Difference between revisions of "Django"

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: The reason why we are creating a new «requirement» file is because we are going to add a custom state to our Docker Compose so we only install these development requirements when we are building an image for our local development server. This is because we don't need the «flake8» package when we will deploy our application. We only need Linting for development.
 
: The reason why we are creating a new «requirement» file is because we are going to add a custom state to our Docker Compose so we only install these development requirements when we are building an image for our local development server. This is because we don't need the «flake8» package when we will deploy our application. We only need Linting for development.
  
: '''<code>requirements.dev.txt</code>''':
 
 
<blockquote>
 
<blockquote>
 +
'''<code>requirements.dev.txt</code>''':
 
<syntaxhighlight lang="bash">
 
<syntaxhighlight lang="bash">
 
flake8>=3.9.2,<3.10
 
flake8>=3.9.2,<3.10

Revision as of 17:35, 6 May 2023

https://www.djangoproject.com/


Udemy course: Build a Backend REST API with Python Django - Advanced
In this course we build a Recipe REST API
https://www.udemy.com/course/django-python-advanced/


Techologies used in this course:

API Features:

Structure of the project:

  • Django: allows handle URL Mappings / Object Relational Mapper / Admin site
  • Django REST Framework: Django add-on / Build REST APIs
  • PostgresSQL
  • Docker
  • Git / Github
  • Swagger: Documentation / Browsable API (testing)
  • 19 API Endpoints
Managing users, recipes, tags, ingredients
  • User Authentication
  • Browseable Admin Interface (Django Admin)
  • Browsable API (Swagger)
  • app/ : Main app - Django project
  • app/core/ : Hangle any code shared between multiple apps. Such as the DB definition using the Django modules
  • app/user/ : User related code. Such as User registration & auth tokens
  • app/recipe/ : Recipe related code. Such as handling updating ingredients - Creating/Deleting/Udating recipes


Course structure


Recipe REST API-Techologies.png


Swagger browsable API



Docker

Some benefits of using Docker Docker#Why use Docker

Drawbacks of using Docker in this project: (Not sure if these limitations are still in place)

  • VSCode will be unable to access interpreter
  • More Difficult to use integrated features, such as the Interactive debugger and the Linting tools.



How will be used Docker in this project:

  • Create a Dockerfile: This is the file that contains all the OS level dependencies that our project needs. It is just a list of steps that Docker use to create an image for our project:
  • Firs we choose a base image, which is the Python base image provided for free in DockerHub.
  • Install dependencies: OS level dependencies.
  • Setup users: Linux users needed to run the application
  • Create a Docker Compose configuration docker-compose.yml: Tells Docker how to run the images that are created from our Docker file configuration.
We need to define our "Services":
  • Name (We are going bo be using the name app)
  • Port mappings
  • Then we can run all commands via Docker Compose. For example:
docker-compose run --rm app sh -c "python manage.py collectstatic"
  • docker-compose runs a Docker Compose command
  • run will start a specific container defined in config
  • --rm: This is optional. It tells Docker Compose to remove the container ones it finishes running.
  • app : This is the name of the app/service we defined.
  • sh -c pass in a shell command



Docker Hub

https://hub.docker.com/

Docker Hub is a cloud-based registry service that allows developers to store, share, and manage Docker images. It is a central repository of Docker images that can be accessed from anywhere in the world, making it easy to distribute and deploy containerized applications.

Using Docker Hub, you can upload your Docker images to a central repository, making it easy to share them with other developers or deploy them to production environments. Docker Hub also provides a search function that allows you to search for images created by other developers, which can be a useful starting point for building your own Docker images.

Docker Hub supports both automated and manual image builds. With automated builds, you can connect your GitHub (using Docker on GitHub Actions) or Bitbucket repository to Docker Hub and configure it to automatically build and push Docker images whenever you push changes to your code. This can help streamline your CI/CD pipeline and ensure that your Docker images are always up-to-date.


Docker Hub has introduced rate limits:

  • 100 pulls/6hr for unauthenticated users (applied for all users)
  • 200 pulls/6hr for authenticated users (for free)
So, we have to Authenticate with Docker Hub: Create an account / Setup credentials / Login before running job.



Docker on GitHub Actions

Docker on GitHub Actions is a feature that allows developers to use Docker containers for building and testing their applications in a continuous integration and delivery (CI/CD) pipeline on GitHub.

With Docker on GitHub Actions, you can define your build and test environments using Dockerfiles and Docker Compose files, and run them in a containerized environment on GitHub's virtual machines. This provides a consistent and reproducible environment for building and testing your applications, regardless of the host operating system or infrastructure.

Docker on GitHub Actions also provides a number of pre-built Docker images and actions that you can use to easily set up your CI/CD pipeline. For example, you can use the "docker/build-push-action" action to build and push Docker images to a container registry, or the "docker-compose" action to run your application in a multi-container environment.

Using Docker on GitHub Actions can help simplify your CI/CD pipeline, improve build times, and reduce the risk of deployment failures due to environmental differences between development and production environments.



Unit Tests and Test-driven development (TDD)

See explanation at https://www.udemy.com/course/django-python-advanced/learn/lecture/32238668#notes


Unit Tests: Code which test code. It's usually done this way:

  • You set up some conditions; such as inputs to a function
  • Then you run a piece of code
  • You check outputs of that code using "assertions"



Test-driven development (TDD)

TDD process
TDD



Setting the development environment

https://www.udemy.com/course/django-python-advanced/learn/lecture/32238710#overview

  • Go to https://github.com and create a repository for the project and clone it into your local machine. See GitHub for help:

https://github.com/adeloaleman/django-rest-api-recipe-app

git clone git@github.com:adeloaleman/django-rest-api-recipe-app.git



  • Go to DockerHub https://hub.docker.com : login into your account. Then go to Account settings > Security > New Access Token:
  • Access token description: It's good practice to use the name of your github project repository: django-rest-api-recipe-app
  • Create and copy the Access token.
  • This Token will be used by GitHub to get access to you DockerHub account and build the Docker container.



