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ASP.NET (snapshot 2017) Microsoft documentation and samples

Application Lifecycle Management: From Development to Production

by Jason Lee

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This topic illustrates how a fictional company manages the deployment of an ASP.NET web application through test, staging, and production environments as part of a continuous development process. Throughout the topic, links are provided to further information and walkthroughs on how to perform specific tasks.

The topic is designed to provide a high-level overview for a series of tutorials on web deployment in the enterprise. Don’t worry if you’re not familiar with some of the concepts described here—the tutorials that follow provide detailed information on all of these tasks and techniques.

[!NOTE] Forthe sake of simplicity, this topic doesn’t discuss updating databases as part of the deployment process. However, making incremental updates to databases features is a requirement of many enterprise deployment scenarios, and you can find guidance on how to accomplish this later in this tutorial series. For more information, see Deploying Database Projects.

Overview

The deployment process illustrated here is based on the Fabrikam, Inc. deployment scenario described in Enterprise Web Deployment: Scenario Overview. You should read the scenario overview before you study this topic. Essentially, the scenario examines how an organization manages the deployment of a reasonably complex web application, the Contact Manager solution, through various phases in a typical enterprise environment.

At a high level, the Contact Manager solution goes through these stages as part of the development and deployment process:

  1. A developer checks some code into Team Foundation Server (TFS) 2010.
  2. TFS builds the code and runs any unit tests associated with the team project.
  3. TFS deploys the solution to the test environment.
  4. The developer team verifies and validates the solution in the test environment.
  5. The staging environment administrator performs a “what if” deployment to the staging environment, to establish whether the deployment will cause any problems.
  6. The staging environment administrator performs a live deployment to the staging environment.
  7. The solution undergoes user acceptance testing in the staging environment.
  8. The web deployment packages are manually imported into the production environment.

These stages form part of a continuous development cycle.

In practice, the process is slightly more complicated than this, as you’ll see when we look at each stage in more detail. Fabrikam, Inc. uses a different approach to deployment for each target environment.

The rest of this topic examines these key stages of this deployment lifecycle:

Prerequisites

The first task in any deployment scenario is to ensure that your server infrastructure meets the requirements of your deployment tools and techniques. In this case, Fabrikam, Inc. has configured its server infrastructure like this:

Initial Development and Deployment

Before the Fabrikam, Inc. development team can deploy the Contact Manager solution for the first time, it needs to perform these tasks:

Create a New Team Project

Create the Deployment Logic

Matt Hink creates various custom MSBuild project files, using the split project file approach described in Understanding the Project File. Matt creates:

To run the deployment, a user executes the Publish.proj file using MSBuild or Team Build and specifies the location of the relevant environment-specific project file (Env-Dev.proj or Env-Stage.proj) as a command-line argument. The Publish.proj file then imports the environment-specific project file to create a complete set of publishing instructions for each target environment.

[!NOTE] The way these custom project files work is independent of the mechanism you use to invoke MSBuild. For example, you can use the MSBuild command line directly, as described in Understanding the Project File. You can run the project files from a command file, as described in Create and Run a Deployment Command File. Alternatively, you can run the project files from a build definition in TFS, as described in Creating a Build Definition that Supports Deployment.
In each case the end result is the same—MSBuild executes the merged project file and deploys your solution to the target environment. This provides you with a great deal of flexibility in how you trigger your publishing process.

Once he has created the custom project files, Matt adds them to a solution folder and checks them into source control.

Create Build Definitions

As a final preparation task, Matt and Rob work together to create three build definitions for the new team project:

The sections that follow provide more detail on each of these build definitions.

Deployment to Test

The development team at Fabrikam, Inc. maintains test environments to conduct a variety of software testing activities, like verification and validation, usability testing, compatibility testing, and ad hoc or exploratory testing.

The development team has created a build definition in TFS named DeployToTest. This build definition uses a continuous integration trigger, which means the build process runs every time a member of the Fabrikam, Inc. development team performs a check-in. When a build is triggered, the build definition will:

The end result is that if the solution builds successfully and passes unit tests, the web packages and any other deployment resources are deployed to the test environment.

How Does the Deployment Process Work?

The DeployToTest build definition supplies these arguments to MSBuild:

[!code-consoleMain]

   1:  /p:DeployOnBuild=true;DeployTarget=package;TargetEnvPropsFile=[path]\Env-Dev.proj

The DeployOnBuild=true and DeployTarget=package properties are used when Team Build builds the projects within the solution. When the project is a web application project, these properties instruct MSBuild to create a web deployment package for the project. The TargetEnvPropsFile property tells the Publish.proj file where to find the environment-specific project file to import.

[!NOTE] For a detailed walkthrough on how to create a build definition like this, see Creating a Build Definition that Supports Deployment.

