second and third parameters in this case are left blank.
                        The roles for these variables are inferred from the direction of the
                        exchange and so we can infer ourselves that <code>quoteRequest</code> was
                        populated before the interaction at the buyer and then when the exchange
                        completes the seller's <code>quoteRequest</code> variable is populated with
                        the same values. The variables are not shared but after the exchange they
                        hold common knowledge between the roles that participate in the exchange. </p><p> The second exchange is similar to the first except that it is marked as a
                            <code>respond</code>. As such we can infer the direction is from the
                        seller back to the buyer. </p><p> The third and final exchange occurs if the seller finds a fault with the
                        request and as a result decides to send a response, which is why it is
                        marked as a <code>respond</code>. Because this is a fault, we also declare
                        that the exchange has a <code>faultName</code>, in this case we have called
                        the faultName <code>InvalidProduct</code> to denote that the product which
                        is the subject of the quote request is invalid in some way. It could be
                        because it does not exist or indeed because no stock exists at present and
                        so no quote can be provided. The decision as to which one it really is, is
                        obscured. </p><p> The abstract syntax for a choreography, thus far, is as follows: </p><div class="exampleOuter">
<div class="exampleHeader"><a name="wscdlsyntax6" id="wscdlsyntax6"></a>Example: WS-CDL Choreography definition</div><div class="exampleInner"><pre>
choreography ::= 	            
	  &lt;choreography  name="ncname"
	            complete="xsd:boolean XPath-expression"?
	            isolation="true"|"false"?
	            root="true"|"false"?
	            coordination="true"|"false"? &gt;
	      &lt;relationship  type="qname" /&gt;+
          variableDefinitions?
 
	      Activity-Notation*
	            
	  &lt;/choreography&gt;
	            
variableDefintions ::= 
	  &lt;variableDefinitions&gt;
	      &lt;variable   name="ncname"
	          informationType="qname"?|channelType="qname"?
	          roleTypes="list of qname"? /&gt;+
	  &lt;/variableDefinitions&gt;
	  
Activity-Notation ::= 
    &lt;sequence&lt;
        &lt;interaction  name="NCName"
	        channelVariable="QName"
	        operation="NCName"&gt;
	        &lt;description;&gt;&lt;/descriptions&gt;
	                
	        &lt;participate  relationshipType="QName"
	            fromRoleTypeRef="QName" toRoleTypeRef="QName" /&gt;
	                
	        &lt;exchange  name="NCName"
	            faultName="QName"?
	            informationType="QName"?|channelType="QName"?
	            action="request"|"respond" &gt;
	            &lt;send variable="XPath-expression"?/&gt;
	            &lt;receive variable="XPath-expression"?/&gt;
	        &lt;/exchange&gt;*
	    &lt;/interaction&gt;*
    &lt;/sequence&lt;
	        </pre></div></div></div><div class="div3">
<h4><a name="completeexample" id="completeexample"></a>3.2.9 Complete Example</h4><p> Having described all of the necessary types and having described the salient
                        aspects of the Choreography we present the complete example. </p><div class="exampleOuter">
<div class="exampleHeader"><a name="wscdlfragment10" id="wscdlfragment10"></a>Example: WS-CDL Complete Example</div><div class="exampleInner"><pre>
&lt;?xml version="1.0" encoding="UTF-8"?&gt;
&lt;package 
    name="DegenerateExample" 
    author="Stephen Ross-Talbot" 
    version="1.0" 
    targetNamespace="http://www.w3.org/2002/ws/chor/primer" 
    xmlns:tns="http://www.w3.org/2002/ws/chor/primer" 
    xmlns="http://www.w3.org/2005/10/cdl" 
    xmlns:xsd="http://www.w3.org/2001/XMLSchema" 
    xmlns:primer="http://www.w3.org/2002/ws/chor/primer"&gt;
    &lt;description type="documentation"&gt;
        Degenerate Example for Primer
    &lt;/description&gt;
    
    &lt;informationType name="QuoteRequestType" type="primer:QuoteRequestMsg"&gt;
        &lt;description type="documentation"&gt;
            Quote Request Message
        &lt;/description&gt;
    &lt;/informationType&gt;
    &lt;informationType name="QuoteResponseType" type="primer:QuoteResponseMsg"&gt;
        &lt;description type="documentation"&gt;
            Quote Response Message
        &lt;/description&gt;
    &lt;/informationType&gt;
    &lt;informationType name="QuoteResponseFaultType" type="primer:QuoteResponseFaultMsg"&gt;
        &lt;description type="documentation"&gt;
            Quote Response Fault Message
        &lt;/description&gt;
    &lt;/informationType&gt;
    &lt;informationType name="IdentityType" type="xsd:string"&gt;
        &lt;description type="documentation"&gt;
            Identity Attribute
        &lt;/description&gt;
    &lt;/informationType&gt;
    &lt;informationType name="URI" type="xsd:uri"&gt;
        &lt;description type="documentation"&gt;
            Reference Token For Channels
        &lt;/description&gt;
    &lt;/informationType&gt;

    &lt;token name="id" informationType="tns:IdentityType"&gt;
        &lt;description type="documentation"&gt;
            Identity token
        &lt;/description&gt;
    &lt;/token&gt;
    &lt;token name="URI" informationType="tns:URI"&gt;
        &lt;description type="documentation"&gt;
            Reference Token for Channels
        &lt;/description&gt;
    &lt;/token&gt;
    &lt;tokenLocator tokenName="tns:id" informationType="tns:QuoteRequestType" query="/quote/@id"&gt;
        &lt;description type="documentation"&gt;
            Identity for Quote Request
        &lt;/description&gt;
    &lt;/tokenLocator&gt;
    &lt;tokenLocator tokenName="tns:id" informationType="tns:QuoteResponseType" query="/quote/@key"&gt;
        &lt;description type="documentation"&gt;
            Identity for Quote Response
        &lt;/description&gt;
    &lt;/tokenLocator&gt;
    &lt;tokenLocator tokenName="tns:id" informationType="tns:QuoteResponseFaultType" query="/quote/@key"&gt;
        &lt;description type="documentation"&gt;
            Identity for Quote Response Fault
        &lt;/description&gt;
    &lt;/tokenLocator&gt;

    &lt;roleType name="BuyerRole"&gt;
        &lt;description type="documentation"&gt;
            Role for Buyer
        &lt;/description&gt;
        &lt;behavior name="BuyerBehavior" interface="BuyerBehaviorInterface"&gt;
            &lt;description type="documentation"&gt;
                Behavior for Buyer Role
            &lt;/description&gt;
        &lt;/behavior&gt;
    &lt;/roleType&gt;
    &lt;roleType name="SellerRole"&gt;
        &lt;description type="documentation"&gt;
            Role for Seller
        &lt;/description&gt;
        &lt;behavior name="SellerBehavior" interface="SellerBehaviorInterface"&gt;
            &lt;description type="documentation"&gt;
                Behavior for Seller
            &lt;/description&gt;
        &lt;/behavior&gt;
    &lt;/roleType&gt;

    &lt;relationshipType name="Buyer2Seller"&gt;
        &lt;description type="documentation"&gt;
            Buyer Seller Relationship
        &lt;/description&gt;
        &lt;roleType typeRef="tns:BuyerRole"/&gt;
        &lt;roleType typeRef="tns:SellerRole"/&gt;
    &lt;/relationshipType&gt;

    &lt;participantType name="Seller"&gt;
        &lt;description type="documentation"&gt;
            Seller Participant
        &lt;/description&gt;
        &lt;roleType typeRef="tns:SellerRole"/&gt;
    &lt;/participantType&gt;
    &lt;participantType name="Buyer"&gt;
        &lt;description type="documentation"&gt;
            Buyer Participant
        &lt;/description&gt;
        &lt;roleType typeRef="tns:BuyerRole"/&gt;
    &lt;/participantType&gt;

    &lt;channelType name="Buyer2SellerChannel"&gt;
        &lt;description type="documentation"&gt;
            Buyer to Seller Channel Type
        &lt;/description&gt;
        &lt;roleType typeRef="tns:SellerRole"/&gt;
        &lt;reference&gt;
            &lt;token name="tns:URI"/&gt;
        &lt;/reference&gt;
        &lt;identity type="primary"&gt;
            &lt;token name="tns:id"/&gt;
        &lt;/identity&gt;
    &lt;/channelType&gt;
    
    &lt;choreography name="DegenerateChoreography" root="true"&gt;
        &lt;description type="documentation"&gt;
            The Choreography for the degenerate use case
        &lt;/description&gt;&lt;relationship type="tns:Buyer2Seller"/&gt;
        &lt;variableDefinitions&gt;
            &lt;variable name="Buyer2SellerC" 
                channelType="tns:Buyer2SellerChannel" 
                roleTypes="tns:BuyerRole tns:SellerRole"&gt;
                &lt;description type="documentation"&gt;
                    Channel Variable
                &lt;/description&gt;
            &lt;/variable&gt;
            &lt;variable name="quoteRequest" 
                informationType="tns:QuoteRequestType" 
                roleTypes="tns:BuyerRole tns:SellerRole"&gt;
                &lt;description type="documentation"&gt;
                    Request Message
                &lt;/description&gt;
            &lt;/variable&gt;
            &lt;variable name="quoteResponse" 
                informationType="tns:QuoteResponseType" 
                roleTypes="tns:BuyerRole tns:SellerRole"&gt;
                &lt;description type="documentation"&gt;
                    Response Message
                &lt;/description&gt;
            &lt;/variable&gt;
            &lt;variable name="faultResponse" 
                informationType="tns:QuoteResponseFaultType" 
                roleTypes="tns:BuyerRole tns:SellerRole"&gt;
                &lt;description type="documentation"&gt;
                    Fault Message
                &lt;/description&gt;
            &lt;/variable&gt;
        &lt;/variableDefinitions&gt;
        
