package CGI::XMLApplication; # ################################################################ # # (c) 2001 Christian Glahn # # This code is free software; you can redistribute it and/or # modify it under the same terms as Perl itself. # # ################################################################ ## # CGI::XMLApplication - Application Module for CGI scripts # ################################################################ # module loading and global variable initializing # ################################################################ use strict; use CGI; use Carp; #use Data::Dumper; # ################################################################ # inheritance # ################################################################ @CGI::XMLApplication::ISA = qw( CGI ); # ################################################################ $CGI::XMLApplication::VERSION = "1.1.5"; # ################################################################ # general configuration # ################################################################ # some hardcoded error messages, the application has always, e.g. # to tell that a stylesheet is missing @CGI::XMLApplication::panic = ( 'No Stylesheet specified! ', 'Stylesheet is not available! ', 'Event not implemented', 'Application Error', ); # The Debug Level for verbose error messages $CGI::XMLApplication::DEBUG = 0; # ################################################################ # methods # ################################################################ sub new { my $class = shift; my $self = $class->SUPER::new( @_ ); bless $self, $class; $self->{XML_CGIAPP_HANDLER_} = [$self->registerEvents()]; $self->{XML_CGIAPP_STYLESHEET_} = []; $self->{XML_CGIAPP_STYLESDIR_} = ''; return $self; } # ################################################################ # straight forward coded methods # application related ############################################ # both functions are only for backward compatibilty with older scripts sub debug_msg { my $level = shift; if ( $level <= $CGI::XMLApplication::DEBUG && scalar @_ ) { my ($module, undef, $line) = caller(1); warn "[$module; line: $line] ", join(' ', @_) , "\n"; } } ## # dummy functions # # each function is required to be overwritten by any class inheritated sub registerEvents { return (); } # all following function will recieve the context, too sub getDOM { return undef; } sub requestDOM { return undef; } # old style use getDOM! sub getStylesheetString { return ""; } # return a XSL String sub getStylesheet { return ""; } # returns either name of a stylesheetfile or the xsl DOM sub selectStylesheet { return ""; } # old style getStylesheet sub getXSLParameter { return (); } # should return a plain hash of parameters passed to xsl sub setHttpHeader { return (); } # should return a hash of header sub skipSerialization{ my $self = shift; $self->{CGI_XMLAPP_SKIP_TRANSFORM} = shift if scalar @_; return $self->{CGI_XMLAPP_SKIP_TRANSFORM}; } # returns boolean sub passthru { my $self = shift; if ( scalar @_ ) { $self->{CGI_XMLAPP_PASSXML} = shift; $self->delete( 'passthru' ); # delete any passthru parameter } elsif ( defined $self->param( "passthru" ) ) { $self->{CGI_XMLAPP_PASSXML} = 1 ; $self->delete( 'passthru' ); } return $self->{CGI_XMLAPP_PASSXML}; } sub redirectToURI { my $self = shift; $self->{CGI_XMLAPP_REDIRECT} = shift if scalar @_; return $self->{CGI_XMLAPP_REDIRECT}; } # ################################################################ # content related functions # stylesheet directory information ############################### sub setStylesheetDir { $_[0]->{XML_CGIAPP_STYLESDIR_} = $_[1];} sub setStylesheetPath { $_[0]->{XML_CGIAPP_STYLESDIR_} = $_[1];} sub getStylesheetDir { $_[0]->{XML_CGIAPP_STYLESDIR_}; } sub getStylesheetPath { $_[0]->{XML_CGIAPP_STYLESDIR_}; } # event control ################################################### sub addEvent { my $s=shift; push @{$s->{XML_CGIAPP_HANDLER_}}, @_;} sub getEventList { @{ $_[0]->{XML_CGIAPP_HANDLER_} }; } sub testEvent { return $_[0]->checkPush( $_[0]->getEventList() ); } sub deleteEvent { my $self = shift; if ( scalar @_ ){ # delete explicit events foreach ( @_ ) { debug_msg( 8, "[XML::CGIApplication] delete event $_" ); $self->delete( $_ ); $self->delete( $_.'.x' ); $self->delete( $_.'.y' ); } } else { # delete all foreach ( @{ $self->{XML_CGIAPP_HANDLER_} } ){ debug_msg( 8, "delete event $_" ); $self->delete( $_ ); $self->delete( $_.'.x' ); $self->delete( $_.'