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SOAP::Serializer - the means by which the toolkit manages the expression of data as XML
The SOAP::Serializer class is the means by which the toolkit manages the expression of data as XML. The object that a SOAP::Lite instance uses by default is generally enough for the task, with no need for the application to create its own. The main purpose of this class is to provide a place for applications to extend the serializer by defining additional methods for handling new datatypes.
$serialize = SOAP::Serializer->new( );
This is the constructor method for the class. In addition to creating a basic object and initializing it with default values, the constructor can also take names and values for most of the accessor methods that the class supports.
$serialize->envelope(fault => $fault_obj);
Provides the core purpose for the SOAP::Serializer class. It creates the full SOAP envelope based on the input passed in to it. The data arguments passed in the list of parameters to the method are divided into two sublists: any parameters that are the SOAP::Header manpage objects or derivatives of go into one list, while the remainder go into the other. The nonheader objects are used as the content for the message body, with the body itself being largely dependent on the value of the first argument in the list. This argument is expected to be a string and should be one of the following:
$serialize->context->packager();
This provides access to the calling context of SOAP::Serializer
. In a client side context the often means a reference to an instance of SOAP::Lite. In a server side context this means a reference to a SOAP::Server instance.
The envelope is being created to encapsulate a RPC-style method call.
The message being created is that of a response stemming from a RPC-style method call.
For this specifier, the envelope being created is to transmit a fault.
This identifier is used as a general-case encoding style for messages that don't fit into any of the previous cases. The arguments are encoded into the envelope's Body tag without any sort of context sensitivity. Any value other than these four results in an error.
$serialize->envprefix('env');
Gets or sets the prefix that labels the SOAP envelope namespace. This defaults to SOAP-ENV.
$serialize->envprefix('enc');
Gets or sets the prefix that labels the SOAP encoding namespace. Defaults to SOAP-ENC.
$serial->soapversion('1.2');
If no parameter is given, returns the current version of SOAP that is being used as the basis for serializing messages. If a parameter is given, attempts to set that as the version of SOAP being used. The value should be either 1.1 or 1.2. When the SOAP version is being set, the package selects new URNs for envelope and encoding spaces and also calls the xmlschema method to set the appropriate schema definition.
$serial->xmlschema($xml_schema_1999);
Gets or sets the URN for the schema being used to express the structure of the XML generated by the serializer. If setting the value, the input must be the full URN for the new schema and is checked against the list of known SOAP schemas.
The register_ns subroutine allows users to register a global namespace with the SOAP Envelope. The first parameter is the namespace, the second parameter to this subroutine is an optional prefix. If a prefix is not provided, one will be generated automatically for you. All namespaces registered with the serializer get declared in the <soap:Envelope /> element.
The find_prefix subroutine takes a namespace as a parameter and returns the assigned prefix to that namespace. This eliminates the need to declare and redeclare namespaces within an envelope. This subroutine is especially helpful in determining the proper prefix when assigning a type to a SOAP::Data element. A good example of how this might be used is as follows:
SOAP::Data->name("foo" => $inputParams{'foo'}) ->type($client->serializer->find_prefix('urn:Foo').':Foo');
When serializing an object, or blessed hash reference, into XML, SOAP::Serializer
first checks to see if a subroutine has been defined for the corresponding class name. For example, in the code below, SOAP::Serializer
will check to see if a subroutine called as_MyModule__MyPackage
has been defined. If so, then it will pass $foo
to that subroutine along with other data known about the SOAP::Data
element being encoded.
$foo = MyModule::MyPackage->new; my $client = SOAP::Lite ->uri($NS) ->proxy($HOST); $som = $client->someMethod(SOAP::Data->name("foo" => $foo));
The subroutine should always be prepended with as_
followed by the type's name. The type's name must have all colons (':') substituded with an underscore ('_').
The input to as_TypeName
will have at least one parameter, and at most four parameters. The first parameter will always be the value or the object to be encoded. The following three parameters depend upon the context of the value/object being encoded.
If the value/object being encoded was part of a SOAP::Data
object (as in the above example), then the second, third and fourth parameter will be the SOAP::Data
element's name, type, and attribute set respectively. If on the other hand, the value/object being encoded is not part of a SOAP::Data
object, as in the code below:
$foo = MyModule::MyPackage->new; my $client = SOAP::Lite ->uri($NS) ->proxy($HOST); $som = $client->someMethod($foo);
Then the second and third parameters will be the class name of the value/object being encoded (e.g. ``MyModule::MyPackage'' in the example above), and the fourth parameter will be an empty hash.
The encoding subroutine must return an array containing three elements: 1) the name of the XML element, 2) a hash containing the attributes to be placed into the element, and 3) the value of the element.
When the type of an element has not been declared explicitly, SOAP::Lite must ``guess'' at the object's type. That is due to the fact that the only form of introspection that Perl provides (through the use of the ref
subroutine) does not provide enough information to SOAP::Serializer
to allow SOAP::Lite to determine the exact type of an element being serialized.
