Provided by: libsoap-wsdl-perl_3.003-3_all bug

NAME

       SOAP::WSDL::Manual - Accessing WSDL based web services

Accessing a WSDL-based web service

   Quick walk-through for the unpatient
       ·   Create WSDL bindings

             perl wsdl2perl -b base_dir URL

       ·   Look what has been generated

           Check the results of the generator. There should be one
           MyInterfaces/SERVICE_NAME/PORT_NAME.pm file per port (and one directory per service).

       ·   Write script

            use MyInterfaces::SERVICE_NAME::PORT_NAME;
            my $service = MyInterfaces::SERVICE_NAME::PORT_NAME->new();

            my $result = $service->SERVICE_METHOD();
            die $result if not $result;

            print $result;

           "perldoc MyInterfaces::SERVICE_NAME::PORT_NAME" should give you some overview about
           the service's interface structure.

           The results of all calls to your service object's methods (except new) are objects
           based on SOAP::WSDL's XML schema implementation.

           To access the object's properties use get_NAME / set_NAME getter/setter methods with
           NAME corresponding to the XML tag name / the hash structure as showed in the generated
           pod.

       ·   Run script

   Instrumenting web services with interface classes
       SOAP::WSDL (starting from 2.00) instruments WSDL based web services with interface
       classes. This means that SOAP::WSDL features a code generator which creates one class for
       every web service you want to access.

       Moreover, the data types from the WSDL definitions are also wrapped into classes and
       returned to the user as objects.

       To find out which class a particular XML node should be, SOAP::WSDL uses typemaps. For
       every Web service, there's also a typemap created.

   Interface class creation
       To create interface classes, follow the steps above.

       If this works fine for you, skip the next paragraphs. If not, read on.

       The steps to instrument a web service with SOAP::WSDL perl bindings (in detail) are as
       follows:

       ·   Gather web service information

           You'll need to know at least a URL pointing to the web service's WSDL definition.

           If you already know more - like which methods the service provides, or how the XML
           messages look like, that's fine. All these things will help you later.

       ·   Create WSDL bindings

            perl wsdl2perl -b base_dir URL

           This will generate the perl bindings in the directory specified by base_dir.

           For more options, see wsdl2perl - you may want to specify class prefixes for XML type
           and element classes, type maps and interface classes, and you may even want to add
           custom typemap elements.

       ·   Check the result

           There should be a bunch of classes for types (in the MyTypes:: namespace by default),
           elements (in MyElements::), and at least one typemap (in MyTypemaps::) and one or more
           interface classes (in MyInterfaces::).

           If you don't already know the details of the web service you're going to instrument,
           it's now time to read the perldoc of the generated interface classes. It will tell you
           what methods each service provides, and which parameters they take.

           If the WSDL definition is informative about what these methods do, the included
           perldoc will be, too - if not, blame the web service author.

       ·   Write a perl script (or module) accessing the web service.

            use MyInterfaces::SERVICE_NAME::PORT_NAME;
            my $service = MyInterfaces::SERVICE_NAME::PORT_NAME->new();

            my $result = $service->SERVICE_METHOD();
            die $result if not $result;
            print $result;

           The above handling of errors ("die $result if not $result") may look a bit strange -
           it is due to the nature of the SOAP::WSDL::SOAP::Typelib::Fault11 objects SOAP::WSDL
           uses for signalling failure.

           These objects are false in boolean context, but serialize to their XML structure on
           stringification.

           You may, of course, access individual fault properties, too. To get a list of fault
           properties, see SOAP::WSDL::SOAP::Typelib::Fault11

   Adding missing information
       Sometimes, WSDL definitions are incomplete. In most of these cases, proper fault
       definitions are missing. This means that though the specification says nothing about it,
       Fault messages include extra elements in the <detail> section, or errors are even
       indicated by non-fault messages.

       There are two steps you need to perform for adding additional information.

       ·   Provide required type classes

           For each extra data type used in the XML messages, a type class has to be created.

           It is strongly discouraged to use the same namespace for hand-written and generated
           classes - while generated classes may be many, you probably will only implement a few
           by hand. These (precious) few classes may get lost in the mass of (cheap) generated
           ones. Just imagine one of your co-workers (or even yourself) deleting the whole bunch
           and re-generating everything - oops - almost everything. You get the point.

