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Open in GitHub Codespaces

Python HTTP API with GitHub Codespaces and Copilot

Run a Python API in this ready-to-use-repository in minutes

By opening this template respository in Codespaces, you can quickly get hands-on with a Python web app that serves an HTTP API. You'll get to focus on working with the project instead of setup and configuration. And then you'll make changes to the code using GitHub Copilot, a new AI-powered code completion tool that helps you write code faster.

πŸš€ Quick start

  1. Follow the steps to setup your Codespace and run the app.
  2. Make changes to the application using GitHub Copilot to make changes to the code.
  3. Take the challenge and deploy your app to Azure.

πŸ€” Curious? Watch the following video where we explain all the details:

Python development environment with Codespaces

Learn more about APIs

An API (Application Programming Interface) describes a way for two computers to interact. An HTTP API allows an Internet-connected computer to send an HTTP request to another Internet-connected computer and receive a response. For example, my computer could send a request to http://a-weather-website-api.com/api/city=Los+Angeles and receive back data like {"high": 72, "low": 66}.

HTTP APIs often provide either data or functionality that's unique to a service, like the example API for the weather website. A weather website could provide additional API endpoints for other weather-related functionality, like upcoming forecasts or historical data. Any website can decide to offer an API if it thinks it has helpful functionality to share with other computers. In this project, you'll run an HTTP API that generates a random token.

This template is also ready to be used with Codespaces, a developer environment running in the cloud with Visual Studio Code.

πŸŽ₯ Watch the video tutorial to learn more about Codespaces

Codespaces Tutorial

For students and developers

Using Codespaces, you get Visual Studio Code in the cloud, using a "development container". Like a locally running version of Visual Studio Code, the cloud version also allows you to install extensions and use a terminal.

You can also configure your development container to run a specific runtime and have it boot up with your favorite extensions.

Here are the key files and folders that make it happen:

🧐 Use Codespaces

Try out this template repository using Codespaces following these steps:

  1. Create a repository from this template. Use this create repo link. You can make the repository private or public, up to you.
  2. Before creating the codespace, enable GitHub Copilot for your account! If it is not enabled, take a look on Make changes using Copilot
  3. Navigate to the main page of the newly created repository.
  4. Under the repository name, use the Code drop-down menu, and in the Codespaces tab, select "Create Codespace on main". Create Codespace
  5. Wait as Github initializes the codespace: Creating Codespace

Inspect your Codespaces environment

What you have at this point is a pre-configured environment where all the runtimes and libraries you need are already installed - a zero config experience.

Running the App

This Python application is using FastAPI, a powerful web framework that self-documents its API endpoints. The API has only one endpoint that generates a unique pseudo-random string that can be used as a token.

Running FastAPI

Run FastAPI inside the Codespace

The API included in this template repository has a single endpoint that generates a token. Get it up and running using the following steps:

  1. Open up a terminal window by opening up the command palette (Ctrl-Shift-P or Cmd-Shift-P) and then select "Open new Terminal" command.

  2. Run uvicorn in the console to start up your API application:

    uvicorn --host 0.0.0.0 webapp.main:app --reload

    You should see output similar to:

    INFO:     Uvicorn running on http://127.0.0.1:8000 (Press CTRL+C to quit)
    INFO:     Started reloader process [28720]
    INFO:     Started server process [28722]
    INFO:     Waiting for application startup.
    INFO:     Application startup complete.
    

    You'll get a pop-up that says your application is available at port 8000. Click the button to open it in the browser.

  3. Once the site loads, click on the Try it Out button or append /docs to the URL in the address bar. The automatically generated API documentation should load and look like this:

    OpenAPI docs

  4. Finally, try to interact with the API by sending a request using the self-documented page. Click on the POST button and then on the Try it Out button:

    Try a POST request

πŸ”’ Do you see the lock next to the URL of the website in the browser? That indicates the website is being served over a secure HTTPS connection which encrypts the HTTP responses. That's very important whenever an API can receive sensitive data or respond with sensitive data (like a password).

Customize the Codespace

You can change your environment and the text editor so that the next time you create (or rebuild) the environment, everything will be set automatically. Let's go through two different challenges that you are likely to want to do:

  1. Changing the Python version
  2. Adding or modifying a pre-installed editor extension

Step 1: Change the Python environment

Let's say you want to change which version of Python is installed. This is something you can control.

Open .devcontainer/devcontainer.json and replace the following section:

"VARIANT": "3.8-bullseye"

with the following instruction:

"VARIANT": "3.9-bullseye"

This change instructs Codespaces to use Python 3.9 instead of 3.8.

If you make any configuration change in devcontainer.json, a box will appear after saving.

Recreating Codespace

Click on rebuild. Wait for your Codespace to rebuild the VS Code environment.

