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Team Foundation Server architecture

To best plan and manage your deployment, you should first understand the underlying architecture of Team Foundation Server (TFS). Understanding the architecture can help you maintain the overall health of the deployment and help ensure the overall availability of the servers and services your development teams require.

You can deploy TFS in several ways: on one server; on many servers; or in one domain or workgroup or across domains. Alternatively, you might choose to use Visual Studio Online, where all the server elements of your deployment are hosted for you by Microsoft. Understanding the architecture can help you decide what topology is most likely to meet your business needs. Regardless of your choice of topology, if you understand the architecture underlying TFS, you can better manage the physical and logical requirements. This topic provides a simple overview of the various architectures, with links to more information about example deployments. It also provides technical information about the services, databases, configuration information, and network ports and protocols of local deployments.

To understand the architecture of TFS and how it affects your deployment, you should consider the following:

  • The logical application, data, and client tiers of Team Foundation, and whether you want to use one or more servers for the application and data tiers, or whether you want the application and data tiers hosted in the cloud for you by using Visual Studio Online

  • The location of the physical or virtual servers that host those tiers

  • Team Foundation Build and the number and location of build computers that will run in your environment, including how many you might need to support your development practices

  • The potential need for Team Foundation ServerProxy

In addition, you must consider the interactions between these entities. For example, if you choose to use the hosted TFS service, you must ensure that your clients can access the service on port 443. If you choose to deploy TFS locally, you must know what Web services, databases, and object models TFS uses. Also, you must know which network ports and protocols TFS uses by default and which network ports you can customize. Finally, you must understand what permissions you must set in Team Foundation Server and the components and programs on which your deployment depends.

Besides its own services, Team Foundation Server depends on other services in order to function. For information about these services, see Team Foundation Server concepts and Components of the TFS data warehouse. For more information about the requirements and dependencies for installation, see Team Foundation Server install guide.

Warning

You should not manually modify any of the TFS databases unless you’re instructed to do so by Microsoft Support or you’re following the procedures described for manually backing up the databases. Any other modifications can invalidate your service agreement.

In this topic

  • Visual Studio Online

  • The Object Model

  • Web Services and Databases for Local Deployments

    • Collection-Level Services

    • Server-Level Services

    • Data Tier

    • Client Tier

  • Configuration Information

  • Groups and Permissions

  • Network Ports and Protocols

    • Default Network Settings

    • Customizable Network Settings

Visual Studio Online

Simple diagram of hosted TFS service

Microsoft offers the option of using Visual Studio Online, where all of the server-side aspects of the deployment are hosted for you. Your source code, work items, build configurations, and team features are all hosted in the cloud. From an architectural point of view, this greatly simplifies your deployment, as the only aspects of the architecture you need to consider are the client components and their Internet access.

When using the service, you use a web browser to connect to the service using your Microsoft account. You can create team projects, add members to your team, and work as you would with a locally installed deployment, without the overhead of administering the servers. Your application tier, data tier, and build servers are hosted for you in the cloud, using the Microsoft Cloud platform and SQL Server Azure.

For more information, see Examples of Hosted Topology.

The object model

With either the hosted or the locally-deployed architecture, you can extend the features and functionality of Team Foundation by writing an application that is based on its server or client object model. In all deployment types, you can write applications that extend client capabilities. However, if you want to extend server capabilities, your application must run on the application-tier server. To extend the client capabilities, you must run the application on the same computer as Team Explorer.

Object Models for Team Foundation

For more information, see Extending Team Foundation.

Web services and databases for local deployments

Team Foundation Server includes a set of Web services and databases that you install and configure separately on the server or servers that host the logical application, data, and client tiers for Team Foundation. Some features, such as the task board, and backlog team-based features, are entirely web-based and accessed solely through Team Web Access, a client-side web based service. Others, such as the version control features, can be accessed through either Team Web Access or through a client application. The following illustrations provide a high-level view of web services, applications, and databases for local deployments of TFS.

Server architecture diagramAdditional servers used in TFSClient architecture diagram

Collection-level services

Collection-level services provide the functionality for operations at the level of the team project collection. You can create applications that extend Team Foundation Server by using some of these services. For more information about creating applications for TFS, see Extending Team Foundation

Tip

Some services appear in more than one level. For example, the Registry service functions at the collection level and the server level, and appears in both lists.

  • Team Foundation Framework Services

    • Registry service

    • Registration service (for compatibility with earlier versions of Team Foundation Server)

    • Property Service

    • Event Service

    • Security service

    • Location service

    • Identity Management service

  • Version Control Web service

  • Work Item Tracking Web service

  • Team Foundation Build Web service

  • Lab Management Web service

  • VMM Administration Web service

  • Test Agent Controller Web service

Server-level services

Server-level services (also known as application-level services) provide the functionality for operations for Team Foundation Server as a software application. You can create applications that extend Team Foundation Server by using some of these services. For more information, see Extending Team Foundation.

