mirror of
https://github.com/correl/SleekXMPP.git
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269 lines
9.6 KiB
ReStructuredText
269 lines
9.6 KiB
ReStructuredText
.. index:: XMLStream, BaseXMPP, ClientXMPP, ComponentXMPP
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SleekXMPP Architecture
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======================
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The core of SleekXMPP is contained in four classes: ``XMLStream``,
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``BaseXMPP``, ``ClientXMPP``, and ``ComponentXMPP``. Along side this
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stack is a library for working with XML objects that eliminates most
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of the tedium of creating/manipulating XML.
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.. image:: _static/images/arch_layers.png
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:height: 300px
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:align: center
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.. index:: XMLStream
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The Foundation: XMLStream
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-------------------------
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``XMLStream`` is a mostly XMPP-agnostic class whose purpose is to read
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and write from a bi-directional XML stream. It also allows for callback
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functions to execute when XML matching given patterns is received; these
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callbacks are also referred to as :term:`stream handlers <stream handler>`.
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The class also provides a basic eventing system which can be triggered
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either manually or on a timed schedule.
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The Main Threads
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~~~~~~~~~~~~~~~~
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``XMLStream`` instances run using at least three background threads: the
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send thread, the read thread, and the scheduler thread. The send thread is
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in charge of monitoring the send queue and writing text to the outgoing
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XML stream. The read thread pulls text off of the incoming XML stream and
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stores the results in an event queue. The scheduler thread is used to emit
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events after a given period of time.
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Additionally, the main event processing loop may be executed in its
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own thread if SleekXMPP is being used in the background for another
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application.
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Short-lived threads may also be spawned as requested for threaded
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:term:`event handlers <event handler>`.
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How XML Text is Turned into Action
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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To demonstrate the flow of information, let's consider what happens
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when this bit of XML is received (with an assumed namespace of
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``jabber:client``):
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.. code-block:: xml
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<message to="user@example.com" from="friend@example.net">
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<body>Hej!</body>
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</message>
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1. **Convert XML strings into objects.**
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Incoming text is parsed and converted into XML objects (using
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ElementTree) which are then wrapped into what are referred to as
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:term:`Stanza objects <stanza object>`. The appropriate class for the
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new object is determined using a map of namespaced element names to
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classes.
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Our incoming XML is thus turned into a ``Message`` :term:`stanza object`
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because the namespaced element name ``{jabber:client}message`` is
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associated with the class ``sleekxmpp.stanza.Message``.
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2. **Match stanza objects to callbacks.**
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These objects are then compared against the stored patterns associated
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with the registered callback handlers. For each match, a copy of the
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:term:`stanza object` is paired with a reference to the handler and
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placed into the event queue.
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Our ``Message`` object is thus paired with the message stanza handler
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``BaseXMPP._handle_message`` to create the tuple::
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('stanza', stanza_obj, handler)
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3. **Process the event queue.**
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The event queue is the heart of SleekXMPP. Nearly every action that
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takes place is first inserted into this queue, whether that be received
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stanzas, custom events, or scheduled events.
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When the stanza is pulled out of the event queue with an associated
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callback, the callback function is executed with the stanza as its only
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parameter.
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.. warning::
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The callback, aka :term:`stream handler`, is executed in the main
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processing thread. If the handler blocks, event processing will also
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block.
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4. **Raise Custom Events**
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Since a :term:`stream handler` shouldn't block, if extensive processing
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for a stanza is required (such as needing to send and receive an
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``Iq`` stanza), then custom events must be used. These events are not
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explicitly tied to the incoming XML stream and may be raised at any
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time. Importantly, these events may be handled in their own thread.
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When the event is raised, a copy of the stanza is created for each
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handler registered for the event. In contrast to :term:`stream handlers <stream handler>`,
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these functions are referred to as :term:`event handlers <event handler>`.
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Each stanza/handler pair is then put into the event queue.
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.. note::
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It is possible to skip the event queue and process an event immediately
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by using ``direct=True`` when raising the event.
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The code for ``BaseXMPP._handle_message`` follows this pattern, and
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raises a ``'message'`` event::
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self.event('message', msg)
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The event call then places the message object back into the event queue
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paired with an :term:`event handler`::
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('event', 'message', msg_copy1, custom_event_handler_1)
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('event', 'message', msg_copy2, custom_evetn_handler_2)
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5. **Process Custom Events**
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The stanza and :term:`event handler` are then pulled from the event
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queue, and the handler is executed, passing the stanza as its only
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argument. If the handler was registered as threaded, then a new thread
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will be spawned for it.
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.. note::
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Events may be raised without needing :term:`stanza objects <stanza object>`.
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For example, you could use ``self.event('custom', {'a': 'b'})``.
