Creating a SleekXMPP Plugin =========================== One of the goals of SleekXMPP is to provide support for every draft or final XMPP extension (`XEP `_). To do this, SleekXMPP has a plugin mechanism for adding the functionalities required by each XEP. But even though plugins were made to quickly implement and prototype the official XMPP extensions, there is no reason you can't create your own plugin to implement your own custom XMPP-based protocol. This guide will help walk you through the steps to implement a rudimentary version of `XEP-0077 In-band Registration `_. In-band registration was implemented in example 14-6 (page 223) of `XMPP: The Definitive Guide `_ because there was no SleekXMPP plugin for XEP-0077 at the time of writing. We will partially fix that issue here by turning the example implementation from *XMPP: The Definitive Guide* into a plugin. Again, note that this will not a complete implementation, and a different, more robust, official plugin for XEP-0077 may be added to SleekXMPP in the future. .. note:: The example plugin created in this guide is for the server side of the registration process only. It will **NOT** be able to register new accounts on an XMPP server. First Steps ----------- Every plugin inherits from the class :mod:`base_plugin `, and must include a ``plugin_init`` method. While the plugins distributed with SleekXMPP must be placed in the plugins directory ``sleekxmpp/plugins`` to be loaded, custom plugins may be loaded from any module. To do so, use the following form when registering the plugin: .. code-block:: python self.register_plugin('myplugin', module=mod_containing_my_plugin) The plugin name must be the same as the plugin's class name. Now, we can open our favorite text editors and create ``xep_0077.py`` in ``SleekXMPP/sleekxmpp/plugins``. We want to do some basic house-keeping and declare the name and description of the XEP we are implementing. If you are creating your own custom plugin, you don't need to include the ``xep`` attribute. .. code-block:: python """ Creating a SleekXMPP Plugin This is a minimal implementation of XEP-0077 to serve as a tutorial for creating SleekXMPP plugins. """ from sleekxmpp.plugins.base import base_plugin class xep_0077(base_plugin): """ XEP-0077 In-Band Registration """ def plugin_init(self): self.description = "In-Band Registration" self.xep = "0077" Now that we have a basic plugin, we need to edit ``sleekxmpp/plugins/__init__.py`` to include our new plugin by adding ``'xep_0077'`` to the ``__all__`` declaration. Interacting with Other Plugins ------------------------------ In-band registration is a feature that should be advertised through `Service Discovery `_. To do that, we tell the ``xep_0030`` plugin to add the ``"jabber:iq:register"`` feature. We put this call in a method named ``post_init`` which will be called once the plugin has been loaded; by doing so we advertise that we can do registrations only after we finish activating the plugin. The ``post_init`` method needs to call ``base_plugin.post_init(self)`` which will mark that ``post_init`` has been called for the plugin. Once the SleekXMPP object begins processing, ``post_init`` will be called on any plugins that have not already run ``post_init``. This allows you to register plugins and their dependencies without needing to worry about the order in which you do so. **Note:** by adding this call we have introduced a dependency on the XEP-0030 plugin. Be sure to register ``'xep_0030'`` as well as ``'xep_0077'``. SleekXMPP does not automatically load plugin dependencies for you. .. code-block:: python def post_init(self): base_plugin.post_init(self) self.xmpp['xep_0030'].add_feature("jabber:iq:register") Creating Custom Stanza Objects ------------------------------ Now, the IQ stanzas needed to implement our version of XEP-0077 are not very complex, and we could just interact with the XML objects directly just like in the *XMPP: The Definitive Guide* example. However, creating custom stanza objects is good practice. We will create a new ``Registration`` stanza. Following the *XMPP: The Definitive Guide* example, we will add support for a username and password field. We also need two flags: ``registered`` and ``remove``. The ``registered`` flag is sent when an already registered user attempts to register, along with their registration data. The ``remove`` flag is a request to unregister a user's account. Adding additional `fields specified in XEP-0077 `_ will not be difficult and is left as an exercise for the reader. Our ``Registration`` class needs to start with a few descriptions of its behaviour: * ``namespace`` The namespace our stanza object lives in. In this case, ``"jabber:iq:register"``. * ``name`` The name of the root XML element. In this case, the ``query`` element. * ``plugin_attrib`` The name to access this type of stanza. In particular, given a registration stanza, the ``Registration`` object can be found using: ``iq_object['register']``. * ``interfaces`` A list of dictionary-like keys that can be used with the stanza object. When