	&lt;sequence&gt;
	        &lt;interaction name="QuoteElicitation" operation="getQuote" channelVariable="tns:Buyer2SellerC"&gt;
	            &lt;description type="documentation"&gt;
	                Quote Elicitation
	            &lt;/description&gt;
	            &lt;participate relationshipType="tns:Buyer2Seller" fromRoleTypeRef="tns:BuyerRole" toRoleTypeRef="tns:SellerRole"/&gt;
	            &lt;exchange name="QuoteRequest" informationType="tns:QuoteRequestType" action="request"&gt;
	                &lt;description type="documentation"&gt;
	                    Quote Request Message Exchange
	                &lt;/description&gt;
	                &lt;send variable="cdl:getVariable('quoteRequest','','')"/&gt;
	                &lt;receive variable="cdl:getVariable('quoteRequest','','')"/&gt;
	            &lt;/exchange&gt;
	            &lt;exchange name="QuoteResponse" informationType="tns:QuoteResponseType" action="respond"&gt;
	                &lt;description type="documentation"&gt;
	                    Quote Response Message Exchange
	                &lt;/description&gt;
	                &lt;send variable="cdl:getVariable('quoteResponse','','')"/&gt;
	                &lt;receive variable="cdl:getVariable('quoteResponse','','')"/&gt;
	            &lt;/exchange&gt;
	            &lt;exchange name="QuoteResponseFault" informationType="tns:QuoteResponseFaultType" action="respond" faultName="InvalidProductFault"&gt;
	                &lt;description type="documentation"&gt;
	                    Quote Response Fault Exchange
	                &lt;/description&gt;
	                &lt;send variable="cdl:getVariable('faultResponse','','')"/&gt;
	                &lt;receive variable="cdl:getVariable('faultResponse','','')"/&gt;
	            &lt;/exchange&gt;
	        &lt;/interaction&gt;
	&lt;/sequence&gt;
    &lt;/choreography&gt;
&lt;/package&gt;
              </pre></div></div></div></div></div><div class="div1">
<h2><a name="intermediate" id="intermediate"></a>4 Intermediate Topics</h2><p>In the previous section we introduced the most basic of features of WS-CDL using a degenerate
	       example to illustrate how to write down a choreography description. In this section we shall 
	       describe how to add further structure to a choreography.  In this section we provide the reader 
	       with all of the facilities that one would need to write down a choreography that could actually 
	       be used in practice. It provides what we consider to be the basic features for real systems 
	       described in WS-CDL.</p><p>We shall describe how to use variables, loops, conditionals, we shall describe how to modularize
	       a choreography description, how to describe exceptions and what to do about them and how they
	       relate to WSDL faults.</p><p>In order to best illustrate all of this we shall revisit our degenerate example and
                some further complexity to it and then we shall describe it using WS-CDL. Throughout
		the course of this section we shall continue to add more to our example as a means
		of illustrating WS-CDL.</p><div class="div2">
<h3><a name="intermediateexample" id="intermediateexample"></a>4.1  The Intermediate Example </h3><p>We go back to our degenerate example which had a single interaction which we wrote down as a single
		UML sequence diagram. We now add a little more to the example to make it more real. We shall concentrate
		on the process of bartering whereby the buyer requests a price from the seller and enters some sort of
		repetitive behavior in which the buyer requests an updated price from the seller and continues until the 
		buyer decides to order the goods at the prevailing price. This example is shown in the UML sequence 
		diagram below:</p><img src="pictures/Figure3.png" alt="Diagram of the simple bartering process" /><p>In the example we can see that we need to understand when a fault has occurred on the initial request
		for quote, the <code>getQuote</code> operation. We can see that this has three message exchanges which
		are <code>quoteRequest</code>, <code>quoteResponse</code> and <code>quoteFault</code> respectively.
		They are exactly the same as the degenerate example we looked at earlier.</p><p>We shall need to determine which response we got back. If the response was not a fault then we can
		continue a process in which the buyer sends an <code>updateQuote</code> operation that includes the
		last price to see if a better price can be gleaned from the seller.</p><p>When the buyer decides to act on a price the buyer simply invokes an <code>order</code> operation at
		the seller role and we terminate the bartering process by setting a variable to terminate the process.
		Because variables are situated we shall need to place the variable at a specific role to handle this.
		In our model we shall place this variable, <code>barteringDone</code> which is a <code>Boolean</code>
		at the <code>SellerRole</code>.</p><p>To model this is WS-CDL we shall need to define a some repetitive behavior that is controlled by
		our <code>barteringDone</code> variable.
		There are other ways of doing this which are counter intuitive but for now we shall use
		just use our variable to control the repetition.</p><p>Having set out an the intermediate example we shall now look at extending it. In many systems
		   quotes have a duration associated with them. In technology terms this has given rise to the notion
		   of a duration on a message in standards such as JMS and WS-RM. The durations in most if not all 
		   cases are set as part of a business policy rather than being driven by technology and in this 
		   extended example we add the notion of a duration to a quote. This is presented in the sequence
		   diagram below. We shall set our duration at <code>30 seconds</code> and show how we do this in
		    a choreographic description using WS-CDL.</p><img src="pictures/Figure4.png" alt="Diagram of the simple bartering process with a quote duration" /><p>The most important decisions we shall make when we model this are who sets the duration and
           who owns the clock by which we measure the duration, in effect at what role do we situate the
            duration.</p><p>When we model this we shall situate the duration at the <code>SellerRole</code> and see what effect
           this has on our WS-CDL model and then situate it at the <code>BuyerRole</code> and see what the
            difference is between the two models. It is our opinion that a duration of this nature really belongs
           at the <code>SellerRole</code></p><p>In our final additions to our intermediate example we shall add some further roles to describe
           the additional collaborations between a <code>SellerRole</code>, a <code>CreditAgencyRole</code> -
           this role will be responsible for providing credit checking facilities, a <code>ShippingRole</code> -
           this role will be responsible for providing onward shipping of the good bought and shipping details
           which need to be delivered back to the <code>BuyerRole</code>.</p><img src="pictures/Figure5.png" alt="Diagram of the basic buyer, seller, credit agency and shipper" /><p>We shall have some key decision to make how we model this example too. We shall model it first as
           a set of <code>workunits</code> that simply follow one another, a sequence.</p><p>We shall also model it
           as a set of dependent <code>workunits</code> which are running concurrently and in which the act 
           of credit checking will depend on the completion of the bartering process and so will be dependent
           on a variables value that denotes the completion of the bartering process and similarly between the
            act of credit checking and shipping.</p><img src="pictures/Figure6.png" alt="Diagram of the dependent processes" /><p>Finally shall model the delivery of the necessary delivery details
           in two ways. In the first instance we shall simply have the <code>SellerRole</code> receive the details
           from the <code>ShipperRole</code> and pass them back to the <code>BuyerRole</code> and in the second 
           instance we shall model it as a callback from the <code>ShipperRole</code> directly back to the
           <code>BuyerRole</code>. The former would require a-priori knowledge of the buyer whereas the latter
           does not and so would be a better model.</p><p>It should be noted that while the sequence diagrams are instructive at an abstract level they do not 
           record the level of detail
           needed to document the external observable behavior to fully describe 
           these examples. In order to convey enough information to enable developers to construct the necessary
           services further annotation and textual explanation is needed. The benefit of doing this in
           WS-CDL is that we can describe all that is needed from an externally observable behavior perspective,
           akin to a high level design, and so facilitate service construction and onward testing
           of services guaranteeing interoperability throughout.</p><img src="pictures/Figure7.png" alt="Diagram of the callback solution" /><div class="div3">
<h4><a name="variables" id="variables"></a>4.1.1 Variables</h4><p>To continue with our example above we need to declare a variable that can be used to
		   control the bartering process. We shall call this variable <code>barteringDone</code> and
		   we shall give it a type of <code>xsd:boolean</code> which we shall declare as an information
		   type in WS-CDL called <code>Boolean</code>. In WS-CDL variables are always situated (or 
		   located). That is they are defined at one or more roles. We have seen this already when we 
		   defined the channels and messages for the degenerate example. For our <code>barteringDone</code>
		   we need to consider where the control for the value of the variable will be located. We need
		   decide on the master for this process and the slaves. We shall select the <code>SellerrRole</code>
		   as the master and so situate our variable at this role.</p><p> It is important to remember that when variables are manipulated in some way
                    the manipulation is also situated. If a variable is situated at one role then it becomes
		    clear that manipulation of that variable is also situation at the same place. When a variable
		    is situated at more than one role we need to be clear about where manipulation takes place because
		    the value of a variable after manipulation is scoped to that role and where it is situated.</p><p>
		    Variables are not shared. Rather they exist at
                    the roles they are defined at and only have the same value if some explicit
                    exchange occurs that describes how they become the same value. The fact that
                    they have they may have the same name has no bearing on the semantics of a
                    variable as is no guarantee that they will ever hold the same content, but of
                    course it would be normal to think that they might simply because they bear the
                    same name. So it is good practice in describing choreographies to name variables
                    well so that clarity can be preserved. </p><p> The scope of a situated variable, we say <code>quoteRequest@buyer</code>, is at
                    it's role. So in this case it is at the <code>buyer</code>. The use of the
                    <code>@</code> sign has no significance in WS-CDL. We only use it here as a
                    short hand to indicate where the variable is located. The same short hand is
                    used in the formal description of WS-CDL which can be found at <code>SOME URL TO
                    MARCO'S WORK</code>. </p><p> If we tried to copy <code>quoteRequest@buyer</code> to
                    <code>quoteRequest@seller</code> we would exceed the scoping contract. It would
                    not be allowed. If we tried to copy <code>quoteRequest@buyer</code>, in whole or
                    in part, to <code>x@buyer</code>, where x is some variable declared at buyer,
                    then it would succeed. The variable <code>x@buyer</code> after the copy was
                    completed, would indeed have the same value as <code>quoteRequest@buyer</code>.
                    If we wanted to ensure that <code>quoteRequest@seller</code> was populated with
                    the same values as <code>quoteRequest@buyer</code> we would use an interaction
                    in which the variables <code>quoteRequest@buyer</code> and
                    <code>quoteRequest@seller</code> are in the appropriate send and receive
                    parts of the exchange within the interaction, much as we did in our degenerate
                    example in the previous section. </p><p> Our <code>barteringDone</code> variable will be situated at the <code>SellerRole</code> 
		    which we shall deem to be in control of the loop. The WS-CDL fragments for the information type
                    and the variable declaration are shown below: </p><div class="exampleOuter">
<div class="exampleHeader"><a name="wscdlfragment4f" id="wscdlfragment4f"></a>Example: WS-CDL Fragment</div><div class="exampleInner"><pre>
                &lt;informationType name="BooleanType" type="xsd:boolean"&gt;
                &lt;description type="documentation"&gt;
                Useful boolean type
                &lt;/description&gt;
                &lt;/informationType&gt;
                .....
    &lt;choreography name="IntermediateChoreography" root="true"&gt;
                &lt;description type="documentation"&gt;
                The Choreography for the intermediate use case
                &lt;/description&gt;&lt;relationship type="tns:Buyer2Seller"/&gt;
        &lt;variableDefinitions&gt;
                &lt;variable name="barteringDone" 
                informationType="tns:Boolean" 
                roleTypes="tns:SellerRole"&gt;
                &lt;description type="documentation"&gt;
                Used to control a loop for bartering between buyer and seller
                &lt;/description&gt;
                &lt;/variable&gt;
                .......
        &lt;/variableDefinitions&gt;
                .......
    &lt;/choreography&gt;
            </pre></div></div><p> We may define other variables throughout the course of this section and we shall
                    indicate where they are situated and what type they are as narrative. </p></div><div class="div3">
<h4><a name="workunits" id="workunits"></a>4.1.2 Non Blocking Workunits</h4><p> In this section we look at repetitive workunits and come back to conditional workunits. 
                    A workunit provides repetition based on
                    some predicate and provides a way of adding conditionality. Workunits
                    in general have a Body that includes the other choreography structuring
                    constructs. In the specification these structuring constructs are called
                    <code>ActionNotation</code>. The <code>ActionNotation</code> is only performed 
                    if the workunits attributes
                    enable it to be performed. In the case of a simple conditional the guard condition (G) is
                    evaluated and if true the Body is performed. In the case of a simple
                    repetition the guard condition (G) is omitted and so will
                    always evaluate to true, the Body is therefore
                    performed and if the repetition condition (R) evaluates to true it is performed
                    again and again until the repetition condition evaluates to false. The more complex
                    scenario is when a guard condition (G) and a repetition condition (R) are both present.
                    In this case the workunit is dependent on the guard condition first and then the
                    repetition condition afterwards. We present the general structure of, non-blocking (B is False), 
                    workunits as follows:
                </p><div class="exampleInner"><pre> 
                    Workunit (G) (R) (B is False) 
                        Body 
                </pre></div><p>
                    