           For simplicity, you probably just want to use builtin types wherever possible - you
           are probably not interested in whether a fault detail's error code is presented to you
           as a simpleType ranging from 1 to 10 (which you have to write) or as an int (which is
           a builtin type ready to use).

           Using builtin types for simpleType definitions may greatly reduce the number of
           additional classes you need to implement.

           If the extra type classes you need include <complexType > or <element /> definitions,
           see SOAP::WSDL::SOAP::Typelib::ComplexType and SOAP::WSDL::SOAP::Typelib::Element on
           how to create ComplexType and Element type classes.

       ·   Provide a typemap snippet to wsdl2perl

           SOAP::WSDL uses typemaps for finding out into which class' object a XML node should be
           transformed.

           Typemaps basically map the path of every XML element inside the Body tag to a perl
           class.

           Typemap snippets have to look like this (which is actually the default Fault typemap
           included in every generated one):

            (
            'Fault' => 'SOAP::WSDL::SOAP::Typelib::Fault11',
            'Fault/faultcode' => 'SOAP::WSDL::XSD::Typelib::Builtin::anyURI',
            'Fault/faultactor' => 'SOAP::WSDL::XSD::Typelib::Builtin::anyURI',
            'Fault/faultstring' => 'SOAP::WSDL::XSD::Typelib::Builtin::string',
            'Fault/detail' => 'SOAP::WSDL::XSD::Typelib::Builtin::anyType',
            );

           The lines are hash key - value pairs. The keys are the XPath expressions without
           occurrence numbers (like [1]) relative to the Body element.  Namespaces are ignored.

           If you don't know about XPath: They are just the names of the XML tags, starting from
           the one inside <Body> up to the current one joined by /.

           One line for every XML node is required.

           You may use all builtin, generated or custom type class names as values.

           Use wsdl2perl -mi=FILE to include custom typemap snippets.

           Note that typemap include files for wsdl2perl must evaluate to a valid perl hash - it
           will be imported via eval (OK, to be honest: via do $file, but that's almost the
           same...).

           Your extra statements are included last, so they override potential typemap statements
           with the same keys.

Accessing a web service without a WSDL definition

       Accessing a web service without a WSDL definition is more cumbersome. There are two ways
       to go:

       ·   Write a WSDL definition and generate interface

           This is the way to go if you already are experienced in writing WSDL files.  If you
           are not, be warned: Writing a correct WSDL is not an easy task, and writing correct
           WSDL files with only a text editor is almost impossible.  You should definitely use a
           WSDL editor. The WSDL editor should support conformance checks for the WS-I Basic
           Profile (1.0 is preferred by SOAP::WSDL)

       ·   Write a typemap and class library from scratch

           If the web service is relatively simple, this is probably easier than first writing a
           WSDL definition. Besides, it can be done in perl, a language you are probably more
           familiar with than WSDL.

           SOAP::WSDL::XSD::Typelib::ComplexType, SOAP::WSDL::XSD::Typelib::SimpleType and
           SOAP::WSDL::XSD::Typelib::Element tell you how to create subclasses of XML schema
           types.

           SOAP::WSDL::Manual::Parser will tell you how to create a typemap class.

Creating a SOAP Server

       Creating a SOAP server works just like creating a client - just add the "--server" or "-s"
       option to the call to "wsdl2perl".

        perl wsdl2perl -s -b BASE_DIR URL

       SOAP::WSDL currently includes classes for building a basic CGI and a mod_perl 2 based SOAP
       server.

SEE ALSO

       SOAP::WSDL::Manual::Cookbook cooking recipes for accessing web services, altering the XML
       Serializer and others.

       SOAP::WSDL::Manual::XSD SOAP::WSDL's XML Schema implementation

       SOAP::WSDL::Manual::Glossary The meaning of all these words

       SOAP::WSDL::Client Basic client for SOAP::WSDL based interfaces

       SOAP::WSDL an interpreting WSDL based SOAP client

LICENSE AND COPYRIGHT

       Copyright 2007 Martin Kutter.

       This file is part of SOAP-WSDL. You may distribute/modify it under the same terms as perl
       itself

AUTHOR

       Martin Kutter <martin.kutter fen-net.de>