  • New repository secret: First we add the user:
  • Name: DOCKERHUB_USER
  • Secret: This must be your DockerHub user. In my case (don't remember why is my C.I.): 16407742
  • Then we click again New repository secret to add the token:
  • Name: DOCKERHUB_TOKEN
  • Secret: This must be the DockerHub Access token we created at https://hub.docker.com: ***************
  • This way, GitHub (through Docker on GitHub Actions) is able to authenticate and gets access to DockerHub to build the Docker container.



  • Go to your local project's directory and create requirements.txt
Django>=3.2.4,<3.3
djangorestframework>=3.12.4,<3.13

This tells pip that we want to install at least version 3.2.4 (which is the last version at the moment of the course) but less than 3.3. This way we make sure that we get the last 3.2.x version. However, if 3.3 is released, we want to stay with 3.2.x cause this important version change could introduce significant changes that may cause our code to fail"



  • Go to your local project's directory and create Dockerfile
FROM python:3.9-alpine3.13
LABEL maintainer="adeloaleman"

ENV PYTHONUNBUFFERED 1

COPY ./requirements.txt /tmp/requirements.txt           # This copy the file into the Docker container
COPY ./requirements.dev.txt /tmp/requirements.dev.txt
COPY ./app /app
WORKDIR /app                                            # This is the default directory where our commands are gonna be run when we run commands on our Docker image
EXPOSE 8000                                             # This is the port we are going to access in our container

ARG DEV=false
RUN python -m venv /py && \                             # Creates a virtual env. Some people says it's not needed inside a Container
    /py/bin/pip install --upgrade pip && \              # Upgrade pip 
    /py/bin/pip install -r /tmp/requirements.txt && \   # Install our requirements
    if [ $DEV = "true" ]; \
        then /py/bin/pip install -r /tmp/requirements.dev.txt ; \
    fi && \
    rm -rf /tmp && \            # rm /tmp cause it's not needed anymore
    adduser \                   # We add this user because it's good practice not to use the root user
        --disabled-password \
        --no-create-home \
        django-user

ENV PATH="/py/bin:$PATH"        # This is to avoid specify /py/bin/ every time that we want to run a command from our virtual env

USER django-user                # Finally, we switch the user. The above commands were run as root but in the end, we switch the user so commands executed later will be run by this user

python:3.9-alpine3.13 : This is the base image that we're gonna be using. It is pulled from Docker Hub.
python is the name of the image and 3.9-alpine3.13 is the name of the tag. alpine is a light version of Linux. It's ideal to build Docker containers cause it doesn't have any unnecessary dependencies, which makes it very light and efficient..
You can find all the Images/Tags at https://hub.docker.com



  • .dockerignore : We want to exclude any file that Docker doesn't need to be concerned with
# Git
.git
.gitignore

# Docker
.docker

# Python
app/__pycache__/         # We want to exclude this because it could cause issues. The __pycache__ that is created in our local machine, 
app/*/__pycache__/       # would maybe be specifically for our local OS and not for the container OS
app/*/*/__pycache__/
app/*/*/*/__pycache__/
.env/
.venv/
venv/



  • Then we create the app directory inside our project directory
mkdir app



  • At this point we can test building our image. For this we run:
docker build .



  • docker-compose.yml
version: "3.9"       # This is the version of the Docker Compose syntax. We specify it in case Docker Compose release a new version of the syntaxw

services:            # Docker Compose normally consists of one or more services needed for our application
  app:               # This is the name of the service that is going to run our Dockerfile  
    build:
      context: .     # This is to specify the current directory
      args:
        - DEV=true
    ports:           # This maps port 8000 in our local machine to port 8000 in our Docker container
      - "8000:8000"
    volumes:      
      - ./app:/app
    command: >
      sh -c "python manage.py runserver 0.0.0.0:8000"
  • - ./app:/app : This maps the app directory created in our local machine with the app directory of our Docker container. We do this because we want the changes made in our local directory to be reflected in our running container in real-time. We don't want to rebuild the Container every time we change a line of code.
  • command: > : This is going to be the command to run the service. That is to say, the command that «docker-compose» run by default. I'm not completely sure but I think that when we run «docker-compose»; it actually runs the command specified here. We can override this command by using «docker-compose run...», which is something we are going to be doing often.



  • Then we run in our project directory:
docker-compose build



  • Now we are going to add Linting:

Linting is running a tool that test our code formatting. It highlights herror, typos, formatting issues, etc. We are going to be handling Linting like this:

  • Install flake8 package. To do so, create the file requirements.dev.txt.
The reason why we are creating a new «requirement» file is because we are going to add a custom state to our Docker Compose so we only install these development requirements when we are building an image for our local development server. This is because we don't need the «flake8» package when we will deploy our application. We only need Linting for development.

requirements.dev.txt:

flake8>=3.9.2,<3.10


  • Run flake8 through our Docker Compose:
docker-compose run --rm app sh -c "flake8"

f



  • For the Unit Testing we are going to use Django test suite:
  • We're going to setup Tests for each Django app that we create
  • Run the Tests through Docker Compose:
docker-compose run --rm app sh -c "python manage.py test"



  • ...:
docker-compose run --rm app sh -c "django-admin startproject app ."

docker-compose up