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Azure for Developers
Azure for Developers

Azure for Developers: Implement rich Azure PaaS ecosystems using containers, serverless services, and storage solutions , Second Edition

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Azure for Developers

Web Applications in Azure – Azure App Service

Azure App Service is one of the biggest and most used services available in the Azure cloud. It allows the easy development of web applications with multiple features available (such as support for different platforms, including .NET, PHP: Hypertext Preprocessor (PHP), and Java), manual and automated scaling, and different performance options. It's a general platform and runtime that fuels other services, such as WebJobs and Azure Functions. This chapter is designed to get you familiar with the basics of web development in Microsoft Azure.

In this chapter, you will learn about the following topics:

  • Creating and deploying an Azure App Service resource
  • Working with different operating systems and platforms
  • Choosing the right App Service plan and exploring what its features are
  • Securing App Service resources using different security providers
  • Configuring networking for Azure App Service

Technical requirements

To perform the exercises in this chapter, you will need the following:

Creating and deploying an Azure App Service resource

To get started with Azure App Service, you must learn how to create that service and deploy your code. Throughout the chapter, you will see how many ways Azure provides for doing so. Depending on your current needs and the specification of your application, each path can be easier or harder; still, the strength of a cloud and Platform-as-a-Service (PaaS) offering lies in the straightforward and intuitive process of provisioning new components of your system.

Note

PaaS is one of the several cloud infrastructure models available. In general, it stands between Infrastructure-as-a-Service (IaaS) and Software-as-a-Service (SaaS), offering a balance between the ability to manage underlying infrastructure and abstraction over used components.

Let's now check the different ways to deploy your very first Azure App Service resource.

Creating an Azure App Service resource using the Azure portal

To begin, you will deploy your service using the Azure portal. All you will need is a browser with access to the internet. Enter https://portal.azure.com to get started.

Selecting Azure Web Apps from the available services

To create an Azure App Service resource in the Azure portal, you must first find the option to do so in the list of available services. The easiest way to do so is to click on the + Create a resource button and then click on Web App, as shown in the following screenshot:

Figure 1.1 – Create a resource screen

Figure 1.1 – Create a resource screen

Alternatively, you can utilize the search box at the top of the screen to quickly access any service, as shown in the following screenshot:

Figure 1.2 – Searching for a resource via the search box

Figure 1.2 – Searching for a resource via the search box

As you can see, the Azure portal already displays the most popular services. If for some reason the Web App/App Service resource is not displayed, use the search box by entering the name of a service you are looking for.

When you click on the Web App item, you will see the first step of a resource creator, which will guide you through the process of provisioning your application. Now, we will go through all the steps and describe in detail the different parameters that are available to you.

Tip

Here, we are using the raw version of Azure App Service, which comes without any additional tools installed. When you gain more experience and become more familiar with the available services, you will see that Azure offers many useful preconfigured setups (such as an integrated Web Apps and Structured Query Language (SQL) Database instance), which can be used to shorten development and configure all services in one place.

Configuring an Azure web app

Provisioning any Azure service requires going through creators consisting of different steps. In general, not all fields will be required. It is worth remembering that all the mandatory parameters are marked with an * (asterisk) symbol.

The first tab available is the Basics tab, which is divided into three different sections: Project Details, Instance Details, and App Service Plan. The very first thing is entering a combination of Subscription and Resource Group details. Remember that in Azure, resources cannot exist in a vacuum—they require a container for logical separation. Here, you can use any combination you have access to (or you were asked to choose). The process is illustrated in the following screenshot:

Figure 1.3 – Project Details section

Figure 1.3 – Project Details section

Next, we have the Instance Details section, which requires a few more details to be provided. Here, we need to enter the name of our web application (it has to be globally unique), the method used to publish it (Code versus Docker Container), and Runtime stack, Operating System, and Region details, as illustrated in the following screenshot. While the Publish/Runtime stack/Operating System parameters seem self-explanatory and depend on your technology stack, let's talk a little bit about regions next:

Figure 1.4 – Instance details section

Figure 1.4 – Instance details section

In Azure, each region represents a co-located set of data centers and directly affects the geographic location of your cloud resources. That also has some legal implications (if you are about to process users' data, it is often forbidden to store it outside the user's origin). Each instance of an Azure service must be deployed to one of the available regions.

Tip

One of Azure's best practices is to deploy resources to the same region as the resource group they are in. This allows for the best performance and reliability.

The last section of the Basics tab is App Service Plan. Since you are just starting with Azure, you probably do not have any App Service plans created. As we cannot create an App Service resource without an App Service plan, we will sort this now. Note that if you have an existing App Service plan, the Azure portal may automatically choose it here based on the chosen region. It will also generate a random name if there is no App Service plan available.

Creating an App Service plan

When you click on Create new, you will see a popup allowing you to enter the plan name. Click on it, enter the name of your new plan, and then click the OK button. It should look like this:

Figure 1.5 – Configuring an App Service plan

Figure 1.5 – Configuring an App Service plan

The last thing required here is to select the Sku and size option. This parameter will directly affect the features available for your web application, its performance, and finally, the price. To make a choice, click on Change size. Now, the Spec Picker screen should appear, presenting you with the options available, as illustrated in the following screenshot:

Figure 1.6 – Spec Picker for App Service plan

Figure 1.6 – Spec Picker for App Service plan

As you can see in the preceding screenshot, we have three categories of App Service plans, as follows:

  • Dev / Test: This contains F, D, and B tiers (which stand for free, shared, and basic). They are designed for simple development/test (dev/test) scenarios and lightweight web applications that do not need features such as autoscaling or backups. Note that the shared tier is unavailable for Linux.
  • Production: This offers powerful machines and advanced features that are useful in many day-to-day scenarios, such as application programming interfaces (APIs), e-commerce, and popular portals.
  • Isolated: This uses the same hardware as the Production tier, but with even more features and possibilities to isolate your web apps on the hardware level. This is the most expensive category but can be helpful when creating systems that cannot be made available publicly.

