Wiki Example ============ :author: Ian Bicking .. contents:: Introduction ------------ This is an example of how to write a WSGI application using WebOb. WebOb isn't itself intended to write applications -- it is not a web framework on its own -- but it is *possible* to write applications using just WebOb. The `file serving example `_ is a better example of advanced HTTP usage. The `comment middleware example `_ is a better example of using middleware. This example provides some completeness by showing an application-focused end point. This example implements a very simple wiki. Code ---- The finished code for this is available in `docs/wiki-example-code/example.py `_ -- you can run that file as a script to try it out. Creating an Application ----------------------- A common pattern for creating small WSGI applications is to have a class which is instantiated with the configuration. For our application we'll be storing the pages under a directory. .. code-block:: python class WikiApp(object): def __init__(self, storage_dir): self.storage_dir = os.path.abspath(os.path.normpath(storage_dir)) WSGI applications are callables like ``wsgi_app(environ, start_response)``. *Instances* of `WikiApp` are WSGI applications, so we'll implement a ``__call__`` method: .. code-block:: python class WikiApp(object): ... def __call__(self, environ, start_response): # what we'll fill in To make the script runnable we'll create a simple command-line interface: .. code-block:: python if __name__ == '__main__': import optparse parser = optparse.OptionParser( usage='%prog --port=PORT' ) parser.add_option( '-p', '--port', default='8080', dest='port', type='int', help='Port to serve on (default 8080)') parser.add_option( '--wiki-data', default='./wiki', dest='wiki_data', help='Place to put wiki data into (default ./wiki/)') options, args = parser.parse_args() print 'Writing wiki pages to %s' % options.wiki_data app = WikiApp(options.wiki_data) from wsgiref.simple_server import make_server httpd = make_server('localhost', options.port, app) print 'Serving on http://localhost:%s' % options.port try: httpd.serve_forever() except KeyboardInterrupt: print '^C' There's not much to talk about in this code block. The application is instantiated and served with the built-in module `wsgiref.simple_server `_. The WSGI Application -------------------- Of course all the interesting stuff is in that ``__call__`` method. WebOb lets you ignore some of the details of WSGI, like what ``start_response`` really is. ``environ`` is a CGI-like dictionary, but ``webob.Request`` gives an object interface to it. ``webob.Response`` represents a response, and is itself a WSGI application. Here's kind of the hello world of WSGI applications using these objects: .. code-block:: python from webob import Request, Response class WikiApp(object): ... def __call__(self, environ, start_response): req = Request(environ) resp = Response( 'Hello %s!' % req.params.get('name', 'World')) return resp(environ, start_response) ``req.params.get('name', 'World')`` gets any query string parameter (like ``?name=Bob``), or if it's a POST form request it will look for a form parameter ``name``. We instantiate the response with the body of the response. You could also give keyword arguments like ``content_type='text/plain'`` (``text/html`` is the default content type and ``200 OK`` is the default status). For the wiki application we'll support a couple different kinds of screens, and we'll make our ``__call__`` method dispatch to different methods depending on the request. We'll support an ``action`` parameter like ``?action=edit``, and also dispatch on the method (GET, POST, etc, in ``req.method``). We'll pass in the request and expect a response object back. Also, WebOb has a series of exceptions in ``webob.exc``, like ``webob.exc.HTTPNotFound``, ``webob.exc.HTTPTemporaryRedirect``, etc. We'll also let the method raise one of these exceptions and turn it into a response. One last thing we'll do in our ``__call__`` method is create our ``Page`` object, which represents a wiki page. All this together makes: .. code-block:: python from webob import Request, Response from webob import exc class WikiApp(object): ... def __call__(self, environ, start_response): req = Request(environ) action = req.params.get('action', 'view') # Here's where we get the Page domain object: page = self.get_page(req.path_info) try: try: # The method name is action_{action_param}_{request_method}: meth = getattr(self, 'action_%s_%s' % (action, req.method)) except AttributeError: # If the method wasn't found there must be # something wrong with the request: raise exc.HTTPBadRequest('No such action %r' % action) resp = meth(req, page) except exc.HTTPException, e: # The exception object itself is a WSGI application/response: resp = e return resp(environ, start_response) The Domain Object ----------------- The ``Page`` domain object isn't really related to the web, but it is important to implementing this. Each ``Page`` is just a file on the filesystem. Our ``get_page`` method figures out the filename given the path (the path is in ``req.path_info``, which is all the path after the base path). The ``Page`` class handles getting and setting the title and content. Here's the method to figure out the filename: .. code-block:: python import os class WikiApp(object): ... def