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698 lines
32 KiB
ReStructuredText
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*******************************
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HOWTO Use Python in the web
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*******************************
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:Author: Marek Kubica
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.. topic:: Abstract
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This document shows how Python fits into the web. It presents some ways on
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how to integrate Python with the web server and general practices useful for
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developing web sites.
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Programming for the Web has become a hot topic since the raise of the "Web 2.0",
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which focuses on user-generated content on web sites. It has always been
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possible to use Python for creating web sites, but it was a rather tedious task.
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Therefore, many so-called "frameworks" and helper tools were created to help
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developers creating sites faster and these sites being more robust. This HOWTO
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describes some of the methods used to combine Python with a web server to create
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dynamic content. It is not meant as a general introduction as this topic is far
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too broad to be covered in one single document. However, a short overview of
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the most popular libraries is provided.
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.. seealso::
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While this HOWTO tries to give an overview over Python in the Web, it cannot
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always be as up to date as desired. Web development in Python is moving
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forward rapidly, so the wiki page on `Web Programming
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<http://wiki.python.org/moin/WebProgramming>`_ might be more in sync with
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recent development.
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The low-level view
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==================
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.. .. image:: http.png
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When a user enters a web site, his browser makes a connection to the site's
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webserver (this is called the *request*). The server looks up the file in the
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file system and sends it back to the user's browser, which displays it (this is
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the *response*). This is roughly how the unterlying protocol, HTTP works.
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Now, dynamic web sites are not files in the file system, but rather programs
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which are run by the web server when a request comes in. They can do all sorts
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of useful things, like display the postings of a bulletin board, show your
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mails, configurate software or just display the current time. These programs
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can be written in about any programming language the server supports, so it is
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easy to use Python for creating dynamic web sites.
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As most of HTTP servers are written in C or C++, they cannot execute Python code
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in a simple way -- a bridge is needed between the server and the program. These
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bridges or rather interfaces define how programs interact with the server. In
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the past there have been numerous attempts to create the best possible
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interface, but there are only a few worth mentioning.
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Not every web server supports every interface. Many web servers do support only
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old, now-obsolete interfaces. But they can often be extended using some
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third-party modules to support new interfaces.
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Common Gateway Interface
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------------------------
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This interface is the oldest one, supported by nearly every web server out of
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the box. Programs using CGI to communicate with their web server need to be
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started by the server for every request. So, every request starts a new Python
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interpreter -- which takes some time to start up -- thus making the whole
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interface only usable for low load situations.
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The upside of CGI is that it is simple -- writing a program which uses CGI is a
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matter of about three lines of code. But this simplicity comes at a price: it
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does very few things to help the developer.
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Writing CGI programs, while still possible, is not recommended anymore. With
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WSGI (more on that later) it is possible to write programs that emulate CGI, so
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they can be run as CGI if no better option is available.
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.. seealso::
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The Python standard library includes some modules that are helpful for
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creating plain CGI programs:
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* :mod:`cgi` -- Handling of user input in CGI scripts
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* :mod:`cgitb` -- Displays nice tracebacks when errors happen in of CGI
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applications, instead of presenting a "500 Internal Server Error" message
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The Python wiki features a page on `CGI scripts
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<http://wiki.python.org/moin/CgiScripts>`_ with some additional information
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about CGI in Python.
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Simple script for testing CGI
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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To test whether your web server works with CGI, you can use this short and
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simple CGI program::
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#!/usr/bin/env python
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# -*- coding: UTF-8 -*-
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# enable debugging
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import cgitb; cgitb.enable()
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print "Content-Type: text/plain;charset=utf-8"
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print
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print "Hello World!"
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You need to write this code into a file with a ``.py`` or ``.cgi`` extension,
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this depends on your web server configuration. Depending on your web server
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configuration, this file may also need to be in a ``cgi-bin`` folder, for
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security reasons.
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You might wonder what the ``cgitb`` line is about. This line makes it possible
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to display a nice traceback instead of just crashing and displaying an "Internal
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Server Error" in the user's browser. This is useful for debugging, but it might
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risk exposing some confident data to the user. Don't use it when the script is
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ready for production use. Still, you should *always* catch exceptions, and
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display proper error pages -- end-users don't like to see nondescript "Internal
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Server Errors" in their browsers.