Tip

It is important to remember that tiers F and D have a limited amount of computing time per day. That means that once you exceed the limit (60 minutes for the F tier, and 240 minutes for the D tier) of your processing time, your application will become unavailable and be suspended until the next day.

For this exercise, let's select any tier from the Dev / Test category. Once you are satisfied with the option you've selected, you can click the Apply button. My configuration, for example, looks like this:

Figure 1.7 – Configure App Service plan with a free tier

Figure 1.7 – Configure App Service plan with a free tier

Tip

Remember that you can always upgrade (or scale up) the instance of your App Service plan. For example, if you need a specific feature, or the popularity of your application has grown, revisit the Spec Picker screen and choose the options that suit you the most. This is one of the biggest advantages of cloud over on-premises, where you would have to buy and set up new machines on your own.

Now, you can click Next: Deployment (Preview), which will bring us to the next tab in our creator, as follows:

Figure 1.8 – Deployment tab

Figure 1.8 – Deployment tab

This tab allows us to configure the Continuous deployment setting for our application using GitHub Actions. Unfortunately, that kind of automated deployment is beyond the scope of this book. If you want to learn more, you can read about it here: https://docs.microsoft.com/en-us/azure/app-service/deploy-github-actions?tabs=applevel. For now, we can skip this and click the Next: Monitoring button to enable monitoring of our Web Apps resource using Azure Application Insights, as illustrated in the following screenshot:

Figure 1.9 – Monitoring tab

Figure 1.9 – Monitoring tab

Here, depending on the platform we chose, we can decide whether we want to enable monitoring by choosing the Yes option. Unfortunately, because my choice was Linux, the creator disables that for me (although it will be available to you if you selected Windows). Azure Application Insights will be described in detail further in this book, so to keep things simple, let's choose No.

We will skip the last tab, Tags, for now, so the only thing left is to click on the Review + create button and, after confirming all the details are correct, click on Create. If Azure detects that something is wrong with your input, it will highlight all the invalid fields and block the process of provisioning a resource.

Now, wait several seconds for the creation of a new resource. During this time, Azure will validate the template and parameters, and orchestrate multiple underlying controllers to create a service. Once a new resource is created, you should see a notification and be able to see your resources. To quickly validate this, click on the All resources button on the left and filter all of them using, for example, the name of the App Service resource you have created. The process is illustrated in the following screenshot:

Figure 1.10 – Created App Service plan visible in the Azure portal

Figure 1.10 – Created App Service plan visible in the Azure portal

Let's now switch our focus to creating an Azure App Service resource using a different toolset.

Creating an Azure App Service resource using Visual Studio

If you do not want to create your web apps using the Azure portal, you can use Microsoft Visual Studio, which has built-in integration for many different Azure services. As Visual Studio is an integrated development environment (IDE) designed mostly for .NET application development, all the exercises will use .NET as a development platform. For a more generic approach, please look at the next section, where we will describe working with VS Code as an alternative.

Note

This exercise was created using Microsoft Visual Studio Community 2019 (16.8.4) with Azure workloads installed. If you want to configure your instance and ensure everything is set up correctly, please follow the short tutorial available at https://docs.microsoft.com/en-us/dotnet/azure/configure-visual-studio.

In Visual Studio, click on File | New | Project. This will display a Create a new project window, where you can find plenty of different templates for starting with a new application. Because we are aiming at deploying a web application, let's choose a template for ASP.NET Core Web Application, as illustrated in the following screenshot:

Figure 1.11 – Creating a new project in Visual Studio

Figure 1.11 – Creating a new project in Visual Studio

When a template is selected, click on the Next button in the bottom-right corner of the window. All that's left to do now is enter a project name and its location on our hard drive, as follows:

Figure 1.12 – Configuring a new project

Figure 1.12 – Configuring a new project

Enter any name you feel works for you and select a location where the files will be created. When everything is ready, click the Create button. The last step is choosing a template for this application. To make things easier, we will go for Web Application as this will give us some content to work with. You can see the available templates in the following screenshot:

Figure 1.13 – Creating an ASP.NET application

Figure 1.13 – Creating an ASP.NET application

Tip

You have probably noticed an Authentication section, which I have not described. It allows you to select the method used for authenticating access to your web application. We will cover that feature in the Securing App Service resources using different security providers section.

