Recently, there are many modules or system in python.
This post, let’s focus on webserver system
Out of Web Framework for python, the most famous is django. And the most popular httpserver is nginx, apache, lighttpd.
Python is a script language, how does it communicate with httpserver?
The answer is the sgi or cgi,kind of things, which is used to a bridge.
Here is a tuturial which is aimed at the Django user who wants to set up a production web server. It takes you through the steps required to set up Django so that it works nicely with uWSGI and nginx. It covers all three components, providing a complete stack of web application and server software.
Django is a high-level Python Web framework that encourages rapid development and clean, pragmatic design.
nginx (pronounced engine-x) is a free, open-source, high-performance HTTP server and reverse proxy, as well as an IMAP/POP3 proxy server.
Some notes about this tutorial
Note
This is a **tutorial**. It is not intended to provide a reference guide,
never mind an exhaustive reference, to the subject of deployment.
nginx and uWSGI are good choices for Django deployment, but they are not the only ones, or the ‘official’ ones. There are excellent alternatives to both, and you are encouraged to investigate them.
The way we deploy Django here is a good way, but it is not the only way; for some purposes it is probably not even the best way.
It is however a reliable and easy way, and the material covered here will introduce you to concepts and procedures you will need to be familiar with whatever software you use for deploying Django. By providing you with a working setup, and rehearsing the steps you must take to get there, it will offer you a basis for exploring other ways to achieve this.
Note
This tutorial makes some assumptions about the system you are using.
It is assumed that you are using a Unix-like system, and that it features an aptitude-like package manager. However if you need to ask questions like “What’s the equivalent of aptitude on Mac OS X?”, you’ll be able to find that kind of help fairly easily.
While this tutorial assumes Django 1.4 or later, which will automatically create a wsgi module in your new project, the instructions will work with earlier versions. You will though need to obtain that Django wsgi module yourself, and you may find that the Django project directory structure is slightly different.
Concept
A web server faces the outside world. It can serve files (HTML, images, CSS, etc) directly from the file system. However, it can’t talk directly to Django applications; it needs something that will run the application, feed it requests from web clients (such as browsers) and return responses.
A Web Server Gateway Interface - WSGI - does this job. WSGI_ is a Python standard.
uWSGI is a WSGI implementation. In this tutorial we will set up uWSGI so that it creates a Unix socket, and serves responses to the web server via the WSGI protocol. At the end, our complete stack of components will look like this:
the web client <-> the web server <-> the socket <-> uwsgi <-> Django
Before you start setting up uWSGI
virtualenv
Make sure you are in a virtualenv for the software we need to install (we will describe how to install a system-wide uwsgi later):
virtualenv uwsgi-tutorial
cd uwsgi-tutorial
source bin/activate
Django
Install Django into your virtualenv, create a new project, and cd
into the
project:
pip install Django
django-admin.py startproject mysite
cd mysite
About the domain and port
In this tutorial we will call your domain example.com
. Substitute your own
FQDN or IP address.
Throughout, we’ll using port 8000 for the web server to publish on, just like the Django runserver does by default. You can use whatever port you want of course, but I have chosen this one so it doesn’t conflict with anything a web server might be doing already.
Basic uWSGI installation and configuration
Install uWSGI into your virtualenv
pip install uwsgi
Of course there are other ways to install uWSGI, but this one is as good as
any. Remember that you will need to have Python development packages installed.
In the case of Debian, or Debian-derived systems such as Ubuntu, what you need
to have installed is pythonX.Y-dev
, where X.Y is your version of Python.
Basic test
Create a file called test.py
:
# test.py
def application(env, start_response):
start_response('200 OK', [('Content-Type','text/html')])
return "Hello World"
Run uWSGI:
uwsgi --http :8000 --wsgi-file test.py
The options mean:
-
http :8000
: use protocol http, port 8000 -
wsgi-file test.py
: load the specified file, test.py
This should serve a ‘hello world’ message directly to the browser on port 8000. Visit:
http://example.com:8000
to check. If so, it means the following stack of components works:
the web client <-> uWSGI <-> Python
Test your Django project
Now we want uWSGI to do the same thing, but to run a Django site instead of the
test.py
module.
If you haven’t already done so, make sure that your mysite
project actually works:
python manage.py runserver 0.0.0.0:8000
And if it that works, run it using uWSGI:
uwsgi --http :8000 --module mysite.wsgi
module mysite.wsgi
: load the specified wsgi module
Point your browser at the server; if the site appears, it means uWSGI is able serve your Django application from your virtualenv, and this stack operates correctly:
the web client <-> uWSGI <-> Django
Now normally we won’t have the browser speaking directly to uWSGI. That’s a job for the webserver, which will act as a go-between.