using ``"key"``, if there exists a method of the form ``getKey``, ``setKey``, or``delKey`` (depending on context) then the result of calling that method will be returned. Otherwise, the value of the attribute ``key`` of the main stanza element is returned if one exists. **Note:** The accessor methods currently use title case, and not camel case. Thus if you need to access an item named ``"methodName"`` you will need to use ``getMethodname``. This naming convention might change to full camel case in a future version of SleekXMPP. * ``sub_interfaces`` A subset of ``interfaces``, but these keys map to the text of any subelements that are direct children of the main stanza element. Thus, referencing ``iq_object['register']['username']`` will either execute ``getUsername`` or return the value in the ``username`` element of the query. If you need to access an element, say ``elem``, that is not a direct child of the main stanza element, you will need to add ``getElem``, ``setElem``, and ``delElem``. See the note above about naming conventions. .. code-block:: python from sleekxmpp.xmlstream import ElementBase, ET, JID, register_stanza_plugin from sleekxmpp import Iq class Registration(ElementBase): namespace = 'jabber:iq:register' name = 'query' plugin_attrib = 'register' interfaces = set(('username', 'password', 'registered', 'remove')) sub_interfaces = interfaces def getRegistered(self): present = self.xml.find('{%s}registered' % self.namespace) return present is not None def getRemove(self): present = self.xml.find('{%s}remove' % self.namespace) return present is not None def setRegistered(self, registered): if registered: self.addField('registered') else: del self['registered'] def setRemove(self, remove): if remove: self.addField('remove') else: del self['remove'] def addField(self, name): itemXML = ET.Element('{%s}%s' % (self.namespace, name)) self.xml.append(itemXML) Setting a ``sub_interface`` attribute to ``""`` will remove that subelement. Since we want to include empty registration fields in our form, we need the ``addField`` method to add the empty elements. Since the ``registered`` and ``remove`` elements are just flags, we need to add custom logic to enforce the binary behavior. Extracting Stanzas from the XML Stream -------------------------------------- Now that we have a custom stanza object, we need to be able to detect when we receive one. To do this, we register a stream handler that will pattern match stanzas off of the XML stream against our stanza object's element name and namespace. To do so, we need to create a ``Callback`` object which contains an XML fragment that can identify our stanza type. We can add this handler registration to our ``plugin_init`` method. Also, we need to associate our ``Registration`` class with IQ stanzas; that requires the use of the ``register_stanza_plugin`` function (in ``sleekxmpp.xmlstream.stanzabase``) which takes the class of a parent stanza type followed by the substanza type. In our case, the parent stanza is an IQ stanza, and the substanza is our registration query. The ``__handleRegistration`` method referenced in the callback will be our handler function to process registration requests. .. code-block:: python def plugin_init(self): self.description = "In-Band Registration" self.xep = "0077" self.xmpp.registerHandler( Callback('In-Band Registration', MatchXPath('{%s}iq/{jabber:iq:register}query' % self.xmpp.default_ns), self.__handleRegistration)) register_stanza_plugin(Iq, Registration) Handling Incoming Stanzas and Triggering Events ----------------------------------------------- There are six situations that we need to handle to finish our implementation of XEP-0077. **Registration Form Request from a New User:** .. code-block:: xml **Registration Form Request from an Existing User:** .. code-block:: xml Foo hunter2 **Unregister Account:** .. code-block:: xml **Incomplete Registration:** .. code-block:: xml Foo **Conflicting Registrations:** .. code-block:: xml Foo hunter2 **Successful Registration:** .. code-block:: xml Cases 1 and 2: Registration Requests ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ Responding to registration requests depends on if the requesting user already has an account. If there is an account, the response should include the ``registered`` flag and the user's current registration information. Otherwise, we just send the fields for our registration form. We will handle both cases by creating a ``sendRegistrationForm`` method that will create either an empty of full form depending on if we provide it with user data. Since we need to know which form fields to include (especially if we add support for the other fields specified in XEP-0077), we will also create a method ``setForm`` which will take the names of the fields we wish to include. .. code-block:: python def plugin_init(self): self.description = "In-Band Registration" self.xep = "0077" self.form_fields = ('username', 'password') ... remainder of plugin_init ... def __handleRegistration(self, iq): if iq['type'] == 'get': # Registration