                    Where G and R are of type <code>xsd:boolean</code> Xpath expressions and B is an 
                    <code>xsd:boolean</code> constrained to be
                    <code>true</code> or <code>false</code>. A typical order of evaluation is as follows: 
                </p><div class="exampleInner"><pre>
                    (G) Body (R G) Body (R G) Body 
                </pre></div><p>Which equates to (in pseudo code):</p><div class="exampleInner"><pre>
                    while (G) 
                    { 
                        Body 
                    } until (!R)
                </pre></div><p>IF G is always True THEN it equates to:</p><div class="exampleInner"><pre>
                    repeat 
                    { 
                        Body 
                    } until (!R) 
                </pre></div><p>IF R is always False THEN it equates to:</p><div class="exampleInner"><pre>
                    if (G) 
                    { 
                        Body 
                    }
                </pre></div><div class="div4">
<h5><a name="repeatingworkunits" id="repeatingworkunits"></a>4.1.2.1 Repetition</h5><p> In order to model our repetitive behavior in which, once the buyer has a quote, the
                        buyer engages in a repetitive bartering process in order to get an acceptable price, we
                        need to use a workunit that has some repetition condition. The example below used a
                        workunit that we have named "Repeat until bartering has been
                        completed" that is  our repeating workunit for this bartering process.
                        In it we have a condition that governs the repetition, namely 
                        <code>barteringDone = false</code>. This
                        condition evaluates the declared variable "barteringDone" to see if it is
                        false. If false the workunit proceeds and repeats until such time as the
                        condition ("barteringDone = false") evaluates to true. Within the workunit
                        we have a number of things that can happen, our choice. Either a
                        <code>silentAction</code> occurs - more of what this actually means
                        later - that models the timeout of a quote and we situate this at the
                        <code>BuyerRole</code>, or a <code>sequence</code> occurs in which the
                        Buyer accepts the quote and engages in the act of buying, or a different
                        <code>sequence</code> that models the Buyer updating the quote - in
                        effect requesting a new price. Only one of these can occur within the choice
                        at any one time. The second sequence includes setting our control variable
                        <code>barteringDone</code> to <code>true</code> and it is this that
                        causes the repetition to terminate.</p><p> Note that the repetition is situated at the <code>SellerRole</code> as is the
                        assignment to the variable <code>barteringDone</code>. </p><div class="exampleOuter">
<div class="exampleHeader"><a name="wscdlfragment10f" id="wscdlfragment10f"></a>Example: WS-CDL Fragment</div><div class="exampleInner"><pre>
&lt;?xml version="1.0" encoding="UTF-8"?&gt;
&lt;package name="IntermediateExample" author="Stephen Ross-Talbot" version="1.0"
    targetNamespace="http://www.w3.org/2002/ws/chor/primer"
    xmlns:tns="http://www.w3.org/2002/ws/chor/primer" xmlns="http://www.w3.org/2005/10/cdl"
    xmlns:xsd="http://www.w3.org/2001/XMLSchema"
    xmlns:primer="http://www.w3.org/2002/ws/chor/primer"&gt;
    &lt;description type="documentation"&gt;Intermediate Example: Simple Bartering Process&lt;/description&gt;
                            
    &lt;informationType name="QuoteRequestType" type="primer:QuoteRequestMsg"&gt;
        &lt;description type="documentation"&gt;Quote Request Message&lt;/description&gt;
    &lt;/informationType&gt;
    &lt;informationType name="QuoteResponseType" type="primer:QuoteResponseMsg"&gt;
        &lt;description type="documentation"&gt;Quote Response Message&lt;/description&gt;
    &lt;/informationType&gt;
    &lt;informationType name="QuoteResponseFaultType" type="primer:QuoteResponseFaultMsg"&gt;
        &lt;description type="documentation"&gt;Quote Response Fault Message&lt;/description&gt;
    &lt;/informationType&gt;
    &lt;informationType name="IdentityType" type="xsd:string"&gt;
        &lt;description type="documentation"&gt;Identity Attribute&lt;/description&gt;
    &lt;/informationType&gt;
    &lt;informationType name="URI" type="xsd:uri"&gt;
        &lt;description type="documentation"&gt;Reference Token For Channels&lt;/description&gt;
    &lt;/informationType&gt;
    &lt;informationType name="OrderRequestType" type="primer:OrderRequestMessage"&gt;
        &lt;description type="documentation"&gt;Order Request Message&lt;/description&gt;
    &lt;/informationType&gt;
    &lt;informationType name="OrderResponseType" type="primer:OrderResponseMessage"&gt;
        &lt;description type="documentation"&gt;Order Response Message&lt;/description&gt;
    &lt;/informationType&gt;
    &lt;informationType name="Boolean" type="xsd:boolean"&gt;
        &lt;description type="documentation"&gt;Boolean type for use in loop control&lt;/description&gt;
    &lt;/informationType&gt;
                            
    &lt;token name="id" informationType="tns:IdentityType"&gt;
        &lt;description type="documentation"&gt;Identity token&lt;/description&gt;
    &lt;/token&gt;
    &lt;token name="URI" informationType="tns:URI"&gt;
        &lt;description type="documentation"&gt;Reference Token for Channels&lt;/description&gt;
    &lt;/token&gt;
                            
