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This repository demonstrates a typical front-end UI built with ASP.NET and a complementary back-end API.

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ASP.NET Core Front-end + 2 Back-end APIs on Azure Container Apps

This repository contains a simple scenario built to demonstrate how ASP.NET Core 6.0 can be used to build a cloud-native application hosted in Azure Container Apps. The repository consists of the following projects and folders:

  • Store - A Blazor server project representing the frontend of an online store. The store's UI shows a list of all the products in the store, and their associated inventory status.
  • Products API - A simple API that generates fake product names using the open-source NuGet package Bogus.
  • Inventory API - A simple API that provides a random number for a given product ID string. The values of each string/integer pair are stored in memory cache so they are consistent between API calls.
  • Azure folder - contains Azure Bicep files used for creating and configuring all the Azure resources.
  • GitHub Actions workflow file used to deploy the app using CI/CD.

What you'll learn

This exercise will introduce you to a variety of concepts, with links to supporting documentation throughout the tutorial.

Prerequisites

You'll need an Azure subscription and a very small set of tools and skills to get started:

  1. An Azure subscription. Sign up for free.
  2. A GitHub account, with access to GitHub Actions.
  3. Either the Azure CLI installed locally, or, access to GitHub Codespaces, which would enable you to do develop in your browser.

Topology diagram

The resultant application is an Azure Container Environment-hosted set of containers - the products API, the inventory API, and the store Blazor Server front-end.

Application topology

Internet traffic should not be able to directly access either of the back-end APIs as each of these containers is marked as "internal ingress only" during the deployment phase. Internet traffic hitting the store.<your app>.<your region>.azurecontainerapps.io URL should be proxied to the frontend container, which in turn makes outbound calls to both the products and inventory APIs within the Azure Container Apps Environment.

Setup

By the end of this section you'll have a 3-node app running in Azure. This setup process consists of two steps, and should take you around 15 minutes.

  1. Use the Azure CLI to create an Azure Service Principal, then store that principal's JSON output to a GitHub secret so the GitHub Actions CI/CD process can log into your Azure subscription and deploy the code.
  2. Edit the deploy.yml workflow file and push the changes into a new deploy branch, triggering GitHub Actions to build the .NET projects into containers and push those containers into a new Azure Container Apps Environment.

Authenticate to Azure and configure the repository with a secret

  1. Fork this repository to your own GitHub organization.
  2. Create an Azure Service Principal using the Azure CLI.
$subscriptionId=$(az account show --query id --output tsv)
az ad sp create-for-rbac --sdk-auth --name WebAndApiSample --role contributor --scopes /subscriptions/$subscriptionId
  1. Copy the JSON written to the screen to your clipboard.
{
  "clientId": "",
  "clientSecret": "",
  "subscriptionId": "",
  "tenantId": "",
  "activeDirectoryEndpointUrl": "https://login.microsoftonline.com/",
  "resourceManagerEndpointUrl": "https://brazilus.management.azure.com",
  "activeDirectoryGraphResourceId": "https://graph.windows.net/",
  "sqlManagementEndpointUrl": "https://management.core.windows.net:8443/",
  "galleryEndpointUrl": "https://gallery.azure.com",
  "managementEndpointUrl": "https://management.core.windows.net"
}
  1. Create a new GitHub secret in your fork of this repository named AzureSPN. Paste the JSON returned from the Azure CLI into this new secret. Once you've done this you'll see the secret in your fork of the repository.

    The AzureSPN secret in GitHub

  2. Create a second GitHub secret in your fork of this repository named AZURE_SUBSCRIPTION_ID. Provide the specific Azure subscription you want to impact as the value for this secret. Ocne finished, the two secrets' names will show on the page.

    The AzureSPN and subscription id secrets in GitHub

Note: Never save the JSON to disk, for it will enable anyone who obtains this JSON code to create or edit resources in your Azure subscription.

Deploy the code using GitHub Actions

The easiest way to deploy the code is to make a commit directly to the deploy branch. Do this by navigating to the deploy.yml file in your browser and clicking the Edit button.

Edit the deployment workflow file.

Provide a custom resource group name for the app, and then commit the change to a new branch named deploy.

Create the deploy branch.

Once you click the Propose changes button, you'll be in "create a pull request" mode. Don't worry about creating the pull request yet, just click on the Actions tab, and you'll see that the deployment CI/CD process has already started.

Build started.

When you click into the workflow, you'll see that there are 3 phases the CI/CD will run through:

  1. provision - the Azure resources will be created that eventually house your app.
  2. build - the various .NET projects are build into containers and published into the Azure Container Registry instance created during provision.
  3. deploy - once build completes, the images are in ACR, so the Azure Container Apps are updated to host the newly-published container images.

Deployment phases.

After a few minutes, all three steps in the workflow will be completed, and each box in the workflow diagram will reflect success. If anything fails, you can click into the individual process step to see the detailed log output.

Note: if you do see any failures or issues, please submit an Issue so we can update the sample. Likewise, if you have ideas that could make it better, feel free to submit a pull request.

Deployment success.

With the projects deployed to Azure, you can now test the app to make sure it works.

Try the app in Azure

The deploy CI/CD process creates a series of resources in your Azure subscription. These are used primarily for hosting the project code, but there's also a few additional resources that aid with monitoring and observing how the app is running in the deployed environment.

Resource Resource Type Purpose
storeai Application Insights This provides telemetry and diagnostic information for when I want to monitor how the app is performing or for when things need troubleshooting.
store An Azure Container App that houses the code for the front end. The store app is the store's frontend app, running a Blazor Server project that reaches out to the backend APIs
products An Azure Container App that houses the code for a minimal API. This API is a Swagger UI-enabled API that hands back product names and IDs to callers.
inventory An Azure Container App that houses the code for a minimal API. This API is a Swagger UI-enabled API that hands back quantities for product IDs. A client would need to call the products API first to get the product ID list, then use those product IDs as parameters to the inventory API to get the quantity of any particular item in inventory.
storeenv An Azure Container Apps Environment This environment serves as the networking meta-container for all of the instances of all of the container apps comprising the app.
storeacr An Azure Container Registry This is the container registry into which the CI/CD process publishes my application containers when I commit code to the deploy branch. From this registry, the containers are pulled and loaded into Azure Container Apps.
storelogs Log Analytics Workspace This is where I can perform custom Kusto queries against the application telemetry, and time-sliced views of how the app is performing and scaling over time in the environment.

The resources are shown here in the Azure portal:

Resources in the portal

Click on the store container app to open it up in the Azure portal. In the Overview tab you'll see a URL.

View the store's public URL.

Clicking that URL will open the app's frontend up in the browser.

The product list, once the app is running.

You'll see that the first request will take slightly longer than subsequent requests. On the first request to the page, the APIs are called on the server side. The code uses IMemoryCache to store the results of the API calls in memory. So, subsequent calls will use the cached payload rather than make live requests each time.

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