NAME

Net::XMPP::Namespaces - In depth discussion on how namespaces are handled

SYNOPSIS

Net::XMPP::Namespaces provides an depth look at how Net::XMPP handles
namespacs, and how to add your own custom ones.  It also serves as the
storage bin for all of the Namespace information Net::XMPP requires.

DESCRIPTION

XMPP as a protocol is very well defined.  There are three main top
level packets (message, iq, and presence).  There is also a way to
extend the protocol in a very clear and strucutred way, via namespaces.

Two major ways that namespaces are used in Jabber is for making the
<iq/> a generic wrapper, and as a way for adding data to any packet via
a child tag <x/>.  We will use <x/> to represent the packet, but in
reality it could be any child tag: <foo/>, <data/>, <error/>, etc.

The Info/Query <iq/> packet uses namespaces to determine the type of
information to access.  Usually there is a <query/> tag in the <iq/>
that represents the namespace, but in fact it can be any tag.  The
definition of the Query portion, is the first tag that has a namespace.

  <iq type="get"><query xmlns="..."/></iq>

    or

  <iq type="get"><foo xmlns="..."/></iq>

After that Query stanza can be any number of other stanzas (<x/> tags)
you want to include.  The Query packet is represented and available by
calling GetQuery() or GetChild(), and the other namespaces are
available by calling GetChild().

The X tag is just a way to piggy back data on other packets.  Like
embedding the timestamp for a message using jabber:x:delay, or signing
you presence for encryption using jabber:x:signed.

To this end, Net::XMPP has sought to find a way to easily, and clearly
define the functions needed to access the XML for a namespace.  We will
go over the full docs, and then show two examples of real namespaces so
that you can see what we are talking about.

Overview

To avoid a lot of nasty modules populating memory that are not used,
and to avoid having to change 15 modules when a minor change is
introduced, the Net::XMPP modules have taken AUTOLOADing to the
extreme.  Namespaces.pm is nothing but a set of function calls that
generates a big hash of hashes.  The hash is accessed by the Stanza.pm
AUTOLOAD function to do something.  (This will make sense, I promise.)

Before going on, I highly suggest you read a Perl book on AUTOLOAD and
how it works.  From this point on I will assume that you understand it.

When you create a Net::XMPP::IQ object and add a Query to it (NewChild)
several things are happening in the background.  The argument to
NewChild is the namespace you want to add. (custom-namespace)

Now that you have a Query object to work with you will call the GetXXX
functions, and SetXXX functions to set the data.  There are no defined
GetXXX and SetXXXX functions.  You cannot look in the Namespaces.pm
file and find them.  Instead you will find something like this:

&add_ns(ns    => "mynamespace",
        tag   => "mytag",
        xpath => {
                  JID       => { type=>'jid', path => '@jid' },
                  Username  => { path => 'username/text()' },
                  Test      => { type => 'master' }
                 }
       );

When the GetUsername() function is called, the AUTOLOAD function looks
in the Namespaces.pm hash for a "Username" key.  Based on the "type" of
the field (scalar being the default) it will use the "path" as an XPath
to retrieve the data and call the XPathGet() method in Stanza.pm.

Confused yet?

Net::XMPP private namespaces

Now this is where this starts to get a little sticky.  When you see a
namespace with __netxmpp__, or __netjabber__ from Net::Jabber, at the
beginning it is usually something custom to Net::XMPP and NOT part of
the actual XMPP protocol.

There are some places where the structure of the XML allows for
multiple children with the same name.  The main places you will see
this behavior is where you have multiple tags with the same name and
those have children under them (jabber:iq:roster).

In jabber:iq:roster, the <item/> tag can be repeated multiple times,
and is sort of like a mini-namespace in itself.  To that end, we treat
it like a seperate namespace and defined a __netxmpp__:iq:roster:item
namespace to hold it.  What happens is this, in my code I define that
the <item/>s tag is "item" and anything with that tag name is to create
a new Net::XMPP::Stanza object with the namespace
__netxmpp__:iq:roster:item which then becomes a child of the
jabber:iq:roster Stanza object.  Also, when you want to add a new item
to a jabber:iq:roster project you call NewQuery with the private
namespace.