get_page(self, path): path = path.lstrip('/') if not path: # The path was '/', the home page path = 'index' path = os.path.join(self.storage_dir) path = os.path.normpath(path) if path.endswith('/'): path += 'index' if not path.startswith(self.storage_dir): raise exc.HTTPBadRequest("Bad path") path += '.html' return Page(path) Mostly this is just the kind of careful path construction you have to do when mapping a URL to a filename. While the server *may* normalize the path (so that a path like ``/../../`` can't be requested), you can never really be sure. By using ``os.path.normpath`` we eliminate these, and then we make absolutely sure that the resulting path is under our ``self.storage_dir`` with ``if not path.startswith(self.storage_dir): raise exc.HTTPBadRequest("Bad path")``. Here's the actual domain object: .. code-block:: python class Page(object): def __init__(self, filename): self.filename = filename @property def exists(self): return os.path.exists(self.filename) @property def title(self): if not self.exists: # we need to guess the title basename = os.path.splitext(os.path.basename(self.filename))[0] basename = re.sub(r'[_-]', ' ', basename) return basename.capitalize() content = self.full_content match = re.search(r'(.*?)', content, re.I|re.S) return match.group(1) @property def full_content(self): f = open(self.filename, 'rb') try: return f.read() finally: f.close() @property def content(self): if not self.exists: return '' content = self.full_content match = re.search(r']*>(.*?)', content, re.I|re.S) return match.group(1) @property def mtime(self): if not self.exists: return None else: return int(os.stat(self.filename).st_mtime) def set(self, title, content): dir = os.path.dirname(self.filename) if not os.path.exists(dir): os.makedirs(dir) new_content = """%s%s""" % ( title, content) f = open(self.filename, 'wb') f.write(new_content) f.close() Basically it provides a ``.title`` attribute, a ``.content`` attribute, the ``.mtime`` (last modified time), and the page can exist or not (giving appropriate guesses for title and content when the page does not exist). It encodes these on the filesystem as a simple HTML page that is parsed by some regular expressions. None of this really applies much to the web or WebOb, so I'll leave it to you to figure out the details of this. URLs, PATH_INFO, and SCRIPT_NAME -------------------------------- This is an aside for the tutorial, but an important concept. In WSGI, and accordingly with WebOb, the URL is split up into several pieces. Some of these are obvious and some not. An example:: http://example.com:8080/wiki/article/12?version=10 There are several components here: * req.scheme: ``http`` * req.host: ``example.com:8080`` * req.server_name: ``example.com`` * req.server_port: 8080 * req.script_name: ``/wiki`` * req.path_info: ``/article/12`` * req.query_string: ``version=10`` One non-obvious part is ``req.script_name`` and ``req.path_info``. These correspond to the CGI environmental variables ``SCRIPT_NAME`` and ``PATH_INFO``. ``req.script_name`` points to the *application*. You might have several applications in your site at different paths: one at ``/wiki``, one at ``/blog``, one at ``/``. Each application doesn't necessarily know about the others, but it has to construct its URLs properly -- so any internal links to the wiki application should start with ``/wiki``. Just as there are pieces to the URL, there are several properties in WebOb to construct URLs based on these: * req.host_url: ``http://example.com:8080`` * req.application_url: ``http://example.com:8080/wiki`` * req.path_url: ``http://example.com:8080/wiki/article/12`` * req.path: ``/wiki/article/12`` * req.path_qs: ``/wiki/article/12?version=10`` * req.url: ``http://example.com:8080/wiki/article/12?version10`` You can also create URLs with ``req.relative_url('some/other/page')``. In this example that would resolve to ``http://example.com:8080/wiki/article/some/other/page``. You can also create a relative URL to the application URL (SCRIPT_NAME) like ``req.relative_url('some/other/page', True)`` which would be ``http://example.com:8080/wiki/some/other/page``. Back to the Application ----------------------- We have a dispatching function with ``__call__`` and we have a domain object with ``Page``, but we aren't actually doing anything. The dispatching goes to ``action_ACTION_METHOD``, where ACTION defaults to ``view``. So a simple page view will be ``action_view_GET``. Let's implement that: .. code-block:: python class WikiApp(object): ... def action_view_GET(self, req, page): if not page.exists: return exc.HTTPTemporaryRedirect( location=req.url + '?action=edit') text = self.view_template.substitute( page=page, req=req) resp = Response(text) resp.last_modified = page.mtime resp.conditional_response = True return resp The first thing we do is redirect the user to the edit screen if the page doesn't exist. ``exc.HTTPTemporaryRedirect`` is a response that gives a ``307 Temporary Redirect`` response with the given location. Otherwise we fill in a template. The template language we're going to use in this example is `Tempita `_, a very simple template language with a similar interface to `string.Template `_. The template actually looks like this: .. code-block:: python from tempita import HTMLTemplate VIEW_TEMPLATE = HTMLTemplate("""\ {{page.title}}