Basic nginx
Install nginx
sudo apt-get install nginx
sudo /etc/init.d/nginx start # start nginx
And now check that the nginx is serving by visiting it in a web browser on port 80 - you should get a message from nginx: “Welcome to nginx!”. That means these components of the full stack are working together:
the web client <-> the web server
If something else is already serving on port 80 and you want to use nginx there, you’ll have to reconfigure nginx to serve on a different port. For this tutorial though, we’re going to be using port 8000.
Configure nginx for your site
You will need the uwsgi_params
file, which is available in the nginx
directory of the uWSGI distribution, or from
https://github.com/nginx/nginx/blob/master/conf/uwsgi_params
Copy it into your project directory. In a moment we will tell nginx to refer to it.
Now create a file called mysite_nginx.conf, and put this in it:
# mysite_nginx.conf
# the upstream component nginx needs to connect to
upstream django {
# server unix:///path/to/your/mysite/mysite.sock; # for a file socket
server 127.0.0.1:8001; # for a web port socket (we'll use this first)
}
# configuration of the server
server {
# the port your site will be served on
listen 8000;
# the domain name it will serve for
server_name .example.com; # substitute your machine's IP address or FQDN
charset utf-8;
# max upload size
client_max_body_size 75M; # adjust to taste
# Django media
location /media {
alias /path/to/your/mysite/mysite/media; # your Django project's media files - amend as required
}
location /static {
alias /path/to/your/mysite/mysite/static; # your Django project's static files - amend as required
}
# Finally, send all non-media requests to the Django server.
location / {
uwsgi_pass django;
include /path/to/your/mysite/uwsgi_params; # the uwsgi_params file you installed
}
}
This conf file tells nginx to serve up media and static files from the filesystem, as well as handle requests that require Django’s intervention. For a large deployment it is considered good practice to let one server handle static/media files, and another handle Django applications, but for now, this will do just fine.
Symlink to this file from /etc/nginx/sites-enabled so nginx can see it:
sudo ln -s ~/path/to/your/mysite/mysite_nginx.conf /etc/nginx/sites-enabled/
Basic nginx test
Restart nginx:
sudo /etc/init.d/nginx restart
To check that media files are being served correctly, add an image called
media.png
to the /path/to/your/project/project/media directory
, then
visit http://example.com:8000/media/media.png - if this works, you’ll know at
least that nginx is serving files correctly.
It is worth not just restarting nginx, but actually stopping and then starting it again, which will inform you if there is a problem, and where it is.
nginx and uWSGI and test.py
Let’s get nginx to speak to the “hello world” test.py
application.
uwsgi --socket :8001 --wsgi-file test.py
This is nearly the same as before, except this time one of the options is different:
socket :8001
: use protocol uwsgi, port 8001
nginx meanwhile has been configured to communicate with uWSGI on that port, and with the outside world on port 8000. Visit:
http://example.com:8000/
to check. And this is our stack:
the web client <-> the web server <-> the socket <-> uWSGI <-> Python
Meanwhile, you can try to have a look at the uswgi output at http://example.com:8001 - but quite probably, it won’t work because your browser speaks http, not uWSGI, though you should see output from uWSGI in your terminal.
Using Unix sockets instead of ports
So far we have used a TCP port socket, because it’s simpler, but in fact it’s better to use Unix sockets than ports - there’s less overhead.
Edit mysite_nginx.conf
, changing it to match:
server unix:///path/to/your/mysite/mysite.sock; # for a file socket
# server 127.0.0.1:8001; # for a web port socket (we'll use this first)
and restart nginx.
Runs uWSGI again:
uwsgi --socket mysite.sock --wsgi-file test.py
This time the socket
option tells uWSGI which file to use.
Try http://example.com:8000/ in the browser.
If that doesn’t work
Check your nginx error log(/var/log/nginx/error.log). If you see something like:
connect() to unix:///path/to/your/mysite/mysite.sock failed (13: Permission
denied)
then probably you need to manage the permissions on the socket so that nginx is allowed to use it.
Try:
uwsgi --socket mysite.sock --wsgi-file test.py --chmod-socket=666 # (very permissive)
or:
uwsgi --socket mysite.sock --wsgi-file test.py --chmod-socket=664 # (more sensible)
You may also have to add your user to nginx’s group (which is probably www-data), or vice-versa, so that nginx can read and write to your socket properly.