    &lt;tokenLocator tokenName="tns:id" informationType="tns:QuoteRequestType" query="/quote/@id"&gt;
        &lt;description type="documentation"&gt;Identity for QuoteRequestType&lt;/description&gt;
    &lt;/tokenLocator&gt;
    &lt;tokenLocator tokenName="tns:id" informationType="tns:QuoteResponseType" query="/quote/@key"&gt;
        &lt;description type="documentation"&gt;Identity for QuoteResponseType&lt;/description&gt;
    &lt;/tokenLocator&gt;
    &lt;tokenLocator tokenName="tns:id" informationType="tns:QuoteResponseFaultType"
        query="/quote/@key"&gt;
        &lt;description type="documentation"&gt;Identity for QuoteResponseFaultType&lt;/description&gt;
    &lt;/tokenLocator&gt;
    &lt;tokenLocator tokenName="tns:id" informationType="tns:OrderRequestType" query="/order/@orderId"&gt;
        &lt;description type="documentation"&gt;Identity for OrderRequestType&lt;/description&gt;
    &lt;/tokenLocator&gt;
    &lt;tokenLocator tokenName="tns:id" informationType="tns:OrderResponseType" query="/order/@orderId"&gt;
        &lt;description type="documentation"&gt;Id for OrderResponseType&lt;/description&gt;
    &lt;/tokenLocator&gt;
                            
    &lt;roleType name="BuyerRole"&gt;
        &lt;description type="documentation"&gt;Role for Buyer&lt;/description&gt;
        &lt;behavior name="BuyerBehavior" interface="BuyerBehaviorInterface"&gt;
            &lt;description type="documentation"&gt;Behavior for Buyer Role&lt;/description&gt;
        &lt;/behavior&gt;
    &lt;/roleType&gt;
    &lt;roleType name="SellerRole"&gt;
        &lt;description type="documentation"&gt;Role for Seller&lt;/description&gt;
        &lt;behavior name="SellerBehavior" interface="SellerBehaviorInterface"&gt;
            &lt;description type="documentation"&gt;Behavior for Seller&lt;/description&gt;
        &lt;/behavior&gt;
    &lt;/roleType&gt;
                            
    &lt;relationshipType name="Buyer2Seller"&gt;
        &lt;description type="documentation"&gt;Buyer Seller Relationship&lt;/description&gt;
        &lt;roleType typeRef="tns:BuyerRole"/&gt;
        &lt;roleType typeRef="tns:SellerRole"/&gt;
    &lt;/relationshipType&gt;
                            
    &lt;participantType name="Seller"&gt;
        &lt;description type="documentation"&gt;Seller Participant&lt;/description&gt;
        &lt;roleType typeRef="tns:SellerRole"/&gt;
    &lt;/participantType&gt;
    &lt;participantType name="Buyer"&gt;
        &lt;description type="documentation"&gt;Buyer Participant&lt;/description&gt;
        &lt;roleType typeRef="tns:BuyerRole"/&gt;
    &lt;/participantType&gt;
                            
    &lt;channelType name="Buyer2SellerChannel"&gt;
        &lt;description type="documentation"&gt;Buyer to Seller Channel Type&lt;/description&gt;
        &lt;roleType typeRef="tns:SellerRole"/&gt;
        &lt;reference&gt;
            &lt;token name="tns:URI"/&gt;
        &lt;/reference&gt;
        &lt;identity type="primary"&gt;
            &lt;token name="tns:id"/&gt;
        &lt;/identity&gt;
    &lt;/channelType&gt;


    &lt;choreography name="IntermediateChoreography" root="true"&gt;
        &lt;description type="documentation"&gt;The Choreography for the degenerate use case&lt;/description&gt;
        &lt;relationship type="tns:Buyer2Seller"/&gt;
                            
        &lt;variableDefinitions&gt;
            &lt;variable name="Buyer2SellerC" channelType="tns:Buyer2SellerChannel"
                roleTypes="tns:BuyerRole tns:SellerRole"&gt;
                &lt;description type="documentation"&gt;Channel Variable&lt;/description&gt;
            &lt;/variable&gt;
            &lt;variable name="quoteRequest" informationType="tns:QuoteRequestType"
                roleTypes="tns:BuyerRole tns:SellerRole"&gt;
                &lt;description type="documentation"&gt;Request Message&lt;/description&gt;
            &lt;/variable&gt;
            &lt;variable name="quoteResponse" informationType="tns:QuoteResponseType"
                roleTypes="tns:BuyerRole tns:SellerRole"&gt;
                &lt;description type="documentation"&gt;Response Message&lt;/description&gt;
            &lt;/variable&gt;
            &lt;variable name="faultResponse" informationType="tns:QuoteResponseFaultType"
                roleTypes="tns:BuyerRole tns:SellerRole"&gt;
                &lt;description type="documentation"&gt;Fault Message&lt;/description&gt;
            &lt;/variable&gt;
            &lt;variable name="orderRequest" informationType="tns:OrderRequestType"
                roleTypes="tns:BuyerRole tns:SellerRole"&gt;
                &lt;description type="documentation"&gt;Order Request Message&lt;/description&gt;
            &lt;/variable&gt;
            &lt;variable name="barteringDone" informationType="tns:Boolean" roleTypes="tns:SellerRole"&gt;
                &lt;description type="documentation"&gt;Variable used to control the loop exit from
                t&lt;/description&gt;
            &lt;/variable&gt;
        &lt;/variableDefinitions&gt;
                            
        &lt;sequence&gt;
            &lt;assign roleType="tns:SellerRole"&gt;
                &lt;description type="documentation"&gt;Initialise Loop Variable&lt;/description&gt;
                &lt;copy name="setBarteringDone"&gt;
                    &lt;description type="documentation"&gt;Set barteringDone to false&lt;/description&gt;
                    &lt;source expression="false()"/&gt;
                    &lt;target variable="cdl:getVariable('barteringDone','','')"/&gt;
                &lt;/copy&gt;
            &lt;/assign&gt;
            &lt;interaction name="QuoteElicitation" operation="getQuote"
                channelVariable="tns:Buyer2SellerC"&gt;
                &lt;description type="documentation"&gt;Elicit a quote from the seller&lt;/description&gt;
                &lt;participate relationshipType="tns:Buyer2Seller" fromRoleTypeRef="tns:BuyerRole"
                    toRoleTypeRef="tns:SellerRole"/&gt;
                &lt;exchange name="QuoteRequest" informationType="tns:QuoteRequestType"
                    action="request"&gt;
                    &lt;description type="documentation"&gt;Quote Request Message Exchange&lt;/description&gt;
                    &lt;send variable="cdl:getVariable('quoteRequest','','')"/&gt;
                    &lt;receive variable="cdl:getVariable('quoteRequest','','')"/&gt;
                &lt;/exchange&gt;
                &lt;exchange name="QuoteResponse" informationType="tns:QuoteResponseType"
                    action="respond"&gt;
                    &lt;description type="documentation"&gt;Quote Response Message Exchange&lt;/description&gt;
                    &lt;send variable="cdl:getVariable('quoteResponse','','')"/&gt;
                    &lt;receive variable="cdl:getVariable('quoteResponse','','')"/&gt;
                &lt;/exchange&gt;
                &lt;exchange name="QuoteResponseFault" informationType="tns:QuoteResponseFaultType"
                    action="respond" faultName="InvalidProductFault"&gt;
                    &lt;send variable="cdl:getVariable('faultResponse','','')"
                        causeException="TerminalFailure"/&gt;
                    &lt;receive variable="cdl:getVariable('faultResponse','','')"
                        causeException="TerminalFailure"/&gt;
                &lt;/exchange&gt;
            &lt;/interaction&gt;
            &lt;workunit name="WhileBarteringIsNotFinished"
                guard="cdl:getVariable("barteringDone","","")
                = true()" repeat="true()"&gt;
                &lt;description type="documentation"&gt;While barteringDone is false&lt;/description&gt;
                &lt;choice&gt;
                    &lt;sequence&gt;
                        &lt;description type="documentation"&gt;Accept the quote and place the order&lt;/description&gt;
                        &lt;interaction name="QuoteAccept" operation="order"
                            channelVariable="tns:Buyer2SellerC"&gt;
                            &lt;description type="documentation"&gt;The Buyer accepts the quote and orders
                                the goods based on the last price&lt;/description&gt;
                            &lt;participate relationshipType="tns:Buyer2Seller"
                                fromRoleTypeRef="tns:BuyerRole" toRoleTypeRef="tns:SellerRole"/&gt;
                            &lt;exchange name="OrderRequest" informationType="tns:OrderRequestType"
                                action="request"&gt;
                                &lt;send variable="cdl:getVariable('orderRequest','','')"/&gt;
                                &lt;receive variable="cdl:getVariable('orderRequest','','')"/&gt;
                            &lt;/exchange&gt;
                        &lt;/interaction&gt;
                        &lt;assign roleType="tns:SellerRole"&gt;
                            &lt;description type="documentation"&gt;Break out of the loop&lt;/description&gt;
                            &lt;copy name="setBarteringDone"&gt;
                                &lt;description type="documentation"&gt;Set barteringDone to true&lt;/description&gt;
                                &lt;source expression="true()"/&gt;
                                &lt;target variable="cdl:getVariable('barteringDone','','')"/&gt;
                            &lt;/copy&gt;
                        &lt;/assign&gt;
                    &lt;/sequence&gt;
                    &lt;sequence&gt;
                        &lt;description type="documentation"&gt;Reject the quote and ask for a new quote&lt;/description&gt;
                        &lt;interaction name="QuoteReelicitation" operation="updateQuote"
                            channelVariable="tns:Buyer2SellerC"&gt;
                            &lt;description type="documentation"&gt;Barter based on previous quote&lt;/description&gt;
                            &lt;participate relationshipType="tns:Buyer2Seller"
                                fromRoleTypeRef="tns:BuyerRole" toRoleTypeRef="tns:SellerRole"/&gt;
                            &lt;exchange name="QuoteRequest" informationType="tns:QuoteRequestType"
                                action="request"&gt;
                                &lt;description type="documentation"&gt;Quote re-request based on amended
                                    quoteRequest&lt;/description&gt;
                                &lt;send variable="cdl:getVariable('quoteRequest','','')"/&gt;
                                &lt;receive variable="cdl:getVariable('quoteRequest','','')"/&gt;
                            &lt;/exchange&gt;
                            &lt;exchange name="QuoteResponse" informationType="tns:QuoteResponseType"
                                action="respond"&gt;
                                &lt;send variable="cdl:getVariable('quoteResponse','','')"/&gt;
                                &lt;receive variable="cdl:getVariable('quoteResponse','','')"/&gt;
                            &lt;/exchange&gt;
                        &lt;/interaction&gt;
                    &lt;/sequence&gt;
                &lt;/choice&gt;
            &lt;/workunit&gt;
                            