Let's leave all other options with their default values and click Create. After several seconds, Visual Studio should generate your new application, which is ready to work. To ensure that everything is correct, press the F5 button to run your website locally. After a few seconds, you should see a screen like mine here:

Figure 1.14 – Locally working application

Figure 1.14 – Locally working application

If everything works as expected, there is one question remaining: how can we deploy it to Azure to have our website working in the cloud? Let's go back to Visual Studio for a moment and close the debugger. When you right-click on a project in Solution Explorer, you will see a context menu. There, between various menu options, click on Publish..., as illustrated in the following screenshot:

Figure 1.15 – Context menu of a project

Figure 1.15 – Context menu of a project

As we are building a web application hosted in a cloud environment, our choice for the publish location will be Azure, as illustrated in the following screenshot:

Figure 1.16 – Selecting a publish target

Figure 1.16 – Selecting a publish target

Now, click the Next button to select a particular Azure service used for our deployment. Currently, we are getting started with Azure App Service, so options for containerization will be a no-go. You will learn more about them in the next chapters. However, depending on your desired platform, you can choose between Linux and Windows machines. If you do not have specific requirements related to your hosting environment, I recommend using Linux for our deployment. The Linux service is shown in the following screenshot:

Figure 1.17 – Publish

Figure 1.17 – Publish

Let's click Next one more time. The last step is selecting an actual Azure App Service resource for the application. If you do not have one, look at the beginning of this chapter, where we went through the process of creating one in detail. After selecting the desired instance, use the Finish button to complete deployment. The process is illustrated in the following screenshot:

Figure 1.18 – Specifying a publish target

Figure 1.18 – Specifying a publish target

Note

If you do not see any Azure subscription, you may need to authenticate first to your cloud environment. Use the dropdown in the top right of the Publish window to select an alternative account or sign in to a new one.

Before Visual Studio sends our files, it will display a summary of the whole process. This is the last moment to reconfigure things such as target framework, deployment mode, or runtime. If everything seems fine, use the Publish button, as illustrated in the following screenshot, to publish the site to the selected Azure App Service resource:

Figure 1.19 – Publish screen summary

Figure 1.19 – Publish screen summary

Once deployment is completed, you should see your web application open automatically on your default browser, as follows:

Figure 1.20 – Working application in Microsoft Azure

Figure 1.20 – Working application in Microsoft Azure

Congratulations! You have just created and deployed your very first App Service resource. If you look at the Uniform Resource Locator (URL), you'll see that it contains the name you set in the Visual Studio wizard. All web apps in Azure can be accessed using the following URL format: http(s)://{appservicename}.azurewebsites.net.

This also explains why a name must be unique: since, by default, all web applications hosted as Azure Web Apps resources are available publicly, you must select a name that is not already in use in another URL. In the next section, we will use the Azure CLI to deploy our application, as an alternative to using Visual Studio.

Deploying Azure App Service resources using the Azure CLI

Using Visual Studio for deployments is a good idea for testing things and for development, but for sure, it cannot be used for deploying production environments. An alternative, which can be also used on our build agents (if you are using a continuous integration/continuous deployment (CI/CD) approach), is to leverage the Azure CLI. As you will see, it allows for a variety of different deployment options that should satisfy most setups.

Deploying Azure App Service resources with a ZIP file

One of the easiest options for deployment is archiving your application package as a ZIP file and sending it to Azure. To use it, you will have to prepare your application using the following structure (this is just an example; in reality, your structure will be more specific to your project):

Root
|---- Dir1
|---- Dir2
| entry_file (index.html / index.php / app.js / …)
| package_management_file (project.json / bower.json / package.json / …)

Tip

Consider using build automation instead of packaging all the dependencies into an archive. This will save both time and bandwidth when deploying an application and will make the process much safer. See the rest of this section for more details.

Once you have described the structure, you can package it using any kind of archiving tool (this can be a desktop application or a CLI command)—the important thing is to have a <filename>.zip archive that we can send using the Azure CLI. To do so, we will need to execute the following command:

az webapp deployment source config-zip --resource-group <group-name> --name <app-name> --src <filename>.zip

You will have to provide the name of your Azure App Service resource, its resource group, and the path to the archive you created. The following screenshot shows the result of running that command:

Figure 1.21 – Result of publishing a web app via Azure CLI

Figure 1.21 – Result of publishing a web app via Azure CLI

Once your code is pushed and extracted, a new version of your application should be available and ready to serve the newest content.

Enabling build automation

A caveat of the preceding method of deployment is the need to prepare all the build artifacts upfront and send them to Azure. There are pros and cons to that approach, as outlined here:

  • You are sending the final structure of your application and there are no additional steps needed, so any kind of process debugging should be minimal.
  • Your application artifacts may be big, which can make the whole process slower as you need to pass all the files and wait until they are uploaded.

As an alternative, you can enable a feature called build automation. This instructs Azure to use your project/package files and run commands such as npm install or dotnet build before running an application. To enable automation, use the following command:

az webapp config appsettings set --resource-group <group-name> --name <app-name> --settings SCM_DO_BUILD_DURING_DEPLOYMENT=true

If you enable automation, remember not to build your application on your side to avoid duplicated work.

Running from the package

There are some caveats of deploying your application as a ZIP file and then extracting files. As it is running, the extraction and overwriting of files may cause some undesired side effects such as locking or partial updates of the content. To avoid such artifacts, you can use a feature called Run from Package. First, you will have to enable the feature using the Azure CLI, like this:

az webapp config appsettings set --resource-group <group-name> --name <app-name> --settings WEBSITE_RUN_FROM_PACKAGE="1"

Then, we can once again use the command you are already familiar with, as shown here:

az webapp deployment source config-zip --resource-group <group-name> --name <app-name> --src <filename>.zip

Because Run from Package is enabled, instead of extracting your files, Azure App Service will mount the whole package as a read-only directory and run your application from it. As the application will be restarted, all the side effects should be mitigated.