It’s worth keeping the output of the nginx log running in a terminal window so you can easily refer to it while troubleshooting.
Running the Django application with uswgi and nginx
Let’s run our Django application:
uwsgi --socket mysite.sock --module mysite.wsgi --chmod-socket=664
Now uWSGI and nginx should be serving up not just a “Hello World” module, but your Django project.
Configuring uWSGI to run with a .ini file
We can put the same options that we used with uWSGI into a file, and then ask uWSGI to run with that file. It makes it easier to manage configurations.
Create a file called mysite_uwsgi.ini
:
# mysite_uwsgi.ini file
[uwsgi]
# Django-related settings
# the base directory (full path)
chdir = /path/to/your/project
# Django's wsgi file
module = project.wsgi
# the virtualenv (full path)
home = /path/to/virtualenv
# process-related settings
# master
master = true
# maximum number of worker processes
processes = 10
# the socket (use the full path to be safe
socket = /path/to/your/project/mysite.sock
# ... with appropriate permissions - may be needed
# chmod-socket = 664
# clear environment on exit
vacuum = true
And run uswgi using this file:
uwsgi --ini mysite_uwsgi.ini # the --ini option is used to specify a file
Once again, test that the Django site works as expected.
Install uWSGI system-wide
So far, uWSGI is only installed in our virtualenv; we’ll need it installed system-wide for deployment purposes.
Deactivate your virtualenv:
deactivate
and install uWSGI system-wide:
sudo pip install uwsgi
# Or install LTS (long term support).
pip install http://projects.unbit.it/downloads/uwsgi-lts.tar.gz
The uWSGI wiki describes several installation procedures
_. Before installing
uWSGI system-wide, it’s worth considering which version to choose and the most
apppropriate way of installing it.
.. _installation procedures: http://projects.unbit.it/uwsgi/wiki/Install
Check again that you can still run uWSGI just like you did before:
uwsgi --ini mysite_uwsgi.ini # the --ini option is used to specify a file
Emperor mode
uWSGI can run in ‘emperor’ mode. In this mode it keeps an eye on a directory of uWSGI config files, and will spawn instances (‘vassals’) for each one it finds.
Whenever a config file is amended, the emperor will automatically restart the vassal.
# create a directory for the vassals
sudo mkdir /etc/uwsgi
sudo mkdir /etc/uwsgi/vassals
# symlink from the default config directory to your config file
sudo ln -s /path/to/your/mysite/mysite_uwsgi.ini /etc/uwsgi/vassals/
# run the emperor
uwsgi --emperor /etc/uwsgi/vassals --uid www-data --gid www-data
You may need to run uWSGI with sudo:
sudo uwsgi --emperor /etc/uwsgi/vassals --uid www-data --gid www-data
The options mean:
emperor
: where to look for vassals (config files)uid
: the user id of the process once it’s startedgid
: the group id of the process once it’s started
Check the site; it should be running.
Make uWSGI startup when the system boots
The last step is to make it all happen automatically at system startup time.
Edit /etc/rc.local
and add:
/usr/local/bin/uwsgi --emperor /etc/uwsgi/vassals --uid www-data --gid www-data
before the line “exit 0”.
And that should be it!
Further configuration
It is important to understand that this has been a tutorial, to get you started. You do need to read the nginx and uWSGI documentation, and study the options available before deployment in a production environment.
Both nginx and uWSGI benefit from friendly communities, who are able to offer invaluable advice about configuration and usage.
nginx ^^^^^
General configuration of nginx is not within the scope of this tutorial though you’ll probably want to it to listen on port 80, not 8000, for a production website.
You also ought to consider at having a separate server for non-Django serving, of static files for example.
uWSGI ^^^^^
uWSGI supports multiple ways to configure it. See uWSGI's documentation
and
examples
.
Some uWSGI options have been mentioned in this tutorial; others you ought to look at for a deployment in production include (listed here with example settings):
env = DJANGO_SETTINGS_MODULE=mysite.settings # set an environment variable
pidfile = /tmp/project-master.pid # create a pidfile
harakiri = 20 # respawn processes taking more than 20 seconds
limit-as = 128 # limit the project to 128 MB
max-requests = 5000 # respawn processes after serving 5000 requests
daemonize = /var/log/uwsgi/yourproject.log # background the process & log
Copy From:
https://github.com/unbit/uwsgi-docs/blob/master/tutorials/Django_and_nginx.rst