.. _configuration_narr: Creating Your First :mod:`repoze.bfg` Application ================================================= The majority of the logic in any web application is completely application-specific. For example, the body of a web page served by one web application might be a representation of the contents of an accounting ledger, while the content of of a web page served by another might be a listing of songs. These applications obviously might not service the same set of customers. However, both the ledger-serving and song-serving applications can be written using :mod:`repoze.bfg`, because :mod:`repoze.bfg` is a very general *framework* which can be used to create all kinds of web applications. .. sidebar:: Frameworks vs. Libraries A *framework* differs from a *library* in one very important way: library code is always *called* by code that you write, while a framework always *calls* code that you write. Using a set of libraries to create an application is often initially easier than using a framework to create an application, because the developer can choose to cede control to library code he has not authored selectively, making the resulting application easier to understand for the original developer. When using a framework, the developer is typically required to cede a greater portion of control to code he has not authored: code that resides in the framework itself. You needn't use a framework at all to create a web application using Python. A rich set of libraries exists for the platform which you can snap together to effectively create your own framework. In practice, however, using an existing framework to create an application is often more practical than rolling your own via a set of libraries if the framework provides a set of facilities and assumptions that fit your application domain's requirements. :mod:`repoze.bfg` is a framework that fits a large set of assumptions in the domain of web application creation. As a framework, the primary job of :mod:`repoze.bfg` is to make it easier for a developer to create an arbitrary web application. From the perspective of the authors of :mod:`repoze.bfg`, each deployment of an application written using :mod:`repoze.bfg` implies a specific *configuration* of the framework itself. For example, a song-serving application might plug code into the framework that manages songs, while the ledger- serving application might plug code that manages accounting information. :mod:`repoze.bfg` refers to the way in which code is plugged in to it for a specific deployment as "configuration". Many people think of "configuration" as coarse knobs that inform the high-level operation of a specific application deployment; for instance, it's easy to think of the values implied by a ``.ini`` file that is read at application startup time as "configuration". :mod:`repoze.bfg` goes a bit further than that, because it uses standardized ways of plugging code into the framework, and these can be expressed via configuration as well. Thus, when you plug code into it in various ways, you are indeed "configuring" :mod:`repoze.bfg` for the purpose of creating an application deployment. From the perspective of a developer creating an application using :mod:`repoze.bfg`, performing the tasks that :mod:`repoze.bfg` calls "configuration" might alternately be referred to as "wiring" or "plumbing". :mod:`repoze.bfg` refers to it as "configuration", for lack of a more fitting term. There are a number of different mechanisms you may use to configure :mod:`repoze.bfg` to create an application: *imperative* configuration and *declarative* configuration. We'll examine both modes in the sections which follow. Hello World, Configured Imperatively ------------------------------------ Experienced Python programmers may find the "imperative" configuration mechanism fits the way they already do things. This is the configuration mode in which developers cede the least amount of control to the framework. Because of this, it is also the easiest configuration mode to understand. Here's the simplest :mod:`repoze.bfg` application, configured imperatively: .. code-block:: python :linenos: from webob import Response from wsgiref import simple_server from repoze.bfg.configuration import Configurator def hello_world(request): return Response('Hello world!') if __name__ == '__main__': config = Configurator() config.view(hello_world) app = config.make_wsgi_app() simple_server.make_server('', 8080, app).serve_forever() When this code is inserted into a Python script named ``helloworld.py`` and executed by a Python interpreter which has the :mod:`repoze.bfg` software installed, this code starts an HTTP server on port 8080. When visited by a user agent on any applicable URL, the server simply serves serves up the words "Hello world!" with the HTTP response values ``200 OK`` as a response code and a ``Content-Type`` header value of ``text/plain``. .. warning:: If you are using Python 2.4 (as opposed to Python 2.5 or 2.6), you will need to install the ``wsgiref`` package for its import to work. Use ``easy_install wsgiref`` to get it installed. Let's examine this program piece-by-piece. Imports ~~~~~~~ The above script defines the following set of imports: .. code-block:: python :linenos: from webob import Response from wsgiref import simple_server from repoze.bfg.configuration import Configurator :mod:`repoze.bfg` uses the :term:`WebOb` library as the basis for its :term:`request` and :term:`response` objects. The script uses the ``webob.Response`` class later in the script to create a :term:`response` object. Like many other Python web frameworks, :mod:`repoze.bfg` uses the :term:`WSGI` protocol as a basis between an application and a web server. The ``wsgiref.simple_server`` server is used in this example as a WSGI server, purely for convenience. :mod:`repoze.bfg` applications can be served via any WSGI server. The script also imports the ``Configurator`` class from the ``repoze.bfg.configuration`` module. This class is used to configure :mod:`repoze.bfg` for a particular application. An instance of this class provides methods which help configure various parts of :mod:`repoze.bfg` for a given application deployment. View Declaration ~~~~~~~~~~~~~~~~ The above script, beneath its set of imports, defines a function named ``hello_world``. .. code-block:: python :linenos: def hello_world(request): return Response('Hello world!') This function accepts a single argument (``request``), and returns an instance of the ``webob.Response`` class. The string ``'Hello world!'`` is passed to the ``Response`` constructor as the *body* of the response. Such a function is known as a :term:`view callable`. View callables in a "real" :mod:`repoze.bfg` application are often functions which accept a request and return a response. A view callable can be represented via another type of object, like a class or an instance, but for our purposes here, a function serves us well. A :term:`view callable` is invoked by the :mod:`repoze.bfg` web framework when a request "matches" its :term:`view configuration`. It is called with a :term:`request` object, which is a representation of an HTTP request sent by a remote user agent. A view callable is required to return a :term:`response` object because a response object has all the information necessary to formulate an actual HTTP response; this object is then converted to text and sent back to the requesting user agent. The view callable defined by the script does nothing but return a response with the body ``Hello world!``. Application Configuration ~~~~~~~~~~~~~~~~~~~~~~~~~ In the above script, the following code, representing the *configuration* of an application which uses the previously defined imports and function definitions is placed within the confines of an ``if`` statement: .. code-block:: python :linenos: if __name__ == '__main__': config = Configurator() config.view(hello_world) app = config.make_wsgi_app() simple_server.make_server('', 8080, app).serve_forever() Let's break this down this line-by-line: .. code-block:: python :linenos: if __name__ == '__main__': config = Configurator() The ``if __name__ == '__main__':`` line above represents a Python idiom: the code inside this if clause is not invoked unless the script is run directly from the command line via, for example, ``python helloworld.py`` where the file named ``helloworld.py`` contains the entire script body. ``helloworld.py`` in this case is a Python *module*. Using the ``if`` clause is necessary (or at least "best practice") because code in any Python module may be imported by another Python module. By using this idiom, the script is indicating that it does not want the code within the ``if`` statement to execute if this module is imported; the code within the ``if`` block should only be run during a direct script execution. The ``config = Configurator()`` line above creates an instance of the ``repoze.bfg.configuration.Configurator`` class. The resulting ``config`` object represents an API which the script uses to configure this particular :mod:`repoze.bfg` application. An instance of the ``Configurator`` class is a wrapper object which mutates an :term:`application registry` as its methods are called. .. note:: The ``Configurator`` is not itself an :term:`application registry`. It is only a mechanism used to configure an application registry. The underlying application registry object being configured by a ``Configurator`` is available as its ``registry`` attribute. .. code-block:: python :linenos: config.view(hello_world) This line calls the ``view`` method of the ``Configurator``. The ``view`` method of a configurator creates a :term:`view configuration` within the :term:`application registry`. A :term:`view configuration` represents a set of circumstances which must be