        &lt;/sequence&gt;
    &lt;/choreography&gt;
&lt;/package&gt;
                            
                        </pre></div></div><p>In summary the WS-CDL description above represents the following:</p><div class="exampleInner"><pre>
                        Boolean barteringDone@Seller = false
                        
                        Elicit a quote from the seller
                        
                        repeat 
                        { 
                            choice
                            {
                                {
                                    Accept the quote and place the order
                                    barteringDone@Seller = true
                                }
                                {
                                    Reject the quote and ask for a new quote
                                }
                            }
                        } until (barteringDone@Seller == false) 
                    </pre></div></div></div><div class="div3">
<h4><a name="time" id="time"></a>4.1.3 Time</h4><p>In this extension to our simple bartering process we add a duration for a quote of 30 seconds.
                       When a <code>BuyerRole</code> requests a quote the <code>SellerRole</code> sets a duration,
                       or time to live, for the quote of 30 seconds. When a quote has exceeded this time then, as far
                       as the <code>SellerRole</code> is concerned the quote becomes invalid.</p><p>This is modeled in the WS-CDL description presented below:</p><div class="exampleInner"><pre>
            &lt;workunit name="WhileBarteringIsNotFinished"
                guard="cdl:getVariable("barteringDone","","")
                = true() " repeat="true()"&gt;
                &lt;description type="documentation"&gt;While barteringDone is false&lt;/description&gt;
                &lt;choice&gt;
                    &lt;workunit name="TimeToLiveExceeded"
                        guard="cdl:hasDurationPassed(cdl:getVariable("quoteDuration","",""))
                        = false()  " repeat="true()" block="true"&gt;
                        &lt;description type="documentation"&gt;Quote times out&lt;/description&gt;
                        &lt;noAction roleType="tns:SellerRole"&gt;
                            &lt;description type="documentation"&gt;DoNothing&lt;/description&gt;
                        &lt;/noAction&gt;
                    &lt;/workunit&gt;
                    &lt;sequence&gt;
                        &lt;description type="documentation"&gt;Accept the quote and place the order&lt;/description&gt;
                        &lt;interaction name="QuoteAccept" operation="order"
                            channelVariable="tns:Buyer2SellerC"&gt;
                            &lt;description type="documentation"&gt;The Buyer accepts the quote and orders
                                the goods based on the last price&lt;/description&gt;
                            &lt;participate relationshipType="tns:Buyer2Seller"
                                fromRoleTypeRef="tns:BuyerRole" toRoleTypeRef="tns:SellerRole"/&gt;
                            &lt;exchange name="OrderRequest" informationType="tns:OrderRequestType"
                                action="request"&gt;
                                &lt;send variable="cdl:getVariable('orderRequest','','')"/&gt;
                                &lt;receive variable="cdl:getVariable('orderRequest','','')"/&gt;
                            &lt;/exchange&gt;
                        &lt;/interaction&gt;
                        &lt;assign roleType="tns:SellerRole"&gt;
                            &lt;description type="documentation"&gt;Break out of the loop&lt;/description&gt;
                            &lt;copy name="setBarteringDone"&gt;
                                &lt;description type="documentation"&gt;Set barteringDone to true&lt;/description&gt;
                                &lt;source expression="true()"/&gt;
                                &lt;target variable="cdl:getVariable('barteringDone','','')"/&gt;
                            &lt;/copy&gt;
                        &lt;/assign&gt;
                    &lt;/sequence&gt;
                    &lt;sequence&gt;
                        &lt;description type="documentation"&gt;Reject the quote and ask for a new quote&lt;/description&gt;
                        &lt;interaction name="QuoteReelicitation" operation="updateQuote"
                            channelVariable="tns:Buyer2SellerC"&gt;
                            &lt;description type="documentation"&gt;Barter based on previous quote&lt;/description&gt;
                            &lt;participate relationshipType="tns:Buyer2Seller"
                                fromRoleTypeRef="tns:BuyerRole" toRoleTypeRef="tns:SellerRole"/&gt;
                            &lt;exchange name="QuoteRequest" informationType="tns:QuoteRequestType"
                                action="request"&gt;
                                &lt;description type="documentation"&gt;Quote re-request based on amended
                                    quoteRequest&lt;/description&gt;
                                &lt;send variable="cdl:getVariable('quoteRequest','','')"/&gt;
                                &lt;receive variable="cdl:getVariable('quoteRequest','','')"/&gt;
                            &lt;/exchange&gt;
                            &lt;exchange name="QuoteResponse" informationType="tns:QuoteResponseType"
                                action="respond"&gt;
                                &lt;send variable="cdl:getVariable('quoteResponse','','')"
                                    recordReference="TimeToLive"/&gt;
                                &lt;receive variable="cdl:getVariable('quoteResponse','','')"/&gt;
                            &lt;/exchange&gt;
                            &lt;record name="TimeToLive" when="before"&gt;
                                &lt;description type="documentation"&gt;Record duration&lt;/description&gt;
                                &lt;source expression="quote/timeToLive"/&gt;
                                &lt;target variable="cdl:getVariable('quoteDuration','','')"/&gt;
                            &lt;/record&gt;
                        &lt;/interaction&gt;
                    &lt;/sequence&gt;
                &lt;/choice&gt;
            &lt;/workunit&gt;

                </pre></div><p>The description above is presented in psuedo-code as follows:</p><div class="exampleInner"><pre>
                    Boolean barteringDone@Seller = false
                    
                    Elicit a quote from the seller
                    Update quoteDuration@Seller from quote
                    
                    while barteringDone@Seller = false do
                        choice 
                        {
                            sequence 
                                { quote accept and set barteringDone@Seller=true }
                            sequence 
                                { reject quote }
                            workunit guard=hasDurationPassed@Seller and blocking=true 
                            { ...... }
                        }
                    done
                </pre></div><p>The two "Update" lines in the pseudo-code represent the <code>records</code> in the
                   interactions and are tied to the quote response at the <code>SellerRole</code>. We shall look
                   more closely how we define our <code>records</code> in the relevant interactions.</p></div><div class="div3">
<h4><a name="records" id="records"></a>4.1.4  Recording information </h4><p> Often we need to record information returned from an interaction. For example we
                    need some way of setting the duration on the quote time to live from the <code>SellerRole</code>
                    to the <code>BuyerRole</code>.
                    To do this WS-CDL provides us with a convenient way of recording information at both ends of
                    an interaction. In our example above we add our record to the quote elicitation interactions
                    so that the duration for the quote can be passed and used in the repetition above and we show 
                    these interaction as fragments of WS-CDL below:</p><div class="exampleOuter">
<div class="exampleHeader"><a name="recordexample" id="recordexample"></a>Example:  Record Example </div><div class="exampleInner"><pre>
            &lt;interaction name="QuoteElicitation" operation="getQuote"
                channelVariable="tns:Buyer2SellerC"&gt;
                &lt;description type="documentation"&gt;Quote Elicitation&lt;/description&gt;
                &lt;participate relationshipType="tns:Buyer2Seller" fromRoleTypeRef="tns:BuyerRole"
                    toRoleTypeRef="tns:SellerRole"/&gt;
                &lt;exchange name="QuoteRequest" informationType="tns:QuoteRequestType"
                    action="request"&gt;
                    &lt;description type="documentation"&gt;Quote Request Message Exchange&lt;/description&gt;
                    &lt;send variable="cdl:getVariable('quoteRequest','','')"/&gt;
                    &lt;receive variable="cdl:getVariable('quoteRequest','','')"/&gt;
                &lt;/exchange&gt;
                &lt;exchange name="QuoteResponse" informationType="tns:QuoteResponseType"
                    action="respond"&gt;
                    &lt;description type="documentation"&gt;Quote Response Message Exchange&lt;/description&gt;
                    &lt;send variable="cdl:getVariable('quoteResponse','','')"
                        recordReference="TimeToLive"/&gt;
                    &lt;receive variable="cdl:getVariable('quoteResponse','','')"/&gt;
                &lt;/exchange&gt;
                &lt;exchange name="QuoteResponseFault" informationType="tns:QuoteResponseFaultType"
                    action="respond" faultName="InvalidProductFault"&gt;
                    &lt;send variable="cdl:getVariable('faultResponse','','')"
                        causeException="TerminalFailure"/&gt;
                    &lt;receive variable="cdl:getVariable('faultResponse','','')"
                        causeException="TerminalFailure"/&gt;
                &lt;/exchange&gt;
                &lt;record name="TimeToLive" when="before"&gt;
                    &lt;description type="documentation"&gt;Record duration&lt;/description&gt;
                    &lt;source expression="quote/timeToLive"/&gt;
                    &lt;target variable="cdl:getVariable('quoteDuration','','')"/&gt;
                &lt;/record&gt;
            &lt;/interaction&gt;
                    </pre></div></div></div><div class="div3">
<h4><a name="conditional" id="conditional"></a>4.1.5  Conditional Workunits</h4><p>Having recorded some information we now want to model the predicate and the activities
                       that are dependent on the outcome of the predicate. To do this we use a conditional workunit
                       that follows on from the recording example above, and we present this below:
                    </p><div class="exampleOuter">
<div class="exampleHeader"><a name="conditionalexample" id="conditionalexample"></a>Example:  Conditional Example </div><div class="exampleInner"><pre>
 