I know this sounds complicated.  And if after reading this entire
document it is still complicated, email me, ask questions, and I will
monitor it and adjust these docs to answer the questions that people
ask.

add_ns()

To repeat, here is an example call to add_ns():

  &add_ns(ns    => "mynamespace",
          tag   => "mytag",
          xpath => {
                    JID       => { type=>'jid', path => '@jid' },
                    Username  => { path => 'username/text()' },
                    Test      => { type => 'master' }
                   }
         );

ns - This is the new namespace that you are trying to add.

tag - This is the root tag to use for objects based on this namespace.

xpath - The hash reference passed in the add_ns call to each name of
entry tells Net::XMPP how to handle subsequent GetXXXX(), SetXXXX(),
DefinedXXXX(), RemoveXXXX(), AddXXXX() calls.  The basic options you
can pass in are:

   type - This tells Stanza how to handle the call.  The possible
          values are:

         array - The value to set and returned is an an array
                 reference.  For example, <group/> in jabber:iq:roster.

         child - This tells Stanza that it needs to look for the
                 __netxmpp__ style namesapced children.  AddXXX() adds
                 a new child, and GetXXX() will return a new Stanza
                 object representing the packet.

         flag - This is for child elements that are tags by themselves:
                <foo/>.  Since the presence of the tag is what is
                important, and there is no cdata to store, we just call
                it a flag.

         jid - The value is a Jabber ID.  GetXXX() will return a
               Net::XMPP::JID object unless you pass it "jid", then it
               returns a string.

         master - The GetXXX() and SetXXX() calls return and take a
                  hash representing all of the GetXXX() and SetXXX()
                  calls.  For example:

                    SetTest(foo=>"bar",
                            bar=>"baz");

                  Translates into:

                    SetFoo("bar");
                    SetBar("baz");

                  GetTest() would return a hash containing what the
                  packet contains:

                    { foo=>"bar",  bar=>"baz" }

         raw - This will stick whatever raw XML you specify directly
               into the Stanza at the point where the path specifies.

         scalar - This will set and get a scalar value.  This is the
                  main workhorse as attributes and CDATA is represented
                  by a scalar.  This is the default setting if you do
                  not provide one.

         special - The special type is unique in that instead of a
                   string "special", you actually give it an array:

                     [ "special" , <subtype> ]

                   This allows Net::XMPP to be able to handle the
                   SetXXXX() call in a special manner according to your
                   choosing.  Right now this is mainly used by
                   jabber:iq:time to automatically set the time info in
                   the correct format, and jabber:iq:version to set the
                   machine OS and add the Net::Jabber version to the
                   return packet.  You will likely NOT need to use
                   this, but I wanted to mention it.

         timestamp - If you call SetXXX() but do not pass it anything,
                     or pass it "", then Net::XMPP will place a
                     timestamp in the xpath location.

   path - This is the XPath path to where the bit data lives.  The
          difference.  Now, this is not full XPath due to the nature
          of how it gets used.  Instead of providing a rooted path
          all the way to the top, it's a relative path ignoring what
          the parent is.  For example, if the "tag" you specified was
          "foo", and the path is "bar/text()", then the XPath will be
          rooted in the XML of the <foo/> packet.  It will set and get
          the CDATA from:

             <foo><bar>xxxxx</bar></foo>

          For a flag and a child type, just specify the child element.
          Take a look at the code in this file for more help on what
          this means.  Also, read up on XPath if you don't already know
          what it is.

   child - This is a hash reference that tells Net::XMPP how to handle
           adding and getting child objects.  The keys for the hash are
           as follows:

           ns - the real or custom (__netxmpp__) namesapce to use for
                this child packet.

           skip_xmlns => 1 - this tells Net::XMPP not to add an
                             xmlns='' into the XML for the child
                             object.

           specify_name => 1 - allows you to call NewChild("ns","tag")
                               and specify the tag to use for the child
                               object.  This, IMHO, is BAD XML
                               practice.  You should always know what
                               the tag of the child is and use an
                               attribute or CDATA to change the type
                               of the stanza.  You do not want to use
                               this.

           tag - If you use specify_name, then this is the default tag
                 to use.  You do not want to use this.

   calls - Array reference telling Net::XMPP what functions to create
           for this name.  For most of the types above you will get
           Get, Set, Defined, and Remove.  For child types you need to
           decide how you API will look and specify them yourself:

             ["Get","Defined"]
             ["Add"]
             ["Get","Add","Defined"]

          It all depends on how you want your API to look.

Once more... The following:

  &add_ns(ns    => "mynamespace",
          tag   => "mytag",
          xpath => {
                    JID       => { type=>'jid', path => '@jid' },
                    Username  => { path => 'username/text()' },
                    Test      => { type => 'master' }
                   }
         );

generates the following API calls:

  GetJID()
  SetJID()
  DefinedJID()
  RemoveJID()
  GetUsername()
  SetUsername()
  DefinedUsername()
  RemoveUsername()
  GetTest()
  SetTest()

Wrap Up

Well.  I hope that I have not scared you off from writing a custom
namespace for you application and use Net::XMPP.  Look in the
Net::XMPP::Protocol manpage for an example on using the add_ns()
function to register your custom namespace so that Net::XMPP can
properly handle it.

AUTHOR

Ryan Eatmon

COPYRIGHT

This module is free software, you can redistribute it and/or modify it under the LGPL.