true for a particular :term:`view callable` to be called when a WSGI request is handled by :mod:`repoze.bfg`. The first argument of the configurator's ``view`` method must always be a reference to the :term:`view callable` that is meant to be invoked when the view configuration implied by the remainder of the arguments passed to ``view`` is found to "match" during a request. This particular invocation of the ``view`` method passes no other arguments; this implies that there are no circumstances which would limit the applicability of this view callable. The view configuration implied by this call to ``view`` thus will match during *any* request. Since our ``hello_world`` view callable returns a Response instance with a body of ``Hello world!```, this means, in the configuration implied by the script, that any URL visited by a user agent to a server running this application will receive the greeting ``Hello world!``. WGSI Application Creation ~~~~~~~~~~~~~~~~~~~~~~~~~ .. code-block:: python :linenos: app = config.make_wsgi_app() After configuring a single view, the script creates a WSGI *application* via the ``config.make_wsgi_app`` method. A call to ``make_wsgi_app`` implies that all "configuration" is finished (meaning all method calls to the configurator which set up views, and various other configuration settings have been performed). The ``make_wsgi_app`` method returns a :term:`WSGI` application object that can be used by any WSGI server to present an application to a requestor. The :mod:`repoze.bfg` application object, in particular, is an instance of the ``repoze.bfg.router.Router`` class. It has a reference to the :term:`application registry` which resulted from method calls to the configurator used to configure it. The Router consults the registry to obey the policy choices made by a single application. These policy choices were informed by method calls to the ``Configurator`` made earlier; in our case, the only policy choice made was a single call to the ``view`` method, telling our application that it should unconditionally serve up the ``hello_world`` view callable to any requestor. WSGI Application Serving ~~~~~~~~~~~~~~~~~~~~~~~~ .. code-block:: python :linenos: simple_server.make_server('', 8080, app).serve_forever() Finally, we actually serve the application to requestors by starting up a WSGI server. We happen to use the ``wsgiref.simple_server`` WSGI server implementation, telling it to serve the application on TCP port 8080, and we pass it the ``app`` object (an instance of ``repoze.bfg.router.Router``) as the application we wish to server. We then call the ``serve_forever`` method of the result to ``simple_server.make_server``, causing the server to start listening on the TCP port. It will serve requests forever, or at least until we stop it by killing the process which runs it. Conclusion ~~~~~~~~~~ Our hello world application is the simplest possible :mod:`repoze.bfg` application, configured "imperatively". We can see a good deal of what's going on "under the hood" when we configure a :mod:`repoze.bfg` application imperatively. However, another mode of configuration exists named *declarative* configuration. Hello World, Configured Declaratively ------------------------------------- :mod:`repoze.bfg` can be configured for the same "hello world" application "declaratively", if so desired. Declarative configuration relies on *declarations* made external to the code in a configuration file format named :term:`ZCML` (Zope Configuration Markup Language), an XML dialect. Declarative configuration mode is the configuration mode in which developers cede the most amount of control to the framework itself. Because application developers cede a more control to the framework, it is also the hardest mode of configuration to understand. However, using declarative configuration has a number of benefits, the primary benefit being that applications configured declaratively can be *overridden* and *extended* by third parties without requiring the third party to change application code. .. note:: See :ref:`extending_chapter` for a discussion of extending and overriding :mod:`repoze.bfg` applications. Unlike the simplest :mod:`repoze.bfg` application configured imperatively, the simplest :mod:`repoze.bfg` application, configured declaratively requires not one, but two files: a Python file and a :term:`ZCML` file. In a file named ``helloworld.py``: .. code-block:: python :linenos: from webob import Response from wsgiref import simple_server from repoze.bfg.configuration import Configurator def hello_world(request): return Response('Hello world!') if __name__ == '__main__': config = Configurator(zcml_file='configure.zcml') app = config.make_wsgi_app() simple_server.make_server('', 8080, app).serve_forever() In a file named ``configure.zcml`` in the same directory as the previously created ``helloworld.py``: .. code-block:: xml :linenos: