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<div id="banner"><a href="https://github.com/jcbrand/converse.js/blob/master/docs/source/setup.rst">Edit me on GitHub</a></div>
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.. _what-you-will-need:
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=====================
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Setup and integration
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=====================
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This page documents what you'll need to do to be able to connect Converse.js with
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your own XMPP server and to better integrate it into your website.
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At the very least you'll need Converse.js and an :ref:`XMPP server` with
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:ref:`websocket-section` or :ref:`BOSH-section` enabled. That's definitely
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enough to simply demo Converse.js or to do development work on it.
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However, if you want to more fully integrate it into a website or intranet,
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then you'll likely need to set up more services and components.
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The diagram below shows a fairly common setup for a website or intranet:
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* Converse.js runs in the web-browser on the user's device.
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* It communicates with the XMPP server via BOSH or websocket which is usually
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reverse-proxied by a web-server in order to overcome cross-site scripting
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restrictions in the browser. For more info on that, read the section:
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`Overcoming cross-domain request restrictions`_
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* Optionally the XMPP server is configured to use a SQL database for storing
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archived chat messages.
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* Optionally there is a user directory such as Active Directory or LDAP, which
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the XMPP server is configured to use, so that users can log in with those
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credentials.
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* Usually (but optionally) there is a backend web application which hosts a
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website in which Converse.js appears.
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.. figure:: images/diagram.png
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:align: center
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:alt: A diagram of a possible setup, consisting of Converse.js, a web server, a backend web application, an XMPP server, a user directory such as LDAP and an XMPP server.
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This diagram shows the various services in a fairly common setup (image generated with `draw.io <https://draw.io>`_).
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----------------------
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The various components
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----------------------
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.. _`XMPP server`:
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An XMPP server
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==============
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*Converse.js* implements `XMPP <http://xmpp.org/about-xmpp/>`_ as its
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messaging protocol, and therefore needs to connect to an XMPP/Jabber
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server (Jabber® is an older and more user-friendly synonym for XMPP).
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You can connect to public XMPP servers like ``jabber.org`` but if you want to
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have :ref:`session support <session-support>` you'll have to set up your own XMPP server.
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You can find a list of public XMPP servers/providers on `xmpp.net <https://list.jabber.at>`_
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and a list of servers that you can set up yourself on `xmpp.org <http://xmpp.org/xmpp-software/servers/>`_.
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.. _`BOSH-section`:
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BOSH
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====
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Web-browsers do not allow the persistent, direct TCP socket connections used by
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desktop XMPP clients to communicate with XMPP servers.
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Instead, we have HTTP and websocket as available protocols.
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`BOSH`_ can be seen as XMPP-over-HTTP. In other words, it allows for XMPP
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stanzas to be sent over an HTTP connection.
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HTTP connections are stateless and usually shortlived.
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XMPP connections on the other hand are stateful and usually last much longer.
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So to enable a web application like *Converse.js* to communicate with an XMPP
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server, we need a proxy which acts as a bridge between these two protocols.
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This is the job of a BOSH connection manager. BOSH (Bidirectional-streams Over
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Synchronous HTTP) is a protocol for allowing XMPP communication over HTTP. The
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protocol is defined in `XEP-0206: XMPP Over BOSH <http://xmpp.org/extensions/xep-0206.html>`_.
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Popular XMPP servers such as `Ejabberd <http://www.ejabberd.im>`_,
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prosody `(mod_bosh) <http://prosody.im/doc/setting_up_bosh>`_ and
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`OpenFire <http://www.igniterealtime.org/projects/openfire/>`_ all include
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their own BOSH connection managers (but you usually have to enable them in the
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configuration).
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However, if you intend to support multiple different servers (like
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https://conversejs.org does), then you'll need a standalone connection manager.
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For a standalone manager, see for example `Punjab <https://github.com/twonds/punjab>`_
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and `node-xmpp-bosh <https://github.com/dhruvbird/node-xmpp-bosh>`_.
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The demo on the `Converse.js homepage <http://conversejs.org>`_ uses a connection
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manager located at https://conversejs.org/http-bind.
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This connection manager is available for testing purposes only, please don't
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use it in production.
