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Stanislaw Ambroszkiewicz the leader of enTish team

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Title: Stanislaw Ambroszkiewicz the leader of enTish team


1
Entish e-Lingua for service description and
composition
  • Stanislaw Ambroszkiewicz the leader of enTish
    team
  • IPI PAN, Polish Academy of Sciences
  • and Institute of Informatics, University of
    Podlasie
  • Project supported by a KBN project and
    Agentcities.NET - a IST project

xii.2002
2
Distributed systems middleware
  • Service-Oriented Architecture (SOA)
  • provides a standard programming model that allows
    software components, residing on any network, to
    be published, discovered, and invoked by each
    other as services. There are essentially three
    components of SOA Service Provider, Service
    Requester (or Client), and Service Registry. The
    provider hosts the service and controls access to
    it, and is responsible for publishing a
    description of its service to a service registry.
    The requester (client) is a software component in
    search of a component to invoke in order to
    realize a task. The service registry is a central
    repository that facilitates service discovery by
    the requesters.
  • Web services are supposed to realize the SOA in a
    global networked environment.

3
Service-Oriented Architecture middleware
Service registry
discovery
publication
middleware
clients
services
Invocation, composition
Service requestor
Service provider
  • SOA

4
Web services an idea to be
realized
  • IBMs def. Web services are self-contained, self
    - describing, modular applications that can be
    published, located, and invoked across the Web.
    Web services perform functions that can be
    anything from simple requests to complicated
    business processes ...
    Once a Web service is deployed, other
    applications (and other Web services) can
    discover and invoke the deployed service (in an
    automatic way!).
  • From service providers point of view, if they
    can setup a web site they can join global
    community. From a client's point of
    view, if you can click, you can
    access services.

5
Web service integration the background
  • Ethernet (CSMA/CD)
  • -- gtgt simple and ubiquitous LAN
  • Internet (TCP/IP) --gtgt simple and ubiquitous
    global networking
  • WWW (URL / HTML /HTTP) --gtgt simple and
    ubiquitous access to data
  • Web services (a magic protocol) --gtgt simple and
    ubiquitous access to applications

6
Industrial standards Web service integration -
IBM, Microsoft, BEA
UDDI registry
discovery
publication
WSDL Web Service Description Language
applications
Web services (applications)
Invocation, composition??? BPEL4WS,
WS-Coordination, WS-Transaction, ...
  • SOAPWSDLUDDIBPEL are positioned as standards
    for web services

7
Abstract architecture for
implementation
8
Abstract architecture for
implementation
9
Service architecture for
implementation
  • communication layer, functionality layer, and
    executive (database management) layer. The
    functionality layer has exactly two interrelated
    components raw application (Function), and so
    called filter associated with the raw
    application. Raw application implements a single
    operation, i.e., given input resources, it
    produces the output resource according to the
    operation specification. Given a specification of
    the desired output, the Filter replies with
    properties that must be satisfied by the input in
    order to produce the desired output by the raw
    application

10
Protocol stack for networked servicesour
proposal
11
  • What do we propose?
  • Language and protocol nothing but
    specifications
  • To prove it does works, also the prototype
    implementation
  • The current status of the enTish project
  • XML-spec. of language and composition protocol
    already completed (version 1.0)
  • The prototype already implemented and ready for
    use and evaluation at http//www.ipipan.waw.pl/mas
    /
  • Near future

12
WSDL Web Services Activity of W3C
  • WSDL SOAP may be considered as a universal RPC
    for application that process XML data.
  • SOAP is a transport protocol based on XML message
    format
  • WSDL is a IDL for XML data types wsdl
    description is generated from code

13
UDDI yellow pages - - success
or failure?
  • UDDI provides a registry of businesses and web
    services.
  • a UDDI service description consists of physical
    attributes such as name and address augmented by
    a collection of tModels, which describe
    additional features such as, for example,
    reference to WSDL document describing the service
    interface, and the classification of the service
    within some fixed taxonomies.
  • more than 66.6 of UDDI entries are empty, not
    valid, etc. quoted from http//www.webservicesarc
    hitect.com/content/articles/modi01.asp

14
BPEL4WS, WS-Coordination, and WS-Transaction
(August 2002)
  • Composed services are modeled as directed graphs
    where the nodes are services and the edges
    represent a dependency link from one service to
    another.
  • Canonical programmatic constructs like SWITCH,
    WHILE and PICK allow to direct an execution's
    path through the graph.
  • BPEL was released along with two others specs
    WS-Coordination and WS-Transaction.
  • WS-Coordination describes how services can make
    use of pre-defined coordination contexts to
    subscribe to a particular role in a collaborative
    activity.

15
BPEL4WS, WS-Coordination, and WS-Transaction
(cont.)

16
BPEL4WS, WS-Coordination, and WS-Transaction
(cont.)

17
DAML-San academic project supported by DARPA
  • DAML-S is a DAMLOIL ontology for describing Web
    Services.
  • It aims to make Web services computer-interpretabl
    e -- described with sufficient information to
    enable automated Web service discovery,
    invocation, composition and execution monitoring.
  • The DAML-S Ontology comprises
  • ServiceProfile - This is like the yellow page
    entry for a service. It relates and builds upon
    the type of content in UDDI, describing
    properties of a servicenecessary for automatic
    discovery, such as what the services offers, and
    its inputs,outputs, and its side-effects
    (preconditions and effects)..
  • ServiceModel - Describes the service's process
    model (the control flow and data-flow involved
    in using the service). It is designed to enable
    automated composition and execution of
    services.
  • ServiceGrounding - Connects the process model
    description to communication-level protocols and
    message descriptions in WSDL
  • The main limitation of DAMLOIL is its lack of a
    definition of well formed formulae and an
    associated theorem prover. So that there is a
    problem with expressing (as formulas)
    preconditions, effects, and output input
    constrains.