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Setting up CGI on your own server
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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If you don't have your own web server, this does not apply to you. You can
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check whether if works as-is and if not you need to talk to the administrator of
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your web server anyway. If it is a big hoster, you can try filing a ticket
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asking for Python support.
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If you're your own administrator or want to install it for testing purposes on
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your own computers, you have to configure it by yourself. There is no one and
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single way on how to configure CGI, as there are many web servers with different
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configuration options. The currently most widely used free web server is
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`Apache HTTPd <http://httpd.apache.org/>`_, Apache for short -- this is the one
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that most people use, it can be easily installed on nearly every system using
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the systems' package management. But `lighttpd <http://www.lighttpd.net>`_ has
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been gaining attention since some time and is said to have a better performance.
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On many systems this server can also be installed using the package management,
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so manually compiling the web server is never needed.
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* On Apache you can take a look into the `Dynamic Content with CGI
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<http://httpd.apache.org/docs/2.2/howto/cgi.html>`_ tutorial, where everything
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is described. Most of the time it is enough just to set ``+ExecCGI``. The
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tutorial also describes the most common gotchas that might arise.
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* On lighttpd you need to use the `CGI module
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<http://trac.lighttpd.net/trac/wiki/Docs%3AModCGI>`_ which can be configured
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in a straightforward way. It boils down to setting ``cgi.assign`` properly.
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Common problems with CGI scripts
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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Trying to use CGI sometimes leads to small annoyances that one might experience
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while trying to get these scripts to run. Sometimes it happens that a seemingly
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correct script does not work as expected, which is caused by some small hidden
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reason that's difficult to spot.
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Some of these reasons are:
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* The Python script is not marked executable. When CGI scripts are not
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executable most of the web servers will let the user download it, instead of
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running it and sending the output to the user. For CGI scripts to run
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properly the ``+x`` bit needs to be set. Using ``chmod a+x your_script.py``
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might already solve the problem.
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* The line endings must be of Unix-type. This is important because the web
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server checks the first line of the script (called shebang) and tries to run
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the program specified there. It gets easily confused by Windows line endings
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(Carriage Return & Line Feed, also called CRLF), so you have to convert the
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file to Unix line endings (only Line Feed, LF). This can be done
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automatically by uploading the file via FTP in text mode instead of binary
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mode, but the preferred way is just telling your editor to save the files with
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Unix line endings. Most proper editors support this.
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* Your web server must be able to read the file, you need to make sure the
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permissions are fine. Often the server runs as user and group ``www-data``,
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so it might be worth a try to change the file ownership or making the file
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world readable by using ``chmod a+r your_script.py``.
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* The webserver must be able to know that the file you're trying to access is a
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CGI script. Check the configuration of your web server, maybe there is some
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mistake.
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* The path to the interpreter in the shebang (``#!/usr/bin/env python``) must be
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currect. This line calls ``/usr/bin/env`` to find Python, but it'll fail if
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there is no ``/usr/bin/env``. If you know where your Python is installed, you
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can also use that path. The commands ``whereis python`` and ``type -p
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python`` might also help to find where it is installed. Once this is known,
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the shebang line can be changed accordingly: ``#!/usr/bin/python``.
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* The file must not contain a BOM (Byte Order Mark). The BOM is meant for
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determining the byte order of UTF-16 encodings, but some editors write this
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also into UTF-8 files. The BOM interferes with the shebang line, so be sure
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to tell your editor not to write the BOM.
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* :ref:`mod-python` might be making problems. mod_python is able to handle CGI
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scripts by itself, but it can also be a source for problems. Be sure you
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disable it.
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.. _mod-python:
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mod_python
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----------
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People coming from PHP often find it hard to grasp how to use Python in the web.
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Their first thought is mostly `mod_python <http://www.modpython.org/>`_ because
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they think that this is the equivalent to ``mod_php``. Actually it is not
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really. It does embed the interpreter into the Apache process, thus speeding up
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requests by not having to start a Python interpreter every request. On the
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other hand, it is by far not "Python intermixed with HTML" as PHP often does.