                        </pre></div></div><p> In this example what we have done is ask some validation service if the
                        buyer is valid. We have used a record to pull out the response and that
                        response in the variable "buyerIsValid" is used in the guard for the
                        workunit. The equivalent imperative language construct would be something
                        akin to: </p><div class="exampleInner"><pre> buyerIsValid = perform buyerValidation If (buyerIsValid)
                            perform credit checking </pre></div></div><div class="div3">
<h4><a name="choices" id="choices"></a>4.1.6  Choices </h4><p> The body of the workunit that we described above we introduced a
                    <code>choice</code>. The <code>choice</code> element is used to declare possible
                    alternative paths in a choreography. In our example there are only three choices
                    that can be made at this point. The quote could timeout, the buyer decides to
                    accept the quote or the buyer requests an update to the existing quote. We model
                    these as a <code>silentAction</code> for the timeout of the quote – we shall
                    change this later on -, as a simple <code>sequence</code> for the buyer
                    accepting the quote and as a complex <code>sequence</code> to handle the
                    bartering process itself. After adding the basic components the workunit is
                    illustrated below: </p><div class="exampleOuter">
<div class="exampleHeader"><a name="wscdlfragment11" id="wscdlfragment11"></a>Example: WS-CDL Fragment</div><div class="exampleInner"><pre>
                &lt;choice&gt;
                    &lt;sequence&gt;
                        &lt;description type="documentation"&gt;Accept the quote and place the order&lt;/description&gt;
                    &lt;/sequence&gt;
                    &lt;sequence&gt;
                        &lt;description type="documentation"&gt;Reject the quote and ask for a new quote&lt;/description&gt;
                        &lt;interaction name="QuoteReelicitation" operation="updateQuote"
                            channelVariable="tns:Buyer2SellerC"&gt;
                            &lt;description type="documentation"&gt;Barter based on previous quote&lt;/description&gt;
                            &lt;participate relationshipType="tns:Buyer2Seller"
                                fromRoleTypeRef="tns:BuyerRole" toRoleTypeRef="tns:SellerRole"/&gt;
                            &lt;exchange name="QuoteRequest" informationType="tns:QuoteRequestType"
                                action="request"&gt;
                                &lt;description type="documentation"&gt;Quote re-request based on amended
                                    quoteRequest&lt;/description&gt;
                                &lt;send variable="cdl:getVariable('quoteRequest','','')"/&gt;
                                &lt;receive variable="cdl:getVariable('quoteRequest','','')"/&gt;
                            &lt;/exchange&gt;
                            &lt;exchange name="QuoteResponse" informationType="tns:QuoteResponseType"
                                action="respond"&gt;
                                &lt;send variable="cdl:getVariable('quoteResponse','','')"
                                    recordReference="TimeToLive"/&gt;
                                &lt;receive variable="cdl:getVariable('quoteResponse','','')"/&gt;
                            &lt;/exchange&gt;
                            &lt;record name="TimeToLive" when="before"&gt;
                                &lt;description type="documentation"&gt;Record duration&lt;/description&gt;
                                &lt;source expression="quote/timeToLive"/&gt;
                                &lt;target variable="cdl:getVariable('quoteDuration','','')"/&gt;
                            &lt;/record&gt;
                        &lt;/interaction&gt;
                    &lt;/sequence&gt;
                &lt;/choice&gt;
                    </pre></div></div><p> We shall start to elaborate the <code>choice</code> by defining the complex
                    sequence that will control the bartering collaboration. What we shall describe
                    are the interactions needed for the bartering process. We start by defining the
                    interaction from buyer to seller to update the price, <code>interaction
                    name</code>="Buyer updates the Quote - in effect requesting a new price", and
                    the exchanges that comprise this interaction. We model this as an interaction
                    within a sequence such that the exchanges are the outbound "updateQuote" and the
                    inbound "acceptUpdatedQuote". This illustrated below: </p><div class="exampleOuter">
<div class="exampleHeader"><a name="wscdlfragment12" id="wscdlfragment12"></a>Example: WS-CDL Fragment</div><div class="exampleInner"><pre>&lt;workunit name="Repeat until bartering has been completed" repeat="barteringDone = false"&gt;
                        &lt;choice&gt;
                        &lt;silentAction roleType="BuyerRoleType"&gt;
                        &lt;description type="description"&gt;Do nothing - let the quote timeout&lt;/description&gt; 
                        &lt;/silentAction&gt;
                        
                        &lt;sequence&gt;
                        …  					
                        &lt;/sequence&gt;
                        
                        &lt;sequence&gt;
                        &lt;interaction name="Buyer updates the Quote - in effect requesting a new price" 
                        operation="quoteUpdate" channelVariable="Buyer2SellerC"&gt;
                        &lt;description type="documentation"&gt;Quot Update&lt;/description&gt; 
                        &lt;participate relationshipType="BuyerSeller" 
                        fromRole="BuyerRoleType" toRole="SellerRoleType" /&gt; 
                        &lt;exchange name="updateQuote" 
                        informationType="QuoteUpdateType" action="request"&gt; 
                        &lt;/exchange&gt;
                        &lt;exchange name="acceptUpdatedQuote" 
                        informationType="QuoteAcceptType" action="respond"&gt;
                        &lt;description type="documentation"&gt;Accept Updated Quote&lt;/description&gt;  
                        &lt;/exchange&gt;
                        &lt;/interaction&gt;
                        &lt;/sequence&gt;
                        &lt;/choice&gt;
                        &lt;/workunit&gt;
                    </pre></div></div><p> The final choice element in this workunit is the element that manages the repeat
                    variable "barteringDone". This sequence has two interactions, named "Buyer
                    accepts the quote and engages in the act of buying" and "Buyer send channel to
                    seller to enable callback behavior". The first describes the interaction between
                    buyer and seller to accept the quote – this has an exchange called "Accept
                    Quote" - and thus place an order. The second describes the additional
                    information passed to the seller by the buyer – this has an exchange called
                    "sendChannel" - so that a third party, in our case the shipper, may send back
                    delivery details to the buyer without knowing the buyer before hand. To effect
                    the exchange we need to make sure that the channel variable NAME that resides at
                    both the buyer and the seller independently of each other is used as the output
                    variable at the buyer and the input variable at the seller. To do this we use
                    the WS-CDL function that gets a variable at a specified role. This is why we see
                    "cdl:getVariable('DeliveryDetailsC','','')" and
                    "cdl:getVariable('DeliveryDetailsC','','')" in the exchange. The role is omitted
                    because it can be inferred through the channel used for interaction. The final
                    part of the sequence is to change the value in the variable, "barteringDone", to
                    "true"so that the workunit repeat condition evaluates to false and the workunit
                    terminates. To do this we use an assign element and indicate the actual variable
                    and where it resides my using the "cdl:getVariable('barteringDone','','')"
                    WS-CDL function. This part of the workunit and choice is illustrated below: </p><div class="exampleOuter">
<div class="exampleHeader"><a name="wscdlfragment13" id="wscdlfragment13"></a>Example: WS-CDL Fragment</div><div class="exampleInner"><pre>&lt;workunit name="Repeat until bartering has been completed" repeat="barteringDone = false"&gt;
                        &lt;choice&gt;
                        &lt;silentAction roleType="BuyerRoleType"&gt;
                        &lt;description type="description"&gt;Do nothing - let the quote timeout&lt;/description&gt; 
                        &lt;/silentAction&gt;
                        