form requested userData = self.backend[iq['from'].bare] self.sendRegistrationForm(iq, userData) def setForm(self, *fields): self.form_fields = fields def sendRegistrationForm(self, iq, userData=None): reg = iq['register'] if userData is None: userData = {} else: reg['registered'] = True for field in self.form_fields: data = userData.get(field, '') if data: # Add field with existing data reg[field] = data else: # Add a blank field reg.addField(field) iq.reply().setPayload(reg.xml) iq.send() Note how we are able to access our ``Registration`` stanza object with ``iq['register']``. A User Backend ++++++++++++++ You might have noticed the reference to ``self.backend``, which is an object that abstracts away storing and retrieving user information. Since it is not much more than a dictionary, we will leave the implementation details to the final, full source code example. Case 3: Unregister an Account ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ The next simplest case to consider is responding to a request to remove an account. If we receive a ``remove`` flag, we instruct the backend to remove the user's account. Since your application may need to know about when users are registered or unregistered, we trigger an event using ``self.xmpp.event('unregister_user', iq)``. See the component examples below for how to respond to that event. .. code-block:: python def __handleRegistration(self, iq): if iq['type'] == 'get': # Registration form requested userData = self.backend[iq['from'].bare] self.sendRegistrationForm(iq, userData) elif iq['type'] == 'set': # Remove an account if iq['register']['remove']: self.backend.unregister(iq['from'].bare) self.xmpp.event('unregistered_user', iq) iq.reply().send() return Case 4: Incomplete Registration ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ For the next case we need to check the user's registration to ensure it has all of the fields we wanted. The simple option that we will use is to loop over the field names and check each one; however, this means that all fields we send to the user are required. Adding optional fields is left to the reader. Since we have received an incomplete form, we need to send an error message back to the user. We have to send a few different types of errors, so we will also create a ``_sendError`` method that will add the appropriate ``error`` element to the IQ reply. .. code-block:: python def __handleRegistration(self, iq): if iq['type'] == 'get': # Registration form requested userData = self.backend[iq['from'].bare] self.sendRegistrationForm(iq, userData) elif iq['type'] == 'set': if iq['register']['remove']: # Remove an account self.backend.unregister(iq['from'].bare) self.xmpp.event('unregistered_user', iq) iq.reply().send() return for field in self.form_fields: if not iq['register'][field]: # Incomplete Registration self._sendError(iq, '406', 'modify', 'not-acceptable' "Please fill in all fields.") return ... def _sendError(self, iq, code, error_type, name, text=''): iq.reply().setPayload(iq['register'].xml) iq.error() iq['error']['code'] = code iq['error']['type'] = error_type iq['error']['condition'] = name iq['error']['text'] = text iq.send() Cases 5 and 6: Conflicting and Successful Registration ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ We are down to the final decision on if we have a successful registration. We send the user's data to the backend with the ``self.backend.register`` method. If it returns ``True``, then registration has been successful. Otherwise, there has been a conflict with usernames and registration has failed. Like with unregistering an account, we trigger an event indicating that a user has been registered by using ``self.xmpp.event('registered_user', iq)``. See the component examples below for how to respond to this event. .. code-block:: python def __handleRegistration(self, iq): if iq['type'] == 'get': # Registration form requested userData = self.backend[iq['from'].bare] self.sendRegistrationForm(iq, userData) elif iq['type'] == 'set': if iq['register']['remove']: # Remove an account self.backend.unregister(iq['from'].bare) self.xmpp.event('unregistered_user', iq) iq.reply().send() return for field in self.form_fields: if not iq['register'][field]: # Incomplete Registration self._sendError(iq, '406', 'modify', 'not-acceptable', "Please fill in all fields.") return if self.backend.register(iq['from'].bare, iq['register']): # Successful registration self.xmpp.event('registered_user', iq) iq.reply().setPayload(iq['register'].xml) iq.send() else: # Conflicting registration self._sendError(iq, '409', 'cancel', 'conflict', "That username is already taken.") Example Component Using the XEP-0077 Plugin ------------------------------------------- Alright, the moment we've been working towards - actually using our plugin to simplify our other applications. Here is a basic component that simply manages user registrations and sends the user a welcoming message when they register, and a farewell message when they delete their account. Note that we have to register the ``'xep_0030'`` plugin first, and that we specified the form fields we wish to use with ``self.xmpp.plugin['xep_0077'].setForm('username', 'password')``. .. code-block:: python import sleekxmpp.componentxmpp class Example(sleekxmpp.componentxmpp.ComponentXMPP): def __init__(self, jid, password): sleekxmpp.componentxmpp.ComponentXMPP.