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The Python equivalent of that is a template engine. mod_python itself is much
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more powerful and gives more access to Apache internals. It can emulate CGI, it
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can work an a "Python Server Pages" mode similar to JSP which is "HTML
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intermangled with Python" and it has a "Publisher" which destignates one file to
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accept all requests and decide on what to do then.
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But mod_python has some problems. Unlike the PHP interpreter the Python
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interpreter uses caching when executing files, so when changing a file the whole
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web server needs to be re-started to update. Another problem ist the basic
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concept -- Apache starts some child processes to handle the requests and
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unfortunately every child process needs to load the whole Python interpreter
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even if it does not use it. This makes the whole web server slower. Another
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problem is that as mod_python is linked against a specific version of
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``libpython``, it is not possible to switch from an older version to a newer
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(e.g. 2.4 to 2.5) without recompiling mod_python. mod_python is also bound to
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the Apache web server, so programs written for mod_python cannot easily run on
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other web servers.
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These are the reasons why mod_python should be avoided when writing new
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programs. In some circumstances it might be still a good idea to use mod_python
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for deployment, but WSGI makes it possible to run WSGI programs under mod_python
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as well.
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FastCGI and SCGI
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----------------
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FastCGI and SCGI try to solve the performance problem of CGI in another way.
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Instead of embedding the interpreter into the web server, they create
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long-running processes which run in the background. There still is some module
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in the web server which makes it possible for the web server to "speak" with the
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background process. As the background process is independent from the server,
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it can be written in any language of course also in Python. The language just
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needs to have a library which handles the communication with the web server.
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The difference between FastCGI and SCGI is very small, as SCGI is essentially
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just a "simpler FastCGI". But as the web server support for SCGI is limited
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most people use FastCGI instead, which works the same way. Almost everything
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that applies to SCGI also applies to FastCGI as well, so we'll only write about
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the latter.
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These days, FastCGI is never used directly. Just like ``mod_python`` it is only
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used for the deployment of WSGI applications.
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.. seealso::
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* `FastCGI, SCGI, and Apache: Background and Future
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<http://www.vmunix.com/mark/blog/archives/2006/01/02/fastcgi-scgi-and-apache-background-and-future/>`_
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is a discussion on why the concept of FastCGI and SCGI is better that that
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of mod_python.
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Setting up FastCGI
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^^^^^^^^^^^^^^^^^^
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Depending on the web server you need to have a special module.
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* Apache has both `mod_fastcgi <http://www.fastcgi.com/>`_ and `mod_fcgid
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<http://fastcgi.coremail.cn/>`_. ``mod_fastcgi`` is the original one, but it
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has some licensing issues that's why it is sometimes considered non-free.
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``mod_fcgid`` is a smaller, compatible alternative. One of these modules needs
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to be loaded by Apache.
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* lighttpd ships its own `FastCGI module
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<http://trac.lighttpd.net/trac/wiki/Docs%3AModFastCGI>`_ as well as an `SCGI
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module <http://trac.lighttpd.net/trac/wiki/Docs%3AModSCGI>`_.
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* nginx also supports `FastCGI
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<http://wiki.codemongers.com/NginxSimplePythonFCGI>`_.
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Once you have installed and configured the module, you can test it with the
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following WSGI-application::
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#!/usr/bin/env python
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# -*- coding: UTF-8 -*-
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from cgi import escape
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import sys, os
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from flup.server.fcgi import WSGIServer
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def app(environ, start_response):
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start_response('200 OK', [('Content-Type', 'text/html')])
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yield '<h1>FastCGI Environment</h1>'
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yield '<table>'
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for k, v in sorted(environ.items()):
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yield '<tr><th>%s</th><td>%s</td></tr>' % (escape(k), escape(v))
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yield '</table>'
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WSGIServer(app).run()
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This is a simple WSGI application, but you need to install `flup
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<http://pypi.python.org/pypi/flup/1.0>`_ first, as flup handles the low level
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FastCGI access.