18
Requirements for networked services
  • The term web services is reserved for WSDL
    and DAML-S.
  • Lets use the term networked services
  • What are networked services?
  • Applications that are describable, locatable,
    invocable, can negotiate coordination,
    composable, can implement transactions, etc.
  • Service description
  • Only IDL interface, i.e., spec. of the input
    output types ?
  • Also what the service does (i.e., the abstract
    function it implements), constrains on input
    output resources, etc.

19
Requirements for networked services (cont.)
  • RPC-style versus messaging
  • Only raw applications, i.e. only objects
    methods available by universal RPC ?
  • Applications can also speak a common language to
    arrange coordination and transactions
  • Agents versus services
  • agents are clients
  • services supply applications
  • What is the client? how to do versus what
    to do
  • a programmer writing code in BPEL or DAML-S ?
  • a user creates task in a declarative language and
    delegates the task to an agent to realize.

20
Language and protocol Don't ask what
it means, but rather how it is used.


- L. Wittgenstein
  • Language Entish
  • XML syntax, 0.5 order logic language no
    quantifiers, describes only static relations
    between agents, services, functions the services
    implement, and resources no actions, fully
    declarative language
  • Ability to express agent / service mental
    attributes intentions, goals, commitments as
    atomic formulas.
  • Protocol entish 1.0
  • Specifies message exchange order
  • Message format is defined in XML
  • Realizes service invocation and composition
    supporting 2PC transactions

21
Language syntax
  • XML-syntax
  • formula.xsd
  • definition.xsd
  • properEntish.xml --gt an instance of
    definitions.xsd
  • info.xsd --gt evaluated Entish formula

22
Language What do we want to describe?
  • resources - data (e-documents) collected in
    types, e.g., Typ1, Typ2, ...
  • services - applications where the resources are
    stored and processed
  • type of operation performed by the service
  • precondition formInOperationType
  • postcondition formOutOperationType
  • functions implemented by operations, e.g., f
    parameter a is of type Typ1, the term f( a ) is
    of type Typ2

23
Language What do we want to describe?
  • tasks specify what is to be processed, how and
    when, and where the result is to be stored
  • when - timeout timeout( date ), i.e., the
    current GMT time is before the date
  • where - relation isIn( res, service ) , i.e, a
    resource res is in service service

24
Language What do we want to describe?
  • task example
  • resource res1 is processed by function f and
    the result is stored in service ser1 by the time
    date1
  • formally
  • isIn( f( res1 ), ser1 ) and timeout( date1 )

25
Language What do we want to describe?
  • Service attributes
  • The type of operation the service performs is
    represented as a pair of atomic formulas
  • formInOperationType( service )
  • formOutOperationType( service )

26
Language What do we want to describe?
  • Agent is a process dedicated to a single task
    realization
  • Agent attribute(s)
  • intentions( agent ) is an atomic formula

27
Language Term and formula construction
  • Terms are constructed in the standard way
  • Composite formulas are constructed using only
    conjunction, disjunction and implication
    no quantifiers and no negation!

28
Composition protocol
version 1.0
  • message.xsd --gt
  • message types (orders)
  • state.xsd --gt schema for agents state and
    services state
  • entish1.specs
  • composition

29
Our idea of service integration
Service description
  • Service description
  • unique name and communication address - URI,
    e.g., service name soap//ipipan.waw.pl8080/my_
    service
  • operation type the pair of formulas
  • formInOperationType( name )
  • formOutOperationType( name )
  • the service is invoked if formIn is satisfied
  • formOut describes the result of operation
    performed by the service

30
Our idea of service integration
Service invocation protocol
  • Six steps of service invocation
  • agent sends to the service my intention is
    f
  • f --gt intentions( agent )
  • service responds I commit to realize f if ? is
    satisfied
  • ? --gt formInCommitments( service )
  • and
  • formOutCommitments( service ) --gt f
  • ? is satisfied
  • operation is performed by the service
  • f is satisfied
  • service sends confirmation to the agent

31
Idea of service integration
Service composition
protocol
  • Composition of two services (service0 and
    service1) is arranged by the agent in the
    following way.
  • The agent arranges the realization of its first
    intention f0, with the service0 .
  • Service agrees to realize this intention
    conditionally, i.e., if the formula f1 is
    satisfied.
  • Then, the agent puts the formula f1 as its
    current intention, and looks for another service
    that could realize this intention.
  • Suppose that the agent got to know that the
    service1 could realize its current intention f1 .
  • Continued on the next slide

32
Our idea of service integration
Service composition
protocol
  • The agent starts conversation with the service1
    by sending the message "my intention is f1 " .
  • Once the service1 agrees to realize this
    intention, the operations of the service0 and the
    service1 are composed, and form a part of a
    workflow the agent must construct in order to
    realize its task.
  • Recall that the agent task and its first
    intention is of the form
  • f0 isIn( g(f( res0 )), GUI ) and timeout(
    date0 )
  • f is implemented by service0 , g is implemented
    by service1
  • the service composition corresponds to the
    abstract function composition

33
enTish enTish enTish enTish enTish
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