__init__(self, jid, password, 'localhost', 8888) self.registerPlugin('xep_0030') self.registerPlugin('xep_0077') self.plugin['xep_0077'].setForm('username', 'password') self.add_event_handler("registered_user", self.reg) self.add_event_handler("unregistered_user", self.unreg) def reg(self, iq): msg = "Welcome! %s" % iq['register']['username'] self.sendMessage(iq['from'], msg, mfrom=self.fulljid) def unreg(self, iq): msg = "Bye! %s" % iq['register']['username'] self.sendMessage(iq['from'], msg, mfrom=self.fulljid) **Congratulations!** We now have a basic, functioning implementation of XEP-0077. Complete Source Code for XEP-0077 Plugin ---------------------------------------- Here is a copy of a more complete implementation of the plugin we created, but with some additional registration fields implemented. .. code-block:: python """ Creating a SleekXMPP Plugin This is a minimal implementation of XEP-0077 to serve as a tutorial for creating SleekXMPP plugins. """ from sleekxmpp.plugins.base import base_plugin from sleekxmpp.xmlstream.handler.callback import Callback from sleekxmpp.xmlstream.matcher.xpath import MatchXPath from sleekxmpp.xmlstream import ElementBase, ET, JID, register_stanza_plugin from sleekxmpp import Iq import copy class Registration(ElementBase): namespace = 'jabber:iq:register' name = 'query' plugin_attrib = 'register' interfaces = set(('username', 'password', 'email', 'nick', 'name', 'first', 'last', 'address', 'city', 'state', 'zip', 'phone', 'url', 'date', 'misc', 'text', 'key', 'registered', 'remove', 'instructions')) sub_interfaces = interfaces def getRegistered(self): present = self.xml.find('{%s}registered' % self.namespace) return present is not None def getRemove(self): present = self.xml.find('{%s}remove' % self.namespace) return present is not None def setRegistered(self, registered): if registered: self.addField('registered') else: del self['registered'] def setRemove(self, remove): if remove: self.addField('remove') else: del self['remove'] def addField(self, name): itemXML = ET.Element('{%s}%s' % (self.namespace, name)) self.xml.append(itemXML) class UserStore(object): def __init__(self): self.users = {} def __getitem__(self, jid): return self.users.get(jid, None) def register(self, jid, registration): username = registration['username'] def filter_usernames(user): return user != jid and self.users[user]['username'] == username conflicts = filter(filter_usernames, self.users.keys()) if conflicts: return False self.users[jid] = registration return True def unregister(self, jid): del self.users[jid] class xep_0077(base_plugin): """ XEP-0077 In-Band Registration """ def plugin_init(self): self.description = "In-Band Registration" self.xep = "0077" self.form_fields = ('username', 'password') self.form_instructions = "" self.backend = UserStore() self.xmpp.registerHandler( Callback('In-Band Registration', MatchXPath('{%s}iq/{jabber:iq:register}query' % self.xmpp.default_ns), self.__handleRegistration)) register_stanza_plugin(Iq, Registration) def post_init(self): base_plugin.post_init(self) self.xmpp['xep_0030'].add_feature("jabber:iq:register") def __handleRegistration(self, iq): if iq['type'] == 'get': # Registration form requested userData = self.backend[iq['from'].bare] self.sendRegistrationForm(iq, userData) elif iq['type'] == 'set': if iq['register']['remove']: # Remove an account self.backend.unregister(iq['from'].bare) self.xmpp.event('unregistered_user', iq) iq.reply().send() return for field in self.form_fields: if not iq['register'][field]: # Incomplete Registration self._sendError(iq, '406', 'modify', 'not-acceptable', "Please fill in all fields.") return if self.backend.register(iq['from'].bare, iq['register']): # Successful registration self.xmpp.event('registered_user', iq) iq.reply().setPayload(iq['register'].xml) iq.send() else: # Conflicting registration self._sendError(iq, '409', 'cancel', 'conflict', "That username is already taken.") def setForm(self, *fields): self.form_fields = fields def setInstructions(self, instructions): self.form_instructions = instructions def sendRegistrationForm(self, iq, userData=None): reg = iq['register'] if userData is None: userData = {} else: reg['registered'] = True if self.form_instructions: reg['instructions'] = self.form_instructions for field in self.form_fields: data = userData.get(field, '') if data: # Add field with existing data reg[field] = data else: # Add a blank field reg.addField(field) iq.reply().setPayload(reg.xml) iq.send() def _sendError(self, iq, code, error_type, name, text=''): iq.reply().setPayload(iq['register'].xml) iq.error() iq['error']['code'] = code iq['error']['type'] = error_type iq['error']['condition'] = name iq['error']['text'] = text iq.send()