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.. seealso::
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There is some documentation on `setting up Django with FastCGI
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<http://www.djangoproject.com/documentation/fastcgi/>`_, most of which can be
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reused for other WSGI-compliant frameworks and libraries. Only the
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``manage.py`` part has to be changed, the example used here can be used
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instead. Django does more or less the exact same thing.
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mod_wsgi
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--------
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`mod_wsgi <http://www.modwsgi.org/>`_ is an attempt to get rid of the low level
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gateways. As FastCGI, SCGI, mod_python are mostly used to deploy WSGI
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applications anyway, mod_wsgi was started to directly embed WSGI aplications
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into the Apache web server. The benefit from this approach is that WSGI
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applications can be deployed much easier as is is specially designed to host
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WSGI applications -- unlike the other low level methods which have glue code to
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host WSGI applications (like flup which was mentioned before). The downside is
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that mod_wsgi is limited to the Apache web server, other servers would need
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their own implementations of mod_wsgi.
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It supports two modes: the embedded mode in which it integrates with the Apache
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process and the daemon mode which is more FastCGI-like. Contrary to FastCGI,
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mod_wsgi handles the worker-processes by itself which makes administration
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easier.
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.. _WSGI:
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Step back: WSGI
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===============
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WSGI was already mentioned several times so it has to be something important.
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In fact it really is, so now it's time to explain.
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|
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The *Web Server Gateway Interface*, :pep:`333` or WSGI for short is currently
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the best possible way to Python web programming. While it is great for
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programmers writing frameworks, the normal person does not need to get in direct
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contact with it. But when choosing a framework for web development it is a good
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idea to take one which supports WSGI.
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The big profit from WSGI is the unification. When your program is compatible
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with WSGI -- that means that your framework has support for WSGI, your program
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can be deployed on every web server interface for which there are WSGI wrappers.
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So you do not need to care about whether the user uses mod_python or FastCGI --
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with WSGI it just works on any gateway interface. The Python standard library
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contains its own WSGI server :mod:`wsgiref`, which is a small web server that
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can be used for testing.
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A really great WSGI feature are the middlewares. Middlewares are layers around
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your program which can add various functionality to it. There is a `number of
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middlewares <http://wsgi.org/wsgi/Middleware_and_Utilities>`_ already available.
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For example, instead of writing your own session management (to identify a user
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in subsequent requests, as HTTP does not maintain state, so it does now know
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that the requests belong to the same user) you can just take one middleware,
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plug it in and you can rely an already existing functionality. The same thing
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is compression -- say you want to compress your HTML using gzip, to save your
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server's bandwidth. So you only need to plug-in a middleware and you're done.
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Authentication is also a problem easily solved using a middleware.
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So, generally -- although WSGI may seem complex, the initial phase of learning
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can be very rewarding as WSGI does already have solutions to many problems that
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might arise while writing web sites.
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WSGI Servers
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------------
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The code that is used to connect to various low level gateways like CGI or
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mod_python is called *WSGI server*. One of these servers is ``flup`` which was
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already mentioned and supports FastCGI, SCGI as well as `AJP
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<http://en.wikipedia.org/wiki/Apache_JServ_Protocol>`_. Some of these servers
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|
are written in Python as ``flup`` is, but there also exist others which are
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written in C and can be used as drop-in replacements.
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|
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|
There are quite a lot of servers already available, so a Python web application
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can be deployed nearly everywhere. This is one big advantage that Python has
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||
|
compared with other web techniques.
|
||
|
|
||
|
.. seealso::
|
||
|
|
||
|
A good overview of all WSGI-related code can be found in the `WSGI wiki
|
||
|
<http://wsgi.org/wsgi>`_, which contains an extensive list of `WSGI servers
|
||
|
<http://wsgi.org/wsgi/Servers>`_, which can be used by *every* application
|
||
|
supporting WSGI.