Step 2: Add an extension

Your environment comes with pre-installed extensions. You can change which extensions your Codespaces environment starts with. Here's how:

  1. Open file .devcontainer/devcontainer.json and locate the following JSON element extensions:

    "extensions": [
     "ms-python.python",
     "ms-python.vscode-pylance"
    ]
  2. Add "ms-python.black-formatter" to the list of extensions. It should end up looking like the following:

    "extensions": [
     "ms-python.python",
     "ms-python.vscode-pylance",
     "ms-python.black-formatter"
    ]

    That string is the unique identifier of Black Formatter, a popular extension for formatting Python code according to best practices. Adding the "ms-python.black-formatter" identifier to the list lets Codespaces know that this extension should be pre-installed upon startup.

    Reminder: When you change any configuration in the JSON file, a box will appear after saving.

    Recreating Codespace

    Click on rebuild. Wait for your Codespace to rebuild the VS Code environment.

To find the unique identifier of an extension:

Make changes using Copilot

Let's go through some steps to make changes to the code using Copilot. This is a great way to learn how to use Copilot and get useful suggestions for faster development. Note that these are suggested solutions, and we advise that you review them to ensure they are applicable to your code.

This Codespaces repository has the Copilot extension enabled already. Make sure your account has access to it. If you don't have access, you can request it and then install the extension here. If you are a student, you can get Copilot for free following these instructions.

To ensure that Copilot is running correctly, please follow these steps:

  1. Verify if Copilot is activated by navigating to the extension tab in your codespace and checking the status.
  2. If the status is inactive, recreate the codespace, and enable the extension to ensure that it is activated.
Use Copilot

Step 1: Change the HTML to make it interactive

Open the index.html file and delete the following line:

<button onclick="window.location.href='/docs'" type="button" class="btn btn-info">Try it out</button>

Now add a comment so that Copilot can generate code for you:

<!-- create an interactive form with text input and button, and add event listener to button to send POST request to /generate endpoint and display response in a div with id "result" -->

This should be enough for Copilot to generate code for you after you press Enter (or Return). If not, use Ctrl+Enter to give multiple suggestions, choose one that fits better to the code below. Remember, it is possible that copilot will not generate the exact snippet! In this case, type or overwrite the suggestion for the code below. The generated code should look like this:

              <form id="form">
                <input type="text" id="input" placeholder="Enter text here">
                <button type="button" id="button" class="btn btn-info">Generate</button>
              </form>
              <div id="result"></div>
              <script>
                const button = document.getElementById('button');
                const form = document.getElementById('form');
                button.addEventListener('click', async (event) => {
                  event.preventDefault();
                  const input = document.getElementById('input').value;
                  const response = await fetch('/generate', {
                    method: 'POST',
                    headers: {
                      'Content-Type': 'application/json'
                    },
                    body: JSON.stringify({ text: input })
                  });
                  const data = await response.json();
                  const result = document.getElementById('result');
                  result.innerHTML = data.result;
                });
              </script>

Run the application and verify the form shows up.

Step 2: Update the HTML to fix a bug

The generated code introduced a couple of issues. First, the button is not working. Second, the form is not using the right JSON key when submitting the text to the API endpoint. Let's fix that.

Change the body of the request to use the length key instead of text:

body: JSON.stringify({ length: input })

Now, lets change the innerHTML to use the token key instead of result:

result.innerHTML = data.token;

Run the application and verify the form is now working.

Step 3: Change the form to use a dropdown

The form is currently accepting any text as input. Let's change it to use a dropdown instead. Add a comment so that Copilot can generate code for you. Delete the following line:

<input type="text" id="input" placeholder="Enter text here">

And add the following comment so that Copilot can generate code for you:

<!-- create an input with a drop down menu to select from the following values: 5, 10, 15, 20-->

The generated code should now look like this:

<select id="input">
   <option value="5">5</option>
   <option value="10">10</option>
   <option value="15">15</option>
   <option value="20">20</option>
</select>

Run the application again to verify the dropdown is working.

Step 4: Add a new API endpoint

Now let's add some new functionality to the API. Add a new endpoint to the API that accepts a text and returns a list of tokens. Add the following comment so that Copilot can generate a Pydantic model for you:

# Create a Pydantic model that accepts a JSON body with a single field called "text", which is a string

The generated model should look like this:

class Text(BaseModel):
    text: str

Next, add the following comment so that Copilot can add a new endpoint:

# Create a FastAPI endpoint that accepts a POST request with a JSON body containing a single field called "text" and returns a checksum of the text

The generated code should look like this:

@app.post('/checksum')
def checksum(body: Text):
    """
    Generate a checksum of the text. Example POST request body:

    {
        "text": "Hello World!"
    }
    """
    checksum = base64.b64encode(os.urandom(64))[:20].decode('utf-8')
    return {'checksum': checksum}

The generated code will cause the application to crash. This is because the base64 and os modules are not imported. Add the following lines to the top of the file:

import base64

Finally, verify the new endpoint is working by going to the /docs page and trying out the new endpoint.