Creating Azure App Service resources using VS Code

Microsoft Visual Studio is not the only available IDE that allows you to work with Azure App Service resources. Because this Azure service supports different technology stacks, including .NET, JavaScript (JS), PHP, Java, and so on, you can easily leverage its capabilities to host different websites using different runtimes. For instance, let's assume that we have the following PHP code that displays a Hello World message:

<?php
echo('Hello world from Azure App Service - PHP here!');
?>

Such a simple PHP application can be easily created in any available IDE that supports the PHP language. For this exercise, I chose VS Code, an open source editor, as it can easily be extended using many different plugins. As you can see in the following screenshot, all you need is a single file within your project directory:

Figure 1.22 – PHP project structure

Figure 1.22 – PHP project structure

To make things easier, you can install the following extensions:

Figure 1.23 – Extensions screen in VS Code

Figure 1.23 – Extensions screen in VS Code

With the Azure App Service plugin installed, you will be able to easily deploy your applications from within the IDE, without the need to go to the portal or use other methods.

Note

Before the first use of these extensions, you may need to authenticate them. Follow the displayed instructions, and VS Code will connect to your subscriptions.

Before we deploy our simple PHP application, we must create an Azure App Service resource. Go to the AZURE tab (you can also use the Ctrl + Shift + A shortcut) and find the APP SERVICE section. After that, click on the Create New Web App... button, as illustrated in the following screenshot:

Figure 1.24 – AZURE extension tab with app services

Figure 1.24 – AZURE extension tab with app services

The wizard is a little bit different than in Microsoft Visual Studio, as it acts similarly to a command line, where you provide all fields and information one after another. In VS Code, you will have to enter the following:

  • Subscription where an app should be deployed
  • The Azure App Service resource name
  • Runtime stack (.NET/Node.js/Python/PHP/Ruby/Java)
  • App Service plan tier

Note

Using the creator described previously will not give the option to select a resource group and other, more advanced settings. If you want to have full control over the provisioning process, use Command Palette (Ctrl + Shift + P) and search for the Azure App Service: Create New Web App (advanced) option.

In this example, I specified the following:

  • Name: handsonchapter01-code
  • PHP 8.0
  • Free tier

Once the provisioning is complete, VS Code will ask you whether to deploy the application. Select Deploy, and then choose a folder to deploy from, as illustrated in the following screenshot:

Figure 1.25 – Selecting a folder to deploy from

Figure 1.25 – Selecting a folder to deploy from

Next, you will have to select a subscription and the exact instance of the web application in Azure (VS Code may not ask you for that input if it saved your previous choices). The following screenshot illustrates this:

Figure 1.26 – Selecting a web app as a deployment target

Figure 1.26 – Selecting a web app as a deployment target

Select the instance and confirm the new deployment. Once everything is set and ready, you will see a notification informing you that you are now able to browse the website, as illustrated in the following screenshot:

Figure 1.27 – Deployment confirmation

Figure 1.27 – Deployment confirmation

When you click on the Browse Website button, you will be forwarded to the web application you have just deployed. Here, you can see a working example:

Figure 1.28 – Working application in Azure

Figure 1.28 – Working application in Azure

Note that this extension allows you to directly manage the service from within the IDE and gives you access to different features, including application settings, deployment slots, and even streaming logs.

The important thing here is that by using the same path, you will be able to host a variety of different runtimes inside different Azure App Service resources. It doesn't matter whether it is a Java application, a Python script, or a Node.js backend—they are all supported and can be easily developed using IDEs such as VS Code.

Working with different operating systems and platforms

Currently, App Service supports a couple of different configurations when it comes to selecting the operating system, runtime, and platform. Here are some of the possible options for running your website using App Service:

  • .NET Core 2/3
  • .NET 5/6
  • ASP.NET 3.5/4.8
  • Node.js 12/14
  • PHP 7/8
  • Java 8/11
  • Python 3
  • Static HyperText Markup Language (HTML) website

Additionally, you can select a platform (32-bit or 64-bit), the HyperText Transfer Protocol (HTTP) version (1.1 or 2.0), an underlying operating system (Windows, Linux, or container), or even a Java web server powering your website. Let's start by selecting a proper operating system for our application.

Selecting an operating system

To select an operating system to run your web app, we must create a new application in Azure. Currently, there is no possibility to change this setting after an App Service resource is created.

Note

Be careful when planning to deploy web applications using different operating systems to the same resource group because of some hardware limitations—for example, once a Linux Azure App Service plan is deployed, you cannot create a Windows one next to it. You will need an additional resource group for that.

To create a new website, go to the beginning of this chapter, where we discussed the way to deploy a web application using the Azure portal. Once you see the creator, look at the Basics tab. The Instance Details section presents the information we are interested in, as follows:

  • Publish: This offers a way to deploy code or a Docker container. Choosing the Docker Container option will hide the Runtime stack parameter as it is no longer valid.
  • Operating System: You can select either Windows (which is the most common option for .NET applications, suitable for running .NET Framework, Java, Node.js, or PHP sites) or Linux, which can be used for running an application written in .NET Core. Additionally, you can run Java, Node.js, PHP, and Python applications as well.
  • Runtime stack: Depending on your technology stack, here, you can select exactly what you need to get started with your application.

The choice is yours. Each operating system has different characteristics: Linux is perfect for running Python applications, as Windows has some performance issues regarding this language; on the other hand, you may have many websites written in .NET Framework, which is optimized for Windows systems. Each of the operating system options also has different pricing. Let's compare Windows and Linux here, assuming the West Europe region is chosen:

Figure 1.29 – App Service plan pricing comparison

Figure 1.29 – App Service plan pricing comparison

As you can see, there are some differences between these two operating systems. More importantly, Linux does not currently support the Shared tier. The Isolated tier is something you should consider if in need of hardware isolation or strict network connectivity requirements. When you have considered all the pros and cons, you can create an App Service resource powered by the operating system of your choice.

