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Idris Rampurawala
Idris Rampurawala

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Deploying Django with Celery and Redis on Ubuntu

Most of the time we sort of think about project deployment difficulties before even implementing the project itself. My aim in writing this post is to show how easy it is to deploy a Django project on a Linux machine.

Django's primary deployment platform is WSGI, the Python standard for web servers and applications. The art of running Django includes tools such as Nginx, Gunicorn, virtualenv, Supervisor. Without much ado, let's get rolling!


Before we even begin, let us understand what environment we will be using for the deployment.

  • Operating System - Ubuntu 16.04.6 LTS (AWS AMI)
  • Python 3.7.3 (Check this link to install the latest version)


We will assume that you have root access to the Ubuntu system to install the required packages. We will be using ubuntu user (default that comes with AWS Ubuntu AMI) to perform all of the configurations below.

Secondly, we will also assume that you have a Django project available to clone via Git. Our Django project will require Celery and Redis for background task processing.


  • Your project might not require Celery and Redis and hence you can skip corresponding sections to focus only on Django deployment
  • You might require to install Database or RabbitMQ as per your project which is pretty easy and does not require any server configuration to run apart from installation scripts
  • All the commands will be executed under ubuntu user which has root access, depicted as $ in the commands listed throughout this post. If it has a prefix (myproj_env)$, then the command has to be executed in the virtual environment

To make things simpler, we will divide the process into the following steps:

  1. Installing required packages
  2. Setting up Django project
  3. Installing Redis for Celery
  4. Setting up Gunicorn
  5. Setting up Supervisor
  6. Setting up Nginx

1. Installing required packages

Let's get started by making sure our system is up to date

$ sudo apt-get update

Next is to install some global packages for our application to run (based on your Django project dependencies, you may require additional packages)

$ sudo apt-get install libmysqlclient-dev python3-dev

2. Setting up Django project

  • The first step in setting up any python project is to install a package manager (we will be using pip) and set up a virtual environment. We will be using virutalenv package for the same
# installing pip for Python 3.7
$ curl | sudo -H python3.7
# installing virtualenv
$ sudo pip3 install virtualenv
  • Before we create a virtual environment for our project, let's understand our setup folder structure. By default, Ubuntu will land us to this base folder /home/ubuntu/. To correctly identify our projects on the machine, we will create a webapps folder and create all logs, project folders under it. So our project structure would look like this
# base folder
# under webapps
│---projects                 # Base folder for our project
    │---myproj_env           # Django project virtual environment
    │---myproj               # Django project directory
    │   │
    │   │---Myproj
    │   |---requirements.txt
    logs                     # All our logs would be inside this folder

From above, please note that our project name is myproj(git repo) and virtual environment name is myproj_env

  • Let's create virtual environment in projects folder as stated above
$ cd /home/ubuntu/webapps/projects # create folders if you haven't created
# virutal environment for python 3.7
$ virtualenv -p python3.7 myproj_env
  • Clone our project myproj in projects folder
$ cd /home/ubuntu/webapps/projects
# clone the repository
$ git clone <myproj-git-link>
  • Activate virtual envrionment and install all the dependencies of our project
$ cd /home/ubuntu/webapps/projects
# activate virtual envrionment
$ source myproj_env/bin/activate
# installing project dependencies
(myproj_env)$ cd /home/ubuntu/webapps/projects/myproj
(myproj_env)$ pip install -r requirements.txt
# optionally, check if django is running locally
(myproj_env)$ python runserver

3. Installing Redis for Celery

Celery is an asynchronous task queue/job queue based on distributed message passing. Task queues are used as a mechanism to distribute work across threads or machines. Some of the use-cases of Celery are sending an email, scheduling tasks, asynchronous execution, etc. Celery requires a message transport to send and receive messages such as RabbitMQ, Redis, etc. For simplicity, we will only use Redis that serves our purpose here.

Installing Redis

$ sudo apt-get install redis-server
# check if Redis is working
$ redis-cli ping 
# Autostart Redis on server restart
$ sudo systemctl enable redis-server.service

Celery can be installed in virtual environment of our project which is generally included in project dependency file requirements.txt

4. Setting up Gunicorn

In production, we won't be using Django's single-threaded development server, but a dedicated application server called gunicorn.

Install gunicorn in your application's virtual environment

$ cd /home/ubuntu/webapps/projects
# activate virtual envrionment
$ source myproj_env/bin/activate
# installing gunicorn
$ cd /home/ubuntu/webapps/projects/myproj
(myproj_env):$ pip install gunicorn
# optionally, check if it is running
(myproj_env):$ gunicorn Myproj.wsgi:application --bind 8001
[2019-11-04 04:52:01 +0000] [2010] [INFO] Starting gunicorn 19.9.0
[2019-11-04 04:52:01 +0000] [2010] [INFO] Listening at: (2010)
[2019-11-04 04:52:01 +0000] [2010] [INFO] Using worker: sync
[2019-11-04 04:52:01 +0000] [2013] [INFO] Booting worker with pid: 2013