                        &lt;sequence&gt;
                        &lt;interaction name="Buyer accepts the quote and engages in the act of buying" 
                        operation="quoteAccept" channelVariable="Buyer2SellerC"&gt;
                        &lt;description type="description"&gt;Quote Accept&lt;/description&gt; 
                        &lt;participate relationshipType="BuyerSeller" 
                        fromRole="BuyerRoleType" toRole="SellerRoleType" /&gt; 
                        &lt;exchange name="Accept Quote" informationType="QuoteAcceptType"
                        action="request"&gt;
                        &lt;/exchange&gt;
                        &lt;/interaction&gt;
                        &lt;interaction name="Buyer send channel to seller to enable callback behavior" 
                        operation="sendChannel" channelVariable="Buyer2SellerC"&gt;
                        &lt;description type="description"&gt;Buyer sends channel to pass to shipper&lt;/description&gt; 
                        &lt;participate relationshipType="BuyerSeller" 
                        fromRole="BuyerRoleType" toRole="SellerRoleType" /&gt; 
                        &lt;exchange name="sendChannel" channelType="2BuyerChannelType" action="request"&gt;
                        &lt;send variable="cdl:getVariable('DeliveryDetailsC','','')" /&gt; 
                        &lt;receive variable="cdl:getVariable('DeliveryDetailsC','','')" /&gt; 
                        &lt;/exchange&gt;
                        &lt;/interaction&gt;
                        
                        &lt;assign roleType="BuyerRoleType"&gt;
                        &lt;copy name="copy"&gt;
                        &lt;source expression="true" /&gt; 
                        &lt;target variable="cdl:getVariable('barteringDone','','')" /&gt; 
                        &lt;/copy&gt;
                        &lt;/assign&gt;
                        &lt;/sequence&gt;
                        
                        &lt;sequence&gt;
                        …  					
                        &lt;/sequence&gt;
                        &lt;/choice&gt;
                        &lt;/workunit&gt;
                    </pre></div></div></div><div class="div3">
<h4><a name="parallel" id="parallel"></a>4.1.7  Parallelization </h4></div><div class="div3">
<h4><a name="modularization" id="modularization"></a>4.1.8 Modularization</h4><div class="div4">
<h5><a name="choreographiesandsubchoreographies" id="choreographiesandsubchoreographies"></a>4.1.8.1 Choreographies and sub-choreographies</h5></div></div><div class="div3">
<h4><a name="performing" id="performing"></a>4.1.9  Performing a sub choreography </h4></div><div class="div3">
<h4><a name="channelpassing" id="channelpassing"></a>4.1.10  Channel Passing </h4></div><div class="div3">
<h4><a name="exchanges" id="exchanges"></a>4.1.11  Exchanges </h4></div></div><div class="div2">
<h3><a name="intermediate-extra" id="intermediate-extra"></a>4.2 Extending the example</h3><p> We shall the example further by adding some more roles that will cover credit checking,
		    and delivery. In the context of this we shall look at how we deal with exceptions and faults
		    in WS-CDL and also how we deal with compensation when we need to either proceed or back things
		    out. The former is based on what we call exception work units and the latter finalization.
		    We shall also explain how silent actions and no action may be used to further document the
		    collaborative behavior of our roles.</p><p> We illustrate the example as a set of sequence diagrams that describe the scenarios for
		    exception handling, finalization, silent and no actions.</p><div class="div3">
<h4><a name="exceptionsandfaults" id="exceptionsandfaults"></a>4.2.1 Exceptions and Faults</h4><p> In this section we examine how we use faults in WSDL (both WSDL1.1 and WSDL2.0)
                    to drive exceptions in WS-CDL. </p><p> Credit Check returns a fault, which implies credit failure, and this is
                    dealt with in an exception block and you raise an exception to interrupt
                    the flow of the choreography. The Exception handler returns a message to
                    the buyer to let them know that the order has been cancelled.</p><div class="exampleOuter"></div></div><div class="div3">
<h4><a name="Finalization" id="Finalization"></a>4.2.2 Finalization</h4><p> Supposing the credit checking (which implies debiting the card if ok) and the
                    shipping details are done in parallel and are independent. Then we would have
                    two finalizers which handle the yes go ahead or the no back out both. Add some
                    further details that explain the use case in a real world situation in which
                    separate legs of a trade are executed in parallel (e.g. arbitrage). </p><div class="div4">
<h5><a name="finalizers" id="finalizers"></a>4.2.2.1  Finalizers and Finalization </h5></div></div><div class="div3">
<h4><a name="silentactionsandconditions" id="silentactionsandconditions"></a>4.2.3 Silent Actions and Conditions</h4><p> Add a silent action at the credit checker to show that something happens here to
                    do the actual credit checking that is invisible. Silent variable conditional -
                    silent conditional for sending back credit ok or credit fault. </p></div><div class="div3">
<h4><a name="noactions" id="noactions"></a>4.2.4 NoActions</h4></div><div class="div3">
<h4><a name="completeexample2" id="completeexample2"></a>4.2.5 Complete Example</h4><p>The rest of the example is all about describing the interactions and choices
                    needed by the seller to check credit and if successful to request delivery. This
                    is listed in schematic form below. We have not filled all of the details because
                    it is illustrated fully in Appendix I.</p><div class="exampleOuter">
<div class="exampleHeader"><a name="wscdlfragment14" id="wscdlfragment14"></a>Example: WS-CDL Fragment</div><div class="exampleInner"><pre>&lt;interaction name="Seller check credit with CreditChecker" 
			operation="creditCheck" channelVariable="Seller2CreditChkC"&gt;
  			…
  		&lt;/interaction&gt;
		&lt;choice&gt;
			&lt;interaction name="Credit Checker fails credit check" 
				operation="creditFailed" channelVariable="Seller2CreditChkC"&gt;
  				…
  			&lt;/interaction&gt;
			&lt;sequence&gt;
				&lt;interaction name="Credit Checker passes credit" 
					operation="creditOk" channelVariable="Seller2CreditChkC"&gt;
  					…?
  				&lt;/interaction&gt;
				&lt;interaction name="Seller requests delivery details" 
					operation="requestShipping" channelVariable="Seller2ShipperC"&gt;
  					…
  				&lt;/interaction&gt;
				&lt;interaction name="Shipper forward channel to shipper" 
					operation="sendChannel" channelVariable="Seller2ShipperC"&gt;
  					&lt;description type="description"&gt;Pass channel from buyer to shipper&lt;/description&gt; 
  					&lt;participate relationshipType="SellerShipper" 
						fromRole="SellerRoleType" toRole="ShipperRoleType" /&gt; 
					&lt;exchange name="forwardChannel" channelType="2BuyerChannelType" action="request"&gt;
  						&lt;send variable="cdl:getVariable('DeliveryDetailsC','','')" /&gt; 
  						&lt;receive variable="cdl:getVariable('DeliveryDetailsC','','')" /&gt; 
  					&lt;/exchange&gt;
  				&lt;/interaction&gt;
				&lt;interaction name="Shipper sends delivery details to buyer" 
					operation="deliveryDetails" channelVariable="DeliveryDetailsC"&gt;
  					&lt;description type="description"&gt;Pass back shipping details to the buyer&lt;/description&gt; 
  					&lt;participate relationshipType="ShipperBuyer" 
						fromRole="ShipperRoleType" toRole="BuyerRoleType" /&gt; 
					&lt;exchange name="sendDeliveryDetails" 
						informationType="DeliveryDetailsType" action="request"&gt;
  					&lt;/exchange&gt;
  				&lt;/interaction&gt;
  			&lt;/sequence&gt;
  		&lt;/choice&gt;
	  &lt;/sequence&gt;
	&lt;/choreography&gt;
</pre></div></div><p>In this outline we can see a choice made after a credit check has been done. If
                    the credit check fails we do very little. If it succeeds we "requestShipping"
                    from seller to shipper and pass the buyer details that we got previously onto
                    the shipper. The shipper then responds back to the buyer using the necessary
                    channel details that were passed ("DeliveryDetailsC") to affect the
                interaction.</p></div></div></div><div class="div1">
<h2><a name="advanced" id="advanced"></a>5 Advanced Topics</h2><div class="div2">
<h3><a name="dependentworkunits" id="dependentworkunits"></a>5.1 Dependent Workunits</h3><p>We can change our example and make it somewhat more interesting by having two
                    workunits. The first is unchanged and the second incorporates all of the
                    previous choreography notation that follows the completion of the first
                    workunit. What we shall do to model this is to make the second workunit
                    dependent on the availability and value of 'barteringDone'. To do this we shall
                    introduce a guard condition into our workunit and make a blocking workunit. Such
                    dependent workunits represent a structural dependence that might exist in real
                    systems and so provides the choreography designer with an elegant way of
                    expressing the dependencies directly as opposed to adding further conditional
                    and state to achieve much the same thing. </p><p>Our workunit sketch looks like the following:</p><div class="exampleOuter">
<div class="exampleHeader"><a name="wscdlfragment15" id="wscdlfragment15"></a>Example: WS-CDL Fragment</div><div class="exampleInner"><pre>&lt;parallel&gt;
		&lt;workunit name="Repeat until bartering has been completed" repeat="barteringDone = false"&gt;
			…
  		&lt;/workunit&gt;