Selecting different platforms

In the previous section, you learned how to choose a proper operating system for your application. This is, of course, not everything needed to run a website—you must also enable a specific language if you want to deploy (for example, PHP code). To do so, go to your App Service resource (you have many options by which to do this: either choose App Service from the Azure portal menu on the left and select your Web App resource or go to the resource group you created by choosing it from the Resource Groups blade) and then select the Configuration blade, as illustrated in the following screenshot:

Figure 1.30 – Configuration blade

Figure 1.30 – Configuration blade

Initially, you could feel a bit overwhelmed by all those options available, but soon, as you gain more and more experience, all will become clear. You might have noticed the Click here to upgrade... notification here—some features, such as Scaling out or Always on, are only available from the B1 tier upward.

Tip

Remember that the Always on feature could become crucial in some specific scenarios, as it defines whether your application is always running or not (so it can become idle when no one uses it). As you will learn in the coming sections, enabling Always on is recommended when running, for example, continuous WebJobs or Azure Functions.

Currently, we are interested in all options mentioning a programming language. These options are available in the General settings tab and include the following:

  • .NET version
  • PHP version
  • Python version
  • Java version
  • Node version
  • Ruby version

As opposed to selecting the operating system, which cannot be changed later, you are free to change the stack powering your website anytime. This is unlikely in most cases, but if you ever need to do that, you will not have to recreate the whole App Service instance.

Tip

As mentioned earlier, always select the correct operating system powering your App Service instance, depending on the language that you chose for your application. While it is possible to run PHP or Python on Windows, selecting Linux is recommended as many libraries and packages can run only under this particular operating system.

Let's now check how we can work with web application settings.

Working with application settings

The Configuration blade offers more than simply enabling or disabling available features. As you can see, you have three different tabs giving access to various features, as follows:

  • Application settings: This tab contains settings used by your application while running. It allows you to set parameters available as environment variables and connection strings transmitted over an encrypted channel.
  • General settings: This tab contains settings for controlling technology stack and platform settings such as WebSocket, HTTP version, or File Transfer Protocol (FTP) access.
  • Path mapping: This is used so you can mount Azure files/blobs and access them from within your application without additional configuration.

Tip

Remember that Application settings features for .NET applications are injected at runtime and will override existing settings stored in your web.config file. When it comes to other platforms (.NET, Java, Node.js), settings from this section will be injected as environment variables to which you can refer. This is also true for Connection strings features.

Application settings features in Azure are always hidden when stored. What is more, you can easily secure them by disallowing all users from accessing them or even integrating them with Azure Key Vault for further protection.

Tip

Connection strings features for platforms other than .NET are always prefixed with the appropriate connection type. There are four possibilities: SQLCONNSTR_, MYSQLCONNSTR_, SQLAZURECONNSTR_, and CUSTOMCONNSTR_.

Now, as we learned a bit about various configuration settings, we can focus our attention on additional basic functionalities App Service offers.

Choosing the right App Service plan and exploring what its features are

We touched on this topic at the beginning of this chapter, so you should have an idea of what we are going to cover now. As you remember, when an App Service resource is created, you must select (or create) an App Service plan, which defines both available performance and additional features. Let's cover all three categories, this time focusing on the differences between each tier. To see your options without going to an Azure App Service creation screen, go to the Scale up (App Service plan) blade, as illustrated in the following screenshot:

Figure 1.31 – Scale up blade

Figure 1.31 – Scale up blade

You will see a screen where all available tiers for the App Service plan will be displayed.

Dev / Test App Service plans

App Service plans designed for development and testing environments can be found in the Dev / Test category, as illustrated in the following screenshot:

Figure 1.32 – Selecting a tier

Figure 1.32 – Selecting a tier

We have three different tiers available, as follows:

  • Free (F1): The most basic option, with shared infrastructure, 1 gigabyte (GB) of memory available, and 60 minutes of compute per day. When using shared tiers, some features of App Service are unavailable (such as Always on). F1 is perfect for quick-testing or deploying an application for a presentation or demonstration. You will not be charged for using this App Service plan.
  • Shared (D1): Like F1, but this also allows for setting a custom domain for your App Service resource. What is more, you can run your application four times longer than when using the Free tier. Still, this is a shared infrastructure, so some features cannot be used, and there will be other Azure customers on the same machine. Unfortunately, it's not available for Linux.
  • Basic (B1): This is the first tier that can be considered for running production workloads. It guarantees dedicated A-series machines, and more memory and storage. It is also the first tier that you can scale—though only manually. The Basic tier comes with additional versions (B2 and B3), which provide more compute power.

Note

If you are obligated to run your application in Azure in services defined by a service-level agreement (SLA), remember that you cannot use the Free or Shared tiers, as they do not support this.

Production App Service plans

In this category, there are many more options when it comes to choosing different features available. Remember that, in terms of hardware, the Basic tier offers the very same performance as the Standard tier. You can see a list of the Production category tiers here:

Figure 1.33 – List of production tiers

Figure 1.33 – List of production tiers

Here, we can choose between the following:

  • Standard (S1): The same A-series as B1. What we are getting here is autoscaling, staging slots, backups, and the possibility to use Traffic Manager (which will be described in the coming chapters). This used to be the best tier for most production applications, as it supports blue-green deployment scenarios and can handle a bigger load (thanks to integration with Traffic Manager). Currently, the price/value ratio is in favor of Premium tiers.
  • Premium (P1v2): Offers better performance and higher limits when it comes to scaling (a maximum of 20 instances, compared to 10 in Standard) and staging slots. You also have the option to choose P2 or P3. If you need the best price/value ratio, this is the tier you are looking for.