To work around this limitation, the SOAP::Serializer::typelookup
hash was created. This hash is populated with all the data types that the current SOAP::Serializer
can auto detect. Users and developers are free to modify the contents of this hash allowing them to register new data types with the system.
When SOAP::Serializer
is asked to encode an object into XML, it goes through the following steps. First, SOAP::Serializer
checks to see if a type has been explicitly stated for the current object. If a type has been provided SOAP::Serializer
checks to see if an as_TypeName
subroutine as been defined for that type. If such a subroutine exists, then SOAP::Serializer
passes the object to it to be encoded. If the subroutine does not exist, or the type has not been provided, then SOAP::Serializer
must attempt to ``guess'' the type of the object being serialized.
To do so, SOAP::Serializer
runs in sequence a set of tests stored in the SOAP::Serializer::typelookup
hash. SOAP::Serializer
continues to run each test until one of the tests returns true, indicating that the type of the object has been detected. When the type of the object has been detected, then SOAP::Serializer
passes the object to the encoding subroutine that corresponds with the test that was passed. If all the tests fail, and the type was not determined, then SOAP::Serializer
will as a last resort encode the object based on one of the four basic data types known to Perl: REF, SCALAR, ARRAY and HASH.
The following table contains the set of data types detectable by SOAP::Lite
by default and the order in which their corresponding test subroutine will be run, according to their precedence value.
Table 1 - Autotyping Precedence
TYPENAME PRECEDENCE VALUE ---------------------------- base64 10 int 20 long 25 float 30 gMonth 35 gDay 40 gYear 45 gMonthDay 50 gYearMonth 55 date 60 time 70 dateTime 75 duration 80 boolean 90 anyURI 95 string 100
To register a new data type that can be automatically detected by SOAP::Lite
and then serialized into XML, the developer must provide the following four things:
The name of the new data type.
A subroutine that is capable of detecting whether a value passed to it is of the corresponding data type.
A number representing the test subroutine's precedence relative to all the other types' test subroutinestypes. See Table 1 - Autotyping Precedence.
A subroutine that is capable of providing SOAP::Serializer
with the information necessary to serialize an object of the corresponding data type into XML.
If, for example, you wish to create a new datatype called uriReference
for which you would like Perl values to be automatically detected and serialized into, then you follow these steps.
Step 1: Write a Test Subroutine
The test subroutine will have passed to it by SOAP::Serializer
a value to be tested. The test subroutine must return 1 if the value passed to it is of the corresponding type, or else it must return 0.
sub SOAP::Serializer::uriReferenceTest { my ($value) = @_; return 1 if ($value =~ m!^http://!); return 0; }
Step 2: Write an Encoding Subroutine
The encoding subroutine provides SOAP::Serializer
with the data necessary to encode the value passed to it into XML. The encoding subroutine name's should be of the following format: as_
<Type Name>.
The encoding subroutine will have passed to it by SOAP::Serializer
four parameters: the value to be encoded, the name of the element being encoded, the assumed type of the element being encoded, and a reference to a hash containing the attributes of the element being encoded. The encoding subroutine must return an array representing the encoded datatype. SOAP::Serializer
will use the contents of this array to generate the corresponding XML of the value being encoded, or serialized. This array contains the following 3 elements: the name of the XML element, a hash containing the attributes to be placed into the element, and the value of the element.
sub SOAP::Serializer::as_uriReference { my $self = shift; my($value, $name, $type, $attr) = @_; return [$name, {'xsi:type' => 'xsd:uriReference', %$attr}, $value]; }
Step 3: Register the New Data Type
To register the new data type, simply add the type to the SOAP::Serializer::typelookup
hash using the type name as the key, and an array containing the precedence value, the test subroutine, and the encoding subroutine.
$s->typelookup->{uriReference} = [11, \&uriReferenceTest, 'as_uriReference'];
Tip: As a short hand, you could just as easily use an anonymous test subroutine when registering the new datatype in place of the urlReferenceTest
subroutine above. For example:
$s->typelookup->{uriReference} = [11, sub { $_[0] =~ m!^http://! }, 'as_uriReference'];
Once complete, SOAP::Serializer
will be able to serialize the following SOAP::Data
object into XML:
$elem = SOAP::Data->name("someUri" => 'http://yahoo.com')->type('uriReference');
SOAP::Serializer
will also be able to automatically determine and serialize the following untyped SOAP::Data
object into XML:
$elem = SOAP::Data->name("someUri" => 'http://yahoo.com');
Special thanks to O'Reilly publishing which has graciously allowed SOAP::Lite to republish and redistribute large excerpts from Programming Web Services with Perl, mainly the SOAP::Lite reference found in Appendix B.
Copyright (C) 2000-2004 Paul Kulchenko. All rights reserved.
This library is free software; you can redistribute it and/or modify it under the same terms as Perl itself.
Paul Kulchenko (paulclinger@yahoo.com)
Randy J. Ray (rjray@blackperl.com)
Byrne Reese (byrne@majordojo.com)