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Refer to the :ref:`bosh-service-url` configuration setting for information on
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how to configure Converse.js to connect to a BOSH URL.
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.. _`websocket-section`:
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Websocket
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=========
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Websockets provide an alternative means of connection to an XMPP server from
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your browser.
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Websockets provide long-lived, bidirectional connections which do not rely on
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HTTP. Therefore BOSH, which operates over HTTP, doesn't apply to websockets.
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`Prosody <http://prosody.im>`_ (from version 0.10) supports websocket connections, as
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does the node-xmpp-bosh connection manager.
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Refer to the :ref:`websocket-url` configuration setting for information on how to
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configure Converse.js to connect to a websocket URL.
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The Webserver
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=============
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Overcoming cross-domain request restrictions
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--------------------------------------------
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Lets say your domain is *example.org*, but the domain of your connection
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manager is *example.com*.
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HTTP requests are made by *Converse.js* to the BOSH connection manager via
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XmlHttpRequests (XHR). Until recently, it was not possible to make such
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requests to a different domain than the one currently being served
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(to prevent XSS attacks).
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Luckily there is now a standard called
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`CORS <https://en.wikipedia.org/wiki/Cross-origin_resource_sharing>`_
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(Cross-origin resource sharing), which enables exactly that.
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Modern browsers support CORS, but there are problems with Internet Explorer < 10.
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IE 8 and 9 partially support CORS via a proprietary implementation called
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XDomainRequest. There is a `Strophe.js plugin <https://gist.github.com/1095825/6b4517276f26b66b01fa97b0a78c01275fdc6ff2>`_
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which you can use to enable support for XDomainRequest when it is present.
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In IE < 8, there is no support for CORS.
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Instead of using CORS, you can add a reverse proxy in
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Apache/Nginx which serves the connection manager under the same domain as your
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website. This will remove the need for any cross-domain XHR support.
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Examples:
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*********
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Assuming your site is accessible on port ``80`` for the domain ``mysite.com``
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and your connection manager manager is running at ``someothersite.com/http-bind``.
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The *bosh_service_url* value you want to give Converse.js to overcome
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the cross-domain restriction is ``mysite.com/http-bind`` and not
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``someothersite.com/http-bind``.
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Your ``nginx`` or ``apache`` configuration will look as follows:
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Nginx
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~~~~~
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.. code-block:: nginx
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http {
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server {
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listen 80
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server_name mysite.com;
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location ~ ^/http-bind/ {
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proxy_pass http://someothersite.com;
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}
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}
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}
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Apache
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~~~~~~
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.. code-block:: apache
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<VirtualHost *:80>
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ServerName mysite.com
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RewriteEngine On
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RewriteRule ^/http-bind(.*) http://someothersite.com/http-bind$1 [P,L]
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</VirtualHost>
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.. _`session-support`:
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Single Session Support
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======================
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It's possible to enable shared sessions whereby users already
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logged in to your website will also automatically be logged in on the XMPP server,
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Once a user is logged in, the session will be kept alive across page loads by
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way of the :ref:`keepalive` setting.
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There are a few ways to let your users be automatically authenticated to an
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XMPP server once they've logged in to your site.
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Option 1). Server-side authentication via BOSH prebinding
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---------------------------------------------------------
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To **prebind** refers to a technique whereby your web application sets up an
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authenticated BOSH session with the XMPP server or a standalone `BOSH <http://xmpp.org/about-xmpp/technology-overview/bosh/>`_
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connection manager.
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Once authenticated, it receives RID and SID tokens which need to be passed
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on to converse.js upon pa. Converse.js will then attach to that same session using
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those tokens.
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It's called "prebind" because you bind to the BOSH session beforehand, and then
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later in the page you just attach to that session again.
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The RID and SID tokens can be passed in manually when calling
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`converse.initialize`, but a more convenient way is to pass converse.js a :ref:`prebind_url`
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which it will call when it needs the tokens. This way it will be able to
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automatically reconnect whenever the connection drops, by simply calling that
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URL again to fetch new tokens.