  • Team Foundation Framework Services

    • Registry service

    • Event service

    • Team Project Collection service

    • Property service

    • Security service

    • Location service

    • Identity Management service

    • Administration Service

    • Collection Management Service

    • Catalog Service

Data tier

The data tier includes data, stored procedures, and other associated logic. When you use Visual Studio Online, the data tier is hosted for you using SQL Server Azure. In a local deployment of TFS, the logical data tier consists of the following operational stores within SQL Server. These stores might be located on one physical server or distributed across many servers. You can create applications that extend Team Foundation Server by using some of these operational stores. For more information, see Extending Team Foundation.

  • Configuration database (TFS_Configuration)

  • Application warehouse (TFS_Warehouse)

  • Analysis Services database (TFS_Analysis)

  • Databases for team project collections (TFS_CollectionName)

The following table provides a list of the databases that Team Foundation Server uses in local deployments. Unless otherwise noted, you can move all databases in this list from the original server and instance where they are installed and restore them to another server or instance.

Database Name and Description

Server

TFS_Configuration This database stores the catalog of resources and the configuration information for Team Foundation Server. This database contains the operational stores for Team Foundation Server.

Instance of SQL Server that is used when Team Foundation Server is installed and configured.

TFS_Warehouse This database stores the data for reports.

Instance of SQL Server that is used when Team Foundation Server is installed and configured.

TFS_Analysis This multi-dimensional database stores the aggregated data from team project collections.

Instance of SQL Server that is used when Team Foundation Server is installed and configured.

Databases for team project collections One database for each team project collection, containing data from all team projects in that collection.

Instance of SQL Server that is compatible with Team Foundation Server.

Client tier

The client tier communicates with the application tier through the server object model, and uses the same Web services that are listed for that tier. This is true whether you deploy TFS locally, or if you use Visual Studio Online. Besides that model, the client tier consists of Visual Studio Industry Partners (VSIP) components, Microsoft Office integration, command-line interfaces, and a framework for check-in policies.

Configuration information

The hosted service depends on the client services, deployed locally, and an Internet connection to the application and data tiers hosted in the cloud. A local deployment of Team Foundation Server depends on SQL Server, Internet Information Services (IIS), and the Windows operating system. Contingent on your chosen topology, Team Foundation Server might also depend on SQL Server Reporting Services or SharePoint Products. Therefore, configuration information for Team Foundation Server can be stored in any of the following locations:

  • IIS data stores.

  • Configuration files for Team Foundation Server.

  • Data sources for Reporting Services (for example, TFSREPORTS data).

  • Configuration database for Team Foundation Server. The Team Foundation Server registry is part of the configuration database.

  • Windows Registry.

For examples of different local deployment topologies and where these resources are stored, see Examples of Simple Topology, Examples of Moderate Topology, and Examples of Complex Topology. As you maintain a local deployment of Team Foundation Server, you must take these configuration sources into account. To change the configuration in any way, you might need to modify information that is stored in multiple locations. You might also need to change configuration information for the data and client tiers. Team Foundation Server includes an administration console and several command-line utilities to help you make these changes. For more information, see Configure and manage TFS resources.

Synchronization of group identities between Active Directory and Team Foundation Server

In local deployments where Team Foundation Server is running in an Active Directory domain, group and identity information is synchronized when any of the following events occur:

  • The application-tier server for Team Foundation starts.

  • An Active Directory group is added to a group in Team Foundation Server.

  • The period of time that is specified in the scheduled job elapses. The default is one hour, and all groups in Team Foundation Server update every 24 hours.

Identity Management Services (IMS) synchronizes with Active Directory, and changed identities propagate from the server to the clients. By default, all groups update within 24 hours, but you can customize this to better suit the needs of your deployment. For more information, see Trusts and Forests Considerations for Team Foundation Server. For local deployments that do not use Active Directory, see Managing Team Foundation Server in a Workgroup.

Groups and permissions

In a local deployment, Team Foundation Server has its own set of default groups and permissions that you can set at the project, collection, or server level. You can create custom groups and customize permissions at group and individual levels. However, users or groups that you add to Team Foundation Server are not automatically added to two components on which local deployments of Team Foundation Server can depend: SharePoint Products and Reporting Services. If your deployment uses these programs, you must add users and groups to them and grant the appropriate permissions before those users or groups will function correctly across all operations in Team Foundation Server. For more information, see Manage users or groups in TFS.