|
||
|
|
||
|
You might be interested in some WSGI-supporting modules already contained in
|
||
|
the standard library, namely:
|
||
|
|
||
|
* :mod:`wsgiref` -- some tiny utilities and servers for WSGI
|
||
|
|
||
|
|
||
|
Case study: MoinMoin
|
||
|
--------------------
|
||
|
|
||
|
What does WSGI give the web application developer? Let's take a look on one
|
||
|
long existing web application written in Python without using WSGI.
|
||
|
|
||
|
One of the most widely used wiki software is `MoinMoin <http://moinmo.in/>`_.
|
||
|
It was created in 2000, so it predates WSGI by about three years. While it now
|
||
|
includes support for WSGI, older versions needed separate code to run on CGI,
|
||
|
mod_python, FastCGI and standalone. Now, this all is possible by using WSGI and
|
||
|
the already-written gateways. For running with on FastCGI ``flup`` can be used,
|
||
|
for running a standalone server :mod:`wsgiref` is the way to go.
|
||
|
|
||
|
|
||
|
Model-view-controller
|
||
|
=====================
|
||
|
|
||
|
The term *MVC* is often heard in statements like "framework *foo* supports MVC".
|
||
|
While MVC is not really something technical but rather organisational, many web
|
||
|
frameworks use this model to help the developer to bring structure into his
|
||
|
program. Bigger web applications can have lots of code so it is a good idea to
|
||
|
have structure in the program right from the beginnings. That way, even users
|
||
|
of other frameworks (or even languages, as MVC is nothing Python-specific) can
|
||
|
understand the existing code easier, as they are already familiar with the
|
||
|
structure.
|
||
|
|
||
|
MVC stands for three components:
|
||
|
|
||
|
* The *model*. This is the data that is meant to modify. In Python frameworks
|
||
|
this component is often represented by the classes used by the
|
||
|
object-relational mapper. So, all declarations go here.
|
||
|
* The *view*. This component's job is to display the data of the model to the
|
||
|
user. Typically this component is represented by the templates.
|
||
|
* The *controller*. This is the layer between the user and the model. The
|
||
|
controller reacts on user actions (like opening some specific URL) and tells
|
||
|
the model to modify the data if neccessary.
|
||
|
|
||
|
While one might think that MVC is a complex design pattern, in fact it is not.
|
||
|
It is used in Python because it has turned out to be useful for creating clean,
|
||
|
maintainable web sites.
|
||
|
|
||
|
.. note::
|
||
|
|
||
|
While not all Python frameworks explicitly support MVC, it is often trivial
|
||
|
to create a web site which uses the MVC pattern by seperating the data logic
|
||
|
(the model) from the user interaction logic (the controller) and the
|
||
|
templates (the view). That's why it is important not to write unneccessary
|
||
|
Python code in the templates -- it is against MVC and creates more chaos.
|
||
|
|
||
|
.. seealso::
|
||
|
|
||
|
The english Wikipedia has an article about the `Model-View-Controller pattern
|
||
|
<http://en.wikipedia.org/wiki/Model-view-controller>`_, which includes a long
|
||
|
list of web frameworks for different programming languages.
|
||
|
|
||
|
|
||
|
Ingredients for web sites
|
||
|
=========================
|
||
|
|
||
|
Web sites are complex constructs, so tools were created to help the web site
|
||
|
developer to make his work maintainable. None of these tools are in any way
|
||
|
Python specific, they also exist for other programming languages as well. Of
|
||
|
course, developers are not forced to use these tools and often there is no
|
||
|
"best" tool, but it is worth informing yourself before choosing something
|
||
|
because of the big number of helpers that the developer can use.
|
||
|
|
||
|
|
||
|
.. seealso::
|
||
|
|
||
|
People have written far more components that can be combined than these
|
||
|
presented here. The Python wiki has a page about these components, called
|
||
|
`Web Components <http://wiki.python.org/moin/WebComponents>`_.
|
||
|
|
||
|
|
||
|
Templates
|
||
|
---------
|
||
|
|
||
|
Mixing of HTML and Python code is possible with some libraries. While
|
||
|
convenient at first, it leads to horribly unmaintainable code. That's why
|
||
|
templates exist. Templates are, in the simplest case, just HTML files with
|
||
|
placeholders. The HTML is sent to the user's browser after filling out the
|
||
|
placeholders.