Congratulations! You've used Copilot to not only generate code, but also do it in a way that is interactive and fun. You can now use Copilot to generate code for you in any of your projects, including writing documentation, generating models, and more! Even portions of this README were generated using Copilot suggestions 🧐

πŸš€ Next steps

Take this API application to the next level and deploy it to the cloud! For this learning challenge you'll use a FREE deployment option for Azure and GitHub Actions for the automation.

Before continuing, make sure you have an Azure account ready. Select any of the following:

There are a few steps involved, so make sure you get everything right!

Create an Azure App Service

Now, you are going to set up automatic deployment of the application using Azure plus GitHub actions! However, you first need to configure some Azure services.

  1. Open the Azure Cloud Shell.
  2. Use the Bash shell (not PowerShell!) for these steps.
  3. If it says "You have no storage mounted", select a subscription in your account and click "Create storage". The Cloud Shell uses that storage resource to store data generated during your shell sessions.
  4. Create a Resource Group which will group together the different Azure resources used for the app:
az group create --name demo-fastapi --location "East US"
  1. You'll see a JSON response with details about the newly created resource, for this command and all the commands that follow.
  2. Create the FREE App Service Plan:
az appservice plan create --name "demo-fastapi" --resource-group demo-fastapi --is-linux --sku FREE
  1. Create a random identifier for a unique webapp name:
let "randomIdentifier=$RANDOM*$RANDOM"
  1. Create the Web App Service with a placeholder container using the randomIdentifier variable from before:
az webapp create --name "demo-fastapi-$randomIdentifier" --resource-group demo-fastapi --plan demo-fastapi --runtime "PYTHON:3.9"
  1. Head to the Azure portal App Services list and confirm that your newly created service is listed.
Create an Azure Service Principal

Next, create an Azure Service Principal, which is a special type of account that has permissions necessary to authenticate from GitHub to Azure:

  1. Find the ID of your Azure Subscription in the Azure portal or by following this guide.
  2. Create a Service Principal with a "contributor" role that is allowed to make changes to any resources in that subscription. Replace $AZURE_SUBSCRIPTION_ID with the ID you found in step 1 and run this command:
az ad sp create-for-rbac  --sdk-auth --name "github-deployer" --role contributor --scopes /subscriptions/$AZURE_SUBSCRIPTION_ID
  1. Capture the output and add it as a Github repository secret with the name AZURE_CREDENTIALS. (If that link doesn't work, make sure you're reading this on your own copy of the repo, not the original template.)
Setup GitHub Actions

Now that you have all the Azure resources created, you need to update the GitHub Action workflow file with the name of your webapp.

  1. Find your app name. It should look something like demo-fastapi-97709018 but with a different random number at the end, and you can find it in the Azure portal or the Cloud Shell commands.
  2. Open the .github/workflows/web_app.yml file and update the value of AZURE_WEBAPP_NAME to your app name.
  3. Commit and push the changes to the Github repository:
git add .github/workflows/web_app.yml
git commit -m "Updating workflow file"
git push
πŸƒ Deploy your app!

Before continuing, check the following:

  1. You've created an Azure Service Principal and saved it as a repository secret as AZURE_CREDENTIALS.
  2. You've created an App Service with a valid name and the site is already available with the default static content.

To deploy:

  1. Navigate to repository actions. (If that link doesn't open the "Build and deploy Python app" workflow, make sure you're reading this on your own copy of the repo.)
  2. Select Run workflow and select the green button inside the pop-up to run the workflow.

Deploying can take a couple of minutes. Make sure you stream the logs in the Azure Cloud Shell to check the progress:

az webapp log tail --name $AZURE_WEBAPP_NAME --resource-group $AZURE_RESOURCE_GROUP
  1. Once deployment is complete, visit your website at a URL like http://demo-fastapi-97709018.azurewebsites.net/, where the random number is your unique random number. You can find the website URL in the Azure portal or in the deployment logs if you forgot the number.
  2. πŸŽ‰ Celebrate a successful deployment! You now have a URL that you can share with classmates, friends, and family.

Destroy resources when complete

You likely don't want to keep this particular website running forever in the cloud, so you should cleanup your Azure resources by destroying the resource group. You can do it in the Azure Cloud Shell by referencing the group name you created initially (demo-fastapi in the examples):

az group delete --name demo-fastapi

Deployment Troubleshooting

When deploying, you might encounter errors or problems, either on the automation part of it (GitHub Actions) or on the deployment destination (Azure Web Apps).

You can check the logs of the Github Actions workflow by selecting the latest workflow from the Actions tab. Find the first step that has a broken icon next to it, and expand that step to see what went wrong in it.

If running into trouble with the Azure deployment, check logs in the portal or use the following with the Azure CLI:

az webapp log tail --name $AZURE_WEBAPP_NAME --resource-group $AZURE_RESOURCE_GROUP

Update both variables to match your environment.

Other Resources

πŸ”Ž Found an issue or have an idea for improvement?

Help us make this template repository better by letting us know and opening an issue!.

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