For hosted deployments, access is controlled through a combination of Microsoft accounts and team membership. For more information, log onto the service with your Microsoft account and choose Learn.

Network ports and protocols

By default, a local deployment of TFS is configured to use specific network ports and protocols. The following illustration shows network traffic for Team Foundation Server in a simple deployment.

Ports and communications simple diagram

Hosted TFS

Similarly, the hosted service for TFS is configured to use specific network ports and protocols. The following illustration shows network traffic in a hosted deployment.

Simple diagram of hosted TFS service

The following illustration shows network traffic in a more complex deployment that includes the components for Visual Studio Lab Management.

Ports and communications complex diagram part 1Ports and communications complex diagram part 3Ports and communications complex diagram part 2

Virtual machines use port 80 to communicate with any test controller about the download of a lab management agent. Check that this port is enabled if you are having any communication issues.

Default network settings

By default, communication between the computers in a deployment of Team Foundation uses the protocols and ports shown in the following table. If an asterisk (*) follows the port number, you can customize that port.

Tier and service

Protocol

Port

Application tier – Web Services

HTTP/HTTPS

8080/443*

Application tier – SharePoint Products Administration

HTTP

17012* if SharePoint Products was installed with Team Foundation Server; otherwise, randomly generated

Application tier – SharePoint Products and Reporting Services

HTTP

Windows Management Instrumentation (WMI) service (required during installation to specify and verify the URLs for reporting services)

80*

Dynamic port

Data tier

MS-SQL TCP

1433*

Data tier (SQL Server Analysis Services)

MS-AS

default (2382 or 2383)*

The default port varies depending on the version of SQL Server you installed and the type of instance. Use SQL Server Configuration Manager to determine the ports used by your deployment.

Team Foundation Server Proxy - client to proxy

HTTP

8081*

Team Foundation Server Proxy - proxy to application tier

HTTP/HTTPS

8080/443*

Client tier - Reporting Services

HTTP

80*

Client tier - Web services

HTTP/HTTPS

8080/443*

Build controller to application tier

HTTP/HTTPS

8080/443

Build agent to application tier

HTTP/HTTPS

8080/443

Release Management Server

HTTP or HTTPS

1000*

Release Management Client

HTTP or HTTPS

1000*

Release Management Agent

HTTP or HTTPS

1000*

Test controller to application tier

HTTP/HTTPS

8080/443*

Application tier to test controller

.NET remoting

6901*

Application tier to Domain Name System (DNS)

DNS Dynamic Update

53

Application tier – Virtual Machine Manager

HTTP

8100

Test controller to test agent

.NET remoting

6910*

Test agent to test controller

.NET remoting

6901*

Build controller to build agent

SOAP over HTTP

9191

Lab agent to lab agent in an isolated environment

TCP sockets

9050

Build agent to build controller

SOAP over HTTP

9191

Virtual Machine Manager Administrator Console – Virtual Machine Manager

HTTP

8100

Virtual Machine Manager– Virtual Machine Manager hosts

Windows Remote Management (WinRM) to perform actions

Background Intelligent Transfer Service (BITS) to transfer data

80 to perform actions

443 to transfer data

Virtual Machine Manager– Virtual Machine Manager library server

WinRM to perform actions

BITS to transfer data

80 to perform actions

443 to transfer data

Application tier – Virtual Machine Manager hosts

Distributed Component Object Model/Windows Management Interface (DCOM/WMI) communication to transfer data

135

Dynamically assigned in the range 49152 to 65535

Client tier – Virtual Machine Manager hosts

Host-based connection to the virtual machine.

2179 to perform host-based connections.

Hosted services

HTTPS

443

Customizable network settings

As the previous table shows, you can change communication between the application, data, and client tiers in local deployments by modifying Team Foundation Server to use custom ports. The following table describes example changes in ports from HTTP to HTTPS.

Note

To configure Team Foundation Server to use HTTPS and Secure Sockets Layer, you must not only enable ports for HTTPS network traffic but also perform many other tasks. For more information, see Set up HTTPS with Secure Sockets Layer (SSL) for Team Foundation Server.

Service

Protocol

Port

Web Services with SSL

HTTPS

Configured by the administrator

SharePoint Central Administration

HTTPS

Configured by the administrator

SharePoint Products

HTTPS

443

Reporting Services

HTTPS

443

Client Web Services

HTTPS

Configured by the administrator

Release Management

HTTPS

Configured by the administrator

See Also

Concepts

Team Foundation Server concepts

Permission reference for Team Foundation Server

Components of the TFS data warehouse