|
||
|
|
||
|
Python already includes such simple templates::
|
||
|
|
||
|
# a simple template
|
||
|
template = "<html><body><h1>Hello %s!</h1></body></html>"
|
||
|
print template % "Reader"
|
||
|
|
||
|
The Python standard library also includes some more advanced templates usable
|
||
|
through :class:`string.Template`, but in HTML templates it is needed to use
|
||
|
conditional and looping contructs like Python's *for* and *if*. So, some
|
||
|
*template engine* is needed.
|
||
|
|
||
|
Now, Python has a lot of template engines which can be used with or without a
|
||
|
`framework`_. Some of these are using a plain-text programming language which
|
||
|
is very easy to learn as it is quite limited while others use XML so the
|
||
|
template output is always guaranteed to be valid XML. Some `frameworks`_ ship
|
||
|
their own template engine or recommend one particular. If one is not yet sure,
|
||
|
using these is a good idea.
|
||
|
|
||
|
.. note::
|
||
|
|
||
|
While Python has quite a lot of different template engines it usually does
|
||
|
not make sense to use a homebrewed template system. The time needed to
|
||
|
evaluate all templating systems is not really worth it, better invest the
|
||
|
time in looking through the most popular ones. Some frameworks have their
|
||
|
own template engine or have a recommentation for one. It's wise to use
|
||
|
these.
|
||
|
|
||
|
Popular template engines include:
|
||
|
|
||
|
* Mako
|
||
|
* Genshi
|
||
|
* Jinja
|
||
|
|
||
|
.. seealso::
|
||
|
|
||
|
Lots of different template engines divide the attention between themselves
|
||
|
because it's easy to create them in Python. The page `Templating
|
||
|
<http://wiki.python.org/moin/Templating>`_ in the wiki lists a big,
|
||
|
ever-growing number of these.
|
||
|
|
||
|
|
||
|
Data persistence
|
||
|
----------------
|
||
|
|
||
|
*Data persistence*, while sounding very complicated is just about storing data.
|
||
|
This data might be the text of blog entries, the postings of a bulletin board or
|
||
|
the text of a wiki page. As always, there are different ways to store
|
||
|
informations on a web server.
|
||
|
|
||
|
Often relational database engines like `MySQL <http://www.mysql.com/>`_ or
|
||
|
`PostgreSQL <http://http://www.postgresql.org/>`_ are used due to their good
|
||
|
performance handling very large databases consisting of up to millions of
|
||
|
entries. These are *queried* using a language called `SQL
|
||
|
<http://en.wikipedia.org/wiki/SQL>`_. Python programmers in general do not like
|
||
|
SQL too much, they prefer to work with objects. It is possible to save Python
|
||
|
objects into a database using a technology called `ORM
|
||
|
<http://en.wikipedia.org/wiki/Object-relational_mapping>`_. ORM translates all
|
||
|
object-oriented access into SQL code under the hood, the user does not need to
|
||
|
think about it. Most `frameworks`_ use ORMs and it works quite well.
|
||
|
|
||
|
A second possibility is using files that are saved on the hard disk (sometimes
|
||
|
called flatfiles). This is very easy, but is not too fast. There is even a
|
||
|
small database engine called `SQLite <http://www.sqlite.org/>`_ which is bundled
|
||
|
with Python in the :mod:`sqlite` module and uses only one file. This database
|
||
|
can be used to store objects via an ORM and has no other dependencies. For
|
||
|
smaller sites SQLite is just enough. But it is not the only way in which data
|
||
|
can be saved into the file systems. Sometimes normal, plain text files are
|
||
|
enough.
|
||
|
|
||
|
The third and least used possibility are so-called object oriented databases.
|
||
|
These databases store the *actual objects* instead of the relations that
|
||
|
OR-mapping creates between rows in a database. This has the advantage that
|
||
|
nearly all objects can be saven in a straightforward way, unlike in relational
|
||
|
databases where some objects are very hard to represent with ORMs.