The Publish.proj file contains targets that build each project in the solution. However, it also includes conditional logic that skips these build targets if you’re executing the file in Team Build. This lets you take advantage of the additional build functionality that Team Build offers, like the ability to run unit tests. If the solution build or the unit tests fail, the Publish.proj file will not be executed and the application will not be deployed.

The conditional logic is accomplished by evaluating the BuildingInTeamBuild property. This is an MSBuild property that is automatically set to true when you use Team Build to build your projects.

Deployment to Staging

When a build meets all of the requirements of the developer team in the test environment, the team may want to deploy the same build to a staging environment. Staging environments are typically configured to match the characteristics of the production or “live” environment as closely as possible, for example, in terms of server specifications, operating systems and software, and network configuration. Staging environments are often used for load testing, user acceptance testing, and broader internal reviews. Builds are deployed to the staging environment directly from the build server.

The build definitions used to deploy the solution to the staging environment, DeployToStaging-WhatIf and DeployToStaging, share these characteristics:

This is the high-level process for a deployment to the staging environment:

  1. The staging environment administrator, Rob Walters, queues a build using the DeployToStaging-WhatIf build definition. Rob uses the build definition parameters to specify which build he wants to deploy.
  2. The DeployToStaging-WhatIf build definition runs the custom project files in “what if” mode. This generates log files as if Rob was performing a live deployment, but it doesn’t actually make any changes to the destination environment.
  3. Rob reviews the log files to ascertain the effects of the deployment on the staging environment. In particular, Rob wants to check what will be added, what will be updated, and what will be deleted.
  4. If Rob is satisfied that the deployment won’t make any undesirable changes to existing resources or data, he queues a build using the DeployToStaging build definition.
  5. The DeployToStaging build definition runs the custom project files. These publish the deployment resources to the primary web server in the staging environment.
  6. The Web Farm Framework (WFF) controller synchronizes the web servers in the staging environment. This makes the application available on all the web servers in the server farm.

How Does the Deployment Process Work?

The DeployToStaging build definition supplies these arguments to MSBuild:

[!code-consoleMain]

   1:  /p:TargetEnvPropsFile=[path]\Env-Stage.proj;OutputRoot=[path to build folder]

The TargetEnvPropsFile property tells the Publish.proj file where to find the environment-specific project file to import. The OutputRoot property overrides the built-in value and indicates the location of the build folder that contains the resources you want to deploy. When Rob queues the build, he uses the Parameters tab to provide an updated value for the OutputRoot property.

[!NOTE] For more information on how to create a build definition like this, see Deploy a Specific Build.

The DeployToStaging-WhatIf build definition contains the same deployment logic as the DeployToStaging build definition. However, it includes the additional argument WhatIf=true:

[!code-consoleMain]

   1:  /p:TargetEnvPropsFile=[path]\Env-Stage.proj;
   2:     OutputRoot=[path to build folder];
   3:     WhatIf=true

Within the Publish.proj file, the WhatIf property indicates that all deployment resources should be published in “what if” mode. In other words, log files are generated as if the deployment had gone ahead, but nothing is actually changed in the destination environment. This lets you evaluate the impact of a proposed deployment—in particular, what will get added, what will get updated, and what will get deleted—before you actually make any changes.

[!NOTE] For more information on how to configure “what if” deployments, see Performing a “What If” Deployment.

Once you’ve deployed your application to the primary web server in the staging environment, the WFF will automatically synchronize the application across all the servers in the server farm.

[!NOTE] For more information on configuring the WFF to synchronize web servers, see Create a Server Farm with the Web Farm Framework.

Deployment to Production

When a build has been approved in the staging environment, the Fabrikam, Inc. team can publish the application to the production environment. The production environment is where the application goes “live” and reaches its target audience of end users.

The production environment is in an Internet-facing perimeter network. This is isolated from the internal network that contains the build server. The production environment administrator, Lisa Andrews, must manually copy the web deployment packages from the build server and import them into IIS on the primary production web server.

This is the high-level process for a deployment to the production environment:

  1. The developer team advises Lisa that a build is ready for deployment to production. The team advises Lisa of the location of the web deployment packages within the drop folder on the build server.
  2. Lisa collects the web packages from the build server and copies them to the primary web server in the production environment.
  3. Lisa uses IIS Manager to import and publish the web packages on the primary web server.
  4. The WFF controller synchronizes the web servers in the production environment. This makes the application available on all the web servers in the server farm.

How Does the Deployment Process Work?

IIS Manager includes an Import Application Package Wizard that makes it easy to publish web packages to an IIS website. For a walkthrough on how to perform this procedure, see Manually Installing Web Packages.

Conclusion

This topic provided an illustration of the deployment lifecycle for a typical enterprise-scale web application.

This topic forms part of a series of tutorials that provide guidance on various aspects of web application deployment. In practice, there are lots of additional tasks and considerations at each stage of the deployment process, and it’s not possible to cover them all in a single walkthrough. For more information, consult these tutorials:

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