{{page.title}}

{{page.content|html}}

Edit """) class WikiApp(object): view_template = VIEW_TEMPLATE ... As you can see it's a simple template using the title and the body, and a link to the edit screen. We copy the template object into a class method (``view_template = VIEW_TEMPLATE``) so that potentially a subclass could override these templates. ``tempita.HTMLTemplate`` is a template that does automatic HTML escaping. Our wiki will just be written in plain HTML, so we disable escaping of the content with ``{{page.content|html}}``. So let's look at the ``action_view_GET`` method again: .. code-block:: python def action_view_GET(self, req, page): if not page.exists: return exc.HTTPTemporaryRedirect( location=req.url + '?action=edit') text = self.view_template.substitute( page=page, req=req) resp = Response(text) resp.last_modified = page.mtime resp.conditional_response = True return resp The template should be pretty obvious now. We create a response with ``Response(text)``, which already has a default Content-Type of ``text/html``. To allow conditional responses we set ``resp.last_modified``. You can set this attribute to a date, None (effectively removing the header), a time tuple (like produced by ``time.localtime()``), or as in this case to an integer timestamp. If you get the value back it will always be a `datetime `_ object (or None). With this header we can process requests with If-Modified-Since headers, and return ``304 Not Modified`` if appropriate. It won't actually do that unless you set ``resp.conditional_response`` to True. .. note:: If you subclass ``webob.Response`` you can set the class attribute ``default_conditional_response = True`` and this setting will be on by default. You can also set other defaults, like the ``default_charset`` (``"utf8"``), or ``default_content_type`` (``"text/html"``). The Edit Screen --------------- The edit screen will be implemented in the method ``action_edit_GET``. There's a template and a very simple method: .. code-block:: python EDIT_TEMPLATE = HTMLTemplate("""\ Edit: {{page.title}} {{if page.exists}}