.y' ); } } } sub sendEvent { debug_msg( 10, "send event " . $_[1] ); $_[0]->deleteEvent(); $_[0]->param( -name=>$_[1] , -value=>1 ); } # error handling ################################################# # for internal use only ... sub setPanicMsg { $_[0]->{XML_CGIAPP_PANIC_} = $_[1] } sub getPanicMsg { $_[0]->{XML_CGIAPP_PANIC_} } # ################################################################ # predefined events # default event handler prototypes sub event_init {} sub event_exit {} sub event_default { return 0 } # ################################################################ # CGI specific helper functions # this is required by the eventhandling sub checkPush { my $self = shift; my ( $pushed ) = grep { defined $self->param( $_ ) || defined $self->param( $_.'.x') } @_; $pushed =~ s/\.x$//i if defined $pushed; return $pushed; } # helper functions which were missing in CGI.pm sub checkFields{ my $self = shift; my @missing = grep { not length $self->param( $_ ) || $self->param( $_ ) =~ /^\s*$/ } @_; return wantarray ? @missing : ( scalar(@missing) > 0 ? undef : 1 ); } sub getParamHash { my $self = shift; my $ptrHash = $self->Vars; my $ptrRV = {}; foreach my $k ( keys( %{$ptrHash} ) ){ next unless exists $ptrHash->{$_} && $ptrHash->{$_} !~ /^[\s\0]*$/; $ptrRV->{$k} = $ptrHash->{$k}; } return wantarray ? %{$ptrRV} : $ptrRV; } # ################################################################ # application related methods # ################################################################ # algorithm should be # event registration # app init # event handling # app exit # serialization and output # error handling sub run { my $self = shift; my $sid = -1; my $ctxt = (!@_ or scalar(@_) > 1) ? {@_} : shift; # nothing, hash or context object $self->event_init($ctxt); if ( my $n = $self->testEvent($ctxt) ) { if ( my $func = $self->can('event_'.$n) ) { $sid = $self->$func($ctxt); } else { $sid = -3; } } if ( $sid == -1 ){ $sid = $self->event_default($ctxt); } $self->event_exit($ctxt); # if we allready panic, don't try to render if ( $sid >= 0 ) { # check if we wanna redirect if ( my $uri = $self->redirectToURI() ) { my %h = $self->setHttpHeader( $ctxt ); $h{-uri} = $uri; print $self->SUPER::redirect( %h ) . "\n\n"; } elsif ( not $self->skipSerialization() ) { # sometimes it is nessecary to skip the serialization # eg. due passing binary data. $sid = $self->serialization( $ctxt ); } } $self->panic( $sid, $ctxt ); } sub serialization { # i require both modules here, so one can implement his own # serialization require XML::LibXML; require XML::LibXSLT; my $self = shift; my $ctxt = shift; my $id; my %header = $self->setHttpHeader( $ctxt ); my $xml_doc = $self->getDOM( $ctxt ); if ( not defined $xml_doc ) { debug_msg( 10, "use old style interface"); $xml_doc = $self->requestDOM( $ctxt ); } # if still no document is available if ( not defined $xml_doc ) { debug_msg( 10, "no DOM defined; use empty DOM" ); $xml_doc = XML::LibXML::Document->new; # the following line is to keep xpath.c quiet! $xml_doc->setDocumentElement( $xml_doc->createElement( "dummy" ) ); } if( defined $self->passthru() && $self->passthru() == 1 ) { # this is a useful feature for DOM debugging debug_msg( 10, "attempt to pass the DOM to the client" ); $header{-type} = 'text/xml'; print $self->header( %header ); print $xml_doc->toString(); return 0; } my $stylesheet = $self->getStylesheet( $ctxt ); my ( $xsl_dom, $style, $res ); my $parser = XML::LibXML->new(); my $xslt = XML::LibXSLT->new(); if ( ref( $stylesheet ) ) { debug_msg( 5, "stylesheet is reference" ); $xsl_dom = $stylesheet; } elsif ( -f $stylesheet && -r $stylesheet ) { debug_msg( 5, "filename is $stylesheet" ); eval { $xsl_dom = $parser->parse_file( $stylesheet ); }; if ( $@ ) { debug_msg( 3, "Corrupted Stylesheet:\n broken XML\n". $@ ); $self->setPanicMsg( "Corrupted document:\n broken XML\n". $@ ); return -2; } } else { # first test the new style interface my $xslstring = $self->getStylesheetString( $ctxt ); if ( length $xslstring ) { debug_msg( 5, "stylesheet is xml string" ); eval { $xsl_dom = $parser->parse_string( $xslstring ); }; if ( $@ || not defined $xsl_dom ) { # the parse failed !!! debug_msg( 3, "Corrupted Stylesheet String:\n". $@ ."\n" ); $self->setPanicMsg( "Corrupted Stylesheet String:\n". $@ ); return -2; } } else { # now test old style interface # will be removed with the next major release debug_msg( 5, "old style interface to select the stylesheet" ); $stylesheet = $self->selectStylesheet( $ctxt ); if ( ref( $stylesheet ) ) { debug_msg( 5, "stylesheet is reference" ); $xsl_dom = $stylesheet; } elsif ( -f $stylesheet && -r $stylesheet ) { debug_msg( 5, "filename is $stylesheet" ); eval { $xsl_dom = $parser->parse_file( $stylesheet ); }; if ( $@ ) { debug_msg( 3, "Corrupted Stylesheet:\n broken XML\n". $@ ); $self->setPanicMsg( "Corrupted document:\n broken XML\n". $@ ); return -2; } } else { debug_msg( 2 , "panic stylesheet file $stylesheet does not exist" ); $self->setPanicMsg( "$stylesheet" ); return length $stylesheet ? -2 : -1 ; } } } eval { $style = $xslt->parse_stylesheet( $xsl_dom ); # $style = $xslt->parse_stylesheet_file( $file ); }; if( $@ ) { debug_msg( 3, "Corrupted Stylesheet:\n". $@ ."