		&lt;workunit name="Process Order" guard="barteringDone = true" blocking="true"&gt;
			…
  		&lt;/workunit&gt;
	&lt;/parallel&gt;
</pre></div></div><p>In this example the guard condition is "barteringDone = true" and the
                        <code>blocking</code> is set to "true". This second workunit waits until
                    "barteringDone" is available and is set to true before enacting whatever is
                    described inside of it. We place the two workunits inside a
                    <code>parallel</code> construct which means that the two workunits operate
                    concurrently. The second being dependent on the first waits until its
                    preconditions are met before proceeding.</p><div class="exampleOuter">
<div class="exampleHeader"><a name="wscdlfragment16" id="wscdlfragment16"></a>Example: WS-CDL Fragment</div><div class="exampleInner"><pre>	&lt;parallel&gt;
		&lt;workunit name="Repeat until bartering has been completed" repeat="barteringDone = false"&gt;
			…
  		&lt;/workunit&gt;

		&lt;workunit name="Process Order" guard="barteringDone = true" blocking="true"&gt;
			…
  		&lt;/workunit&gt;
	&lt;/parallel&gt;
</pre></div></div><p>We can use the same data-driven collaboration technique to rewrite how we handle
                    the credit checking response, by introducing another variable, 'creditRatingOk',
                    at the seller role, that records, as a Boolean, the response from the credit
                    check. The second, blocking, workunit is made dependent on the outcome of the
                    first by using a guard that looks a little like the following:</p><div class="exampleOuter">
<div class="exampleHeader"><a name="wscdlfragment17" id="wscdlfragment17"></a>Example: WS-CDL Fragment</div><div class="exampleInner"><pre>	&lt;parallel&gt;
		&lt;workunit name="Check Credit Rating"&gt;
			&lt;sequence&gt;
				&lt;interaction name="Seller check credit with CreditChecker" 
					operation="creditCheck" channelVariable="Seller2CreditChkC"&gt;
  					&lt;description type="description"&gt;
						Check the credit for this buyer with the credit check agency
					&lt;/description&gt; 
  					&lt;participate relationshipType="SellerCreditCheck" 
						fromRole="SellerRoleType" toRole="CreditCheckerRoleType" /&gt; 
					&lt;exchange name="checkCredit" informationType="CreditCheckType" action="request"&gt; 
  					&lt;/exchange&gt;
  				&lt;/interaction&gt;
				&lt;choice&gt;
					&lt;sequence&gt;  		
						&lt;interaction name="Credit Checker fails credit check" 
							operation="creditFailed" channelVariable="Seller2CreditChkC"&gt;
  							&lt;description type="description"&gt;
								Credit response from the credit checking agency
							&lt;/description&gt; 
  							&lt;participate relationshipType="SellerCreditCheck" 
								fromRole="SellerRoleType" toRole="CreditCheckerRoleType" /&gt; 
							&lt;exchange name="creditCheckFails" 
								informationType="CreditRejectType" action="respond"&gt;
  							&lt;/exchange&gt;
  						&lt;/interaction&gt;
						&lt;assign roleType="SellerRoleType"&gt;
  							&lt;copy name="copy"&gt;
  								&lt;source expression="false" /&gt; 
  								&lt;target variable="cdl:getVariable('creditRatingOk','','')" /&gt; 
  							&lt;/copy&gt;
  						&lt;/assign&gt;
					&lt;/sequence&gt;  
	
					&lt;sequence&gt;  
						&lt;interaction name="Credit Checker passes credit" 
							operation="creditOk" channelVariable="Seller2CreditChkC"&gt;
  							&lt;description type="description"&gt;
								Credit response from the credit checking agency	
							&lt;/description&gt; 
  							&lt;participate relationshipType="SellerCreditCheck" fromRole="BuyerRoleType" 
								toRole="CreditCheckerRoleType" /&gt; 
							&lt;exchange name="creditCheckPasses" 
								informationType="CreditAcceptType" action="respond"&gt; 
  							&lt;/exchange&gt;
		  				&lt;/interaction&gt;
						&lt;assign roleType="SellerRoleType"&gt;
  							&lt;copy name="copy"&gt;
  								&lt;source expression="true" /&gt; 
  								&lt;target variable="cdl:getVariable('creditRatingOk','','')" /&gt; 
  							&lt;/copy&gt;
  						&lt;/assign&gt;
					&lt;/sequence&gt;
				&lt;/choice&gt;	
			&lt;/sequence&gt;  		
		&lt;/workunit&gt;


		&lt;workunit name="Request Delivery" guard="creditRatingOk = true" blocking="true"&gt;
			…
  		&lt;/workunit&gt;
    &lt;/parallel&gt;
</pre></div></div><p>The operational semantic of the workunit in WS-CDL can be described as follows:</p><div class="exampleOuter">
<div class="exampleHeader"><a name="wscdlfragment18" id="wscdlfragment18"></a>Example: WS-CDL Fragment</div><div class="exampleInner"><pre>Blocking

Workunit (G) (R) (B is True)
	Body

Where
	G =&gt; guard condition
	R =&gt; repeat condition
	B =&gt; blocking attribute
	Body =&gt; CDL activities within the work unit

A typical order of evaluation is as follows:

	(G) Body (R G) Body (R G) Body

With respect to a G then the G is only evaluated when the variables are available and evaluate to True and otherwise we wait at the guard  condition. Thus the Body after the first G only gets executed when G is True. Or put another way Body is primed ready for action and then is executed when G evaluates to True. 

	IF G is unavailable or evaluates to False THEN it equates to:

	when (G) {	
		Body
	} until (!R)

	IF G is always True THEN it equates to:

	repeat {
		Body
	} until (!R)

	IF R is always False THEN it equates to:

	when (G) {
		Body
	}


</pre></div></div></div><div class="div2">
<h3><a name="concurrentperforms" id="concurrentperforms"></a>5.2 Concurrent Performs</h3><p> This is the unbounded number of sellers in an RFQ process that may use
                    hasDurationPassed in a join condition in one scenario and may use first past the
                    post in another join condition </p><div class="div3">
<h4><a name="managingjoinconditions" id="managingjoinconditions"></a>5.2.1 Managing join conditions</h4><p>NOTE: In this section make sure we handle join conditions and arrays and
                        lists.</p></div></div><div class="div2">
<h3><a name="isolationlevels" id="isolationlevels"></a>5.3  Isolation Levels </h3><p> In the RFQ process with multiple sellers the multiple concurrent sub-choreographies at
                    the buyer await responses from the sellers. When a response comes back the buyer
                    in the sub choreography updates an isolated variable if it's value that it has is
                    better than the value it can see for that variable. This ensures that the
                    sub-choreographies are synchronised in their updating of the new isolated variable so
                    that the correct value is arrived at. Note: This raises a pitfall and
                    implementation consideration about when isolated variables get locked. If you
                    lock too soon you may not get the correct or desired behavior. </p></div><div class="div2">
<h3><a name="advancedchannels" id="advancedchannels"></a>5.4 Advanced Channels</h3><p> Once - The passed channel to the shipper is usage once so that it adds to
                    privacy and ensures sound behavioral typing (aka this cannot participate in
                    deadlock and livelock) Shared/Distinct and passing using "new" to be done Note:
                    The "new" could be used to ensure that a fresh channel is passed. This would be
                    used with the once in the advanced example and used as per normal in the normal
                    example. Seller should not have "new" because the seller has received a channel
                    from the buyer to pass to the shipper. </p><div class="div3">
<h4><a name="usage" id="usage"></a>5.4.1 Usage</h4></div><div class="div3">
<h4><a name="channelpassingmodes" id="channelpassingmodes"></a>5.4.2 Channel Passing Modes</h4></div></div><div class="div2">
<h3><a name="id2272704" id="id2272704"></a>5.5 Pitfalls</h3><div class="div3">
<h4><a name="distributedchoice" id="distributedchoice"></a>5.5.1 Distributed choice and race conditions</h4><p>NOTE: Description of the distributed choice problem</p></div></div><div class="div2">
<h3><a name="alignmentandcoordination" id="alignmentandcoordination"></a>5.6  Alignment and Coordination </h3><p> Coordination - Credit Check fails. Seller throws exception so goes into an
                    exception state. And because the choreography is coordinated the buyer also goes
                    into its exception state because it was all coordinated. This of course involves
                    hidden communication so that buyer and seller know about each other state with respect to
                    exceptions. Alignment will be done after we have sorted out the rest </p></div></div><div class="div1">
<h2><a name="implementation" id="implementation"></a>6 Implementation Considerations</h2><div class="div2">
<h3><a name="endpointprojections" id="endpointprojections"></a>6.1 End Point Projections</h3><div class="div3">
<h4><a name="Java" id="Java"></a>6.1.1 Java</h4></div><div class="div3">
<h4><a name="WS-BPEL" id="WS-BPEL"></a>6.1.2  WS-BPEL </h4></div><div class="div3">
<h4><a name="monitoring" id="monitoring"></a>6.1.3  Runtime Monitoring </h4></div><div class="div3">
<h4><a name="wsdl1.1" id="wsdl1.1"></a>6.1.4  WSDL1.1 </h4></div><div class="div3">
<h4><a name="WSDL2.0" id="WSDL2.0"></a>6.1.5  WSDL2.0 </h4></div></div><div class="div2">
<h3><a name="wdaddressing" id="wdaddressing"></a>6.2  WS-Addressing </h3><div class="div3">
<h4><a name="channelrep" id="channelrep"></a>6.2.1  Channel Representation </h4></div></div></div></div></body></html>