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You don't even need any arguments: ``self.event('no_parameters')``.
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However, every event handler MUST accept at least one argument.
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Finally, after a long trek, our message is handed off to the user's
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custom handler in order to do awesome stuff::
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msg.reply()
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msg['body'] = "Hey! This is awesome!"
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msg.send()
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.. index:: BaseXMPP, XMLStream
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Raising XMPP Awareness: BaseXMPP
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--------------------------------
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While ``XMLStream`` attempts to shy away from anything too XMPP specific,
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``BaseXMPP``'s sole purpose is to provide foundational support for sending
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and receiving XMPP stanzas. This support includes registering the basic
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message, presence, and iq stanzas, methods for creating and sending
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stanzas, and default handlers for incoming messages and keeping track of
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presence notifications.
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The plugin system for adding new XEP support is also maintained by
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``BaseXMPP``.
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.. index:: ClientXMPP, BaseXMPP
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ClientXMPP
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----------
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``ClientXMPP`` extends ``BaseXMPP`` with additional logic for connecting to
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an XMPP server by performing DNS lookups. It also adds support for stream
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features such as STARTTLS and SASL.
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.. index:: ComponentXMPP, BaseXMPP
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ComponentXMPP
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-------------
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``ComponentXMPP`` is only a thin layer on top of ``BaseXMPP`` that
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implements the component handshake protocol.
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.. index::
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double: object; stanza
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Stanza Objects: A Brief Look
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----------------------------
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.. seealso::
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See :ref:`api-stanza-objects` for a more detailed overview.
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Almost worthy of their own standalone library, :term:`stanza objects <stanza object>`
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are wrappers for XML objects which expose dictionary like interfaces
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for manipulating their XML content. For example, consider the XML:
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.. code-block:: xml
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<message />
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A very plain element to start with, but we can create a :term:`stanza object`
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using ``sleekxmpp.stanza.Message`` as so::
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msg = Message(xml=ET.fromstring("<message />"))
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The ``Message`` stanza class defines interfaces such as ``'body'`` and
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``'to'``, so we can assign values to those interfaces to include new XML
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content::
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msg['body'] = "Following so far?"
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msg['to'] = 'user@example.com'
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Dumping the XML content of ``msg`` (using ``msg.xml``), we find:
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.. code-block:: xml
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<message to="user@example.com">
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<body>Following so far?</body>
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</message>
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The process is similar for reading from interfaces and deleting interface
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contents. A :term:`stanza object` behaves very similarly to a regular
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``dict`` object: you may assign to keys, read from keys, and ``del`` keys.
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Stanza interfaces come with built-in behaviours such as adding/removing
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attribute and sub element values. However, a lot of the time more custom
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logic is needed. This can be provided by defining methods of the form
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``get_*``, ``set_*``, and ``del_*`` for any interface which requires custom
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behaviour.
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Stanza Plugins
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~~~~~~~~~~~~~~
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Since it is generally possible to embed one XML element inside another,
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:term:`stanza objects <stanza object>` may be nested. Nested
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:term:`stanza objects <stanza object>` are referred to as :term:`stanza plugins <stanza plugin>`
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or :term:`substanzas <substanza>`.
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A :term:`stanza plugin` exposes its own interfaces by adding a new
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interface to its parent stanza. To demonstrate, consider these two stanza
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class definitions using ``sleekxmpp.xmlstream.ElementBase``:
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.. code-block:: python
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class Parent(ElementBase):
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name = "the-parent-xml-element-name"
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namespace = "the-parent-namespace"
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interfaces = set(('foo', 'bar'))
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class Child(ElementBase):
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name = "the-child-xml-element-name"
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namespace = "the-child-namespace"
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plugin_attrib = 'child'
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interfaces = set(('baz',))
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If we register the ``Child`` stanza as a plugin of the ``Parent`` stanza as
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so, using ``sleekxmpp.xmlstream.register_stanza_plugin``::
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register_stanza_plugin(Parent, Child)
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Then we can access content in the child stanza through the parent.
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Note that the interface used to access the child stanza is the same as
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``Child.plugin_attrib``::
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parent = Parent()
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parent['foo'] = 'a'
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parent['child']['baz'] = 'b'
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The above code would produce:
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.. code-block:: xml
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<the-parent-xml-element xmlns="the-parent-namespace" foo="a">
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<the-child-xml-element xmlsn="the-child-namespace" baz="b" />
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</the-parent-xml-element>
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It is also possible to allow a :term:`substanza` to appear multiple times
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by using ``iterable=True`` in the ``register_stanza_plugin`` call. All
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iterable :term:`substanzas <substanza>` can be accessed using a standard
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``substanzas`` interface.
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