Edit: {{page.title}}

{{else}}

Create: {{page.title}}

{{endif}}
Title:
Content: Cancel

Cancel
""") class WikiApp(object): ... edit_template = EDIT_TEMPLATE def action_edit_GET(self, req, page): text = self.edit_template.substitute( page=page, req=req) return Response(text) As you can see, all the action here is in the template. In ``
`` we submit to ``req.path_url``; that's everything *but* ``?action=edit``. So we are POSTing right over the view page. This has the nice side effect of automatically invalidating any caches of the original page. It also is vaguely `RESTful `_. We save the last modified time in a hidden ``mtime`` field. This way we can detect concurrent updates. If start editing the page who's mtime is 100000, and someone else edits and saves a revision changing the mtime to 100010, we can use this hidden field to detect that conflict. Actually resolving the conflict is a little tricky and outside the scope of this particular tutorial, we'll just note the conflict to the user in an error. From there we just have a very straight-forward HTML form. Note that we don't quote the values because that is done automatically by ``HTMLTemplate``; if you are using something like ``string.Template`` or a templating language that doesn't do automatic quoting, you have to be careful to quote all the field values. We don't have any error conditions in our application, but if there were error conditions we might have to re-display this form with the input values the user already gave. In that case we'd do something like:: This way we use the value in the request (``req.params`` is both the query string parameters and any variables in a POST response), but if there is no value (e.g., first request) then we use the page values. Processing the Form ------------------- The form submits to ``action_view_POST`` (``view`` is the default action). So we have to implement that method: .. code-block:: python class WikiApp(object): ... def action_view_POST(self, req, page): submit_mtime = int(req.params.get('mtime') or '0') or None if page.mtime != submit_mtime: return exc.HTTPPreconditionFailed( "The page has been updated since you started editing it") page.set( title=req.params['title'], content=req.params['content']) resp = exc.HTTPSeeOther( location=req.path_url) return resp The first thing we do is check the mtime value. It can be an empty string (when there's no mtime, like when you are creating a page) or an integer. ``int(req.params.get('time') or '0') or None`` basically makes sure we don't pass ``""`` to ``int()`` (which is an error) then turns 0 into None (``0 or None`` will evaluate to None in Python -- ``false_value or other_value`` in Python resolves to ``other_value``). If it fails we just give a not-very-helpful error message, using ``412 Precondition Failed`` (typically preconditions are HTTP headers like ``If-Unmodified-Since``, but we can't really get the browser to send requests like that, so we use the hidden field instead). .. note:: Error statuses in HTTP are often under-used because people think they need to either return an error (useful for machines) or an error message or interface (useful for humans). In fact you can do both: you can give any human readable error message with your error response. One problem is that Internet Explorer will replace error messages with its own incredibly unhelpful error messages. However, it will only do this if the error message is short. If it's fairly large (4Kb is large enough) it will show the error message it was given. You can load your error with a big HTML comment to accomplish this, like ``"" % ('x'*4000)``. You can change the status of any response with ``resp.status_int = 412``, or you can change the body of an ``exc.HTTPSomething`` with ``resp.body = new_body``. The primary advantage of using the classes in ``webob.exc`` is giving the response a clear name and a boilerplate error message. After we check the mtime we get the form parameters from ``req.params`` and issue a redirect back to the original view page. ``303 See Other`` is a good response to give after accepting a POST form submission, as it gets rid of the POST (no warning messages for the user if they try to go back). In this example we've used ``req.params`` for all the form values. If we wanted to be specific about where we get the values from, they could come from ``req.GET`` (the query string, a misnomer since the query string is present even in POST requests) or ``req.POST`` (a POST form body). While sometimes it's nice to distinguish between these two locations, for the most part it doesn't matter. If you want to check the request method (e.g., make sure you can't change a page with a GET request) there's no reason to do it by accessing these method-specific getters. It's better to just handle the method specifically. We do it here by including the request method in our dispatcher (dispatching to ``action_view_GET`` or ``action_view_POST``). Cookies ------- One last little improvement we can do is show the user a message when they update the page, so it's not quite so mysteriously just another page view. A simple way to do this is to set a cookie after the save, then display it in the page view. To set it on save, we add a little to ``action_view_POST``: .. code-block:: python def action_view_POST(self, req, page): ... resp = exc.HTTPSeeOther( location=req.path_url) resp.set_cookie('message', 'Page updated') return resp And then in ``action_view_GET``: .. code-block:: python VIEW_TEMPLATE = HTMLTemplate("""\ ... {{if message}}
{{message}}
{{endif}} ...""") class WikiApp(object): ... def action_view_GET(self, req, page): ... if req.cookies.get('message'): message = req.cookies['message'] else: message = None text = self.view_template.substitute( page=page, req=req, message=message) resp = Response(text) if message: resp.delete_cookie('message') else: resp.last_modified = page.mtime resp.conditional_response = True return resp ``req.cookies`` is just a dictionary, and we also delete the cookie if it is present (so the message doesn't keep getting set). The conditional response stuff only applies when there isn't any message, as messages are private. Another alternative would be to display the message with Javascript, like:: Then put ```` in the page somewhere. This has the advantage of being very cacheable and simple on the server side. Conclusion ---------- We're done, hurrah!