Tip

Remember that the maximum number of instances when scaling out in particular tiers is subject to availability. In most cases, these are only soft limits that can be raised after contacting support.

In general, Standard should meet most requirements when it comes to performance, reliability, and automation possibilities. However, if you are going to run a very popular website in Azure, you may need Premium, as this offers more flexibility and better scalability.

Note

One of the most important things to remember is how scaling affects pricing. In general, you have two options: either you scale up (changing tier to a higher one) or scale out (by deploying multiple instances of the same application). If you are paying, for example, $40 for an S1 instance, when you scale out to 10 instances, you will pay $400 in total—$40 for each instance running.

Isolated App Service plans

Sometimes, you need even more than the Premium tier has to offer. Maybe you must isolate your application from an external network. Maybe you would like to isolate it on a hardware level. Maybe 20 instances are still not enough. Therefore, Microsoft introduced the Isolated category, which is a slightly different tier as it requires you to deploy the Azure App Service environment first and then provision isolated instances that will use it. This category is shown in the following screenshot:

Figure 1.34 – Isolated tiers for App Service plan

Figure 1.34 – Isolated tiers for App Service plan

In this category, we have only one tier divided into three versions, as follows:

  • Isolated (I1V2/I2V2/I3V2): It has the same virtual machines (VMs) as in the Premium tier (DV2). It also includes huge storage to store your files (1 terabyte (TB)), private app access, an integrated virtual network (so that you can access, for example, internal applications), and a more stable environment. This is the most expensive tier but offers the most when it comes to functionality and the range of features provided.

Tip

In general, the Isolated tier is the most stable one when it comes to handling a huge load. While Standard or Premium tiers become unresponsive quickly when utilization hits 100%, Isolated App Service resources need more time to return the HTTP 503 Service Unavailable response. Take this into account if you need a reliable service that cannot be broken easily.

However, there is one thing worth remembering here—besides paying for each isolated instance, purchasing an Isolated plan will also require paying a stamp fee. A stamp fee is a price for isolating your hardware from other Azure customers. As of now, the cost is ~$1,071/month.

Isolated V2 plan

To avoid paying the stamp fee, you can buy an upgraded Isolated V2 plan. This eliminates additional costs due to the redesign of the underlying infrastructure. As for now, the cost for an I1 instance of the upgraded plan is ~$412.45/month.

After describing details of different tiers of Azure App Service plans, we can now switch our attention to security providers that web apps offer and how they can integrate with your application.

Securing App Service resources using different security providers

Most web applications must be secured in some way, either by using your own security system or third-party identity providers (IdPs), such as Facebook, Google, or Twitter. While working with the traditional application hosted on-premises, you often must configure everything on your own. PaaS solutions, such as Azure App Service, already possess this functionality and make it easily accessible, thanks to the Authentication feature. In this section, you will learn how to set this up so that users will be prompted to log in.

Configuring authentication in the Azure portal

As with most PaaS services, you can configure the features of App Service directly from the portal. Thanks to such an approach, you have all options in one place and can easily switch between them.

Using Azure Active Directory to secure App Service resources

Go to your App Service resource and then find the Authentication blade on the left, next to Configuration, as mentioned previously. When you click on it, you will see a screen for configuration, as illustrated here:

Figure 1.35 – Authentication blade

Figure 1.35 – Authentication blade

As you can see, it is currently disabled. When you click the Add identity provider button, you will see new options available, as illustrated in the following screenshot. We will use them to configure how authentication is performed for our application:

Figure 1.36 – Adding an IdP

Figure 1.36 – Adding an IdP

Change the Identity provider setting to Microsoft. The screen will change its appearance and display additional options, as illustrated here:

Figure 1.37 – Microsoft IdP configuration

Figure 1.37 – Microsoft IdP configuration

Note

You do not have to be an expert in Azure Active Directory (Azure AD) to use it with App Service, especially now that there is the possibility to let the Azure portal configure it for you. However, if you would like to learn more about this service, the best place to start is its documentation: https://docs.microsoft.com/en-us/azure/active-directory/active-directory-whatis.

To avoid going into unnecessary details, we will use a shortcut and let Azure configure everything for us. Let's leave the default options provided by the wizard (as you can see in Figure 1.38) and verify the authentication settings, as illustrated here:

Figure 1.38 – Default authentication settings

Figure 1.38 – Default authentication settings

As you can see, once we enable authentication, unauthenticated access will be disallowed, and such requests will receive HTTP 302 as a response. You can go for any option you like.

Now, let's click the Add button. After a moment, everything should be set, and you can now access your application to see whether securing it works. Go to the Overview blade and click on the URL link or enter it directly in your browser. When a default page is loaded, you will not see it, but rather will be redirected to the login page and asked to give the application permissions, as illustrated in the following screenshot:

Figure 1.39 – Requesting permissions screen

Figure 1.39 – Requesting permissions screen

Note

For this exercise, I have assumed that you have your application already deployed. If you did not, please go back to the previous sections and deploy your code with one of the described deployment methods.

Since we configured Azure AD as our authentication provider, a user will be asked to give this application consent to access their information.

Note

We will not cover in this book how to create an application in other authentication providers. However, proper instructions can be found at https://developers.facebook.com/docs/apps/register/, https://developers.google.com/identity/sign-in/web/sign-in, and https://developer.twitter.com/en/docs/basics/authentication/guides/access-tokens.html.