\n" ); $self->setPanicMsg( "Corrupted Stylesheet:\n". $@ ); return -2; } my %xslparam = $self->getXSLParameter( $ctxt ); eval { # first do special xpath encoding of the parameter if ( %xslparam && scalar( keys %xslparam ) > 0 ) { my @list; foreach my $key ( keys %xslparam ) { # check for multivalued parameters stored in a \0 separated string by CGI.pm :-/ if ( $xslparam{$key} =~ /\0/ ) { push @list, $key, (split("\0",$xslparam{$key}))[-1]; } else { push @list, $key, $xslparam{$key}; } } $res = $style->transform( $xml_doc, XML::LibXSLT::xpath_to_string(@list) ); } else { $res = $style->transform( $xml_doc ); } }; if( $@ ) { debug_msg( 3, "Broken Transformation:\n". $@ ."\n" ); $self->setPanicMsg( "Broken Transformation:\n". $@ ); return -2; } # override content-type with the correct content-type # of the style (is this ok?) $header{-type} = $style->media_type; $header{-charset} = $style->output_encoding; debug_msg( 10, "serialization do output" ); # we want nice xhtml and since the output_string does not the # right job my $out_string= undef; debug_msg( 9, "serialization get output string" ); eval { $out_string = $style->output_string( $res ); }; debug_msg( 10, "serialization rendered output" ); if ( $@ ) { debug_msg( 3, "Corrupted Output:\n", $@ , "\n" ); $self->setPanicMsg( "Corrupted Output:\n". $@ ); return -2; } else { # do the output print $self->header( %header ); print $out_string; debug_msg( 10, "output printed" ); } return 0; } sub panic { my ( $self, $pid ) = @_; return unless $pid < 0; $pid++; $pid*=-1; my $str = "Application Panic: "; $str = "PANIC $pid :" . $CGI::XMLApplication::panic[$pid] ; # this is nice for debugging from logfiles... $str = $self->b( $str ) . "
\n"; $str .= $self->pre( $self->getPanicMsg() ); $str .= "Please Contact the Systemadminstrator
\n"; debug_msg( 1, "$str" ); if ( $CGI::XMLApplication::Quiet == 1 ) { $str = "Application Panic"; } if ( $CGI::XMLApplication::Quiet == 2 ) { $str = ""; } my $status = $pid < 3 ? 404 : 500; # default is the application error ... print $self->header( -status => $status ) , $str ,"\n"; } 1; # ################################################################ __END__ =head1 NAME CGI::XMLApplication -- Object Oriented Interface for CGI Script Applications =head1 SYNOPSIS use CGI::XMLApplication; $script = new CGI::XMLApplication; $script->setStylesheetPath( "the/path/to/the/stylesheets" ); # either this for simple scripts $script->run(); # or if you need more control ... $script->run(%context_hash); # or a context object =head1 DESCRIPTION CGI::XMLApplication is a CGI application class, that intends to enable perl artists to implement CGIs that make use of XML/XSLT functionality, without taking too much care about specialized errorchecking or even care too much about XML itself. It provides the power of the L/ L module package for content deliverment. As well CGI::XMLApplication is designed to support project management on code level. The class allows splitting web applications into several simple parts. Through this most of the code stays simple and easy to maintain. Throughout the whole runtime of a script CGI::XMLApplication tries to keep the application stable. As well a programmer has not to bother about some of XML::LibXML/ XML::LibXSLT transformation pitfalls. The class module extends the CGI class. While all functionality of the original CGI package is still available, it should be not such a big problem, to port existing scripts to CGI::XMLApplication, although most functions used here are the access function for client data such as I. CGI::XMLApplication, intended to be an application class should make writing of XML enabled CGI scripts more easy. Especially because of the use of object orientated concepts, this class enables much more transparent implemententations with complex functionality compared to what is possible with standard CGI-scripts. The main difference with common perl CGI implementation is the fact, that the client-output is not done from perl functions, but generated by an internally build XML DOM that gets processed with an XSLT stylesheet. This fact helps to remove a lot of the HTML related functions from the core code, so a script may be much easier to read, since only application relevant code is visible, while layout related information is left out (commonly in