|
||
|
|
||
|
`Frameworks`_ often give the users hints on which method to choose, it is
|
||
|
usually a good idea to stick to these unless there are some special requirements
|
||
|
which require to use the one method and not the other.
|
||
|
|
||
|
.. seealso::
|
||
|
|
||
|
* `Persistence Tools <http://wiki.python.org/moin/PersistenceTools>`_ lists
|
||
|
possibilities on how to save data in the file system, some of these modules
|
||
|
are part of the standard library
|
||
|
* `Database Programming <http://wiki.python.org/moin/DatabaseProgramming>`_
|
||
|
helps on choosing a method on how to save the data
|
||
|
* `SQLAlchemy <http://www.sqlalchemy.org/>`_, the most powerful OR-Mapper for
|
||
|
Python and `Elixir <http://elixir.ematia.de/>`_ which makes it easier to
|
||
|
use
|
||
|
* `SQLObject <http://www.sqlobject.org/>`_, another popular OR-Mapper
|
||
|
* `ZODB <https://launchpad.net/zodb>`_ and `Durus
|
||
|
<http://www.mems-exchange.org/software/durus/>`_, two object oriented
|
||
|
databases
|
||
|
|
||
|
|
||
|
.. _framework:
|
||
|
|
||
|
Frameworks
|
||
|
==========
|
||
|
|
||
|
As web sites can easily become quite large, there are so-called frameworks which
|
||
|
were created to help the developer with making these sites. Although the most
|
||
|
well-known framework is Ruby on Rails, Python does also have its own frameworks
|
||
|
which are partly inspired by Rails or which were existing a long time before
|
||
|
Rails.
|
||
|
|
||
|
Two possible approaches to web frameworks exist: the minimalistic approach and
|
||
|
the all-inclusive approach (somtimes called *full-stack*). Frameworks which are
|
||
|
all-inclusive give you everything you need to start working, like a template
|
||
|
engine, some way to save and access data in databases and many features more.
|
||
|
Most users are best off using these as they are widely used by lots of other
|
||
|
users and well documented in form of books and tutorials. Other web frameworks
|
||
|
go the minimalistic approach trying to be as flexible as possible leaving the
|
||
|
user the freedom to choose what's best for him.
|
||
|
|
||
|
The majority of users is best off with all-inclusive framewors. They bring
|
||
|
everything along so a user can just jump in and start to code. While they do
|
||
|
have some limitations they can fullfill 80% of what one will ever want to
|
||
|
perfectly. They consist of various components which are designed to work
|
||
|
together as good as possible.
|
||
|
|
||
|
The multitude of web frameworks written in Python demonstrates that it is really
|
||
|
easy to write one. One of the most well-known web applications written in
|
||
|
Python is `Zope <http://www.zope.org/>`_ which can be regarded as some kind of
|
||
|
big framework. But Zope was not the only framework, there were some others
|
||
|
which are by now nearly forgotten. These do not need to be mentioned anymore,
|
||
|
because most people that used them moved on to newer ones.
|
||
|
|
||
|
|
||
|
Some notable frameworks
|
||
|
-----------------------
|
||
|
|
||
|
There is an incredible number of frameworks, so there is no way to describe them
|
||
|
all. It is not even neccessary, as most of these frameworks are nothing special
|
||
|
and everything that can be done with these can also be done with one of the
|
||
|
popular ones.
|
||
|
|
||
|
|
||
|
Django
|
||
|
^^^^^^
|
||
|
|
||
|
`Django <http://www.djangoproject.com/>`_ is a framework consisting of several
|
||
|
tightly coupled elements which were written from scratch and work together very
|
||
|
well. It includes an ORM which is quite powerful while being simple to use and
|
||
|
has a great online administration interface which makes it possible to edit the
|
||
|
data in the database with a browser. The template engine is text-based and is
|
||
|
designed to be usable for page designers who cannot write Python. It supports
|
||
|
so-called template inheritance and filters (which work like Unix pipes). Django
|
||
|
has many handy features bundled, like creation of RSS feeds or generic views
|
||
|
which make it possible to write web sites nearly without any Python code.
|
||
|
|
||
|
It has a big, international community which has created many sites using Django.
