TeamCity On-Premises 2024.12 Help

Storing Project Settings in Version Control

TeamCity allows synchronizing project settings with the version control repository (VCS). Supported VCSs are Git, Mercurial, Perforce, Subversion, and Azure DevOps Server (formerly TFS).

You can store project settings in the XML format or in the Kotlin language and define settings programmatically using the Kotlin-based DSL.

Key Takeways

  • You can store settings of individual projects in an XML or Kotlin formats in remote repositories.

  • By default, versioned settings are stored in the .teamcity directory in the root of the VCS repository, in the same format as in the TeamCity Data Directory. You can change this default path to any custom location within a remote repository.

  • Project settings can be saved to the same repo that hosts application sources, or a completely separate repository.

  • You can choose whether a project can be edited via TeamCity UI (in this case TeamCity synchronizes edits made in the UI with remotely stored settings) or only by modifying settings files on the VCS side.

  • Different repository branches can store different project settings.

  • Global server-wide settings can be stored and managed via HashiCorp Terraform using the dedicated TeamCity Provider.

Synchronizing Settings with VCS

By default, the synchronization of the project settings with the version control system is disabled.

To enable it, go to Project Settings | Versioned Settings | Configuration. The " Enable/disable versioned settings " permission is required (default for the System Administrator role).

Main versioned settings page

You can choose one of the following options on this page:

  • Use the same settings as in the parent project (default).

  • Disable synchronization.

  • Enable synchronization. In this case, you can also define which settings to use when the build starts. See details below.

If synchronization is enabled, it can work in either two-way or one-way mode.

The default mode is a two-way synchronization. This mode is enabled when the Allow editing project settings via UI option is checked.

Enable editing in UI

The two-way synchronization works as follows:

  • Each administrative change made to the project settings in the TeamCity UI is committed to the version control system. The author of the commited changes matches the TeamCity user who made related project edits.

  • If the changes are applied on the VCS side (if a Kotlin or XML settings file is edited), the TeamCity server detects them and modifies the project on the fly.

    Before applying the newly checked-in settings, TeamCity validates them. If the validation fails (for example, when a build configuration references a non-existent VCS root or has duplicate ID), the current project settings are left intact and an error is shown in the UI.

If you disable the Allow editing project settings via UI option, the project settings become read-only in the UI and only reflect changes made on the VCS side. This is convenient if you prefer defining project settings' as code or load settings from a read-only VCS branch.

Enabling synchronization for a project also enables it for all its subprojects with the default " Use settings from a parent project " option selected. TeamCity synchronizes all changes to the project settings (including modifications of build configurations, templates, VCS roots, and so on) except SSH keys. To exclude individual subprojects from the synchronization, switch them to Synchronization disabled mode.

As soon as you enable settings synchronization, TeamCity commits the current project tree and server settings to the remote repository. If the target location already stores project settings, a warning pops up. This warning allows you to choose whether TeamCity should:

  • overwrite the settings in the VCS with the current project settings on the TeamCity server (only if the two-way synchronization is enabled); or

  • import the settings from the VCS replacing the current project settings on the TeamCity server with those from version control.

Choosing the Settings Location

The default location for TeamCity project settings is the .teamcity folder in the root of the same repository that stores the target project. Depending on your workflow specifics and business needs, this default setup might not be optimal for your team.

For example, teams working with monorepos where stand-alone microservices and external libraries are hosted in adjacent directories would likely want to set up individual TeamCity projects that store their settings in separate directories. Using custom settings directories for each project ensures that projects targeting the same monorepo do not constantly override each other's settings.

Another scenario you might want to implement is moving TeamCity-specific files away from the sources. This approach obscures the specifics of your CI/CD ecosystem, hiding them from external parties. In addition, having a dedicated VCS repository that stores settings of your entire TeamCity server (each project has its own repository folder to store its settings) can also prove beneficial for settings maintenance and testing.

To implement these or similar tasks, use the Project settings VCS root and Settings path in VCS settings.

Separate VCS Root

The Project settings VCS root selector allows you to choose which VCS Root TeamCity should use to obtain and commit project settings. You can choose any root owned by either this project directly, or by any of its parent projects.

Choose a VCS root

Since a VCS root defines a connection to a remote repository, choosing a root means choosing a repository that should store project settings.

  • If you use the same root as the one that retrieves code changes and checks out source files, project settings will be stored in the same repository as your application. Use this setup whenever you want to keep TeamCity settings side-by-side with source files.

  • Using a separate root for settings synchronization allows you to move project settings to a separate repository. This approach can be beneficial for public repositories with 3rd-party contributors, since storing TeamCity project settings in a separate repository ensures your project cannot be altered by untrusted parties. You can make this repository private to furthermore conceal the inner workings of your CI/CD setup.

Note that the Project settings VCS root combo-box does not allow you to create new roots. You need to navigate to the VCS Roots tab of your project settings and set up a required root before you can start using it on the Versioned Settings page.

Custom Settings Path

The Settings path in VCS option allows you to manually specify a path to the directory that stores project settings.

Custom settings path

You can change the default .teamcity value to any custom path (for example, .teamcity-settings/accounting) or a period (.). The latter allows you to save settings directly to the repository root.

To prevent unexpected errors caused by ambiguous settings source, TeamCity does not allow you to change the settings path when the synchronization is already active. To modify this path, disable the synchronization and save the settings, then re-enable it and specify the required directory.

Defining Settings to Apply to Builds

When TeamCity needs to start a build, it can apply either of the two possible settings:

  • Current settings on the TeamCity server. These are settings that include all latest changes applied to the server either via TeamCity UI or via a commit to the project settings directory in the VCS.

  • Custom settings stored in the VCS. These are settings from the project settings directory stored in a non-default branch or in the specific revision selected for a build.

An ability to choose which of these two settings to apply grants you the following options:

  • Have multiple branches with different settings in the project settings directory. This means your branch A can have parameters, steps, build features, artifact publishing rules and chain settings that differ from those in branch B.

  • Start personal builds with changes made in the project settings directory, and these changes will affect the build behavior.

  • Add more flexibility to your history builds. TeamCity initially attempts to use the settings corresponding to the moment of the selected change. Otherwise, the current project settings will be used.

To specify which settings TeamCity should apply when a build starts, choose a required option on the Administration | <Project> Versioned Settings page.

Choosing start-up settings
  • always use current settings — all builds use current project settings from the TeamCity server. Settings' changes in branches, history, and personal builds are ignored. Users cannot run a build with custom project settings.

  • use current settings by default — regular builds use the latest project settings from the TeamCity server. Users can run custom builds with settings imported from a VCS.

    Custom run with VCS settings
  • use settings from VCS — all branch builds and history builds, which use settings from VCS, load settings from the versioned settings' revision calculated for the build. Users can change configuration settings in personal builds from IDE or run a build with current project settings on the TeamCity server via the custom build dialog.

Example: Branch-Specific Settings

  1. Create and init an empty repository in your VCS of choice. In this example, a repository on GitHub.com is used.

  2. Create a new TeamCity project from this repository.

  3. Add a Python runner to your build configuration.

    import jetbrains.buildServer.configs.kotlin.* import jetbrains.buildServer.configs.kotlin.buildSteps.python object Build : BuildType({ name = "Build" // ... steps { python { id = "python_runner" command = script { content = """print ("Running a Python script...")""" } } } // ... })
  4. Go to Administration | <Project> | Versioned Settings and choose the following options:

  5. Click Apply to save your new settings. TeamCity will verify the validity of your build configuration and push the project settings directory with your settings to the related VCS repository.

  6. Clone TeamCity settings from a remote repository to local storage.

    git clone <Clone_URL> .
  7. Create a new repository branch.

    git checkout -b custom-branch
  8. Edit the local copy of your <project settings directory>/settings.kts (.teamcity/settings.kts by default) file as follows:

    import jetbrains.buildServer.configs.kotlin.* import jetbrains.buildServer.configs.kotlin.buildSteps.csharpScript object Build : BuildType({ name = "Build" // ... steps { csharpScript { id = "csharpScript" content = """Console.WriteLine("Running a CSharp script...");""" tool = "%\teamcity.tool.TeamCity.csi.DEFAULT%" } } // ... })
  9. Push your new branch to the remote repository.

    git add * git commit -a -m "Modify custom-branch settings" git push --set-upstream origin custom-branch
  10. TeamCity should collect your new changes shortly. You can manually trigger this process by clicking Load project settings from VCS... on the Versioned Settings tab of your project settings page.

  11. If you have a default trigger set up to launch new builds whenever a remote repository changes, a new build for your new custom-branch will start automatically. Otherwise, choose the required branch on the build configuration page and run a new build manually.

    Trigger custom branch build

As a result, your build configuration now performs different actions depending on which branch build runs: a Python Script for the main branch and a C# Script for a custom branch. You can experiment by adding more differences between branch settings and running branch builds to see how TeamCity handles different versions of your settings.kts file.

Apply Changes in Snapshot Dependencies and Version Control Settings

If the corresponding option is disabled on the project's Versioned Settings page, TeamCity ignores edits made to:

  • snapshot dependencies

  • checkout rules

  • VCS roots

This applies to both editing existing and creating new dependencies, checkout rules, and roots.

For example, the following Kotlin sample illustrates two versions of settings for the same project.

  • The main (default) branch defines three build configurations linked in a single BC0 → BC3 → BC5 build chain. Each configuration edits the "output.txt" file and passes it to the next configuration.

    3-Step Setup
  • The custom branch extends the original chain with two new configurations: BC0 → BC2 → BC3 → BC4 → BC5.

import jetbrains.buildServer.configs.kotlin.* import jetbrains.buildServer.configs.kotlin.buildSteps.script project { buildType(BC0) buildType(BC3) buildType(BC5) } // 1st build configuration object BC0 : BuildType({ name = "BC0" artifactRules = "output.txt" steps { script { name = "Prepare File" id = "Prepare_File" scriptContent = """ rm output.txt touch output.txt """.trimIndent() } script { name = "WriteLine" id = "WriteLine0" scriptContent = """echo "Running BC0 config" > output.txt""" } } // ... }) // 2nd build configuration object BC3 : BuildType({ name = "BC3" artifactRules = "output.txt" steps { script { name = "WriteLine" id = "WriteLine3" scriptContent = """echo "Running BC3 config" >> output.txt""" } } dependencies { dependency(BC0) { snapshot { reuseBuilds = ReuseBuilds.NO } artifacts { artifactRules = "output.txt" } } } // ... }) // 3rd build configuration object BC5 : BuildType({ name = "BC5" artifactRules = "output.txt" steps { script { name = "WriteLine" id = "WriteLine5" scriptContent = """echo "Running BC5 config" >> output.txt""" } } dependencies { dependency(BC3) { snapshot { reuseBuilds = ReuseBuilds.NO } artifacts { artifactRules = "output.txt" } } } // ... })
import jetbrains.buildServer.configs.kotlin.* import jetbrains.buildServer.configs.kotlin.buildSteps.script project { buildType(BC0) buildType(BC2) buildType(BC3) buildType(BC4) buildType(BC5) } // 1st build config object BC0 : BuildType({ name = "BC0" artifactRules = "output.txt" steps { script { name = "Prepare File" id = "Prepare_File" scriptContent = """ rm output.txt touch output.txt """.trimIndent() } script { name = "WriteLine" id = "WriteLine0" scriptContent = """echo "Running BC5 config" > output.txt""" } } // ... }) // 2nd build config object BC2 : BuildType({ name = "BC2" artifactRules = "output.txt" steps { script { name = "WriteLine" id = "WriteLine2" scriptContent = """echo "Running virtual BC2 config" >> output.txt""" } } dependencies { dependency(BC0) { snapshot { reuseBuilds = ReuseBuilds.NO } artifacts { artifactRules = "output.txt" } } } // ... }) // 3rd build config object BC3 : BuildType({ name = "BC3" artifactRules = "output.txt" steps { script { name = "WriteLine" id = "WriteLine3" scriptContent = """echo "Running BC3 config" >> output.txt""" } } dependencies { dependency(BC2) { snapshot { reuseBuilds = ReuseBuilds.NO } artifacts { artifactRules = "output.txt" } } } // ... }) // 4th build config object BC4 : BuildType({ name = "BC4" artifactRules = "output.txt" steps { script { name = "WriteLine" id = "WriteLine4" scriptContent = """echo "Running virtual BC4 config" >> output.txt""" } } dependencies { dependency(BC3) { snapshot { reuseBuilds = ReuseBuilds.NO } artifacts { artifactRules = "output.txt" } } } // ... }) // 5th build config object BC5 : BuildType({ name = "BC5" artifactRules = "output.txt" steps { script { name = "WriteLine" id = "WriteLine5" scriptContent = """echo "Running BC5 config" >> output.txt""" } } dependencies { dependency(BC4) { snapshot { reuseBuilds = ReuseBuilds.NO } artifacts { artifactRules = "output.txt" } } } // ... })

If you disable the Apply changes in snapshot dependencies and version control settings option and try to run a build for the custom branch, it will fail with the "Failed to resolve artifact dependency" error. This happens because edits made to snapshot dependencies are ignored. From the TeamCity's point of view, this setup is invalid since it requires non-existing configurations.

Failing chain from custom branch

The aforementioned setting allows TeamCity to automatically generate missing configurations and resolve updated dependencies, which in turn makes it possible to apply these custom branch settings.

5-Step Setup

Storing Secure Settings

It is recommended to store security data outside of VCS. The Store passwords and API tokens outside of VCS option is available on the Project Settings | Versioned Settings | Configuration page if the two-way synchronization is enabled. By default, this option is enabled if versioned settings are enabled for a project for the first time, and disabled for projects already storing their settings in the VCS.

If this option is enabled, TeamCity stores randomly generated IDs in XML configuration files instead of the scrambled passwords. Actual passwords are stored on the disk under the TeamCity Data Directory and are not checked into the version control system.

Managing Tokens

If you need to add a password (or other secure value) to the versioned settings not via the TeamCity UI (for example, via Kotlin DSL), you can generate a token to be used in the settings instead of this password.
In the Project Settings, select Generate token for a secure value in the Actions drop-down menu. Enter the password and click Generate Token. The generated token will be stored on the server. You can copy and use it in the project configuration files instead of the password.

params { password("<parameter_name>", "credentialsJSON:<token>") }

You can also generate new secure tokens on the Tokens tab of the project Versioned Settings section. The tab is available for projects with the enabled " Store secure values outside of VCS " option.

The Tokens tab allows viewing all the project tokens, including unused tokens.
When secure data of a project is stored outside of the version control system, it could potentially be detached from the project: for example, if a project with tokens is moved to another place in the hierarchy or is created from DSL on the new TeamCity server. In such case, you can specify the values for the project tokens on this tab, so the project can continue using them.

Moreover, if the required tokens are available in other projects you are permitted to edit, TeamCity will automatically find them. You can copy the secure values used in any of these projects to your current project.

Versioned Settings| Tokens

When there is one or more secure values available for a token, the Switch to the Sakura UI button appears opposite this token. Click it to review available projects and choose a project to copy a value from, and then click Copy to confirm your choice.

Secure values can be inherited by project hierarchy. If a setting in a project (VCS root, OAuth connection, cloud profile) requires a password, the token generated for this password can be used in this project and in any of its subprojects. To be able to use the inherited password, the subproject must have versioned settings enabled and store settings in the same VCS as its parent project.
Alternatively, you can add a password parameter with the secure value and use a reference to the parameter in the nested projects.

Implications of Storing Security Data in VCS

If you decide to store secure settings in VCS, it is recommended to carefully consider the following implications:

  • If the projects or build configurations with settings in a VCS have password fields defined, the values appear in the settings committed into the VCS (though, in scrambled form).

    • If the project settings are stored in the same repository as the source code, anyone with access to the repository will be able to see these scrambled passwords.

    • If the project settings are stored separately from the source code in a dedicated repository and the " Show settings changes in builds " option is enabled, any user with the " View VCS file content " permission will be able to see all the changes in the TeamCity UI using the changes difference viewer.

  • Being able to change the settings in an arbitrary manner via a VCS, it is possible to trigger builds of any build configurations and obtain settings of any build configurations irrespective of the build configurations permissions configured in TeamCity.

  • By committing wrong or malicious settings, a user can affect the entire server performance or server presentation to other users.

It is recommended to store passwords, API tokens, and other secure settings outside of VCS using the corresponding option described above.

Note that SSH keys will not be stored in the VCS repository.

Storing and Managing Global Server Settings

Storing Kotlin DSL or XML settings in a VCS allows you to utilize the configuration-as-code approach for projects and build configurations. You can specify the hierarchy of projects, manage individual configurations, dynamically change step settings and parameters, and more.

However, this approach does not allow you to manage server-wide settings (such as user and user group settings, clean-up rules, notifications, authentication modules, licenses, and more). To automate your server administration, define required settings in the HCL language format and use HashiCorp Terraform to manage them. To allow Terraform to communicate with your TeamCity server instance, add the dedicated TeamCity Terraform Provider to your Terraform configuration.

Learn more:

Settings Format

To be able to select the settings format, click Show advanced options in Project Settings | Versioned Settings | Configuration.

TeamCity stores project settings:

  • in the XML format

  • in the Kotlin-based DSL format (see a dedicated page)

Committing Current Project Settings to VCS

If you want to commit the current configuration to the VCS (for example, earlier you committed misconfigured settings to the repository and TeamCity was unable to load it displaying errors and warnings), you can use the Commit current project settings option on the Versioned Settings | Configuration page.

When TeamCity commits settings into a VCS, it uses the standard commit message noting the TeamCity user as the committer and the project whose settings have changed. It is possible to add a fixed custom prefix to each settings' change committed by TeamCity via the teamcity.versionedSettings.commitMessagePrefix internal property, for example, teamcity.versionedSettings.commitMessagePrefix=TC Change\n\n.

Displaying Changes

TeamCity will not only synchronize the settings, but will also automatically display changes to the project settings the same way it is done for regular changes in the version control. You can configure the changes to be displayed for the affected build configurations: on the Project Settings | Versioned Settings | Configuration tab, click Show advanced options and check the Show settings changes in builds box. This option is only effective if you store versioned settings in a VCS root that is not directly attached to the current build configuration. If a VCS root is attached to this configuration, its changes will be displayed by default, unless specific build triggering rules are configured.

If you store versioned settings in a separate VCS root, not the one which is directly attached to your build configurations, then when turned ON this checkbox starts showing changes made to these VCS roots. If VCS root is already attached to your configuration, then it does nothing.

By default, the VCS trigger will ignore such changes. To enable build triggering on a settings' commit, add a trigger rule in the following format: +:root=Settings_root_id;:*.

All changes in the VCS root, where project settings are stored, are listed on the Versioned Settings | Change log tab.

Enabling Versioned Settings after TeamCity Upgrade

The format of the XML settings files changes from one TeamCity version to another to accommodate the new features and improvements. Generally, the format is not changed within bugfix releases and is changed in major releases. When a TeamCity server is upgraded, the current settings on the TeamCity server are changed from the earlier to the current format.

It is a common practice to upgrade a TeamCity test server with production data before upgrading the production server. In order to avoid accidentally changing the format of the settings which are used on a production server of an older version, versioned settings are disabled after a TeamCity upgrade and the corresponding health item is displayed. System administrators have permissions to enable versioned settings (Administration | Server Health | Versioned settings disabled, click Enable). When enabled, the converted settings in the format of the current TeamCity version will be checked in the version control. Note that the new settings will be committed to the default branch of the VCS root; the settings stored in other branches will have to be updated manually.

FAQs

Q. Can I apply the settings from a TeamCity server of a different version?

A. No, because just like with the TeamCity Data Directory, the format of the settings differs from one TeamCity version to another.

Q. Where are the settings stored?
A. You can manually configure a directory where project settings should be stored. The default directory is .teamcity directory in the root of the VCS root-configured repository. The default branch configured in the VCS root is used with Git and Mercurial. You can create a dedicated VCS root to change the repository or a branch (or a repository path in case of Perforce, Subversion, or Azure DevOps — formerly TFS).

Q. Why is there a delay before a build is run after I changed to the settings in the UI?
A. When the settings are changed via the UI, TeamCity waits for the changes to be completed with a commit to the VCS before running a build with the latest changes.

Q. Who are the changes authored by?
A. If the settings are changed via the user interface, in Git and Mercurial a commit in the VCS will be performed on behalf of the user who actually made the change via the UI. For Perforce as well as Azure DevOps Server (formerly TFS), the name of the user specified in the VCS root is used, and in Subversion the commit message will also contain the username of the TeamCity user who actually made the change via the UI.

Last modified: 28 November 2024