an XSLT file). This helps to write and test a complete application faster and less layout related. The design can be appended and customized later without effecting the application code anymore. Since the class uses the OO paradigma, it does not force anybody to implement a real life application with the complete overhead of more or less redundant code. Since most CGI-scripts are waiting for B, which is usually the code abstraction of a click of a submit button or an image, CGI::XMLApplication implements a simple event system, that keeps event related code separated from other events. Therefore, a final application class is not meant to have a constructor anymore. All functionality should be encapsulated into implicit or explicit event handlers. Because of a lack in Perl's OO implementation the call of a superclass constructor before the current constructor call is not default behavior in Perl. For that reason I decided to have special B to enable the application to initialize correctly, excluding the danger of leaving important variables undefined. Also this forces the programmer to implement scripts more problem orientated, rather than class or content focused. Another design aspect for CGI::XMLApplication is the strict differentiation between CODE and PRESENTATION. IMHO this, in fact being one of the major problems in traditional CGI programming. To implement this, the XML::LibXML and XML::LibXSLT modules are used by default but may be replaced easily by any other XML/XSLT capable modules. Each CGI Script should generate an XML-DOM, that can be processed with a given stylesheet. B =head2 Programflow of a CGI::XMLApplication The following Flowchart illustratrates how CGI::XMLApplication behaves during runtime. Also chart shows where specialized application code gets control during script runtime. ------- CGI Script ------->|<--------- CGI::XMLApplication -------- .---------------------. .--------------------. | app-class creation |--- | event registration | `---------------------' | registerEvents() | `--------------------' .------------------------. | | context initialization |------------' | ( optional ) | `------------------------' | .-----------------------. .------------------------. | run() function called |--| application initialize | `-----------------------' | event_init() | `------------------------' | .--------'`------------. / event parameter found? \_ \ testEvent() / \ `--------.,------------' | | | yes | no | | | .------------. .------------------. | call event | | call | | event_*() | | event_default() | `------------' `------------------' | | .---------------------. | | application cleanup |-----' | event_exit() | `---------------------' | .---------'`------------. _/ avoid XML serialization \ / \ skip_serialization() / | `---------.,------------' | | yes | no | | | | .--------------------------. | | XML generation, XSLT | | | serialization and output | | | serialization() | | `--------------------------' .---------------. | | | END |-------+-------------' `---------------' =head2 What are Events and how to catch them Most CGI Scripts handle the result of HTML-Forms or similar requests from clients. Analouge to GUI Programming, CGI::XMLApplication calls this an B. Spoken in CGI/HTML-Form words, a CGI-Script handles the various situations a clients causes by pushing a submit button or follows a special link. Because of this common events are thrown by arguments found in the CGI's query string. An event of CGI::XMLApplication has the same B as the input field, that should cause the event. The following example should illustrate this a little better: If a user clicks the submitbutton and you have registered the event name B for your script, CGI::XMLApplication will try to call the function B. The script module to handle the dummy event would look something like the following code: # Application Module package myApp; use CGI::XMLApplication; @ISA = qw(CGI::XMLApplication); sub registerEvents { qw( dummy ); } # list of event names # ... sub event_dummy { my ( $self, $context ) = @_; # your event code goes here return 0; } During the lifecircle of a CGI script, often the implementation starts with ordinary submit buttons, which get often changed to so called input images, to fit into the UI of the Website. One does not need to change the code to make the scripts fit to these changes; CGI::XMLApplication already did it. The code has not to be changed if the presentation of the form changes. Therefore there is no need to declare separate events for input images. E.g. an event called evname makes CGI::XMLApplication tests if evname B evname.x exist in the querystring. So a perl artist