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Prebinding reduces network traffic and also speeds up the startup time for
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converse.js. Additionally, because prebind works with tokens, it's not necessary
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for the XMPP client to know or store users' passwords.
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One potential drawback of using prebind is that in order to establish the
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authenticated BOSH session server-side, you'll need to access and pass on the XMPP
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credentials server-side, which, unless you're using tokens, means that you'll
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need to store XMPP passwords in cleartext.
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This is however not the case if you for example use LDAP or Active Directory as
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your authentication backend, since you could then configure your XMPP server to
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use that as well.
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To prebind you will require a BOSH-enabled XMPP server for converse.js to connect to
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(see the :ref:`bosh-service-url` under :ref:`configuration-settings`)
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as well as a BOSH client in your web application (written for example in
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Python, Ruby or PHP) that will set up an authenticated BOSH session, which
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converse.js can then attach to.
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.. note::
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A BOSH server acts as a bridge between HTTP, the protocol of the web, and
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XMPP, the instant messaging protocol.
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Converse.js can only communicate via HTTP (or websocket, in which case BOSH can't be used).
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It cannot open TCP sockets to communicate to an XMPP server directly.
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So the BOSH server acts as a middle man, translating our HTTP requests into XMPP stanzas and vice versa.
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Jack Moffitt has a great `blogpost <http://metajack.im/2008/10/03/getting-attached-to-strophe>`_
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about this and even provides an
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`example Django application <https://github.com/metajack/strophejs/tree/master/examples/attach>`_
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to demonstrate it.
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When you authenticate to the XMPP server on your backend application (for
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example via a BOSH client in Django), you'll receive two tokens, RID (request ID) and SID (session ID).
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The **Session ID (SID)** is a unique identifier for the current *session*. This
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number stays constant for the entire session.
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The **Request ID (RID)** is a unique identifier for the current *request* (i.e.
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page load). Each page load is a new request which requires a new unique RID.
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The best way to achieve this is to simply increment the RID with each page
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load.
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You'll need to configure converse.js with the ``prebind``, :ref:`keepalive` and
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:ref:`prebind_url` settings.
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Please read the documentation on those settings for a fuller picture of what
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needs to be done.
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Example code for server-side prebinding
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***************************************
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* PHP:
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See `xmpp-prebind-php <https://github.com/candy-chat/xmpp-prebind-php>`_ by
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Michael Weibel and the folks from Candy chat.
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* Python:
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See this `example Django application`_ by Jack Moffitt.
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Option 2). Delegated authentication, also called external authentication
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------------------------------------------------------------------------
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Delegated authentication refers to the usecase where the XMPP server delegates
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authentication to some other service.
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This could be to LDAP or Active Directory (as shown in the diagram at the top
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of the page), or it could be to an OAuth provider, a SQL server to a specific
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website.
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The Prosody webserver has various user-contributed modules which delegate
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authentication to external services. They are listed in the `Prosody community modules
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page <https://modules.prosody.im/>`_. Other XMPP servers have similar plugin modules.
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If your web-application has access to the same credentials, it can send those
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credentials to Converse.js so that user's are automatically logged in when the
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page loads.
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This is can be done by setting :ref:`auto_login` to true and configuring the
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the :ref:`credentials_url` setting.
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Option 3). Temporary authentication tokens
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------------------------------------------
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The first option has the drawback that your web-application needs to know the
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XMPP credentials of your users and that they need to be stored in the clear.
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The second option has that same drawback and it also needs to pass those
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credentials to Converse.js.
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To avoid these drawbacks, you can instead let your backend web application
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generate temporary authentication tokens which are then sent to the XMPP server
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which in turn delegates authentication to an external authentication provider
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(generally the same web-app that generated the tokens).
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This can be combined with prebind or with the :ref:`credentials_url` setting.
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Option 4). Cryptographically signed tokens
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------------------------------------------
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A third potential option is to generate cryptographically signed tokens (e.g.
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HMAC tokens) which the XMPP server could authenticate by checking that they're
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signed with the right key and that they conform to some kind of pre-arranged
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format.
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In this case, you would also use the :ref:`credentials_url` setting, to specify a
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URL from which converse.js should fetch the username and token.
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