|
||
|
There are also quite a lot of add-on projects which extend Django's normal
|
||
|
functionality. This is partly due to Django's well written `online
|
||
|
documentation <http://doc.djangoproject.com/>`_ and the `Django book
|
||
|
<http://www.djangobook.com/>`_.
|
||
|
|
||
|
|
||
|
.. note::
|
||
|
|
||
|
Although Django is an MVC-style framework, it calls the components
|
||
|
differently, which is described in the `Django FAQ
|
||
|
<http://www.djangoproject.com/documentation/faq/#django-appears-to-be-a-mvc-framework-but-you-call-the-controller-the-view-and-the-view-the-template-how-come-you-don-t-use-the-standard-names>`_.
|
||
|
|
||
|
|
||
|
TurboGears
|
||
|
^^^^^^^^^^
|
||
|
|
||
|
The other popular web framework in Python is `TurboGears
|
||
|
<http://www.turbogears.org/>`_. It takes the approach of using already existing
|
||
|
components and combining them with glue code to create a seamless experience.
|
||
|
TurboGears gives the user more flexibility on which components to choose, the
|
||
|
ORM can be switched between some easy to use but limited and complex but very
|
||
|
powerful. Same goes for the template engine. One strong point about TurboGears
|
||
|
is that the components that it consists of can be used easily in other projects
|
||
|
without depending on TurboGears, for example the underlying web server CherryPy.
|
||
|
|
||
|
The documentation can be found in the `TurboGears wiki
|
||
|
<http://docs.turbogears.org/>`_, where links to screencasts can be found.
|
||
|
TurboGears has also an active user community which can respond to most related
|
||
|
questions. There is also a `TurboGears book <http://turbogearsbook.com/>`_
|
||
|
published, which is a good starting point.
|
||
|
|
||
|
The plan for the next major version of TurboGears, version 2.0 is to switch to a
|
||
|
more flexible base provided by another very flexible web framework called
|
||
|
`Pylons <http://pylonshq.com/>`_.
|
||
|
|
||
|
|
||
|
Other notable frameworks
|
||
|
^^^^^^^^^^^^^^^^^^^^^^^^
|
||
|
|
||
|
These two are of course not the only frameworks that are available, there are
|
||
|
also some less-popular frameworks worth mentioning.
|
||
|
|
||
|
One of these is the already mentioned Zope, which has been around for quite a
|
||
|
long time. With Zope 2.x having been known as rather un-pythonic, the newer
|
||
|
Zope 3.x tries to change that and therefore gets more acceptance from Python
|
||
|
programmers. These efforts already showed results, there is a project which
|
||
|
connects Zope with WSGI called `Repoze <http://repoze.org/>`_ and another
|
||
|
project called `Grok <http://grok.zope.org/>`_ which makes it possible for
|
||
|
"normal" Python programmers use the very mature Zope components.
|
||
|
|
||
|
Another framework that's already been mentioned is `Pylons`_. Pylons is much
|
||
|
like TurboGears with ab even stronger emphasis on flexibility, which is bought
|
||
|
at the cost of being more difficult to use. Nearly every component can be
|
||
|
exchanged, which makes it neccessary to use the documentation of every single
|
||
|
component, because there are so many Pylons combinations possible that can
|
||
|
satisfy every requirement. Pylons builds upon `Paste
|
||
|
<http://pythonpaste.org/>`_, an extensive set of tools which are handy for WSGI.
|
||
|
|
||
|
And that's still not everything. The most up-to-date information can always be
|
||
|
found in the Python wiki.
|
||
|
|
||
|
.. seealso::
|
||
|
|
||
|
The Python wiki contains an extensive list of `web frameworks
|
||
|
<http://wiki.python.org/moin/WebFrameworks>`_.
|
||
|
|
||
|
Most frameworks also have their own mailing lists and IRC channels, look out
|
||
|
for these on the projects' websites. There is also a general "Python in the
|
||
|
Web" IRC channel on freenode called `#python.web
|
||
|
<http://wiki.python.org/moin/PoundPythonWeb>`_.
|