can implement and test his code without caring if the design crew have done their job, too ;-) In many cases an web application is also confronted with events that can not be represented in with querystring arguments. For these cases CGI::XMLApplication offers the possibility to send B from the B function for example in case of application errors. This is done with the B Function. This will set a new parameter to the CGI's querystring after removing all other events. B. Although a sendEvent function exists, CGI::XMLApplication doesn't implement an event queqe. For GUI programmers this seems like a unnessecary restriction. In terms of CGI it makes more sense to think of a script as a program, that is only able to scan its event queqe only once during runtime and stopped before the next event can be thrown. The only chance to stop the script from handling a certain event is to send a new event or delete this (or even all) events from inside the event_init() function. This function is always called at first from the run method. If another event uses the sendEvent function, the call will have no effect. =over 4 =item method registerEvents This method is called by the class constructor - namely CGI::XMLApplication's B function . Each application should register the events it likes to handle with this function. It should return an array of eventnames such as eg. 'remove' or 'store'. This list is used to find which event a user caused on the client side. =item method run Being the main routine this should be the only method called by the script apart from the constructor. All events are handled inside the method B. Since this method is extremly simple and transparent to any kind of display type, there should be no need to override this function. One can pass a context hash or context object, to pass external or prefetched information to the application. This context will be available and accessible in all events and most extra functions. This function does all event and serialization related work. As well there is some validation done as well, so catched events, that are not implemented, will not cause any harm. =back =head2 The Event System A CGI::XMLApplication is split into two main parts: 1) The executable script called by the webserver and 2) the application module which has to be loaded, initialized and called by the script. Commonly applications that make use of CGI::XMLApplication, will not bother about the B function too much. All functionality is kept inside B- and (pseudo-)B. This forces one to implement much more strict code than common perl would allow. What first looks like a drawback, finally makes the code much easier to understand, maintain and finally to extend. CGI::XMLApplication knows two types of event handlers: implicit events, common to all applications and explicit events, reflecting the application logic. The class assumes that implicit events are implemented in any case. Those events have reserved names and need not be specified through B. Since the class cannot know something about the application logic by itself, names of events have to be explicitly passed to be handled by the application. As well all event functions have to be implemented as member methods of the application class right now. Because of perls OO interface a class has to be written inside its own module. An event may return a integer value. If the event succeeds (no fatal errors, e.g. database errors) the explicit or common event function should return a value greater or eqal than 0. If the value is less than 0, CGI::XMLApplication assumes an application panic, and will not try to generate a DOM or render it with a stylesheet. There are 4 defined panic levels: =over 4 =item -1 Stylesheet missing =item -2 Stylesheet not available =item -3 Event not implemented =item -4 Application panic =back Apart from B the panic levels are set internally. An Application Panic should be set if the application catches an error, that does not allow any XML/XSLT processing. This can be for example, that a required perl module is not installed on the system. To make it clear: If CGI::XMLApplication throws a panic, the application is broken, not completely implemented or stylesheets are missing or broken. Application panics are meant for debugging purposes and to avoid I. They are B meant as a replacement of a propper error handling! But how does CGI::XMLApplication know about the correct event handler? One needs to register the names of the events the application handles. This is done by implmenting a registerEvents() function that simply returns an B of event names. Through this function one prepares the CGI::XMLApplication to catch the listed names as events from the query string the client browser sends back to the script. CGI::XMLApplication tries to call a event handler if a name of a registred event is found. The coresponding function-name of an event has to have the following format: event_ E.g. event_init handles the init event described below. Each event has a single Parameter, the context. This can be an unblessed hash reference or an object, where the user can store whatever needed. This context is useful to pass scriptwide data between callbacks and event functions around. The callback is even available and useable if the script does not initialize the application context as earlier shown in the program flow chart. If such a function is not implemented in the application module, CGI::XMLApplication sets the I panic state. All events have to return an integer that tells about their execution state as already described. By default CGI::XMLApplication does not test for other events if it already found one. The most significant event is the first name of an event found in the query string - all other names are simply ignored. One may change this behaviour by overriding the B function. But still it is a good idea to choose the event names carefully and do not mix them with ordinary datafield names. =over 4 =item function testEvent If it is nesseccary to check which event is relevant for the current script one can use this function to find out in event_init(). If this function returns I, the default event is active, otherwise it returns the eventname as defined by B. In case one needs a special algorithm for event selection one can override this function. If done so, one can make use of the application context inside this function since it is passed to B by the B function. =item method sendEvent SCALAR Sometimes it could be necessary to send an event by your own (the script's) initiative. A possible example could be if you don't have client input but path_info data, which determinates how the script should behave or session information is missing, so the client should not even get the default output. This can only be done during the event_init() method call. Some coders would prefer the constructor, which is not a very good idea in this case: While the constructor is running, the application is not completely initialized. This can be only ashured in the event_init function. Therefore all application specific errorhandling and initializing should be done there. B only can be called from event_init, because any CGI::XMLApplication will handle just one event, plus the B and the B. If B is called from another event than B it will take not effect. It is possible through sendEvent() to keep the script logic clean. Example: package myApp; use CGI::XMLApplication; @ISA = qw(CGI::XMLApplication); sub registerEvents { qw( missing ... ) ; } # event_init is an implicit event sub event_init { my ( $self, $context ) = @_; if ( not ( defined $self->param( $paraname ) && length $self->param( $paramname ) ) ){ # the parameter is not correctly filled $self->sendEvent( 'missing' ); } else { ... some more initialization ... } return 0; } ... more code ... # event_missing is an explicit event. sub event_missing { my ( $self , $context ) = @_; ... your error handling code goes ... return -4 if $panic; # just for illustration return 0; } =back =head2 Implicit Events CGI::XMLApplication knows three implicit events which are more or less independent to client responses: They are 'init', 'exit', and 'default'. These events already exist for any CGI::XMLApplication. They need not to be implemented separately if they make no sense for the application. =over 4 =item event_init The init event is set before the CGI::XMLApplication tries to evaluate any of script parameters. Therefore the event_init method should be used to initialize the application. =item event_exit The event_exit method is called after all other events have been processed, but just before the rendering is done. This should be used, if you need to do something independend from all events before the data is send to the user. =item event_default This event is called as a fallback mechanism if CGI::XMLApplication did not receive a stylesheet id by another event handler, for example if no event is matched. =back =head2 the XML Serialization The presentation is probably the main part of a CGI script. By using XML and XSLT this can be done in a standartised manner. From the application view all this can be isolated in a separate subsystem as well. In CGI::XMLApplication this subsystem is implemented inside the B function. For XML phobic perl programmers it should be cleared, that CGI::XMLApplication makes real use of XML/XSLT functionalty only inside this function. For all code explained above it is not required to make use of XML at all. The XML serialization subsystem of CGI::XMLApplication tries to hide most of non application specific code from the application programmer. This method renders the data stored in the DOM with the stylesheet returned by the event handler. You should override this function if you like to use a different way of displaying your data. If the serialization should be skipped, CGI::XMLApplication will not print any headers. In such case the application is on its own to pass all the output. The algorithm used by serialization is simple: =over 4 =item * request the appplication DOM through B =item * test for XML passthru =item * get the stylesheet the application preferes through B =item * parse the stylesheet =item * transform the DOM with the stylesheet =item * set Content-Type and headers =item * return the content to the client =back If errors occour on a certain stage of serialization, the application is stopped and the generated error messages are returned. CGI::XMLApplication provides four pseudo-callbacks, that are used to get the application specific information during serialization. In order of being called by CGI::XMLApplication::serialization() they are: =over 4 =item * getDOM =item * setHttpHeader =item * getStylesheet =item * getXSLTParameter =back In fact only getStylesheet has to be implemented. In most cases it will be a good idea to provide the getDOM function as well. The other functions provider a interface to make the CGI output more generic. For example one can set cookies or pass XSL parameters to XML::LibXSLT's xsl processor. These methods are used by the serialization function, to create the content related datastructure. Like event functions these functions have to be implemented as class member, and like event funcitons the functions will have the context passed as the single parameter. =over 4 =item getDOM() getDOM() should return the application data as XML-DOM. CGI::XMLApplication is quite lax if this function does not return anything - its simply assumed that an empty DOM should be rendered. In this case a dummy root element is created to avoid error messages from XML::LibXSLT. =item setHttpHeader() B should return a hash of headers (but not the Content-Type). This can be used to set the I pragma, to set or remove cookies. The keys of the hash must be the same as the named parameters of CGI.pm's header method. One does not need to care about the output of these headers, this is done by CGI::XMLApplication automatically. The content type of the returned data is usually not required to be set this way, since the XSLT processor knows about the content type, too. =item getStylesheet() If the B is implemented the CGI::XMLApplication will assume the returned value either as a filename of a stylesheet or as a XML DOM representation of the same. If Stylesheets are stored in a folder accessible for the the web-server, a common path for the stylesheets should be set and B will initiate the parsing job. In cases the stylesheet is already present as a string (e.g. as a result of a database query) one may pass this string directly to B. I is an alias for I left for compatibility reasons. If none of these stylesheet selectors succeeds the I panic code is thrown. If the parsing of the stylesheet XML fails I is thrown. The latter case will also provide details where the stylesheet selection failed. B has to return a valid path/filename for the stylesheet requested. =item getXSLTParameter() This function helps passing parameters to XML::LibXSLT's xsl processor. The function needs only to return a hash and does not need to encode the parameters. The function is the last callback called before the XSLT processing is started. =back =head2 Flow Control Besides the sendEvent() function, CGI::XMLApplication provides two additional functions for controlling the flow of the application. These two functions are related to the XML serialization and have not affect to the event handling. =over 4 =item passthru() Originally for debugging purposes CGI::XMLApplication supports the B argument in the CGI query string. It can be used to directly pass the stringified XML-DOM to the client. Since there are cases one needs to decide from within the application if an untransformed XML Document has to be returned, this function was introduced. If is called without parameters B returns the current passthru state of the application. E.g. this is done inside B. Where TRUE (1) means the XML DOM should be passed directly to the client and FALSE (0) marks that the