The last topic in this chapter will give you some insights related to networking in Azure App Service.

Configuring networking for Azure App Service

Web applications must often connect with various services. Those can be other apps, databases, container registries, and many more. Some of them will not be available publicly, hence you will have to find a way to reach them. Remember that Azure App Service is a public service and if you are not using an App Service environment, by default it will not be integrated with your networks. Let's verify what options we have to overcome that problem.

The Networking blade

The very first thing you will need to do is go to the Networking blade of your App Service resource, as illustrated in the following screenshot:

Figure 1.40 – Networking blade

Figure 1.40 – Networking blade

This will provide all the necessary information about your app networking stack, as follows:

  • Inbound/outbound addresses
  • Access restrictions
  • Private endpoints
  • Virtual network (VNet) integrations
  • Hybrid connections

Note

To have access to all networking features, you will need to scale up your application to at least the P1V2 tier.

Access Restrictions

Let's consider a scenario—you want your application to respond only to a single Internet Protocol (IP) address. If a user reaches it using a different one, they should not have access. This feature is especially useful if you allow users to access your web APIs via API managers (such as Azure API Management). As such, a manager usually offers a static IP, and you normally blacklist all the IPs but this one. This can be done using the Access Restrictions feature, as illustrated in the following screenshot:

Figure 1.41 - Enabling Access Restrictions

Figure 1.41 - Enabling Access Restrictions

Once such a rule is set, and if I try to access my website and my IP is not whitelisted, I will get an HTTP 403 Forbidden response, as follows:

Figure 1.42 – Effect of enabling Access Restrictions

Figure 1.42 – Effect of enabling Access Restrictions

As you can see, with only a few simple clicks, you can block access to your application and whitelist only a specific set of IP addresses.

Private endpoints

Private endpoints are an advanced networking feature of Azure. They are used to ensure that all the traffic stays within the Azure backbone network and never reaches the public internet. They usually work in connection with Azure Private Link to secure a connection between different networks and act as an entry point for communication. We will not go into details of these advanced concepts, but if you are interested in learning more, see an overview of the service here: https://docs.microsoft.com/en-us/azure/private-link/private-endpoint-overview.

VNet integration

This feature is an interesting capability of Azure App Service and allows you to reach services enclosed in a VNet while preserving the public availability of your web application. It is worth remembering that even if VNet integration is enabled and you can fetch data, for example, from a database, the database will not be able to call your application. If in the integrated VNet you have a service, it will not be able to communicate with App Service, though opposite communication is possible.

VNet integration is enabled via the Add VNet button, as illustrated in the following screenshot:

Figure 1.43 – VNet configuration

Figure 1.43 – VNet configuration

You will be able to choose a network and subnet that you would like to use for the integration. Remember, though, that you will be able to see networks that are in the same region as your Azure App Service resource. Once a connection is established, the VNet Configuration view will change its appearance so that it looks like this:

Figure 1.44 – VNet integration enabled

Figure 1.44 – VNet integration enabled

However, take into consideration that VNet integration is not that simple—you will have to consider additional scenarios, such as these:

  • Connectivity with service endpoints, which will require connecting to a specific subnet and configuring those endpoints against the selected subnet.
  • Connectivity with private endpoints, for which you will have to ensure that Domain Name System (DNS) lookups resolve to them. This implies integrating a DNS server with your VNet and managing it.
  • Using network security groups (NSGs) for control over outbound traffic.

If you find those scenarios interesting, check out the following link to learn more: https://docs.microsoft.com/en-us/azure/app-service/web-sites-integrate-with-vnet.

Summary

In this chapter, you have learned what App Service is, and how to build and deploy a simple application that can easily be pushed to Azure. Learning the basics of this service is crucial for understanding other topics mentioned in this book, such as Azure Functions. Always remember that you can initially use the Free tier to avoid paying for an application when testing or developing, and then scale up when you need to do so. I strongly recommend you play around a little bit with Web Apps, as the cloud component has a lot more to it, and some other features are not that obvious initially. We will cover more advanced features such as integration with Traffic Manager, Azure SQL Database, and scaling scenarios in the next chapters, but you can now continue your journey and learn something about Azure Container Registry (ACR) in Chapter 2, Using Azure Container Registry for Storing and Managing Resources.

Questions

The following are some of the key questions to summarize the chapter:

  1. Do the terms App Service and Web Apps refer to the same Azure service?
  2. How many categories of App Service plans are there currently in Azure?
  3. Why should Free and Shared tiers not be used for running production workloads?
  4. How many authentication providers can you set up in App Service?
  5. Is there any difference in hardware between the Basic, Standard, and Premium tiers?
  6. Can you attach a custom domain to each tier available in App Service?
  7. Can you attach more than one App Service resource to an App Service plan?
  8. Which operating systems are available for App Service?
  9. Can you change the operating system after App Service resource creation?
  10. What is the difference between scaling up and scaling out?
  11. Let's say that you pay $50 for one instance of App Service per month. How much will you pay if you scale up to 10 instances?
  12. What is the purpose of using the Isolated tier in App Service?
  13. Is it possible to run a Go application in App Service?
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Description

Microsoft Azure is currently one of the fastest growing public cloud service providers thanks to its sophisticated set of services for building fault-tolerant and scalable cloud-based applications. This second edition of Azure for Developers will take you on a journey through the various PaaS services available in Azure, including Azure App Service, Azure Functions, and Azure SQL Databases, showing you how to build a complete and reliable system with ease. Throughout the book, you’ll discover ways to enhance your skills when building cloud-based solutions leveraging different SQL/NoSQL databases, serverless and messaging components, containerized solutions, and even search engines such as Azure Cognitive Search. That’s not all!! The book also covers more advanced scenarios such as scalability best practices, serving static content with Azure CDN, and distributing loads with Azure Traffic Manager, Azure Application Gateway, and Azure Front Door. By the end of this Azure book, you’ll be able to build modern applications on the Azure cloud using the most popular and promising technologies to make your solutions reliable, stable, and efficient.