# make sure you kill Gunicorn process after you have tested to move further

Gunicorn is ready to serve requests for our app. We should now be able to access the Gunicorn server from http://<server-IP-address>:8001. Let's create a Bash script to automatically start the gunicorn server with some custom configurations. We will save this bash script inside our projects folder as gunicorn_start.bash so our folder structure will look like (listing only required folders below)

│---projects                     # Base folder for our project
    │---myproj_env               # Django project virtual environment
        │---run                  # create this folder to hold gunicorn sock file
            │---gunicorn.sock    # just create this empty file 
    │---myproj                   # Django project directory
    │---gunicorn_start.bash      # Gunicorn Bash script

Gunicorn Bash Script

Set the executable bit on the gunicorn_start script

# make sure you are in the projects folder
$ chmod u+x gunicorn_start.bash

Execute the gunicorn bash script and check if it is running

# make sure you are in the projects folder
$ ./gunicorn_start.bash
# make sure you kill Gunicorn process after you have tested to move further

Gunicorn Bash script insights

  • You will need to set the paths and filenames to match your project setup
  • Option --workers (NUM_WORKERS) specifies the worker processes Gunicorn should spawn to handle the traffic. General idea is to set it according to formula - 2 * CPUs + 1
  • If you get error /run/gunicorn.sock: No such file or directory, just create an empty gunicorn.sock in run folder (see our setup folder above)

5. Setting up Supervisor

One of the most important steps is to configure Supervisor. Supervisor is a system that allows its users to monitor and control a number of processes on UNIX-like operating systems. We need to make sure that our server (Gunicorn) starts automatically with the system and that it can automatically restart if for some reason it exits unexpectedly. These tasks can easily be handled by Supervisor.

The server piece of Supervisor is named supervisord and the command-line piece as supervisorctl.

Let's start by installing it

$ sudo apt-get install supervisor

Supervisor works on configuration files (.conf) to manage processes. You will find supervisord.conf in /etc/supervisor in which global settings related to the supervisord process are set. For us to configure our project-related processes, we will create 3 different configuration files at /etc/supervisor/conf.d to manage processes namely:

  1. gunicorn.conf - To manage Gunicorn server that we set up in the previous step to automatically run with help of its bash script
  2. celery_beat.conf - A scheduler that kicks off tasks at regular intervals
  3. celery_worker.conf - A Celery worker that executes the task for celery

Once we save these configuration files, we need to notify supervisor of the change via command-line utility supervisorctl

# for every change in conf file, we need to execute the following commands
$ sudo supervisorctl reread
$ sudo supervisorctl update
$ sudo supervisorctl start all # starting all our processes

Some useful supervisorctl commands

# to check the status of our processes
$ sudo supervisorctl status <program_name|all>
# example
$ sudo supervisorctl status all
celery                           RUNNING   pid 1413, uptime 7:59:29
celerybeat                       RUNNING   pid 1411, uptime 7:59:29
my_proj                          RUNNING   pid 1412, uptime 7:59:29

# to start, stop, restart all or some of the processes
$ sudo supervisorctl start <program_name|all>
$ sudo supervisorctl restart <program_name|all>
$ sudo supervisorctl stop <program_name|all>

6. Setting up Nginx

Already feeling the complexity of setting up Django? Hold on! This is the last step, I promise 😬 Setting up Nginx is easy.

# installing Nginx
$ sudo apt-get install nginx
# optionally execute following command to autostart nginx on system reboot
$ sudo update-rc.d nginx defaults

Lastly, create Nginx configuration file myproj.conf at /etc/nginx/conf.d with following to start serving requests from Nginx to Gunicorn

Restart Nginx and we are done for the day!

$ sudo service nginx restart 

We should be able to access our Django routes from http://<server-IP-address>

Final Words

Congratulations! 👏 We have successfully set up the Django project on Ubuntu along with Celery and Redis. Do not forget to check the Useful Links section to find links to read more about the tools/libraries used in this post.

Useful Links ⭐

Check out my earlier post Configure SSH for git to get rid of entering passwords on every git pull 😎

See ya! until my next post 😋

Discussion (5)

peterpalace profile image

Thank you for this article!
For me, there was an error ([ERROR] Invalid address) regarding the command:
gunicorn Myproj.wsgi:application --bind 8001
I needed to add ":" before the port:
gunicorn Myproj.wsgi:application --bind :8001
Thank you for sharing.

idrisrampurawala profile image
Idris Rampurawala Author

That's strange! Because it didn't require at my side and as per the documentation it is not required.
Good that you were able to figure it out and got your script working! 🎉 🙂

databrown profile image

Hi Idris, I'm getting a spawn Error on the supervisor start my_project (gunicorn.conf) and I can't figure out why.

The start_gunicorn.bash works fine on its own but can't seem to boot under supervisor.

idrisrampurawala profile image
Idris Rampurawala Author

Could you please attach the screenshot of the error here? It will help me in diagnosis.

Secondly, please also check the following:

  • The supervisor configuration is correctly configured as per your project paths
  • Make sure the gunicorn.bash file has been given execution writes.
botreetech profile image
Comment marked as low quality/non-constructive by the community. View Code of Conduct
BoTree Technologies

This is a wonderful article which covers each point in detail. I was searching for something like for a long time. Thank you for sharing. We have also written a similar blog on the topic. You might want to check it out.