DOM must get XSL transformed first. Optional the function takes a single parameter, which shows if the function should be used in set rather than get mode. The parameter is interpreted as just described. If an application sets passthru by itself, any external 'passthru' parameter will be lost. This is useful if the application requires access to the plain (untransformed) XML Data. =item skipSerialization() To avoid the call of B one should set B. event_default { my $self = shift; # avoid serialization call $self->skipSerialization( 1 ); # use 0 to unset # now you can directly print to the client, but don't forget the # headers. return 0; } =back =head2 Helperfunctions for internal use =over 4 =item function checkPush LIST This function searches the query string for a parameter with the passed name. The implementation is "imagesave" meaning there is no change in the code needed, if you switch from input.type=submit to input.type=image or vv. The algorithm tests whether a full name is found in the querystring, if not it tries tests for the name expanded by a '.x'. In context of events this function interprets each item part in the query string list as an event. Because of that, the algorithm returns only the first item matched. If you use the event interface with this function, then the HTML-forms should pass unique events to the script in order to avoid confusing behaviour. This function is used by testEvent() so if it is required to change the way CGI::XMLApplication selects events, override that function. =item method panic SCALAR This a simple error message handler. By default this function will print some information to the client where the application failed. During development, this is a useful feature, while on a production system this may pass vulnerable information about the system to the clients. To change the default behaviour, I<$CGI::XMLApplication::Quiet> should get set to 1. This will still show an error page but without displaying error messages. Alternatively, the panic method can be overloaded. The current implementation send the 404 status to the client if any low level errors occour ( e.g. panic levels > -4 aka Application Panic). Commonly this really shows a "Not Found" on the application Level. Application Panics will set the 500 error state. This makes this implementation work perfect with a mod_perl installation. In case L is used to handle the script one likes to set I to 2 which will cause CGI::XMLApplication just to return the error state while L does the rest. =item method setPanicMsg $SCALAR This useful method, helps to pass more specific error messages to the user. Currently this method is not very sophisticated: if the method is called twice, only the last string will be displayed. =item function getPanicMsg This method returns the panic message set by setPanicMsg(). =back =head2 CGI Extras The following functions are some neat features missing in CGI.pm =over 4 =item function checkFields LIST This is an easy way to test whether all required fields are filled out correctly. Called in array context the function returns the list of missing parameter. (Different to param() which returns all parameter names). In scalar context the function returns a boolean value. =item function getParamHash LIST This function is a bit better for general data processing as the standard CGI::Vars function. While Vars sets a keys for each parameter found in the query string, getFieldsAsHash returns only the requested fields (as long they aren't NULL). This is useful in scripts where the script itself handles different kind of data within the same event. Since the function relies on Vars the returned data has the same structure Vars returns. =back =head2 some extra functions for stylesheet handling The getStylesheet() function should return either a filename or a stringnyfied XSL-DOM. For the first case it can be a restriction to return the fully qualified path. The following functions help managing the stylesheetpath, system-wide. =over 4 =item method setStylesheetDir DIRNAME alias for B =item method setStylesheetPath DIRNAME This method is for telling the application where the stylesheets can be found. If you keep your stylesheets in the same directory as your script you might leave this untouched. However, it is suggested to store stylesheet files in a directory that is out of reach for client access. =item function getStylesheetPath This function is only relevant if you write your own B method. It returns the current path to the application stylesheets. =back =head1 SEE ALSO CGI, perlobj, perlmod, XML::LibXML, XML::LibXSLT =head1 AUTHOR Christian Glahn, phish@cpan.org =head1 VERSION 1.1.5