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Table of Contents

31 Chapters
Part 1: PaaS and Containers Chevron down icon Chevron up icon
Chapter 1: Web Applications in Azure – Azure App Service Chevron down icon Chevron up icon
Chapter 2: Using Azure Container Registry for Storing and Managing Images Chevron down icon Chevron up icon
Chapter 3: Deploying Web Applications as Containers Chevron down icon Chevron up icon
Chapter 4: Using Azure Container Instances for Ad Hoc Application Hosting Chevron down icon Chevron up icon
Chapter 5: Building a Search Engine with Azure Cognitive Search Chevron down icon Chevron up icon
Chapter 6: Mobile Notifications with Notification Hubs Chevron down icon Chevron up icon
Part 2: Serverless and Reactive Architecture Chevron down icon Chevron up icon
Chapter 7: Serverless and Azure Functions Chevron down icon Chevron up icon
Chapter 8: Durable Functions Chevron down icon Chevron up icon
Chapter 9: Integrating Different Components with Logic Apps Chevron down icon Chevron up icon
Chapter 10: Swiss Army Knife – Azure Cosmos DB Chevron down icon Chevron up icon
Chapter 11: Reactive Architecture with Event Grid Chevron down icon Chevron up icon
Part 3: Storage, Messaging, and Monitoring Chevron down icon Chevron up icon
Chapter 12: Using Azure Storage – Tables, Queues, Files, and Blobs Chevron down icon Chevron up icon
Chapter 13: Big Data Pipeline – Azure Event Hubs Chevron down icon Chevron up icon
Chapter 14: Real-Time Data Analysis – Azure Stream Analytics Chevron down icon Chevron up icon
Chapter 15: Enterprise Integration – Azure Service Bus Chevron down icon Chevron up icon
Chapter 16: Using Application Insights to Monitor Your Applications Chevron down icon Chevron up icon
Chapter 17: SQL in Azure – Azure SQL Chevron down icon Chevron up icon
Chapter 18: Big Data Storage – Azure Data Lake Chevron down icon Chevron up icon
Part 4: Performance, Scalability, and Maintainability Chevron down icon Chevron up icon
Chapter 19: Scaling Azure Applications Chevron down icon Chevron up icon
Chapter 20: Serving Static Content Using Azure CDN Chevron down icon Chevron up icon
Chapter 21: Managing APIs with Azure API Management Chevron down icon Chevron up icon
Chapter 22: Building a Scalable Entry Point for Your Service with Azure Front Door Chevron down icon Chevron up icon
Chapter 23: Azure Application Gateway as a Web Traffic Load Balancer Chevron down icon Chevron up icon
Chapter 24: Distributing Load with Azure Traffic Manager Chevron down icon Chevron up icon
Chapter 25: Tips and Tricks in Azure Chevron down icon Chevron up icon
Index Chevron down icon Chevron up icon
Other Books You May Enjoy Chevron down icon Chevron up icon

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Nagamohan Kumar Palakurthy Mar 14, 2023
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I was going through this book over past few months and this Edition is an excellent guidebook for developers looking to implement Azure PaaS ecosystems. It covered a wide range of topics, including identity and management, federation concepts, building and maintaining CI/CD pipelines, containers, serverless, storage, monitoring, performance, and scalability. As a developer, the code samples provided in various places eased my learning approach. Overall, I found Azure for Developers to be an invaluable resource for anyone looking to learn more about Azure development.
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Tomica Kaniski Sep 02, 2022
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Using this book as a preparation for AZ-204 exam. So far, looks great as it provides step-by-step instructions on how to do things, together with screenshots and code samples. Since this is the second, updated and refreshed edition, I believe that it will help me pass the (also refreshed) exam. I really liked the review questions at the end of chapters, as well as the further reading links, enabling me to go deeper into the subject.
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Johnathan Oct 21, 2022
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This book will guide you to the end and fill the gaps left behind unknowingly by developers who are having difficulty determining where they are lacking in their knowledge.It covers a wide range of topics, including PAAS, containers, serverless, storage, monitoring, performance, and scalability.It will cover both real-world knowledge and certification topics.Highly recommended!!
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RC Dec 22, 2022
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As an Azure Cloud Engineer working mainly in an Administrator and Architecture role, there were a few things on the development side that I was looking to gain a deeper understanding. This book has been a great help in gaining some additional insight into those services that I don’t use day to day in my role, such as App Service, Serverless, Function Apps, Storage interaction with Event Hubs\Queues, ACR, to name a few.While not specifically written to the AZ-204 Developer exam, this book provides great detail into many of the services covered by the exam. It has been a valuable reference to have on my desk when I need a deeper dive into development resources in Azure.
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Naresh Kumar Jan 10, 2023
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Amazing book for Azure developers. It covers identity and management, federation concept very clearly, building and maintaining ci/cd pipelines and how we can secure them in a much good and easy way!!
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